Feed mixing device with quantitative feeding function

By designing a feed mixing device with a quantitative feeding function, and utilizing the combination of a motor-driven rotary disc and baffles, the problem of quantitative control difficulties in existing equipment has been solved. This achieves quantitative feeding and uniform mixing, reduces the discharge of unprocessed feed, and ensures the stability of poultry feeding.

CN224485657UActive Publication Date: 2026-07-14SICHUAN CHUNZHEN AGRICULTURAL TECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SICHUAN CHUNZHEN AGRICULTURAL TECHNOLOGY CO LTD
Filing Date
2025-08-15
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

Existing feed mixing equipment lacks a quantitative feeding function, which leads to overfeeding or underfeeding, affecting poultry growth, and unprocessed feed can easily enter the feeding trough.

Method used

A feed mixing device with quantitative feeding function was designed. The device achieves quantitative feeding through the cooperation of a motor-driven rotary disc and a baffle. The baffle is controlled by a cylinder to cover the feeding trough, preventing unprocessed feed from entering the feeding trough. At the same time, the material conveying and mixing are controlled by a mixing shaft and valves.

Benefits of technology

It achieves quantitative feeding, avoids the export of unprocessed feed, ensures the accuracy of feed ratio and uniformity of mixing, and reduces the burden of manual operation.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model belongs to automatic chicken raising technical field, specifically disclose feed mixing equipment with ration discharging function, including jar body, the top center place of jar body outside is fixed with motor no.
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Description

Technical Field

[0001] This utility model relates to the field of automatic chicken farming technology, specifically to a feed mixing device with quantitative feeding function. Background Technology

[0002] In order to ensure the stable growth of poultry, chicken and duck farms need to replenish feed and drinking water in a timely manner. In order to maximize efficiency, poultry are often raised at the critical point of quantity in a limited area, which means that workers need to add feed and drinking water manually from time to time.

[0003] To reduce manual labor, most current equipment uses automatic mixing and dispensing devices to integrate feeding and feed processing. This device is mainly for mixing and has a discharge port at the bottom to guide the processed feed into the feeding trough. However, it lacks a quantitative function. The valve at the bottom can only open and close the trough, making it difficult to control the amount of feed dispensed at one time. Overfeeding will affect the growth of poultry.

[0004] Now, a novel feed mixing device with quantitative feeding function is proposed to solve the above problems. Utility Model Content

[0005] The purpose of this invention is to provide a feed mixing device with a quantitative feeding function to solve the problem of inconvenient control of the feeding amount mentioned in the background art.

[0006] To achieve the above objectives, this utility model provides the following technical solution: a feed mixing device with quantitative feeding function, comprising a tank, a motor fixed at the center of the top of the tank exterior, a mixing shaft movably connected at the center of the top of the tank interior, a conical platform fixed at the bottom of the tank interior, a transverse groove provided at the center of the lower part of the tank interior, and a feeding trough provided at the bottom of the transverse groove, a motor installed on the right side of the feeding trough, and a rotary disk fixedly connected to the bottom of the output shaft of the motor, a circular groove provided on the left side of the rotary disk interior, ball bearings movably embedded on both sides of the top of the rotary disk, an annular groove provided around the center of the lower surface of the tank, and slide rails fixed at the front left and rear left of the lower part of the tank exterior, with sliders movably connected inside the slide rails, and a sleeve block fixed at the center between the sliders.

[0007] As a further technical solution of this utility model, the slider is symmetrically fixed at the front and rear ends of the sleeve block, and the circular groove rotates with the rotary table and is aligned with the feeding groove.

[0008] As a further technical solution of this utility model, a cylinder is installed on the right side of the transverse groove, and a baffle is fixed on the left side of the piston rod of the cylinder. A movable groove is provided on the left side of the transverse groove, and a guide rod is inserted horizontally into the movable groove. A push block is fixed on the right side of the guide rod, and a spring is fixed between the left side of the push block and the transverse groove.

[0009] As a further technical solution of this utility model, the spring is sleeved on the outside of the guide rod but does not contact it, and the push block and the baffle are on the same horizontal plane.

