High-efficiency mixing device for animal husbandry

By introducing a combination of ring gears and servo motors into the feed mixing device for animal husbandry, the problems of uneven mixing and dead corners have been solved, achieving efficient and dead-corner-free feed mixing and improving mixing efficiency and uniformity.

CN224321307UActive Publication Date: 2026-06-05SHANDONG AILAIKE BIOTECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHANDONG AILAIKE BIOTECHNOLOGY CO LTD
Filing Date
2025-03-27
Publication Date
2026-06-05

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Abstract

The application relates to the field of livestock feed processing technology, and discloses a high-efficiency mixing device for livestock husbandry, which comprises a mounting table, a through hole is formed in the upper surface of the mounting table, and a stirring box is fixedly connected to the upper surface of the mounting table; the inner wall size of the stirring box is matched with the size of the through hole on the surface of the mounting table. The high-efficiency mixing device for livestock husbandry can realize omnibearing and high-efficiency mixing of the feed in the stirring box through the combined action of the annular meshing tooth, the servo motor, the rotating shaft, the spiral blade, the first meshing gear, the second meshing gear, the stirring column and the stirring rod; under the cooperation of the annular meshing tooth, the first meshing gear and the second meshing gear, the feed in the stirring box is pushed and lifted by the clockwise rotating spiral blade in the central part for mixing, and the feed is agitated by the combination of the circularly moving stirring column and the counterclockwise rotating stirring rod in the outer part, so that a complex flow pattern is formed, and the mixing efficiency and uniformity of the feed are greatly improved.
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Description

Technical Field

[0001] This application relates to the field of livestock feed processing technology, specifically to a high-efficiency mixing device for livestock. Background Technology

[0002] Feed refers to the general term for the food that all animals are raised. In the process of large-scale livestock farming, workers often mix different types of feed. The uniform mixing of feed is a key link to ensure that animals receive a balanced intake of nutrients.

[0003] An existing patent (publication number: 202420900706.2) discloses a feed mixer for livestock feed production. It includes a fixed mounting platform, a central collection box located on the lower center of the platform, and a first adjusting bolt at the connection between the central collection box and the platform. A mixing box is located above the platform, and a second adjusting bolt is located at the connection between the mixing box and the platform.

[0004] The above scheme uses a unidirectional spiral blade rotation method for mixing. This mixing method can achieve feed mixing to a certain extent. However, due to its unidirectional rotation characteristic, the material in the mixing drum tends to form a fixed flow path when pushed by the spiral blade, resulting in insufficient mixing of feed in some areas and the existence of mixing dead zones. In addition, the unidirectional rotation mixing method also has certain limitations in mixing efficiency, making it difficult to meet the needs of modern animal husbandry for efficient and uniform feed mixing. Utility Model Content

[0005] To address the shortcomings of existing technologies, this application provides a high-efficiency mixing device for animal husbandry, which has the advantages of high efficiency, no dead corners, and uniform mixing, thus solving the problems mentioned in the background technology.

[0006] To achieve the above objectives, this application provides the following technical solution: a high-efficiency mixing device for animal husbandry, comprising an installation platform, a through hole on the upper surface of the installation platform, a mixing box fixedly connected to the upper surface of the installation platform, the inner wall size of the mixing box being adapted to the size of the through hole on the surface of the installation platform, a feed inlet on the outer surface of the mixing box, a cover plate on the upper surface of the mixing box, and a mixing assembly inside the cover plate;

[0007] The stirring assembly includes a mounting groove and a servo motor. The inner wall of the mounting groove is formed on the outer surface of the cover plate. The outer surface of the servo motor is fixedly embedded in the upper surface of the cover plate. The inner wall of the mounting groove is fixedly connected with an annular meshing tooth. A rotating shaft is rotatably connected to the inner wall of the mounting groove. One end of the rotating shaft is fixedly connected to the output end of the servo motor. A spiral blade is fixedly connected to the outer surface of the rotating shaft. A first meshing gear is fixedly connected to the outer surface of the spiral blade. Four second meshing gears in a circular array are meshed on the outer surface of the first meshing gear. Each second meshing gear meshes with the annular meshing tooth. A stirring column is fixedly connected to the inner wall of each of the four second meshing gears. Four sets of stirring rods are fixedly connected to the outer surface of each of the four stirring columns.

