KR20190115802A - A combined air cleaner apparatus with Oxygen generator - Google Patents

Abstract

The present invention relates to an air cleaning device combined with an oxygen generator. The air cleaning device combined with the oxygen generator comprises: an outer case (10) including a control unit, multiple air discharge holes, and a door capable of being opened and closed, wherein the lower part of the outer case (10) is connected to a mounting plate; a support case (20) fixed to the mounting plate and having a first inlet hole on one side and a ventilating opening on the upper surface, wherein the support case (20) includes a rail on the inner side; an air compressor (30) fixed and connected to the upper surface of the support case (20); an inner case (40) including multiple air discharge holes and connected to the support case (20) to include the air compressor (30), wherein the inner case (40) includes a rail on the inner side and has a second inlet hole on one side; a filter unit (50) comprising a filter individually installed on the inner side of the inner case (40) and the support case (20); a duct unit (60) formed in the upper part of the inner side of the inner case (40); a ventilation unit (70) installed between the duct unit (60) and the filter of the inner case (40); an oxygen generation unit (80) fixed and connected to the other side of the inner case (40); and a control unit (90) controlling the control unit, the air compressor (30), the ventilation unit (70), and the oxygen generation unit (80). The air cleaning device combined with the oxygen generator can maintain clean indoor air and supply clean oxygen at the same time. Also, the air cleaning device combined with the oxygen generator can improve the durability of zeolite and solve a noise problem and a heat generation problem due to operation of the air compressor and suction/discharge of the air, at the same time.

Description

A combined air cleaner apparatus with Oxygen generator

The present invention relates to an oxygen generator combined air cleaning device, and more particularly, it is disposed in the room to suck the polluted air to remove harmful substances, and at the same time supply the air to remove the harmful substances to the oxygen generator and the indoor clean air The present invention relates to an oxygen generator and a combined air cleaner that can supply clean oxygen, prevent noise and vibration, reduce heat generation, and offset heat generated.

With industrialization, air quality contains a lot of harmful ingredients, especially in recent years, as well as harmful gases, fine dust and respiratory diseases or skin diseases are occurring a lot. In general, if the pollutants distributed in the space, that is, the substances to be removed are classified by size, the size of the dust particles is several tens to several tens of micrometers, the fine dust is 0.3 micrometers, the fungus is about 5 micrometers, and the bacteria are 0.5-10 micrometers. The class is 0.1 micrometer or less.

Accordingly, modern people need a comfortable and clean environment, and accordingly, various air-conditioning devices, that is, an oxygen generator or an air cleaning device, are being researched and developed to comfort the interior.

Oxygen generator is a device that inhales outdoor air using a compressor and generates high concentration of oxygen by passing the sucked air through oxygen separation filters such as PSA filter, UFL filter and membrane filter. It is a form.

The dual PSA filter uses an oxygen concentrating device using pressure swing adsorption, and since it uses only compressed air and an adsorbent, it has been widely used in medical and household oxygen generators for a long time since it is easy to use and does not discharge pollutants.

The pressure circulation adsorption principle is to separate and concentrate oxygen by using the difference in the adsorption amount of oxygen adsorbed to the adsorbent according to the pressure in the two adsorptive beds. The components such as nitrogen, which occupy a large amount in the adsorption, are adsorbed, and the remaining compressed oxygen is sent to the oxygen cylinder to be stored separately, and the nitrogen and the like adsorbed on the adsorbent are desorbed as internal oxygen and discharged to the outside to depressurize. Here, zeolite is usually used as the adsorbent, because about 80% of nitrogen in the atmosphere is adsorbed to the zeolite rather than oxygen.

However, the conventional oxygen generator has a problem in the indoor arrangement due to the noise generated during the air intake / exhaust and the heat generated by the compressor, the air compressed in the air compressor is transferred to the zeolite at a high temperature due to the heat generated during the compression high temperature compression Air has a problem of impairing the adsorption capacity of zeolite, noise problem caused by the operation of the air compressor, the oxygen generator installed in the outside because the air sucked into the oxygen generator is just passed through a simple filter without being filtered. There is a problem of supplying oxygen in a state where it is unknown what harmful substances are contained.

In addition, the air cleaner is a device for removing mold, bacteria, fine dust and the like contained in the indoor air, most of the air cleaner composed of a plurality of air filters including an air cleaning sterilizer or an antibacterial filter with an electric ionizer.

However, in the case of an air cleaner sterilizer including an electric ionizer, sterilization is good because ozone is directly used during air cleaning to sterilize the space, but the ozone discharged into the indoor space may adversely affect the human body. Is being raised.

In addition, some conventional air cleaners do not directly discharge ozone, which is harmful to the human body, to inhale air into the device and sterilize the air within the air path, but this device also collects air. Inevitably, the size of the filter is increased, and a separate catalyst filter is required to remove residual ozone after air purification inside the apparatus, and due to the relatively short lifespan of the catalyst filter, the sterilizing effect on indoor air is deteriorated. .

In addition, since the air cleaner is used in a state in which the external air is blocked, that is, the window or door closed, there is a problem that the consumer feels frustrated due to lack of oxygen.

In addition, there is a problem that the economic burden is increased to use separately provided oxygen generators and air purifiers.

Accordingly, the applicant has developed an air purifier that combines oxygen generator that can be placed indoors but keep indoor air clean and supply clean oxygen without any noise and heat generation. .

Publication No. 10-2004-0021835 published on March 11, 2004.

A first object of the present invention is to provide an oxygen generator combined air cleaning device which is disposed in the room and can keep clean indoor air and supply clean oxygen at the same time.

In addition, the second object of the present invention, there is almost no noise during the air intake / exhaust, solve the noise problem and heat generation problems caused by the air compressor at the same time, not only to discharge the heat generated from the air compressor to the outside In addition, to provide a compressed air of the appropriate temperature from the air compressor to the zeolite to provide an oxygen generator combined air cleaning device that can increase the durability of the zeolite.

