A manure treatment device for a farm

By designing the rotating shaft, auger blades, and compaction components of the fecal treatment device, efficient dry-wet separation of feces was achieved, solving the problems of high fecal fluidity, large footprint, and long processing time, thus improving treatment efficiency and practicality.

CN224493984UActive Publication Date: 2026-07-14YUNNAN MUHEXU AGRICULTURAL SCIENCE & TECHNOLOGY DEVELOPMENT CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
YUNNAN MUHEXU AGRICULTURAL SCIENCE & TECHNOLOGY DEVELOPMENT CO LTD
Filing Date
2025-07-20
Publication Date
2026-07-14

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Abstract

The utility model discloses a manure treatment device for farm relates to manure treatment technical field, including liquid storage tank, the outer top surface left -hand end fixed and through the connection of separation tank of liquid storage tank, the inside rotatory joint of separation tank has rotation axle rod no. 1, the outside fixed mounting of rotation axle rod no. 1 has the auger blade of spiral shape, the outer top surface left -hand end of separation tank is through the through connection of blowoff pipe and has the crushing chamber, the inside symmetrical rotation of crushing chamber installs rotation axle rod no. 2, and the outside of two rotation axle rod no. 2 all are fixed and have the cross linear array distribution of rubbing blade. The utility model discloses the mutual cooperation of setting's drive motor, rotation axle rod no. 1, rotation axle rod no. 2, auger blade, rubbing blade can carry out the crushing treatment to the excrement, avoid the excrement in admixture with a large amount of solid sundries, cause the blockage of equipment, and under the effect of auger blade and flow guide hole, the excrement after rubbing is carried out dry and wet separation.
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Description

Technical Field

[0001] This utility model relates to the field of manure treatment technology, and in particular to a manure treatment device for livestock farms. Background Technology

[0002] Large-scale farming is the main source of meat in urban areas of my country. However, the large amount of livestock manure produced by farming has caused serious environmental problems. At the same time, since animal manure contains a lot of organic fertilizer that can be recycled or dried and used as fuel, it is necessary to separate the manure into dry and wet parts to reduce its weight and facilitate subsequent composting.

[0003] Currently, existing large-scale livestock and poultry farms lack dry-wet separation treatment for manure. Because manure contains a large amount of water and is highly fluid, dry-wet separation using methods like sun-drying requires a large area, is time-consuming, and is easily affected by weather. Therefore, those skilled in the art have provided a manure treatment device for livestock farms to solve the problems mentioned in the background section. Utility Model Content

[0004] To address the shortcomings of existing technologies, this utility model provides a manure treatment device for livestock farms, which solves the problems mentioned in the background technology, namely, the lack of dry-wet separation treatment for manure. Due to the large amount of water in the manure, the manure is highly fluid, and the dry-wet separation method using sun drying requires a large space, is time-consuming, and is easily affected by the weather.

[0005] To achieve the above objectives, this utility model is implemented through the following technical solution: a manure treatment device for livestock farms, comprising a storage tank, a separation tank fixed and connected to the left end of the outer top surface of the storage tank, a rotating shaft rotatably connected inside the separation tank, a spiral auger blade fixedly installed on the outside of the rotating shaft rotatably, a crushing box connected to the left end of the outer top surface of the separation tank through a sewage pipe, a rotating shaft rotatably installed symmetrically inside the crushing box, and crushing blades arranged in a cross linear array fixed on the outside of both rotating shafts rotatably; the rotating shaft rotatably and the two rotating shafts rotatably are rotatably connected to each other through a linkage assembly.

[0006] A recessed straight frame is fixedly installed on the right side of the outer top surface of the liquid storage tank. Several round holes are opened on the inner bottom surface of the straight frame. A symmetrical discharge port is opened on the right outer wall of the separation box. A compaction component is set on the right side of the outer top surface of the separation box and above the straight frame.

[0007] As a further technical solution of this utility model, the linkage component includes a drive motor fixedly installed on the left outer wall of the separation box, one end of the first rotating shaft extends to the left outer wall of the separation box and a pulley is fixedly installed on its outer peripheral surface, one end of the second rotating shaft extends to the right outer wall of the crushing box and a gear is fixedly installed on its outer peripheral surface, and the two gears are meshed together.