[0008] The above scheme, through the combined action of annular meshing gears, servo motors, rotating shafts, spiral blades, first and second meshing gears, stirring column, and stirring rod, enables all-round and efficient mixing of feed within the mixing tank. Furthermore, with the cooperation of the annular meshing gears, the first and second meshing gears, the feed in the mixing tank is pushed and lifted for mixing in the central part by the clockwise rotating spiral blades, while in the outer part it is agitated by the combined action of the circumferentially rotating stirring column and the counterclockwise rotating stirring rod, thus forming a complex flow pattern that greatly increases the mixing efficiency and uniformity of the feed.

[0009] Furthermore, the inner wall of the mounting groove is provided with an annular groove, and four circumferentially arrayed moving blocks are slidably connected to the inner wall of the annular groove. One end of each of the four stirring columns is rotatably connected to the outer surface of the stirring column.

[0010] The above scheme, by setting the annular groove, can limit and guide the movement of the moving block, and enable the stirring column to perform stable circumferential motion and better mesh with the annular meshing teeth and the first meshing gear, thereby improving the stability of stirring.

[0011] Furthermore, the inner wall of the mixing tank is fitted with a partition.

[0012] The above solution, by setting up a baffle, can block the feed being mixed in the mixing tank, ensuring stable mixing of the feed. When the baffle is detached from the inside of the mixing tank, the feed can quickly fall into the storage tank, which is convenient for staff to handle.

[0013] Furthermore, the inner wall of the mixing tank is provided with a component cavity, and a lead screw is rotatably connected to the inner wall of the component cavity. One end of the lead screw extends through the inner wall of the component cavity to the outside of the mixing tank, and a rotating handle is fixedly connected to one end of the lead screw. The outer surface of the rotating handle is provided with anti-slip texture.

[0014] The above scheme, by setting the function of the handle, makes it easy for personnel to rotate stably, so that the lead screw can stably drive the moving plate to move laterally.

[0015] Furthermore, a movable plate is threadedly connected to the outer surface of the lead screw, and the outer surface of the movable plate is slidably connected to the inner wall of the component cavity. The outer surface of the movable plate is fixedly connected to the outer surface of the partition.

[0016] The above scheme, by setting up a movable plate, allows the movable plate to move when the screw rotates, causing the partition to gradually detach from the inside of the mixing tank, thereby achieving quantitative feed drop and improving the practicality of the device.

[0017] Furthermore, a storage box is provided at the bottom of the mounting platform.

[0018] The above scheme, by setting up storage boxes, enables the centralized collection of falling mixed feed, thereby facilitating the centralized allocation of mixed feed.

[0019] Furthermore, a U-shaped frame is fixedly connected to the bottom surface of the mounting platform, and the outer surface of the storage box is slidably connected to the inner wall of the U-shaped frame.

[0020] The above solution, by setting up a U-shaped frame, allows for quick installation and removal of the storage box, thus saving workers' time and effort. Furthermore, the U-shaped frame ensures that the top of the storage box is in close contact with the bottom of the mounting platform, preventing feed from scattering after falling into the storage box.

[0021] Furthermore, the upper surface of the mixing tank is fitted with four rectangular arrays of bolts, and the mixing tank and the cover plate are connected by bolts.

[0022] The above solution, by setting up a cover plate, allows for the inspection and maintenance of the cover plate and mixing components after the bolts are removed. The operation is simple and convenient, reducing maintenance costs.

[0023] Compared with the prior art, the technical solution of this application has the following beneficial effects:

[0024] This high-efficiency mixing device for animal husbandry achieves comprehensive and efficient mixing of feed within the mixing chamber through the combined action of annular meshing gears, a servo motor, a rotating shaft, spiral blades, a first meshing gear, a second meshing gear, a stirring column, and a stirring rod. Furthermore, the coordinated action of the annular meshing gears, the first meshing gear, and the second meshing gear causes the feed in the mixing chamber to be lifted and mixed in the center by the clockwise rotating spiral blades, while the outer part is agitated by the combined action of the circularly rotating stirring column and the counterclockwise rotating stirring rod, thus forming a complex flow pattern that greatly increases the mixing efficiency and uniformity of the feed. Attached Figure Description

[0025] Figure 1 This is a three-dimensional structural diagram of the entire application;

[0026] Figure 2 This is a diagram showing the overall internal structure of this application;

[0027] Figure 3 This is a three-dimensional structural diagram of the stirring assembly of this application;

[0028] Figure 4 This is a three-dimensional structural diagram of the moving block and stirring rod of this application;

[0029] Figure 5 This is a diagram showing the internal structure of the mixing tank in this application;

[0030] Figure 6 This is a bottom view of the mounting platform for this application.

