KR102284333B1 - Large-capacity food waste disposal device - Google Patents

Abstract

The present invention relates to a device for disposing of a larger amount of food waste, capable of preventing air containing odor produced from an inner part of the device from leaking out of the device. According to the present invention, the device for disposing of the larger amount of food waste includes a housing, a hopper provided inside the housing to receive the food waste, a stirring tank provided under the hopper to mix the food waste provided from the hopper and having a discharge hole formed in a front surface thereof, and an open/close door to open or close the discharge hole of the stirring tank. Especially, the open/close door includes: an open/close motor mounted on a front surface of the stirring tank; a screw shaft mounted in the open/close motor to rotate; an open/close box coupled to a lower end of the screw shaft to open or close the discharge hole, as the open/close box moves in a vertical direction, when the screw shaft rotates; a pair of guide plates provided at opposite sides of the open/close box to guide a vertical motion of the open/close box; and a sealing plate inserted in the open/close box to seal the discharge hole, when the open/close box closes the discharge hole, as the open/close box moves downward. The air containing the odor is prevented from leaking out of the stirring tank through the discharge hole.

Description

Large-capacity food waste disposal device

The present invention relates to a large-capacity food waste disposal apparatus, and more particularly, to an environment-friendly large-capacity food waste disposal apparatus by preventing air containing a bad odor generated inside from leaking to the outside.

The rapid industrial development and increase in waste discharge due to population growth have been pointed out as serious environmental pollution factors.

Among these wastes, food waste discharged from households, restaurants, and food manufacturing plants in particular generates a bad odor and is polluting itself. cause serious problems such as

Accordingly, in order to solve the problem of food waste, various technologies for a food waste treatment apparatus have been developed, and in recent years, an apparatus for rapidly composting food waste by micro-organisms by pulverizing and discharging the food waste has been proposed.

However, the proposed food waste treatment device is not environmentally friendly because air containing odors generated during the food waste treatment process leaks to the outside. There is a problem that arises.

Patent Laid-Open Patent 10-2010-0009139 (Application No.: 10-2008-0069871, Title of Invention: Large-capacity food waste processor with odor removal function)

The present invention has been devised to solve the problems of the prior art, and it is possible to prevent odor from leaking to the outside through the discharge hole by tightly sealing the discharge hole formed in the stirring tank, and to manually open and close the discharge hole. An object of the present invention is to provide a large-capacity food processing device that can do this automatically.

In addition, the present invention relates to a large-capacity food waste treatment apparatus capable of preventing odor from being generated by circulating air generated inside the stirring tank without leaking it to the outside and circulating it to be used again in the food waste treatment process.

A large-capacity food waste treatment apparatus according to the present invention for solving the above problems includes a housing, a hopper provided inside the housing to receive food waste, and a food waste provided from the hopper provided below the hopper and mixing the front surface As configured to include a stirring tank having a discharge hole formed therein, and an opening/closing door for opening and closing the discharge hole of the stirring tank; The opening and closing door includes an opening and closing motor installed on the front of the stirring tank; a screw shaft installed in the opening/closing motor to rotate; an opening/closing box connected to the lower end of the screw shaft to open and close the discharge hole by moving up and down when the screw shaft rotates; a pair of guide plates provided on both sides of the opening and closing box to guide the vertical movement of the opening and closing box; and a sealing plate installed in the opening/closing box, which is inserted into the discharge hole to close the discharge hole when the opening/closing box moves downward to close the discharge hole.

Here, the opening/closing box has long horizontal holes in the front and rear directions respectively on the upper and lower sides of both sides, two guide holes are formed in the upper and lower portions of the guide plate, and the sealing plate has the horizontal holes and guides on the upper and lower sides of both sides. A roller moving along the hole is installed; The guide hole is composed of a vertical hole formed long in the vertical direction, and an inclined hole inclined toward the stirring tank from the lower end of the vertical hole; When the sealing plate is inserted into the discharge hole, the roller is positioned in front of the inside of the horizontal hole and is positioned at the inner lower end of the inclined hole; When the opening/closing box fully opens the discharge hole, the roller is positioned at the rear of the horizontal hole while being positioned at the upper end of the vertical hole.