[0008] As a further technical solution of this utility model, the other end of the two rotating shafts extends to the left outer wall of the crushing box, and a pulley is fixedly installed on the outer circumferential surface of one of the rotating shafts. The pulleys are connected to each other by a transmission belt. The output end of the drive motor is fixedly connected to the rotating shaft.

[0009] As a further technical solution of this utility model, the compaction component includes a top plate fixedly installed on the right end of the outer top surface of the separation box. An automatic push rod is fixedly installed on the outer top surface of the top plate and above the straight frame. The output end of the automatic push rod extends to the outer bottom surface of the top plate and is fixedly installed with a pressure plate. Guide rods are fixed at both ends of the outer top surface of the pressure plate, and one end of the two guide rods slides to the outer top surface of the top plate.

[0010] As a further technical solution of this utility model, a feed pipe is fixedly and continuously connected to the outer top surface of the crushing box, and a drain pipe is fixedly and continuously connected to the left outer wall of the liquid storage tank.

[0011] As a further technical solution of this utility model, the inner bottom surface of the separation box is provided with guide holes distributed in a linear array.

[0012] This utility model provides a manure treatment device for livestock farms, which has the following advantages compared with the prior art:

[0013] 1. This design provides a manure treatment device for livestock farms. Through the coordinated operation of a drive motor, rotating shaft one, rotating shaft two, auger blades, and crushing blades, it can crush manure, preventing the manure from being mixed with a large amount of solid debris and causing equipment blockage. At the same time, under the action of the auger blades and guide holes, the crushed manure is separated into dry and wet parts, which facilitates subsequent zoned processing, improves the efficiency and effectiveness of the treatment, and thus enhances its practicality.

[0014] 2. This design provides a manure treatment device for livestock farms. Through the interaction of the top plate, electric push rod, and pressure plate, the manure after dry-wet separation can be compacted and the water in the manure can be squeezed out, thereby further improving the efficiency and effectiveness of dry-wet separation of manure. Attached Figure Description

[0015] Figure 1 A first three-dimensional structural schematic diagram of a manure treatment device for livestock farms;

[0016] Figure 2 A schematic diagram of the second three-dimensional structure of a manure treatment device for livestock farms;

[0017] Figure 3 A cross-sectional three-dimensional structural schematic diagram of a manure treatment device for livestock farms;

[0018] Figure 4 This is a three-dimensional structural diagram of the linkage component of a manure treatment device for livestock farms.

[0019] In the picture:

[0020] 101. Storage tank; 102. Separation box; 103. Rotating shaft one; 104. Screwdriver blade; 105. Drain pipe; 106. Crushing box; 107. Rotating shaft two; 108. Crushing blade; 109. Straight frame; 110. Round hole; 110. Impurity discharge port;

[0021] Linkage components; 201, drive motor; 202, pulley one; 203, gear; 204, pulley two; 205, transmission belt;

[0022] Compaction components; 301, top plate; 302, electric push rod; 303, pressure plate; 304, guide rod;

[0023] Feed pipe; 401 drain pipe;

[0024] Flow guide hole. Detailed Implementation

[0025] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present utility model. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. All other embodiments obtained by those skilled in the art based on the embodiments of the present utility model without creative effort are within the protection scope of the present utility model.

