CN110238170B

CN110238170B - Degradation reaction tank for degrading garbage by using microorganisms

Info

Publication number: CN110238170B
Application number: CN201910617048.XA
Authority: CN
Inventors: 高美善
Original assignee: Zhejiang Kunlun Environmental Protection Equipment Co ltd
Current assignee: ZHEJIANG KUNLUN ENVIRONMENTAL PROTECTION EQUIPMENT Co.,Ltd.
Priority date: 2019-07-09
Filing date: 2019-07-09
Publication date: 2020-07-03
Anticipated expiration: 2039-07-09
Also published as: CN110238170A

Abstract

The invention discloses a degradation reaction tank for degrading garbage by using microorganisms, which comprises a reaction tank body and a fixed platform, the fixed platform is fixedly arranged on the right side surface of the reaction box body, a reaction tank is arranged in the reaction box body, a filter screen is fixedly arranged in the reaction tank, the moving block moves left and right to enable the first gear to rotate, in the process of decomposing garbage by aerobic microorganisms, the air pressure in the reaction tank is reduced, the compression block in the control mechanism moves downwards, so that the high-pressure gas in the high-pressure air cavity is sent into the reaction tank, the high-pressure gas can send the gases such as carbon dioxide in the reaction tank into the discharge cavity for collection treatment, the carbon dioxide is prevented from being directly discharged, and conveying mechanism is through the back-and-forth movement of rectangular block, send into the rubbish that can't be decomposed by aerobic microorganism on the filter screen and deposit the intracavity, avoid the rubbish that can't be decomposed in the reaction tank more and more.

Description

Degradation reaction tank for degrading garbage by using microorganisms

Technical Field

The invention relates to the technical field of garbage treatment, in particular to a degradation reaction tank for degrading garbage by using microorganisms.

Background

Various animals, plants and microorganisms have degradation effects on various organic matters existing in the nature, wherein the degradation effect of the microorganisms is the largest, and all the organic matters existing in the nature can be almost degraded by the microorganisms.

In the process of degrading garbage by using microorganisms, aerobic microorganisms decompose garbage under aerobic conditions, a large amount of gases such as carbon dioxide can be generated, the generated carbon dioxide is directly discharged out of a degradation reaction tank for degrading the garbage by using the microorganisms, the greenhouse effect is influenced, and in addition, the garbage which cannot be decomposed by the microorganisms is difficult to treat by the degradation reaction tank for degrading the garbage by using the microorganisms.

Disclosure of Invention

The invention aims to provide a degradation reaction tank for degrading garbage by using microorganisms, which is used for overcoming the defects in the prior art.

The degradation reaction tank for degrading garbage by using microorganisms comprises a reaction tank body and a fixed platform, wherein the fixed platform is fixedly arranged on the right side surface of the reaction tank body, the reaction tank is internally provided with the reaction tank, the reaction tank is internally and fixedly provided with a filter screen, a movable box is fixedly arranged above the filter screen in the reaction tank, a stirring mechanism capable of stirring garbage and aerobic microorganisms on the filter screen is arranged in the movable box, the right side of the reaction tank is communicated with a connecting cavity, the right side of the connecting cavity is communicated with a high-pressure air cavity, the top surface of the fixed platform is fixedly provided with an air compressor, the air compressor is communicated with the high-pressure air cavity, the air compressor fills high-pressure air into the high-pressure air cavity, the inner wall of the left side of the reaction tank is communicated with a discharge cavity penetrating through the left side surface of the reaction tank body, the position of the discharge cavity is higher than that of the connection cavity, a control mechanism capable of controlling the opening and closing of the connection cavity and the discharge cavity is arranged above the reaction tank, when the air pressure in the reaction tank is too low, the control mechanism opens the connection cavity and the discharge cavity, high-pressure air in the high-pressure air cavity enters the reaction tank through the connection cavity, and gas generated by decomposition of aerobic microorganisms in the reaction tank is sent out through the discharge cavity, so that the gas generated by decomposition of the aerobic microorganisms can be collected;

the inner wall of the front side of the reaction tank is communicated with a storage cavity, and the rear side of the reaction tank is provided with a conveying mechanism which can convey garbage which is not decomposed on the filter screen into the storage cavity.

On the basis of the technical scheme, a garbage cavity is communicated with the inner wall of the rear side of the reaction tank and extends backwards to penetrate through the rear side face of the reaction tank body, and a first door is hinged in the garbage cavity.