And, it is configured to include a heat exchanger for discharging the air containing the odor generated in the stirring tank to the outside to lower the temperature and then introducing the air back into the stirring tank.

In addition, the heat exchanger includes a blower for generating a suction force; a first heat exchange unit for exchanging heat with the air in the stirring tank introduced by the suction force of the blower; a second heat exchange unit through which the air heat-exchanged in the first heat exchange unit is introduced and heat exchanged; and a third heat exchange unit that heat exchanges the air introduced after heat exchange in the second heat exchange unit and supplies it back to the stirring tank.

In addition, the first heat exchange unit is connected to the hopper through the exhaust pipe and a first upper cover receiving air from the stirring tank; A plurality of first heat dissipation fins stacked at the lower end of the first upper cover to be spaced apart from each other, and a plurality of first heat exchange tubes installed through the first heat dissipation fins vertically and receiving air from the stirring tank from the first upper cover a first heat exchange body made of; and a first lower cover installed at the lower end of the first heat exchange body and receiving the air of the stirring tank from the first heat exchange tube.

In addition, the second heat exchange unit is connected to the first lower cover through the first connecting pipe casing to receive air from the stirring tank; It is installed inside the casing, and a plurality of pipelines bent in a zigzag shape; consists of.

In addition, the inside of the pipeline is filled with a refrigerant.

In addition, the third heat exchange unit includes a third lower cover connected to the casing through a second connection pipe to receive air from the stirring tank; A plurality of third heat dissipation fins stacked to be spaced apart from each other on the upper end of the third lower cover, and a plurality of third heat exchange tubes installed through the third heat dissipation fins vertically and receiving air from the stirring tank from the third lower cover a third heat exchange body made of; A third installed at the upper end of the third heat exchange body to receive the air of the stirring tank from the third heat exchange tube, the air of the provided stirring tank passes through the blower, and then flows into the stirring tank through the inlet pipe connected to the stirring tank It consists of an upper cover;

In addition, the heat exchanger further includes a blower installed in front of the first heat exchange body; The blower is configured to include a blower motor and a blower fan installed on the blower motor to jet strong wind toward the first heat exchange body.

In addition, a condensate container is installed at the lower ends of the first lower cover and the third lower cover, and a first condensate hole and a third condensate hole are respectively formed on lower surfaces of the first lower cover and the third lower cover; The condensed water introduced into the first lower cover and the third lower cover is introduced into the condensate container through the first condensate hole and the third condensate hole.

In the large-capacity food waste treatment apparatus of the present invention configured as described above, the opening/closing box covers the discharge hole and the sealing plate is inserted into the discharge hole to seal it. there is an advantage

In addition, by heat-exchanging and condensing the air containing the odor generated in the stirring tank and condensing it, and then supplying it to the stirring tank again, the air containing the odor is prevented from leaking to the outside, thereby providing an environmentally friendly advantage.

In addition, since the roller slides while rotating along the horizontal hole and the guide hole, there is an advantage in that the movement of the sealing plate is smooth.

In addition, when the refrigerant is filled in the pipeline, there is an advantage in that the drying time can be shortened by improving the heat exchange efficiency or the condensation efficiency to quickly remove the moisture in the stirring tank.

1 is a view showing a large-capacity food waste disposal apparatus according to the present invention.
2 to 4 are views showing the inside of a large-capacity food waste treatment apparatus according to the present invention.
5 to 8 are views showing a heat exchanger of a large-capacity food waste treatment apparatus according to the present invention.
9 to 11 are views showing the opening and closing door of the large-capacity food waste disposal apparatus according to the present invention.

