Animal young animal isolated feeding observation equipment for animal husbandry

By introducing wheels and a feeding mechanism into animal litter isolation and rearing equipment for animal husbandry and veterinary medicine, the problem of inconvenient equipment handling has been solved, the flexibility and functionality of the equipment have been improved, and the growth needs of the litters have been met.

CN224386439UActive Publication Date: 2026-06-23卢光景

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
卢光景
Filing Date
2026-05-06
Publication Date
2026-06-23

AI Technical Summary

Technical Problem

The existing isolation and feeding equipment needs to be moved to the testing area for inspection, which is inconvenient and affects the flexibility of use.

Method used

An animal calf isolation and observation device with movable wheels was designed for animal husbandry and veterinary use. It includes a collection box, a placement unit and a feeding mechanism. The device utilizes a swivel brake wheel structure to improve mobility and is equipped with a feeding and cleaning system to enhance functionality.

Benefits of technology

It enables flexible positioning of the equipment and efficient food supply and cleaning, improving the flexibility and functionality of use and meeting the growth needs of the cubs.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a kind of animal young cub isolation feeding observation equipment for livestock veterinarian, it is related to livestock veterinarian equipment technical field, including collection box, placing piece, feeding mechanism, moving wheel, the top surface of collection box is equipped with the placing piece of intercommunication arrangement, the top surface of placing piece is equipped with feeding mechanism, the bottom four corners of collection box are all equipped with moving wheel, the outer sleeve of moving wheel is equipped with antiskid pad, and the moving wheel is universal brake wheel structure;In the utility model, through the setting of moving wheel, it is convenient for artificial to carry out position adjustment to overall device, and then make the use flexibility of overall device increase, improve functionality, by food is input into feeding pipe, food is entered into food basin through main pipe, for young cub consumption, by water is input into main pipe, it is convenient for young cub to drink, improve functionality.
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Description

Technical Field

[0001] This utility model relates to the field of animal husbandry and veterinary equipment technology, specifically to an animal cub isolation, feeding, and observation device for animal husbandry and veterinary use. Background Technology

[0002] The main purposes of setting up isolation and observation equipment for animal cubs include the following: Disease prevention and health monitoring to prevent the spread of disease: Cubs' immune systems are not fully developed and they are susceptible to pathogens. Isolation equipment can effectively block the spread of diseases (such as viruses, bacteria, parasites, etc.) within the group, especially when introducing new individuals or when an outbreak occurs, avoiding cross-infection. Early detection of symptoms: Through isolation and observation, abnormal behaviors (such as lethargy, loss of appetite, diarrhea, etc.) or physiological indicators (such as body temperature, respiratory rate) of cubs can be quickly identified, facilitating timely intervention and treatment, ensuring survival and development, and improving survival rates: Some cubs, due to weak constitution, poor ability to compete for food, or insufficient maternal resources, need to be raised separately to ensure they receive sufficient resources (such as food and temperature). Isolation equipment can simulate a suitable environment (such as constant temperature and humidity control), reducing the risk of mortality. Promoting Normal Development: Isolation allows for targeted adjustments to feed, lighting, and activity space, preventing malnutrition or developmental delays caused by group competition. Observing Natural Behavior and Habits: Isolation equipment provides an undisturbed observation environment to study the instinctive behaviors of young animals (such as feeding, exploration, and social attempts), providing data support for species behavior research. Evaluating the Effects of Human Intervention: Isolation allows for testing the impact of different feeding methods and environmental parameters (such as temperature and photoperiod) on the growth of young animals, optimizing breeding or conservation programs, and preparing them for transition to group life. Gradual Adaptation to Socialization: Some animal young need an isolation period to adapt to independent survival before gradually contacting the group (such as wolves and felines). Isolation equipment can simulate a group environment, helping young animals learn social rules and reducing the pressure of direct integration into the group. Avoiding Excessive Human Intervention: Isolation reduces human interference with young animals, preventing over-reliance on artificial feeding or contact, laying the foundation for their return to nature or group life.

[0003] The core purpose of animal cub isolation and observation equipment is to achieve health protection, disease prevention, and scientific management through a controlled environment, while also taking into account individual developmental needs and group adaptation training. Its design must incorporate species characteristics (such as body size, habits, and sensitivities) and be equipped with appropriate temperature control, disinfection, and monitoring functions. The ultimate goal is to improve the survival rate of cubs and create conditions for their subsequent return to nature or group life.