Oxygen generator combined air cleaning device according to the present invention for achieving the technical problem,

An outer case having an operation unit and a plurality of air discharge holes and an openable door, the outer case being coupled to a seating plate;

A support case 20 fixedly coupled to the seating plate, and having a ventilation hole formed at an upper surface thereof, and a first input hole formed at one side thereof, the rail having an inner side thereof;

An air compressor (30) fixedly coupled to an upper surface of the support case (20);

An inner case 40 having a plurality of air discharge holes, coupled to the support case 20 so as to contain the air compressor 30, and having a second input hole formed on one side thereof and a rail inside;

A filter unit 50 formed of a filter provided in each of the support case 20 and the inner case 40;

A duct part 60 formed on an inner upper portion of the inner case 40;

A ventilation unit 70 provided between the filter of the inner case 40 and the duct part 80;

An oxygen generator 80 fixedly coupled to the other side of the inner case 40; And

And a control unit 90 for controlling the operation unit, the air compressor 30, the ventilation unit 70, and the oxygen generator 80.

In addition, in the oxygen generator combined air cleaning apparatus according to the present invention,

The support case 20 is installed so that the rails face the front and rear side plates to correspond to each other, and the rails are positioned to extend on the first input hole formed on one side.

In addition, in the oxygen generator combined air cleaning apparatus according to the present invention,

The air compressor 30 is characterized in that it is connected to the oxygen generating unit 80 through the compressed air cooling means 38.

In addition, in the oxygen generator combined air cleaning apparatus according to the present invention,

The compressed air cooling means 38,

Compressed air intake, cold air outlet and hot air exhaust is formed by branching,

The compressed air intake unit is connected to the air discharge portion of the air compressor 30,

The cold air discharge portion is connected to the air flow pipe (L3) disposed directly below the vent of the support case 20, the air flow pipe (L3) is connected to the oxygen generating unit 80,

The hot air discharge portion is characterized in that connected to the hot air discharge pipe.

In addition, in the oxygen generator combined air cleaning apparatus according to the present invention,

The air compressor 30, the bottom surface is fixed to the auxiliary plate formed with a ventilation hole in the center, the auxiliary plate is characterized in that it is fixed to the upper surface of the support case 20 through the anti-vibration means.

In addition, in the oxygen generator combined air cleaning apparatus according to the present invention,

The inner case 40 is installed on the front and rear side plates so that the rails face each other, and the rails are disposed to extend on the first input hole formed on one side of the rail.

In addition, in the oxygen generator combined air cleaning apparatus according to the present invention,

The filter of the filter unit 5 is provided with a first filter for filtering first and a second filter for filtering second,

The first filter is inserted through the first injection hole of the support case 20 is fixed after moving along the rail,

The second filter is input through the second input hole of the inner case is characterized in that it is fixed after moving along the rail.

In addition, in the oxygen generator combined air cleaning apparatus according to the present invention,

The duct unit 60 is a plurality of duct plates arranged to be spaced up and down so as to overlap a predetermined portion is fixedly coupled to the inner surface of the inner case 40 to form an air flow path between the duct plate and the duct plate It is done.

In addition, in the oxygen generator combined air cleaning apparatus according to the present invention,

The ventilation unit 70 is configured to include a fan,

External air is first filtered through a first filter to be sucked into the installation space in which the air compressor 30 is installed, and secondly filtered through a second filter to be discharged through an air flow path of the duct part 60. Characterized in that.

In addition, in the oxygen generator combined air cleaning apparatus according to the present invention,

The oxygen generator 80,

It consists of a first adsorption unit 81, the oxygen storage cylinder 82 and the second adsorption unit 83,

An upper cover assembly 84 having three upper coupling grooves is coupled to an upper portion of the first adsorption part 81, the oxygen storage container 82, and the second adsorption part 83, respectively. Lower cover assembly 85 is provided with three lower coupling grooves to seal them in the lower part, respectively,

The lower cover assembly 85 is coupled to the solenoid portion 86,

The solenoid portion 86 is characterized in that it is configured in combination with the branch chamber (87).

In addition, in the oxygen generator combined air cleaning apparatus according to the present invention,

The upper cover assembly 84,

A first flow passage communicating the first upper coupling groove and the second upper coupling groove therein; a second flow passage communicating the second upper coupling groove and the third upper coupling groove; and the first upper coupling groove and the third upper coupling groove. A third flow path for communicating the groove is formed, characterized in that the oxygen discharge path for communicating the outside of the upper cover assembly 84 and the second upper coupling groove is formed.

In addition, in the oxygen generator combined air cleaning apparatus according to the present invention,

The first flow path and the second flow path formed on the second upper coupling groove side are further provided with a check valve, the first adsorption portion coupled to the first upper coupling groove and the second suction coupled to the third upper coupling groove Compressed oxygen generated from the portion flows to the oxygen storage cylinder 82 coupled with the second upper coupling groove, but oxygen from the oxygen storage cylinder 82 toward the first adsorption portion 81 and the second adsorption portion 83 It is characterized by preventing the backflow.

In addition, in the oxygen generator combined air cleaning apparatus according to the present invention,

The oxygen discharge passage is further provided with a discharge amount adjusting means to adjust the pressure and flow rate of the discharged oxygen, characterized in that it further comprises an air discharge silencer to prevent the noise during discharge.

In addition, in the oxygen generator combined air cleaning apparatus according to the present invention,

An orifice may be formed in the third flow path that communicates the first upper coupling groove and the third upper coupling groove, or a separate solenoid valve may be provided.

In addition, in the oxygen generator combined air cleaning apparatus according to the present invention,

The lower cover assembly 85,

A first through passage penetrating the first lower coupling groove and a third through passage penetrating the third lower coupling groove, wherein the first through passage and the third through passage are connected to the solenoid valve, respectively. do.

In addition, in the oxygen generator combined air cleaning apparatus according to the present invention,

The solenoid portion is configured to include a solenoid valve,

The solenoid valve is connected to the first passage or the third passage of the lower cover assembly and the compressed air inlet and the nitrogen outlet of the branch chamber 87, the compressed air supplied from the air compressor (30) first Controls the adsorption operation of adsorbing nitrogen gas by supplying it to the adsorption unit 81 or the second adsorption unit 83 and the cleaning operation of discharging the nitrogen gas from the first adsorption unit 81 or the second adsorption unit 83. Characterized in that.

In addition, in the oxygen generator combined air cleaning apparatus according to the present invention,

The branch chamber 87,

One side is formed with a pair of compressed air outlet and nitrogen inlet in communication with each solenoid valve, the other side is formed with a nitrogen air outlet connected to the compressed air inlet and the external discharge pipe connected to the air flow pipe (L3) of the air compressor (30). It is characterized in that the through-path is formed to connect them to each other.