[0010] As a further technical solution of this utility model, valves are fixed on both sides of the top of the tank body, and a material tank is fixed on the top of the valves. A sealing plate is inserted and fixed on the top of the material tank. A viewing window is fixed longitudinally at the front end of the material tank. Grooves are provided on both sides of the top of the tank body, and a cover plate is fixed on the top of both sides of the mixing shaft.

[0011] As a further technical solution of this utility model, the cover plate rotates to fit the lower part of the groove, and the bottom of the valve is connected to the groove.

[0012] Compared with the prior art, the beneficial effects of this utility model are: the feed mixing equipment with quantitative feeding function not only realizes quantitative feeding and avoids the discharge of unprocessed feed, but also avoids the interconnection between the device and the feeding container;

[0013] (1) By setting a feeding trough at the bottom of the transverse trough, the motor rotates the mixing shaft and stirs the different feeds inside evenly. After the bottom baffle moves to the right side of the transverse trough, under the lubrication of the ball in the annular trough, the motor is turned on and the rotary table is rotated. The rotary table can be rotated smoothly. After the left circular trough is aligned with the feeding trough each time, a certain amount of feed will be discharged into the feeding trough at the bottom of the tank. The amount is the storage capacity of this feeding trough, realizing the integration of stirring and feeding.

[0014] (2) By fixing a baffle on the left side of the piston rod of the cylinder, whenever the materials are to be mixed, the cylinder is activated so that the horizontally sliding baffle covers the top of the feed trough along the transverse groove, and then the push block is squeezed to embed it into the left side of the transverse groove, so as to prevent unprocessed feed from entering the feed trough in advance during the mixing process. After the mixing is completed, the baffle is removed so that the push block can be pushed to the upper left corner of the feed trough when the spring is extended, thus preventing the feed from entering the left side of the transverse groove. This ensures the sealing of the feed trough when it is covered, and also prevents the feed from falling into other gaps or troughs.

[0015] (3) By fixing a material tank at the top of the valve, opening the sealing plate to introduce different feeds into the material tank for storage, opening the channel of the trough through the corresponding valve below, conveying the material into the tank through this point, and stirring it evenly through the mixing shaft. Whenever the mixing shaft rotates, the baffles at the bottom of its two sides will fit against the bottom of the trough, cooperating with the valve to achieve uniform blocking and feeding, avoiding excessive feeding of a single material and affecting the feed ratio, observing the viewing window and replenishing raw materials. Attached Figure Description

[0016] Figure 1 This is a frontal cross-sectional view of the present invention.

[0017] Figure 2 This is a front view cross-sectional structural diagram of the rotary disk of this utility model;

[0018] Figure 3 This is a front view cross-sectional structural diagram of the transverse groove of this utility model;

[0019] Figure 4 This is a frontal cross-sectional view of the tank body of this utility model.

[0020] In the diagram: 1. Tank body; 2. Sheath; 3. Valve; 4. Material tank; 5. Sealing plate; 6. Viewing window; 7. Motor 1; 8. Groove; 9. Mixing shaft; 10. Conical platform; 11. Cylinder; 12. Horizontal groove; 13. Sleeve block; 14. Slide rail; 15. Discharge chute; 16. Baffle; 17. Push block; 18. Spring; 19. Guide rod; 20. Movable groove; 21. Motor 2; 22. Annular groove; 23. Ball bearing; 24. Rotary disc; 25. Circular groove; 26. Slider. Detailed Implementation

[0021] 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 of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0022] Please see Figure 1-4An embodiment of this utility model provides a feed mixing device with quantitative feeding function, including a tank 1. A motor 7 is fixed at the center of the top of the tank 1. A mixing shaft 9 is movably connected at the center of the top of the tank 1. A conical platform 10 is fixed at the bottom of the tank 1. A horizontal groove 12 is provided at the center of the bottom of the tank 1. A feeding groove 15 is provided at the bottom of the horizontal groove 12. A motor 21 is installed on the right side of the feeding groove 15. A rotary disk 24 is fixedly connected to the bottom of the output shaft of the motor 21. A circular groove 25 is provided on the left side of the rotary disk 24. Ball bearings 23 are movably embedded on both sides of the top of the rotary disk 24. An annular groove 22 is provided around the center of the lower surface of the tank 1. A slide rail 14 is fixed at the front left and rear left of the lower part of the tank 1. A slider 26 is movably connected inside the slide rail 14. A sleeve block 13 is fixed at the center between the sliders 26.