[0004] Currently, most isolation and rearing equipment is fixed in place. When it is necessary to check the cubs, the isolation box needs to be moved to the testing area, which is inconvenient for actual use.

[0005] In view of the above, this application is hereby submitted. Utility Model Content

[0006] The purpose of this invention is to provide an animal cub isolation, feeding, and observation device for animal husbandry and veterinary medicine, in order to solve the problems mentioned in the background art.

[0007] To solve the above-mentioned technical problems, this utility model provides an animal cub isolation, feeding and observation device for animal husbandry and veterinary medicine, including a collection box, a placement component, a feeding mechanism, and a moving wheel.

[0008] The top surface of the collection box is equipped with a placement component that is connected to it. The top surface of the placement component is equipped with a feeding mechanism. The bottom four corners of the collection box are equipped with casters. The casters are covered with anti-slip pads and are omnidirectional brake wheels.

[0009] In one embodiment, the placement device is composed of a placement box, a base box, and partitions. The placement box is a cover structure. The bottom of the placement box is fitted with a base box that is snapped together. The top surface of the base box has cleaning holes arranged in a ring. The bottom of the base box is connected to the interior of the collection box by bolts. The top surface of the base box is fitted with partitions, and four sets of partitions are arranged in a ring. The space between adjacent partitions is a place for young animals.

[0010] In one embodiment, the top surface of the placement box has an installation hole, and a feeding mechanism is installed in the installation hole. The feeding mechanism consists of a main pipe, a feeding tube, a connecting rod, and a feeding bowl. The feeding tube is installed at the top opening of the main pipe and has a funnel-shaped structure. A connecting rod is installed on the bottom outer circumference of the main pipe. Four connecting rods are installed in a circular array. The outer side of the connecting rod abuts against the inner side of the partition. The bottom of the main pipe is located at the center of the four partitions. A feeding bowl is installed at the bottom of the connecting rod. The feeding bowl is also divided into multiple feeding areas by the partition.

[0011] In one embodiment, a cleaning hole is provided at the center of the inner bottom surface of the food basin. The cleaning hole is an internally threaded hole and is connected to the interior of the collection box. An operating rod is installed inside the main pipe. A handle is installed at the top of the operating rod, and a plug is installed at the bottom of the operating rod. The plug is a threaded head structure.

[0012] In one embodiment, an air supply pipe is installed on the top surface of the placement box. The air supply pipe is connected to an external fresh air supply mechanism. When the air supply pipe is not in use, a sealing cap is inserted into the air supply pipe.

[0013] In one embodiment, a door is installed on the right end face of the collection box and is snapped together therewith, and the inside of the collection box is pre-filled with sand.

[0014] In one embodiment, a disinfection box is installed on the top surface of the collection box, and disinfectant is pre-placed inside the disinfection box.

[0015] Compared with the prior art, the beneficial effects of this utility model are:

[0016] 1. The installation of wheels facilitates manual adjustment of the overall device's position, thereby increasing its flexibility and functionality. Food is placed into the feeding tube, passes through the main tube, and enters the feeding bowl for the young to eat. Water is added to the main tube for the young to drink, further enhancing functionality.

[0017] 2. The cleaning hole is sealed by engaging the plug with it. After the pups finish eating, the plug is removed by rotating the operating lever. The feeding bowl is cleaned by adding cleaning water into the main pipe. The wastewater is collected and treated in the collection box. When the air supply pipe is not in use, a sealing cap is inserted into the air supply pipe. The air supply pipe can supply fresh air or hot / cold air to the box as needed. Attached Figure Description

[0018] Figure 1 A schematic diagram of the overall structure of an animal cub isolation and observation device for animal husbandry and veterinary use;

[0019] Figure 2 A detailed disassembled diagram of the components of a livestock and veterinary animal cub isolation and observation device.

[0020] Figure 3 Detailed installation diagram of the feeding mechanism for an animal cub isolation and observation device used in animal husbandry and veterinary medicine;

[0021] Figure 4 A detailed diagram of the feeding mechanism for an animal young isolation and observation device used in animal husbandry and veterinary medicine.

