WO2011059269A2 - Air suction pump and method for vacuum sealing vinyl bag using same - Google Patents

Abstract

The present invention relates to an air suction pump and a method for vacuum sealing a vinyl bag using the same. The air suction pump includes: a base member; a housing mounted at the upper portion of the base member to be able to move in the vertical direction, and opened at both upper and lower portions thereof; a piston member disposed in the housing to be able to move in the vertical direction, and having an upper portion exposed to the outside by penetrating the upper portion of the housing; a first hot wire mounted to any one or more of the top surface of the base member, the bottom surface of the housing, or the lower portion of the piston to be exposed to the outside; and a power supply section for supplying power to the first hot wire. According to the air suction pump, a vinyl bag is sealed immediately after vacuum is applied within the vinyl bag by discharging the internal air of the vinyl bag to the outside, so that food stored in the vinyl bag may be kept in the vacuum state for a long time.

Description

Air suction pump and vacuum and sealing method of plastic bags using the same

The present invention relates to an air suction pump and a vacuum and sealing method of a plastic bag using the same, and in particular, the air suction pump and the plastic bag using the same can be sealed immediately after vacuuming by discharging the internal air to the outside by manual It relates to a vacuum and a sealing method.

When storing foods such as fruits, vegetables, meat, and side dishes, foods can quickly rot or spoil due to oxygen in the air.

Accordingly, a vacuum container is used to discharge the air in the container to the outside and store it in a vacuum state.

The vacuum vessel may have an exhaust means for discharging the internal air to the outside of the vessel itself, but usually has a check valve for discharging the internal air at one end of the vacuum vessel and vacuum by using a separate automatic pump or a manual pump Allow the air inside the container to vent outside.

In the case of automatic pumps, the manual pump is generally used because of the high price.

A general manual pump includes a housing, a piston part disposed inside the housing, a rod member having one end coupled to the piston part and the other end exposed to the outside of the housing, and a handle part coupled to the other end of the rod member. It is made to include.

Such a conventional manual pump has only a vacuum suction function, so that the function is simple, and when sealing the plastic bag, a separate sealing device must be provided.

The present invention is to solve the above shortcomings, in addition to the vacuum suction function is provided with a sealing function that can seal the plastic bag, can achieve a multipurpose effect with a single device, and vacuum suction the inside of the plastic bag An object of the present invention is to provide an air suction pump that can be sealed immediately, and a vacuum and sealing method of a plastic bag using the same.

Air suction pump of the present invention for achieving the above technical problem, the base member; A housing mounted to an upper portion of the base member so as to be movable upward and downward, and having an upper and lower portion open; A piston member disposed in the housing so as to be movable, and having an upper portion penetrated through the upper portion of the housing and exposed to the outside; A first heating wire mounted to be exposed to at least one of an upper surface of the base member, a lower surface of the housing, and a lower portion of the piston member; It consists of a power supply for supplying power to the first heating wire.

The air suction pump is disposed in the plastic bag through the discharge hole formed in the plastic bag by the reciprocating motion of the piston member is disposed between the base member and the housing and the plastic bag with the discharge hole formed on the upper surface and the housing is lowered. After the air is discharged to the outside, the first heating wire is heated to heat seal the circumference of the discharge hole formed in the plastic bag.

Or, it further comprises a punch projection is mounted to protrude downward in the lower portion of the piston member, the first heating wire is disposed around the punch projection, the seating is inserted into the upper surface of the base member is seated The groove is formed, and when the piston member is lowered to the upper surface of the plastic bag in a state where the plastic bag is disposed between the base member and the housing, the punch protrusion cuts the plastic bag to form a discharge hole. After the piston member discharges the air inside the plastic bag to the outside through the discharge hole, the first heating wire is heated to heat seal the circumference of the discharge hole formed in the plastic bag.

Alternatively, the main gasket may further include a main gasket protruding from an upper surface of the base member or a lower surface of the housing, wherein the base member is formed with a receiving portion opened upwardly, through an open front between the base member and the housing. When moving the piston member in the state in which the plastic bag is placed, foreign matter discharged from the plastic bag is to be accommodated in the housing.

Or a closed curved main gasket protruding from an upper surface of the base member or a lower surface of the housing; The stopper protrusion protruding from the base member or the housing to prevent movement of the plastic bag inserted between the base member and the housing is further included, wherein the first heating wire is a direction in which the plastic bag is inserted rather than the stopper protrusion. It is disposed in the front, the base member or the housing is provided with a check valve in the inside of the main gasket when the piston member is raised when the air inside the plastic bag moves only to the lower portion of the housing.

Or a main gasket mounted to protrude upwardly on the upper surface of the base member or protrude downwardly on the lower surface of the housing; And a stopper protruding upward on the upper surface of the base member or protruding downward on the lower surface of the housing, wherein the first heating wire is mounted to be exposed to the lower surface of the housing to the outside. The protruding length of the gasket is larger than the protruding length of the stopper, and when the housing is lowered, the main gasket is compressed while pressing the plastic bag disposed between the base member and the housing until the lowering of the housing is stopped by the stopper. .

Or, it further comprises a main gasket protruding upward on the upper surface of the base member or protruding downward on the lower surface of the housing, wherein the first heating wire is mounted to be exposed to the outside of the lower surface of the housing The base member is opened upwardly and communicates with the inside of the housing, the outer surface of the base member is formed with a first communication hole for communicating the inside and outside of the base member, the base member is the first communication hole The communication door which opens and closes is attached.

In addition, the vacuum and sealing method of the plastic bag of the present invention for achieving the above-described technical problem, characterized in that the vacuum bag and sealing the plastic bag using an air suction pump provided with a first heating wire and a piston member.

Vacuum and seal the plastic bag having the discharge hole formed on the upper surface by using the air suction pump having the first heating wire and the piston member, and after sealing the opening, the plastic bag through the discharge hole by the reciprocating motion of the piston member. The air inside is discharged to the outside, and then heat-sealed around the discharge hole using the first heating wire.

Alternatively, the vacuum bag and the plastic bag having an opening are sealed by using an air suction pump having a first heating wire and a piston member, and after sealing the opening, the air bag is mounted on the plastic bag using an air suction pump equipped with a punch protrusion. A ball is formed, and the air inside the plastic bag is discharged to the outside through the discharge hole by the reciprocating motion of the piston member, and then the heat sealing is performed around the discharge hole using the first heating wire.

Or a base member; A housing mounted to an upper portion of the base member so as to be movable upward and downward, and having an upper and lower portion open; A piston member disposed in the housing so as to be movable, and having an upper portion penetrated through the upper portion of the housing and exposed to the outside; A first heating wire mounted to be exposed to at least one of an upper surface of the base member, a lower surface of the housing, and a lower portion of the piston member; A power supply unit supplying power to the first heating wire; Comprising a closed curved main gasket protruding from the upper surface of the base member or the lower surface of the housing, the plastic bag of the plastic bag using an air suction pump to inhale the air inside the plastic bag to be discharged to the outside and sealed by heat sealing Vacuum and seal, heat sealing the opening of the plastic bag by the first heating wire mounted on the air suction pump in the state that the opening of the plastic bag is inserted into the air suction pump, but a certain section is opened to form an opening. A first heat-sealing step to make; After repositioning by rotating the plastic bag, the air discharge step of discharging the air inside the plastic bag to the outside through the opening of the plastic bag using the air suction pump; And a second heat sealing step of sealing the opening of the plastic bag by heat sealing by the first heating wire of the air suction pump.

According to the air suction pump of the present invention and the vacuum and sealing method of the plastic bag using the same as described above has the following effects.

Through one product, the air suction function of the manual pump and the sealing function to seal the plastic bag can be performed at once, so that the multipurpose effect can be achieved with one device.

In particular, the plastic bag is not equipped with a check valve can be heat sealed immediately after the air intake, there is an effect that can be used in general plastic bags are not equipped with a check valve.

In addition, the foreign matter discharged from the plastic bag by the housing portion can be accommodated to prevent the foreign matter from moving inside the housing and being contaminated.

In addition, since a plastic bag without a check valve is cut by using a punching protrusion, air intake can be performed immediately after inhaling the air, and thus, a general plastic bag without a check valve can be used.

In addition, only the air suction pump having a size smaller than the opening size of the plastic bag can discharge the air inside the plastic bag to the outside without cutting the plastic bag to the outside and then heat-sealed and vacuumed, which is convenient to manage and carry.

In addition, since the compression amount of the main gasket is adjusted by the stopper when the housing is lowered, the plastic bag is prevented from being pressed too much by the main gasket to prevent the air inside the plastic bag from passing through the pressing part of the main gasket.

In other words, if the main gasket is too hard to push the plastic bag, the internal air of the plastic bag is not allowed to pass through the pressurized portion, so that the vacuum inside the plastic bag becomes difficult. Therefore, the inner air of the plastic bag can be discharged to the outside through the pressurized portion.

In addition, the first heating wire is heated by the button part disposed between the housing body and the handle part, that is, the first heating wire is heated when the button part is lowered to the maximum, thereby eliminating the need for the first heating wire during the lifting motion of the piston member. It is possible to prevent the power is applied.

In addition, by reciprocating the piston member manually, the plastic bag can be easily vacuumed, and at the same time, when the vacuum is completed, it can be heat sealed and sealed.

Further, by forming the second communication hole in the lower portion of the base member, not only the plastic bag but also the vacuum container may be vacuumed, and the cap of the wine bottle may be separated.

In addition, by forming a pressing portion that presses the upper portion of the check valve, the check valve can be better closed the upper portion of the suction hole.

In addition, by forming the rail protrusion, it is possible to better fasten the zipper portion of the zipper bag.

1 is a perspective view of an air suction pump according to a first embodiment of the present invention;

2 is an exploded perspective view of an air suction pump according to a first embodiment of the present invention;

3 is a cross-sectional view of the air suction pump according to the first embodiment of the present invention;

4 is a perspective view of a coupling member and a lifting member according to the first embodiment of the present invention;

5 is a perspective view of a state in which a plastic bag is inserted into an air suction pump according to a first embodiment of the present invention;

6 is a cross-sectional view of a plastic bag inserted into the air suction pump according to the first embodiment of the present invention,

7 is a cross-sectional view of the base member and the piston member in a lower state in Figure 6,

FIG. 8 is a cross-sectional view of a state in which air is sucked inside the plastic bag by raising the piston member in FIG. 7; FIG.

9 is a cross-sectional view of a state in which the plastic bag is heat-sealed by lowering the piston member in a state where the air discharge inside the plastic bag is completed by using the air suction pump according to the first embodiment of the present invention;

10 is a perspective view of a sealed plastic bag using an air suction pump according to a first embodiment of the present invention,

11 is an exploded perspective view of an air suction pump according to a second embodiment of the present invention;

12 is a sectional view of an air suction pump according to a second embodiment of the present invention;

13 is a cross-sectional view of the plastic bag is inserted into the air suction pump according to a second embodiment of the present invention,

14 is a cross-sectional view of the base member and the piston member in the lowered state in Figure 13,

FIG. 15 is a cross-sectional view of a state in which air is sucked inside the plastic bag by raising the piston member in FIG. 14;

16 is a cross-sectional view of a state in which the plastic bag is heat-sealed by lowering the piston member in a state where the air discharge inside the plastic bag is completed by using the air suction pump according to the second embodiment of the present invention;

17 is a perspective view of a main configuration of an air suction pump according to a third embodiment of the present invention;

18 is a plan view showing an arrangement state of the first heating wire and the plastic rod according to the third embodiment of the present invention;

19 is a perspective view of a sealed plastic bag using an air suction pump according to a third embodiment of the present invention;

20 is an exploded perspective view of an air suction pump according to a fourth embodiment of the present invention;

21 is a perspective view of an air suction pump according to a fifth embodiment of the present invention;

22 is an exploded perspective view of an air suction pump according to a fifth embodiment of the present invention;

23 is a sectional view of an air suction pump according to a fifth embodiment of the present invention;

24 is a perspective view of a punch member and a lifting member according to the fifth embodiment of the present invention;

25 is a perspective view of a state in which a plastic bag is inserted into an air suction pump according to a fifth embodiment of the present invention;

26 is a cross-sectional view of the plastic bag is inserted into the air suction pump according to a fifth embodiment of the present invention,

FIG. 27 is a cross-sectional view of the discharge member formed in the plastic bag by lowering the base member and the piston member in FIG. 26;

FIG. 28 is a cross-sectional view of a state in which air is sucked inside the plastic bag by raising the piston member in FIG. 27;

29 is a cross-sectional view of a state in which the plastic member is heat-sealed by lowering the piston member in a state in which air is discharged from the inside of the plastic bag using the air suction pump according to the fifth embodiment of the present invention;

30 is a perspective view of a sealed plastic bag using an air suction pump according to a fifth embodiment of the present invention,

31 is an exploded perspective view of an air suction pump according to a sixth embodiment of the present invention;

32 is a cross-sectional view of an air suction pump according to a sixth embodiment of the present invention;

33 is a cross-sectional view of the plastic bag is inserted into the air suction pump according to a sixth embodiment of the present invention,

34 is a cross-sectional view of the discharge member formed in the plastic bag by lowering the base member and the piston member in FIG. 33;

FIG. 35 is a cross-sectional view of a state in which air is sucked inside the plastic bag by raising the piston member in FIG. 34; FIG.

36 is a cross-sectional view of a state in which a plastic bag is heat-sealed by lowering a piston member in a state in which air is discharged from the inside of a plastic bag using an air suction pump according to a sixth embodiment of the present invention;

37 is a perspective view of a main configuration of an air suction pump according to a seventh embodiment of the present invention;

38 is a plan view showing an arrangement state of the first heating wire and the plastic rod according to the seventh embodiment of the present invention;

39 is a perspective view of a sealed plastic bag using an air suction pump according to a seventh embodiment of the present invention;

40 is an exploded perspective view of an air suction pump according to an eighth embodiment of the present invention;

41 is a perspective view of an air suction pump according to a ninth embodiment of the present invention;

42 is an exploded perspective view of one direction of an air suction pump according to a ninth embodiment of the present invention;

43 is an exploded perspective view in another direction of the air suction pump according to the ninth embodiment of the present invention;

44 is a sectional view taken along line A-A of FIG. 41;

45 is a cross-sectional view taken along line B-B of FIG. 41;

46 is a cross-sectional view of a state in which an opening is sealed by inserting a plastic bag into a sealing part of an air suction pump according to a ninth embodiment of the present invention;

47 is a perspective view of a plastic bag inserted between a base member and a housing of an air suction pump according to a ninth embodiment of the present invention;

48 is a cross-sectional view of FIG. 47;

49 is a cross-sectional view of a state in which the housing is lowered and the piston member is raised and pumped in FIG. 47;

50 is a cross-sectional view of heat sealing the incision site of the plastic bag after completion of vacuum in the state shown in FIG.

51 is a perspective view of a plastic bag in a vacuum completed state by the air suction pump according to a ninth embodiment of the present invention,

52 is an enlarged structural diagram for explaining a power connection portion of an air suction pump according to a ninth embodiment of the present invention;

53 is a perspective view of an air suction pump according to a tenth embodiment of the present invention;

54 is an exploded perspective view of one direction of an air suction pump according to a tenth embodiment of the present invention;

55 is an exploded perspective view in another direction of the air suction pump according to the tenth embodiment of the present invention;

56 is a sectional view taken along line C-C of FIG. 53;

57 is a plan view briefly showing the positions of the stopper protrusion and the first heating wire of the air suction pump according to the tenth embodiment of the present invention;

58 is a cross-sectional view of a state of performing a first heat sealing step of heat-sealing a part of an opening by inserting a plastic bag into an air suction pump according to a tenth embodiment of the present invention;

59 is a plan view briefly showing the positions of the stopper protrusion, the first heating wire and the plastic bag in the state shown in FIG. 58;

60 is a perspective view of the plastic bag after completing the first heat sealing step shown in Figure 58 and 59,

61 is a cross-sectional view of the air discharge step of performing the pumping by inserting a plastic bag in the air suction pump according to a tenth embodiment of the present invention,

62 is a plan view briefly showing the positions of the stopper protrusion, the first heating wire and the plastic bag in the state shown in FIG. 61;

FIG. 63 is a cross-sectional view of a state of performing a second heat sealing step of thermally sealing an opening of a plastic bag using a first heating wire of an air suction pump according to a tenth embodiment of the present invention; FIG.

64 is a perspective view of the plastic bag after completing the second heat sealing step shown in FIG.

65 is a perspective view of a cover member according to another tenth embodiment of the present invention;

66 is a perspective view of a connection portion of a power supply unit and a third terminal according to a tenth embodiment of the present invention;

67 is a perspective view of an air suction pump according to an eleventh embodiment of the present invention;

68 is an exploded perspective view of one direction of an air suction pump according to an eleventh embodiment of the present invention;

69 is an exploded perspective view of another direction of the air suction pump according to the eleventh embodiment of the present invention;

70 is an exploded perspective view of a base member according to an eleventh embodiment of the present invention;

71 is an exploded perspective view of a lower cover in accordance with an eleventh embodiment of the present invention;

72 is an exploded perspective view of the lower cover according to the eleventh embodiment of the present invention in another direction;

73 is an exploded perspective view of a sealing part in accordance with an eleventh embodiment of the present invention;

FIG. 74 is a sectional view taken along line D-D of FIG. 67;

75 is a cross-sectional view taken along line E-E of FIG. 67;

76 is a cross-sectional view of a state in which a plastic bag is inserted into a sealing portion of an air suction pump according to an eleventh embodiment of the present invention to heat seal an opening;

77 is a perspective view of a plastic bag inserted between a base member and a housing of an air suction pump according to an eleventh embodiment of the present invention;

78 is a cross-sectional view in the state shown in FIG. 77;

FIG. 79 is a sectional view of the plastic bag being cut by lowering the housing in FIG. 78;

FIG. 80 is a sectional view of the piston pumped up in FIG. 79;

81 is a cross-sectional view of heat sealing the incision site of the plastic bag after completion of vacuum in the state shown in Figure 80,

82 is a perspective view of a plastic bag in a vacuum completed state by the air suction pump according to the eleventh embodiment of the present invention,

83 is a perspective view of an air suction pump according to a twelfth embodiment of the present invention;

84 is a one-way exploded perspective view of an air suction pump according to a twelfth embodiment of the present invention;

85 is an exploded perspective view in another direction of an air suction pump according to a twelfth embodiment of the present invention;

86 is an exploded perspective view of a base member according to a twelfth embodiment of the present invention;

87 is an exploded perspective view of a part of a housing according to a twelfth embodiment of the present invention;

88 is an exploded perspective view of another part of a housing according to a twelfth embodiment of the present invention;

FIG. 89 is a sectional view taken along line F-F in FIG. 83;

90 is a sectional view taken on line G-G in FIG. 83;

91 is a cross-sectional view of a plastic bag inserted between a base member and a housing of an air suction pump according to a twelfth embodiment of the present invention;

FIG. 92 is a cross-sectional view of the plastic bag being cut by lowering the housing in FIG. 91; FIG.