In addition, in the oxygen generator combined air cleaning apparatus according to the present invention,

A first side door and a second side door may be installed to be opened and closed at the first input hole and the second input hole, respectively.

In addition, the oxygen generator combined air cleaning device according to the present invention,

In the oxygen generator combined air cleaning device,

A support case having a ventilation hole formed at an upper surface thereof, a first input hole formed at one side thereof, and a rail provided at an inner side thereof;

An air compressor fixedly coupled to an upper surface of the support case;

An inner case coupled to the support case so as to include the air compressor, and having a second input hole formed at one side thereof and having a rail for guiding and fixing the filter inside;

An oxygen generator fixedly coupled to the inner case; And

And a control unit for controlling them.

In addition, the oxygen generator combined air cleaning device according to the present invention,

In the oxygen generator combined air cleaning device,

A support case having a ventilation hole formed on an upper surface thereof;

An air compressor coupled to an upper surface of the support case;

Compressed air cooling means formed by branching the compressed air intake unit, the cold air discharge unit, and the hot air discharge unit connected to the air discharge port of the air compressor; And

An oxygen generator connected to the cold air discharge unit of the compressed air cooling unit through an air flow tube; It is configured to include, characterized in that the heat generated from the air compressor is offset by the compressed cold air moving the air flow tube.

In addition, the oxygen generator combined air cleaning device according to the present invention,

In the oxygen generator combined air cleaning device,

A support case having a ventilation hole formed at an upper surface thereof, a first input hole formed at one side thereof, and having a rail for guiding and seating a filter therein; And

An inner case coupled to the support case, having a second inlet hole formed at one side thereof, and having a rail for guiding and fixing the filter in the inner side, and sequentially arranging a duct part and a ventilation unit between the inner upper part and the filter; Characterized in that comprises a.

Oxygen generator combined air cleaning device according to the present invention, it is disposed in the room has the effect that can maintain clean indoor air and supply clean oxygen at the same time.

In addition, the oxygen generator combined air cleaning device according to the present invention, there is almost no noise during the air intake / exhaust, there is an effect to solve the noise problem and heat generation problems caused by the operation of the air compressor at the same time.

In addition, the oxygen generator combined air purifier according to the present invention, not only to discharge the heat of the compressed air compressed in the air compressor to the outside, but also to ensure the durability of the zeolite by supplying the compressed air of the appropriate temperature from the air compressor to the zeolite It can increase the effect.

1 is an external perspective view of an oxygen generator combined air cleaning device according to an embodiment of the present invention,
2 is an exploded perspective view showing a coupling relationship between an outer case, an inner case, a support case and a seating plate of an oxygen generator combined air cleaning device according to an embodiment of the present invention;
Figure 3 is a schematic cross-sectional view showing the internal coupling relationship between all the components of the oxygen generator combined air cleaning apparatus according to an embodiment of the present invention,
4 is an exploded perspective view illustrating a coupling relationship between an inner case, a support case, and an oxygen generator in FIG. 3;
5 is an exploded perspective view showing a coupling relationship of the support case, the air compressor and the oxygen generator in FIG.
6 is an exploded perspective view showing a coupling relationship of the oxygen generating unit in FIG.
FIG. 7 is a cross-sectional view illustrating a schematic cross section of an oxygen generator in FIG. 3; FIG.
8 is a filter replacement operation state of the oxygen generator combined air cleaning device according to an embodiment of the present invention.

Specific features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. Prior to this, the terms or words used in the present specification and claims are defined in the technical spirit of the present invention on the basis of the principle that the inventor can appropriately define the concept of the term in order to explain his invention in the best way. It should be interpreted to mean meanings and concepts. In addition, when it is determined that the detailed description of the known function and its configuration related to the present invention may unnecessarily obscure the subject matter of the present invention, it should be noted that the detailed description is omitted.

1 is an external perspective view of an oxygen generator combined air cleaning device according to an embodiment of the present invention, Figure 2 is an outer case, inner case, support case and seating plate of the oxygen generator combined air cleaning device according to an embodiment of the present invention Figure 3 is an exploded perspective view showing a coupling relationship of, Figure 3 is an internal rough cross-sectional view showing the coupling relationship between the entire components of the oxygen generator combined air cleaning apparatus according to an embodiment of the present invention, Figure 4 is an inner case, a support case and 5 is an exploded perspective view illustrating a coupling relationship between a support case, an air compressor, and an oxygen generator in FIG. 3, FIG. 6 is an exploded perspective view showing a coupling relationship between an oxygen generator, and FIG. 7. Figure 3 is a cross-sectional view showing a schematic cross-section of the oxygen generator, Figure 8 is a filter replacement operation state diagram of the oxygen generator combined air cleaning device according to an embodiment of the present invention.

1 to 6, the oxygen generator combined air cleaning device 1 according to an embodiment of the present invention, the outer case 10, the support case 20, the air compressor 30, the inner case 40, the filter unit 50, the duct unit 60, the ventilation unit 70, the oxygen generator 80, and the controller 90 are configured to be included.

The outer case 10 has a cylindrical shape in which the lower part is opened, and an operation part 11 and a plurality of air discharge holes h1 are formed on an upper surface thereof, and an openable door 12 is formed on one side thereof. In this case, the door 12 may be formed in one side or a whole, and a handle p may be provided to facilitate opening and closing.

The operation unit 11 may include an individual or simultaneous selection function of an oxygen generator and an air cleaner, an air / oxygen amount discharge control function, an operation on / off function, an indoor oxygen amount / hazard gas amount notification function, and the like.

In the present invention, the entire right side of one side of the outer case 10 is formed as a door, but is not limited thereto, and of course, a separate door may be formed only on a required portion of one side.

The open lower portion of the outer case 10 may be fixedly coupled to the side edge of the seating plate 21 is formed on the bottom surface.

Here, the seating plate 21 is a case plate having a side edge of a predetermined height formed by bending upward from the bottom surface and the top surface is open, and a plurality of air suction holes 21a are formed in the bottom surface of the seating plate. The side border of the seating plate is fastened to the lower edge of the outer case. The seating plate 21 serves to seat and support the components of the present invention.