On the basis of the technical scheme, the stirring mechanism comprises a moving cavity with a downward opening, a first motor is fixedly installed in the inner wall of the left side of the moving cavity, a rotating rod is fixedly installed on the right side face of an output shaft of the first motor rightwards, the rotating rod extends rightwards to the inner wall of the right side of the moving cavity, a moving block is installed on the rotating rod in a threaded mode, a rack is fixedly installed on the front side of the rotating rod and located between the left inner wall and the right inner wall of the moving box, the rack is slidably installed with the moving block, a gear cavity is formed in the moving block, a stirring rod penetrating through the bottom face of the moving block is installed in the top wall of the gear cavity in a rotating mode, a stirring rod is fixedly installed on the stirring rod, a first gear is fixedly installed in the gear cavity.

On the basis of the technical scheme, the inner wall of the right side of the reaction tank is communicated with a water drainage cavity, the water drainage cavity is located below the filter screen, a sealing plug is slidably mounted in the water drainage cavity, and the bottom wall of the reaction tank is an inclined plane.

On the basis of the technical scheme, the control mechanism comprises a spring cavity communicated and arranged in the top wall of the reaction tank, a compression block is arranged in the spring cavity in a sliding mode, a spring is fixedly arranged between the bottom surface of the compression block and the bottom wall of the spring cavity, a lifting cavity is communicated and arranged on the top wall of the spring cavity, a lifting plate is arranged in the lifting cavity in a sliding mode, the bottom surface of the lifting plate is fixedly connected with the top surface of the compression block, a sliding block is fixedly arranged on the front side surface of the lifting plate, hinged cavities are arranged on the left side and the right side of the lifting cavity, sliding rods are arranged between the hinged cavities on the left side and the right side in a sliding mode, a sliding cavity is arranged in the sliding rods, the sliding cavity and the sliding block are arranged in a sliding mode, a moving rod is arranged between the hinged cavities on the connecting cavity and the right side in, spacing intracavity slidable mounting promotes the piece, promote the piece and upwards extend and run through left articulated chamber diapire, it is equipped with the through-hole in the piece to promote, the through-hole can with discharge the chamber intercommunication, promote the piece with between the slide bar and the carriage release lever with all articulate the installation hinge bar between the slide bar.

On the basis of the technical scheme, the conveying mechanism comprises fixed blocks which are fixedly arranged on the top surface of the movable box in a bilateral symmetry mode, the top wall of the reaction tank is provided with fixed cavities in a bilateral symmetry mode, the fixed cavities and the fixed blocks are installed in a sliding mode, an engagement cavity is arranged above the fixed cavity on the right side, a threaded rod is rotatably arranged between the engagement cavity and the fixed cavity on the right side, the engagement cavity is in threaded installation with the fixed block on the right side, a first bevel gear is fixedly arranged on the top surface of the engagement cavity, a transmission cavity is arranged on the rear side of the engagement cavity and is positioned on the left side of the garbage cavity, a second motor is fixedly arranged in the inner wall on the rear side of the transmission cavity, a rectangular cavity is communicated with the inner wall on the rear side of the reaction tank and is positioned below the garbage cavity, and a power rod penetrating through the inner wall, the utility model discloses a fixed mounting of reaction box, including rectangle intracavity slidable mounting rectangle piece, power rod with rectangle piece thread installation, lie in on the power rod transmission intracavity fixed mounting second gear, the meshing chamber with rotate the installation transfer line between the transmission chamber, transfer line trailing flank fixed mounting third gear, the third gear with transmission installation chain between the second gear, fixed chamber front side intercommunication is equipped with supplementary chamber, it is equipped with the dog chamber to deposit the chamber roof intercommunication, dog intracavity slidable mounting dog, dog and right side fixed mounting connecting rod between the fixed block, the connecting rod with reaction box slidable mounting.

On the basis of the technical scheme, a second door is hinged in the storage cavity.

The invention has the beneficial effects that: according to the garbage decomposition device, the garbage is decomposed by using the aerobic microorganisms, in the garbage decomposition process of the aerobic microorganisms, the air pressure in the reaction tank is reduced, the compression block in the control mechanism moves downwards, so that high-pressure air in the high-pressure air cavity is sent into the reaction tank, the high-pressure air can send gases such as carbon dioxide in the reaction tank into the discharge cavity for collection treatment, the carbon dioxide is prevented from being directly discharged, the environment can be protected, the conveying mechanism sends the garbage which cannot be decomposed by the aerobic microorganisms on the filter screen into the storage cavity through the back and forth movement of the rectangular block, the garbage which cannot be decomposed by the aerobic microorganisms in the reaction tank is prevented from being increased, the garbage decomposition efficiency is prevented from being influenced, and the garbage.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic cross-sectional view taken along line A-A of FIG. 1 according to the present invention;

FIG. 3 is a schematic cross-sectional view taken along line B-B of FIG. 1 in accordance with the present invention;

fig. 4 is an enlarged schematic view at C of fig. 1 of the present invention.