93 is a sectional view of the piston pumped up in FIG. 92;

94 is a cross-sectional view of heat sealing the incision portion of the plastic bag after completion of vacuum in the state shown in Figure 93,

95 is a perspective view of a plastic bag in a vacuum completed state by the air suction pump according to a twelfth embodiment of the present invention;

96 is a perspective view of an air suction pump according to another twelfth embodiment of the present invention;

First embodiment

1 is a perspective view of an air suction pump according to a first embodiment of the present invention, Figure 2 is an exploded perspective view of the air suction pump according to a first embodiment of the present invention, Figure 3 is a first embodiment of the present invention 4 is a cross-sectional view of an air suction pump, and FIG. 4 is a perspective view of a coupling member and a lifting member according to a first embodiment of the present invention.

As shown in Figures 1 to 4, the air suction pump of the present invention, the base member 110, the housing 120, the piston member 130, the first heating wire 140, the power supply unit ( 150).

The base member 110 is a portion that is supported on the bottom surface, the position display portion (I) is formed in the center of the upper surface so that the discharge hole 175 of the plastic bag 170 to be described later well disposed in the correct position It is desirable to.

In addition, the upper surface of the base member 110 is mounted with a ring-shaped first pressing protrusion 113 and a ring-shaped first packing member 112 that surrounds the first pressing protrusion 113 again.

In addition, the side of the base member 110, the guide protrusion 115 is formed to protrude upward.

The housing 120 is mounted to the upper portion of the base member 110 so as to be movable in the vertical direction, and the upper and lower portions thereof are open.

A ring-shaped second packing member 122 corresponding to the first packing member 112 is mounted on the bottom surface of the housing 120.

The guide 120 is inserted into the housing 120 so that the guide protrusion 115 slides.

The guide portion 125 is open downward to allow the guide protrusion 115 to be inserted from below.

The first spring 116 is mounted on the guide protrusion 115 to elastically support the base member 110 and the housing 120 in a direction away from each other.

That is, the first spring 116 is mounted on the upper portion of the guide protrusion 115 and the inner surface of the guide portion 125, so that the lower surface of the housing 120 in the free state is the base member 110. Spaced apart from the upper surface of the

A locking protrusion is formed at an upper end of the guide protrusion 115, and a locking jaw at which the locking protrusion is caught is formed at an inner side surface of the guide part 125, so that the guide protrusion 115 is attached to the guide part 125. After the insertion, the housing 120 and the base member 110 are prevented from being arbitrarily separated.

The piston member 130 is disposed inside the housing 120, and an upper portion thereof is exposed to the outside through the upper portion of the housing 120, and a handle portion 138 is formed on the upper portion.

As shown in FIGS. 1 to 3, an additional sealing device 160 may be mounted on the piston member 130 to heat seal the opening of the plastic bag 170.

In this case, the sealing device 160 is disposed under the cover member 161 and the cover member 161 which are elevated to the handle portion 138 and exposed to the outside when the cover member 161 is lowered. It is made to include a sealing heating wire 162.

The sealing heating wire 162 is connected to the power supply 150 to be heated as needed.

The sealing device 160 may be mounted in various structures in addition to those shown in FIGS. 1 to 3.

The first heating wire 140 is formed in a closed curve shape so as to be exposed to the lower direction of the piston member 130.

In the present embodiment, the first heating wire 140 is formed in a ring shape.

In this case, the first heating wire 140 is disposed inside the first packing member 112 and the second packing member 122.

The first heating wire 140 is mounted with the position display part I formed on the base member 110 as the center.

Unlike the present embodiment, the first heating wire 140 may be mounted to be exposed to the outside of the lower surface of the housing 120.

The power supply unit 150 is for supplying power to the first heating wire 140, it is embedded in the piston member 130 in the present embodiment.

The power supply unit 150 may supply power to both the first heating wire 140 and the sealing device 160 mounted to the piston member 130.

Inside the piston member 130, a support part 131 is formed on which the fixed terminal 136 connected to the power supply unit 150 is mounted.

In addition, the lifting member 132 is mounted to the lower portion of the piston member 130 to be movable in the vertical direction.

The elevating member 132 is further protruded downwardly than the lower surface of the piston member 130, the lower portion of the elevating member 132 is mounted so that the ring-shaped first heating wire 140 is exposed downward It is.

At this time, the first heating wire 140 and the first pressing protrusion 113 are the same in diameter, so that the first heating wire 140 and the piston member 130 are in contact with each other when descending.

A lower portion of the elevating member 132 is disposed inside the first heating wire 140, the coupling member 133 is fixed to the support portion 131 by a screw or the like is disposed.

To this end, a recess is formed in the center of the elevating member 132, and the coupling member 133 is disposed therein.

The first heating wire 140 is mounted on the lower surface of the outer circumferential surface of the elevating member 132 around the coupling member 133.

A second spring 135 is disposed between the support part 131 and the elevating member 132 to elastically support the elevating member 132 toward the coupling member 133.

In addition, the first heating wire 140 is formed with a connection terminal 146 extending through the lifting member 132 in the direction of the fixed terminal 136.

Therefore, the fixed terminal 136 and the connection terminal 146 are spaced apart from each other by the elastic force of the second spring 135 in the free state, when the lifting member 132 is moved upward, The connection terminal 146 is connected to the fixed terminal 136 to supply the power of the power supply unit 150 to the first heating wire 140 to heat the first heating wire 140.

In addition, for more safety, it may further comprise a switch unit (not shown) for controlling the connection of the power supply unit 150 and the fixed terminal 136.

The switch unit is operated by the user in an on-off manner to connect or disconnect between the power supply unit 150 and the fixed terminal 136, thereby controlling the current supplied to the first heating wire 140 by the user to the first heating wire It is possible to safely protect the 140 from being heated arbitrarily.

On the other hand, unlike the present embodiment, the first heating wire 140 may be fixedly mounted so as to be exposed downward in the lower portion of the piston member 130 without being elevated.

In this case, there must be a switch unit (not shown) that controls the current generated from the power supply unit 150 to be supplied to the first heating wire 140.

Hereinafter, an operation process of the present invention having the above-described configuration will be described.

5 is a perspective view of the plastic bag is inserted into the air suction pump according to the first embodiment of the present invention, Figure 6 is a plastic bag 170 is inserted into the air suction pump according to the first embodiment of the present invention 7 is a cross-sectional view of a state in which the base member 110 and the piston member 130 are lowered in FIG. 6, and FIG. 8 is a piston bag 130 raised in FIG. 7 to raise the inside of the plastic bag 170. 9 is a cross-sectional view of a state of sucking air, and by using the air suction pump according to the first embodiment of the present invention by lowering the piston member 130 in the state in which the air discharge inside the plastic bag 170 is completed vinyl 10 is a cross-sectional view of a state of heat-sealing the bag 170, Figure 10 is a perspective view of a sealed plastic bag 70 using the air suction pump according to the first embodiment of the present invention.

As shown in FIG. 4, the upper surface of the base member 110 and the lower surface of the housing 120 are spaced apart from each other in the free state by the elastic force of the first spring 116.

An embossing 171 is formed on the inner side, and the food is put through the opening of the plastic bag 170 having the discharge hole 175 formed thereon, and then the opening is sealed.

As a method of sealing the opening, heat sealing is performed using a separate sealing device, or heat sealing is performed using the sealing device 160 mounted to the handle portion 138 or the housing 120 as described above.

That is, the opening of the plastic bag 170 is sealed by heating the sealing heating wire 162 mounted on the sealing device 160.

If a zipper bag is used, the opening is sealed using a zipper.

5 and 6, the plastic bag 170 is disposed between the upper surface of the base member 110 and the lower surface of the housing 120.

5 shows a heat sealing line S at an adjacent portion of the opening of the plastic bag 170.

In addition, when the plastic bag 170 is disposed between the base member 110 and the housing 120, as shown in FIG. 5, a portion where the embossing 171 of the plastic bag 170 is formed is disposed.

At this time, the user places the discharge hole 175 formed in the plastic bag 170 by the position display unit I formed in the base member 110 to the position display unit I.

In order to discharge the air inside the plastic bag 170 to the outside, the housing 120 and the piston member 130 is lowered as shown in FIG.

When the housing 120 is lowered, the inside of the first packing member 112 and the second packing member 122 by the first packing member 112 and the second packing member 122, that is, the housing ( The interior of the 120 is to be cut off from the outside.

However, the inside of the plastic bag 170 is in communication with the inside and the outside of the first packing member 112 and the second packing member 122 by the embossing (171).

Therefore, as described later, air inside the plastic bag 170 may flow between the embossing 171.

As the housing 120 descends, the discharge hole 175 communicates the inside of the plastic bag 170 with the inside of the housing 120.

At this time, since the switch unit is in an off state and the connection terminal 146 and the fixed terminal 136 are spaced apart from each other, the first heating wire 140 is not heated.

In this state, as shown in FIG. 8, when the piston member 130 is raised, air inside the plastic bag 170 is introduced into the housing 120 through the discharge hole 175, and again. When the piston member 130 is lowered, the air inside the housing 120 is discharged to the outside by the principle of a general manual hand pump.

The air inside the plastic bag 170 is discharged to the outside by the vertical reciprocating motion of the piston member 130 as described above.

When the discharge of the air inside the plastic bag 170 is completed, as shown in FIG. 9, the user pushes the piston member 130 downward more than the state shown in FIG. 7.

Then, as shown in FIG. 7, the first heating wire 140 is in contact with the top surface of the plastic bag 170 in the expanded state of the second spring 135, and the user is provided with the piston member 130. As the first heating wire 140 can not be lowered any further by lowering), the piston member 130 and the coupling member except for the lifting member 132 on which the first heating wire 140 is mounted. 133 is further lowered while compressing the second spring 135.

As a result, as shown in FIG. 9, the connection terminal 146 and the fixed terminal 136 are in contact with each other, and a current generated from the power supply unit 150 is applied to the first heating wire 140 so that the first heating wire ( 140).

When the switch unit (not shown) for controlling the connection state between the power supply unit 150 and the fixed terminal 136 is mounted, the switch unit is turned on so that the first heating wire 140 is heated.

The first heating wire 140 and the first pressing protrusion 113 is heat-sealed while strongly pressing the plastic bag 170 disposed therebetween.

At this time, since the first heating line 140 is formed in a ring shape around the position display unit I and the discharge hole 175 of the plastic bag 170 is located in the position display unit I, The plastic bag 170 is heat-sealed in a closed curve shape around the discharge hole 175 by the first heating wire 140.

To this end, it is obvious that the diameter of the first heating wire 140 should be larger than the diameter of the discharge hole 175.

As a result, the plastic bag 170 is sealed in a vacuum state.

When the user releases the housing 120 and the piston member 130, the housing 120 and the piston member 130 are raised by the elastic restoring force of the first spring 116 that has been compressed. The plastic bag 170 may be taken out between the base member 110 and the housing 120.

10 is a plastic bag 170 is heat-sealed by the air suction pump of the present invention is shown.

As shown in FIG. 10, a discharge hole 175 is formed in the plastic bag 170, and a heat sealing line S is formed at a periphery of the discharge hole 170 and a portion adjacent to the opening. .

The present invention as described above can be used in the general plastic bag 170 is not equipped with a check valve, it is economical.

Second embodiment

11 is an exploded perspective view of the air suction pump according to the second embodiment of the present invention, Figure 12 is a cross-sectional view of the air suction pump according to the second embodiment of the present invention.

Compared to the first embodiment, the second embodiment has a difference in the mounting position of the first heating wire 140, which will be described below.

The air suction pump according to the second embodiment includes a base member 110, a housing 120, a piston member 130, a first heating wire 140, a power supply unit 150, and the like.

A position display unit I is formed on an upper surface of the base member 110, and the ring-shaped first heating wire 140 is mounted to be exposed upwardly with respect to the position display unit I.

In addition, the guide protrusion 115 and the first spring 116 and the like are the same as the above-described first embodiment, a detailed description thereof will be omitted.

The housing 120 is the same as the first embodiment, a detailed description thereof will be omitted.

A ring-shaped second pressing protrusion 137 corresponding to the first heating wire 140 is protruded from the lower portion of the piston member 130.

In addition, the power supply unit 150 may be built in the piston member 130 and connected to the first heating wire 140, but in this embodiment, the power supply unit 150 is mounted on the base member 110. It was connected to the first heating wire 140.

In addition, the second embodiment requires a switch unit (not shown) for controlling the current generated by the power supply unit 150 to be supplied to the first heating wire 140.

The switch unit is operated by the user in an on-off manner to connect or disconnect the power supply unit 150 and the first heating wire 140.

Hereinafter, an operation process of the present invention having the above-described configuration will be described.

13 is a cross-sectional view of the plastic bag 170 is inserted into the air suction pump according to the second embodiment of the present invention, Figure 14 is a state in which the base member 110 and the piston member 130 in FIG. 15 is a cross-sectional view of a state in which air is sucked in the plastic bag 170 by raising the piston member 130 in FIG. 14, and FIG. 16 is an air intake pump according to a second embodiment of the present invention. It is a cross-sectional view of the state in which the plastic bag 170 is heat-sealed by lowering the piston member 130 in a state in which air discharge inside the plastic bag 170 is completed.

In the second embodiment, as shown in FIG. 12, the upper surface of the base member 110 and the lower surface of the housing 120 are spaced apart from each other in the free state by the elastic force of the first spring 116.

After putting food or the like through the opening of the plastic bag 170, the opening is sealed.

Thereafter, as shown in FIG. 13, the plastic bag 170 is disposed between the upper surface of the base member 110 and the lower surface of the housing 120.

In order to discharge the air inside the plastic bag 170 to the outside, as shown in FIG. 14, the housing 120 and the piston member 130 are lowered.

When the housing 120 is lowered, the inside of the first packing member 112 and the second packing member 122 is blocked by the outside by the first packing member 112 and the second packing member 122. Will be.

In addition, due to the lowering of the housing 120, the discharge hole 175 communicates the inside of the plastic bag 170 with the inside of the housing 120.

At this time, since the switch unit is in an off state, the first heating wire 140 is not heated.

In this state, as shown in FIG. 15, when the piston member 130 is raised, air inside the plastic bag 170 is introduced into the housing 120 through the discharge hole 175 and again. When the piston member 130 is lowered, the air inside the housing 120 is discharged to the outside by the principle of a general manual hand pump.

The air inside the plastic bag 170 is discharged to the outside by the vertical reciprocating motion of the piston member 130 as described above.

When the discharge of the air inside the plastic bag 170 is completed, as shown in FIG. 16, the user pushes the piston member 130 lower than the state shown in FIG. 14.

Then, as illustrated in FIG. 16, the plastic bag 170 disposed between the first heating wire 140 and the second pressing protrusion 137 is strongly pressed.

In this state, the switch unit is turned on so that the first heating wire 140 is heated.

As the first heating wire 140 is heated, the plastic bag 170 is heat sealed.

At this time, since the first heating line 140 is formed in a ring shape around the position display unit I and the discharge hole 175 of the plastic bag 170 is located in the position display unit I, The plastic bag 170 is heat-sealed in a closed curve shape around the discharge hole 175 by the first heating wire 140.

As a result, the plastic bag 170 is sealed in a vacuum state.

When the user releases the housing 120 and the piston member 130, the housing 120 and the piston member 130 are raised by the elastic restoring force of the first spring 116 that has been compressed. The plastic bag 170 may be taken out between the base member 110 and the housing 120.

The present invention as described above can be used in the general plastic bag 170 is not equipped with a check valve, it is economical.

Third embodiment

17 is a perspective view of a main configuration of an air suction pump according to a third embodiment of the present invention, and FIG. 18 is a plan view showing an arrangement state of the first heating wire 140 and the plastic rod part according to the third embodiment of the present invention. 19 is a perspective view of a sealed plastic bag 170 using an air suction pump according to a third embodiment of the present invention.

Compared to the first embodiment, the third embodiment has a difference in shape of the first heating wire 140, and the rest of the configuration is the same, and the center of the first heating wire 140 will be described below.

As shown in FIGS. 17 and 18, the first heating line 140 is formed in an open curved shape with one side open.

In the present embodiment, the first heating wire 140 is formed in a horseshoe shape.

The first heating wire 140 has a diameter larger than the diameter of the discharge hole 175, is mounted to the lower portion of the elevating member 132.

As shown in FIG. 18, when the plastic bag 170 is disposed between the housing 120 and the base member 110, both ends of the first heating wire 140 are upper surfaces of the plastic bag 170. The lower and lower surfaces are joined to the bonded portion P, and the bonding portion P of the first heating wire 140 and the plastic bag 170 forms a closed curve.

In addition, the discharge hole 175 is disposed inside the junction P of the first heating wire 140 and the plastic bag 170 having an arc shape.

As a result, when the first heating wire 140 heat seals the plastic bag 170, as shown in FIG. 19, the heat sealing line S and the vinyl formed by the first heating wire 140 are formed. The discharge hole 175 is disposed inside the closed curve formed by the junction portion P of the bag 170, so that outside air flows into the plastic bag 170 through the discharge hole 175. Block it.

Other matters are the same as those of the first embodiment, and detailed description thereof will be omitted.

Fourth embodiment

20 is an exploded perspective view of the air suction pump according to the fourth embodiment of the present invention.

Compared to the third embodiment, the fourth embodiment differs in the shape of the first heating wire 140, and the rest of the configuration is similar. The following description will focus on the first heating wire 140.

As shown in FIG. 20, the first heating wire 140 is formed in an open curved shape with one side open, and is mounted on the base member 110.

The shape of the first heating wire 140 is the same as in the above-described third embodiment.

The heat sealing by the first heating wire 140 in the fourth embodiment, the discharge hole 175 is the same as the third embodiment shown in Figs. 18 and 19, the detailed description thereof will be omitted. .

Fifth Embodiment

21 is a perspective view of an air suction pump according to a fifth embodiment of the present invention, FIG. 22 is an exploded perspective view of the air suction pump according to a fifth embodiment of the present invention, and FIG. 23 is a fifth embodiment of the present invention. Fig. 24 is a perspective view of a punch member and a lifting member according to the fifth embodiment of the present invention.

As shown in FIGS. 21 to 24, the air suction pump including the punch protrusion of the present invention includes a base member 210, a housing 220, a piston member 230, and a first heating wire 240. , The power supply unit 250 and the like.

The base member 210 is a portion that is supported on the bottom surface, the mounting groove 211 is formed in the center of the upper surface is the punch protrusion 234 to be described later.

In addition, a ring-shaped first pressing protrusion 213 surrounding the seating groove 211 and a ring-shaped first packing member surrounding the first pressing protrusion 213 are formed on an upper surface of the base member 210. 212 is mounted.

In addition, the side of the base member 210 is formed with a guide protrusion 215 protrudes upward.

The housing 220 is mounted to the upper portion of the base member 210 so as to be movable in the vertical direction, and the upper and lower portions thereof are open.

A second packing member 222 corresponding to the first packing member 212 is mounted on the bottom surface of the housing 220.

The guide 220 is formed in the housing 220 in which the guide protrusion 215 is inserted and slid.

The guide portion 225 is open downward to allow the guide protrusion 215 to be inserted from below.

