Livestock breeding excrement cleaning reaction device

By coordinating the start-up, cleaning, and processing components of the livestock manure cleaning reaction device, impurities in the manure are separated and dehydrated, solving the problems of equipment wear and blockage caused by impurities mixing into the manure cleaning device, and improving the efficiency and safety of manure treatment.

CN122212428APending Publication Date: 2026-06-16SHENZHEN TENGYUE AGRICULTURAL TECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
SHENZHEN TENGYUE AGRICULTURAL TECHNOLOGY CO LTD
Filing Date
2026-04-08
Publication Date
2026-06-16

AI Technical Summary

Technical Problem

Existing livestock manure cleaning devices are prone to mixing in impurities such as mud and sand when processing cattle and sheep manure, which reduces the calorific value of combustion, wears down the equipment, and is prone to clogging, resulting in a decrease in separation efficiency.

Method used

A livestock manure cleaning reaction device is designed. Through the coordinated use of the starting component, cleaning component and processing component, the manure is directionally squeezed and screened. Combined with the vibration cleaning of the scraper and spring, a squeezing zone is formed to promote the separation of impurities and dehydration of manure, and to avoid blockage.

Benefits of technology

It effectively separates impurities such as mud and sand from feces, improves the purity and safety of fuel utilization, ensures stable equipment operation, improves the efficiency of fecal treatment, and avoids clogging and reduced separation efficiency.

✦ Generated by Eureka AI based on patent content.

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Abstract

The present application relates to the technical field of excrement cleaning, and particularly relates to a livestock breeding excrement cleaning reaction device, which comprises a processing cylinder, an activation assembly for processing livestock breeding cattle and sheep excrement is arranged in the processing cylinder, a trigger block and a movable piece are arranged in the activation assembly, the activation assembly can provide power for processing livestock breeding cattle and sheep excrement through cooperation of the trigger block and the movable piece, a cleaning assembly matched with the activation assembly is arranged on the trigger block, a push column and a sealing gasket are arranged in the cleaning assembly, and livestock cattle and sheep excrement can be prevented from being blocked through cooperation of the push column and the sealing gasket, the activation assembly, the cleaning assembly and the processing assembly are used in cooperation, directional extrusion and screening of cattle and sheep excrement are formed in the lifting movement process of the filter plate, non-combustible impurities such as mixed soil, sand and small stones in the excrement can be separated, the problem that impurities reduce the combustion heat value, wear the grate and easily form slag is avoided, and the purity and safety of excrement fuel utilization are improved.
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Description

Technical Field

[0001] This invention relates to the field of manure cleaning technology, and in particular to a reaction device for cleaning livestock manure. Background Technology

[0002] The livestock manure cleaning reaction device is a specialized manure treatment equipment for large-scale cattle, sheep, pig, and poultry farms. Its core function is to reduce, render harmless, and recycle livestock manure through mechanical mixing and microbial fermentation. Cattle and sheep are ruminants, and their manure contains a large amount of undigested forage, straw, and forage fiber. These components are non-toxic, high in fiber, and are high-quality recyclable resources. Currently, when using the livestock manure cleaning reaction device, the manure is easily mixed with soil, sand, gravel, and other gravel impurities when cattle and sheep are grazing, free-range, or fed. Soil, sand, gravel, and other gravel impurities are completely non-flammable and will reduce the overall calorific value, wear down the grate, and cause slagging. Summary of the Invention

[0003] In order to overcome the shortcomings of the prior art, the present invention provides a livestock manure cleaning reaction device.