Hereinafter, an embodiment of a large-capacity food waste disposal apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing a large-capacity food waste treatment apparatus according to the present invention, and FIGS. 2 to 4 are views showing the inside of the large-capacity food waste treatment apparatus according to the present invention.

5 to 8 are views showing the heat exchanger of the large-capacity food waste disposal apparatus according to the present invention, and FIGS. 9 to 11 are views showing the opening and closing doors of the large-capacity food waste processing apparatus according to the present invention.

A large-capacity food waste treatment apparatus according to the present invention includes a housing 100 , a hopper 200 provided inside the housing 100 to receive food waste, and a hopper 200 provided below the hopper 200 . It is configured to include a mixing tank 300 having a discharge hole 300a on the front side and mixing the food waste provided from the mixing tank, and an opening/closing door 400 for opening and closing the discharge hole 300a of the stirring tank 300 .

The housing 100 constitutes an external shape of the present food waste treatment apparatus.

The hopper 200 is provided inside the housing 100, and after the cover 110 installed on the upper surface of the housing 100 is opened, food waste is introduced through the space formed through the opening of the cover 110. , this food waste is put into the hopper 200 .

The stirring tank 300 is provided in the housing 100 while being provided in the lower portion of the hopper 200, the upper surface is opened. Therefore, the food waste supplied through the hopper 200 is put into the stirring tank 300 through the open upper surface.

The food wastes put into the stirring tank 300 in this way are mixed by the stirring means 310 . In addition, in the present invention, a larger amount of food waste can be treated by adopting a multi-agitation tank, that is, a stirring tank in which two stirring tanks are connected to each other.

The stirring means 310 is configured to include a drive motor 311 , a stirring shaft 312 connected to the motor shaft of the drive motor 311 , and stirring blades 313 installed on the stirring shaft 312 . .

The driving motor 311 is provided outside the stirring tank 300 and provided inside the housing 100, and is capable of rotating in the forward and reverse directions, and applies a rotational force to the stirring shaft 312 by a power connection means such as a pulley or a chain. ) is provided in

The stirring shaft 312 rotates in the forward or reverse direction together with the motor shaft of the driving motor 311 , and the stirring blade 313 rotates in the forward or reverse direction together with the stirring shaft 312 .

The stirring blade 313 mixes the food waste inside the stirring tank 300 . Here, the stirring blade 313 may only serve to simply mix the food waste in the form of a panel having a certain area, but it is composed of a sharp blade 313a at the corner, so that it can be accidentally put in sometimes by mistake. It is also possible to be able to grind things like

On the other hand, a discharge hole (300a) is formed in the front of the stirring tank (300), the discharge hole (300a) is opened and closed by the opening and closing door (400).

The opening/closing door 400 includes an opening/closing motor 410, a screw shaft 420 installed in the opening/closing motor 410 to rotate, and an opening/closing box 430 connected to the lower end of the screw shaft 420, It is configured to include a pair of guide plates 440 provided on both sides of the opening and closing box 430 , and a sealing plate 450 installed in the opening and closing box 430 .

The opening/closing motor 410 is installed on the front side of the stirring tank 300 , and is installed above the discharge hole 300a of the stirring tank 300 so that the motor shaft faces toward the discharge hole 300a.

The screw shaft 420 is installed on the motor shaft of the opening/closing motor 410 and rotates together with the motor shaft. The screw shaft 420 has a spiral formed on its outer circumferential surface.

The opening/closing box 430 is in the form of a box having an open rear surface, that is, the side facing the stirring tank 300, and is coupled to the lower end of the screw shaft 420 to move in a straight line in the vertical direction when the screw shaft 420 rotates. The discharge hole 300a is opened and closed.

The opening/closing box 430 has horizontal holes 431 formed in the upper and lower sides of both sides, respectively, in the front and rear directions.

