A multi-deck, multi-pass, feed processing screening apparatus

By introducing a micro-motor driven conveyor belt and brush system into the multi-layer screening equipment, the problems of screen clogging and difficulty in discharging feed after screening are solved, achieving efficient screening and classification collection.

CN224346304UActive Publication Date: 2026-06-12BEIJING YAHE NUTRITIVE HIGH TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
BEIJING YAHE NUTRITIVE HIGH TECH CO LTD
Filing Date
2025-04-16
Publication Date
2026-06-12

AI Technical Summary

Technical Problem

In existing multi-layer screening feed processing equipment, the screens are prone to clogging and the screened feed is not easily swept to the discharge port quickly, resulting in limited screening speed.

Method used

The conveyor belt, shaft, roller and belt system driven by a micro motor quickly cleans the screening holes with a brush to ensure smooth feed discharge.

Benefits of technology

It improves screening efficiency, reduces the probability of screening hole clogging, and enhances the working efficiency of the equipment.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a kind of multi-layer screening's feed processing screening equipment, it is related to feed processing equipment field, including box, pillar and ground, further include: feeding assembly, set in the box, for adding feed to equipment;Driving assembly, set in the box, for providing power for screening work;Screening assembly, set in the driving assembly, for screening feed;Cleaning assembly, set in the screening assembly;Loading assembly, set in the box, for loading well-screened feed;Through the setting of micro motor, conveyer belt, shaft, rotating roller, belt and brush, first utilize micro motor to provide power, then utilize the connecting relationship between conveyer belt, shaft, rotating roller, belt to transmit power to brush, so that brush can quickly sweep the feed not through screening hole to discharge port, further reduce the probability that feed blocks screening hole, and then improve the work efficiency of equipment screening feed.
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Description

Technical Field

[0001] This utility model relates to the field of feed processing equipment, and in particular to a multi-layer screening feed processing sieving device. Background Technology

[0002] Multi-layer screening feed processing screening equipment is a device used for feed screening and grading in the feed processing process. It separates raw materials through different screen layers and classifies them according to particle size to obtain feed particles that meet the requirements, in order to prepare and distinguish feed mixtures of different sizes.

[0003] The existing Chinese patent with authorization announcement number CN222287822U discloses a multi-layer screening device for feed formulation. Its technical problem is that the screen is prone to clogging during screening, making it inconvenient to classify and collect the screened feed. Its technical solution is as follows: A multi-layer screening device for feed formulation includes a support assembly; it also includes a first storage box assembly, a stirring assembly, a first filter assembly, a second filter assembly, and a splash-proof assembly. This solution involves placing the feed into the inner wall of the second stirring tank, turning on the first motor to rotate the first stirring blades over the feed in the second stirring tank, and simultaneously, the first brush on the first stirring blades clears the first filter holes on the second stirring tank. After the feed has been screened by rolling on the inner wall of the stirring tank, the electronic valve is opened, allowing the screened feed to flow into its respective loading bins through different conduits via the rotation of the stirring blades, thus solving the problem of inconvenient classification and collection of the screened feed.

[0004] The above equipment also has shortcomings. Although the equipment is equipped with brushes on the mixing blades, which can carry the feed away from the screening holes and prevent the screening holes from being blocked, the brushes can only move in a circle along the mixing column together with the mixing blades. They cannot quickly sweep the feed to the discharge port, thus limiting the screening speed of the equipment. Utility Model Content

[0005] In view of the shortcomings of the existing technology, the purpose of this utility model is to provide a multi-layer screening feed processing screening device, which aims to solve the technical problem that the above-mentioned devices cannot quickly sweep the feed to the discharge port.

[0006] To achieve the above objectives, the present invention adopts the following technical solution:

[0007] A multi-layer screening feed processing screening device includes a housing, support columns, and further includes:

[0008] A feeding assembly, mounted on the housing, is used to add feed to the equipment;

[0009] A drive assembly, mounted on the housing, is used to provide power for the screening process;

[0010] A screening component, disposed on the drive component, is used for screening feed;

[0011] A cleanup component is set on the filter component;

[0012] A loading assembly, located on the box, is used to load the screened feed.