The first spring 216 is mounted on the guide protrusion 215 to elastically support the base member 210 and the housing 220 in a direction away from each other.

That is, the first spring 216 is mounted on the upper portion of the guide protrusion 215 and the inner surface of the guide portion 225, the lower surface of the housing 220 in the free state is the base member 210 Spaced apart from the upper surface of the

A locking protrusion is formed at an upper end of the guide protrusion 215, and a locking jaw at which the locking protrusion is caught is formed at an inner side surface of the guide part 225, so that the guide protrusion 215 is attached to the guide part 225. After insertion, the housing 220 and the base member 210 are prevented from being arbitrarily separated.

The piston member 230 is disposed inside the housing 220, and an upper portion thereof is exposed to the outside through the upper portion of the housing 220, and a handle portion 238 is formed on the upper portion thereof.

As illustrated in FIGS. 21 to 23, a separate sealing device 260 may be mounted on the piston member 230 to heat seal the opening of the plastic bag 270.

In this case, the sealing device 260 is disposed under the cover member 261 and the cover member 261 to be elevated to the handle portion 238 and exposed to the outside when the cover member 261 is lowered. It comprises a sealing heating wire 262 is made.

The sealing heating wire 262 is connected to the power supply 250 to be heated as necessary.

The sealing device 260 may be mounted in various structures in addition to those shown in FIGS. 21 to 23.

The first heating wire 240 is formed in a closed curve shape so as to be exposed to the lower direction of the piston member 230.

In the present embodiment, the first heating wire 240 is formed in a ring shape.

In this case, the first heating wire 240 is disposed inside the first packing member 212 and the second packing member 222.

Unlike the present embodiment, the first heating wire 240 may be mounted to be exposed to the outside of the lower surface of the housing 220.

The power supply unit 250 is for supplying power to the first heating wire 240, and is embedded in the piston member 230 in the present embodiment.

The power supply unit 250 may supply power to both the first heating wire 240 and the sealing device 260 mounted to the piston member 230.

Inside the piston member 230, there is formed a support portion 231 to which the fixed terminal 236 connected to the power supply unit 250 is mounted.

And, the lifting member 232 is mounted to the lower portion of the piston member 230 to be movable in the vertical direction.

The elevating member 232 is protruded further downward than the lower surface of the piston member 230, the lower portion of the elevating member 232 is mounted so that the ring-shaped first heating wire 240 is exposed downward It is.

In this case, the first heating wire 240 and the first pressing protrusion 213 are the same in diameter, so that the first heating wire 240 and the piston member 230 are in contact with each other when the piston member 230 is lowered.

A punch member 233 having a punch protrusion 234 protruding downward from the elevating member 232 is disposed.

The punch protrusion 234 is sharply formed, so as to be described later, the plastic bag is cut by cutting the plastic bag 270 disposed between the housing 220 and the base member 210 when the piston member 230 descends. The inside of the 270 and the inside of the housing 220 serves to communicate.

The punch protrusion 234 is inserted into the mounting groove 211 formed in the base member 210 after cutting the plastic bag 270.

The punch member 233 is fixedly coupled to the support part 231 by a screw or the like.

The punch member 233 is disposed inside the first heating wire 240.

To this end, a recess is formed in the center of the elevating member 232, and the punch member 233 is disposed therein.

The first heating wire 240 is mounted on the lower surface of the outer circumferential surface of the elevating member 232 around the punch member 233.

That is, the ring-shaped first heating wire 240 is mounted while surrounding the periphery of the punch protrusion 234.

The punch protrusion 234 protrudes further downwardly than the first heating wire 240 to reach the plastic bag 270 disposed below the first heating wire 240 so as to cut the plastic bag 270. It is preferable to.

A second spring 235 is disposed between the support part 231 and the elevating member 232 to elastically support the elevating member 232 toward the punch member 233.

In addition, a connection terminal 246 is formed in the first heating wire 240 and extends in the direction of the fixed terminal 236 through the lifting member 232.

Thus, the fixed terminal 236 and the connection terminal 246 are spaced apart from each other by the elastic force of the second spring 235 in the free state, when the lifting member 232 is moved upwards, The connection terminal 246 is connected to the fixed terminal 236 to supply the power of the power supply unit 250 to the first heating wire 240 to heat the first heating wire 240.

In addition, for more safety, it may further comprise a switch unit (not shown) for controlling the connection of the power supply unit 250 and the fixed terminal 236.

The switch unit is operated by the user in an on-off manner to connect or disconnect between the power supply unit 250 and the fixed terminal 236, thereby controlling the current supplied to the first heating wire 240 by the user to the first heating wire Double heating can be safely protected on 240.

On the other hand, unlike the present embodiment, the punch protrusion 234 is integrally downwardly protruded to the lower portion of the piston member 230 without being raised, the first heating wire 240 of the piston member 230 It may be fixed to be mounted to the lower side exposed downward.

In this case, there must be a switch unit (not shown) that controls the current generated from the power supply unit 250 to be supplied to the first heating wire 240.

Hereinafter, an operation process of the present invention having the above-described configuration will be described.

25 is a perspective view of the plastic bag is inserted into the air suction pump according to a fifth embodiment of the present invention, Figure 26 is a plastic bag 270 is inserted into the air suction pump according to a fifth embodiment of the present invention FIG. 27 is a cross-sectional view of the state in which the discharge hole 275 is formed in the plastic bag 270 by lowering the base member 210 and the piston member 230 in FIG. 26, and FIG. 28 is shown in FIG. 27. A cross-sectional view of a state in which the piston member 230 is raised to suck air in the plastic bag 270, and FIG. 29 is an air inside the plastic bag 270 using an air suction pump according to a fifth embodiment of the present invention. A cross-sectional view of a state in which the piston member 230 is lowered in the discharged state to heat seal the plastic bag 270, and FIG. 30 is a sealed plastic bag using an air suction pump according to a fifth embodiment of the present invention. 70) is a perspective view.

As shown in FIG. 4, the upper surface of the base member 210 and the lower surface of the housing 220 are spaced apart from each other in the free state by the elastic force of the first spring 216.

Food and the like are put through the opening of the plastic bag 270 having the embossing 271 formed on the inner side thereof, and then the opening is sealed.

As a method of sealing the opening, heat sealing is performed using a separate sealing device, or heat sealing is performed using a sealing device 260 mounted to the handle part 238 or the housing 220 as described above.

That is, the opening of the plastic bag 270 is sealed by heating the sealing heating wire 262 mounted to the sealing device 260.

If a zipper bag is used, the opening is sealed using a zipper.

Thereafter, as illustrated in FIGS. 25 and 26, the plastic bag 270 is disposed between the upper surface of the base member 210 and the lower surface of the housing 220.

5 shows a heat sealing line S at an adjacent portion of the opening of the plastic bag 270.

When the plastic bag 270 is disposed between the base member 210 and the housing 220, as illustrated in FIG. 25, a portion where the embossed 271 of the plastic bag 270 is formed is disposed.

The discharge hole 275 may be formed on the upper surface of the plastic bag 270 from the beginning, and as shown in the present embodiment, there is no discharge hole at first, but the discharge hole 275 is formed by the punch protrusion 234 afterwards. May be

In order to discharge the air inside the plastic bag 270 to the outside, the housing 220 and the piston member 230 are lowered as shown in FIG. 27.

When the housing 220 is lowered, the inner side of the first packing member 212 and the second packing member 222 by the first packing member 212 and the second packing member 222, that is, the housing ( The inside of 220 is cut off from the outside.

However, the inside of the plastic bag 270 is in communication with the inside and the outside of the first packing member 212 and the second packing member 222 by the embossing (271).

Therefore, as described later, air in the plastic bag 270 may flow between the embossing 271.

As the piston member 230 descends, the punch protrusion 234 penetrates the plastic bag 270 and is inserted into the seating groove 211.

Due to the lowering of the punch protrusion 234, the plastic bag 270 is cut to form a discharge hole 275, the discharge hole 275 is the interior of the plastic bag 270 and the housing 220 It communicates with the inside of.

In this case, since the switch unit is in an off state and the connection terminal 246 and the fixed terminal 236 are spaced apart from each other, the first heating wire 240 is not heated.

In this state, as shown in FIG. 28, when the piston member 230 is raised, air inside the plastic bag 270 is introduced into the housing 220 through the discharge hole 275, and again. When the piston member 230 is lowered, the air inside the housing 220 is discharged to the outside by the principle of a general manual hand pump.

The air inside the plastic bag 270 is discharged to the outside by the vertical reciprocating motion of the piston member 230 as described above.

When the discharge of the air inside the plastic bag 270 is completed, as shown in FIG. 29, the user pushes the piston member 230 lower than that shown in FIG. 27.

Then, as shown in FIG. 27, the first heating wire 240 is in contact with the upper surface of the plastic bag 270 in the expanded state of the second spring 235, and the user is provided with the piston member 230. As the first heating wire 240 is no longer lowered by lowering), the piston member 230 and the punch member except for the lifting member 232 on which the first heating wire 240 is mounted. 233 is further lowered while compressing the second spring 235.

As a result, as shown in FIG. 29, the connection terminal 246 and the fixed terminal 236 are in contact with each other, and a current generated from the power supply unit 250 is applied to the first heating wire 240 so that the first heating wire ( 240).

When the switch unit for controlling the connection state between the power supply unit 250 and the fixed terminal 236 is mounted, the switch unit is turned on so that the first heating wire 240 is heated.

The first heating wire 240 and the first pressing protrusion 213 are heat-sealed while strongly pressing the plastic bag 270 disposed therebetween.

At this time, since the first heating wire 240 is formed in a ring shape around the punch protrusion 234, the plastic bag 270 is formed by the first heating wire 240 of the discharge hole 275. The circumference is heat-sealed in a closed curve shape.

As a result, the plastic bag 270 is sealed in a vacuum state.

When the user releases the housing 220 and the piston member 230, the housing 220 and the piston member 230 are raised by the elastic restoring force of the first spring 216 that has been compressed, and the user The plastic bag 270 may be taken out between the base member 210 and the housing 220.

Figure 30 shows the plastic bag 270 is heat-sealed by the air suction pump of the present invention.

As shown in FIG. 30, a discharge hole 275 is formed in the plastic bag 270, and a heat sealing line S is formed at a circumference of the discharge hole 270 and a portion adjacent to the opening. .

The present invention as described above can also be used in a general plastic bag 270 that is not equipped with a check valve, it can be heat sealed repeatedly, economical.

Sixth embodiment

31 is an exploded perspective view of an air suction pump according to a sixth embodiment of the present invention, and FIG. 32 is a cross-sectional view of the air suction pump according to a sixth embodiment of the present invention.

Compared to the fifth embodiment, the sixth embodiment has a difference in the mounting position of the first heating wire 240, which will be mainly described.

The air suction pump in the sixth embodiment includes a base member 210, a housing 220, a piston member 230, a first heating wire 240, a power supply unit 250, and the like.

The mounting groove 211 is formed at the center of the upper surface of the base member 210, and the ring-shaped first heating wire 240 is mounted to be exposed upward in the center of the mounting groove 211. .

In addition, the guide protrusion 215 and the first spring 216 and the like are the same as the above-described fifth embodiment, a detailed description thereof will be omitted.

The housing 220 is the same as the fifth embodiment, a detailed description thereof will be omitted.

The punch protrusion 234 is formed to protrude downward in the lower portion of the piston member 230, the second pressing projection corresponding to the first heating wire 240 around the punch protrusion 234 237 is protruded.

In addition, the power supply unit 250 may be built in the piston member 230 and connected to the first heating wire 240, but in this embodiment, the power supply unit 250 is mounted on the base member 210. It was connected to the first heating wire 240.

In addition, in the sixth embodiment, a switch unit (not shown) for controlling the current generated from the power supply unit 250 to be supplied to the first heating wire 240 is required.

The switch unit is operated by the user in an on-off manner to connect or disconnect the power supply unit 250 and the first heating wire 240.

Hereinafter, an operation process of the present invention having the above-described configuration will be described.

33 is a cross-sectional view of the plastic bag 270 is inserted into the air suction pump according to the sixth embodiment of the present invention, Figure 34 is a base member 210 and the piston member 230 in Figure 33 by lowering the vinyl 35 is a cross-sectional view of a state in which the discharge hole 275 is formed in the bag 270, and FIG. 35 is a cross-sectional view of a state in which the piston member 230 is raised to suck air in the plastic bag 270 in FIG. 34. Is a cross-sectional view of a state in which the plastic bag 270 is heat-sealed by lowering the piston member 230 in a state in which air is discharged from the inside of the plastic bag 270 using the air suction pump according to the sixth embodiment of the present invention. .

In the sixth embodiment, as shown in FIG. 32, the upper surface of the base member 210 and the lower surface of the housing 220 are spaced apart from each other in the free state by the elastic force of the first spring 216.

After the food is put through the opening of the plastic bag 270, the opening is sealed.

Thereafter, as shown in FIG. 33, the plastic bag 270 is disposed between the upper surface of the base member 210 and the lower surface of the housing 220.

In order to discharge the air inside the plastic bag 270 to the outside, the housing 220 and the piston member 230 are lowered as shown in FIG. 34.

When the housing 220 descends, the inside of the first packing member 212 and the second packing member 222 is blocked by the outside by the first packing member 212 and the second packing member 222. Will be.

As the piston member 230 descends, the punch protrusion 234 penetrates the plastic bag 270 and is inserted into the seating groove 211.

Thus, the discharge bag 275 is formed in the plastic bag 270, and the discharge hole 275 communicates the inside of the plastic bag 270 with the inside of the housing 220.

At this time, since the switch unit is in an off state, the first heating wire 240 is not heated.

In this state, as shown in FIG. 35, when the piston member 230 is raised, air inside the plastic bag 270 is introduced into the housing 220 through the discharge hole 275, and again. When the piston member 230 is lowered, the air inside the housing 220 is discharged to the outside by the principle of a general manual hand pump.

The air inside the plastic bag 270 is discharged to the outside by the vertical reciprocating motion of the piston member 230 as described above.

When the discharge of the air inside the plastic bag 270 is completed, as shown in FIG. 36, the user pushes the piston member 230 lower than that shown in FIG. 34.

Then, as illustrated in FIG. 36, the plastic bag 270 disposed between the first heating wire 240 and the second pressing protrusion 237 is strongly pressed.

In this state, the switch unit is turned on so that the first heating wire 240 is heated.

As the first heating wire 240 is heated, the plastic bag 270 is heat-sealed.

In this case, since the first heating wire 240 is formed in a ring shape around the punch protrusion 234 and the seating groove 211, the plastic bag 270 is formed by the first heating wire 240. The circumference of the discharge hole 275 is heat-sealed in a closed curve shape.

As a result, the plastic bag 270 is sealed in a vacuum state.

When the user releases the housing 220 and the piston member 230, the housing 220 and the piston member 230 are raised by the elastic restoring force of the first spring 216 that has been compressed, and the user The plastic bag 270 may be taken out between the base member 210 and the housing 220.

The present invention as described above can also be used in a general plastic bag 270 that is not equipped with a check valve, it can be heat sealed repeatedly, economical.

Seventh embodiment

37 is a perspective view of a main configuration of an air suction pump according to a seventh embodiment of the present invention, and FIG. 38 is a plan view showing an arrangement state of the first heating wire 240 and the plastic rod part according to the seventh embodiment of the present invention. 39 is a perspective view of a sealed plastic bag 270 using an air suction pump according to a seventh embodiment of the present invention.

Compared to the fifth embodiment, the seventh embodiment has a difference in the shape of the first heating wire 240, and the rest of the configuration is similar. The following description will focus on the first heating wire 240.

As shown in FIGS. 37 and 38, the first heating line 240 is formed in an open curved shape with one side open.

In the present embodiment, the first heating wire 240 is formed in a horseshoe shape.

The first heating wire 240 is mounted to the lower portion of the elevating member 232 while surrounding a portion of the circumference of the punch protrusion 234.

As shown in FIG. 38, when the plastic bag 270 is disposed between the housing 220 and the base member 210, both ends of the first heating wire 240 are upper surfaces of the plastic bag 270. The lower and lower surfaces are joined to the bonded portion P and the bonding portion P of the first heating wire 240 and the plastic bag 270 forms a closed curve.

In addition, since the punch protrusion 234 is disposed inside the first heating wire 240 having an arc shape, the discharge hole 275 formed by the punch protrusion 234 is the first heating wire 240. ) And the plastic bag 270 is disposed inside the junction (P).

As a result, when the first heating wire 240 heat seals the plastic bag 270, as shown in FIG. 39, the heat sealing line S formed by the first heating wire 240 and the vinyl. The discharge hole 275 is disposed inside the closed curve formed by the bonding portion P of the bag 270, so that external air flows into the plastic bag 270 through the discharge hole 275. Block it.

Other matters are the same as in the fifth embodiment, and detailed descriptions thereof will be omitted.

Eighth Embodiment

40 is an exploded perspective view of an air suction pump according to an eighth embodiment of the present invention.

Compared to the seventh embodiment, the eighth embodiment has a difference in shape of the first heating wire 240, and the rest of the configuration is similar. The following description will focus on the first heating wire 240.

As shown in FIG. 40, the first heating wire 240 is formed in an open curved shape with one side open, and is mounted on the base member 210.

The shape of the first heating wire 240 is the same as that of the seventh embodiment.

The heat sealing by the first heating wire 240 in the eighth embodiment and the discharge hole 275 are the same as those in the seventh embodiment of FIGS. 38 and 39, and a detailed description thereof will be omitted. .

Ninth Embodiment

FIG. 41 is a perspective view of an air suction pump according to a ninth embodiment of the present invention, FIG. 42 is an exploded perspective view of a one-way air suction pump according to a ninth embodiment of the present invention, and FIG. 43 is a ninth embodiment of the present invention. 44 is a cross-sectional view taken along line AA of FIG. 41, and FIG. 45 is a cross-sectional view taken along line BB of FIG. 41.

41 to 45, the air suction pump of the present invention, the base member 310, the housing 320, the piston member 330, the first heating wire 340, the power supply unit ( 350 and the main gasket 360.

The base member 310 is composed of a support 311 having an upper portion open and an accommodating portion 319 formed therein, and a cover member 312 detachably coupled to an upper portion of the support 311.

The storage unit 319 serves to accommodate the foreign matter discharged from the plastic bag 370, as will be described later, the support 311 and the storage unit 319 separately as in the ninth embodiment It may be formed, or may be formed integrally.

The accommodating part 319 is open upward, and the piston member 330 is vertically disposed in a state in which the plastic bag 370 is disposed through an open front between the base member 310 and the housing 320. When moving, the foreign matter discharged from the plastic bag 370 is accommodated in the accommodating part 319.

The support 311 is widened in the downward direction and is stably placed on the bottom surface, and serves as a cradle for stably supporting the entire air suction pump of the present invention as shown in FIG. 41.

The cover member 312 covers an upper portion of the accommodating portion 319 in detail in the upper portion of the support 311.

When the cover member 312 is disposed to cover the upper portion of the accommodating portion 319, the contact portion of the cover member 312 and the accommodating portion 319 blocks the inflow and outflow of air through a separate sealing means, etc. do.