[0031] In the picture:

[0032] 1. Mounting platform; 2. Mixing tank; 3. Cover plate; 4. Mixing assembly; 401. Mounting groove; 402. Annular gear; 403. Servo motor; 404. Rotating shaft; 405. Spiral blade; 406. First gear; 407. Second gear; 408. Mixing column; 409. Mixing rod; 410. Moving block; 411. Annular groove; 5. Partition plate; 6. Assembly cavity; 7. Lead screw; 8. Rotary handle; 9. Moving plate; 10. U-shaped frame; 11. Storage box. Detailed Implementation

[0033] The technical solutions of the embodiments of this application will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this application, and not all embodiments. Based on the embodiments of this application, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of this application.

[0034] Please see Figure 2 , Figure 3 and Figure 4This embodiment of a high-efficiency mixing device for livestock includes a mounting platform 1. A through hole is formed on the upper surface of the mounting platform 1. A mixing tank 2 is fixedly connected to the upper surface of the mounting platform 1. The inner wall size of the mixing tank 2 is adapted to the size of the through hole on the surface of the mounting platform 1. A feed inlet is formed on the outer surface of the mixing tank 2. A cover plate 3 is provided on the upper surface of the mixing tank 2. A mixing assembly 4 is provided inside the cover plate 3. The mixing assembly 4 includes a mounting groove 401 and a servo motor 403. The inner wall of the mounting groove 401 is formed on the outer surface of the cover plate 3. The outer surface of the servo motor 403 is fixedly embedded in the upper surface of the cover plate 3. A ring-shaped meshing tooth 402 is fixedly connected. A rotating shaft 404 is rotatably connected to the inner wall of the mounting groove 401. One end of the rotating shaft 404 is fixedly connected to the output end of the servo motor 403. A spiral blade 405 is fixedly connected to the outer surface of the rotating shaft 404. A first meshing gear 406 is fixedly connected to the outer surface of the spiral blade 405. Four circumferentially arrayed second meshing gears 407 are meshed on the outer surface of the first meshing gear 406. Each second meshing gear 407 meshes with the ring-shaped meshing tooth 402. A stirring column 408 is fixedly connected to the inner wall of each of the four second meshing gears 407. The outer surfaces of the four stirring columns 408 are fixedly connected to... There are four sets of stirring rods 409. Through the combined action of annular meshing gears 402, servo motors 403, rotating shafts 404, spiral blades 405, first gear 406 and second gear 407, stirring column 408, and stirring rods 409, the feed in the mixing tank 2 can be mixed in an all-round and efficient manner. With the cooperation of annular meshing gears 402, first gear 406, and second gear 407, the feed in the mixing tank 2 is pushed and lifted for mixing in the central part by the clockwise rotating spiral blades 405, while in the outer part it is mixed by the circumferentially rotating stirring column 408 and the counterclockwise rotating stirring rods 409. The combined agitation of 09 creates a complex flow pattern, greatly increasing the mixing efficiency and uniformity of the feed. The inner wall of the mounting trough 401 is provided with an annular groove 411, and four circumferentially arrayed moving blocks 410 are slidably connected to the inner wall of the annular groove 411. One end of each of the four stirring columns 408 is rotatably connected to the outer surface of the stirring column 408. By setting the annular groove 411, the movement of the moving blocks 410 can be limited and guided, and the stirring column 408 can stably perform circumferential motion and better mesh with the annular meshing teeth 402 and the first meshing gear 406, thereby improving the stability of the agitation.