[0013] Preferably, the feeding assembly includes:

[0014] A feed inlet is provided on the housing and is fixedly connected to the housing;

[0015] A feeding trough is provided on the box body, and the feeding trough is fixedly connected to the box body;

[0016] The first material collection port is located on the box body and is fixedly connected to the box body.

[0017] Preferably, the driving component includes:

[0018] A drive motor is mounted on the housing and is fixedly connected to the housing;

[0019] A drive shaft is mounted on the output shaft of the drive motor, and the drive shaft is fixedly connected to the output shaft of the drive motor.

[0020] Preferably, the filtering component includes:

[0021] A first screening chamber is disposed on the housing, and the first screening chamber is fixedly connected to the housing.

[0022] A first screening hole is disposed on the first screening cavity, and the first screening hole is fixedly connected to the first screening cavity;

[0023] A second screening chamber is disposed on the housing and is fixedly connected to the housing.

[0024] The second material collection port is disposed on the second screening chamber and is fixedly connected to the second screening chamber;

[0025] The second screening hole is disposed on the second screening cavity, and the second screening hole is fixedly connected to the second screening cavity;

[0026] Screening blades are mounted on the drive shaft, and the screening blades are fixedly connected to the drive shaft;

[0027] An installation groove is provided on the screening blade, and the installation groove is fixedly connected to the screening blade.

[0028] Preferably, the cleaning component includes:

[0029] A miniature motor is mounted on the mounting slot, and the miniature motor is fixedly connected to the mounting slot.

[0030] A conveyor belt is mounted on the output shaft of the micro motor, and the conveyor belt is tactilely connected to the output shaft of the micro motor;

[0031] A rotating shaft is disposed on the mounting groove, the rotating shaft is rotatably connected to the mounting groove, and the rotating shaft is tactilely connected to the conveyor belt;

[0032] A rotating roller is mounted on the rotating shaft, and the rotating roller is fixedly connected to the rotating shaft;

[0033] A belt is mounted on the rotating roller, and the belt is rotatably connected to the rotating roller;

[0034] A brush is mounted on the belt and is fixedly connected to the belt.

[0035] Preferably, the loading assembly includes:

[0036] A first discharge port is provided on the first screening chamber, and the first discharge port is fixedly connected to the first screening chamber;

[0037] A first discharge pipe is disposed on the first discharge port, and the first discharge pipe is fixedly connected to the first discharge port;

[0038] A first fixing frame is disposed on the box body and is fixedly connected to the box body;

[0039] The first material box is disposed on the first fixed frame, and the first material box is detachably connected to the first fixed frame.

[0040] The second discharge port is disposed on the second screening chamber and is fixedly connected to the second screening chamber;

[0041] The second discharge pipe is disposed on the second discharge port and is fixedly connected to the second discharge port;

[0042] A second fixing frame is disposed on the box body and is fixedly connected to the box body;

[0043] The second loading box is disposed on the second fixed frame, and the second loading box is detachably connected to the second fixed frame;

[0044] A discharge chamber is provided on the box body, and the discharge chamber is fixedly connected to the box body;

[0045] A fixed bracket is installed on the ground, and the fixed bracket is in contact with and connected to the ground.

[0046] The third loading box is mounted on the fixed bracket, and the third loading box is detachably connected to the fixed bracket.

[0047] In summary, due to the adoption of the above technical solution, the beneficial effects of this utility model are:

[0048] By using a micro motor, conveyor belt, rotating shaft, rotating roller, belt and brush, the micro motor provides power first, and then the connection between the conveyor belt, rotating shaft, rotating roller and belt is used to transmit the power to the brush, so that the brush can quickly sweep the feed that has not passed through the screening hole to the discharge port, further reducing the probability of feed clogging the screening hole, and thus improving the working efficiency of the equipment in screening feed. Attached Figure Description

[0049] To more clearly illustrate the technical solutions of the embodiments of this utility model, the drawings used in the description of the embodiments will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0050] Figure 1 A three-dimensional structural schematic diagram of a multi-layer screening feed processing screening device is shown.