The cover member 312 is formed with a suction hole 313 and a discharge hole 314 for communicating with the housing 319 and the outside, respectively, and a guide protrusion 317 protrudes upward.

The suction hole 313 and the discharge hole 314 are spaced apart from each other, the lower blocking gasket 318 is mounted around the suction hole 313, the lower when the housing 320 as described later The communication path between the suction hole 313 and the discharge hole 314 is blocked.

The discharge hole 314 is equipped with a check valve 315 that opens only when air moves upward from the accommodating part 319.

Since the check valve 315 is sufficient to use a conventionally known general, detailed structural description thereof will be omitted.

The discharge hole 314 is formed in the opposite direction to the rear of the suction hole 313, that is, the plastic bag 370 is inserted, the plastic bag 370 is discharged when the plastic bag 370 is inserted It is desirable not to cover the ball 314.

In the ninth embodiment, the plastic bag 370 covers the discharge hole 314 to prevent the discharge hole 314 from being opened, and the discharge hole 314 and the cover member 312. A groove 316 to be connected is formed.

In addition, the base member 310 is formed with a stopper protrusion 311a protruding upward to prevent movement of the plastic bag 370.

The stopper protrusion 311a may be formed on the support 311 or the cover member 312.

In the ninth embodiment, the stopper protrusion 311a protrudes upward in an arc shape along the outer circumferential surface of the support 311.

The stopper protrusion 311a is disposed further behind the suction hole 313.

For this reason, as will be described later, when the plastic bag 370 is inserted, the plastic bag 370 is inserted to a certain extent while the suction hole 313 serves to be disposed across.

A second spring 317a is inserted into the guide protrusion 317 to allow the housing 320 to be mounted to the upper portion of the base member 310 so as to be movable upward and downward.

The housing 320 is formed in a hollow cylindrical shape of which upper and lower portions are open.

The lower portion of the housing 320, the punch protrusion 321 is formed to protrude downward.

The punch protrusion 321 is inserted into the suction hole 313 after cutting the plastic bag 370 disposed between the housing 320 and the cover member 312 when the housing 320 is lowered. The plastic bag 370 and the storage unit 319 serves to communicate through the suction hole 313.

Of course, without forming the punch protrusion 321 in the housing 320, a hole may be formed separately in the plastic bag 370 may be disposed so as to communicate with the suction hole (313).

However, the punch protrusion 321 is formed in the housing 320 as in the present invention, and thereby the plastic bag 370 is cut to communicate with the storage part 319 through the suction hole 313. desirable.

The upper blocking gasket 328 is disposed around the punch protrusion 321, and when the housing 320 descends, the punch protrusion 318 is formed by the upper blocking gasket 328 and the lower blocking gasket 318. The cut portion 375 of the plastic bag 370 cut by the 321 is blocked from the outside except the suction hole 313.

For this reason, the inner part of the plastic bag 370 is to move the accommodating part 319 through the suction hole 313.

That is, the air discharged from the plastic bag 370 is disposed inside the housing 320 through the suction hole 313, the receiving part 319, and the discharge hole 314. Will be moved to the lower part of.

The piston member 330 is disposed in the housing 320 so as to be movable, and an upper portion thereof is exposed to the outside through the upper portion of the housing 320.

The piston member 330 includes a piston part 331, a rod part 332, a handle part 333, a pressing member 334, a first spring 335, and the like.

The piston 331 has the same shape as the inner surface of the housing 320, the rubber ring 331a is mounted on the outer circumferential surface and in contact with the inner surface of the housing 320.

The rod part 332 is formed in a rod shape and is coupled to an upper portion of the piston part 331, and the power supply part 350 is inserted into the rod part 332.

In order to mount the piston member 330 inside the housing 320, the rod part 332 and the piston member 330 are preferably manufactured separately and then assembled.

The handle part 333 is formed to be exposed to the outside on the upper portion of the rod 332.

The handle part 333 is provided with a second heating wire 339 and a sealing part 338 is formed to heat seal the opening 371 of the plastic bag 370.

The second heating wire 339 is connected to the power supply unit 350 so that the second heating wire 339 is pressed in the state where the plastic bag 370 is inserted into the sealing unit 338. When connected to 350, the plastic bag 370 is heat-sealed by heating the second heating wire 339.

For this purpose, as illustrated in FIG. 52, a third terminal 339a connected to the power supply unit 350 is formed in the handle part 333, and the third terminal 339a is connected to the second heating wire ( The second heating wire 339 is disposed below the third heating wire 339 and the second heating wire 339 contacts the third terminal 339a to supply power to the power supply unit 350 to the second heating wire 339. Will be supplied to

The pressing member 334 is coupled to the lower portion of the piston 331 to be movable in the vertical direction.

The pressing member 334 is disposed inside the housing 320 together with the piston part 331.

In addition, the first spring 335 is disposed between the lower portion of the piston portion 331 and the pressing member 334 to add an elastic force in a direction away from the piston portion 331. .

The first heating wire 340 is mounted to be exposed to at least one of an upper surface of the base member 310, a lower surface of the housing 320, or a lower portion of the piston member 330.

In the ninth embodiment, the first heating wire 340 is mounted to be exposed downward in the lower portion of the piston member 330 in detail.

The first heating wire 340 is not connected to the power supply unit 350 by the elastic force of the first spring 335 in the free state, the piston member 330 is lowered to the first heating wire 340 When the first spring 335 is compressed in contact with the upper surface of the cover member 312, the power supply unit 350 and the first heating wire 340 is grounded to each other so that the first heating wire 340 is Heated.

To this end, a first terminal 336 is formed at a lower portion of the piston 331 to be connected to the power supply unit 350, and a lower portion of the first terminal 336 is disposed at an upper portion of the pressing member 334. A second terminal 337 positioned is formed to be connected to the first heating wire 340.

In more detail, the third terminal 339a and the first terminal 336 connected to the power supply unit 350 are connected by an electric wire 339b inserted into the piston unit 331.

Therefore, the current generated by the power supply unit 350 is moved to the third terminal 339a, the wire 339b and the first terminal 336.

In addition, the first heating wire 340 has a curved shape and is arranged to surround the periphery of the punch protrusion 321, and the cutout portion of the plastic bag cut by the punch protrusion 321 as described later ( The first heating wire 340 heat seals 375.

The power supply unit 350 is mounted in the rod unit 332 as described above, and supplies power to the first heating wire 340 and the second heating wire 339.

The power supply unit 350 may be made of a portable battery or may be made of a secondary battery.

The main gasket 360 protrudes from an upper surface of the base member 310 and / or a lower surface of the housing 320.

In the ninth embodiment, the main gasket 360 includes an upper main gasket 361 mounted on a lower surface of the housing 320 and a lower main gasket 362 mounted on an upper surface of the base member 310.

The upper main gasket 361 and the lower main gasket 362 are formed in a hollow cylindrical shape, and the upper main gasket 361 and the lower main gasket 362 are in contact with each other when the housing 320 descends. It seals the inside and blocks air flow in and out from the outside.

Hereinafter, the operating method of the present invention having the above-described configuration will be described.

FIG. 46 is a cross-sectional view of a state in which a plastic bag 370 is inserted into a sealing part 338 of an air suction pump according to a ninth embodiment to heat seal the opening 371, and FIG. 47 is a first embodiment of the present invention. 9 is a perspective view of the plastic bag 370 inserted between the base member 310 and the housing 320 of the air suction pump according to the embodiment 9, FIG. 48 is a cross-sectional view in FIG. 50 is a cross-sectional view of a state in which the housing 320 is lowered and the piston member 330 is raised and pumped. FIG. 50 is a cross-sectional view of heat sealing the incision 375 of the plastic bag after the vacuum is completed in the state shown in FIG. 50 is a cross-sectional view of a state in which the heat sealing of the cut portion 375 of the plastic bag after completion of the vacuum in the state shown in Figure 49, Figure 51 is a vacuum by the air suction pump according to the ninth embodiment of the present invention This is a perspective view of the plastic bag 370 in the completed state.

In the state shown in FIG. 41, the entire air suction pump except the support 311 is turned upside down, and the sealing part 338 is seated on the support 311 as shown in FIG. 46.

In this state, the opening 371 of the plastic bag is inserted into the sealing part 338 and then pressed downward to heat seal the opening 371 of the plastic bag by the second heating wire 339.

The heat-sealed portion is marked as the second heat-sealed portion 374 in FIG.

Thereafter, the air suction pump is turned over again and placed in the state shown in FIGS. 41 and 44.

The plastic bag 370 in which the opening 371 is heat-sealed is inserted through the open front between the base member 310 and the housing 320 as shown in FIGS. 47 and 48.

In this case, as shown in FIG. 47, the plastic bag 370 allows the side joint part 372 to be inserted into the open front between the base member 310 and the housing 320.

The housing 320 is spaced apart from the cover member 312 by the second spring 317a, thereby separating the plastic bag 370 into a space formed between the housing 320 and the cover member 312. Place the insert.

The plastic bag 370 inserted between the housing 320 and the cover member 312 is stopped without being inserted any longer after a predetermined length is inserted by the stopper protrusion 311a.

At this time, as shown in FIG. 48, the plastic bag 370 covers the suction hole 313 and is disposed below the punch protrusion 321.

Although not shown, the plastic bag 370 does not cover the discharge hole 314 in the state shown in FIG. 48.

In this state, the housing 320 is lowered as shown in FIG. 49.

As the housing 320 descends, the punch protrusion 321 cuts the plastic bag 370 and the suction hole 313 is inserted therein.

In addition, the upper blocking gasket 328 and the lower blocking gasket 318 are in close contact with each other with the plastic bag 370 interposed therebetween, excluding the incision part 375 of the plastic bag except the suction hole 313. Isolate with the outside.

In addition, as the housing 320 descends, the upper blocking gasket 328 and the lower blocking gasket 318 contact each other to block air flow in and out of the blocking gaskets 318 and 28.

After that, the user raises the piston member 330.

As the piston member 330 rises, the internal volume of the housing 320 located below the piston portion 331 increases, so that the check valve 315 rises upward and the discharge hole 314. The air is introduced into the plastic bag 370 so that the air flows into the housing 320 through the suction hole 313, the receiving part 319, and the discharge hole 314.

When the piston member 330 is lowered after the piston member 330 is raised, the check valve 315 is lowered by air pressure to close the discharge hole 314 and is located below the piston part 331. Air is discharged to the outside through the upper portion of the housing 320 through a gap with the rubber ring 331a mounted on the outer circumferential surface of the piston 331.

Air inside the plastic bag 370 is discharged to the outside by the vertical reciprocating motion of the piston member 330.

At this time, while the air inside the plastic bag 370 is discharged, the liquid or powder may be discharged together, such material is moved to the storage unit 319 through the suction hole 313 with air Since it is dropped and loaded, it does not flow into the housing 320.

When it is determined that the inside of the plastic bag 370 is vacuum by the pumping motion of the piston member 330 as described above, the piston member 330 is pressed down.

Of course, even during this time, the housing 320 should be kept in a lowered state.

As the piston member 330 descends, the first heating wire 340 comes into contact with the plastic bag 370.

However, since the first heating wire 340 is not yet connected to the power supply 350, it is not heated.

As shown in FIG. 50, when the piston member 330 is further lowered, since the pressing member 334 on which the first heating wire 340 is mounted can no longer be lowered, the piston part 331 is provided. The lowering in the direction of the pressing member 334 while compressing the first spring 335.

As the piston unit 331 descends while compressing the first spring 335, the first terminal 336 connected to the power supply unit 350 and the second terminal 337 to which the hot wire is connected are in contact with each other. The first heating wire 340 is heated.

As a result, the periphery of the cutout portion 375 of the plastic bag 370 cut by the punch protrusion 321 is formed by heating the first hot wire 340 as shown in FIG. 51. 373).

In this case, since the first heating wire 340 is disposed to surround the punch protrusion 321, the cutout portion 375 of the plastic bag 370 is formed inside the plastic bag 370 and the first row. It is blocked by the suture 373.

As shown in FIG. 51, the first heat sealing part 373 is connected to the side joint part 372 of the plastic bag 370 by the first heating wire 340.

After the vacuum and heat sealing of the plastic bag 370 is completed, the accommodating part 319 is separated from the support 311 and washed.

Tenth embodiment

53 is a perspective view of an air suction pump according to a tenth embodiment of the present invention, FIG. 54 is an exploded perspective view of a one-way air suction pump according to a tenth embodiment of the present invention, and FIG. 55 is a tenth embodiment of the present invention. 56 is a cross-sectional view taken along line CC of FIG. 53, and FIG. 57 is a view illustrating positions of the stopper protrusion and the first heating line of the air suction pump according to the tenth embodiment of the present invention. A simplified plan view.

53 to 56, the air suction pump of the present invention, the base member 410, the main gasket 420, the housing 430, the piston member 440, and the first heating wire ( 450, the power supply unit 460, the stopper protrusion 470, and the like.

The base member 410 is composed of a support 411, the upper portion of which is open and an accommodating portion 412 is formed therein, and a cover member 413 detachably coupled to the upper portion of the support 411.

The storage unit 412 serves to accommodate the foreign matter discharged from the plastic bag 480, as will be described later, the support 411 and the storage unit 412 is separately as in the tenth embodiment It may be formed, or may be formed integrally.

The accommodating part 412 is open upward and vertically moves the piston member 440 in a state where the plastic bag 480 is disposed through an open front between the base member 410 and the housing 430. When moving, foreign matter discharged from the plastic bag 480 is accommodated in the receiving portion 412.

The support 411 is widened in the downward direction to be stable on the bottom surface, as shown in Figure 53 serves as a cradle to stably support the entire air suction pump of the present invention.

The cover member 413 covers the upper portion of the accommodating portion 412 in detail above the support 411.

When the cover member 413 is disposed to cover the upper portion of the accommodating portion 412, the contact portion of the cover member 413 and the accommodating portion 412 blocks the inflow and outflow of air through a separate sealing means, etc. do.

The cover member 413 has a dropping hole 414 that communicates with the housing 412 and the outside is formed at the rear, the dropping hole 414 is disposed inside the main gasket 420, The foreign matter discharged from the plastic bag 480 is stacked in the accommodation part 412 through the drop hole 414.

The stopper protrusion 470 protrudes from an upper surface of the cover member 413 as described later.

Details of the stopper protrusion 470 will be described later.

In addition, the upper surface of the cover member 413 is a pressure rubber 415 for pressing the plastic bag 480 disposed under the first heating wire 450 when the first heating wire 450 descends upwards It is mounted to protrude.

The main gasket 420 is formed in a closed curve shape and protrudes from an upper surface of the base member 410 and / or a lower surface 431 of the housing.

In the tenth embodiment, the main gasket 420 includes an upper main gasket 421 mounted on a lower surface 431 of the housing and a lower main gasket 422 mounted on an upper surface of the base member 410. consist of.

The upper main gasket 421 and the lower main gasket 422 are formed in a hollow hollow cylinder shape, and the upper main gasket 421 and the lower main gasket 422 contact each other when the housing 430 descends. It seals the inside and blocks air flow in and out from the outside.

As described above, the drop hole 414 is disposed inside the lower main gasket 422.

The stopper protrusion 470 may be formed on the outer side of the lower main gasket 422, but is preferably formed on the inner side of the lower main gasket 422.

The housing 430 is formed in a hollow cylindrical shape having an upper and lower portions open, and is mounted to the upper portion of the base member 410 by the stopper protrusion 470 so as to be movable upward and downward.

The upper main gasket 421 is mounted around the lower surface 431 of the housing, and a suction hole 432 disposed inside the upper main gasket 421 is formed on the lower surface 431 of the housing. .

The suction hole 432 is disposed above the drop hole 414.

In addition, a check valve 433 is installed in the suction hole 432 so that the air inside the plastic bag 480 of the housing 430 through the suction hole 432 when the piston member 440 is raised. Open only if introduced inside.

Since the check valve 433 is sufficient to use a conventionally known general, detailed structural description thereof will be omitted.

In addition, a first heating wire discharge hole 434 is formed in the lower surface 431 of the housing to expose the first heating wire 450 to the lower portion of the housing 430 when the piston member 440 is lowered. .

The first hot wire discharge hole 434 is disposed in the front direction in which the plastic bag 480 is inserted from the inside of the upper main gasket 421 to be disposed in a direction opposite to the suction hole 432.

In addition, the housing 430 is preferably made to be assembled and coupled after the lower surface is manufactured separately from the cylindrical body.

On the other hand, when the communication between the inside and the outside of the main gasket 420 is blocked on the upper surface of the base member 410 and / or the lower surface 431 of the housing by the lowering of the housing 430, Blocking gaskets 423 and 24 are formed to block and seal the communication path between the one hot wire discharge hole 434 and the suction hole 432.

In this case, the suction hole 432 and the falling hole 414 are in communication with each other, and the first hot wire discharge hole 434 is in communication with the suction hole 432 and the falling hole 414. The path is blocked and sealed.

In the tenth embodiment, the blocking gaskets 423 and 24 include a lower blocking gasket 424 formed on an upper surface of the base member 410 and an upper blocking gasket 423 formed on a lower surface 431 of the housing. have.

The lower blocking gasket 424 is disposed inside the lower main gasket 422. In the tenth embodiment, the lower blocking gasket 424 crosses the inner side of the lower main gasket 422. The lower blocking gasket 424 is disposed between the drop hole 414 and the pressure rubber 415.

The lower blocking gasket 424 may be formed separately from the lower main gasket 422, or may be integrally formed as in the tenth embodiment.

The upper blocking gasket 423 is disposed inside the upper main gasket 421, and the upper main gasket 421 is disposed between the first heating line discharge hole 434 and the suction hole 432 as described above. Connected with

The upper blocking gasket 423 may be formed separately from the upper main gasket 421 or may be integrally formed as in the tenth embodiment.

The piston member 440 is disposed to be movable in the housing 430, and an upper portion thereof is exposed to the outside through the upper portion of the housing 430.

The piston member 440 includes a piston portion 441, a rod portion 442, a handle portion 443, a pressing member 444, a first spring 445, and the like.

The piston part 441 has the same shape as the inner surface of the housing 430, and a rubber ring 448 is mounted on an outer circumferential surface thereof to contact the inner surface of the housing 430.

The rod part 442 is formed in a rod shape and is coupled to an upper portion of the piston part 441, and the power supply part 460 is inserted into the rod part 442.

In order to mount the piston member 440 inside the housing 430, the rod part 442 and the piston member 440 may be separately manufactured and then assembled.

The handle portion 443 is formed to be exposed to the outside on the upper portion of the rod portion 442.

The pressing member 444 is coupled to the lower portion of the piston 441 so as to be movable in the vertical direction.

The pressing member 444 is disposed inside the housing 430 together with the piston part 441.

The first spring 445 is disposed between the lower portion of the piston portion 441 and the pressing member 444 to apply an elastic force in a direction away from the piston portion 441. .

The first heating wire 450 is mounted to be exposed to at least one of an upper surface of the base member 410, a lower surface 431 of the housing, or a lower portion of the piston member 440.

In the tenth embodiment, the first heating wire 450 is mounted to be exposed downward in the lower portion of the piston member 440 in detail, and is formed in a straight line shape.