Detailed Description

The invention will now be described in detail with reference to fig. 1-4, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

Referring to fig. 1 to 4, a degradation reaction tank for degrading garbage by using microorganisms according to an embodiment of the present invention includes a reaction tank 14 and a fixed table 21, the fixed table 21 is fixedly installed on a right side surface of the reaction tank 14, a reaction tank 18 is installed in the reaction tank 14, a filter screen 19 is fixedly installed in the reaction tank 18, a moving box 31 is fixedly installed above the filter screen 19 in the reaction tank 18, a stirring mechanism 101 capable of stirring garbage and aerobic microorganisms on the filter screen 19 is installed in the moving box 31, a connecting cavity 23 is communicated with a right side of the reaction tank 18, a high pressure air cavity 24 is communicated with a right side of the connecting cavity 23, an air compressor 22 is fixedly installed on a top surface of the fixed table 21, the air compressor 22 is communicated with the high pressure air cavity 24, and the air compressor 22 fills high pressure air into the high pressure air cavity 24, the inner wall of the left side of the reaction tank 18 is communicated with a discharge cavity 17 which penetrates through the left side surface of the reaction box body 14, the position of the discharge cavity 17 is higher than that of the connecting cavity 23, a control mechanism 102 capable of controlling the opening and closing of the connecting cavity 23 and the discharge cavity 17 is arranged above the reaction tank 18, when the gas pressure in the reaction cell 18 is too low, the control mechanism 102 opens the connection chamber 23 and the discharge chamber 17, the high-pressure air in the high-pressure air chamber 24 enters the reaction tank 18 through the connecting chamber 23, the gas generated by the decomposition of the aerobic microorganisms in the reaction tank 18 is sent out through the discharge chamber 17, so that the gas generated by the decomposition of the aerobic microorganisms can be collected, the inner wall of the front side of the reaction tank 18 is communicated with a storage cavity 50, and the rear side of the reaction tank 18 is provided with a conveying mechanism 103 which can convey the undecomposed garbage on the filter screen 19 into the storage cavity 50.

In addition, in an embodiment, a garbage cavity 35 is communicated with the inner wall of the rear side of the reaction tank 18, the garbage cavity 35 extends backwards to penetrate through the rear side surface of the reaction tank 14, a first door 42 is hinged in the garbage cavity 35, the first door 42 is opened, and garbage can be conveyed into the reaction tank 18 through the garbage cavity 35.

In addition, in one embodiment, the stirring mechanism 101 includes a moving cavity 36 disposed in the moving box 31 and having a downward opening, the first motor 29 is fixedly mounted in a left inner wall of the moving cavity 36, a rotating rod 37 is fixedly mounted on a right side surface of a right output shaft of the first motor 29, the rotating rod 37 extends to the right inner wall of the moving cavity 36, a moving block 32 is mounted on the rotating rod 37 in a threaded manner, a rack 38 is fixedly mounted between left and right inner walls of the moving box 31 and located in front of the rotating rod 37, the rack 38 is slidably mounted with the moving block 32, a gear cavity 40 is disposed in the moving block 32, a stirring rod 33 rotatably mounted on a top wall of the gear cavity 40 and penetrating through a bottom surface of the moving block 32, a stirring rod 34 is fixed on the stirring rod 33, a first gear 39 is fixedly mounted on the stirring rod 33 and located in the gear cavity 40, and the first gear 39 is engaged with the rack, when the garbage and the aerobic microorganisms are stirred, the first motor 29 is started to drive the rotating rod 37 to rotate, the rotating rod 37 rotates to enable the moving block 32 to move left and right, the moving block 32 moves left and right to enable the first gear 39 to rotate, and the first gear 39 rotates to drive the stirring rod 33 and the stirring rod 34 to rotate so as to stir the garbage and the aerobic microorganisms.