[0004] To solve the above-mentioned technical problems, the present invention provides the following technical solution: a livestock manure cleaning reaction device, comprising a processing cylinder, an inlet pipe fixedly connected to the top of the processing cylinder, an activation component for processing livestock manure (cattle and sheep) inside the processing cylinder, a trigger block and a movable plate inside the activation component, the cooperation of the trigger block and the movable plate providing power for processing livestock manure (cattle and sheep), a placement platform inside the activation component, the placement platform fixedly connected to the inside of the processing cylinder, a bearing block fixedly connected to the top of the placement platform, a rotating column fixedly connected to the top of the bearing block, the outer side of the rotating column being movably connected to the trigger block, two limiting posts fixedly connected to the outer side of the trigger block, and a movable plate provided on the outer side of each limiting post. Each movable piece is equipped with a slot for placing a limiting post. Each limiting post is inserted into the slot of the corresponding movable piece. A lifting piece is fixedly connected to the end of each movable piece away from the corresponding limiting post. A connecting piece is fixedly connected to each lifting piece. A connecting post is located between the two connecting pieces, and both ends of the connecting post are fixedly connected to the two connecting pieces respectively. The starting assembly also includes a base, which is fixedly connected inside the processing cylinder. Two track posts are fixedly connected to the top of the base, and two lifting blocks are sleeved on the outer side of each track post. The lifting blocks on each track post are fixedly connected to the corresponding lifting piece. A positioning frame is fixedly connected to the top of the two movable pieces, and a filter plate is fixedly connected inside the positioning frame. The filter plate has several small round holes for filtering sand and gravel from livestock manure. The bottom of the placement platform has a limiting hole for placing the machine housing, which is fixedly connected to the limiting hole of the placement platform. A servo motor is located inside the machine housing. A worm gear is movably connected to the support block, and the output shaft of the servo motor is fixedly connected to the worm gear. A worm wheel is fixedly connected to the outside of the rotating column, and the worm gear meshes with the worm wheel. A lifting frame is fixedly connected to the top of the positioning frame, and a sealing shell is fixedly connected to the outside of the lifting frame. An electric push rod is located inside the sealing shell and is inserted into the lifting frame. A push plate is fixedly connected to the output end of the electric push rod. The lifting frame has a hidden groove for placing the push plate, which is inserted into the hidden groove of the lifting frame. The push plate is positioned relative to the top of the filter plate. The top of the lifting frame is fixedly connected to a scraper frame. When the lifting frame moves, it drives the scraper frame to move into the inside of the feed pipe. The inner wall of the feed pipe is fixedly connected to a bearing strip, and the bottom of the bearing strip is fixedly connected to a flow guide block. When the filter plate moves to the bottom of the flow guide block, the filter plate corresponds to the flow guide block. The outer side of the treatment cylinder is fixedly connected to a placement shell. The inside of the treatment cylinder is inserted with a baffle plate, which corresponds to the lifting frame. The outer side of the baffle plate is fixedly connected to a pull column, which is inserted into the placement shell. The outer side of the treatment cylinder is movably connected to a collection cylinder. The bottom of the collection cylinder is fixedly connected to a filter plate, which has several small round holes for filtering water. The bottom of the filter plate is fixedly connected to a return pipe, which is inserted into the treatment cylinder.

[0005] With the above technical solution, when livestock manure needs to be processed, the manure is poured into the feed pipe and falls onto the filter plate. This triggers a servo motor, which drives a worm gear to rotate. The worm gear, in turn, drives a worm wheel, which in turn drives a rotating column. As the column rotates, it causes a trigger block to flip, which in turn moves a limit post. This limit post, in turn, causes a movable plate to rise. This rise, in turn, moves a lifting plate, which in turn moves a lifting block along a trajectory column. The movable plate then lifts the positioning frame, which in turn lifts the lifting frame and the filter plate. When the lifting frame enters the feed pipe, the scraper frame scrapes the attached cow and sheep manure along the inner wall of the feed pipe to the top of the filter plate. The forage component in the cow and sheep manure is intercepted by the top of the filter plate. As the filter plate is lifted, the cow and sheep manure on the top of the filter plate is blocked by the bottom of the guide block. Impurities in the cow and sheep manure on the top of the filter plate fall down through the small round holes of the filter plate under the squeezing action. When it is necessary to collect the forage component, pull the pull column. The pull column moves the blocking plate towards the inside of the placement shell, which in turn activates the electric push rod. The electric push rod pushes the push plate to move. When the push plate moves, it pushes the forage component collected on the top of the filter plate into the collection cylinder. Then, the residual water content in the forage falls down the filter plate into the return pipe and is discharged into the processing cylinder.

[0006] As a preferred embodiment of the present invention, the trigger block is provided with a cleaning component that cooperates with the starting component. The cleaning component contains a push post and a sealing gasket. The cooperation between the push post and the sealing gasket can prevent livestock manure from clogging the block. The cleaning component contains a limiting frame, which is fixedly connected to the top of the trigger block. A limiting bolt is fixedly connected to the limiting frame. A starting rod is movably connected to the outside of the limiting bolt. A contact plate is fixedly connected to the top of the base. Two guide plates are fixedly connected to the contact plate. A movable bolt is fixedly connected to the two guide plates. Two linkage plates are fixedly connected to the outside of the movable bolt. A sealing cylinder is fixedly connected to each linkage plate. The sealing gasket is located inside the sealing cylinder and is fixedly connected to the push post. The push post is inserted into the sealing cylinder. The end of the push post away from the sealing gasket is fixedly connected to the starting rod. The sealing cylinder is provided with two flow holes for liquid flow.