The first heating wire 450 is not connected to the power supply unit 460 by the elastic force of the first spring 445 in the free state, but the piston member 440 is lowered to lower the first heating wire 450. When the first spring 445 is compressed in contact with the upper surface of the cover member 413, the power supply unit 460 and the first heating wire 450 is grounded to each other so that the first heating wire 450 is Heated.

To this end, two first terminals 446 are formed at the lower portion of the piston part 441, and are connected to the power supply unit 460, and the first terminal 446 is disposed on the pressing member 444. Two second terminals 447 positioned below are formed to be connected to the first heating wire 450.

More specifically, as shown in FIG. 66, two third terminals 461 are mounted on the power supply unit 460, and the third terminal 461 is connected to the first terminal 446. It is connected by an electric wire 462 inserted into the piston portion 441.

66 is a perspective view of a connection portion of the power supply unit and the third terminal according to the tenth embodiment of the present invention.

Accordingly, the current generated by the power supply unit 460 is moved to the third terminal 461, the wire 462, and the first terminal 446.

The power supply unit 460 is mounted inside the rod unit 442 as described above, and supplies power to the first heating wire 450.

The power supply unit 460 may be made of a portable battery, or may be made of a secondary battery.

The stopper protrusion 470 protrudes from an upper portion of the base member 410 or a lower portion of the housing 430 to contact the plastic bag 480 inserted between the base member 410 and the housing 430. It serves to block the movement of the plastic bag 480.

In the tenth embodiment, the stopper protrusion 470 is formed to protrude upward from the upper surface of the cover member 413.

The stopper protrusion 470 has two or more contact surfaces in contact with the plastic bag 480, and the contact surfaces thereof are spaced apart from each other.

In the tenth embodiment, the stopper protrusions 470 are separated from each other by being composed of two first stopper protrusions 471 and a second stopper protrusion 472, and the stopper protrusions 470 are formed in two. There are also four contact surfaces in contact with the plastic bag 480.

The first stopper protrusion 471 simply protrudes upward on the cover member 413.

The second stopper protrusion 472 is formed to protrude upwardly longer than the first stopper protrusion 471 to guide the vertical movement of the housing 430 when the housing 430 moves in the vertical direction. Play a role.

To this end, the second stopper protrusion 472 is inserted into the groove 435 formed in the lower portion of the housing 430, a second spring between the upper portion of the second stopper protrusion 472 and the housing 430. The 473 is disposed to allow the housing 430 to be spaced apart from the cover member 413 by the elastic force of the second spring 473.

At this time, the groove 435 of the housing 430 into which the second stopper protrusion 472 is inserted is preferably such that an upper portion thereof is blocked.

On the other hand, as shown in Figure 65, the stopper protrusion 470 is the first stopper protrusion 471 and the second stopper protrusion 472 is integrally connected to form an arc-shaped curve, one end and the other end spaced May be placed in a closed state.

In this case, one end and the other end of the stopper protrusion 470 are disposed in the direction in which the plastic bag 480 is inserted, that is, in the direction of the first heating wire 450.

In the above case, since the stopper protrusion 470 has one end and the other end spaced apart from each other, the stopper protrusion 470 has two contact surfaces in contact with the plastic bag 480.

An imaginary line L connecting two contact surfaces closest to the first heating wire 450 among the contact surfaces of the stopper protrusion 470 is spaced apart from the first heating wire 450 at the rear of the first heating wire 450. Make sure

That is, the first heating wire 450 is disposed in front of the stopper protrusion 470 in the direction in which the plastic bag 480 is inserted.

Hereinafter, a look at the vacuum and heat sealing method of the plastic bag of the present invention made of the above-described configuration.

FIG. 58 is a cross-sectional view of a state of performing a first heat sealing step of thermally sealing a part of the opening 481 by inserting a plastic bag 480 into an air suction pump according to a tenth embodiment of the present invention. 58 is a plan view schematically illustrating the positions of the stopper protrusion 470, the first heating wire 450, and the plastic bag 480 in the state shown in FIG. 58, and FIG. 60 is the first row shown in FIGS. 58 and 59. The perspective view of the plastic bag 480 after completing the sealing step.

58 and 59, the opening 481 of the plastic bag is inserted into the gap between the base member 410 and the housing 430.

The plastic bag 480 is inserted between the base member 410 and the housing 430, but no longer moves in contact with the stopper protrusion 470.

At this time, the stopper protrusion 470 consists of the first stopper protrusion 471 and the second stopper protrusion 472, the contact surface in contact with the plastic bag 480 is two places.

The virtual line L connecting two contact surfaces closest to the first heating wire 450 among the contact surfaces of the stopper protrusion 470 is the first heating wire 450 at the rear of the first heating wire 450. Since it is spaced apart from the, the first heating wire 450 is disposed on the upper portion of the plastic bag 480.

FIG. 59 shows the first heating wire 450 disposed on the plastic bag 480.

When the insertion of the plastic bag 480 is completed as above, the piston member 440 is lowered.

As the piston member 440 descends, the first heating wire 450 comes into contact with the plastic bag 480.

However, since the first heating wire 450 is not yet connected to the power supply unit 460, it is not heated.

When the piston member 440 is further lowered, the pressing member 444 in which the first heating wire 450 is mounted may have the first heating wire 450 and the plastic bag 480 in contact with the pressing rubber 415. Since it can no longer be lowered, the piston portion 441 is lowered in the direction of the pressing member 444 while compressing the first spring 445.

As the piston unit 441 descends while compressing the first spring 445, the first terminal 446 connected to the power supply unit 460 and the second terminal 447 to which the first heating wire 450 is connected. ) Are in contact with each other so that the first heating wire 450 is heated.

When the first heating wire 450 is heated, the user moves the plastic bag 480 or the air suction pump in a horizontal direction, and the plastic bag disposed between the first heating wire 450 and the pressure rubber 415. Heat-sealing the opening 481 of the.

At this time, the section heat-sealed by the first heating wire 450 is to form an opening 484 in which a predetermined section of the opening 481 is opened, not the entire opening 481 of the plastic bag.

As shown in FIG. 60, the plastic bag 480 having completed the first heat sealing step is formed with a first heat sealing line 483 having the opening 484 formed therein.

Thereafter, the plastic bag 480 is removed from the base member 410 and the housing 430, and then rotated and inserted again as shown in FIGS. 61 and 62.

FIG. 61 is a cross-sectional view of a state in which an air discharge step of pumping by inserting a plastic bag 480 into an air suction pump according to a tenth embodiment of the present invention is performed, and FIG. 62 is a stopper protrusion in the state shown in FIG. 61. 470, the first heating wire 450 and the plastic bag 480 is a plan view showing a brief position.

At this time, the plastic bag 480 is inserted is rotated as shown in FIG.

That is, in the state where the plastic bag 480 is disposed under the first heating wire 450, the first earthenware spaced apart from a vertex where the opening portion 481 and the side joint portion 482 of the plastic bag meet. It is inserted between the projection and the second stopper projection 472.

Then, the plastic bag 480 is inserted between the first stopper protrusion 471 and the second stopper protrusion 472, and the opening portion 481 and the side joint portion 482 of the plastic bag are respectively the first stopper protrusion. The contact surface of 471 and the contact surface of the second stopper protrusion 472 are no longer inserted.

At this time, the opening 484 formed in the first heat sealing step is disposed inside the main gasket 420, and the discharge portion of the plastic bag 480 through the opening 484 is the dropping hole. To be placed on top of 414.

The first heating line 450 is disposed above the first heat sealing line 483 and the side joint part 482.

Thereafter, the housing 430 is lowered to contact the upper main gasket 421 and the lower main gasket 422 to block air flow in and out of the main gasket 420.

As the housing 430 is lowered, the upper blocking gasket 423 is strongly in contact with the lower blocking gasket 424 with the plastic bag 480 interposed therebetween, and thus, the inside of the main gasket 420. The suction hole 432 and the first hot wire discharge hole 434 are blocked from the communication path.

Thereafter, the user raises the piston member 440.

As the piston member 440 rises, the internal volume of the housing 430 positioned below the piston portion 441 increases, so that the check valve 433 rises upward to the suction hole 432. Due to this, air in the plastic bag 480 is introduced into the housing 430 through the opening 484 and the suction hole 432.

In this case, while the air inside the plastic bag 480 is discharged, liquid or powder may be discharged together, and the material may be discharged through the drop hole 414 formed under the opening 484. Since it is loaded into the 412, it does not flow into the housing 430.

When the piston member 440 is lowered after the piston member 440 is raised, the check valve 433 is lowered by air pressure to close the suction hole 432 and is located below the piston part 441. Air is discharged to the outside through the upper portion of the housing 430 through a gap with the rubber ring 448 mounted on the outer circumferential surface of the piston portion 441.

In addition, when the piston member 440 is lowered, air in the lower portion of the housing 430 may move downward through the first hot wire discharge hole 434, but the first hot wire discharge hole 434 may be formed in the main body. Since it is disposed inside the gasket 420 and is blocked from the outside, the air located below the housing 430 does not move to another place when the piston member 440 descends, and the housing as described above. It is discharged to the outside via the top of the (430).

The air inside the plastic bag 480 is discharged to the outside by the vertical reciprocating motion of the piston member 440.

When it is determined that the inside of the plastic bag 480 is vacuum by the pumping motion of the piston member 440 as described above, the piston member 440 is pressed down as shown in FIG.

Of course, even during this time, the housing 430 should be kept in a lowered state.

FIG. 63 illustrates a state in which the second heat sealing step of heat sealing the opening 484 of the plastic bag 480 using the first heating wire 450 of the air suction pump according to the tenth embodiment of the present invention is performed. It is a cross section.

As shown in FIG. 63, as the piston member 440 descends, the first heating wire 450 comes into contact with the plastic bag 480 again.

However, since the first heating wire 450 is not yet connected to the power supply unit 460, it is not heated.

As the piston member 440 is further lowered as described above, the first heating wire 450 is heated to heat seal the opening 484 of the plastic bag 480.

In this case, since the first heating wire 450 is disposed above the first heat sealing line 483 and the side joint part 482, when the first heating wire 450 is heated, the first heat sealing line ( 483 and the side joint part 482 are interconnected by a second heat sealing line 485 formed by the first heating wire 450 to heat seal the opening 484 and close the heat opening 484.

The second encapsulation sealing step is completed and sealed plastic bag 480 as shown in FIG.

That is, the plastic bag 480 is sealed through two heat sealing lines 483 and 85 formed to be inclined with each other.

Eleventh embodiment

FIG. 67 is a perspective view of an air suction pump according to an eleventh embodiment of the present invention. FIG. 68 is an exploded perspective view of a one-way air suction pump according to an eleventh embodiment of the present invention. FIG. 69 is an eleventh embodiment of the present invention. Another direction exploded perspective view of the air suction pump according to the present invention, FIG. 70 is an exploded perspective view of a base member according to an eleventh embodiment of the present invention, and FIG. 71 is an exploded perspective view of a lower cover according to an eleventh embodiment of the present invention. 72 is another exploded perspective view of the lower cover according to the eleventh embodiment of the present invention, FIG. 73 is an exploded perspective view of the sealing part according to the eleventh embodiment of the present invention, and FIG. 74 is a DD line of FIG. 67. 75 is a sectional view taken along line EE of FIG. 67.

67 to 75, the air suction pump of the present invention, the base member 510, the housing 520, the first heating wire 530, the main gasket 540, the stopper 550 ), A piston member 560, a power supply unit 570, a sealing unit 580, and the like.

The base member 510 may include an accommodating part 512 that is opened upward and accommodates foreign substances discharged from the plastic bag 590, and a support on which an upper part is opened and the accommodating part 512 is disposed therein (not shown). And a cover member 513 detachably coupled to the upper portion of the accommodating part 512.

As in the eleventh embodiment, the accommodating part 512 may be formed separately from the support and the accommodating part 512, or may be integrally formed.

The accommodating part 512 is open upward, and the piston member 560 is vertically disposed in a state in which the plastic bag 590 is disposed through an open front between the base member 510 and the housing 520. When moving, foreign matter discharged from the plastic bag 590 is accommodated in the receiving portion 512.

The support is widened in the downward direction to be stable on the bottom surface, as shown in Figure 67 serves as a cradle to stably support the entire air intake pump of the present invention.

The cover member 513 covers the upper portion of the accommodating part 512.

When the cover member 513 is disposed to cover the upper portion of the accommodating part 512, the contact portion between the cover member 513 and the accommodating part 512 blocks the inflow and outflow of air through a separate sealing means. do.

The cover member 513 is provided with a suction hole 514 and a discharge hole 515 communicating with the housing 512 and the outside, respectively.

The suction hole 514 and the discharge hole 515 are spaced apart from each other, and a lower blocking gasket 518 is mounted around the suction hole 514, so that the piston member 560 descends as described below. The communication path between the suction hole 514 and the discharge hole 515 is blocked.

The housing 520 is formed in a hollow cylindrical shape having an upper and lower portions open, and is mounted to the upper portion of the base member 510 so as to be movable upward and downward.

The housing 520 includes a housing body 521, a lower cover 522, and a punch protrusion 528.

The housing body 521 is formed in a hollow cylindrical shape of the upper and lower portions, the lower portion of the piston member 560 is disposed therein.

The lower cover 522 is mounted to the lower portion of the housing body 521, and serves to cover the lower portion of the housing body 521.

The lower cover 522 includes a lower support part 523, a pressing part 524, a first spring 525, a connection terminal 529, and the like.

The lower support part 523 is mounted to the lower part of the housing body 521, and the lower main gasket 541 of the hollow closed curve shape is mounted to the lower part and is opened only when air flows from the downward direction to the upper direction. The valve 523a is attached.

Since the check valve 523a is sufficient to use a conventionally known general structure, a detailed description thereof will be omitted.

A first guide protrusion 526 protrudes downward from the lower support part 523, and a guide groove 516 into which the first guide protrusion 526 is inserted is formed in the base member 510. The first elastic member 527 is mounted on the first guide protrusion 526.

As a result, the housing 520 is elastically supported in a state spaced apart upwardly with respect to the base member 510, and is mounted to be movable in the vertical direction.

The pressing part 524 is lifted up and down through the lower support part 523, and the punch protrusion 528 and the first heating wire 530 are provided at a lower part of the pressing part 524.

The first spring 525 is disposed between the lower support part 523 and the upper part of the pressing part 524 to elastically support the pressing part 524 upwardly with respect to the lower support part 523. .

The connection terminal 529 is mounted to the lower cover 522, and a lower portion thereof is connected to the first heating wire 530.

The punch protrusion 528 is mounted to protrude downward in the lower portion of the lower cover 522, the plastic bag disposed between the base member 510 and the housing 520 when the housing 520 is lowered ( 590) to make an incision.

In addition, the punch protrusion 528 cuts the plastic bag 590 when the housing 520 is lowered and then inserts the suction hole 514 formed in the base member 510.

The punch protrusion 528 is formed in a triangular shape and consists of a first punch protrusion 528a and a second punch protrusion 528b having vertices disposed downward.

The first punch protrusion 528a and the second punch protrusion 528b are spaced apart in parallel to each other.

In addition, the first punch protrusions 528a and the second punch protrusions 528b are arranged to be narrower in a direction toward the front, that is, the direction in which the plastic bags 590 are inserted, so that the plastic bags 590 may be better cut out. To help.

If necessary, the vertex portion of the first punch protrusion 528a and the vertex portion of the second punch protrusion 528b are alternately arranged so that the first punch protrusion 528a and the second punch protrusion 528b are alternately arranged. It may act as a scissors to cut the plastic bag 590 disposed on the lower portion.

The first heating wire 530 is mounted to be exposed to the outside while surrounding the periphery of the punch protrusion 528 in the lower portion of the lower cover 522 in detail.

In the eleventh embodiment, the first heating wire 530 is formed in a 'U' shape surrounding the punch protrusion 528.

The first heating wire 530 is in contact with the lower blocking gasket 518 when the housing 520 is lowered.

The main gasket 540 is mounted to protrude upward on the top surface of the base member 510 and / or protrude downward on the bottom surface of the housing 520.

In the eleventh embodiment, the main gasket 540 is mounted on the upper surface of the base member 510 and the lower surface of the housing 520, but may be mounted only on one side as necessary.

In the eleventh embodiment, the main gasket 540 includes a closed curved upper main gasket 542 mounted downwardly of the housing 520 so as to protrude downward from an outer side of the lower support part 523. In detail, an upper surface of the base member 510 is mounted to protrude upwardly on the outer side of the cover member 513 and the lower main gasket having a closed curve contacting the upper main gasket 542 when the housing 520 is lowered ( 541).

When the housing 520 is lowered, the upper main gasket 542 and the lower main gasket 541 are compressed to contact each other.

The punch protrusion 528, the first heating wire 530, the suction hole 514, and the discharge hole 515 are all disposed inside the main gasket 540.

The stopper 550 serves to lower the housing 520 only by a predetermined length when the housing 520 is lowered.

To this end, the stopper 550 is mounted to protrude upward on the top surface of the base member 510 and / or protrude downward on the bottom surface of the housing 520.

In the eleventh embodiment, the stopper 550 is formed on the lower support part 523 and the cover member 513.

In more detail, the stopper 550 includes a lower stopper 551 protruding upward from the cover member 513 on which the lower main gasket 541 is mounted, and the upper main gasket 542. The upper supporter 552 is formed to protrude downward in the lower support portion 523.

The sum of the protruding lengths of the lower stopper 551 and the upper stopper 552 is smaller than the protruding length of the main gasket 540.

Therefore, when the housing 520 is lowered, the upper main gasket 542 and the lower main gasket 541 first touch, and then the upper stopper 552 and the lower stopper 551 are in contact with each other.

Thus, when the housing 520 is lowered, the upper main gasket 542 and the lower main gasket 541 are in contact with the upper stopper 552 and the lower stopper 551 so that the lowering of the housing 520 stops. Until it is, while pressing the plastic bag 590 disposed between the base member 510 and the housing 520 is mutually compressed.

If the stopper 550 is not present, the plastic bag 590 disposed between the upper main gasket 542 and the lower main gasket 541 is too pressed when the housing 520 is lowered, so that the plastic bag 590 is pressed. The internal air may pass through the upper main gasket 542 and the lower main gasket 541 and move to an area cut by the punch protrusion 528.

However, by mounting the stopper 550 such that the housing 520 is lowered only by a predetermined length as in the present invention, the lower main gasket 542 and the lower main gasket 541 when the housing 520 is lowered. The plastic bag 590 disposed therein is prevented from being pressed too much, so that the air inside the plastic bag 590 passes between the upper main gasket 542 and the lower main gasket 541 by the punch protrusion 528. You can move well to the incision site.

The stopper 550 as described above is formed on the outside of the cover member 513 and the outside of the lower support 523 in the present invention, but inside and / or the lower support 523 of the cover member 513. It may be formed inside of.

The piston member 560 is disposed in the housing 520 so as to be movable, and an upper portion thereof is exposed to the outside through the upper portion of the housing 520.

The piston member 560 includes a piston portion 561, a rod portion 562, and a handle portion 563.