In addition, in one embodiment, the inner wall of the right side of the reaction tank 18 is communicated with a drainage cavity 20, the drainage cavity 20 is located below the filter screen 19, a sealing plug 66 is slidably installed in the drainage cavity 20, the bottom wall of the reaction tank 18 is an inclined surface, water is generated after the aerobic microorganisms decompose the garbage, the water enters the drainage cavity 20 through the filter screen 19 to be stored, and the water can be discharged by opening the sealing plug 66.

In addition, in one embodiment, the control mechanism 102 includes a spring cavity 28 disposed in the top wall of the reaction tank 18, a compression block 26 is slidably mounted in the spring cavity 28, a spring 27 is fixedly mounted between the bottom surface of the compression block 26 and the bottom wall of the spring cavity 28, a lifting cavity 63 is disposed in the top wall of the spring cavity 28, a lifting plate 67 is slidably mounted in the lifting cavity 63, the bottom surface of the lifting plate 67 is fixedly connected with the top surface of the compression block 26, a sliding block 62 is fixedly mounted on the front side surface of the lifting plate 67, hinged cavities 13 are disposed on the left and right sides of the lifting cavity 63, a sliding rod 11 is slidably mounted between the hinged cavities 13 on the left and right sides, a sliding cavity 64 is disposed in the sliding rod 11, the sliding cavity 64 is slidably mounted with the sliding block 62, a moving rod 25 is slidably mounted between the connecting cavity 23 and the hinged cavity 13 on the right side, the bottom surface of the moving rod 25 can be attached, the bottom wall of the discharge cavity 17 is communicated with a limit cavity 65, a push block 16 is slidably mounted in the limit cavity 65, the push block 16 extends upwards to penetrate through the bottom wall of the hinged cavity 13 on the left side, a through hole 15 is formed in the push block 16, the through hole 15 can be communicated with the discharge cavity 17, hinged rods 12 are hinged between the push block 16 and the sliding rod 11 and between the moving rod 25 and the sliding rod 11, when aerobic microorganisms decompose garbage, oxygen is consumed, carbon dioxide and water are generated, so that the air pressure in the reaction tank 18 is reduced, the compression block 26 drives the lifting plate 67 to move downwards, the lifting plate 67 drives the sliding rod 11 to move leftwards through the sliding block 62 and the sliding cavity 64, the sliding rod 11 enables the moving rod 25 to move upwards through the hinged rod 12 on the right side, and the gas in the high-pressure air cavity 24 enters the reaction tank 18 through the connection cavity 23, the sliding rod 11 enables the pushing block 16 to move downwards through the hinged rod 12 on the left side, so that the pushing block 16 is communicated with the discharge cavity 17, gas generated by decomposition of aerobic microorganisms can be collected and treated through the discharge cavity 17, and emission of carbon dioxide is reduced.

In addition, in one embodiment, the conveying mechanism 103 includes fixed blocks 30 fixedly installed on the top surface of the moving box 31 in bilateral symmetry, fixed cavities 60 are communicated with the top wall of the reaction tank 18 in bilateral symmetry, the fixed cavities 60 are slidably installed with the fixed blocks 30, an engaging cavity 58 is arranged above the fixed cavity 60 on the right side, a threaded rod 56 is rotatably installed between the engaging cavity 58 and the fixed cavity 60 on the right side, the engaging cavity 58 is threadedly installed with the fixed block 30 on the right side, a first bevel gear 57 is fixedly installed on the top surface of the engaging cavity 58, a transmission cavity 46 is arranged on the rear side of the engaging cavity 58, the transmission cavity 46 is located on the left side of the waste cavity 35, a second motor 44 is fixedly installed in the inner wall on the rear side of the transmission cavity 46, a rectangular cavity 47 is communicated with the inner wall on the rear side of the reaction tank 18, a power rod 49 penetrating through the inner wall on the rear side of the rectangular cavity 47 is fixedly installed on the front side of, a rectangular block 48 is arranged in the rectangular cavity 47 in a sliding manner, the power rod 49 is installed with the rectangular block 48 in a threaded manner, a second gear 45 is fixedly installed on the power rod 49 and positioned in the transmission cavity 46, a transmission rod 61 is rotatably installed between the meshing cavity 58 and the transmission cavity 46, a third gear 41 is fixedly installed on the rear side surface of the transmission rod 61, a chain 43 is installed between the third gear 41 and the second gear 45 in a transmission manner, an auxiliary cavity 55 is arranged on the front side of the fixed cavity 60 in a communication manner, a block cavity 53 is arranged on the top wall of the storage cavity 50 in a communication manner, a block 52 is arranged in the block cavity 53 in a sliding manner, a connecting rod 54 is fixedly installed between the block 52 and the fixed block 30 on the right side, the connecting rod 54 is installed with the reaction box body 14 in a sliding manner, and after the decomposition of the garbage in the reaction tank 18 is completed, the, the power rod 49 drives the rectangular block 48 to move forward, the power rod 49 drives the transmission rod 61 to rotate through the second gear 45, the chain 43 and the third gear 41, the transmission rod 61 rotates and drives the threaded rod 56 to rotate through the engagement of the second bevel gear 59 and the first bevel gear 57, the threaded rod 56 rotates and drives the movable box 31 to move upward through the fixed block 30 on the right side, the fixed block 30 on the right side drives the stop block 52 to move upward through the connecting rod 54, and the rectangular block 48 conveys the garbage which cannot be decomposed on the filter screen 19 into the storage cavity 50.