The support case 20 is a plate shape bent in a U-shape is fixed to the inner bottom surface of the seating plate 21, the upper surface 21 is formed with a ventilation opening 21a having a large diameter in the center, Four fastening holes 21b are symmetrically formed around 21a, and fastening holes 21c to which the compressed air intake unit 38a of the compressed air cooling means 38 to be described later and the air suction silencer 30a are connected. And a fastening hole 21d is formed.

In addition, a first injection hole 22a into which the first filter 51 is introduced in the horizontal direction is formed at a predetermined position on one side 22 of the support case 20, and the compressed air cooling means is formed on the other side 23. A fastening hole 23a through which the air flow pipe L3 connected to the cold air discharge part 38b of 38 passes through and a fastening hole 23b through which the hot air discharge part 38c are fastened. Here, the first inlet hole 22a is provided with a first side door 22b so that the first filter 51 can be input and discharged through the first side door. The shape of the first side door 22b may be provided so as to fit in the shape of the input hole, one side of the first side door 22b is connected to one side of the support case by a hinge so as to be openable and close, and the other side corresponding thereto. It is connected to the lock.

In addition, a fastening flange having a predetermined width may be formed at the edges of the upper surface 21, one side 22, and the other side 23 of the support case 20, and one side 22 and the other side 23 may be formed. At the bottom, a N-shaped flange may be formed and fixed to the bottom of the seating plate.

In addition, the front and rear sides of the support case 20 are provided with a front side plate 24 and a rear side plate 25 fastened to the flanges of the upper surface, one side and the other side. The front side plate 24 and the rear side plate 25 are elongated in the horizontal direction in accordance with the position of the first input hole 22a of the one side 22 of the support case 20 except for the width that is engaged with the flange. The mold rails 24a and 25a are fixedly installed to face each other.

Here, the U-shaped rails 24a and 25a are guided and fixedly installed along the rails when the first filter 51 is inserted into and discharged from the first inlet hole 22a. 1 It is installed so as to be located on the position and width and the extension line of the injection hole (21a).

Although only the U-shaped rails 24a and 25a are illustrated in the present invention, the present invention is not limited thereto, and may be any type of rail provided to smoothly insert and discharge the first filter and to be fixed without moving up and down after the first filter. Do.

The air compressor 30 compresses the air sucked through the air suction unit 31, and then transfers the compressed air to the oxygen generator 80 through the air discharge unit 32, and the bottom surface is ventilated at the center. The hole 35a is fixed to the auxiliary plate 35 formed therein, and the auxiliary plate 35 is fixedly fastened to four fastening holes 21b formed on the upper surface of the support case 20 through the vibration preventing means 37 such as a spring. do. Here, the ventilation hole 35a is for offsetting heat generated in the air compressor 30 by cold air introduced from the lower part and cooling the air compressor efficiently.

In addition, the air suction portion 31 of the air compressor 30 is connected to the air suction silencer 30a through the air suction pipe (L1), the air discharge portion 32 is compressed air cooling means through the air discharge pipe (L2). It is connected with the compressed air intake part 38a of (38).

The compressed air cooling unit 38 is formed by branching the compressed air intake unit 38a, the cold air discharge unit 38b, and the hot air discharge unit 38c. The compressed air cooling unit 38 is positioned on the inner side of the support case 20. The portion 38a is fixedly coupled to the fastening hole 23a of the support case 20 and connected to the air discharge pipe L2 extending from the air discharge portion 32 of the air compressor 30, and the cold air discharge portion 38b. Is connected to the air flow pipe (L3) disposed directly below the vent port (21a) of the support case 20, the air flow pipe (L3) is connected to the oxygen generating portion 80, the hot air discharge portion (38c) is supported Is fastened to the fastening hole (23b) formed on the other side of the case 20 is connected to communicate with the hot air discharge pipe (L4).

The compressed air cooling means is preferably a vortex tube which operates to separate and discharge the compressed air into compressed cold and compressed heat, but is not limited thereto. Various configurations and means for removing heat from the compressed air and cooling it to an appropriate temperature are provided. Of course it is possible.

Here, the air flow tube (L3) is a tube in which compressed cold air is moved in the compressed air, preferably a copper tube that is easy to heat transfer, the air flow tube is a copper wire or so as to facilitate heat exchange with the outside environment, heat transfer or cold air to the outside The outer surface of the air flow tube may be wrapped with a metal wire, or the heat sink may be provided on the outer surface of the air flow tube.

In addition, the air flow tube (L3) is disposed directly under the ventilation port (21a) so that the air sucked from the lower portion and flowing upward through the ventilation port is lowered by the compressed cold air flowing through the air flow tube, the temperature is lowered The heat generated from the air compressor 30 is canceled by the air and serves to cool the air compressor 30.

The compressed cold air moving and discharged through the air flow pipe L3 connected to the cold air discharge part 38b as described above is supplied to the oxygen generator 80 and discharged through the hot air discharge pipe L4 connected to the hot air discharge part 38c. Compressed heat is discharged to the outside with nitrogen through the external discharge pipe (L6) connected to the hot air discharge pipe (L4). Of course, the external discharge pipe (L6) may be provided with a discharge silencer to prevent the discharge noise.

The inner case 40 has a plate shape bent in a U-shape, and a plurality of air discharge holes h2 are formed in the upper surface 41, and at a predetermined position on the upper middle side of one side 42 of the inner case 40. The second input hole 42a to which the second filter 52 is to be introduced is formed. Here, the second inlet hole 42a is provided with a second side door 42b to enable the introduction and discharge of the second filter 52 through the second side door. The shape of the second side door 42b may be provided to fit in the shape of the input hole, one side of the second side door 42b is hingedly connected to one side surface 42 of the inner case 40, The other side corresponding thereto is connected to the locking device.

In addition, a fastening flange having a predetermined width is formed at an edge of the upper surface 41, one side 42, and the other side 43 of the inner case 40, and an upper portion is formed at the front and rear of the inner case 40. The front side plate 44 and the rear side plate 45 which are engaged with the flange of the surface, one side and the other side are provided, respectively.

In addition, the front side plate 44 and the rear side plate 45 in the horizontal direction in accordance with the position of the second insertion hole 42a of the one side 42 of the inner case 40 except for the width that is engaged with the flange Long c-shaped rails 44a and 45a are fixedly installed to face each other.

