A large antelope treatment compression fixation frame

By designing a compression restraint frame for treating antelopes, and utilizing guide pulleys and a gate structure, the problems of fixation and space control in the examination and treatment of antelopes were solved, achieving a safe and convenient treatment process.

CN224441510UActive Publication Date: 2026-07-03HENAN YINJI JIABAO AMUSEMENT PARK MANAGEMENT CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
HENAN YINJI JIABAO AMUSEMENT PARK MANAGEMENT CO LTD
Filing Date
2025-03-11
Publication Date
2026-07-03

AI Technical Summary

Technical Problem

Existing treatment restraints are not suitable for herbivores such as antelopes, as they are either too small or too large, making it difficult to securely fix and move them, which leads to difficulties in examination and treatment.

Method used

A compression restraint frame for antelope treatment is designed. It utilizes guide pulleys to limit sliding within an adjustable track, combined with multiple sets of gates, to achieve compression and movement functions, ensuring the antelope is safely fixed in the compression cage, and is suitable for intravenous infusion treatment and simple examinations.

Benefits of technology

This method enables the safe immobilization and spatial control of antelopes, simplifies the detection and treatment process, and reduces production costs and time.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model relates to the field of restraint frames, and more particularly to a compression restraint frame for treating antelopes. It includes a supporting base plate, a fixed plastic frame, a door frame, an adjustable compression door, and a protective net. The fixed plastic frame is fixedly welded to the top of the supporting base plate. Door frames are fixedly welded to the bottom ends of two sets of first U-shaped connecting blocks, and adjustable compression doors are fixedly welded to the bottom ends of two sets of second U-shaped connecting blocks. No protective net is provided at the top of the fixed plastic frame. This utility model utilizes guide pulleys that slide within an adjustable track to achieve compression. It uses a compression and movement cage for herbivores to perform functions such as detection and treatment. Multiple door frames allow for safe restraint of the antelope within the compression cage for intravenous infusion treatment and simple examinations. It also allows for pushing, pulling, and compression, with adjustable space size. Furthermore, it is simple to manufacture, low in cost, and has a short production cycle.
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Description

Technical Field

[0001] This utility model relates to the field of restraint frames, and more particularly to a compression restraint frame for treating antelope. Background Technology

[0002] A treatment restraint is a device used to restrict or fix the movement of animals (usually livestock). It is widely used in animal husbandry and veterinary treatment. It uses a mechanical structure to fix the animal in a specific position for operations such as examination, treatment, mating, and hoof trimming.

[0003] However, existing giraffe restraint cages are still unsuitable for wild or captive herbivores such as antelopes. Giraffe restraint cages are designed primarily for the physiological characteristics of giraffes, specifically the height of their legs, and are too tall for antelopes. Furthermore, giraffe restraint cages need to be firmly fixed for safety and cannot be moved. While compression restraint cages are movable for predators, they are too small for herbivores like antelopes. Anesthetizing antelopes carries significant risks. Without suitable restraint cages, animal examination and treatment become difficult. Therefore, it is necessary to design restraint cages that are easily compressible, maneuverable, and portable for large herbivores.

[0004] Therefore, since the above-mentioned treatment restraints are too small to be used for herbivores such as antelopes, a treatment compression restraint for antelopes can be designed. Utilizing a compression structure, it can be pushed, pulled, compressed, and its size can be controlled. Utility Model Content

[0005] To overcome the problem.

[0006] The technical solution of this utility model is as follows: a compression restraint frame for treating antelope, including a supporting base plate, a fixed plastic frame, a door blocking frame, an adjustable compression door, and a protective net. The fixed plastic frame is fixedly welded to the top of the supporting base plate, the door blocking frames are fixedly welded to the bottom ends of two sets of first U-shaped connecting blocks, and the adjustable compression doors are fixedly welded to the bottom ends of two sets of second U-shaped connecting blocks. The protective net is not provided at the top of the fixed plastic frame.

[0007] Preferably, the compression purpose is achieved by using guide pulleys to slide within the adjustment track. The compression cage for herbivores can be used to perform functions such as detection and treatment. At the same time, multiple sets of gates can safely restrain the antelope in the compression cage for intravenous treatment and simple examination. It can also be pushed, pulled, compressed, and the size of the space can be controlled. Furthermore, it is simple to manufacture, low in cost, and has a short production cycle.

[0008] Preferably, the fixed plastic frame has two sets of fixed limiting frames fixedly welded to its front and rear ends, and two sets of U-shaped positioning blocks fixedly welded to the front end of the fixed limiting frames. Two sets of first guide pulleys are slidably connected inside the first adjusting track. A sealing steel plate is welded to the lower half of the door frame. Two sets of L-shaped pin plates are fixedly welded to the side end of the door frame. The L-shaped pin plates are equipped with fixing rods for fixing the equipment. A second guide pulley is slidably connected inside the second adjusting track. A second U-shaped connecting block is provided on the outside of the second guide pulley. A push-pull handle is fixedly welded to the outside of the adjusting compression door. Multiple sets of buffer pads are fixedly connected inside the adjusting compression door. An anti-slip soft pad is fixedly connected to the other side of the buffer pad.