[0023] The slider 26 is symmetrically fixed at the front and rear ends of the sleeve block 13, and the circular groove 25 rotates with the rotary table 24 and is aligned with the feeding groove 15.

[0024] Specifically, such as Figure 1 and Figure 2 As shown, the motor 7 rotates the mixing shaft 9 and evenly stirs the different feeds inside. After the bottom baffle 16 moves to the right side of the transverse groove 12, under the lubrication of the ball bearings 23 in the annular groove 22, the motor 21 is turned on and the rotary disc 24 is rotated. The rotary disc 24 can be rotated smoothly. After the left circular groove 25 is aligned with the feeding trough 15 each time, a certain amount of feed will be discharged into the feeding trough at the bottom of the tank 1, and the amount is the storage capacity of this feeding trough 15.

[0025] A cylinder 11 is installed on the right side of the transverse groove 12, and a baffle 16 is fixed on the left side of the piston rod of the cylinder 11. A movable groove 20 is provided on the left side of the transverse groove 12, and a guide rod 19 is inserted into the movable groove 20 laterally. A push block 17 is fixed on the right side of the guide rod 19, and a spring 18 is fixed between the left side of the push block 17 and the transverse groove 12. The spring 18 is sleeved on the outside of the guide rod 19 but does not contact it. The push block 17 and the baffle 16 are on the same horizontal plane.

[0026] Specifically, such as Figure 1 and Figure 3 As shown, whenever the materials need to be mixed, the cylinder 11 is activated so that the horizontally sliding baffle 16 covers the top of the feed trough 15 along the transverse groove 12. Then, the pusher 17 is squeezed to embed it into the left side of the transverse groove 12, preventing unprocessed feed from entering the feed trough 15 before the mixing process. After the mixing is completed, the baffle 16 is removed so that the pusher 17 can be pushed to the upper left corner of the feed trough 15 when the spring 18 is extended, preventing feed from entering the left side of the transverse groove 12 and ensuring the sealing of the feed trough 15 when it is covered.

[0027] Valves 3 are fixed on both sides of the top of the tank body 1, and a material tank 4 is fixed on the top of the valve 3. A sealing plate 5 is inserted and fixed on the top of the material tank 4. A viewing window 6 is fixed longitudinally at the front end of the material tank 4. A slot 8 is provided on both sides of the top of the tank body 1. A baffle 2 is fixed on the top of both sides of the mixing shaft 9. The baffle 2 rotates in contact with the bottom of the slot 8. The bottom of the valve 3 is connected to the slot 8.

[0028] Specifically, such as Figure 1 and Figure 4 As shown, the sealing plate 5 is opened to introduce different feeds into the feed tank 4 for storage. The channel of the trough 8 is opened through the corresponding valve 3 below, and the material is conveyed into the tank body 1 through this point. It is then stirred evenly by the mixing shaft 9. Whenever the mixing shaft 9 rotates, the baffles 2 at the bottom of its two sides will fit against the bottom of the trough 8. Together with the valve 3, it achieves uniform blocking and feeding, avoiding excessive feeding of a single material and affecting the feed ratio.