[0035] Please see Figure 1 and Figure 5A partition 5 is inserted into the inner wall of the mixing tank 2. The partition 5 serves to prevent feed from being mixed inside the mixing tank 2, ensuring stable mixing. When the partition 5 detaches from the mixing tank 2, the feed can quickly fall into the storage tank 11, facilitating handling. A component cavity 6 is formed in the inner wall of the mixing tank 2. A lead screw 7 is rotatably connected to the inner wall of the component cavity 6, with one end of the lead screw 7 extending through the inner wall of the component cavity 6 to the outside of the mixing tank 2. A handle 8 is fixedly connected to one end of the lead screw 7. The outer surface of the handle 8... The device features anti-slip textures and a rotating handle 8, which facilitates stable rotation by personnel. This allows the lead screw 7 to stably drive the moving plate 9 to move laterally. The outer surface of the lead screw 7 is threadedly connected to the moving plate 9, and the outer surface of the moving plate 9 is slidably connected to the inner wall of the component cavity 6. The outer surface of the moving plate 9 is fixedly connected to the outer surface of the partition 5. By using the moving plate 9, when the lead screw 7 rotates and drives the moving plate 9 to move, the moving plate 9 can drive the partition 5 to gradually detach from the interior of the mixing tank 2, thereby achieving quantitative feed drop and improving the practicality of the device.

[0036] Please see Figure 1 and Figure 6 The bottom of the mounting platform 1 is equipped with a storage box 11. The storage box 11 can collect the falling mixed feed, which facilitates the centralized mixing of the mixed feed. A U-shaped frame 10 is fixedly connected to the bottom surface of the mounting platform 1. The outer surface of the storage box 11 is slidably connected to the inner wall of the U-shaped frame 10. The U-shaped frame 10 allows for quick installation and removal of the storage box 11, saving time and effort for the staff. The U-shaped frame 10 also ensures that the top of the storage box 11 is in close contact with the bottom surface of the mounting platform 1, so that the feed will scatter after falling into the storage box 11. The upper surface of the mixing box 2 is equipped with four rectangular array bolts. The mixing box 2 and the cover plate 3 are connected by bolts. The cover plate 3 allows for inspection and maintenance of the cover plate 3 and the mixing assembly 4 after the bolts are removed. The operation is simple and convenient, reducing maintenance costs.

[0037] This embodiment of a high-efficiency mixing device for animal husbandry, through the combined action of annular meshing gear 402, servo motor 403, rotating shaft 404, spiral blade 405, first meshing gear 406 and second meshing gear 407, stirring column 408, and stirring rod 409, can achieve all-round and efficient mixing of feed in the mixing box 2. With the cooperation of annular meshing gear 402, first meshing gear 406, and second meshing gear 407, the feed in the mixing box 2 is pushed and lifted for mixing in the central part by the clockwise rotating spiral blade 405, while in the outside it is agitated by the combination of the circumferentially moving stirring column 408 and the counterclockwise rotating stirring rod 409, thus forming a complex flow pattern, which greatly increases the mixing efficiency and uniformity of the feed.

[0038] The working principle of the above embodiment is as follows: When using this device, different feeds are first fed into the mixing tank 2 through the feed inlet on the side of the mixing tank 2. Then, the servo motor 403 is started to drive the rotating shaft 404 and the spiral blade 405 to rotate, thereby driving the feed to rise and mix, and ensuring that the feed on the side always gathers and mixes towards the center. Then, under the action of the first meshing gear 406 and the second meshing gear 407, the stirring column 408 is driven to perform circumferential motion, thereby performing secondary mixing. At the same time as the stirring column 408 moves, it also moves in the opposite direction to the spiral blade 405, thereby driving the stirring rod 409 to mix the interior. This combination forms a complex flow pattern, greatly increasing the mixing efficiency. To improve the mixing efficiency and uniformity of the feed, after mixing is complete, the handle 8 is rotated to drive the lead screw 7 to rotate. At this time, the lead screw 7 can drive the connected moving plate 9 to move laterally inside the component cavity 6. The moving plate 9 can drive the partition 5 to move, so that the partition 5 gradually slides out of the mixing box 2. While sliding out, the mixing box 2 is connected to the storage box 11, so that the mixed feed falls into the storage box 11 for centralized collection. The flow rate of the feed falling can be determined by control, thereby improving practicality. Finally, after the feed is collected inside the storage box 11, under the action of the U-shaped frame 10, the worker can pull the storage box 11 to detach it from the U-shaped frame 10, which can save a lot of time for the worker.

