KR20030068523A - device for cereal divide - Google Patents

Abstract

The present invention has the advantage that can be used safely because it prevents the excessive inflow of grain into the suction induction unit in operation, because the suction and suction the grain and the outside air together.

In addition, the grain sucked by the suction induction part is separated into grains and foreign matter in the grain separation unit, the foreign matter is blocked by the foreign material blocking the discharge hole because the separated foreign matter is discharged to the discharge hole while pressing the rotating rubber piece in close contact with the discharge hole. There is an advantage to improve workability.

In addition, to improve the function of the filtration member, the foreign matter attached to the surface of the filtration filter is applied without impacting the filtration filter to which the locking piece is rotated to separate the foreign matter from the surface of the filtration filter without any separate operation. It is easy to, and since the foreign matter is not attached to the surface of the filtration filter relates to a grain separation device to improve the filtration function to improve the reliability of the product.

Description

Grain Separator {device for cereal divide}

The present invention relates to a grain separator for sucking grains such as rice, soybeans and barley by the rotational force of the motor, and separating and discharging foreign substances such as dust mixed with the sucked grains.

The grain separation device used for conveying and separating and discharging the grain transferred to the processing line to process the grain produced as is well known, as shown in Figure 1, the rotary airlock valve 20 of the motor 21 Rotates to forcibly form a vortex inside the cyclone 10.

In addition, when the external grain flows into the inlet 11 of the cyclone 10, foreign matter is moved upward by the vortex formed by force is discharged to the outside through the outlet 12, one side of the outlet 12 The strainer 30 formed in is formed to remove the foreign matter.

On the other hand, the grains separated by the vortex are taken to the storage unit 40 through the rotary airlock valve 20 by moving on the inner wall of the cyclone 10 to the day.

By the way, the grain separation device configured as described above has a problem of separating grain into grains and foreign matters by vortex phenomenon, and having a problem of polluting the surroundings by blowing foreign matters discharged to the outlet, the size of the separator separating the grains by vortex phenomenon. There was a problem that occurs a lot of installation cost as it increases.

In addition, if a foreign matter larger than the strainer hole is in close contact with the strainer that filters the foreign substance discharged to the outlet, the foreign substance does not pass properly, and the foreign substance is blocked by the outlet, and when the grain is sucked into the inlet in the blocked state, the grain separation device There was a problem that the operation is not smooth because the operation is not smooth, so that the reliability of the product is lowered, and the user has to separate the strainer from the outlet and often need to clean it.

In addition, there is a problem that pollutes the environment because it is not equipped with a separate dust collector or otherwise released as it does not filter the foreign matter such as dust itself.

Accordingly, the present invention has been made in view of the above-mentioned conventional defects, and its object is to inhale the grain and the outside air together with the suction guide unit, thereby preventing excessive inflow of grain into the suction guide unit, thereby causing an overload. There is an advantage that can be used safely because it blocks.

In addition, the grain sucked by the suction induction part is separated into grains and foreign matter in the grain separation unit, the foreign matter is blocked by the foreign material blocking the discharge hole because the separated foreign matter is discharged to the discharge hole while pressing the rotating rubber piece in close contact with the discharge hole. There is an advantage to improve workability.

In addition, to improve the function of the filtration member, the foreign matter attached to the surface of the filtration filter is applied without impacting the filtration filter to which the locking piece is rotated to separate the foreign matter from the surface of the filtration filter without any separate operation. It is easy to, and since the foreign matter is not attached to the surface of the filtration filter to provide a grain separation device to improve the filtration function to improve the reliability of the product.

The present invention for achieving this object, in the grain separation device,

A power separation unit for driving the first motor, the rotating member connected to the grain separating the grain into grains and foreign matters in the housing;

A suction induction part connected to an upper part of the grain separation part to move external grains into the grain separation part;

A grain transport guide part provided at a lower portion of the grain separation unit, and the grain sucked through the suction induction unit is separated into grains and foreign substances in the grain separation unit, and guides the separated grains to an external storage unit;

A dust collecting unit for suctioning and filtering the foreign matter and air separated by the grain separation unit by the rotational force of the second motor, and forcibly feeding the filtered air to the storage unit;

The foreign matter moved to the lower part of the dust collecting unit is characterized in that the foreign matter discharge portion is discharged to the outside through the rotary whisk to move to the orga screw connected to the third motor.

