Quantitative feeding device for meat rabbit breeding
By introducing manure storage boxes and cleaning components into rabbit breeding equipment, automatic quantitative feeding and manure flushing are achieved, solving the problem of low cleaning efficiency, improving cleaning efficiency and feed utilization, and improving the breeding environment.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HENAN SHIJIA AGRI & ANIMAL HUSBANDRY DEV CO LTD
- Filing Date
- 2025-07-09
- Publication Date
- 2026-06-09
AI Technical Summary
Existing rabbit farming facilities lack automatic manure cleaning functions, leading to odor growth, the spread of bacteria and parasites, low cleaning efficiency, and the need for regular manual operation.
A quantitative feeding device including a feces storage box and a cleaning component was designed. The device uses a motor to drive gears and a conveyor belt to feed quantitative feed, and uses a water pump and nozzles to automatically flush and discharge feces.
It achieves automatic cleaning of rabbit feces, reduces the growth of bacteria and parasites, optimizes the growth environment, reduces odor, improves cleaning efficiency, and improves feed utilization through quantitative feeding.
Smart Images

Figure CN224330116U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of rabbit farming, and in particular to a quantitative feeding device for rabbit farming. Background Technology
[0002] Meat rabbits refer to rabbit breeds mainly used for meat production. Unlike pet rabbits or fur rabbits, meat rabbits are raised specifically for consumption because of their fast growth rate, strong reproductive capacity, delicious meat, and rich nutrition. Meat rabbit farming is an important part of animal husbandry and occupies a certain position in my country's agricultural economy.
[0003] An automatic quantitative feeding device for meat rabbits, disclosed in CN213153433U, includes a screw conveyor and a feeding mechanism. The screw conveyor includes a first screw conveyor, a second screw conveyor, etc. The device conveys feed to each feeding pipe through the screw conveyor. When the weighing sensor detects that the amount of feed in the feeding pipe has reached the set value, the connecting wire is released and the baffle plate at the bottom of the feeding pipe is opened to feed the rabbit. However, the device does not have the function of automatically cleaning up feces. During the breeding period, it is difficult to clean up the feces in time, which easily produces odor, breeds bacteria and parasites, and pollutes the growth environment. Currently, manual cleaning of feces is required regularly using tools, which is cumbersome, time-consuming, and seriously affects the cleaning efficiency.
[0004] Therefore, it is necessary to design a quantitative feeding device for rabbit farming that can automatically flush and discharge rabbit feces during breeding, facilitate the cleaning of the feces storage box, reduce the growth of bacteria and parasites, optimize the growth environment, reduce odor, and improve cleaning efficiency. Utility Model Content
[0005] To overcome the shortcomings of current devices that lack automatic manure cleaning functions, making it difficult to clean manure in a timely manner during the breeding period, easily generating odors, breeding bacteria and parasites, and polluting the growth environment, and currently requiring manual cleaning with tools at regular intervals, which is cumbersome, time-consuming, and seriously affects cleaning efficiency, this utility model provides a quantitative feeding device for meat rabbit breeding that can automatically flush and discharge the manure of meat rabbits during breeding, facilitate the cleaning of the manure storage box, reduce the growth of bacteria and parasites, optimize the growth environment, reduce odors, and improve cleaning efficiency.
[0006] The technical solution of this utility model is: a quantitative feeding device for rabbit farming, including a support frame, a cage door, a feed pipe, a feed storage box, a cover, a manure storage box, a cage, a quantitative component, and a cleaning component. The manure storage box has two parts, upper and lower, with two support frames connected between the left and right sides of the manure storage box. A cage is connected to the upper side of each manure storage box, and a cage door is rotatably connected to the front of each cage. A feed pipe is connected to the right side of the front right of each manure storage box, and a feed storage box is connected to the upper right side of each cage. A cover is rotatably connected to the upper part of each feed storage box. The manure storage box is equipped with a quantitative component for quantitatively feeding feed, and the lower part of each manure storage box is equipped with a cleaning component for cleaning rabbit manure.
[0007] Furthermore, all storage bins are made of transparent material.
[0008] Furthermore, a handle is provided on the upper right side of the lid.
[0009] Furthermore, the waste collection box is higher in the front and lower in the back.
[0010] Furthermore, the quantitative component includes a motor, gears, a conveyor belt, and a connecting plate. A motor is connected to the lower right front side of the stool storage box. The motor and the processor are electrically connected through a control module. Gears are connected to the output shafts of the motors. A connecting plate is rotatably connected to the inner right side of the stool storage box. Gears are also connected to the front of the connecting plate. Adjacent gears mesh with each other. Multiple rotating shafts are rotatably provided at the front of the stool storage box. The rightmost rotating shaft is connected to the output shaft of the adjacent motor. A conveyor belt is wound around the three rotating shafts on the same stool storage box.