[0009] Preferably, two sets of counterweight bearing plates for increasing the weight of the device chassis are fixedly welded to the bottom end of the support base plate, and wear-resistant protective pads are fixedly connected to the bottom end of the counterweight bearing plates.

[0010] Preferably, a first U-shaped connecting block is connected to the outer side of the first guide pulley, and a protective crossbar is welded to the upper part of the gate frame.

[0011] Preferably, a first adjustment track is fixedly welded to the outer sides of the front and rear ends of the fixed plastic frame, and a second adjustment track is fixedly welded to the top part of the inner side of the fixed plastic frame.

[0012] As a preferred option, the top part is enclosed with wire mesh, extending above the pulley.

[0013] As a preferred option, the compression push-pull type of Baoding frame can be replaced by a crank type or electric type, and the main frame can be welded or fixed with screws.

[0014] The beneficial effects of this utility model are:

[0015] 1. The compression is achieved by using guide pulleys to slide within the adjustable track. The compression cage for herbivores can be used for functions such as detection and treatment. Multiple sets of gates can safely restrain the antelope in the compression cage for intravenous treatment and simple examination. It can be pushed, pulled, compressed, and the size of the space can be controlled. It is also simple to manufacture, low in cost, and has a short production cycle. Attached Figure Description

[0016] Figure 1 The diagram shown is a schematic representation of the overall structure of this utility model.

[0017] Figure 2 The diagram shown is a schematic representation of the counterweight support plate structure of this utility model.

[0018] Figure 3 The diagram shown is a schematic representation of the gate frame structure of this utility model.

[0019] Figure 4The diagram shown is a schematic representation of the adjustable compression gate structure of this utility model.

[0020] Explanation of reference numerals in the attached drawings: 1. Support base plate; 2. Counterweight load-bearing plate; 3. Wear-resistant protective pad; 4. Fixed plastic frame; 5. Fixed limit frame; 6. U-shaped positioning block; 7. First adjusting track; 8. Second adjusting track; 9. First guide pulley; 10. First U-shaped connecting block; 11. Door stop frame; 12. Protective crossbar; 13. Sealing steel plate; 14. L-shaped pin plate; 15. Fixed insert rod; 16. Second guide pulley; 17. Second U-shaped connecting block; 18. Adjustable compression door; 19. Push-pull handle; 20. Buffer pad; 21. Anti-slip soft pad; 22. Protective net. Detailed Implementation

[0021] The present invention will be further described below with reference to the accompanying drawings and embodiments.

[0022] Please see Figures 1-4 This utility model provides an embodiment: a treatment compression restraint frame for antelopes, including a supporting base plate 1, a fixed plastic frame 4, a door frame 11, an adjustable compression door 18, and a protective net 22. The fixed plastic frame 4 is fixedly welded to the top of the supporting base plate 1. The door frame 11 is fixedly welded to the bottom ends of two sets of first U-shaped connecting blocks 10. The adjustable compression door 18 is fixedly welded to the bottom ends of two sets of second U-shaped connecting blocks 17. The fixed plastic frame 4 is not equipped with a protective net 22 at its top. It uses guide pulleys to limit sliding within the adjustable track, thereby achieving the purpose of compression. It solves the functions of detection and treatment by compressing and moving herbivore compression cages. At the same time, multiple sets of door barriers can safely restrain antelopes in compression cages for intravenous infusion treatment and simple examinations. It can also be pushed, pulled, compressed, and the space size can be controlled. It is simple to manufacture, low in cost, and has a short manufacturing cycle.

[0023] Please see Figures 2-3In this embodiment, two sets of fixed limiting frames 5 are fixedly welded to the front and rear ends of the fixed plastic frame 4. Two sets of U-shaped positioning blocks 6 are fixedly welded to the front end of the fixed limiting frame 5. Two sets of first guide pulleys 9 are slidably connected inside the first adjusting track 7. A sealing steel plate 13 is welded to the lower half of the gate frame 11. Two sets of L-shaped pin plates 14 are fixedly welded to the side end of the gate frame 11. Fixed insert rods 15 for fixing the equipment are provided inside the L-shaped pin plates 14. Second guide pulleys 16 are slidably connected inside the second adjusting track 8. The second guide pulley 16 is provided with a second U-shaped connecting block 17 on the outside. The adjusting compression door 18 is fixedly welded with a push-pull handle 19 on the outside. Multiple sets of buffer pads 20 are fixedly connected inside the adjusting compression door 18. Anti-slip soft pads 21 are fixedly connected to the other side of the buffer pads 20. The door frame 11 can be compressed. Before the animal enters, the door frame 11 is pulled outward to maintain the maximum space before the target animal enters the equipment, so as to facilitate the antelope to enter the equipment. One set of door frames 11 is closed. The left and right push-pull is pushed to the rightmost side and the safety pin is inserted.