[0022] In the diagram: 1. Collection box; 11. Door; 12. Disinfection box; 2. Placement component; 21. Placement box; 22. Base box; 23. Partition; 24. Mounting hole; 25. Air supply pipe; 3. Feeding mechanism; 31. Main pipe; 32. Feeding pipe; 33. Connecting rod; 34. Feeding bowl; 35. Cleaning hole; 36. Operating lever; 37. Handle; 38. Plug; 4. Casters. Detailed Implementation

[0023] 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.

[0024] Please see Figure 1-3 This utility model provides a technical solution including a collection box 1, a placement component 2, a feeding mechanism 3, and a moving wheel 4.

[0025] like Figures 1-2 As shown, a placement component 2 is installed on the top surface of the collection box 1 and communicates with it. A feeding mechanism 3 is installed on the top surface of the placement component 2. Each of the four corners of the bottom of the collection box 1 is equipped with a movable wheel 4. The movable wheel 4 is covered with an anti-slip pad. The movable wheel 4 is a universal brake wheel structure. During operation, the movable wheel 4 facilitates manual adjustment of the position of the entire device, thereby increasing the flexibility of the device and improving its functionality.

[0026] Preferably, in one embodiment, such as Figures 2-3 As shown, the placement component 2 is composed of a placement box 21, a base box 22, and partitions 23. The placement box 21 is a cover structure. The bottom of the placement box 21 is fitted with a base box 22 that is snapped together. The top surface of the base box 22 has cleaning holes arranged in a ring. The bottom of the base box 22 is connected to the interior of the collection box 1 by bolts. The top surface of the base box 22 is fitted with partitions 23. Four sets of partitions 23 are arranged in a ring. The space between adjacent partitions is a place for the pups. During operation, the partitions 23 allow a single placement component 2 to accommodate multiple pups, improving space utilization and further enhancing the functionality of the overall device.

[0027] Preferably, in one embodiment, such as Figures 2-4As shown, the top surface of the placement box 21 has an installation hole 24, and a feeding mechanism 3 is installed in the installation hole 24. The feeding mechanism 3 consists of a main pipe 31, a feeding tube 32, a connecting rod 33, and a feeding bowl 34. The feeding tube 32 is installed at the top opening of the main pipe 31. The feeding tube 32 has a funnel-shaped structure. The connecting rod 33 is installed on the bottom outer circumference of the main pipe 31. Four connecting rods 33 are installed in a circular array. The outer side of the connecting rod 33 abuts against the inner side of the partition 23. The bottom of the main pipe 31 is located at the center of the four partitions 23. The feeding bowl 34 is installed at the bottom of the connecting rod 33. The feeding bowl 34 is also divided into multiple feeding areas by the partitions 23. When working, food is put into the feeding tube 32, and the food passes through the main pipe 31 and enters the feeding bowl 34 for the pups to eat. Water is added to the main pipe 31 to facilitate drinking for the pups, thus improving functionality.

[0028] Preferably, in one embodiment, such as Figure 4 As shown, a cleaning hole 35 is provided at the center of the inner bottom surface of the feeding bowl 34. The cleaning hole 35 is an internally threaded hole and is connected to the interior of the collection box 1. An operating rod 36 is installed inside the main pipe 31. A handle 37 is installed on the top of the operating rod 36, and a plug 38 is installed on the bottom of the operating rod 36. The plug 38 is a threaded head structure. During operation, the plug 38 engages with the cleaning hole 35 to seal the cleaning hole 35. After the cubs finish eating, the plug 38 is removed by rotating the operating rod 36. Cleaning water is added into the main pipe 31 to clean the feeding bowl 34. The wastewater after cleaning enters the collection box 1 for collection and treatment.

[0029] Preferably, in one embodiment, such as Figures 2-3 As shown, an air supply pipe 25 is installed on the top surface of the placement box 21. The air supply pipe 25 is connected to an external fresh air supply mechanism. When the air supply pipe 25 is not in use, a sealing cap is inserted into the air supply pipe 25. Through the setting of the air supply pipe 25, fresh air or hot and cold air can be supplied to the placement box 21 as needed.