The guide plate 440 is installed on the front side of the stirring tank 300, more specifically, the stirring tank 300, one on each side of the discharge hole 300a as the center. The guide plate 440 is in contact with both sides of the opening and closing door 400 to prevent the rotation of the opening and closing door 400 when the screw shaft 420 rotates while the opening and closing door 400 moves up and down along the screw shaft 420 . guide you to exercise.

In addition, two guide holes 441 are formed on the upper and lower sides of each guide plate 440 installed on both sides of the discharge hole 300a, respectively.

The guide hole 441 includes a vertical hole 441a and an inclined hole 441b connected to a lower end of the vertical hole 441a.

The vertical hole 441a is formed to be perpendicular to the guide plate 440 in the vertical direction, and the inclined hole 441b is formed to be inclined toward the stirring tank 300 from the lower end of the vertical hole 441a.

The sealing plate 450 is installed on the open rear side of the opening/closing box 430, and it closes or opens the discharge hole 300a of the stirring tank 300 while moving in the vertical direction together with the opening/closing box 430. That is, when the opening/closing box 430 moves downward to close the discharge hole 300a, the sealing plate 450 is inserted into the discharge hole 300a to tightly seal the discharge hole 300a.

The sealing plate 450 has an inclined surface 451 formed on the rear upper portion, and rollers 452 are installed on the upper and lower sides of both sides, respectively.

The inclined surface 451 is a stirring tank ( By sliding down the incision line portion of the 300), the sealing plate 450 is well guided to the discharge hole 300a and helps to enter. In this way, since the inclined surface 451 slides along the upper cut-out line of the discharge hole 300a and enters the discharge hole 300a, the sealing force for the discharge hole 300a can be further improved. In addition, a silicone rubber 453 may be further provided on the outside of the sealing plate 450. When the silicone rubber 453 is provided in this way, when the sealing plate 450 enters the discharge hole 300a, the silicone rubber ( As the 453 strongly presses the outer surface of the stirring tank 300 around the discharge hole 300a, the sealing force is further improved.

The roller 452 is provided with a total of four, one on the upper and lower sides of both sides of the sealing plate 450, respectively. When moving, it moves along the horizontal hole 431 and the guide hole 441 while rotating within the horizontal hole 431 of the opening and closing box 430 and the guide hole 441 of the guide plate 440 .

In more detail, in a state in which the sealing plate 450 completely closes the discharge hole 300a of the stirring tank 300, the roller 452 is the frontmost in the horizontal hole 431, and the guide hole 441. located at the bottom of the In other words, in a state in which the sealing plate 450 is inserted into the discharge hole 300a and the discharge hole 300a is completely closed, the roller 452 is located in the horizontal hole 431 in the front closest to the stirring tank 300. It is located at the lower end closest to the stirring tank 300 within the inclined hole 441b while being positioned at the same time.

And, in a state in which the sealing plate 450 fully opens the discharge hole 300a of the stirring tank 300 , the roller 452 is the rearmost in the horizontal hole 431 and the uppermost in the guide hole 441 . located in In other words, in a state in which the sealing plate 450 is separated from the discharge hole 300a and the discharge hole 300a is fully opened, the roller 452 is the rear farthest from the stirring tank 300 in the horizontal hole 431 . It is located in the uppermost position in the vertical hole (441a) at the same time. In addition, the sealing plate 450 is controlled to move upward and downward by a pair of sensors (not shown) installed to be vertically spaced apart from each other on the wall of the stirring tank 300 around the discharge hole 300a. That is, when the sealing plate 450 is detected by the sensor installed on the upper side, the sealing plate 450 does not rise any more, and when the sealing plate 450 is detected by the sensor installed on the lower side, the sealing plate 450 does not descend any more. .

On the other hand, the present invention further includes a heat exchanger 500 for discharging the high-temperature air including the odor generated in the stirring tank 300 to the outside to lower the temperature and then introducing it into the stirring tank 300 again. That is, according to the present invention, the air in the stirring tank 300 is taken out of the stirring tank 300, odors and moisture are removed from the air, and then re-introduced into the stirring tank 300. Bad air generated during the food waste treatment process It is continuously circulated without discharging it to the outside so as not to harm the environment.