[0007] With the above technical solution, when the trigger block flips, the trigger block drives the limit frame to flip synchronously, and then the limit frame drives the limit bolt to flip. When the limit bolt flips, it drives the starting rod to move. When the starting rod moves, it drives the connecting plate to adjust the direction through the sealing cylinder. Then the starting rod drives the push column to move away from the sealing cylinder. When the push column moves, it drives the sealing gasket to move. When the sealing gasket moves, it draws the water mixture inside the treatment cylinder into the sealing cylinder. When the trigger block reciprocates, the abutment plate drives the push column to move into the sealing cylinder. Then the sealing gasket pushes the water mixture drawn into the sealing cylinder into and out, promoting the flow of the water mixture inside.

[0008] As a preferred embodiment of the present invention, a contact cylinder is fixedly connected to the top of the trigger block. The contact cylinder is equipped with a processing component for cooperating with the cleaning component. The processing component is equipped with a scraper and a lifting column. The cooperation of the scraper and the lifting column can promote the separation of livestock manure. The processing component is equipped with two contact cylinders. Each contact cylinder is fixedly connected to the top of the trigger block. A lifting column is inserted into the inside of each contact cylinder. A retaining ring is fixedly connected to the bottom of each lifting column. A spring is provided inside each contact cylinder. The two ends of the spring are fixedly connected to the inner wall of the bottom of the corresponding contact cylinder and the retaining ring, respectively. A groove frame is fixedly connected to the top of each lifting column. The groove frame is equipped with a slot for placing a card strip. The card strip is engaged in the slot of the groove frame. The scraper is fixedly connected to the card strip, and the top of the scraper is in contact with the bottom of the filter plate.

[0009] With the above technical solution, when the trigger block rotates, it drives the contact cylinder to move synchronously. When the contact cylinder moves synchronously, it drives the top scraper to move along the bottom interior of the filter plate. Then, the compressed spring pushes the retaining ring to move. When the retaining ring moves, it drives the lifting column to move. When the lifting column moves, it drives the groove frame to move. When the groove frame moves, it drives the groove frame to hit the bottom of the filter plate through the locking strip. The vibration generated by the impact on the bottom of the filter plate promotes the separation of cattle and sheep manure. When the scraper rotates, it scrapes the impurities stuck in the small round holes at the bottom of the filter plate and makes them fall off.

[0010] Compared with the prior art, the beneficial effects that this invention can achieve are: 1. This invention, through the coordinated use of the starting component, cleaning component and processing component, forms directional compression and screening of cattle and sheep manure during the lifting and lowering movement of the filter plate. This can separate non-combustible impurities such as mud, sand, and small stones mixed in the manure, avoiding the problems of impurities reducing the calorific value of combustion, abrading the grate and easily forming slag, and improving the purity and safety of manure fuel utilization.

[0011] 2. This invention utilizes the combined use of a starting component, a cleaning component, and a processing component. Through the elastic impact structure of the scraper, spring, lifting column, and groove frame, the bottom of the filter plate is continuously struck, vibrated, and scraped during equipment operation. This cleans up the fecal residue and impurities stuck in the screen holes in real time, avoiding the problem of decreased separation efficiency and processing interruption caused by filter plate blockage, and ensuring long-term, efficient, and stable sand and gravel separation.

[0012] 3. This invention utilizes the combined use of the starting component, cleaning component, and processing component. The filter plate rises and the guide block presses down to form a squeezing zone, which quickly removes the free water inside the cattle and sheep manure. Combined with the filter plate at the bottom of the collection cylinder, it achieves secondary dehydration of the fibrous material and reduces the output moisture content.

[0013] 4. The present invention utilizes a reciprocating suction structure consisting of a sealing cylinder, a pusher, and a sealing gasket in the cleaning component. As the trigger block flips, it forms a directional liquid flow circulation, actively promoting the flow of the fecal-water mixture inside the cylinder. This effectively prevents fecal sludge accumulation, hardening, and blockage of the channel, significantly improving the reliability of equipment operation and continuous operation capability.

[0014] 5. This invention achieves integrated continuous processing of cattle and sheep manure by using the start-up component, cleaning component, and processing component in combination, including feeding, scraping, sand removal, dehydration, and fiber collection. It eliminates the need for frequent manual cleaning and intervention, thereby improving the efficiency of manure treatment in large-scale farms.