Here, the U-shaped rails 44a and 45a are guided and fixedly installed along the rails when the second filter 52 is inserted into and discharged into the second inlet hole 42a. It is provided so that it may be located in the position and width of the 2nd input hole 42a, and an extension line.

In the present invention, although only the U-shaped rail (44a, 45a) is shown, but is not limited to this, it is possible to smoothly insert and discharge the first filter and the rail of various forms provided to be fixed without moving in the vertical direction after the input Is possible.

At this time, since the second filter 52 is disposed to be spaced apart in parallel to the lower portion of the fan mounting plate 72 to be described later, the position where the rail is formed and the position of the second injection hole can be adjusted accordingly.

In addition, a duct part 60 is formed on an inner upper portion of the inner case 40.

Duct portion 60 is composed of a plurality of duct plates 61 are arranged spaced apart up and down so as to overlap a portion, the plurality of duct plate 61 has a width equal to the width of the inner case or a smaller length than the upper surface The plurality of duct plates 61 are alternately fixed to the inner surface of the inner case 40 alternately with each other to form an air flow path between the duct plate and the duct plate.

Here, the first duct plate 61a is fixedly coupled to the upper left side of the inner side of the inner case, and the second duct plate 61b is fixedly coupled to the inner side of the right side of the inner case and spaced apart from the first duct plate. The third duct plate 61c is fixedly spaced apart from the second duct plate on the inner side of the left side of the inner case. In this manner, a plurality of duct plates 61 are fixedly coupled to the left and right sides of the inner case to be staggered with each other to form a duct part, and an air flow path is formed along the duct plates staggered with each other.

Due to the configuration of the duct 60, the noise emitted from the air discharged to the upper part is almost no sound.

The ventilation unit 70 is disposed below the duct unit 60.

The ventilation unit 70 is a fan 71 having a predetermined capacity is fixed to the fan mounting plate 72, the fan mounting plate 72 is spaced a predetermined distance in parallel with the lowest duct plate of the duct unit 60 It is fixedly coupled to the left and right sides of the inner case. The ventilation unit 70 is first filtered outside air through the first filter to be sucked into the installation space in which the air compressor 30 is installed, the air in the installation space is secondly filtered through the second filter duct section It is to be discharged through the air flow path of (60).

The filter unit 50 is composed of a first filter 51 for primary filtering and a second filter 52 for secondary filtering, and the first filter 51 is formed through a first injection hole of the support case 20. After being inserted and moved along the rail, the second filter 52 is inserted through the second insertion hole of the inner case and is fixed after moving along the rail.

Here, the first filter 51 and the second filter 52 may be a bundle of a plurality of separate filters in one frame, or may be made of one filter by fusing a plurality of separate filters into one.

In addition, as the filter used in the filter unit, a pre-filter in the form of a net or nonwoven fabric, a functional filter capable of collecting dust of 1 μm or more and having antibacterial and antiviral functions, a deodorizing filter made of activated carbon and a catalyst, and a fine particle of 0.3 μm Hepa filter that can remove dust, sterilization filter applied with 100% natural terpene, and the like selected as needed may be used in combination.

In the present invention, since the first filter 51 and the second filter 52 of the filter unit 50 are disposed at positions where air is introduced and discharged, respectively, the filter itself acts as a silencer, thereby making noise during air intake and air discharge. Will be prevented. In addition, since the first filter 51 and the second filter 52 are in intimate contact with the front, rear, left, and right side surfaces of the support case and the inner case at respective installation positions, the first filter 51 and the second filter 52 are disposed between the first filter 51 and the second filter 52. The noise generated from the air compressor 30, which is disposed, is prevented from leaking to the outside, and is transferred to the support case and the inner case which are in contact with the air compressor in accordance with the operation of the air compressor, so that the four sides of the support case and the inner case are It absorbs each generated vibration and cancels each other.

The oxygen generator 80 is for adsorbing gas such as concentrated nitrogen from the conveyed compressed air and discharging the concentrated oxygen. The oxygen generator 80, the oxygen storage cylinder 82, and the second adsorption unit An upper portion of the first adsorption portion 81, the oxygen storage cylinder 82, and the second adsorption portion 83 is provided with an upper side of the first upper coupling grooves 84-1 and 84-. 2, 84-3) is provided with the upper cover assembly 84 is coupled, the lower cover is provided with three lower coupling grooves (85-1, 85-2, 85-3) to seal them respectively The assembly 85 is coupled, the lower cover assembly 85 is coupled to the solenoid portion 86, the solenoid portion 86 is coupled to the branch chamber 87 is a modular configuration. The upper cover assembly 84 and the lower cover assembly 85 may be fixed to each other by tightening the connection bolt B, and the oxygen generator 80 is fixed to the outside of the left side 43 of the inner case 40. Can be installed.

Here, the first adsorption part 81, the second adsorption part 83, and the oxygen storage cylinder 82 have a hollow cylindrical shape, and the first adsorption unit 81, the oxygen storage cylinder 82, and the second adsorption unit ( 83 are arranged in a sequential order, inside the first adsorption portion 81 and the second adsorption portion 83 is provided with a zeolite as an adsorbent, non-woven fabric at the upper end and the lower end of the adsorbent to prevent the adsorbent from being separated The porous plate C is disposed and a spring S is provided therein to contain the adsorbent.

In addition, the upper cover assembly 84 may include a first flow passage 812 and a second upper coupling groove (not shown) communicating the first upper coupling groove 84-1 and the second upper coupling groove 84-2 therein. 84-2) and a second flow path 823 for communicating the third upper coupling groove 84-3, and for communicating the first upper coupling groove 84-1 and the third upper coupling groove 84-3. A third flow path 813 is formed, and an oxygen discharge path 842 is formed to communicate the outside of the upper cover assembly 84 with the second upper coupling groove 84-2.

At this time, the check valve (K) is further provided in the first flow path 812 and the second flow path 823 formed on the second upper coupling groove 84-2, and the first upper coupling groove 84-1 may be used. Compressed oxygen generated from the second adsorption part 83 coupled with the first adsorption part 81 and the third upper coupling groove 84-3 is combined with the second upper coupling groove 84-2. Flows into the reservoir 82, but prevents backflow of oxygen from the oxygen reservoir 82 toward the first adsorption portion 81 and the second adsorption portion 83.