[0051] Figure 2 A first cross-sectional view of a multi-layer screening feed processing screening device is shown.

[0052] Figure 3 It shows Figure 2 A magnified view of part A in the diagram.

[0053] Figure 4 A second cross-sectional view of a multi-layer screening feed processing sieve is shown.

[0054] Figure 5 A third cross-sectional view of a multi-layer screening feed processing sieve is shown.

[0055] Legend:

[0056] 1. Box body; 2. Support column; 3. Mounting slot; 4. Micro motor; 5. Conveyor belt; 6. Rotating shaft; 7. Rotating roller; 8. Belt; 9. Brush; 10. Feed inlet; 11. Feed trough; 12. First material gathering port; 13. Drive motor; 14. Transmission shaft; 15. First screening chamber; 16. First screening hole; 17. Second screening chamber; 18. Second material gathering port; 19. Second screening hole; 20. Screening blade; 21. First discharge port; 22. First discharge pipe; 23. First fixing frame; 24. First loading box; 25. Second discharge port; 26. Second discharge pipe; 27. Second fixing frame; 28. Second loading box; 29. ​​Discharge chamber; 30. Fixed bracket; 31. Third loading box; 32. Ground. Detailed Implementation

[0057] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those skilled in the art without creative effort are within the protection scope of the present utility model.

[0058] In the description of this utility model, it should be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this utility model.

[0059] It should be noted that when a component is described as "fixed to" another component, it can be directly on the other component or may have a component in between. When a component is considered "connected to" another component, it can be directly connected to the other component or may have a component in between. When a component is considered "set on" another component, it can be directly set on the other component or may have a component in between. The terms "vertical," "horizontal," "left," "right," and similar expressions used in this document are for illustrative purposes only.

[0060] Furthermore, the terms "first" and "second" are used for descriptive purposes only and should not be construed as indicating or implying relative importance or implicitly specifying the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of this utility model, "a plurality of" means two or more, unless otherwise explicitly specified.

[0061] Reference Figures 1 to 5 The present invention provides a further description of an embodiment of a multi-layer screening feed processing screening device.

[0062] A multi-layer screening feed processing screening device includes a housing 1, support columns 2, and further includes:

[0063] A feeding assembly, disposed on the housing 1, is used to add feed to the equipment. The feeding assembly includes:

[0064] A feed inlet 10 is provided on the housing 1, and the feed inlet 10 is fixedly connected to the housing 1;

[0065] A feeding trough 11 is disposed on the box body 1, and the feeding trough 11 is fixedly connected to the box body 1;

[0066] The first material collection port 12 is disposed on the box body 1 and is fixedly connected to the box body 1.

[0067] Feed is poured into the feed trough 11 through the feed inlet 10, and then gradually enters the first feed collection port 12 through the feed trough 11, and finally gradually enters the first screening chamber 15 through the first feed collection port 12.

[0068] A drive assembly, disposed on the housing 1, is used to provide power for the screening operation. The drive assembly includes:

[0069] A drive motor 13 is mounted on the housing 1 and is fixedly connected to the housing 1.

[0070] A drive shaft 14 is mounted on the output shaft of the drive motor 13, and the drive shaft 14 is fixedly connected to the output shaft of the drive motor 13.

[0071] Start the drive motor 13. The output shaft of the drive motor 13 rotates, which drives the transmission shaft 14, which is fixedly connected to the output shaft of the drive motor 13, to rotate, which facilitates subsequent work.