The piston portion 561 has the same shape as the inner surface of the housing 520, the rubber ring 561a is mounted on the outer peripheral surface and in contact with the inner surface of the housing body 521.

The rod part 562 is formed in a rod shape and is coupled to an upper portion of the piston part 561, and the power supply part 570 is inserted into the rod part 562.

In order to mount the piston member 560 inside the housing 520, the rod part 562 and the piston member 560 are preferably manufactured separately and then assembled.

The handle portion 563 is formed to be exposed to the outside from the upper portion of the rod portion 562.

That is, the handle portion 563 is disposed above the housing body 521.

In addition, a button portion 564 that is elastically supported to be elevated by the second spring 565 is protruded between the lower portion of the handle portion 563 and the upper portion of the housing body 521.

The button unit 564 serves to electrically connect or disconnect the power supply unit 570 and the first heating wire 530 by lifting.

To this end, the button unit 564 is electrically connected to the power supply unit 570 and the connection terminal 529 through a wire or the like, respectively.

In more detail, the button unit 564 and the power supply unit 570 are connected by an electric wire (not shown), the button unit 564 and the connection terminal 529 is connected by an electric wire, the button unit ( When the 564 is pressed to compress the second spring 565 to the maximum, the wires connected to the power supply unit 570 and the wires connected to the connection terminal 529 may be interconnected.

The wire 529a connected to the connection terminal 529 passes through the piston member 560 to be connected to the button part 564.

FIG. 71 shows a part of the wire 529a connected to the connection terminal 529.

More specifically, it is sufficient to refer to a conventionally known button switch.

By the above configuration, when the button unit 564 is not pressed, the power supply unit 570 and the first heating wire 530 are not connected to each other, and when the button unit 564 is pressed, the power supply unit ( 570 and the first heating wire 530 are connected to each other.

In the eleventh embodiment, the second spring 565 and the button portion 564 are mounted to the lower portion of the handle portion 563, but may also be mounted to the upper portion of the housing body 521.

In addition, the lower portion of the handle portion 563 and the upper portion of the housing body 521 by the button portion 564 is spaced apart from each other.

That is, before the lower portion of the handle portion 563 touches the upper portion of the housing body 521, the button portion 564 first touches the upper portion of the housing body 521, and the piston member 560 is lowered. When no external force moving in the direction is applied, the lower portion of the handle portion 563 and the upper portion of the housing body 521 by the button portion 564 elastically supported downward by the second spring 565 is Are spaced apart from each other.

When no external force is applied to move the piston member 560 downward, that is, before the second spring 565 is compressed, the power supply unit 570 and the connection terminal 529 are connected to the button unit 564. The electrical connections are interrupted by).

Then, when the piston member 560 is lowered, the second spring 565 is compressed while the button unit 564 is pressed, and the power supply unit 570 and the connection terminal 529 are connected to the button unit 564. By electrical interconnections.

The power supply unit 570 supplies power to the first heating wire 530, and is mounted inside the rod unit 562.

The power supply unit 570 is selectively connected to the first heating wire 530 through the button unit 564 and the connection terminal 529.

When the power supply unit 570 and the connection terminal 529 contact each other through the button unit 564 by the lowering of the piston member 560, the power supply unit 570 and the first heating wire 530. Are connected to each other so that power is supplied to the first heating wire 530 so that the first heating wire 530 is heated.

At this time, the interconnection of the power supply unit 570 and the first heating wire 530 is connected when the button unit 564 is pressed maximum.

When the piston member 560 descends, the lower surface of the piston member 560, that is, the piston portion 561 presses the upper surface of the pressing portion 524, compressing the first spring 525 while pressing the pressing portion. The lower portion 524 is lowered.

The sealing portion 580 is mounted on the upper portion of the piston member 560 in the opposite direction of the base member 510.

The sealing part 580 serves to heat seal the opening 591 of the plastic bag 590 to form a part of the air suction device of the present invention, it is made of a separate product, that is, a sealing device It may be.

The sealing part 580 as described above includes a sealing body 581, a sealing cover 582, a second heating wire 583, a pressing roller part 584, and a third spring 587.

The sealing body 581 is mounted on an upper portion of the piston member 560.

The sealing cover 582 is mounted to the upper portion of the sealing body 581 so as to be movable in the vertical direction.

To this end, a second guide protrusion 582a protrudes downward from the sealing cover 582, and a second elastic member 582b is mounted on the second guide protrusion 582a. The guide protrusion 582a is mounted to penetrate the sealing body 581.

Thus, the sealing cover 582 is mounted to be movable in the vertical direction in a state spaced apart from the sealing body 581 by the elastic force of the second elastic member 582b.

In the eleventh embodiment, the sealing cover 582 is divided into a first cover 588 and a second cover 589.

The second guide protrusion 582a is formed under the first cover 588 and is mounted while being supported between the pressure roller part 584 and the first cover 588 and the second cover 589. do.

The second heating wire 583 is connected to the power supply unit 570 and is mounted to be exposed upward in an upper portion of the sealing body 581.

The second heating wire 583 is disconnected from the power supply unit 570 when the sealing cover 582 is not lowered, and is pressed when the sealing cover 582 is lowered to be connected to the power supply unit 570. Be sure to

Since such a structure is sufficient to use a conventionally known structure, a detailed description thereof will be omitted.

The pressing roller part 584 is mounted at a position corresponding to the second heating wire 583 at the lower portion of the sealing cover 582.

The pressurizing roller part 584 is a roller body 585 mounted on the sealing cover 582 so as to be lifted up and down, and the roller body 585 to be rotated in an arrangement direction of the second heating wire 583. ) Consists of two or more rollers 586.

In the eleventh embodiment, the rollers 586 are composed of two and spaced apart from each other.

The third spring 587 consists of a coil spring and is disposed between the lower portion of the sealing cover 582 and the upper portion of the roller body 585 to elastically support the pressing roller part 584 in the vertical direction. .

The sealing cover 582 is the second heating wire 583 while the sealing cover 582 is disposed between the second heating wire 583 by the third spring 587. When moving in the direction, if the external force for moving the sealing cover 582 is too strong, the pressing roller unit 584 is moved upward while compressing the third spring (587), the third spring (587) The roller 586 presses the plastic bag 590 toward the second heating wire 583 by the elastic restoring force.

The sealing part 580 as described above is described as a case consisting of a partial configuration of the air suction device in the eleventh embodiment, the sealing part 580 may be made of a separate device sealing device.

When the sealing unit 580 is made of a sealing device that is a separate product, the power supply unit 570 should be mounted inside the sealing body 581.

Hereinafter, an operation process of the present invention having the above-described configuration will be described.

76 is a cross-sectional view of a state in which a plastic bag 590 is inserted into a sealing part 580 of an air suction pump according to an eleventh embodiment of the present invention to heat seal the opening 591, and FIG. 77 is a first embodiment of the present invention. FIG. 78 is a perspective view of a plastic bag 590 inserted between the base member 510 and the housing 520 of the air suction pump according to the eleventh embodiment, and FIG. 78 is a cross-sectional view in the state shown in FIG. 77, and FIG. 79. FIG. 78 is a cross-sectional view of the plastic bag 590 cut off by lowering the housing 520 in FIG. 78, and FIG. 80 is a cross-sectional view of pumping the piston member 560 up in FIG. 79, and FIG. After the completion of the vacuum in the state shown in Figure 5 is a cross-sectional view of the sealing state 595 of the plastic bag 590, the state of the vacuum is completed by the air suction pump according to the eleventh embodiment of the present invention A perspective view of the plastic bag 590.

In the state shown in FIG. 67, the entire air suction pump except the support is turned upside down, and the sealing part 580 is seated on the support as shown in FIG. 76.

In this state, the opening 591 of the plastic bag 590 is inserted into the sealing part 580 and then pressed downward to open the opening 591 of the plastic bag 590 by the second heating wire 583. Heat seal.

More specifically, the opening 591 of the plastic bag 590 is inserted between the sealing cover 582 and the sealing body 581.

Thereafter, when the piston member 560 is pressed, the second heating wire 583 and the roller 586 contact each other with the plastic bag 590 therebetween.

However, until this time, the second heating wire 583 is not connected to the power supply 570 and is blocked.

When the piston member 560 is further pressed, the second heating wire 583 is connected to the power supply unit 570, and the second heating wire 583 is heated by a current supplied from the power supply unit 570. .

At this time, the second heating wire 583 is in a state in which the plastic bag 590 is pressed against the roller 586 with the plastic bag 590 interposed therebetween.

In this state, when the plastic bag 590 is pulled in the lateral direction of the insertion direction, the roller 586 is rotated to transfer the plastic bag 590 to the second heating wire 583 and the roller 586. As a result, the opening 591 of the plastic bag 590 is heat sealed.

In this case, the plastic bag 590 is well conveyed without being biased or torn in one direction by the plurality of rollers 586.

In addition, since the second heating wire (583) abuts at two or more roller 586 made of a plurality, the plastic bag 590 has two or more heat-sealed portions, so that the heat sealing is more reliably performed. Can be.

In addition, when the thickness of the plastic bag 590 is thick or the force for pressing the piston member 560 is large, the pressure roller unit 584 moves while compressing the third spring 587, the roller The plastic bag 590 may be stably disposed between the 586 and the second heating wire 583 to be moved.

The heat-sealed portion is marked as the first heat-sealed portion 593 in FIG.

Thereafter, the air suction pump is turned over again and placed in the state shown in FIGS. 67 and 74.

The plastic bag 590 of which the opening 591 is heat-sealed is inserted through the open front between the base member 510 and the housing 520 as shown in FIGS. 77 and 78.

In this case, as shown in FIG. 77, the plastic bag 590 allows the side joint portion 592 to be inserted into the open front between the base member 510 and the housing 520.

The housing 520 is spaced apart from the cover member 513 by the first elastic member 527, and the plastic bag 590 is a space formed between the housing 520 and the cover member 513. Place the insert.

In this case, as shown in FIG. 78, the plastic bag 590 covers the suction hole 514 and is disposed below the punch protrusion 528.

In addition, in the state shown in FIGS. 77 and 78, the lower portion of the handle portion 563 is spaced apart from the upper portion of the housing body 521 by the second spring 565 and the button portion 564. The supply unit 570 and the connection terminal 529 are not in contact with each other by the button unit 564, so that the first heating wire 530 is not heated.

In this state, the housing 520 is lowered as shown in FIG. 79.

At this time, the piston member 560 and the sealing part 580 naturally descend because the housing 520 descends.

As the housing 520 descends, the punch protrusion 528 cuts the plastic bag 590 and the suction hole 514 is inserted therein.

As the housing 520 descends, the upper main gasket 542 and the lower main gasket 541 are in contact with each other to block air inflow and outflow of the main gasket 540 and are compressed to each other.

Then, when the upper stopper 552 and the lower stopper 551 are in contact with each other, the housing 520 is no longer lowered.

As a result, the plastic bag 590 disposed between the upper main gasket 542 and the lower main gasket 541 is compressed so that the internal air of the plastic bag 590 is cut by the punch protrusion 528. It may be prevented from moving to the cutout portion 595 of the plastic bag 590.

Thereafter, the user raises the piston member 560, as shown in FIG.

As the piston member 560 ascends, the internal volume of the housing body 521 located below the piston part 561 increases, so that the check valve 523a is opened by the pressure difference between the upper and lower parts. Air at the bottom of the lower support part 523 is moved into the housing body 521 through the check valve 523a.

In addition, the air inside the plastic bag 590 is moved to the suction hole 514 through a portion cut by the punch protrusion 528, which is again passed through the receiving unit 512 to the discharge hole 515. ), Which in turn moves to the inside of the housing body 521 through the check valve 523a.

In this case, while the air inside the plastic bag 590 is discharged, liquid or powder may be discharged together, and such a material is dropped and loaded after moving to the accommodating part 512 through the suction hole 514. Therefore, it does not flow into the housing 520.

When the piston member 560 is lowered after the piston member 560 is raised, the air located below the piston part 561 is separated from the rubber ring 561a mounted on the outer circumferential surface of the piston part 561. Through the upper portion of the housing 520 is discharged to the outside.

In addition, the check valve 523a is closed to block the air inside the housing body 521 from moving to the lower portion of the lower cover 522.

The air inside the plastic bag 590 is continuously discharged to the outside by the vertical reciprocating motion of the piston member 560.

When it is determined that the inside of the plastic bag 590 is vacuum by the pumping motion of the piston member 560 as described above, the piston member 560 is pressed down.

Of course, even during this time, the housing 520 should be kept in a lowered state.

As shown in FIG. 81, as the piston member 560 descends, the second spring 565 is compressed while the button portion 564 is in contact with the upper portion of the housing body 521.

Accordingly, the power supply unit 570 and the connection terminal 529 are interconnected through the button unit 564.

As a result, the power supply unit 570 and the first heating wire 530 are connected to each other so that the first heating wire 530 is heated.

In this case, the power supply unit 570 and the first heating wire 530 are not connected when the button unit 564 is slightly pressed, but are connected when pressed a lot, so that the piston member 560 does not need to be moved up and down. In order to prevent the first heating wire 530 from being heated.

In addition, as the piston member 560 is further lowered, the lower portion of the piston portion 561 comes into contact with the upper portion of the pressing portion 524, whereby the first spring 525 is compressed and the pressing portion 524 is lowered.

As the pressurizing unit 524 is lowered, the first heating wire 530 connected to the power supply unit 570 and heated is also lowered, so that the first heating wire 530 is formed of the plastic bag 590. The upper surface is pressed strongly.

As the first heating wire 530 heated as described above strongly presses the upper surface of the plastic bag 590, the periphery of the cutout portion 595 of the plastic bag 590 cut by the punch protrusion 528 is rounded. As shown in FIG. 82, a second heat sealing portion 594 is formed by heating the first heating wire 530.

In this case, since the first heating wire 530 is disposed to surround the punch protrusion 528, the cutout portion 595 of the plastic bag 590 is formed inside the plastic bag 590 and the second row. It is blocked by the suture portion 594.

As illustrated in FIG. 82, the second heat sealing part 594 is connected to the side joint part 592 of the plastic bag 590 by the first heating wire 530.

After the vacuum and heat sealing of the plastic bag 590 is completed, the receiving portion 512 is separated from the support and washed.

Twelfth Embodiment

83 is a perspective view of an air suction pump according to a twelfth embodiment of the present invention, FIG. 84 is an exploded perspective view of a one-way air suction pump according to a twelfth embodiment of the present invention, and FIG. 85 is a twelfth embodiment of the present invention. 86 is an exploded perspective view of the base member according to the twelfth embodiment of the present invention, and FIG. 87 is a one direction of a partial configuration of the housing according to the twelfth embodiment of the present invention. FIG. 88 is an exploded perspective view of another part of the housing according to the twelfth embodiment of the present invention. FIG. 89 is a sectional view taken along line FF of FIG. 83, and FIG. 90 is a GG line of FIG. 96 is a perspective view of an air suction pump according to another twelfth embodiment of the present invention.

The air suction pump according to the present invention includes a base member 610, a housing 620, a first heating wire 630, a piston member 660, a power supply unit 670, a main gasket 640, and the like. Is done.

The base member 610 is opened in an upward direction to accommodate the foreign matter discharged from the plastic bag 690 is accommodated 612, the cover member 613 detachably coupled to the upper portion of the housing 612. )

The accommodating part 612 is open upward and vertically moves the piston member 660 in a state where the plastic bag 690 is disposed through an open front between the base member 610 and the housing 620. When moved, foreign matter discharged from the plastic bag 690 is accommodated in the housing 612.

A first communication hole 612a is formed at a lower portion of the accommodating part 612 to communicate the inside and the outside of the accommodating part 612, and the first communication hole 612a is opened and closed at the accommodating part 612. The communication door 612b is attached.

The first communication hole 612a is preferably formed to be stepped in multiple stages.

The cover member 613 covers an upper portion of the accommodating part 612.

When the cover member 613 is disposed to cover the upper portion of the accommodating part 612, the contact portion between the cover member 613 and the accommodating part 612 blocks the inflow and outflow of air through a separate sealing means. do.

The cover member 613 is provided with a drop hole 614 and a flow hole 615 to communicate the inside and the upper portion of the receiving portion 612, respectively.

The dropping hole 614 and the flow hole 615 are spaced apart from each other, and the lower blocking gasket 618 is mounted around the dropping hole 614 so that the dropping hole when the piston member 660 is lowered ( 614 and the communication path of the flow hole 615 is blocked.

When the housing 620 is lowered, the dropping hole 614 is inserted with a punch protrusion 629 formed in the lower portion of the housing 620.

The housing 620 is formed in a hollow cylindrical shape having an upper and lower portions open, and is mounted to the upper portion of the base member 610 so as to be movable upward and downward.

The housing 620 includes a housing body 621, a lower cover 622, a pressurizing part 623, a check valve 624, an elastic part 625, an intermediate plate 626, and the like. It is done by

The housing body 621 is formed in a hollow cylindrical shape of the upper and lower portions, the lower portion of the piston member 660 is disposed therein.

The lower cover 622 is mounted to the lower portion of the housing body 621, and serves to cover the lower portion of the housing body 621.

The lower cover 622 has a mounting hole 622b penetrating up and down therein.

A lower main gasket 641 of a hollow closed curve shape is mounted to a lower portion of the lower cover 622 to protrude downward.

In addition, the lower cover 622 has a guide protrusion 627 protruding downward, and the base member 610 is formed with a guide groove 616 into which the guide protrusion 627 is inserted. The guide protrusion 627 is equipped with a second spring 627a.

As a result, the housing 620 is elastically supported in a state spaced apart from the base member 610 in the upward direction, and is mounted to be movable in the vertical direction.

The pressing unit 623 is inserted into the mounting hole 622b, the suction hole 623a is formed in the vertical direction, the lower surface of the first heating wire 630 surrounding the circumference of the suction hole 623a. ) Is installed.

The lower portion of the pressing portion 623 is equipped with an upper blocking gasket 628 in contact with the lower blocking gasket 618 when the pressing portion 623 is lowered, the suction hole by the upper blocking gasket 628 The lower portion of the 623a is open in the rearward direction of the pressing portion 623.

The check valve 624 is mounted to the upper portion of the suction hole 623a to open and close the upper portion of the suction hole 623a.

The check valve 624 opens the upper portion of the suction hole 623a when the piston member 660 is raised and closes the upper portion of the suction hole 623a when the piston member 660 is lowered. .

And, the lower portion of the pressing portion 623 protrudes in a downward direction and punches to cut the plastic bag 690 disposed between the pressing portion 623 and the base member 610 when the housing 620 is lowered. 629 is mounted.

The punch protrusion 629 is inserted into the drop hole 614 formed in the base member 610 after cutting the plastic bag 690 when the housing 620 is lowered.

The elastic portion 625 is mounted on the upper portion of the lower cover 622, the pressing portion 623 is coupled to the lower portion.

The elastic part 625 is made of a rubber material, and is formed to protrude convexly in the direction of the piston member 660, that is, in the free state in the free state, the piston member 660 when the piston member 660 is lowered Pressed down while compressing the pressing portion 623 is lowered.