The oxygen discharge passage 842 may further include a discharge amount adjusting means such as a pressure regulator and a flow regulator, and may further include an air discharge silencer 82a in communication with the oxygen discharge passage to prevent noise during discharge.

In addition, an orifice is formed in the third flow path 813 for communicating the first upper coupling groove 84-1 and the third upper coupling groove 84-3 to form the first adsorption part 81 or the second adsorption part ( Relatively small amounts of compressed oxygen generated from 83 are allowed to flow to the second adsorption section 83 or the first adsorption section 81, respectively, or have a separate solenoid valve, so that the second adsorption section 83 is provided. Alternatively, it is easy to discharge the gas such as nitrogen trapped in the adsorbent of the first adsorption unit 81.

In addition, the lower cover assembly 85 has a first through passage 851 penetrating the first lower coupling groove 85-1, and a third through passage 853 penetrating the third lower coupling groove 85-3. ) Is formed, and the first through passage 851 and the third through passage 853 are coupled to communicate with the solenoid valve of the solenoid portion 86, respectively.

The solenoid portion 86 includes a plurality of solenoid valves. The solenoid valve is a valve for switching the flow path. The solenoid valve is connected to the compressed air inlet and the nitrogen outlet of the first through passage 851 or the third through passage 853 and the branch chamber 87 of the lower cover assembly 85. Adsorption operation of adsorbing nitrogen gas by supplying compressed air supplied from the compressed air inlet through the air inlet to the first adsorption unit 81 or the second adsorption unit 83, and the first adsorption unit 81 or the second adsorption unit. The cleaning operation for discharging the nitrogen gas from 83 is controlled.

At this time, the solenoid valve is to switch the flow path by the electrical signal by the electronic control circuit, the electronic control circuit is installed to give a switching signal to the solenoid valve at regular intervals to control the adsorption, cleaning process.

The branch chamber 87 has a pair of compressed air outlet 87a and nitrogen inlet 87b which are in communication with each solenoid valve on one side thereof, and a compression chamber connected to the air flow tube L3 of the air compressor 30 on the other side thereof. A nitrogen discharge port is formed to be connected to the air inlet and the external discharge pipe, and a through passage is formed inside the branch chamber to connect them to each other.

The control unit 90 controls the air compressor 30, the ventilation unit 70, the oxygen generating unit 80 and the compressed air cooling means 38, and the like, so that the result is displayed on the operation unit, and Individual or simultaneous selection of air cleaners, air / oxygen discharge control, on / off operation, and indoor oxygen / hazard gas notification.

Hereinafter, the operation of the oxygen generator combined air cleaning device according to the present invention with reference to Figures 2 and 6 as follows.

<When operating both air compressor and ventilation unit>

First, when the air compressor 30 and the ventilation unit 70 are operated, the indoor air is filtered by the first filter 51 from the bottom of the seating surface by the respective suction force of the air compressor 30 and the ventilation unit 70. And aspirated. Some of the primary filtered suctioned air is introduced into the air suction part 31 of the air compressor 30 through the air suction pipe L1 to which the air suction silencer 30a is attached.

The first filtered remaining air is moved upward through the ventilation port 21a of the support case 20 and the ventilation hole 35a of the auxiliary plate 35 by the suction force of the fan 71 of the ventilation unit 70. While cooling the air compressor (30) and the secondary filter in the second filter 52, and then discharged through the ventilation unit is moved along the air flow path of the duct unit 60 to the air discharge hole and the outer case of the upper inner case The air is discharged into the room through the air discharge hole of clean air.

On the other hand, the first filtered air introduced into the air compressor 30 is discharged through the air discharge unit 32 in the state of hot compressed air compressed by the drive of the air compressor, is transported along the air discharge pipe (L2) and compressed It is introduced into the compressed air intake portion 38a of the air cooling means 38.

The compressed air introduced into the compressed air intake unit 38a of the compressed air cooling unit 38 is classified into compressed cold and compressed hot air according to the operation of the compressed air cooling unit 38, and the compressed cold air discharge unit 38b. Is discharged to the air flow pipe (L3), the compressed heat is discharged to the hot air discharge portion (38c) is transferred to the hot air discharge pipe (L4).

The compressed cold air transferred to the air flow tube (L3) moves along the pipe and heat exchanges with the outside environment around the air flow tube (L3) to lower the temperature of the air in the outside environment.

As such, the primary filtered air passing through the outside environment having the lowered temperature moves upward through the ventilation holes and the ventilation holes, and moves the cold air toward the air compressor 30, and the cold air moved by the compression drive is heated. The compressor is cooled down and mixed with the air in the space where the compressor is placed to reduce the overall air temperature by heat exchange.

The compressed cold air that has undergone proper heat exchange while moving the air flow tube L3 is transferred to the compressed air inlet of the branch chamber 87 of the oxygen generator 80 and introduced therein, and then has a solenoid valve communicating with the compressed air outlet 87a. It flows into the first adsorption part 81 through 86.

Compressed cold flowed into the first adsorption unit 81 is adsorbed by a zeolite, which is an adsorbent provided in the first adsorption unit, such as nitrogen, and the non-adsorbed compressor body such as oxygen moves to the oxygen storage cylinder 82. do.

When the movement of the compressed oxygen to the oxygen storage tank is completed, the solenoid valve is opened to remove the pressure applied to the first adsorption unit 81, and the compressed nitrogen adsorbed on the first adsorption unit is connected to the first adsorption unit 81. After entering the nitrogen inlet (87b) of the branch chamber 87 through the first through passage (851) and the first lower coupling groove (85-1) of the lower cover assembly 85 is discharged through the nitrogen outlet Move along the nitrogen discharge pipe (L5) to be discharged to the outdoor through the outdoor discharge pipe (L6).

Meanwhile, some of the compressed oxygen transferred to the oxygen storage cylinder 82 may be transferred to the second adsorption unit 83 and used to clean the second adsorption unit 83.

In addition, while the movement of the compressed oxygen from the first adsorption unit 81 to the oxygen storage is completed and the cleaning operation for discharging the compressed nitrogen is in progress, the solenoid valve 86 is operated to compress the cold air to the second adsorption unit 83. Flow in and do the same operation as in the first adsorption unit.