This heat exchanger 500 is a blower 510, a first heat exchange unit 520 for exchanging the air exhausted from the stirring tank 300, and the air exhausted from the first heat exchange unit 520 to exchange heat again. It is configured to include a second heat exchange part 530 and a third heat exchange part 540 for heat-exchanging the air exhausted from the second heat exchange part 530 again.

The blower 510 generates a suction force, is installed next to the hopper 200, and is connected to a third upper cover 543 to be described later.

The first heat exchange unit 520 exchanges heat with the air inside the stirring tank 300 introduced by the blower 510 by the suction force, and includes a first upper cover 521, a first heat exchange body 522, and a first heat exchange unit 522. 1 It is configured to include a lower cover (523).

The first upper cover 521 is a rectangular parallelepiped shape with an empty space formed therein and an open lower surface, and is connected to the exhaust pipe P1 connected to one side of the hopper 200 . Therefore, when the blower 510 operates and suction force is generated, the air inside the stirring tank 300 is provided from the stirring tank 300 through the exhaust pipe P1.

The first heat exchange body 522 is installed at the lower end of the first upper cover 521 , and a plurality of thin first heat dissipation fins 522a and a plurality of first heat dissipation fins 522a are installed to penetrate in the vertical direction. of the first heat exchange tube 522b.

A plurality of the first heat dissipation fins 522a are installed densely stacked in the vertical direction at the lower end of the first upper cover 521 , and a finely spaced gap is generated between each of the first heat dissipation fins 522a.

The first heat exchange tube 522b is installed vertically through the stacked first heat dissipation fins 522a in the vertical direction, and the stirring tank introduced into the first upper cover 521 through the exhaust pipe P1. The air in 300 is provided.

The first lower cover 523 is installed at the lower end of the first heat exchange body 522, an empty space is formed therein, and has an open upper surface, and is a rectangular parallelepiped shape with an open upper surface. The moving air inside the stirring tank 300 is provided from the first heat exchange tube 522b.

The second heat exchange unit 530 is a portion in which the air heat-exchanged in the first heat exchange unit 520 is introduced and heat-exchanged again, and is a casing 531 and a pipeline 532 installed inside the casing 531 . is composed

The casing 531 is connected to a first lower cover 523 through a first connection pipe P2 and is connected to a third lower cover 541 to be described later through a second connection pipe P3. Accordingly, the air inside the stirring tank 300 introduced into the first lower cover 523 through the first upper cover 521 and the first heat exchange body 522 is introduced into the casing 531 .

In the pipeline 532 , a plurality of metal pipes are bent in a zigzag shape.

In more detail, the air inside the stirring tank 300 introduced into the first lower cover 523 through the first upper cover 521 and the first heat exchange body 522 is connected to the first connecting pipe P2. It is introduced into the casing 531 of the second heat exchange unit 530 through the. As such, the air introduced into the casing 531 is heat exchanged once again while passing between the pipelines 532 .

At this time, the inside of the pipeline 532 may be filled with refrigerant or may be in an unfilled state. That is, if heat exchange and condensation sufficiently occur through the first heat exchange unit 520 , the refrigerant may not be filled in the pipeline 532 of the second heat exchange unit 530 . Also, even in the pipeline 532 in which the refrigerant is not filled, heat exchange and condensation to a certain degree may occur even in the process of passing between the pipelines 532 .

In the third heat exchange unit 540 , the air inside the stirring tank 300 heat-exchanged between the first heat exchange unit 520 and the second heat exchange unit 530 is introduced. The air introduced in this way is supplied to the stirring tank 300 again after heat exchange is performed again in the third heat exchange unit 540 .

In more detail, the third heat exchange unit 540 includes a third lower cover 541 , a third heat exchange body 542 , and a third upper cover 543 .