[0072] Reference Figures 1 to 5 A screening component, disposed on the drive component, is used for screening feed. The screening component includes:

[0073] A first screening chamber 15 is disposed on the housing 1, and the first screening chamber 15 is fixedly connected to the housing 1.

[0074] A first screening hole 16 is disposed on the first screening cavity 15, and the first screening hole 16 is fixedly connected to the first screening cavity 15.

[0075] The second screening chamber 17 is disposed on the housing 1 and is fixedly connected to the housing 1.

[0076] The second material collection port 18 is disposed on the second screening chamber 17, and the second material collection port 18 is fixedly connected to the second screening chamber 17.

[0077] The second screening hole 19 is disposed on the second screening cavity 17, and the second screening hole 19 is fixedly connected to the second screening cavity 17.

[0078] Screening blades 20 are mounted on the drive shaft 14 and are fixedly connected to the drive shaft 14.

[0079] The mounting groove 3 is disposed on the screening blade 20, and the mounting groove 3 is fixedly connected to the screening blade 20.

[0080] The rotation of the drive shaft 14 drives the screening blades 20, which are fixedly connected to the drive shaft 14, to rotate. The rotation of the screening blades 20 drives the cleaning components set on the screening blades 20 to rotate, cleaning the first screening hole 16 and the second screening hole 19 respectively, so that the feed can quickly flow from the first screening hole 16 and the second screening hole 19 into the second screening chamber 17 and the discharge chamber 29 respectively.

[0081] Reference Figures 1 to 5 A cleanup component is configured on the filtering component, and the cleanup component includes:

[0082] A micro motor 4 is disposed on the mounting slot 3, and the micro motor 4 is fixedly connected to the mounting slot 3;

[0083] Conveyor belt 5 is mounted on the output shaft of the micro motor 4, and the conveyor belt 5 is tumbledly connected to the output shaft of the micro motor 4;

[0084] A rotating shaft 6 is disposed on the mounting groove 3, the rotating shaft 6 is rotatably connected to the mounting groove 3, and the rotating shaft 6 is tumbledly connected to the conveyor belt 5;

[0085] A rotating roller 7 is disposed on the rotating shaft 6, and the rotating roller 7 is fixedly connected to the rotating shaft 6;

[0086] A belt 8 is mounted on the rotating roller 7, and the belt 8 is tactilely connected to the rotating roller 7;

[0087] A brush 9 is mounted on the belt 8 and is fixedly connected to the belt 8.

[0088] In order to improve the screening efficiency, the micro motor 4 is started. The output shaft of the micro motor 4 rotates, which drives the conveyor belt 5 to rotate, thereby driving the rotating shaft 6 to rotate. The rotating shaft 6 rotates, which drives the rotating roller 7 to rotate, thereby driving the belt 8 to rotate. The rotating belt 8 drives the brush 9 to move away from the transmission shaft 14.

[0089] By configuring the micro motor 4, the conveyor belt 5, the rotating shaft 6, the rotating roller 7, the belt 8, and the brush 9, the micro motor 4 first provides power, and then the connection between the conveyor belt 5, the rotating shaft 6, the rotating roller 7, and the belt 8 transmits the power to the brush 9, enabling the brush 9 to quickly sweep the feed that has not passed through the screening holes to the discharge port, further reducing the probability of feed clogging the screening holes, and thus improving the efficiency of the equipment in screening feed.

[0090] Reference Figures 1 to 5 A loading assembly, disposed on the housing 1, is used to load the screened feed. The loading assembly includes:

[0091] The first discharge port 21 is disposed on the first screening chamber 15, and the first discharge port 21 is fixedly connected to the first screening chamber 15.

[0092] The first discharge pipe 22 is disposed on the first discharge port 21, and the first discharge pipe 22 is fixedly connected to the first discharge port 21.

[0093] A first fixing frame 23 is disposed on the box body 1, and the first fixing frame 23 is fixedly connected to the box body 1;

[0094] The first loading box 24 is disposed on the first fixed frame 23, and the first loading box 24 is detachably connected to the first fixed frame 23.