As described above, the operation is alternately performed in the first adsorption unit and the second adsorption unit so that compressed oxygen of high purity is stored in the oxygen storage cylinder 82.

Compressed oxygen stored in the oxygen reservoir 82 is discharged through the oxygen discharge path 842 formed in the upper cover assembly 84 is discharged to the room through the air discharge hole of the outer case.

At this time, the pressure or flow rate of the oxygen discharged by the discharge amount adjusting means provided in the oxygen discharge passage is adjusted, and noise is removed during discharge by the air discharge silencer 82a.

<When operating only air compressor>

When only the oxygen generator is to be operated, when only the air compressor 30 is operated, indoor air is filtered and aspirated from the lower surface of the seat by the suction force of the air compressor 30 and is sucked from the lower surface. The sucked air is introduced into the air intake part 31 of the air compressor 30 through the air intake pipe L1 to which the air intake silencer 30a is attached, and the oxygen generation process is as described above.

However, in the process of cooling the heat of the air compressor 30, since there is no air flow in the upward direction, the temperature of the installation space is lowered by heat exchange with air in the installation space in which the compression cooler flowing through the air flow tube and the air compressor are installed. As a result, the air compressor cools down.

<When operating the ventilation unit only>

When only the air cleaner is to be operated, when the ventilation unit 70 is operated, the indoor air is filtered and aspirated from the lower surface of the seat by the suction force of the ventilation unit 70 and is suctioned, and the primary filtering is performed. The sucked air is secondly filtered by the second filter 52 and then discharged through the ventilation unit to move along the air flow path of the duct part 60 to discharge the air through the air discharge hole in the upper part of the inner case and the air discharge of the outer case. It is discharged into the room as clean air through the hole.

In the oxygen generator combined air cleaning device according to the present invention having the above-described configuration, when the filter is to be replaced, the door 12 of the outer case 10 is opened, and then the first side door or the first filter provided with the filter to be replaced. 2 Open the side door and pull out the first or second filter.

Then, a new first filter or a second filter is introduced through the first input hole or the second input hole, guided along the rail, and then fixed by the rail.

After inserting the first filter or the second filter, the first side door or the second side door is closed and sealed.

As described above and described with reference to a preferred embodiment for illustrating the technical idea of the present invention, the present invention is not limited to the configuration and operation as shown and described as described above, it is a deviation from the scope of the technical idea It will be understood by those skilled in the art that many modifications and variations can be made to the invention without departing from the scope of the invention. Accordingly, all such suitable changes and modifications and equivalents should be considered to be within the scope of the present invention.

1: Oxygen generator combined air cleaning device
10: outer case 11: control panel
20: support case 21: upper surface
21a: Ventilation holes 21b, 21c, 21d: Tightening hole
22: one side 23: the other side
22a: first injection hole 22b: first side door
24: Front side plate 25: Rear side plate
24a, 25a: rail
30: air compressor 30a: air suction silencer
31: air suction part 32: air discharge part
35: Auxiliary plate 35a: Ventilation hole
37: vibration prevention means
38: compressed air cooling means 38a: compressed air intake
38b: cold air outlet 38c: hot air outlet
40: inner case
41: upper side 42: one side
43: other side 42b: second side door
42a: second insertion hole
44: front side plate 45: rear side plate
44a, 45a: rail
50: filter unit
51: second filter 52: second filter
60: duct part 61a, 61b, 61c: duct plate
70: ventilation unit 71: fan
72: fan mounting plate
80: oxygen generator 81: first adsorption unit
82: oxygen storage container 83: the second adsorption unit
84: upper cover assembly 84-1: first upper coupling groove
84-2: second upper coupling groove 84-3: third upper coupling groove
812: First Euro 823: Second Euro
813: Third euro 842: Oxygen release route
85: lower cover assembly 85-1: first lower coupling groove
85-2: second lower coupling groove 85-3: third lower coupling groove
851: First passage 853: Third passage
86: solenoid part 87: branch chamber
87a: compressed air outlet 87b: nitrogen inlet
90: control unit
L1: Air suction pipe L2: Air discharge pipe
L3: Air flow pipe L4: Hot air exhaust pipe
L5: Nitrogen discharge tube L6: External discharge tube
B: Connecting bolt
K: Check valve C: Perforated plate
P: Handle S: Spring
h1, h2: air discharge hole

Claims (21)