[0015] 6. By setting the start-up component, the scraper frame moves synchronously with the filter plate and fits against the inner wall of the feed pipe, which can automatically scrape off the wet and soft manure adhering to the pipe wall, avoiding the problems of high viscosity of cattle and sheep manure, easy blockage of the feed inlet, and poor feeding, and ensuring continuous, smooth and stable manure feeding. Attached Figure Description

[0016] Figure 1 This is a schematic diagram of the overall structure of the present invention; Figure 2 This is a schematic diagram of the movable piece structure of the present invention; Figure 3 This is a schematic diagram of the lifting frame structure of the present invention; Figure 4 This is a schematic diagram of the bearing block structure of the present invention; Figure 5 This is a schematic diagram of the trigger block structure of the present invention; Figure 6 This is a schematic diagram of the sealing cylinder structure of the present invention; Figure 7 This is a schematic diagram of the scraper structure of the present invention; Figure 8 This is a schematic diagram of the collecting cylinder structure of the present invention.

[0017] The components are as follows: 1. Processing cylinder; 2. Feed pipe; 3. Collection cylinder; 4. Base; 5. Placement platform; 6. Bearing block; 7. Trigger block; 8. Movable piece; 9. Limiting post; 10. Lifting piece; 11. Lifting block; 12. Track post; 13. Connecting piece; 14. Connecting post; 15. Rotating post; 16. Positioning frame; 17. Filter plate; 18. Lifting frame; 19. Sealing shell; 20. Push plate; 21. Electric push rod; 22. Scraper frame; 23. Limiting frame; 24. Limiting bolt; 25. Starting rod; 26. Contact plate; 27. Guide plate; 28. Movable bolt; 29. ​​Linking plate; 30. Sealing cylinder; 31. Push column; 32. Sealing gasket; 33. Contact cylinder; 34. Scraper; 35. Lifting column; 36. Retaining ring; 37. Spring; 38. Groove frame; 39. Locking strip; 40. Housing; 41. Servo motor; 42. Worm gear; 43. Worm; 44. Barrier plate; 45. Pull column; 46. Placement shell; 47. Filter plate; 48. Return pipe; 49. Bearing strip; 50. Drain block. Detailed Implementation

[0018] To make the technical means, creative features, and achieved objectives and effects of this invention easier to understand, the invention is further described below with reference to specific embodiments. However, the following embodiments are merely preferred embodiments of this invention and not all of them. Other embodiments obtained by those skilled in the art based on the embodiments described herein without creative effort are all within the protection scope of this invention. Unless otherwise specified, the experimental methods in the following embodiments are conventional methods, and the materials and reagents used in the following embodiments are commercially available unless otherwise specified.

