Filtering device for processing donkey bone powder
By introducing a push rod motor and a solid particle pump into the donkey bone powder processing device, the problem of filter clogging caused by the accumulation of large donkey bone particles was solved, realizing automated screening and secondary grinding of donkey bone powder and improving the efficiency of the device.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHANDONG DONGE DONGSHENG EJIAO PROD TECH DEV CO LTD
- Filing Date
- 2025-07-11
- Publication Date
- 2026-06-16
AI Technical Summary
In existing donkey bone powder processing equipment, large particles of donkey bone tend to accumulate above the filter screen, causing the filter screen to become clogged, which affects the movement of powder and the effectiveness of the equipment.
A filtration device was designed, comprising a filter layer, a solid particle pump, a push rod motor, and a moving frame. The push rod motor drives the moving frame to collect large donkey bone particles and send them into the secondary grinding zone. The solid particle pump then sends unqualified particles back into the grinding zone, thus avoiding manual cleaning of the filter screen.
It enables the automatic collection and re-grinding of large donkey bone particles, avoids filter clogging, and improves the effectiveness and efficiency of the device.
Smart Images

Figure CN224358543U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of donkey bone powder processing technology, specifically to a filtration device for donkey bone powder processing. Background Technology
[0002] Donkey bone powder is a powdery substance made from processed and ground donkey bones. It has wide applications in traditional medicine and the food industry. During the grinding process, particles of varying sizes are produced, necessitating filtration and screening.
[0003] Existing filtration devices involve crushing donkey bones into small pieces in a crusher, grinding the small pieces into powder, and then filtering the powder through a filter screen to obtain the final product, donkey bone powder. However, during the filtering process, large particles of the donkey bone powder tend to remain on the top of the filter screen, making it difficult for operators to clean them in time, resulting in the accumulation of large donkey bone particles.
[0004] The aforementioned filtration device suffers from reduced effectiveness because operators struggle to remove large donkey bone particles in a timely manner. These particles easily clog the filter screen, hindering powder movement. Utility Model Content
[0005] This invention proposes a filtration device for processing donkey bone powder, which solves the problem in the prior art where large particles of donkey bone easily accumulate on the top of the filter screen and cause blockage.
[0006] The technical solution of this utility model is as follows: A filtration device for processing donkey bone powder, comprising a processing box, and further comprising:
[0007] The filter layer is installed inside the processing box. A solid particle pump is installed on the upper surface of the processing box. The output and input ends of the solid particle pump are respectively equipped with a discharge pipe and a feed pipe. The bottom end of the discharge pipe is connected to the upper surface of the processing box. The outer surface of the feed pipe penetrates the interior of the processing box. The push rod motor is installed on the back of the processing box. The output end of the push rod motor penetrates the interior of the processing box. A movable frame is installed on the output end of the push rod motor. The movable frame is slidably connected to the processing box. The inclined plate is installed on the upper surface of the movable frame. The outer surface of the feed pipe penetrates the interior of the inclined plate and the movable frame from top to bottom. The bottom end of the feed pipe is connected to a collection frame. A blocking layer is provided inside the movable frame. An inclined bar is installed on the front of the movable frame. An auxiliary rod passes through the interior of the inclined bar.
[0008] As a preferred embodiment of the filter device for processing donkey bone powder according to the present invention, in order to facilitate the rotation of the transmission rod by the transmission motor, the upper surface of the processing box is equipped with a transmission motor, and the transmission rod is rotatably connected inside the processing box.
[0009] In a preferred embodiment of the filter device for processing donkey bone powder according to this utility model, in order to better crush the donkey bones, the output end of the drive motor is keyed to the top of the drive rod, and a crushing blade is installed on the outer surface of the drive rod.
[0010] In a preferred embodiment of the filter device for processing donkey bone powder according to the present invention, in order to better grind the donkey bones, a grinding block is installed inside the processing box, and a grinding column is installed at the bottom end of the transmission rod.
[0011] As a preferred embodiment of the filter device for processing donkey bone powder according to the present invention, in order to improve the grinding efficiency of the device, a grinding groove is provided inside the grinding block, the grinding column is arranged inside the grinding groove, and a feed pipe is connected to the upper surface of the processing box.
[0012] As a preferred embodiment of the filter device for processing donkey bone powder according to the present invention, in order to better block the donkey bone powder, a baffle plate is slidably connected inside the processing box, a movable handle is installed on the front of the baffle plate, a fixing pin is passed through the outer side of the processing box, and one end of the fixing pin is threaded through the inside of the baffle plate inside the processing box.
[0013] The working principle and beneficial effects of this utility model are as follows:
[0014] In this invention, a push rod motor drives a moving frame forward, allowing the frame to collect large donkey bone particles. Compared to the accumulation of unqualified donkey bones after screening in existing technologies, this device can collect donkey bones that need to be re-ground, avoiding the inconvenience to operators in cleaning up in a timely manner and affecting the normal use of the filter screen.