In addition, in one embodiment, a second door 51 is hinged in the storage cavity 50, and the garbage which cannot be decomposed in the storage cavity 50 can be taken out by opening the second door 51.

When the aerobic microorganisms are used for decomposing garbage, the first door 42 is opened, the garbage can be conveyed into the reaction tank 18 through the garbage cavity 35, when the garbage and the aerobic microorganisms are stirred, the first motor 29 is started to drive the rotating rod 37 to rotate, the rotating rod 37 rotates to enable the moving block 32 to move left and right, the moving block 32 moves left and right to enable the first gear 39 to rotate, the first gear 39 rotates to drive the stirring rod 33 and the stirring rod 34 to rotate to stir the garbage and the aerobic microorganisms, oxygen is consumed when the aerobic microorganisms decompose the garbage, carbon dioxide and water are generated, so that the air pressure in the reaction tank 18 is reduced, the compression block 26 drives the lifting plate 67 to move downwards, the lifting plate 67 drives the sliding rod 11 to move leftwards through the 62 and the sliding cavity 64, the sliding rod 11 enables the moving rod 25 to move upwards through the hinge rod 12 on the right side, and the gas in the high-pressure air cavity 24 enters the reaction tank 18 through the connecting cavity 23, the sliding rod 11 enables the pushing block 16 to move downwards through the hinged rod 12 on the left side, so that the pushing block 16 is communicated with the discharge cavity 17, gas generated by decomposition of aerobic microorganisms can be collected and treated through the discharge cavity 17, emission of carbon dioxide is reduced, after the garbage in the reaction tank 18 is decomposed, the second motor 44 is started to drive the power rod 49 to rotate, the power rod 49 drives the rectangular block 48 to move forward, the power rod 49 drives the transmission rod 61 to rotate through the second gear 45, the chain 43 and the third gear 41, the transmission rod 61 rotates to drive the threaded rod 56 to rotate through the meshing of the second bevel gear 59 and the first bevel gear 57, the threaded rod 56 rotates to drive the movable box 31 to move upward through the fixed block 30 on the right side, the fixed block 30 on the right side drives the stop block 52 to move upward through the connecting rod 54, and the rectangular block 48 sends the garbage which cannot be decomposed on the filter screen 19 into the storage cavity 50.

It will be apparent to those skilled in the art that various modifications may be made to the above embodiments without departing from the general spirit and concept of the invention. All falling within the scope of protection of the present invention. The protection scheme of the invention is subject to the appended claims.

Claims

1. The utility model provides an utilize microorganism to carry out degradation reaction pond of degradation to rubbish, includes reaction box and fixed station, its characterized in that: the fixed station is fixedly arranged on the right side surface of the reaction box body, a reaction tank is arranged in the reaction box body, a filter screen is fixedly arranged in the reaction tank, the reaction tank is internally provided with a fixed mounting moving box above the filter screen, a stirring mechanism capable of stirring garbage and aerobic microorganisms on the filter screen is arranged in the moving box, a connecting cavity is arranged in the right side of the reaction tank in a communicated manner, a high-pressure air cavity is arranged in the right side of the connecting cavity in a communicated manner, a fixed station top surface fixed mounting air compressor is arranged in the fixed mounting moving box in a communicated manner, the air compressor is communicated with the high-pressure air cavity, high-pressure air is filled into the high-pressure air cavity by the air compressor, a discharge cavity penetrating through the left side surface of the reaction box body is arranged in the inner wall of the left side of the reaction tank in a communicated manner, the position of the discharge cavity, when the air pressure in the reaction tank is too low, the control mechanism opens the connecting cavity and the discharge cavity, high-pressure air in the high-pressure air cavity enters the reaction tank through the connecting cavity, and gas generated by decomposition of aerobic microorganisms in the reaction tank is sent out through the discharge cavity, so that the gas generated by decomposition of the aerobic microorganisms can be collected;