[0011] Furthermore, the cleaning assembly includes a first connecting pipe, a nozzle, a guide pipe, a second connecting pipe, and a third connecting pipe. The first connecting pipe is connected to the lower front part of the waste collection box, and multiple nozzles are connected to the first connecting pipe. The guide pipe is connected to the rear side of the waste collection box, and the second connecting pipe is connected between the right sides of the guide pipes. The third connecting pipe is connected to the lower left side of the lower guide pipe.
[0012] The beneficial effects are: 1. This utility model connects to an external water source and water pump through the first connecting pipe, so that water is sprayed from the nozzle to wash the feces in the feces storage box. Since the feces storage box and the guide pipe are both inclined, the feces flow into the guide pipe and are discharged. Thus, the feces of meat rabbits can be automatically washed and discharged during breeding, which facilitates the cleaning of the feces storage box, reduces the growth of bacteria and parasites, optimizes the growth environment, reduces odor, and improves cleaning efficiency.
[0013] 2. This utility model involves feeding the feed into the feed pipe, which then falls onto the connecting plate. The connecting plate rotates to feed the feed onto the conveyor belt, which rotates to transport the feed. This ensures that the feed is evenly distributed on the conveyor belt, allowing for intermittent feeding and even distribution of feed on the conveyor belt for quantitative feeding. This avoids overfeeding or underfeeding, improves feed utilization, and saves costs. Attached Figure Description
[0014] Figure 1 This is a frontal three-dimensional structural diagram of the present invention.
[0015] Figure 2 This is a three-dimensional structural diagram of the back of this utility model.
[0016] Figure 3 This is a three-dimensional structural diagram of the conveyor belt and cage components of this utility model.
[0017] Figure 4 This is a three-dimensional cross-sectional view of the motor and gear components of this utility model.
[0018] Figure 5 This is a three-dimensional cross-sectional view of the connecting plate and other components of this utility model.
[0019] Figure 6 This is a three-dimensional cross-sectional view of the nozzle and waste collection box components of this utility model.
[0020] In the attached drawings, the following are the reference numerals: 1_support frame, 2_cage door, 3_feed pipe, 4_storage bin, 401_cover, 5_motor, 6_gear, 7_cage, 701_first connecting pipe, 702_storage box, 703_nozzle, 8_guide pipe, 9_second connecting pipe, 10_third connecting pipe, 11_conveyor belt, 12_connecting plate. Detailed Implementation
[0021] The present invention will now be described in detail with reference to the accompanying drawings and specific embodiments.
[0022] A quantitative feeding device for meat rabbit farming, such as Figures 1-6 As shown, the device includes a support frame 1, a cage door 2, a feed pipe 3, a feed bin 4, a cover 401, a manure storage box 702, a cage 7, a metering component, and a cleaning component. The manure storage box 702 has two parts, one at the top and one at the bottom, with the front higher than the back for easy manure cleaning. The left and right sides of the manure storage box 702 are connected to the front and rear support frames 1. The upper side of the manure storage box 7 is connected to the cage 7, and the front of the cage 7 is rotatably connected to the cage door 2. The right side of the front right side of the manure storage box 702 is connected to the feed pipe 3. The upper right side of the cage 7 is connected to the feed bin 4, which is made of transparent material for easy observation of the amount used. The upper part of the feed bin 4 is rotatably connected to the cover 401, and the upper right side of the cover 401 is equipped with a handle for easy hand gripping and rotating the cover 401 to open and add feed. The manure storage box 702 is equipped with a metering component for quantitative feeding of feed, and the lower part of the manure storage box 702 is equipped with a cleaning component for cleaning the rabbit manure.
[0023] like Figure 1 , Figure 3, Figure 4 and Figure 5 As shown, the quantitative component includes a motor 5, a gear 6, a conveyor belt 11, and a connecting plate 12. The lower right front side of the stool storage box 702 is connected to the motor 5. The motor 5 and the processor are electrically connected through a control module. The output shaft of the motor 5 is connected to the gear 6. The inner right side of the stool storage box 702 is rotatably connected to the connecting plate 12. The front of the connecting plate 12 is also connected to the gear 6. Two adjacent gears 6 mesh with each other. The front of the stool storage box 702 is provided with three rotating shafts. The rightmost rotating shaft is connected to the output shaft of the adjacent motor 5. The three rotating shafts on the same stool storage box 702 are all connected by the conveyor belt 11.
[0024] like Figure 1 , Figure 2 and Figure 6 As shown, the cleaning assembly includes a first connecting pipe 701, a nozzle 703, a guide pipe 8, a second connecting pipe 9, and a third connecting pipe 10. The lower front part of the waste collection box 702 is connected to the first connecting pipe 701, and seven nozzles 703 are connected to each of the first connecting pipes 701. The rear side of the waste collection box 702 is connected to the guide pipe 8, the right side of the guide pipe 8 is connected to the second connecting pipe 9, and the lower left side of the lower guide pipe 8 is connected to the third connecting pipe 10.