[0095] The second discharge port 25 is disposed on the second screening chamber 17, and the second discharge port 25 is fixedly connected to the second screening chamber 17.

[0096] The second discharge pipe 26 is disposed on the second discharge port 25, and the second discharge pipe 26 is fixedly connected to the second discharge port 25.

[0097] The second fixing frame 27 is disposed on the box body 1 and is fixedly connected to the box body 1;

[0098] The second loading box 28 is disposed on the second fixed frame 27, and the second loading box 28 is detachably connected to the second fixed frame 27.

[0099] The discharge chamber 29 is disposed on the box body 1 and is fixedly connected to the box body 1;

[0100] A fixed bracket 30 is disposed on the ground 32, and the fixed bracket 30 is in contact with the ground 32.

[0101] The third loading box 31 is disposed on the fixed bracket 30, and the third loading box 31 is detachably connected to the fixed bracket 30.

[0102] Feed that has not passed through the first screening hole 16 and the second screening hole 19 enters the first discharge port 21 and the second discharge port 25 respectively. The feed then enters the first discharge pipe 22 and the second discharge pipe 26 respectively. Finally, the feed enters the first loading box 24 and the second loading box 28 through the first discharge pipe 22 and the second discharge pipe 26 respectively to complete the screening. The feed that flows into the discharge chamber 29 then flows into the third loading box 31.

[0103] Working principle: Refer to Figures 1 to 5 Feed is poured into the feed trough 11 through the feed inlet 10. The feed then gradually enters the first collection port 12 through the feed trough 11 and finally enters the first screening chamber 15 through the first collection port 12. The drive motor 13 is started, and the output shaft of the drive motor 13 rotates, which drives the transmission shaft 14 fixedly connected to the output shaft of the drive motor 13 to rotate. This drives the screening blades 20 fixedly connected to the transmission shaft 14 to rotate. The rotation of the screening blades 20 drives the cleaning components set on the screening blades 20 to rotate, cleaning the first screening hole 16 and the second screening hole 19 respectively, so that the feed can quickly flow into the second screening chamber 17 and the discharge chamber 29 from the first screening hole 16 and the second screening hole 19 respectively. The feed flowing into the discharge chamber 29 then flows into the third loading box 31.

[0104] Reference Figures 1 to 5 To improve screening efficiency, the micro motor 4 is activated. The output shaft of the micro motor 4 rotates, driving the conveyor belt 5, which is tumbled to the output shaft of the micro motor 4, to rotate. This, in turn, drives the rotating shaft 6, which is tumbled to the rotating shaft 5, to rotate. The rotating shaft 6, which is fixedly connected to the rotating shaft 6, drives the rotating roller 7, which is tumbled to the rotating roller 7, to rotate. The rotating belt 8, which is tumbled to the rotating belt 7, drives the brush 9, which is fixedly connected to the belt 8, to move away from the drive shaft 14. The movement of the brush 9 away from the drive shaft 14 drives the feed that has not passed through the first screening hole 16 and the second screening hole 19 to move, until the feed that has not passed through the first screening hole 16 and the second screening hole 19 enters the first discharge port 21 and the second discharge port 25, respectively. The feed then enters the first discharge pipe 22 and the second discharge pipe 26, respectively, and finally enters the first loading box 24 and the second loading box 28 through the first discharge pipe 22 and the second discharge pipe 26, respectively, to complete the screening.