[0019] Example: Figure 1 , Figure 2 , Figure 3 , Figure 4 , Figure 7 and Figure 8As shown, a livestock manure cleaning reaction device includes a processing cylinder 1. A feed pipe 2 is fixedly connected to the top of the processing cylinder 1. An activation assembly for processing livestock manure (cattle and sheep) is installed inside the processing cylinder 1. The activation assembly includes a trigger block 7 and a movable plate 8. The interaction of the trigger block 7 and the movable plate 8 provides power for processing the livestock manure. A placement platform 5 is installed inside the activation assembly and fixedly connected to the inside of the processing cylinder 1. A bearing block 6 is fixedly connected to the top of the placement platform 5, and a rotating column 15 is fixedly connected to the top of the bearing block 6. The outer side of the rotating column 15 is movably connected to the trigger block 7. Two limiting posts 9 are fixedly connected to the outer side of the trigger block 7. A movable plate 8 is provided on the outer side of each limiting post 9, and each movable plate 8 is equipped with... The movable slots for accommodating the limiting posts 9 are provided. Each limiting post 9 is inserted into the movable slot of the corresponding movable piece 8. A lifting piece 10 is fixedly connected to the end of each movable piece 8 away from the corresponding limiting post 9. A connecting piece 13 is fixedly connected to each lifting piece 10. A connecting post 14 is provided between the two connecting pieces 13, and the two ends of the connecting post 14 are fixedly connected to the two connecting pieces 13 respectively. The starting assembly also includes a base 4, which is fixedly connected to the inside of the processing cylinder 1. Two track posts 12 are fixedly connected to the top of the base 4, and two lifting blocks 11 are sleeved on the outer side of each track post 12. The lifting blocks 11 on each track post 12 are fixedly connected to the corresponding lifting piece 10. The tops of the two movable pieces 8 are fixedly connected to the corresponding lifting pieces 10. A positioning frame 16 has a filter plate 17 fixedly connected inside it. The filter plate 17 has several small round holes for filtering sand and gravel from livestock manure. The bottom of the placement platform 5 has a limiting hole for placing the housing 40. The housing 40 is fixedly connected to the limiting hole of the placement platform 5. A servo motor 41 is installed inside the housing 40. A worm gear 43 is movably connected to the bearing block 6. The output shaft of the servo motor 41 is fixedly connected to the worm gear 43. A worm wheel 42 is fixedly connected to the outside of the rotating column 15. The worm gear 43 meshes with the worm wheel 42. A lifting frame 18 is fixedly connected to the top of the positioning frame 16. A sealing shell 19 is fixedly connected to the outside of the lifting frame 18. An electric push rod 21 is installed inside the sealing shell 19. The electric push rod 21 is inserted into the lifting frame 18. Above, the output end of the electric push rod 21 is fixedly connected to a push plate 20. The lifting frame 18 is provided with a hidden groove for placing the push plate 20. The push plate 20 is inserted into the hidden groove of the lifting frame 18 and is in contact with the top of the filter plate 17. The top of the lifting frame 18 is fixedly connected to a scraper frame 22. When the lifting frame 18 moves, the lifting frame 18 drives the scraper frame 22 to move into the inside of the feed pipe 2. The inner wall of the feed pipe 2 is fixedly connected to a bearing strip 49. The bottom of the bearing strip 49 is fixedly connected to a guide block 50. When the filter plate 17 moves to the bottom of the guide block 50, the filter plate 17 corresponds to the guide block 50. The outer side of the processing cylinder 1 is fixedly connected to a placement shell 46. The inside of the processing cylinder 1 is inserted with a baffle plate 44, and the baffle plate 44 corresponds to the lifting frame 18.A pull post 45 is fixedly connected to the outer side of the baffle plate 44, and the pull post 45 is inserted into the placement shell 46. A collection cylinder 3 is movably connected to the outer side of the treatment cylinder 1. A filter plate 47 is fixedly connected to the bottom of the collection cylinder 3, and the filter plate 47 is provided with several small round holes for filtering water. A return pipe 48 is fixedly connected to the bottom of the filter plate 47, and the return pipe 48 is inserted into the treatment cylinder 1. like Figure 1 , Figure 2 , Figure 3 , Figure 4 , Figure 7 and Figure 8 As shown, when livestock manure needs to be processed, the manure is poured into the feed pipe 2 and falls onto the filter plate 17. Then, the servo motor 41 is activated, driving the worm gear 43 to rotate. The worm gear 43 rotates, driving the worm wheel 42 to rotate, which in turn drives the rotating column 15 to rotate. When the rotating column 15 rotates, it causes the trigger block 7 to flip, which in turn moves the limit post 9. The limit post 9 then lifts the movable plate 8, which in turn moves the lifting plate 10. The lifting plate 10 then moves the lifting block 11 along the track column 12. Subsequently, the movable plate 8 lifts the positioning frame 16, which in turn lifts the lifting frame 18 and the filter plate 17. When frame 18 enters the feed pipe 2, scraper frame 22 scrapes the attached cow and sheep manure along the inner wall of feed pipe 2 to the top of filter plate 17. The forage component in the cow and sheep manure is intercepted by the top of filter plate 17. When filter plate 17 is raised, the cow and sheep manure at the top of filter plate 17 is blocked by the bottom of guide block 50. Impurities in the cow and sheep manure at the top of filter plate 17 fall down along the small round hole of filter plate 17 under the squeezing action. When it is necessary to collect the forage component, pull column 45 is pulled. Pull column 45 drives the blocking plate 44 to move towards the inside of placement shell 46, thereby activating electric push rod 21. Electric push rod 21 pushes push plate 20 to move. When push plate 20 moves, it pushes the forage component collected at the top of filter plate 17 into the collection cylinder 3. Then the residual water content in the forage falls along filter plate 47 into return pipe 48 and is discharged into processing cylinder 1.