The third lower cover 541 is installed next to the first lower cover 523 as a rectangular parallelepiped shape with an empty space formed therein and an open upper surface. The third lower cover 541 is connected to the casing 531 through the second connection pipe P3 to receive the air of the stirring tank 300 passing through the second heat exchange unit 530 .

The third heat exchange body 542 is installed on the upper end of the third lower cover 541 and is installed next to the first heat exchange body 522, and includes a plurality of thin third heat dissipation fins 542a and the third heat dissipation fins. It is composed of a plurality of third heat exchange tubes 542b installed by penetrating the 542a in the vertical direction.

A plurality of the third heat dissipation fins 542a are installed in a dense vertical stack on the upper portion of the third lower cover 541 , and a finely spaced gap is generated between each of the third heat dissipation fins 542a.

The third heat exchange tube 542b is installed to vertically penetrate the stacked third heat dissipation fins 542a in the vertical direction, and removes the air inside the stirring tank 300 that has passed through the second heat exchange unit 530 . 3 It is provided through the lower cover (541). In this way, the air provided to the third heat exchange tube 542b moves upward while flowing inside the third heat exchange tube 542b.

The third upper cover 543 is a rectangular parallelepiped shape with an empty space formed therein and an open lower surface, and is installed on the upper end of the third heat exchange body 542 . Therefore, the air that has moved upward by flowing through the third heat exchange tube 542b is introduced into the third upper cover 543 .

In this way, the internal air of the stirring tank 300 provided with the third upper cover 543 passes through the blower 510 and then flows into the stirring tank 300 through the inlet pipe P4 connected to the stirring tank 300 . .

Meanwhile, the heat exchanger 500 of the present invention further includes a blower 550 installed in front of the first heat exchange body 522 .

The blower 550 includes a blower motor 551 installed adjacent to the first heat exchange body 522 of the first heat exchange unit 520 and the first heat exchange body 522 by being installed in the blower motor 551 and rotating. ) is configured to include a blowing fan 552 to drop the temperature of the air flowing inside.

The blower motor 551 is installed in front of the first heat exchange body 522 to provide rotational force to the blower fan 552 .

The blower fan 552 is connected to the motor shaft of the blower motor 551 and rotates to spray strong wind toward the first heat exchange body 522 . In particular, since the blower fan 552 rotates in front of the first heat exchange body 522, the strong wind generated by the blower fan 552 is strongly sprayed on the first heat dissipation fins 522a of the first heat exchange body 522 and at the same time the second It enters the gap between the first heat dissipation fins 522a and comes into contact with the outer surface of the first heat exchange tube 522b.

In addition, since the third heat exchange body 542 is installed next to the first heat exchange body 522, the strong wind generated by the blower fan 552 is sprayed on the third heat dissipation fin 542a and at the same time the third heat exchange tube ( 542b) is also sprayed on the outer surface.

Accordingly, the temperature of the air inside the stirring tank 300 decreases while passing through the heat exchanger 500 , and at the same time, condensed water is generated due to condensation due to the decrease in temperature. The condensed water thus generated falls into the first lower cover 523 and the third lower cover 541 .

To paraphrase, a condensate water container 560 is installed at the lower side of the first lower cover 523 and the lower end of the third lower cover 541 , and the lower surface of the first lower cover 523 and the third lower cover 541 . A first condensate hole 523a and a third condensate hole 541a are formed on the lower surface, respectively, and the condensed water generated from the first heat exchange body 522 and the third heat exchange body 542 is a first lower cover 523, respectively. and the third lower cover 541, and then flows into the condensate container 560 through the first condensate hole 523a and the third condensate hole 541a. The condensed water introduced into the condensate tank 560 is discharged to the outside through the condensate discharge pipe 561 .

Meanwhile, in the present invention, a washing water line 600 for supplying washing water to the heat exchanger 500 to wash the heat exchanger 500 through which the air inside the stirring tank 300 passes is configured.