1 is a cross-sectional view showing a general grain separation device

2 is a front schematic view of a grain separation apparatus to which the present invention is applied;

Figure 3 is a perspective view showing the suction guide portion of the grain separation apparatus to which the present invention is applied

Figure 4 shows a grain separation unit of the grain separation apparatus to which the present invention is applied,

a is an exploded perspective view,

b is a sectional view.

Figure 5 is a state of use of the grain separation apparatus to which the present invention is applied

Figure 6 is a use state showing another embodiment of the grain separation apparatus to which the present invention is applied

<Explanation of symbols for the main parts of the drawings>

100: grain separation unit 120: housing

130: rotating member 200: suction guide portion

210: air inlet home 300: grain transfer guide

320: overflow space 400: dust collector

430: filter member 500: foreign matter discharge unit

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings. 2 is a front schematic view showing the present invention, Figure 3 is a perspective view showing a suction guide portion of the present invention.

In the present invention, the grain separation device, the power is applied to the first motor 110 is driven, the grain separation unit for separating the grain into grain and foreign matter inside the housing 120 is connected to the rotating member ( 100 is configured, the suction induction unit 200 is connected to the top of the grain separation unit 100 to move the external grains into the interior of the grain separation unit 100, the grain separation unit 100 The grain is provided in the lower portion, the suction sucked through the suction guide unit 200 is separated into grains and foreign matter in the grain separation unit 100, the grain transfer guide unit 300 for guiding the separated grains to the external storage unit After suctioning and filtering the foreign matter and air separated by the grain separation unit 100 by the rotational force of the second motor 410, the filtered air is transferred to the grain transfer guide 300 to the storage unit. The dust collecting unit 400 is forcibly supplied to be configured, and the dust collecting unit ( The foreign matter that is moved to the lower portion of the 400 is moved to the orga screw 520 connected to the third motor 510 is configured to discharge the foreign matter discharge unit 500 is discharged to the outside through the rotary bend 530, more specifically Explained as follows.

The grain separation unit 100, as shown in Figure 4, the inside is penetrated and the flange 121 is coupled to both sides, the guide hole 122 is connected to the suction induction unit 200 on the upper surface The discharge hole 123 connected to the dust collecting part 400 penetrates on one side in the same line as the guide hole 122, and a housing 120 having a discharge space 124 through which grain is discharged is formed at a bottom thereof. The rotating shaft 131 is formed to be connected to the first motor 110, and a rotating fan 132 is radially formed on an outer circumferential surface of the rotating shaft 131, and a rubber piece () is formed at an end of the rotating fan 132. 133 is mounted is provided with a rotating member 130 which is mounted to be in close contact with the inner circumferential surface of the housing 120.

The discharge hole 123 has a narrow inner side on the same surface as the inner circumferential surface of the housing 120, and is formed integrally with the outer side on the same surface as the outer circumferential surface.

The suction induction part 200 is provided with an air inlet groove 210 radially on the upper part so as to suck the grain sucked by the rotational force of the second motor 110 and the outside air at a predetermined ratio.

The grain transfer guide part 300 is fixed to communicate with the discharge space 124 of the housing 120, the guide surface 310 for guiding the freely falling grain into the discharge space 124 is provided to be inclined, An overflow space 320 having one side opened outward from an end of the guide surface 310 is formed.

The dust collecting unit 400 is supplied with power, and the second motor 410 rotates, and suctions foreign substances discharged into the discharge hole 123 of the housing 120 by the rotational force of the second motor 410. The body 420 is provided to store the foreign matter sinking to the lower part of the picture, and the filtration member 430 is provided to filter the foreign matter and air introduced into the body 420 to be discharged to the second motor 410. On the outer circumferential surface of the body 420, a support rod 440 is provided to face the grain transfer guide part 300.

The filtration member 430 is formed with upper and lower support plates 431 through which air can be moved inside the upper end of the body 420, and a filtration motor 432 is mounted on the support plate 431. The filter filter 433, which is connected to the filtration motor 432 and rotated, is formed to face the inside of the support plate 431, and the filtration filter 433 rotates by the filtration motor 432. At least two catching pieces 434 that impact the ends of the close filtration filter 433 are formed in the fixing rod 435 so that height adjustment is possible.

The following describes the operation process of the present invention configured as described above.

First, as shown in FIG. 5, when power is applied and the first motor 110 is driven, the rotating member 130 connected thereto rotates inside the housing 120, and the second motor 410 is rotated. When driven, suction force is generated in all connected pipes such as suction guide, grain separator and dust collector.

When the suction force is generated in this way, the user moves the suction induction unit 200 to the grain storage portion, so that the grain is sucked into the suction induction unit 200.