[0020] like Figure 1 , Figure 2 , Figure 3 , Figure 4 , Figure 5 and Figure 7As shown, the trigger block 7 is equipped with a cleaning component that works in conjunction with the starting component. The cleaning component contains a push post 31 and a sealing gasket 32. The cooperation of the push post 31 and the sealing gasket 32 ​​prevents livestock manure from clogging the block. The cleaning component also includes a limiting frame 23, which is fixedly connected to the top of the trigger block 7. A limiting bolt 24 is fixedly connected to the limiting frame 23. A starting rod 25 is movably connected to the outside of the limiting bolt 24. An abutment plate 26 is fixedly connected to the top of the base 4, and a corresponding fixed connection is also present on the abutment plate 26. There are two guide plates 27, and a movable bolt 28 is fixedly connected to each guide plate 27. Two connecting plates 29 are fixedly connected to the outer side of the movable bolt 28. A sealing cylinder 30 is fixedly connected to each connecting plate 29. A sealing gasket 32 ​​is set inside the sealing cylinder 30 and is fixedly connected to a push rod 31. The push rod 31 is inserted into the sealing cylinder 30. The end of the push rod 31 away from the sealing gasket 32 ​​is fixedly connected to the starting rod 25. The sealing cylinder 30 is provided with two flow holes for liquid flow. like Figure 1 , Figure 2 , Figure 3 , Figure 4 , Figure 5 and Figure 7 As shown, when the trigger block 7 flips, the trigger block 7 drives the limit frame 23 to flip synchronously, and then the limit frame 23 drives the limit bolt 24 to flip. When the limit bolt 24 flips, it drives the start rod 25 to move. When the start rod 25 moves, it drives the connecting plate 29 to adjust its direction through the sealing cylinder 30. Then the start rod 25 drives the push column 31 to move away from the sealing cylinder 30. When the push column 31 moves, it drives the sealing pad 32 to move. When the sealing pad 32 moves, it draws the water mixture inside the treatment cylinder 1 into the sealing cylinder 30. When the trigger block 7 reciprocates, the contact plate 26 drives the push column 31 to move into the sealing cylinder 30. Then the sealing pad 32 pushes out the water mixture drawn into the sealing cylinder 30 to promote the flow of the water mixture inside.

[0021] like Figure 1 , Figure 2 , Figure 3 , Figure 4 , Figure 5 , Figure 6 and Figure 7As shown, a contact cylinder 33 is fixedly connected to the top of the trigger block 7. The inside of the contact cylinder 33 is a processing component for cooperating with the cleaning component. The processing component is equipped with a scraper 34 and a lifting column 35. The cooperation of the scraper 34 and the lifting column 35 can promote the separation of livestock manure. The processing component is equipped with two contact cylinders 33. Each contact cylinder 33 is fixedly connected to the top of the trigger block 7. Each contact cylinder 33 is equipped with a lifting column 35 inserted inside. Each lifting column 35 is fixedly connected to a retaining ring 36 at the bottom. Each contact cylinder 33 is equipped with a spring 37 inside. The two ends of the spring 37 are fixedly connected to the bottom inner wall of the corresponding contact cylinder 33 and the retaining ring 36, respectively. Each lifting column 35 is fixedly connected to a groove frame 38 at the top. The groove frame 38 is equipped with a slot for placing a retaining strip 39. The retaining strip 39 is engaged in the slot of the groove frame 38. The scraper 34 is fixedly connected to the retaining strip 39, and the top of the scraper 34 is attached to the bottom of the filter plate 17. like Figure 1 , Figure 2 , Figure 3 , Figure 4 , Figure 5 , Figure 6 and Figure 7 As shown, when the trigger block 7 rotates, it drives the contact cylinder 33 to move synchronously. When the contact cylinder 33 moves synchronously, it drives the top scraper 34 to move along the bottom interior of the filter plate 17. Then, the compressed spring 37 pushes the retaining ring 36 to move. When the retaining ring 36 moves, it drives the lifting column 35 to move. When the lifting column 35 moves, it drives the groove frame 38 to move. When the groove frame 38 moves, it is driven by the locking strip 39 to hit the bottom of the filter plate 17. The vibration generated by the impact on the bottom of the filter plate 17 promotes the separation of cattle and sheep manure. When the scraper 34 rotates, it scrapes the impurities stuck in the small round holes at the bottom of the filter plate 17 and makes them fall off.