[0030] Preferably, in one embodiment, such as Figures 2-3 As shown, the right end face of the collection box 1 is fitted with a door 11 that is snapped together with it. The inside of the collection box 1 is pre-filled with sand to facilitate the collection and treatment of feces, residues and other waste.

[0031] Preferably, in one embodiment, such as Figures 2-3 As shown, a disinfection box 12 is installed on the top surface of the collection box 1, and disinfectant is pre-placed inside the disinfection box 12.

[0032] Working principle:

[0033] The installation of the movable wheels 4 facilitates manual adjustment of the overall device's position, thereby increasing its flexibility and functionality. Food is fed into the feeding pipe 32, passes through the main pipe 31, and enters the feeding bowl 34 for the pups to eat. Water is added to the main pipe 31 for the pups to drink, further enhancing functionality. The cleaning hole 35 is sealed by the engagement of the plug 38. After the pups finish eating, the plug 38 is removed by rotating the operating rod 36. Cleaning water is added to the main pipe 31 to clean the feeding bowl 34. The wastewater is collected and treated in the collection box 1. When the air supply pipe 25 is not in use, a sealing cap is inserted into it. The air supply pipe 25 allows for the supply of fresh air or hot / cold air to the placement box 21 as needed.

Claims

1. A livestock and veterinary animal cub isolation, feeding, and observation device, characterized in that: Collection box (1), placement piece (2), feeding mechanism (3), moving wheel (4); The top surface of the collection box (1) is equipped with a placement component (2) that is connected to it. The top surface of the placement component (2) is equipped with a feeding mechanism (3). The four corners of the bottom of the collection box (1) are equipped with moving wheels (4). The moving wheels (4) are covered with anti-slip pads. The moving wheels (4) are omnidirectional brake wheels. The placement component (2) is composed of a placement box (21), a bottom box (22), and a partition (23). The placement box (21) is a cover structure. The bottom box (22) is installed at the bottom of the placement box (21) and is snapped to it. The top surface of the bottom box (22) has cleaning holes arranged in a ring array. The bottom of the bottom box (22) is connected to the interior of the collection box (1) by bolts. The top surface of the bottom box (22) is equipped with a partition (23). The partition (23) is arranged in a ring array with four sets. The space between adjacent partitions (23) is the place for the cubs. The top surface of the placement box (21) is provided with an installation hole (24), and a feeding mechanism (3) is installed in the installation hole (24). The feeding mechanism (3) consists of a main pipe (31), a feeding tube (32), a connecting rod (33), and a feeding bowl (34). The feeding tube (32) is installed at the top opening of the main pipe (31). The feeding tube (32) is a funnel-shaped structure. The connecting rod (33) is installed on the bottom outer circumference of the main pipe (31). Four connecting rods (33) are installed in a circular array. The outer side of the connecting rod (33) abuts against the inner side of the partition (23). The bottom of the main pipe (31) is located at the center of the four partitions (23). The feeding bowl (34) is installed at the bottom of the connecting rod (33). The feeding bowl (34) is also divided into multiple feeding areas by the partition (23). A cleaning hole (35) is provided at the center of the inner bottom surface of the food basin (34). The cleaning hole (35) is an internally threaded hole. The cleaning hole (35) is connected to the inside of the collection box (1). An operating rod (36) is installed inside the main pipe (31). A handle (37) is installed on the top of the operating rod (36). A plug (38) is installed on the bottom of the operating rod (36). The plug (38) is a threaded head structure.

2. The animal cub isolation and observation device for animal husbandry and veterinary use as described in claim 1, characterized in that: The top surface of the placement box (21) is equipped with an air supply pipe (25), which is connected to an external fresh air supply mechanism. When the air supply pipe (25) is not in use, a sealing cap is inserted into the air supply pipe (25).

3. The animal cub isolation and observation device for animal husbandry and veterinary use as described in claim 1, characterized in that: The right end of the collection box (1) is fitted with a door (11) that is snapped together with it, and the inside of the collection box (1) is pre-filled with sand.

4. The animal cub isolation and observation device for animal husbandry and veterinary use as described in claim 3, characterized in that: The top surface of the collection box (1) is equipped with a disinfection box (12), and the disinfection box (12) contains a disinfectant.