[0015] In this invention, donkey bones are sucked into the collection frame by a solid particle pump, and then the discharge pipe sends the collected donkey bones back into the grinding zone for secondary grinding. Compared with the prior art where donkey bones need to be cleaned and removed by operators, this device can directly collect unqualified donkey bones for re-grinding, thus improving the effectiveness of the device. Attached Figure Description
[0016] The present invention will now be described in further detail with reference to the accompanying drawings and specific embodiments.
[0017] Figure 1 This is a schematic diagram of the overall structure of this utility model;
[0018] Figure 2 This is a vertical sectional view of the overall structure of this utility model;
[0019] Figure 3 This is an exploded view of the meshing structure of the drive motor and the drive rod in this utility model;
[0020] Figure 4 This is a schematic diagram of the cooperative structure of the push rod motor and the moving block in this utility model.
[0021] In the diagram: 1. Processing box; 2. Filter layer; 3. Solid particle pump; 4. Discharge pipe; 5. Feed pipe; 6. Push rod motor; 7. Moving frame; 8. Inclined plate; 9. Collection frame; 10. Barrier layer; 11. Inclined bar; 12. Auxiliary rod; 13. Drive motor; 14. Drive rod; 15. Crushing blade; 16. Grinding block; 17. Grinding column; 18. Feed pipe; 19. Barrier plate; 20. Moving handle; 21. Fixing pin. Detailed Implementation
[0022] The technical solutions of this utility model will be clearly and completely described below with reference to the embodiments of this utility model. Obviously, the described embodiments are only some embodiments of this utility model, and not all embodiments. Based on the embodiments of this utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the scope of protection of this utility model.
[0023] like Figures 1-4 As shown, this embodiment proposes a filtration device for processing donkey bone powder, including a processing box 1, a filter layer 2, a solid particle pump 3, a discharge pipe 4, a feed pipe 5, a push rod motor 6, a moving frame 7, an inclined plate 8, a collection frame 9, a blocking layer 10, an inclined bar 11, and an auxiliary rod 12.
[0024] like Figure 2 and Figure 4As shown, filter layer 2 is installed inside processing box 1. A solid particle pump 3 is installed on the upper surface of processing box 1. The solid particle pump 3 sends large particles through collection frame 9 into material pipe 5, and then discharges them through discharge pipe 4 for secondary grinding. It should be noted that the solid particle pump 3 is a common solid particle material conveying pump on the market. The output and input ends of the solid particle pump 3 are respectively equipped with discharge pipe 4 and inlet pipe 5. Inlet pipe 5 is a folded flexible hose. The bottom end of discharge pipe 4 is connected to the upper surface of processing box 1, and the outer surface of inlet pipe 5 penetrates the interior of processing box 1. Push rod motor 6 is installed on the back of processing box 1. The output end of push rod motor 6 penetrates the interior of processing box 1. The forward movement of the output end of push rod motor 6 drives the moving frame 7 forward. With auxiliary... Rod 12 disperses the accumulated large particles to both sides, and then the inclined bar 11 scoops up the large particles and sends them into the moving frame 7. The barrier layer 10 performs secondary screening on the scooped-in large particles to prevent donkey bone powder from being scooped into the moving frame 7. It should be noted that both the barrier layer 10 and the filter layer 2 are equipped with filter screens. The output end of the push rod motor 6 is equipped with the moving frame 7. The moving frame 7 is slidably connected to the processing box 1. The inclined plate 8 is installed on the upper surface of the moving frame 7. The outer surface of the feed pipe 5 runs through the interior of the inclined plate 8 and the moving frame 7 from top to bottom. The bottom end of the feed pipe 5 is connected to the collection frame 9. The moving frame 7 is equipped with a barrier layer 10. The inclined bar 11 is installed on the front of the moving frame 7. An auxiliary rod 12 passes through the interior of the inclined bar 11.
[0025] like Figure 3 As shown, a drive motor 13 is installed on the upper surface of the processing box 1. A drive rod 14 is rotatably connected inside the processing box 1. The output end of the drive motor 13 is keyed to the top of the drive rod 14. A crushing blade 15 is installed on the outer surface of the drive rod 14. The rotation of the output end of the drive motor 13 drives the drive rod 14 to rotate, which in turn drives the crushing blade 15 to rotate, crushing the donkey bone. The crushed particles enter the grinding tank. The rotation of the drive rod 14 drives the grinding column 17 to rotate, so that the grinding column 17 cooperates with the grinding block 16 to grind the donkey bone particles. It should be noted that the donkey bone put into the processing box 1 by the operator is a crushed one. After the bone blocks are crushed by the crushing blade 15, they become donkey bone particles. After being ground by the grinding column 17, they become donkey bone powder. The large donkey bone particles that fall above the filter layer 2 are larger than the donkey bone powder, not the large particles before grinding. Because there is a gap between the grinding column 17 and the grinding block 16 to facilitate particle entry, some particles can easily slide directly along the gap, thus requiring secondary grinding. The processing box 1 is equipped with the grinding block 16, and the bottom end of the transmission rod 14 is equipped with the grinding column 17. The grinding block 16 has a grinding groove inside, and the grinding column 17 is set inside the grinding groove. The upper surface of the processing box 1 is connected to the feed pipe 18.