An outer case having an operation unit and a plurality of air discharge holes and an openable door, the outer case being coupled to a seating plate;
A support case 20 fixedly coupled to the seating plate, and having a ventilation hole formed at an upper surface thereof, and a first input hole formed at one side thereof, the rail having an inner side thereof;
An air compressor (30) fixedly coupled to an upper surface of the support case (20);
An inner case 40 having a plurality of air discharge holes, coupled to the support case 20 so as to contain the air compressor 30, and having a second input hole formed on one side thereof and a rail inside;
A filter unit 50 formed of a filter provided in each of the support case 20 and the inner case 40;
A duct part 60 formed on an inner upper portion of the inner case 40;
A ventilation unit 70 provided between the filter of the inner case 40 and the duct part 80;
An oxygen generator 80 fixedly coupled to the other side of the inner case 40; And
And a control unit (90) for controlling the operation unit, the air compressor (30), the ventilation unit (70), and the oxygen generating unit (80).
The method of claim 1,
The support case 20 is installed on the front and rear side plates so that the rails face each other, and the rails are provided to be positioned on an extension line with the first input hole formed on one side. Device.
The method of claim 1,
The air compressor (30), the oxygen generator combined air cleaning device, characterized in that connected to the oxygen generator 80 through the compressed air cooling means (38).
The method of claim 3, wherein the compressed air cooling means 38,
Compressed air intake, cold air outlet and hot air exhaust is formed by branching,
The compressed air intake unit is connected to the air discharge portion of the air compressor 30,
The cold air discharge portion is connected to the air flow pipe (L3) disposed directly below the vent of the support case 20, the air flow pipe (L3) is connected to the oxygen generating unit 80,
The hot air discharge unit oxygen generator combined air cleaning device, characterized in that connected to the hot air discharge pipe.
The method of claim 1,
The air compressor 30, the bottom surface is fixed to the auxiliary plate is formed in the ventilation hole in the center, the auxiliary plate is oxygen generator combined air, characterized in that fixed to the upper surface of the support case 20 through the anti-vibration means Cleaner.
The method of claim 1,
The inner case 40 is installed on the front and rear side plates so that the rails face each other, and the rails are provided to be positioned on an extension line with the first input hole formed on one side. Cleaner.
The method of claim 1,
The filter of the filter unit 5 is provided with a first filter for filtering first and a second filter for filtering second,
The first filter is inserted through the first injection hole of the support case 20 is fixed after moving along the rail,
The second filter is oxygen generator combined air purifier, characterized in that is fixed through the second input hole of the inner case is moved along the rail.
The method of claim 1,
The duct unit 60 is a plurality of duct plates arranged to be spaced up and down so as to overlap a predetermined portion is fixedly coupled to the inner surface of the inner case 40 to form an air flow path between the duct plate and the duct plate Oxygen generator combined air cleaning device.
The method of claim 1,
The ventilation unit 70 is configured to include a fan,
External air is first filtered through a first filter to be sucked into the installation space in which the air compressor 30 is installed, and secondly filtered through a second filter to be discharged through an air flow path of the duct part 60. Oxygen generator combined air cleaning device, characterized in that.
The method of claim 1, wherein the oxygen generating unit 80,
It consists of a first adsorption unit 81, the oxygen storage cylinder 82 and the second adsorption unit 83,
An upper cover assembly 84 having three upper coupling grooves is coupled to an upper portion of the first adsorption part 81, the oxygen storage container 82, and the second adsorption part 83, respectively. Lower cover assembly 85 is provided with three lower coupling grooves to seal them in the lower part, respectively,
The lower cover assembly 85 is coupled to the solenoid portion 86,
The solenoid portion 86 is an oxygen generator combined air cleaning device, characterized in that coupled to the branch chamber 87 is configured.
The method of claim 10, wherein the upper cover assembly 84,
A first flow passage communicating the first upper coupling groove and the second upper coupling groove therein; a second flow passage communicating the second upper coupling groove and the third upper coupling groove; and the first upper coupling groove and the third upper coupling groove. A third flow path for communicating the groove is formed, the oxygen generator combined air cleaning device, characterized in that the oxygen discharge path for communicating the outside of the upper cover assembly (84) and the second upper coupling groove is formed.
The method of claim 11,
The first flow path and the second flow path formed on the second upper coupling groove side are further provided with a check valve, the first adsorption portion coupled to the first upper coupling groove and the second suction coupled to the third upper coupling groove Compressed oxygen generated from the portion flows to the oxygen storage cylinder 82 coupled with the second upper coupling groove, but oxygen from the oxygen storage cylinder 82 toward the first adsorption portion 81 and the second adsorption portion 83 Oxygen generator combined air cleaning device, characterized in that to prevent the reverse flow.
The method of claim 11,
The oxygen discharge passage further comprises a discharge amount adjusting means for adjusting the pressure and flow rate of the discharged oxygen, further comprising an air discharge silencer, characterized in that the oxygen generator combined air cleaning device to prevent the noise during discharge.
The method of claim 11,
Oxygen generator combined air cleaning device, characterized in that to form an orifice or a separate solenoid valve in the third flow path for communicating the first upper coupling groove and the third upper coupling groove.
The method of claim 11, wherein the lower cover assembly 85,
A first through passage penetrating the first lower coupling groove and a third through passage penetrating the third lower coupling groove, wherein the first through passage and the third through passage are connected to the solenoid valve, respectively. Oxygen generator combined air cleaning device.
The method of claim 11,
The solenoid portion is configured to include a solenoid valve,
The solenoid valve is connected to the first passage or the third passage of the lower cover assembly and the compressed air inlet and the nitrogen outlet of the branch chamber 87, the compressed air supplied from the air compressor (30) first Controls the adsorption operation of adsorbing nitrogen gas by supplying it to the adsorption unit 81 or the second adsorption unit 83 and the cleaning operation of discharging the nitrogen gas from the first adsorption unit 81 or the second adsorption unit 83. Oxygen generator combined air cleaning device, characterized in that.
The method of claim 11, wherein the branch chamber 87,
One side is formed with a pair of compressed air outlet and nitrogen inlet communicating with each solenoid valve, the other side is formed with a nitrogen air outlet connected to the compressed air inlet and the external discharge pipe connected to the air flow pipe (L3) of the air compressor (30). And, the inside of the oxygen generator combined air cleaning device, characterized in that the through-hole is formed to connect them.
The method according to any one of claims 1 to 17,
Oxygen generator combined air cleaning device, characterized in that the first inlet and the second inlet hole is installed to open and close the first side door and the second side door, respectively.
In the oxygen generator combined air cleaning device,
A support case having a ventilation hole formed at an upper surface thereof, a first input hole formed at one side thereof, and a rail provided at an inner side thereof;
An air compressor fixedly coupled to an upper surface of the support case;
An inner case coupled to the support case so as to include the air compressor, and having a second input hole formed at one side thereof and having a rail for guiding and fixing the filter inside;
An oxygen generator fixedly coupled to the inner case; And
Control unit for controlling them; Oxygen generator combined air cleaning device comprising a.
In the oxygen generator combined air cleaning device,
A support case having a ventilation hole formed on an upper surface thereof;
An air compressor coupled to an upper surface of the support case;
Compressed air cooling means formed by branching the compressed air intake unit, the cold air discharge unit, and the hot air discharge unit connected to the air discharge port of the air compressor; And
An oxygen generator connected to the cold air discharge unit of the compressed air cooling unit through an air flow tube; It is configured to include, wherein the heat generated from the air compressor is an oxygen generator combined air cleaning device, characterized in that the offset by the cold air moving the air flow pipe.
In the oxygen generator combined air cleaning device,
A support case having a ventilation hole formed at an upper surface thereof, a first input hole formed at one side thereof, and having a rail for guiding and seating a filter therein; And
An inner case coupled to the support case, having a second inlet hole formed at one side thereof, and having a rail for guiding and fixing the filter in the inner side, and sequentially arranging a duct part and a ventilation unit between the inner upper part and the filter; Oxygen generator combined air cleaning device, characterized in that comprising a.