[0105] The above description of the embodiments enables those skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the general principles defined herein may be implemented in other embodiments without departing from the spirit or scope of the present invention. Therefore, the present invention is not to be limited to the embodiments shown herein, but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. A multi-layer screening feed processing screening device, comprising a housing (1), support columns (2), and a ground (32), characterized in that, Also includes: The feeding assembly is located on the housing (1) and is used to add feed to the equipment; A drive assembly, mounted on the housing (1), is used to provide power for the screening operation; A screening component, located on the drive component, is used for screening feed. The screening component includes: The first screening chamber (15) is disposed on the box body (1) and the first screening chamber (15) is fixedly connected to the box body (1); The first screening hole (16) is disposed on the first screening cavity (15), and the first screening hole (16) is fixedly connected to the first screening cavity (15); The second screening chamber (17) is disposed on the box body (1) and the second screening chamber (17) is fixedly connected to the box body (1); The second material collection port (18) is disposed on the second screening chamber (17), and the second material collection port (18) is fixedly connected to the second screening chamber (17); The second screening hole (19) is disposed on the second screening cavity (17), and the second screening hole (19) is fixedly connected to the second screening cavity (17); Screening blade (20) is set on drive shaft (14), and the screening blade (20) is fixedly connected to drive shaft (14). The screening blade (20) is provided with mounting groove (3). The cleanup component, set on the filter component, includes: A micro motor (4) is mounted on a mounting slot (3), and the micro motor (4) is fixedly connected to the mounting slot (3); The conveyor belt (5) is set on the output shaft of the micro motor (4), and the conveyor belt (5) is tumbled to the output shaft of the micro motor (4); A rotating shaft (6) is set on a mounting groove (3), the rotating shaft (6) is rotatably connected to the mounting groove (3), and the rotating shaft (6) is tumbledly connected to the conveyor belt (5); A rotating roller (7) is mounted on a rotating shaft (6), and the rotating roller (7) is fixedly connected to the rotating shaft (6); A belt (8) is mounted on a rotating roller (7), and the belt (8) is tumblingly connected to the rotating roller (7); A brush (9) is mounted on a belt (8), and the brush (9) is fixedly connected to the belt (8); The loading assembly is located on the box (1) and is used to load the screened feed.

2. The multi-layer screening feed processing screening equipment according to claim 1, characterized in that, The feeding assembly includes: The feed inlet (10) is set on the box body (1) and the feed inlet (10) is fixedly connected to the box body (1); The feed chute (11) is set on the box body (1) and the feed chute (11) is fixedly connected to the box body (1); The first material collection port (12) is set on the box body (1) and is fixedly connected to the box body (1).

3. The multi-layer screening feed processing screening equipment according to claim 2, characterized in that, The driver components include: A drive motor (13) is mounted on the housing (1) and is fixedly connected to the housing (1); The transmission shaft (14) is mounted on the output shaft of the drive motor (13), and the transmission shaft (14) is fixedly connected to the output shaft of the drive motor (13).

4. The feed processing screening equipment with multi-layer screening according to claim 1, characterized in that, The loading assembly includes: The first discharge port (21) is disposed on the first screening chamber (15), and the first discharge port (21) is fixedly connected to the first screening chamber (15); The first discharge pipe (22) is set on the first discharge port (21), and the first discharge pipe (22) is fixedly connected to the first discharge port (21); The first fixing frame (23) is set on the box body (1) and the first fixing frame (23) is fixedly connected to the box body (1); The first loading box (24) is set on the first fixed frame (23), and the first loading box (24) and the first fixed frame (23) are detachably connected; The second discharge port (25) is provided on the second screening chamber (17), and the second discharge port (25) is fixedly connected to the second screening chamber (17); The second discharge pipe (26) is set on the second discharge port (25), and the second discharge pipe (26) is fixedly connected to the second discharge port (25); The second fixing frame (27) is set on the box body (1) and the second fixing frame (27) is fixedly connected to the box body (1); The second loading box (28) is set on the second fixed frame (27), and the second loading box (28) and the second fixed frame (27) are detachably connected; The discharge chamber (29) is set on the box body (1) and the discharge chamber (29) is fixedly connected to the box body (1); A fixed bracket (30) is installed on the ground (32), and the fixed bracket (30) is in contact with the ground (32); The third loading box (31) is mounted on the fixed bracket (30), and the third loading box (31) and the fixed bracket (30) are detachably connected.