[0026] like Figure 1As shown, a baffle plate 19 is slidably connected inside the processing box 1. A movable handle 20 is installed on the front of the baffle plate 19. A fixing pin 21 passes through the outer side of the processing box 1. One end of the fixing pin 21 passes through the processing box 1 and is threaded inside the baffle plate 19. By manipulating the movable handle 20, the baffle plate 19 is slid into the processing box 1. The fixing pin 21 is then inserted into the baffle plate 19 through the processing box 1. The fixing pin 21 is then rotated clockwise to fix the baffle plate 19 inside the processing box 1.
[0027] In this embodiment, the donkey bone blocks crushed by an external crusher are fed into the processing box 1 along the feed pipe 18. The drive motor 13 is started, and the output end of the drive motor 13 rotates, which drives the drive rod 14 to rotate. The rotation of the drive rod 14 drives the crushing blade 15 to rotate, and the rotation of the crushing blade 15 crushes the donkey bone blocks. The rotation of the drive rod 14 drives the grinding column 17 to rotate. The grinding column 17, together with the grinding block 16, grinds the donkey bone entering the grinding tank. The ground donkey bone powder passes through the filter layer 2, which blocks the donkey bone particles (large particles) it carries, and the donkey bone powder falls to the bottom of the processing box 1.
[0028] When donkey bone particles accumulate, push rod motor 6 is started. The output end of push rod motor 6 moves forward, driving moving frame 7 to move forward. Moving frame 7 moves forward, driving tilt bar 11 to move forward. Moving tilt bar 11 moves forward, driving auxiliary rod 12 to move forward. Auxiliary rod 12 moves forward to disperse the accumulated particles. The particles are collected into moving frame 7 by tilt bar 11 and then screened a second time by blocking layer 10. Solid particle pump 3 is started. The output end of solid particle pump 3 sends particles into material pipe 5 through collection frame 9 and then into top of processing box 1 through discharge pipe 4 for secondary grinding, so that unqualified particles can be collected and re-ground.
[0029] After grinding is complete, loosen the fixing pin 21 counterclockwise, operate the moving handle 20 to slide the baffle plate 19 into the processing box 1, and take out the donkey bone powder.
[0030] The above are merely preferred embodiments of the present utility model and are not intended to limit the present utility model. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present utility model shall be included within the protection scope of the present utility model.
Claims
1. A filtration device for processing donkey bone powder, comprising a processing chamber (1), characterized in that, Also includes: A filter layer (2) is installed inside the processing box (1). A solid particle pump (3) is installed on the upper surface of the processing box (1). A discharge pipe (4) and a feed pipe (5) are installed at the output and input ends of the solid particle pump (3), respectively. The bottom end of the discharge pipe (4) is connected to the upper surface of the processing box (1), and the outer surface of the feed pipe (5) penetrates the interior of the processing box (1). A push rod motor (6) is installed on the back of the processing box (1). The output end of the push rod motor (6) passes through the processing box (1). A movable frame (7) is installed on the output end of the push rod motor (6). The movable frame (7) is slidably connected to the processing box (1). An inclined plate (8) is installed on the upper surface of the moving frame (7). The outer surface of the feed pipe (5) passes through the interior of the inclined plate (8) and the moving frame (7) from top to bottom. The bottom end of the feed pipe (5) is connected to a collection frame (9). A barrier layer (10) is provided inside the moving frame (7). An inclined bar (11) is installed on the front of the movable frame (7), and an auxiliary rod (12) is inserted inside the inclined bar (11).
2. The filtration device for processing donkey bone powder according to claim 1, characterized in that, A drive motor (13) is installed on the upper surface of the processing box (1), and a drive rod (14) is rotatably connected inside the processing box (1).
3. The filtration device for processing donkey bone powder according to claim 2, characterized in that, The output end of the drive motor (13) is keyed to the top of the drive rod (14), and the outer surface of the drive rod (14) is equipped with a crushing blade (15).
4. The filtration device for processing donkey bone powder according to claim 3, characterized in that, The processing box (1) is equipped with a grinding block (16), and the bottom end of the transmission rod (14) is equipped with a grinding column (17).
5. The filtration device for processing donkey bone powder according to claim 4, characterized in that, The grinding block (16) has a grinding groove inside, the grinding column (17) is disposed inside the grinding groove, and the upper surface of the processing box (1) is connected to the feed pipe (18).
6. The filtration device for processing donkey bone powder according to claim 1, characterized in that, The processing box (1) is slidably connected to a baffle plate (19). A movable handle (20) is installed on the front of the baffle plate (19). A fixing pin (21) passes through the outer side of the processing box (1). One end of the fixing pin (21) passes through the processing box (1) and is threaded inside the baffle plate (19).