The elastic part 625 is formed with a second communication hole 625a communicating with the suction hole 623a by the check valve 624.

In addition, a pressing part 625b for pressing the check valve 624 in the second communication hole 625a protrudes from the elastic part 625.

The pressing part 625b may be elastically deformed in the up and down direction, so that when the check valve 624 moves up and down to open and close the suction hole 623a, the pressing part 625b is the check valve ( 624) are bent upward and downward together.

Since the pressing part 625b depresses the check valve 624, the check valve 624 is arbitrarily raised to prevent the suction hole 623a from opening, and the check valve 624 prevents the suction. It is possible to better close the top of the ball (623a).

The intermediate plate 626 is disposed above the elastic part 625 and is coupled to the pressing part 623 disposed under the elastic part 625.

That is, the elastic portion 625 is disposed between the elastic portion 625 and the pressing portion 623, and the intermediate plate 626 and the pressing portion 623 are coupled through the elastic portion 625. .

Therefore, the intermediate plate 626, the elastic portion 625 and the pressing portion 623 is moved up and down together.

In addition, the connection terminal 626a is mounted on the intermediate plate 626 so as to be exposed upward, and as described below, the intermediate plate 626 comes into contact with the power supply 670 when the piston member 660 is lowered.

The connection terminal 626a is connected to the first heating wire 630 coupled to the lower portion of the pressing portion 623 by a connecting line passing through the pressing portion 623.

Therefore, when the piston member 660 is lowered, the power supply unit 670 and the connection terminal 626a are in contact with each other, and thus the first heating wire 630 is applied to the current supplied from the power supply unit 670. Heated by

The first heating wire 630 is mounted to be exposed to the outside of the pressing portion 623 while surrounding the periphery of the punch protrusion 629.

In the twelfth embodiment, the first heating wire 630 is formed in a 'U' shape surrounding the punch protrusion 629.

The first heating wire 630 is in contact with the lower blocking gasket 618 when the housing 620 is lowered.

The main gasket 640 is mounted to protrude upward from the upper surface of the base member 610 and / or protrude downward from the lower surface of the housing 620.

In the twelfth embodiment, the main gasket 640 is mounted on the upper surface of the base member 610 and the lower surface of the housing 620, but may be mounted only on one side as necessary.

In the twelfth embodiment, the main gasket 640 includes a closed main upper gasket 642 that is mounted to protrude downwardly on the outer surface of the lower cover 622 in detail on the lower surface of the housing 620, In detail, the upper surface of the base member 610 is mounted to protrude upward from the outer side of the cover member 613 and the lower main gasket having a closed curved shape contacting the upper main gasket 642 when the housing 620 is lowered ( 641).

When the housing 620 is lowered, the upper main gasket 642 and the lower main gasket 641 are compressed to contact each other, thereby preventing external air from flowing between the housing 620 and the base member 610.

The punch protrusion 629, the first heating wire 630, the drop hole 614, and the flow hole 615 are all disposed inside the main gasket 640.

On the other hand, the cover member 613 has a lower stopper 613a protruding upward, and the lower cover 622 has an upper stopper 622a protruding downward.

The sum of the protruding lengths of the lower stopper 613a and the upper stopper 622a is smaller than the protruding length of the main gasket 640.

Therefore, when the housing 620 is lowered, the upper main gasket 642 and the lower main gasket 641 first touch, and then the upper stopper 622a and the lower stopper 613a come into contact with each other.

Therefore, when the housing 620 is lowered, the upper main gasket 642 and the lower main gasket 641 contact the upper stopper 622a and the lower stopper 613a so that the lowering of the housing 620 stops. Until it is, while pressing the plastic bag 690 disposed between the base member 610 and the housing 620 are mutually compressed.

The piston member 660 is disposed in the housing 620 so as to be movable, and an upper portion thereof is exposed to the outside through the upper portion of the housing 620.

The piston member 660 includes a piston part 661, a rod part 662, and a handle part 663.

The piston portion 661 has the same shape as the inner surface of the housing 620, the rubber ring 661a is mounted on the outer peripheral surface and in contact with the inner surface of the housing body 621, the lower surface of the power supply The connection terminal 661b connected to the 670 is mounted to protrude.

The rod part 662 is formed in a rod shape and is coupled to an upper portion of the piston part 661, and the power supply part 670 is inserted into the rod part 662.

In order to mount the piston member 660 inside the housing 620, the rod part 662 and the piston member 660 are preferably manufactured separately and then assembled.

The handle part 663 is formed to be exposed to the outside from the upper portion of the rod portion 662.

That is, the handle part 663 is disposed above the housing body 621.

In addition, a button portion 664 elastically supported to be elevated by the first spring 665 is protruded between the lower portion of the handle portion 663 and the upper portion of the housing body 621.

The button unit 664 serves to electrically connect or disconnect the power supply unit 670 and the first heating wire 630 by lifting.

To this end, the button unit 664 is electrically connected to the power supply unit 670 and the connection terminal 661b through a wire or the like, respectively.

In more detail, the button unit 664 and the power supply unit 670 are connected by an electric wire (not shown), the button unit 664 and the connection terminal 661b is connected by an electric wire, the button unit ( When the wire 664 is pressed to compress the first spring 665 to the maximum, the wire connected to the power supply 670 and the wire connected to the connection terminal 661b may be connected to each other.

The wire connected to the connection terminal 661b passes through the piston member 660 to be connected to the button part 664.

More specifically, it is sufficient to refer to a conventionally known button switch.

By the above configuration, when the button unit 664 is not pressed, the power supply unit 670 and the first heating wire 630 are not connected to each other, and when the button unit 664 is pressed, the power supply unit ( 670 and the first heating wire 630 is connected to each other.

In the twelfth embodiment, the first spring 665 and the button part 664 are mounted on the lower portion of the handle part 663, but may also be mounted on the housing body 621.

The lower portion of the handle part 663 and the upper portion of the housing body 621 are spaced apart from each other by the button part 664.

That is, before the lower portion of the handle portion 663 touches the upper portion of the housing body 621, the button portion 664 first touches the upper portion of the housing body 621, and the piston member 660 is lowered. When no external force moving in the direction is applied, the lower portion of the handle portion 663 and the upper portion of the housing body 621 by the button portion 664 elastically supported downward by the first spring 665 Are spaced apart from each other.

When no external force is applied to move the piston member 660 downward, that is, before the first spring 665 is compressed, the power supply unit 670 and the connection terminal 661b are connected to the button unit 664. The electrical connections are interrupted by).

Then, when the piston member 660 is lowered, the first spring 665 is compressed while the button unit 664 is pressed, and the power supply unit 670 and the connection terminal 661b are connected to the button unit 664. By electrical interconnections.

The power supply unit 670 supplies power to the first heating wire 630 and is mounted inside the rod unit 662.

The power supply unit 670 is selectively connected to the first heating wire 630 through the button unit 664 and the connection terminal 661b.

As the piston member 660 descends, the power supply unit 670 and the connection terminal 661b are interconnected through the button unit 664, and the connection terminal 661b and the connection terminal 626a are in contact with each other. When the power supply unit 670 and the first heating wire 630 are connected to each other, power is supplied to the first heating wire 630 so that the first heating wire 630 is heated.

At this time, the interconnection of the power supply unit 670 and the first heating wire 630 is connected when the button unit 664 is pressed to the maximum.

When the piston member 660 is lowered, the lower surface of the piston member 660, that is, the piston part 661, presses the upper surface of the intermediate plate 626 to compress the elastic part 625 downward. While lowering the pressing portion 623.

In addition, a rail protrusion 666 protrudes from an upper portion of the piston member 660.

The rail protrusion 666 is a zipper bag that is generally widely used, that is, the zipper part 693 in the plastic bag 690 in which the zipper part 693 is formed so that the zipper is fastened well.

In addition, as shown in FIG. 96, the upper portion of the piston member 660 may be equipped with a separate press cover 680 that is elevated in the vertical direction with respect to the piston member 660.

A rail protrusion 681 is formed to protrude from the lower surface of the press cover 680 and / or the upper surface of the piston member 660.

Accordingly, the zipper portion 693 of the zipper bag is inserted between the press cover 680 and the piston member 660, and the press protrusion 666, 81 presses the zipper portion 693 while the press cover 680 is pressed. In this state, the zipper bag or the air suction pump is moved so that the zipper portion 693 is continuously fastened well.

The rail protrusion 619 may be formed below the base member 610 as well as the piston member 660.

Hereinafter, an operation process of the present invention having the above-described configuration will be described.

91 is a cross-sectional view of the plastic bag 690 inserted between the base member 610 and the housing 620 of the air suction pump according to the twelfth embodiment of the present invention, Figure 92 is a housing 620 in Figure 91 ) Is a cross-sectional view of a state in which the plastic bag 690 is cut by lowering), and FIG. 93 is a cross-sectional view of the piston member 660 being raised and pumped in FIG. 92, and FIG. 94 is vacuum completed in the state shown in FIG. 93. After is a cross-sectional view showing a state of heat sealing the incision portion (695) of the plastic bag 690, Figure 95 is a perspective view of the plastic bag 690 in a state where the vacuum is completed by the air suction pump according to the twelfth embodiment of the present invention to be.

The air suction pump or the zipper bag is moved by pressing the zipper portion 693 formed in the opening 691 of the zipper bag using the rail protrusions 619 and 66 formed on the piston member 660 or the base member 610. Let's do it.

Then, since the rail protrusions 619 and 66 are pressed in the zipper portion 693, the zipper portions 693 are fastened to each other while being moved.

For this reason, the opening portion 691 is sealed in the plastic bag 690 in which the zipper part 693 is formed, that is, the zipper bag.

As shown in FIG. 91, the plastic bag 690 in which the opening 691 is sealed is inserted through an open front between the base member 610 and the housing 620.

In this case, the plastic bag 690 allows the side joint portion 692 illustrated in FIG. 95 to be inserted into the open front between the base member 610 and the housing 620.

The housing 620 is spaced apart from the cover member 613 by the second spring 627a, so that the plastic bag 690 is separated by a space formed between the housing 620 and the cover member 613. Place insert.

In this case, as shown in FIG. 91, the plastic bag 690 covers the drop hole 614 and is disposed below the punch protrusion 629.

In addition, in the state shown in FIG. 91, the lower part of the handle part 663 is spaced apart from the upper part of the housing body 621 by the first spring 665 and the button part 664, and the power supply part 670. ) And the connection terminal 661b are not in contact with each other by the button part 664, and the first heating wire 630 is not heated.

In this state, the housing 620 is lowered as shown in FIG. 92.

As the housing 620 is lowered, the punch protrusion 629 is inserted into the drop hole 614 after cutting the plastic bag 690.

As the housing 620 is lowered, the upper main gasket 642 and the lower main gasket 641 are in contact with each other to block air inflow and outflow of the main gasket 640 and are compressed to each other.

Then, when the upper stopper 622a and the lower stopper 613a come into contact with each other, the housing 620 no longer descends.

As a result, the plastic bag 690 disposed between the upper main gasket 642 and the lower main gasket 641 is compressed so that the internal air of the plastic bag 690 is cut by the punch protrusion 629. It can be prevented from moving to the cutout 695 of the plastic bag 690.

Thereafter, the user raises the piston member 660, as shown in FIG.

As the piston member 660 rises, the inner volume of the housing body 621 located below the piston part 661 increases, so that the check valve 624 is opened by the pressure difference between the upper and lower parts. The air at the bottom of the lower cover 622 is moved into the housing body 621 through the suction hole 623a and the check valve 624.

In addition, the air inside the plastic bag 690 is moved to the drop hole 614 through a portion cut by the punch protrusion 629, which again passes through the receiving part 612 to the flow hole 615. ), Which, in turn, moves into the housing body 621 through the suction hole 623a and the check valve 624.

At this time, while the air inside the plastic bag 690 is discharged, the liquid or powder may be discharged together, such a material is moved to the receiving portion 612 through the drop hole 614 and then dropped and loaded Therefore, it does not flow into the housing 620.

When the piston member 660 is lowered after the piston member 660 is raised, the air located below the piston part 661 is separated from the rubber ring 661a mounted on the outer circumferential surface of the piston part 661. Through the upper portion of the housing 620 is discharged to the outside.

In addition, the check valve 624 is closed to block the air inside the housing body 621 from moving to the lower portion of the lower cover 622.

In addition, since the check valve 624 is pressed by the pressing portion 625b, the top of the suction hole 623a is better closed.

Air inside the plastic bag 690 is continuously discharged to the outside by the vertical reciprocating motion of the piston member 660.

When it is determined that the inside of the plastic bag 690 is vacuum by the pumping motion of the piston member 660 as described above, the piston member 660 is pressed down.

Of course, even during this time, the housing 620 should be kept in a lowered state.

As shown in FIG. 94, as the piston member 660 descends, the first spring 665 is compressed while the button portion 664 is in contact with the upper portion of the housing body 621.

Accordingly, the power supply unit 670 and the connection terminal 661b are interconnected through the button unit 664.

And, as the piston member 660 is further lowered, the lower portion of the piston portion 661 is in contact with the upper portion of the intermediate plate 626, and at the same time the connection terminal 661b and the connection terminal 626a You will encounter each other.

As a result, the power supply unit 670 and the first heating wire 630 are connected to each other by the connection terminal 661b and the connection terminal 626a so that the first heating wire 630 is heated.

At this time, the connection terminal 661b and the connection terminal 626a are not connected when the button part 664 is slightly pressed, but are connected when pressed a lot, so that the piston member 660 is unnecessarily moved up and down. The first heating wire 630 is not heated.

In addition, as the piston member 660 is further lowered, the lower portion of the piston portion 661 presses the upper portion of the intermediate plate 626 downward, and thus the elastic portion 625 moves downward. The pressing unit 623 is lowered while being compressed and pressed.

As the pressurizing unit 623 is lowered, the first heating wire 630 connected to the power supply unit 670 and heated is also lowered, so that the first heating wire 630 of the plastic bag 690 is lowered. The upper surface is pressed strongly.

As the first heating wire 630 heated as described above strongly presses the upper surface of the plastic bag 690, the periphery of the cut portion 695 of the plastic bag 690 cut by the punch protrusion 629 As illustrated in FIG. 95, a heat sealing portion 694 is formed by heating the first heating wire 630.

In this case, since the first heating wire 630 is disposed to surround the punch protrusion 629, the cut portion 695 of the plastic bag 690 is formed inside the plastic bag 690 and the heat sealing part. Blocked by 694.

As illustrated in FIG. 95, the heat sealing part 694 is connected to the side joint part 692 of the plastic bag 690 by the first heating wire 630.

After the vacuum and heat sealing of the plastic bag 690 is completed, the user removes the force applied downward of the piston member 660.

Then, the button unit 664 pushes up the piston member 660 upward by the elastic restoring force of the first spring 665.

As a result, the connection terminal 626a and the connection terminal 661b are blocked from each other.

The pressing portion 623 is raised by the elastic restoring force of the elastic portion 625 that is pressed and compressed so that the first heating wire 630 is spaced apart from the plastic bag 690.

On the other hand, if you want to vacuum a separate vacuum container (not shown) or to remove the stopper of the wine bottle (not shown), the communication door (612b) formed in the receiving portion 612 using the After opening the first communication hole 612a, it is placed on the top of the vacuum container or the stopper of the wine bottle, and the piston member 660 is reciprocated to draw air inside the vacuum container of the housing 620. Discharge through the inside to the outside to vacuum or remove the wine bottle cap.

The air suction device of the present invention can be sealed immediately after evacuating the inner air of the plastic bag to the outside by a manual operation according to the shangdong of the piston member, can be put in a plastic bag and stored for a long time without rot have.

Claims (60)