the inner wall of the front side of the reaction tank is communicated with a storage cavity, and the rear side of the reaction tank is provided with a conveying mechanism which can convey the undecomposed garbage on the filter screen into the storage cavity;

a garbage cavity is communicated with the inner wall of the rear side of the reaction tank, extends backwards to penetrate through the rear side face of the reaction tank body, and is internally hinged with a first door;

the stirring mechanism comprises a moving cavity with a downward opening, the moving cavity is arranged in the moving box, a first motor is fixedly arranged in the inner wall of the left side of the moving cavity, a rotating rod is fixedly arranged on the right side surface of an output shaft of the first motor towards the right, the rotating rod extends towards the right to the inner wall of the right side of the moving cavity, a moving block is arranged on the rotating rod in a threaded manner, a rack is fixedly arranged between the left inner wall and the right inner wall of the moving box and positioned on the front side of the rotating rod, the rack is slidably arranged with the moving block, a gear cavity is arranged in the moving block, a stirring rod penetrating through the bottom surface of the moving block is rotatably arranged on the top wall of the gear cavity, a stirring rod is fixed on the stirring rod, a first gear is;

a drainage cavity is communicated with the inner wall of the right side of the reaction tank and is positioned below the filter screen, a sealing plug is slidably mounted in the drainage cavity, and the bottom wall of the reaction tank is an inclined plane;

the control mechanism comprises a spring cavity communicated and arranged in the top wall of the reaction tank, a compression block is slidably arranged in the spring cavity, a spring is fixedly arranged between the bottom surface of the compression block and the bottom wall of the spring cavity, the top wall of the spring cavity is communicated and provided with a lifting cavity, a lifting plate is slidably arranged in the lifting cavity, the bottom surface of the lifting plate is fixedly connected with the top surface of the compression block, a sliding block is fixedly arranged on the front side surface of the lifting plate, hinged cavities are arranged on the left side and the right side of the lifting cavity, sliding rods are slidably arranged between the hinged cavities on the left side and the right side, a sliding cavity is arranged in the sliding rod, the sliding cavity is slidably arranged with the sliding block, a moving rod is slidably arranged between the hinged cavities on the connecting cavity and the right side, the bottom surface of the moving rod can be attached to the bottom wall of the connecting cavity, the, the pushing block extends upwards to penetrate through the bottom wall of the hinged cavity on the left side, a through hole is formed in the pushing block, the through hole can be communicated with the discharge cavity, and hinged rods are hinged between the pushing block and the sliding rod and between the moving rod and the sliding rod;

the conveying mechanism comprises fixed blocks which are fixedly arranged on the top surface of the movable box in a bilateral symmetry mode, the top wall of the reaction tank is communicated with the fixed blocks in a bilateral symmetry mode to form fixed cavities, the fixed cavities and the fixed blocks are arranged in a sliding mode, a meshing cavity is arranged above the fixed cavity on the right side, a threaded rod is rotatably arranged between the meshing cavity and the fixed cavity on the right side, the meshing cavity is in threaded installation with the fixed blocks on the right side, a first bevel gear is fixedly arranged on the top surface of the meshing cavity, a transmission cavity is arranged on the rear side of the meshing cavity and is positioned on the left side of the garbage cavity, a second motor is fixedly arranged in the inner wall on the rear side of the transmission cavity, a rectangular cavity is communicated with the inner wall on the rear side of the reaction tank and is positioned below the garbage cavity, a power rod penetrating through the inner wall on the rear side of, the power rod is installed with the rectangular block in a threaded mode, a second gear is fixedly installed in the transmission cavity on the power rod, a transmission rod is rotatably installed between the meshing cavity and the transmission cavity, a third gear is fixedly installed on the rear side face of the transmission rod, a chain is installed between the third gear and the second gear in a transmission mode, an auxiliary cavity is communicated and arranged on the front side of the fixed cavity, a stop block cavity is communicated and arranged on the top wall of the storage cavity, a stop block is installed in the stop block cavity in a sliding mode, a connecting rod is fixedly installed between the stop block and the fixed block on the right side, and the connecting rod is installed with the reaction box body in a;

and a second door is hinged in the storage cavity.