At this time, the grain sucked into the suction guide unit 200 is mixed with a predetermined amount of air sucked into the air inlet groove 210, into the guide hole 122 of the housing 120 while maintaining a constant ratio Is moved.

In addition, the grains introduced into the housing 120 through the guide hole 122 rotate the inner circumferential surface of the housing 120 in a state in which the rubber piece 133 is in close contact with the rotational force of the first motor 110. The rotating fan 132 is blown to separate the grain and foreign matter.

The grains separated from the grains as described above are discharged to the discharge space 124 of the housing 120 by their own weight and are moved to the grain transfer guide part 300.

On the other hand, the foreign matter separated from the grains are blown from the inside of the housing 120 by the rotation of the rotating fan 132, the rubber piece 133 is pressed by the rubber piece 133 is in close contact with the inner surface of the housing 120. Rotate

The foreign matter rotated in this way, the suction force generated by the rotation of the second motor 410 and the filter motor 432 sucks the foreign matter and air blown into the interior of the housing 120 into the dust collector 400.

At this time, if the foreign matter larger than the discharge hole 123 of the housing 120 is caught in the discharge hole 123, the rubber piece 133 of the rotating member 130 is pressed while rotating, the pressurized foreign matter , Passes through the narrow space of the discharge hole 123 and moves to a wide space to easily move into the dust collector 400.

Some of the foreign matter moved to the inside of the dust collecting unit 400, as described above is moved to the lower portion of the dust collecting unit 400 body 420, and some are filtered through the air and the filtering member 430.

At this time, the filtration member 430, while the filtration filter 433 rotates in accordance with the rotation of the filtration motor 432, the foreign matter mixed in the air in close contact with the filtration filter 433 and filtered, the filtered air is a second motor ( 410 is sucked by the suction force.

In addition, the foreign matter that is in close contact with the filtration filter 433 is caught by the end of the filter piece 434 while the filtration filter 433 is rotated to impact the filtration filter 433, the close contact with the filtration filter 433 In addition to separating the foreign matter, the separated foreign matter is filtered to move the lower portion of the body 420 or repeatedly performing the process of being in close contact with the filtration filter 433 again.

The strainer 434 that impacts the filtration filter 433 may be used by moving it up and down along the fixing rod 435.

Through the above process to filter the air and foreign matter in the filtration member 430, the foreign matter is not always in close contact with the filtration filter 433 can improve the function of the filtration.

On the other hand, the air filtered through the filtering member 430 and sucked by the suction force of the second motor 410 is discharged to forcibly transfer the grain falling to the grain transfer guide 300 to the external storage. .

In addition, the foreign matter moved to the lower portion of the body 420 of the dust collecting unit 400, while the orgas screw 520 is rotated by the drive of the third motor 510 to sequentially transfer the foreign matter, this orga screw 520 The foreign material transferred to the end of the) is discharged through the foreign substance discharge unit 500 to the outside only through the rotary bend 530 without inflowing outside air.

Through the above process, the grains are separated into foreign substances such as grain and dust, respectively, and can be transferred to a storage unit or a washing unit.

Meanwhile, another embodiment of the present invention may use a storage bag such as a bale, which will be described with reference to FIG. 6.

First, the hook of the storage bag (B) is hooked to the support rod 440 of the dust collecting part 400, and the power is applied in a state where the inlet of the storage bag (B) is fixed to the lower portion of the grain transfer guide part (300). The rotating member 130 connected to the motor 110 by driving the motor 110 rotates inside the housing 120, and the second motor 410 drives the suction member to generate suction power to all connected pipes such as a suction guide part, a grain separator, and a dust collector. Let's do it.

As the suction force is generated, the air is moved to the guide hole 122 of the housing 120 at a predetermined ratio by the grain and the air inlet groove 210 into the suction induction part 200, and the moved grain and air are rotated in the shaft ( The rotating fan 132 rotated around the 131 is blown to separate the grain and foreign matter.

The separated grains are discharged into the discharge space 124 of the housing 120 by their own weight, and are moved to the inside of the storage bag B through the guide surface 310 of the grain transfer guide 300. .

In addition, when the grain is filled inside the storage bag (B), when the replacement time is missed, the grain is discharged to the overflow space 320 of the grain transfer guide 300 to the outside grain separation Does not interfere with the operation of the unit 100, the user can be installed to replace the other storage bag in a short time.