The washing water line 600 includes a washing water supply pipe 610 through which clean washing water supplied from the outside flows, a first washing water pipe 620 and a second washing water pipe 630 branching from the washing water supply pipe 610, and the It is configured to include a washing water connection pipe 640 connecting the first upper cover 521 and the third upper cover 543 while being connected to the first washing water pipe 620 .

In the washing water supply pipe 610, clean washing water supplied from the outside flows inside. A solenoid valve 611 is installed at the end of the washing water supply pipe 610 to automatically control the supply and blocking of the washing water.

The first washing water pipe 620 is branched from the end of the washing water supply pipe 610 and extends to the upper surface of the first upper cover 521 .

The second washing water pipe 630 is branched from the end of the washing water supply pipe 610 and is connected to the upper surface of the casing 531 of the second heat exchange unit 530 .

The washing water connection pipe 640 connects the upper surface of the first upper cover 521 and the upper surface of the third upper cover 543 .

Mist valves are installed at the ends of the second washing water pipe 630 and both ends of the washing water connection pipe 640 to spray the washing water in the form of mist. Therefore, the inner surface of the first upper cover 521 and the third upper cover 543, the inner surface of the first heat exchange tube 522b and the third heat exchange tube 542b, the outer surface of the pipeline 532, etc. can be cleaned thoroughly by This cleaning process is necessary in order to remove the obstruction of air movement by foreign substances and to prevent the first, second, and third heat exchangers 520, 530 and 540 made of aluminum from being corroded by salt, thereby extending the service life.

100: housing 110: cover
200: hopper 300: stirring tank
300a: discharge hole 310: stirring means
311: drive motor 312: stirring shaft
313: stirring blade 313a: blade
400: opening and closing door 410: opening and closing motor
420: screw shaft 430: opening and closing box
431: horizontal hole 440: guide plate
441: guide hole 441a: vertical hole
441b: Gyeongga Hall 450: sealing plate
451: inclined surface 452: roller
453: silicone rubber 500: heat exchanger
510: blower 520: first heat exchange unit
521: first upper cover 522: first heat exchange body
522a: first heat dissipation fin 522b: first heat exchange tube
523: first lower cover 523a: first condensate hole
530: second heat exchange unit 531: casing
532: pipeline 540: third heat exchange unit
541: third lower cover 541a: third condensate hole
542: third heat exchange body 542a: third heat dissipation fin
542b: third heat exchange tube 543: third upper cover
550: blower 551: blower motor
552: blow fan 560: condensate water tank
561: condensate discharge pipe 600: wash water line
610: washing water supply pipe 611: solenoid valve
620: first washing water pipe 630: second washing water pipe
640: wash water connector P1: exhaust pipe
P2: second connecting pipe P3: second connecting pipe
P4: Inlet pipe

Claims (9)