[0029] Working Principle: In use, the sealing plate 5 is first opened to allow different feeds to be introduced into the feed tank 4 for storage. The corresponding valve 3 below opens the channel of the trough 8, through which materials are conveyed into the tank body 1. The materials are then stirred evenly by the mixing shaft 9. Whenever the mixing shaft 9 rotates, the baffles 2 at its bottom sides adhere to the bottom of the trough 8, working in conjunction with the valve 3 to achieve uniform blocking and feeding. Whenever mixing is required, the cylinder 11 is activated, and the horizontally sliding baffle 16 covers the top of the feeding trough 15 along the transverse groove 12. Then, the pusher 17 is pressed to embed into the left side of the transverse groove 12, preventing unprocessed feed from being mixed during the process. The finished feed is pre-entered into the feeding trough 15. After completion, the baffle 16 is removed. When the spring 18 extends, the push block 17 is pushed to the upper left corner of the feeding trough 15 to prevent the feed from entering the left side of the horizontal trough 12. Finally, the motor 7 rotates the mixing shaft 9 and evenly stirs the different feeds inside. After the bottom baffle 16 moves to the right side of the horizontal trough 12, the motor 21 is turned on and the rotary table 24 is rotated under the lubrication of the ball bearings 23 in the annular groove 22. The rotary table 24 can be rotated smoothly. After the left circular groove 25 is aligned with the feeding trough 15 each time, a certain amount of feed will be discharged into the feeding trough at the bottom of the tank 1, and the amount is the storage capacity of this section of the feeding trough 15.

[0030] It will be apparent to those skilled in the art that this invention is not limited to the details of the exemplary embodiments described above, and that it can be implemented in other specific forms without departing from the spirit or essential characteristics of this invention. Therefore, the embodiments should be considered illustrative and non-limiting in all respects, and the scope of this invention is defined by the appended claims rather than the foregoing description. Thus, it is intended that all variations falling within the meaning and scope of equivalents of the claims be included within this invention. No reference numerals in the claims should be construed as limiting the scope of the claims.

Claims

1. A feed mixing device with quantitative feeding function, comprising a tank (1), characterized in that: A motor (7) is fixed at the center of the top of the tank (1) outside. A mixing shaft (9) is movably connected at the center of the top inside the tank (1). A conical platform (10) is fixed at the bottom inside the tank (1). A transverse groove (12) is provided at the center of the bottom inside the tank (1), and a feeding trough (15) is provided at the bottom of the transverse groove (12). A motor (21) is installed on the right side of the feeding trough (15), and the bottom of the output shaft of the motor (21) is fixedly connected to... There is a rotating disk (24), and a circular groove (25) is provided on the left side inside the rotating disk (24). Ball bearings (23) are movably embedded on both sides of the top of the rotating disk (24). An annular groove (22) is provided around the center of the lower surface of the tank body (1). Slide rails (14) are fixed on the left front and left rear sides of the lower part of the tank body (1). Slider blocks (26) are movably connected inside the slide rails (14). A sleeve block (13) is fixed at the center between the sliders (26).

2. The feed mixing equipment with quantitative feeding function according to claim 1, characterized in that: The slider (26) is symmetrically fixed at the front and rear ends of the sleeve block (13), and the circular groove (25) rotates with the rotary table (24) and is aligned with the feeding groove (15).

3. The feed mixing equipment with quantitative feeding function according to claim 1, characterized in that: A cylinder (11) is installed on the right side of the transverse groove (12), and a baffle (16) is fixed on the left side of the piston rod of the cylinder (11). A movable groove (20) is provided on the left side of the transverse groove (12), and a guide rod (19) is inserted horizontally in the movable groove (20). A push block (17) is fixed on the right side of the guide rod (19), and a spring (18) is fixed between the left side of the push block (17) and the transverse groove (12).

4. The feed mixing equipment with quantitative feeding function according to claim 3, characterized in that: The spring (18) is sleeved on the outside of the guide rod (19) but does not contact it, and the push block (17) and the baffle (16) are on the same horizontal plane.

5. The feed mixing equipment with quantitative feeding function according to claim 1, characterized in that: Valves (3) are fixed on both sides of the top of the tank (1), and a material tank (4) is fixed on the top of the valve (3). A sealing plate (5) is inserted and fixed on the top of the material tank (4). A viewing window (6) is fixed longitudinally at the front end of the material tank (4). A slot (8) is provided on both sides of the top of the tank (1). A baffle plate (2) is fixed on the top of both sides of the mixing shaft (9).

6. The feed mixing equipment with quantitative feeding function according to claim 5, characterized in that: The cover plate (2) rotates to fit the bottom of the slot (8), and the bottom of the valve (3) is connected to the slot (8).