[0024] Please see Figure 4 In this embodiment, two sets of counterweight bearing plates 2 for increasing the weight of the device chassis are fixedly welded to the bottom end of the supporting base plate 1. Wear-resistant protective pads 3 are fixedly connected to the bottom end of the counterweight bearing plates 2. A first U-shaped connecting block 10 is connected to the outside of the first guide pulley 9. A protective crossbar 12 is welded to the upper half of the door frame 11. A first adjusting rail 7 is fixedly welded to the outer sides of the front and rear ends of the fixed plastic frame 4. A second adjusting rail 8 is fixedly welded to the top of the inside of the fixed plastic frame 4. The top part is enclosed with wire mesh, which extends above the pulley and presses against the frame. The push-pull type can be replaced by a crank type or an electric type. The main frame adopts a welding method: it can be replaced by a screw fixing mode. Another set of gate frame 11 is opened as the entrance for the antelope to enter the equipment. After the antelope enters the equipment, quickly close the gate frame 11, push the left and right horizontal gate frame 11 forward to the end, insert the safety pin, and then push the adjusting compression door 18 to compress the space of the antelope and keep it in a suitable position. Secure the safety pin. The antelope is in a relatively small space. There is a protective net 22 on the top to prevent it from escaping from above.

[0025] During operation, the barrier frame 11 can be compressed. Before the animal enters, the barrier frame 11 is pulled outward to maximize the space before the animal enters the equipment, making it easier for the antelope to enter. One set of barrier frames 11 is closed, pushed to the far right, and the safety pin is inserted. The other set of barrier frames 11 is opened as the entrance for the antelope to enter the equipment. Once the antelope is inside, the barrier frames 11 are quickly closed, and the horizontally opened barrier frames 11 are pushed forward to the end. The safety pin is inserted, and then the adjustment compression door 18 is pushed to compress the space for the antelope, keeping it in a suitable position. The safety pin is then secured. The antelope is in a relatively small space, with a protective net 22 at the top to prevent it from escaping from above.

[0026] Through the above steps, the guide pulley slides within the adjustable track to achieve compression. The compression cage for herbivores can be used to perform functions such as detection and treatment. At the same time, multiple sets of gates can safely restrain the antelope in the compression cage for intravenous treatment and simple examination. It can also be pushed, pulled, compressed, and the size of the space can be controlled. It is simple to manufacture, low in cost, and has a short production cycle.

Claims

1. A large antelope treatment compression holding frame comprising a supporting bottom plate (1); characterized in that: It also includes a fixed plastic frame (4), a door frame (11), an adjustable compression door (18) and a protective net (22). The top of the supporting base plate (1) is fixedly welded with a fixed plastic frame (4). The bottom ends of the two sets of first U-shaped connecting blocks (10) are fixedly welded with door frames (11). The bottom ends of the two sets of second U-shaped connecting blocks (17) are fixedly welded with adjustable compression doors (18). The top of the fixed plastic frame (4) is not equipped with a protective net (22).

2. A giraffe treatment compression holding frame according to claim 1, characterized in that: The fixed plastic frame (4) has two sets of fixed limiting frames (5) fixedly welded to the front and rear ends. The fixed limiting frame (5) has two sets of U-shaped positioning blocks (6) fixedly welded to the front end. The first adjusting track (7) has two sets of first guide pulleys (9) slidably connected inside. The lower half of the door frame (11) has a sealing steel plate (13) welded to it. The side end of the door frame (11) has two sets of L-shaped pin plates (14) fixedly welded to it. The L-shaped pin plates (14) have fixed insert rods (15) for fixing the equipment inside. The second adjusting track (8) has a second guide pulley (16) slidably connected inside. The second guide pulley (16) has a second U-shaped connecting block (17) on the outside. The adjusting compression door (18) has a push-pull handle (19) fixedly welded to the outside. The adjusting compression door (18) has multiple sets of buffer pads (20) fixedly connected inside. The other side of the buffer pads (20) has an anti-slip soft pad (21) fixedly connected.

3. A giraffe treatment compression holding frame according to claim 2, characterized in that: The bottom end of the supporting base plate (1) is fixedly welded with two sets of counterweight bearing plates (2) for increasing the weight of the device chassis. The bottom end of the counterweight bearing plate (2) is fixedly connected with a wear-resistant protective pad (3).

4. A giraffe treatment compression holding frame according to claim 3, characterized in that: The first guide pulley (9) is connected to the first U-shaped connecting block (10) on the outside, and the upper part of the gate frame (11) is welded with a protective crossbar (12).

5. A giraffe treatment compression holding frame according to claim 4, characterized in that: The front and rear outer sides of the fixed plastic frame (4) are fixedly welded with a first adjustment track (7), and the top part of the inside of the fixed plastic frame (4) is fixedly welded with a second adjustment track (8).

6. A large antelope treatment compression holding frame according to claim 1, characterized in that: The top part is enclosed with wire mesh, extending above the pulley.

7. A giraffe therapy compression restraint as claimed in claim 6, characterised in that: For the compression push-pull type of Baoding frame, a crank-type or electric type can be used instead. For the main frame, a welding method can be used instead of a screw fixing method.