On the other hand, the foreign matter separated by the impact of the rotary fan 132 is moved to the inside of the dust collector 400, the body 420 by the suction force generated by the second motor 410 and the filtration motor 432 is partially Stacked in the lower portion and discharged to the outside through the foreign substance discharge unit 500, some of the grains while repeating the process of suctioning only the air filtered through the filtering member 430 by the suction force of the second motor 410 to discharge to the outside Will be separated into grain and foreign matter.

As described above, the present invention has an advantage that it can be safely used because it prevents excessive inflow of grain into the suction induction part while operating, by preventing the inflow of grain into the suction induction part.

In addition, the grain sucked by the suction induction part is separated into grains and foreign matter in the grain separation unit, the foreign matter is blocked by the foreign material blocking the discharge hole because the separated foreign matter is discharged to the discharge hole while pressing the rotating rubber piece in close contact with the discharge hole. There is an advantage to improve workability.

In addition, to improve the function of the filtration member, the foreign matter attached to the surface of the filtration filter is applied without impacting the filtration filter to which the locking piece is rotated to separate the foreign matter from the surface of the filtration filter without any separate operation. And to facilitate the foreign matter is not attached to the surface of the filtration filter has the advantage of improving the filtration function to improve the reliability of the product.

Claims (7)

In the grain separator, The power is applied to drive the first motor 110, the rotary member 130 is connected to the grain separation unit 100 for separating the grain into grain and foreign matter in the housing 120; A suction induction part 200 connected to an upper portion of the grain separator 100 to move an external grain into the grain separator 100; Grain provided in the lower portion of the grain separation unit 100, the grain sucked through the suction induction unit 200 is separated into grains and foreign matter in the grain separation unit 100, grains for guiding the separated grains to the external storage unit A transfer guide part 300; After the foreign matter and air separated by the grain separation unit 100 is sucked by the rotational force of the second motor 410 and filtered, the filtered air is transferred to the grain transfer guide 300 to the storage unit. A dust collecting unit 400 forcibly supplied; The foreign matter moved to the lower portion of the dust collecting unit 400 is moved to the orga screw 520 connected to the third motor 510 is characterized in that the foreign material discharge unit 500 is discharged to the outside through the rotary whisk 530 Grain separator. According to claim 1, The grain separation unit 100, The inside penetrates through the flange 121 is coupled to both sides, the guide hole 122 is connected to the suction induction part 200 on the upper surface, the dust collector 400 on one side in the same line with the guide hole 122 The discharge hole 123 is connected to the through), the housing 120 is formed with a discharge space 124 is discharged on the bottom surface is formed, the rotating shaft 131 is connected to the first motor 110 is formed The rotating fan 132 is radially formed on an outer circumferential surface of the rotating shaft 131, and a rubber piece 133 is mounted at an end of the rotating fan 132 to be in close contact with an inner circumferential surface of the housing 120. Grain separator, characterized in that the rotating member 130 is provided. The method of claim 2, wherein the discharge hole 123, The grain separation device, characterized in that the inner side is narrow on the same surface as the inner peripheral surface of the housing 120, the outer side on the same surface as the outer peripheral surface is formed integrally wide. The method of claim 1, wherein the suction guide unit 200, Grain separator, characterized in that the air inlet groove 210 is provided radially on the upper part to suck the grain and the outside air sucked by the rotational force of the second motor at a predetermined ratio. According to claim 1, wherein the grain transfer guide 300, It is fixed to communicate with the discharge space 124 of the housing 120, the guide surface 310 for guiding the free falling grain to the discharge space 124 is provided to be inclined, one side outward from the end of the guide surface 310 Grain separator, characterized in that the opened overflow space 320 is formed. The dust collecting part 400 of claim 1, When the power is applied, the second motor 410 rotates, and the foreign matter that is sucked into the discharge hole 123 of the housing 120 by the rotational force of the second motor 410 sinks the foreign material that sinks to the inclined lower portion. The body 420 is provided, and the filtering member 430 is provided to filter the foreign substances and air introduced into the body 420 and to discharge them to the second motor 410. Grain separation device, characterized in that the support bar 440 is provided so as to face the grain transfer guide portion 300 on one side of the outer circumference. The method of claim 6, wherein the filtration member 430, A support plate 431 through which air can be moved inside the upper end of the body 420 is formed at an upper and lower sides thereof, and a filtration motor 432 is mounted on an upper portion of the support plate 431, and the filtration motor 432. The filter filter 433 is connected to the rotation is formed to face the inside of the support plate 431, the filter filter 433 is rotated by the filter motor 432 of the filter filter 433 is in close contact with the foreign matter At least two straining pieces (434) for impacting the end is formed grain separation device, characterized in that formed at least two to be adjustable in height.