[0022] Working principle: First step, such as Figure 1 , Figure 2 , Figure 3 , Figure 4 , Figure 7 and Figure 8As shown, when livestock manure needs to be processed, the manure is poured into the feed pipe 2 and falls onto the filter plate 17. Then, the servo motor 41 is activated, driving the worm gear 43 to rotate. The worm gear 43 rotates, driving the worm wheel 42 to rotate, which in turn drives the rotating column 15 to rotate. When the rotating column 15 rotates, it causes the trigger block 7 to flip, which in turn moves the limit post 9. The limit post 9 then lifts the movable plate 8, which in turn moves the lifting plate 10. The lifting plate 10 then moves the lifting block 11 along the track column 12. Subsequently, the movable plate 8 lifts the positioning frame 16, which in turn lifts the lifting frame 18 and the filter plate 17. When frame 18 enters the feed pipe 2, scraper frame 22 scrapes the attached cow and sheep manure along the inner wall of feed pipe 2 to the top of filter plate 17. The forage component in the cow and sheep manure is intercepted by the top of filter plate 17. Then, when filter plate 17 is raised, the cow and sheep manure at the top of filter plate 17 is blocked by the bottom of guide block 50. The impurities in the cow and sheep manure at the top of filter plate 17 fall down along the small round hole of filter plate 17 under the squeezing action. When it is necessary to collect the forage component, pull column 45 is pulled. Pull column 45 drives the blocking plate 44 to move towards the inside of placement shell 46, and then the electric push rod 21 is activated. The electric push rod 21 pushes the push plate 20 to move. When the push plate 20 moves, it pushes the forage component collected at the top of filter plate 17 into the collection cylinder 3. Then, the residual water content in the forage falls along filter plate 47 into return pipe 48 and is discharged into processing cylinder 1. The second step, as Figure 1 , Figure 2 , Figure 3 , Figure 4 , Figure 5 and Figure 7 As shown, when the trigger block 7 flips, the trigger block 7 drives the limit frame 23 to flip synchronously, and then the limit frame 23 drives the limit bolt 24 to flip. When the limit bolt 24 flips, it drives the start rod 25 to move. When the start rod 25 moves, it drives the connecting plate 29 to adjust the direction through the sealing cylinder 30. Then the start rod 25 drives the push column 31 to move away from the sealing cylinder 30. When the push column 31 moves, it drives the sealing pad 32 to move. When the sealing pad 32 moves, it draws the water mixture inside the treatment cylinder 1 into the sealing cylinder 30. When the trigger block 7 reciprocates, the abutment plate 26 drives the push column 31 to move into the sealing cylinder 30. Then the sealing pad 32 pushes out the water mixture drawn into the sealing cylinder 30 to promote the flow of the water mixture inside. The third step, as Figure 1 , Figure 2 , Figure 3 , Figure 4 , Figure 5, Figure 6 and Figure 7 As shown, when the trigger block 7 rotates, it drives the contact cylinder 33 to move synchronously. When the contact cylinder 33 moves synchronously, it drives the top scraper 34 to move along the bottom interior of the filter plate 17. Then, the compressed spring 37 pushes the retaining ring 36 to move. When the retaining ring 36 moves, it drives the lifting column 35 to move. When the lifting column 35 moves, it drives the groove frame 38 to move. When the groove frame 38 moves, it is driven by the locking strip 39 to hit the bottom of the filter plate 17. The vibration generated by the impact on the bottom of the filter plate 17 promotes the separation of cattle and sheep manure. When the scraper 34 rotates, it scrapes the impurities stuck in the small round holes at the bottom of the filter plate 17 and makes them fall off.

[0023] The embodiments of the present invention have been described in detail above with reference to the accompanying drawings. However, the present invention is not limited thereto. Various changes can be made within the scope of knowledge possessed by those skilled in the art without departing from the spirit of the present invention.

Claims

1. A livestock manure cleaning reaction device, comprising a processing cylinder (1), wherein a feed pipe (2) is fixedly connected to the top of the processing cylinder (1), characterized in that, The processing cylinder (1) is equipped with a starting component for processing livestock manure. The starting component is equipped with a trigger block (7) and a movable piece (8). The cooperation of the trigger block (7) and the movable piece (8) can provide power for processing livestock manure. The trigger block (7) is equipped with a cleaning component that works in conjunction with the starting component. The cleaning component contains a pusher (31) and a sealing gasket (32). The cooperation between the pusher (31) and the sealing gasket (32) can prevent livestock manure from clogging the block. The top of the trigger block (7) is fixedly connected to the contact cylinder (33). The inside of the contact cylinder (33) is provided with a processing component for cooperating with the cleaning component. The processing component is provided with a scraper (34) and a lifting column (35). The cooperation of the scraper (34) and the lifting column (35) can promote the separation of livestock manure.

2. The livestock manure cleaning reaction device according to claim 1, characterized in that, The starting component is provided with a placement platform (5), which is fixedly connected to the inside of the processing cylinder (1). A bearing block (6) is fixedly connected to the top of the placement platform (5), and a rotating column (15) is fixedly connected to the top of the bearing block (6). The outer side of the rotating column (15) is movably connected to the trigger block (7). Two limiting columns (9) are fixedly connected to the outer side of the trigger block (7). A movable piece (8) is provided on the outer side of each limiting column (9). Each movable piece (8) is provided with a movable groove for placing the limiting column (9). Each limiting column (9) is inserted into the movable groove of the corresponding movable piece (8). A lifting piece (10) is fixedly connected to the end of each movable piece (8) away from the corresponding limiting column (9). A connecting piece (13) is fixedly connected to each lifting piece (10). A connecting column (14) is provided between the two connecting pieces (13), and the two ends of the connecting column (14) are fixedly connected to the two connecting pieces (13) respectively.