[0025] When quantitative feeding is required in rabbit farming, this device can be used. The support frame 1 is brought into contact with the ground, then the cage door 2 is opened, and the rabbit is placed in the cage 7. The cage door 2 is then closed, and the rabbit is fed. The cover 401 is opened by turning the handle, and feed is poured into the storage bin 4. After pouring, the cover 401 is closed. The storage bin 4 is made of transparent material. Under gravity, the feed falls into the feed pipe 3, then onto the upper part of the manure storage box 702, landing on the connecting plate 12. The manure storage box 702 is higher in the front and lower in the back. The processor then starts the motor 5 through the control module. The motor 5 drives the gear 6 to rotate. The meshing gears 6 rotate, causing the connecting plate 12 to rotate and feed onto the conveyor belt 11. Simultaneously, the rotation of the gear 6 drives the corresponding shaft to rotate, causing the conveyor belt 11 to rotate and transport the feed. This, along with the rotation of the other shafts, ensures that the feed is intermittently and evenly distributed on the conveyor belt 11, with the same amount of feed dispensing each time, thus achieving quantitative feeding. The system allows for the intermittent and even distribution of feed on the conveyor belt 11 for quantitative feeding, avoiding overfeeding or underfeeding, improving feed utilization, and saving costs. After the rabbits consume the feed on the conveyor belt 11, the connecting plate 12 is reset and sealed, and the motor 5 is turned off. During the breeding process, the rabbits defecate, and their droppings are discharged from the bottom of the cage 7 into the droppings collection box 702. Then, a water source and pump are connected to the first connecting pipe 701, and the pump is started, allowing water to flow into the first connecting pipe 702. In step 1, the spray from nozzle 703 washes the feces in the feces storage box 702. Since both the feces storage box 702 and the guide pipe 8 are inclined, the feces flow along the feces storage box 702 into the guide pipe 8, then into the second connecting pipe 9, and finally out through the third connecting pipe 10. This allows for automatic washing and discharge of the rabbit feces during breeding, facilitating the cleaning of the feces storage box 702, reducing the growth of bacteria and parasites, optimizing the growth environment, reducing odor, and improving cleaning efficiency. After washing is complete, the water pump can be turned off.
[0026] The above description is merely an embodiment of this utility model and is not intended to limit the scope of this utility model. All equivalent substitutions made within the principles of this utility model should be included within the protection scope of this utility model. Contents not described in detail in this utility model are existing technologies known to those skilled in the art.
Claims
1. A quantitative feeding device for meat rabbits, characterized by: It includes a support frame (1), a cage door (2), a feed pipe (3), a storage box (4), a cover (401), a manure box (702), a cage (7), a metering component, and a cleaning component. The manure box (702) has two parts, one at the top and one at the bottom. The left and right parts of the manure box (702) are connected to two support frames (1) at the front and back. The upper side of the manure box (702) is connected to a cage (7). The front part of the cage (7) is connected to a cage door (2). The right side of the front right part of the manure box (702) is connected to a feed pipe (3). The upper right side of the cage (7) is connected to a storage box (4). The upper part of the storage box (4) is connected to a cover (401) at the top. The manure box (702) is equipped with a metering component for metering feed. The lower part of the manure box (702) is equipped with a cleaning component for cleaning rabbit manure.
2. The quantitative feeding device for rabbit farming as described in claim 1, characterized in that: All storage bins (4) are made of transparent material.
3. The quantitative feeding device for rabbit farming as described in claim 1, characterized in that: The lid (401) has a handle on the upper right side.
4. The quantitative feeding device for rabbit farming as described in claim 1, characterized in that: The stool storage box (702) is higher in the front and lower in the back.
5. The quantitative feeding device for rabbit farming as described in claim 1, characterized in that: The quantitative component includes a motor (5), a gear (6), a conveyor belt (11), and a connecting plate (12). The lower right front side of the stool storage box (702) is connected to a motor (5). The motor (5) and the processor are electrically connected through a control module. The output shaft of the motor (5) is connected to a gear (6). The inner right side of the stool storage box (702) is rotatably connected to a connecting plate (12). The front of the connecting plate (12) is also connected to a gear (6). Two adjacent gears (6) mesh with each other. The front of the stool storage box (702) is provided with multiple rotating shafts. The rightmost rotating shaft is connected to the output shaft of the adjacent motor (5). The three rotating shafts on the same stool storage box (702) are all connected by a conveyor belt (11).
6. The quantitative feeding device for rabbit farming as described in claim 1, characterized in that: The cleaning assembly includes a first connecting pipe (701), a nozzle (703), a guide pipe (8), a second connecting pipe (9), and a third connecting pipe (10). The lower front part of the waste collection box (702) is connected to the first connecting pipe (701), and multiple nozzles (703) are connected to the first connecting pipe (701). The rear side of the waste collection box (702) is connected to the guide pipe (8), the right side of the guide pipe (8) is connected to the second connecting pipe (9), and the lower left side of the guide pipe (8) is connected to the third connecting pipe (10).