[0026] Please see Figure 1-4This utility model provides a technical solution for a manure treatment device for livestock farms: It includes a storage tank 1, a separation tank 101 fixedly and continuously connected to the left end of the outer top surface of the storage tank 1, a rotating shaft 102 rotatably connected inside the separation tank 101, and spiral auger blades 103 fixedly installed on the outside of the rotating shaft 102. A crushing tank 105 is continuously connected to the left end of the outer top surface of the separation tank 101 via a sewage pipe 104. A second rotating shaft 106 is symmetrically and rotatably installed inside the crushing tank 105. Crushing blades 107 arranged in a cross-linear array are fixedly installed on the outside of both rotating shafts 106. The first rotating shaft 102 and the two second rotating shafts 106 are rotatably connected to each other via a linkage assembly 2. The linkage assembly 2 includes a drive motor 201 fixedly installed on the left outer wall of the separation tank 101, and one end of the first rotating shaft 102 extends into the separation tank 101. On the left outer wall of 01, a pulley 202 is fixedly installed on its outer circumferential surface. One end of each of the two rotating shafts 106 extends to the right outer wall of the crushing box 105, and gears 203 are fixedly installed on their outer circumferential surfaces. The two gears 203 are meshed together. The other end of each of the two rotating shafts 106 extends to the left outer wall of the crushing box 105, and a pulley 204 is fixedly installed on the outer circumferential surface of one of the rotating shafts 106. The pulleys 202 and 204 are connected to each other by a transmission belt 205. The output end of the drive motor 201 is fixedly connected to the rotating shaft 102. A feed pipe 4 is fixedly and continuously connected to the top surface of the crushing box 105. A drain pipe 401 is fixedly and continuously connected to the left outer wall of the storage tank 1. A guide hole 5 distributed in a linear array is opened on the inner bottom surface of the separation box 101.

[0027] In operation, the feces are first injected into the crushing chamber 105 through the feed pipe 4. Then, the drive motor 201 is started to drive the rotating shaft 102 to rotate the pulley 202. Under the action of the transmission belt 205, the pulley 204 is driven to rotate, thereby causing one of the rotating shafts 106 to drive one of the gears 203 to rotate. Due to the meshing connection of the gears 203, the other rotating shaft 106 drives another gear 203 to rotate synchronously. This allows several crushing blades 107 to crush the feces, preventing the feces from being mixed with a large amount of solid debris (such as branches, scraps of paper, large pieces of feces, and various kinds of grass). Solid impurities such as residue can accumulate and cause blockages in the equipment. Then, the valve on the connecting pipe is opened to guide the crushed feces into the separation box 101. Simultaneously, the rotating shaft 102 drives the auger blades 103 to rotate, carrying the feces through the separation box 101 in an axial rotational motion. As the feces move towards the discharge port 110, the water mixed in flows along the guide hole 5 into the storage tank 1 and is discharged through the drain pipe 401. The separated feces are discharged along the discharge port 110, facilitating subsequent zoned processing as needed, improving processing efficiency and effectiveness, and enhancing practicality.

[0028] A recessed straight frame 108 is fixedly installed on the right end of the outer top surface of the liquid storage tank 1. Several round holes 109 are opened on the inner bottom surface of the straight frame 108. A symmetrical discharge port 110 is opened on the right outer wall of the separation tank 101. A compaction component 3 is provided on the right end of the outer top surface of the separation tank 101 and above the straight frame 108. The compaction component 3 includes a top plate 301 fixedly installed on the right end of the outer top surface of the separation tank 101. An electric push rod 302 is fixedly installed on the outer top surface of the top plate 301 and above the straight frame 108. The output end of the electric push rod 302 extends to the outer bottom surface of the top plate 301 and is fixedly installed with a pressure plate 303. Guide rods 304 are fixed at both ends of the outer top surface of the pressure plate 303. One end of the two guide rods 304 slides to the outer top surface of the top plate 301.

[0029] The separated feces fall into the straight frame 108. When the feces in the straight frame 108 are almost full, the drive motor 201 is turned off, and then the electric push rod 302 is started. With the assistance of the guide rod 304, the pressure plate 303 moves downward and squeezes the feces in the straight frame 108 to completely squeeze and separate the water in the feces, thereby further improving the efficiency and effect of dry and wet separation of feces. The squeezed water flows into the storage tank 1 along the round hole 109. At the same time, when the water falls into the storage tank 1, the drain pipe 401 is immediately opened to prevent the water from being stored too much and overflowing from the round hole 109, which would affect the separation effect. Then, the squeezed and separated feces are collected and processed according to actual needs.

[0030] The working principle of this utility model is as follows: When in use, the feces are first injected into the crushing box 105 along the feed pipe 4. Then, the drive motor 201 is started to drive the rotating shaft 102 and the rotating shaft 106 to rotate synchronously. Under the meshing connection of the gear 203, the two rotating shafts 106 drive several crushing blades 107 to crush the feces, avoiding the accumulation of a large amount of solid debris in the feces and the blockage of the equipment. Afterwards, the crushed feces are introduced into the separation box 101 through the connecting pipe.