The housing 100, the hopper 200 provided inside the housing 100 to receive food waste, and the food waste provided at the lower side of the hopper 200 and provided from the hopper 200 are mixed and discharged to the front. Doedoe comprising a stirring tank 300 having a hole 300a formed therein, and an opening/closing door 400 for opening and closing the discharge hole 300a of the stirring tank 300,
The opening/closing door 400 includes an opening/closing motor 410 installed on the front of the stirring tank 300; a screw shaft 420 installed on the opening/closing motor 410 to rotate; an opening/closing box 430 connected to the lower end of the screw shaft 420 to open and close the discharge hole 300a by moving up and down when the screw shaft 420 rotates; a pair of guide plates 440 provided on both sides of the opening and closing box 430 to guide the vertical movement of the opening and closing box 430; A sealing plate 450 installed in the opening/closing box 430, which is inserted into the discharge hole 300a to close the discharge hole 300a when the opening/closing box 430 moves downward to close the discharge hole 300a. ); includes;
The opening/closing box 430 has long horizontal holes 431 in the front and rear directions respectively on the upper and lower sides of both sides, and the guide plate 440 has two guide holes 441 vertically formed, and the sealing plate ( 450) is provided with rollers 452 moving along the horizontal hole 431 and the guide hole 441 on the upper and lower sides of both sides,
The guide hole 441 is composed of a vertical hole 441a elongated in the vertical direction, and an inclined hole 441b inclined toward the stirring tank 300 from the lower end of the vertical hole 441a,
When the sealing plate 450 is inserted into the discharge hole 300a, the roller 452 is positioned in front of the inside of the horizontal hole 431 and is located at the inner lower end of the inclined hole 441b,
When the opening/closing box 430 fully opens the discharge hole 300a, the roller 452 is positioned at the rear inside the horizontal hole 431 and is positioned at the inner upper end of the vertical hole 441a. A large-capacity food waste disposal device.
delete The method according to claim 1,
Large-capacity food waste, characterized in that it comprises a heat exchanger (500) for discharging the air containing the odor generated in the stirring tank (300) to the outside to lower the temperature and then introducing it back into the stirring tank (300). processing unit.
4. The method according to claim 3,
The heat exchanger 500 includes a blower 510 for generating a suction force;
a first heat exchange unit 520 for exchanging heat with the air inside the stirring tank 300 introduced by the suction force of the blower 510;
a second heat exchange unit 530 through which the air heat-exchanged in the first heat exchange unit 520 is introduced and heat exchanged;
and a third heat exchange unit (540) for exchanging the air introduced after heat exchange in the second heat exchange unit (530) and supplying it back to the stirring tank (300).
5. The method according to claim 4,
The first heat exchange unit 520 is connected to the hopper 200 through the exhaust pipe (P1) and a first upper cover 521 receiving air from the stirring tank 300;
A plurality of first heat dissipation fins 522a stacked at the lower end of the first upper cover 521 to be spaced apart from each other, and the first heat dissipation fins 522a are installed to penetrate vertically and stirred from the first upper cover 521 a first heat exchange body 522 comprising a plurality of first heat exchange tubes 522b receiving the air of the tank 300;
Large-capacity food waste, characterized in that it is installed at the lower end of the first heat exchange body (522), the first lower cover (523) receiving the air of the stirring tank (300) from the first heat exchange tube (522b); processing unit.
6. The method of claim 5,
The second heat exchange unit 530 includes a casing 531 connected to the first lower cover 523 through a first connection pipe P2 to receive air from the stirring tank 300 ;
A large-capacity food waste treatment apparatus, characterized in that it is installed inside the casing (531), and is composed of a plurality of pipelines (532) bent in a zigzag shape.
7. The method of claim 6,
A large-capacity food waste treatment apparatus, characterized in that the inside of the pipeline (532) is filled with a refrigerant.
7. The method of claim 6,
The third heat exchange unit 540 is connected to the casing 531 through a second connection pipe (P3) and receives the air of the stirring tank 300 is provided with a third lower cover 541, and;
A plurality of third heat dissipation fins 542a stacked to be spaced apart from each other on the upper end of the third lower cover 541 and the third heat dissipation fins 542a are installed to penetrate vertically and stirred from the third lower cover 541 a third heat exchange body 542 comprising a plurality of third heat exchange tubes 542b receiving the air of the tank 300;
It is installed on the upper end of the third heat exchange body 542 to receive the air of the stirring tank 300 from the third heat exchange tube 542b, and the provided air from the stirring tank 300 passes through the blower 510. and then a third upper cover (543) introduced into the stirring tank (300) through the inlet pipe (P4) connected to the stirring tank (300).
6. The method of claim 5,
The heat exchanger 500 further includes a blower 550 installed in front of the first heat exchange body 522,
The blower 550 includes a blower motor 551 and a blower fan 552 installed in the blower motor 551 to spray strong wind toward the first heat exchange body 522. Large capacity, characterized in that it is configured food waste disposal device.

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