A base member; A housing mounted to an upper portion of the base member so as to be movable upward and downward, and having an upper and lower portion open; A piston member disposed in the housing so as to be movable, and having an upper portion penetrated through the upper portion of the housing and exposed to the outside; A first heating wire mounted to be exposed to at least one of an upper surface of the base member, a lower surface of the housing, and a lower portion of the piston member; Air suction pump, characterized in that consisting of a power supply for supplying power to the first heating wire. The method of claim 1, A plastic bag having a discharge hole formed on an upper surface thereof is disposed between the base member and the housing, and the air is discharged to the outside through the discharge hole formed in the plastic bag by the reciprocating motion of the piston member. After the first heating wire is heated to seal the circumference of the discharge hole formed in the plastic bag. The method of claim 2, The first heating wire is an air suction pump, characterized in that formed in a closed curve shape larger than the diameter of the discharge hole. The method of claim 2, The first heating wire is formed in the shape of an open curve larger than the diameter of the discharge hole, one side is open, Both ends of the first heating wire is placed at the junction where the upper surface and the lower surface of the plastic bag are joined, and the junction part of the first heating wire and the plastic bag forms a closed curve, and the exhaust hole is disposed therein. . The method according to claim 3 or 4, The base member has a guide protrusion protruding upward, The housing is formed with a guide portion for sliding the guide projection is inserted, The first spring is mounted on the upper portion of the guide protrusion, the air suction pump, characterized in that the base member and the housing is elastically supported in a direction away from each other. The method according to claim 3 or 4, The first packing member of the closed curve is mounted on the upper surface of the base member, The lower surface of the housing is mounted with a closed curved second packing member corresponding to the first packing member, And the first heating wire is disposed inside the first packing member and the second packing member. The method of claim 6, It further comprises a switch unit for controlling the current generated from the power supply is supplied to the first heating wire, The first heating wire is mounted to be exposed downward in the lower portion of the piston member, the power supply device is an air suction pump, characterized in that built in the piston member. The method of claim 6, A support part formed inside the piston member to mount a fixed terminal connected to the power supply part; A lifting member mounted to a lower portion of the piston member so as to be movable upward and downward, and having the first heating wire mounted thereon; A coupling member disposed inside the first heating wire under the lifting member and coupled to the support part; Is disposed between the support and the lifting member further comprises a second spring to elastically support the lifting member in the direction of the coupling member, The first heating wire is formed with a connection terminal extending through the lifting member in the direction of the fixed terminal, And the connection terminal is connected to the fixed terminal when the elevating member moves upward, thereby supplying power to the first heating wire to heat the first heating wire. The method of claim 8, Air suction pump, characterized in that further comprises a switch for controlling the connection of the power supply and the fixed terminal. The method of claim 6, It further comprises a switch unit for controlling the current generated from the power supply is supplied to the first heating wire, And the first heating wire is mounted to the upper surface of the base member so as to be exposed upward. Vacuum and sealing method of the plastic bag, characterized in that for vacuum and sealing the plastic bag using an air suction pump provided with a first heating wire and a piston member. The method of claim 11, Vacuum and seal the plastic bag having the discharge hole formed on the upper surface by using the air suction pump provided with the first heating wire and the piston member, After sealing the opening, The air inside the plastic bag is discharged to the outside through the discharge hole by the reciprocating motion of the piston member, And then sealing the circumference of the discharge hole using the first heating wire. The method of claim 12, The first heating wire is formed in a closed curve shape, and as the first heating wire is heated, sealing the circumference of the discharge hole in a closed curve shape, the vacuum bag and the sealing method of the plastic bag. The method of claim 12, The first heating wire is formed in the shape of an open curve larger than the diameter of the discharge hole, one side is open, Both ends of the first heating wire are placed at the junction where the upper surface and the lower surface of the plastic bag are bonded to each other, and the junction part of the first heating wire and the plastic bag forms a closed curve, and the discharge hole is disposed therein. The vacuum bag and the sealing method of the plastic bag, characterized in that the discharge hole is disposed inside the closed curve formed by the junction of the heat sealing line and the plastic bag formed by the first heating wire as the first heating wire. The method of claim 1, Further comprising a punch protrusion is mounted to protrude downward in the lower portion of the piston member, The first heating wire is disposed around the punch protrusion, The upper surface of the base member is formed with a seating groove into which the punch projection is inserted, In a state where the plastic bag is disposed between the base member and the housing, when the piston member descends to the top surface of the plastic bag, the punch protrusion cuts the plastic bag to form a discharge hole, and the piston member is After discharging the air inside the plastic bag to the outside through the discharge hole, the first heating wire is heated to heat seal the circumference of the discharge hole formed in the plastic bag. The method of claim 15, The first heating wire is formed in the shape of a closed curve air suction pump, characterized in that disposed while wrapping the periphery of the punch projection. The method of claim 15, The first heating wire is formed in the shape of an open curve on one side is arranged while wrapping a part of the circumference of the punch projection Both ends of the first heating wire are placed at the junction where the upper surface and the lower surface of the plastic bag are joined to form a closed curve at the junction of the first heating wire and the plastic bag, and the punch protrusion is disposed therein. Pump. The method according to claim 16 or 17, The base member has a guide protrusion protruding upward, The housing is formed with a guide portion for sliding the guide projection is inserted, The first spring is mounted on the upper portion of the guide protrusion, the air suction pump, characterized in that the base member and the housing elastically support in a direction away from each other. The method according to claim 16 or 17, It further comprises a switch unit for controlling the current generated from the power supply is supplied to the first heating wire, The punch protrusion is formed integrally with the lower portion of the piston member, The first heating wire is disposed around the punch protrusion and mounted to be exposed downward in the lower portion of the piston member. The power supply device is an air suction pump with a punch projection, characterized in that built in the piston member. The method according to claim 16 or 17, A support part formed inside the piston member to mount a fixed terminal connected to the power supply part; An elevating member mounted to the lower portion of the piston member so as to be movable upward and downward and having the first heating wire mounted thereon; A punch member disposed at an inner side of the first heating wire at a lower portion of the elevating member, the punch protrusion formed at a lower portion thereof, and coupled to the support part; Is disposed between the support and the lifting member further comprises a second spring for elastically supporting the lifting member in the direction of the punch member, The first heating wire is formed with a connection terminal extending through the lifting member in the direction of the fixed terminal, When the elevating member moves upward, the connection terminal is connected to the fixed terminal to supply the power supply of the power supply to the first heating wire to heat the first projection wire, characterized in that for heating the first heating wire Suction pump. The method of claim 20, Punch projection formed air suction pump, characterized in that further comprises a switch for controlling the connection of the power supply and the fixed terminal. The method according to claim 16 or 17, It further comprises a switch unit for controlling the current generated from the power supply is supplied to the first heating wire, The first heating wire is an air suction pump with a punch projection, characterized in that mounted on the upper surface of the base member exposed in the upward direction. The method of claim 11, Vacuum and seal the plastic bag having an opening by using an air suction pump having a first heating wire and a piston member, After sealing the opening, Using the air suction pump equipped with punch projections to form a discharge hole in the plastic bag, The air inside the plastic bag is discharged to the outside through the discharge hole by the reciprocating motion of the piston member, And then sealing the circumference of the discharge hole using the first heating wire. The method of claim 23, wherein The first heating wire is formed in a closed curve shape, and as the first heating wire is heated, sealing the circumference of the discharge hole in a closed curve shape, the vacuum bag and the sealing method of the plastic bag. The method of claim 23, wherein The first heating wire is formed in the shape of an open curve on one side is arranged while wrapping a part of the circumference of the punch projection Both ends of the first heating wire are placed at the junction where the upper surface and the lower surface of the plastic bag are joined to form a closed curve at the junction of the first heating wire and the plastic bag, and the punch protrusion is disposed therein to form the discharge hole. , The vacuum bag and the sealing method of the plastic bag, characterized in that the discharge hole is disposed inside the closed curve formed by the junction of the heat sealing line and the plastic bag formed by the first heating wire as the first heating wire. The method of claim 1, It further comprises a main gasket protruding from the upper surface of the base member or the lower surface of the housing, The base member is provided with an accommodating portion opened upwards, When the piston member is moved in a state in which the plastic bag is disposed through the open front between the base member and the housing, the foreign matter discharged from the plastic bag is accommodated in the accommodating part. The method of claim 26, The base member, A support having an upper portion formed therein and the receiving portion therein; Consists of a cover member detachably coupled to the upper portion of the support, The cover member is formed with a suction hole and a discharge hole, respectively, the discharge hole is equipped with a check valve that opens only when the air moves upward from the receiving portion, The cover member or the housing is formed between the suction hole and the discharge hole is formed a blocking gasket to block the communication between the suction hole and the discharge hole when the housing descends, Air discharged from the plastic bag is an air suction pump, characterized in that for moving to the lower portion of the piston member disposed inside the housing through the suction hole, the receiving portion and the discharge hole. The method of claim 26, The piston member, A piston portion mounted to an outer circumferential surface thereof and in contact with an inner surface of the housing; A rod-shaped rod portion coupled to the upper portion of the piston portion; A handle portion formed on the rod portion; A pressing member coupled to the lower portion of the piston to be movable in the vertical direction; Is disposed between the lower portion of the piston and the pressing member is made of a first spring to add an elastic force in a direction away from the piston portion, The lower portion of the pressing member is mounted so that the first heating wire is exposed in the downward direction, The power supply unit is mounted inside the rod unit, When the first heating wire is in contact with the base member when the piston member is lowered when the first spring is compressed, the power supply unit and the first heating wire is grounded to each other, the first heating wire is heated Pump. The method of claim 27, The lower portion of the housing is formed with a protrusion projecting downwards, The punch protrusion is inserted into the suction hole after cutting the plastic bag disposed between the housing and the cover member when the housing is lowered, the air suction, characterized in that the plastic bag and the receiving portion communicates through the suction hole. Pump. The method of claim 28, The handle portion is provided with a second heating wire air suction pump, characterized in that the sealing portion for heat-sealing the opening of the plastic bag. The method of claim 29, The base member is formed with a stopper protrusion protruding upward to prevent movement of the plastic bag, And said stopper protrusion is disposed further behind said suction hole. The method of claim 29, The first heating wire is curved so as to surround the periphery of the punch protrusion, The air suction pump, characterized in that the first heating wire is heat-sealed the incision portion of the plastic bag cut by the punch projection. The method of claim 1, A closed curved main gasket protruding from an upper surface of the base member or a lower surface of the housing; Protrudingly formed in the base member or the housing is made of a stopper protrusion for further preventing the movement of the plastic bag inserted between the base member and the housing, The first heating wire is disposed in front of the stopper projection in the direction in which the plastic bag is inserted, The base member or the housing is provided with a check valve in the inner side of the main gasket which is opened only when the air in the plastic bag moves to the lower portion of the housing when the piston member is raised. The method of claim 33, The stopper protrusion is made of two or more contact surfaces in contact with the plastic bag is spaced apart from each other, The virtual line connecting two contact surfaces closest to the first heating wire among the contact surfaces of the stopper projection is spaced apart from the first heating wire behind the first heating wire. The method of claim 34, The stopper protrusion is composed of a plurality of air suction pump, characterized in that spaced apart from each other. The method of claim 34, The stopper protrusion has a curved shape and is disposed in the direction of the first hot wire in a state where one end and the other end are spaced apart. The method of claim 34, The lower surface of the housing is formed with a suction hole disposed inside the main gasket, And the check valve is mounted on the suction hole so that the air is opened only when air is introduced into the housing through the suction hole. The method of claim 37, The first heating wire is mounted to be exposed downward in the lower portion of the piston member, The first heating wire discharge hole is formed in the lower surface of the housing to expose the first heating wire to the lower portion of the housing when the piston member descends, The first heating wire and the first heating wire discharge hole is disposed inside the main gasket, When the communication between the inside and the outside of the main gasket is blocked by the lowering of the housing on the upper surface of the base member or the lower surface of the housing, the blocking gasket to block and close the communication path between the first hot wire discharge hole and the suction hole Air suction pump, characterized in that is formed. The method of claim 33 or 34, The stopper protrusion is protruded upward from the base member is inserted into the housing, The stopper protrusion guides the shangdong of the housing when the housing moves up and down. The method of claim 33 or 34, The base member, A support which is open at an upper portion and has an accommodating portion therein; Consists of a cover member detachably coupled to the upper portion of the support, The cover member is provided with a drop hole in communication with the receiving portion inside the main gasket, The storage unit is an air suction pump, characterized in that the foreign matter discharged from the plastic bag is loaded through the drop hole. The method of claim 38, The base member, A support which is open at an upper portion and has an accommodating portion therein; Consists of a cover member detachably coupled to the upper portion of the support, The cover member is formed with a drop hole in communication with the receiving portion inside the main gasket, When the communication between the inside and the outside of the main gasket is blocked by the lowering of the housing, the first hot wire discharge hole is closed by the blocking gasket and the communication path between the suction hole and the drop hole is sealed, the suction Air suction pump, characterized in that the ball and the drop hole to maintain a mutual communication state. The method according to any one of claims 33, 34 or 38, The piston member, A piston portion mounted to an outer circumferential surface thereof and in contact with an inner surface of the housing; A rod-shaped rod portion coupled to the upper portion of the piston portion; A handle portion formed on the rod portion; A pressing member coupled to the lower portion of the piston to be movable in the vertical direction; Is disposed between the lower portion of the piston and the pressing member is made of a first spring to add an elastic force in a direction away from the piston portion, The lower portion of the pressing member is mounted so that the first heating wire is exposed in the downward direction, The power supply unit is mounted inside the rod unit, When the first heating wire is in contact with the base member when the piston member is lowered when the first spring is compressed, the power supply unit and the first heating wire is grounded to each other, the first heating wire is heated Pump. The method of claim 11, A base member; A housing mounted to an upper portion of the base member so as to be movable upward and downward, and having an upper and lower portion open; A piston member disposed in the housing so as to be movable, and having an upper portion penetrated through the upper portion of the housing and exposed to the outside; A first heating wire mounted to be exposed to at least one of an upper surface of the base member, a lower surface of the housing, and a lower portion of the piston member; A power supply unit supplying power to the first heating wire; Comprising a closed curved main gasket protruding from the upper surface of the base member or the lower surface of the housing, the plastic bag of the plastic bag using an air suction pump to inhale the air inside the plastic bag to be discharged to the outside and sealed by heat sealing Vacuum and seal, The first heat-sealing portion of the plastic bag is heat-sealed by a first heating wire mounted to the air suction pump in a state where the opening of the plastic bag is inserted into the air suction pump, and a predetermined section is opened to form an opening. Suture step; After repositioning by rotating the plastic bag, the air discharge step of discharging the air inside the plastic bag to the outside through the opening of the plastic bag using the air suction pump; And a second secondary heat sealing step of sealing the opening of the plastic bag by sealing the opening by the first heating wire of the air suction pump. The method of claim 43, The air suction pump has a stopper protrusion for preventing movement of the plastic bag, and the stopper protrusion has two or more contact surfaces in contact with the plastic bag, and are spaced apart from each other, and the first of the contact surfaces of the stopper protrusion is An imaginary line connecting two contact surfaces closest to the heating wire is spaced apart from the first heating wire at the rear of the first heating wire, In the first heat sealing step, the opening of the plastic bag is in contact with two or more contact surfaces of the stopper protrusion in a state where the plastic bag is disposed under the first heating wire, and then the movement thereof is prevented by the first heating wire. The first heat sealing line is formed, In the air discharge step, the plastic bag is rotated so that the openings and side joints of the plastic bags are in contact with the contact surfaces of the stopper protrusions, respectively, while the plastic bags are disposed under the first heating wire. Is inserted into the opening so that the opening is disposed inside the main gasket and discharges the air inside the plastic bag to the outside by a reciprocating motion to the piston member, In the second heat sealing step, the first heating wire forms a second heat sealing line connecting the first heat sealing line and the side joint to close the opening. . The method of claim 1, A main gasket protruding upward in an upper surface of the base member or protruding downward in a lower surface of the housing; Further comprising a stopper protruding upward in the upper surface of the base member or protruding downward in the lower surface of the housing, The first heating wire is mounted to be exposed to the outside of the lower surface of the housing, The protruding length of the main gasket is larger than the protruding length of the stopper, When the housing is lowered, the main gasket is compressed by pressing the plastic bag disposed between the base member and the housing until the lowering of the housing is stopped by the stopper. The method of claim 45, The main gasket, An upper main gasket having a closed curve mounted on a lower surface of the housing to protrude downward; Mounted to protrude upward in the upper surface of the base member, and made of a lower main gasket of the closed curve shape in contact with the upper main gasket when the housing is lowered, When the housing is lowered, the upper main gasket and the lower main gasket are compressed to each other while pressing the plastic bag disposed between the upper main gasket and the lower main gasket until the lowering of the housing is stopped by the stopper. Air suction pump. 47. The method of claim 45 or 46, The housing, A hollow housing body having a lower portion of the piston member disposed therein; A lower cover mounted to the lower portion of the housing body; It includes a punch protrusion is mounted to protrude downward in the lower portion of the lower cover, The first heating wire is exposed to the outside while surrounding the periphery of the punch protrusion in the lower portion of the lower cover, The base member is an air suction pump, characterized in that the suction hole is inserted into the base when the punch projection cut out the plastic bag disposed between the housing and the cover member when the housing is lowered. The method of claim 47, The power supply unit is mounted inside the piston member, The lower cover is equipped with a connection terminal connected to the first heating wire, The power supply unit and the connection terminal in contact with each other when the piston member descends, the air suction pump, characterized in that to supply power to the first heating wire. The method of claim 48, The lower cover is, A lower support part mounted on a lower portion of the housing body and mounted on a lower main gasket, and equipped with a check valve that opens only when air flows from a downward direction to an upward direction; A pressing part which is lifted up and down through the lower support part and provided with the punch protrusion and the first heating wire at a lower part thereof; Is disposed between the lower support and the upper portion of the pressing portion is made of a first spring elastically supporting the pressing portion in the upward direction with respect to the lower support, The lower surface of the piston member when the lowering of the piston member by pressing the upper surface of the pressing portion is characterized in that the air suction pump, characterized in that the lowering. The method of claim 48, The piston member, A piston portion mounted to an outer circumferential surface thereof and in contact with an inner surface of the housing; A rod-shaped rod portion coupled to the upper portion of the piston portion; It consists of a handle portion formed on the rod portion, Between the lower portion of the handle portion and the upper portion of the housing body is elastically supported to be elevated by a second spring, by the lifting is provided with a protruding button portion for interconnecting or blocking the power supply and the first heating wire, Before the second spring is compressed, the power supply unit and the connection terminal are cut off by the button unit. And the power supply part and the connection terminal are electrically connected to each other by the button part when the button part is pressed while compressing the second spring by the lowering of the piston member. 47. The method of claim 45 or 46, It further comprises a sealing portion mounted to the upper portion of the piston member, The sealing unit, A sealing body mounted on an upper portion of the piston member; A sealing cover mounted to an upper portion of the sealing body so as to be movable upward and downward; A second heating wire connected to the power supply unit and mounted to be exposed upward in an upper portion of the sealing body; A pressure roller unit mounted at a position corresponding to the second heating wire at a lower portion of the sealing cover; And a third spring disposed between the sealing cover and the pressure roller part to elastically support the pressure roller part in an up and down direction. The method of claim 51, The pressure roller part, A roller body mounted on the sealing cover so as to be lifted up and down; It consists of two or more rollers mounted on the roller body so as to rotate in the arrangement direction of the second heating wire, The third spring is made of a coil spring air suction pump, characterized in that disposed between the lower surface of the sealing cover and the upper surface of the roller body. The method of claim 1, Further comprising a main gasket protruding upward in the upper surface of the base member or protruding downward in the lower surface of the housing, The first heating wire is mounted to be exposed to the outside of the lower surface of the housing, The base member is opened upwards to communicate with the inside of the housing, The outer surface of the base member is formed with a first communication hole for communicating the inside and outside of the base member, The base member is provided with a communication door for opening and closing the first communication hole air suction pump. The method of claim 53, The housing, A hollow housing body having a lower portion of the piston member disposed therein; A lower cover formed therein and penetrating the upper and lower sides thereof and mounted to a lower portion of the housing body; A pressurizing part inserted into the mounting hole, the suction hole penetrating in the vertical direction, and the first heating wire mounted on a lower surface of the suction hole and surrounding the circumference of the suction hole; Consists of a check valve for opening and closing the upper portion of the suction hole, The check valve is an air suction pump, characterized in that for opening the upper portion of the suction hole when the piston member is raised, and closes the upper portion of the suction hole when the piston member is lowered. The method of claim 54, wherein The lower portion of the pressing portion protrudes downward and is provided with a punch protrusion for cutting a plastic bag disposed between the pressing portion and the base member when the housing is lowered, The base member includes an accommodating part in which the foreign matter discharged from the plastic bag opened and cut upward is accommodated and the first communication hole is formed at a lower portion thereof; A cover member covering an upper portion of the accommodating part, The cover member has a drop hole into which the punch projection is inserted when the housing is lowered; A flow hole for communicating the inside of the receiving portion with the suction hole at a position spaced apart from the drop hole, Air suction pump, characterized in that the first heating wire is arranged around the punch projection. The method of claim 54, wherein The housing, It is disposed on the upper portion of the pressing portion is coupled, and further comprises an intermediate plate is mounted so that the connection terminal is exposed in the upward direction, The power supply unit is mounted inside the piston member, The connection terminal is connected to the first heating wire by a connection line passing through the pressing portion, The air intake pump, characterized in that the power supply and the connection terminal is in contact with each other when the piston member is lowered to supply power to the first heating wire. The method of claim 56, wherein The housing, The intermediate plate is coupled to the upper portion and the pressing portion is coupled to the lower portion further comprises an elastic portion mounted on the upper portion of the lower cover, The elastic portion is formed with a second communication hole in communication with the suction hole by the check valve, The elastic part is formed in the convex protrusion projecting in the direction of the piston member in the free state, the air suction pump, characterized in that the pressing part is lowered while being compressed by being pressed by the piston member when the piston member descends. The method of claim 57, The air intake pump, characterized in that the elastic portion protrudes the pressing portion for pressing the check valve in the second communication hole. The method of claim 53 or 54, Air suction pump, characterized in that the rail protrusion protrudes on the upper portion of the piston member or the lower portion of the base member. The method of claim 53 or 54, The upper part of the piston member is mounted so that the pressing cover is elevated in the vertical direction, Air suction pump, characterized in that the rail projection protruding on the lower surface of the pressing cover or the upper surface of the piston member.

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