3. The livestock manure cleaning reaction device according to claim 2, characterized in that, The starting component also includes a base (4), which is fixedly connected to the inside of the processing cylinder (1). The top of the base (4) is fixedly connected to two track columns (12), and two lifting blocks (11) are sleeved on the outside of each track column (12). The lifting blocks (11) on each track column (12) are fixedly connected to the corresponding lifting plate (10). The top of the two movable plates (8) is fixedly connected to a positioning frame (16), and a filter plate (17) is fixedly connected inside the positioning frame (16). The filter plate (17) is provided with several small round holes for filtering sand and gravel in livestock manure.

4. The livestock manure cleaning reaction device according to claim 3, characterized in that, The cleaning assembly has a limiting frame (23) fixedly connected to the top of the trigger block (7). A limiting bolt (24) is fixedly connected to the limiting frame (23). An activation rod (25) is movably connected to the outside of the limiting bolt (24). A contact plate (26) is fixedly connected to the top of the base (4). Two guide plates (27) are fixedly connected to the contact plate (26). A movable bolt (28) is fixedly connected to the two guide plates (27). Two linkage plates (29) are fixedly connected to the outside of the movable bolt (28). A sealing cylinder (30) is fixedly connected to both linkage plates (29). A sealing gasket (32) is set inside the sealing cylinder (30). The sealing gasket (32) is fixedly connected to the push column (31). The push column (31) is inserted into the sealing cylinder (30). The end of the push column (31) away from the sealing gasket (32) is fixedly connected to the activation rod (25). The sealing cylinder (30) has two flow holes for liquid flow.

5. The livestock manure cleaning reaction device according to claim 4, characterized in that, The processing component is provided with two contact cylinders (33), each contact cylinder (33) is fixedly connected to the top of the trigger block (7), each contact cylinder (33) is inserted with a lifting column (35), each lifting column (35) is fixedly connected to a retaining ring (36) at the bottom, each contact cylinder (33) is provided with a spring (37) inside, and the two ends of the spring (37) are fixedly connected to the bottom inner wall of the corresponding contact cylinder (33) and the retaining ring (36) respectively. Each lifting column (35) is fixedly connected to a groove frame (38) at the top, and the groove frame (38) is provided with a slot for placing a card strip (39). The card strip (39) is engaged in the slot of the groove frame (38). The scraper (34) is fixedly connected to the card strip (39), and the top of the scraper (34) is attached to the bottom of the filter plate (17).

6. The livestock manure cleaning reaction device according to claim 2, characterized in that, The bottom of the placement platform (5) is provided with a limiting hole for placing the housing (40). The housing (40) is fixedly connected in the limiting hole of the placement platform (5). The housing (40) is provided with a servo motor (41) inside. A worm gear (43) is movably connected to the support block (6). The output shaft of the servo motor (41) is fixedly connected to the worm gear (43). A worm wheel (42) is fixedly connected to the outside of the rotating column (15). The worm gear (43) meshes with the worm wheel (42).

7. The livestock manure cleaning reaction device according to claim 3, characterized in that, The top of the positioning frame (16) is fixedly connected to a lifting frame (18), and the outside of the lifting frame (18) is fixedly connected to a sealing shell (19). An electric push rod (21) is provided inside the sealing shell (19). The electric push rod (21) is inserted into the lifting frame (18), and a push plate (20) is fixedly connected to the output end of the electric push rod (21). The lifting frame (18) has a hidden groove for placing the push plate (20), and the push plate (20) is inserted into the hidden groove of the lifting frame (18). 20) The top of the lifting frame (18) is attached to the top of the filter plate (17). The top of the lifting frame (18) is fixedly connected to the scraper frame (22). When the lifting frame (18) moves, the lifting frame (18) drives the scraper frame (22) to move into the inside of the feed pipe (2). The inner wall of the feed pipe (2) is fixedly connected to the bearing strip (49). The bottom of the bearing strip (49) is fixedly connected to the guide block (50). When the filter plate (17) moves to the bottom of the guide block (50), the filter plate (17) and the guide block (50) correspond to each other.

8. The livestock manure cleaning reaction device according to claim 1, characterized in that, The outer side of the processing cylinder (1) is fixedly connected to a placement shell (46), and a baffle plate (44) is inserted into the inside of the processing cylinder (1). The baffle plate (44) corresponds to the lifting frame (18). A pull column (45) is fixedly connected to the outer side of the baffle plate (44), and the pull column (45) is inserted into the placement shell (46). A collection cylinder (3) is movably connected to the outer side of the processing cylinder (1). A filter plate (47) is fixedly connected to the bottom of the collection cylinder (3), and the filter plate (47) has several small round holes for filtering water. A return pipe (48) is fixedly connected to the bottom of the filter plate (47), and the return pipe (48) is inserted into the processing cylinder (1).