[0031] At the same time, the rotating shaft 102 drives the auger blade 103 to rotate, and carries the feces to rotate axially inside the separation box 101. As the feces move towards the discharge port 110, the water mixed in flows into the storage tank 1 along the guide hole 5, while the separated feces are discharged along the discharge port 110.

[0032] At the same time, the drain pipe 401 is opened to drain the water in the storage tank 1, while the feces discharged from the discharge port 110 fall into the straight frame 108. When the feces in the straight frame 108 are almost full, the drive motor 201 is turned off, the electric push rod 302 is started, and the pressure plate 303 is moved downward to squeeze the feces in the straight frame 108, so that the water in the feces is completely squeezed and separated. The squeezed water flows into the storage tank 1 along the round hole 109.

[0033] Finally, the excrement separated by squeezing within the straight frame 108 can be collected and processed according to actual needs.

[0034] The above description is merely a preferred embodiment of this utility model. It should be noted that those skilled in the art can make various improvements and modifications without departing from the principles of this utility model, and these improvements and modifications should also be considered within the scope of protection of this utility model. Structures, devices, and operating methods not specifically described or explained in this utility model are implemented according to conventional methods in the art, unless otherwise specified or limited.

Claims

1. A manure treatment device for livestock farms, characterized in that, The system includes a storage tank (1), a separation tank (101) fixed and connected to the left end of the outer top surface of the storage tank (1), a rotating shaft (102) rotatably connected inside the separation tank (101), a spiral auger blade (103) fixedly installed on the outside of the rotating shaft (102), a crushing tank (105) rotatably connected to the left end of the outer top surface of the separation tank (101) through a drain pipe (104), a rotating shaft (106) symmetrically rotatably installed inside the crushing tank (105), and crushing blades (107) arranged in a cross linear array fixed on the outside of both rotating shafts (106). The rotating shaft (102) and the two rotating shafts (106) are rotatably connected to each other through a linkage assembly (2). A recessed straight frame (108) is fixedly installed on the right side of the outer top surface of the liquid storage tank (1). Several round holes (109) are opened on the inner bottom surface of the straight frame (108). A symmetrical discharge port (110) is opened on the right outer wall of the separation tank (101). A compaction component (3) is set on the right side of the outer top surface of the separation tank (101) and above the straight frame (108).

2. The manure treatment device for livestock farms according to claim 1, characterized in that, The linkage component (2) includes a drive motor (201) fixedly installed on the left outer wall of the separation box (101), one end of the first rotating shaft (102) extends to the left outer wall of the separation box (101), and a pulley (202) is fixedly installed on its outer peripheral surface. One end of each of the two second rotating shafts (106) extends to the right outer wall of the crushing box (105), and a gear (203) is fixedly installed on its outer peripheral surface. The two gears (203) are meshed together.

3. The manure treatment device for livestock farms according to claim 2, characterized in that, The other end of the two rotating shafts (106) extends to the left outer wall of the crushing box (105), and a pulley (204) is fixedly installed on the outer peripheral surface of one of the rotating shafts (106). The pulleys (202) and (204) are rotatably connected to each other by a transmission belt (205). The output end of the drive motor (201) is fixedly connected to the rotating shaft (102).

4. The manure treatment device for livestock farms according to claim 1, characterized in that, The compaction assembly (3) includes a top plate (301) fixedly installed on the right end of the outer top surface of the separation box (101). An electric push rod (302) is fixedly installed on the outer top surface of the top plate (301) and above the straight frame (108). The output end of the electric push rod (302) extends to the outer bottom surface of the top plate (301) and is fixedly installed with a pressure plate (303). Guide rods (304) are fixed at both ends of the outer top surface of the pressure plate (303). One end of the two guide rods (304) slides to the outer top surface of the top plate (301).

5. A manure treatment device for livestock farms according to claim 4, characterized in that, The outer top surface of the crushing box (105) is fixed and connected to the feed pipe (4), and the left outer wall of the liquid storage tank (1) is fixed and connected to the drain pipe (401).

6. The manure treatment device for livestock farms according to claim 1, characterized in that, The inner bottom surface of the separation box (101) is provided with guide holes (5) arranged in a linear array.