[0039] It should be noted that, in this document, relational terms such as "first" and "second" are used merely to distinguish one entity or operation from another, and do not necessarily require or imply any such actual relationship or order between these entities or operations. Furthermore, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such a process, method, article, or apparatus. Without further limitations, an element defined by the phrase "comprising one..." does not exclude the presence of other identical elements in the process, method, article, or apparatus that includes the element.

[0040] Although embodiments of this application have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and variations can be made to these embodiments without departing from the principles and spirit of this application, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A high-efficiency feed mixing device for animal husbandry, comprising an installation platform (1), characterized in that: The upper surface of the mounting platform (1) is provided with a through hole, and a mixing tank (2) is fixedly connected to the upper surface of the mounting platform (1). The inner wall size of the mixing tank (2) is adapted to the size of the through hole on the surface of the mounting platform (1). The outer surface of the mixing tank (2) is provided with a feed inlet. The upper surface of the mixing tank (2) is provided with a cover plate (3), and a mixing assembly (4) is provided inside the cover plate (3). The stirring assembly (4) includes a mounting groove (401) and a servo motor (403). The inner wall of the mounting groove (401) is formed on the outer surface of the cover plate (3). The outer surface of the servo motor (403) is fixedly embedded in the upper surface of the cover plate (3). The inner wall of the mounting groove (401) is fixedly connected with an annular meshing tooth (402). The inner wall of the mounting groove (401) is rotatably connected with a rotating shaft (404). One end of the rotating shaft (404) is fixedly connected to the output end of the servo motor (403). The outer surface of the rotating shaft (404) is... A spiral blade (405) is fixedly connected to the surface of the spiral blade (405). A first meshing gear (406) is fixedly connected to the outer surface of the spiral blade (405). Four second meshing gears (407) in a circular array are meshed on the outer surface of the first meshing gear (406). Each second meshing gear (407) meshes with the annular meshing gear (402). A stirring column (408) is fixedly connected to the inner wall of each of the four second meshing gears (407). Four sets of stirring rods (409) are fixedly connected to the outer surface of each of the four stirring columns (408).

2. The high-efficiency mixing device for animal husbandry according to claim 1, characterized in that: The inner wall of the mounting groove (401) is provided with an annular groove (411), and four circumferentially arrayed moving blocks (410) are slidably connected to the inner wall of the annular groove (411). One end of each of the four stirring columns (408) is rotatably connected to the outer surface of the stirring column (408).

3. The high-efficiency mixing device for animal husbandry according to claim 1, characterized in that: The inner wall of the mixing tank (2) is fitted with a partition (5).

4. The high-efficiency mixing device for animal husbandry according to claim 3, characterized in that: The inner wall of the mixing tank (2) is provided with a component cavity (6), and a lead screw (7) is rotatably connected to the inner wall of the component cavity (6). One end of the lead screw (7) extends through the inner wall of the component cavity (6) to the outside of the mixing tank (2). One end of the lead screw (7) is fixedly connected to a handle (8), and the outer surface of the handle (8) is provided with anti-slip texture.

5. The high-efficiency mixing device for animal husbandry according to claim 4, characterized in that: The outer surface of the lead screw (7) is threadedly connected to a movable plate (9), and the outer surface of the movable plate (9) is slidably connected to the inner wall of the component cavity (6). The outer surface of the movable plate (9) is fixedly connected to the outer surface of the partition (5).

6. The high-efficiency mixing device for animal husbandry according to claim 1, characterized in that: The bottom of the mounting platform (1) is provided with a storage box (11).

7. The high-efficiency mixing device for animal husbandry according to claim 6, characterized in that: The bottom surface of the mounting platform (1) is fixedly connected to a U-shaped frame (10), and the outer surface of the storage box (11) is slidably connected to the inner wall of the U-shaped frame (10).

8. The high-efficiency mixing device for animal husbandry according to claim 1, characterized in that: The upper surface of the mixing tank (2) is fitted with four rectangular arrays of bolts, and the mixing tank (2) and the cover plate (3) are connected by bolts.