A veterinary horn cutting device for cattle and sheep

By designing a veterinary horn-breaking device for cattle and sheep that includes components such as clamping arms, a fixed base, and a rotating adjustment rod, the problem of head displacement during slight struggles in cattle and sheep has been solved, improving stability and safety, and ensuring the accuracy and safety of the surgery.

CN224484216UActive Publication Date: 2026-07-14

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Filing Date
2025-02-25
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

Existing veterinary horn-breaking devices for cattle and sheep are prone to shifting or slipping when the cattle or sheep struggle slightly with their heads, affecting the accuracy and safety of the operation.

Method used

A veterinary horn-breaking device for cattle and sheep has been designed, including clamping arms, a fixed base, a rotating adjustment rod, a guide bracket, and a manual pressure handle. It employs components such as a concave arc surface, anti-slip protrusions, a locking mechanism, and a hydraulic damper to ensure that the device does not shift or slip when the cattle or sheep struggle slightly with their heads.

Benefits of technology

This improved the stability and safety of the procedure, ensuring accurate positioning and effective fixation of the cattle and sheep horns, and reducing surgical risks.

✦ Generated by Eureka AI based on patent content.

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Abstract

The embodiment of the present disclosure provides a veterinary horn cutting device for cattle and sheep, which comprises a clamping arm provided with an inner concave curved surface, anti-skid protrusions and a locking mechanism capable of adjusting tightness; a fixed base for providing support; a rotary adjusting rod connected at one end to the fixed base and at the other end to the clamping arm; a guide support fixed horizontally on the fixed base and providing a linear motion track for the rotary adjusting rod and the connected clamping arm in the horizontal direction; and a manual pressing handle acting on the end of the clamping arm through a connecting rod mechanism. Through the scheme of the embodiment of the present disclosure, the cattle and sheep head can not be deviated or slipped when slightly struggling during operation.
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Description

Technical Field

[0001] This application relates to the field of livestock equipment technology, specifically to a veterinary device for breaking horns in cattle and sheep. Background Technology

[0002] Veterinary horn trimming devices for cattle and sheep are tools specifically designed for livestock farming, primarily used to safely and efficiently remove excessively long horns during cattle and sheep breeding. However, a significant challenge in practical operation is ensuring the device doesn't shift or slip when the animal's head struggles slightly. Because cattle and sheep naturally react to discomfort or fear, even slight movements can affect the device's positioning accuracy, increasing the risk and difficulty of the operation and potentially leading to inaccurate cutting or accidental injury. Summary of the Invention

[0003] In view of this, the present disclosure provides a veterinary horn-breaking device for cattle and sheep, which at least partially solves the problems existing in the prior art.

[0004] This application discloses a veterinary horn-breaking device for cattle and sheep, comprising:

[0005] Clamping arms are used to fix and clamp the horns of cattle and sheep. The clamping arms have a concave arc surface, anti-slip protrusions, and a locking mechanism that can adjust the tightness.

[0006] Fixed base, the fixed base being used to provide support;

[0007] A rotating adjusting rod, one end of which is connected to a fixed base and the other end of which is connected to a clamping arm;

[0008] A guide bracket, which is horizontally fixed on a fixed base, and provides a linear motion track for the rotating adjustment rod and the connected clamping arm in the horizontal direction;

[0009] A manual clamping handle, which is manufactured via a linkage mechanism to hold the end of the clamping arm; wherein

[0010] The locking mechanism includes a locking screw and a compression spring. The clamping force is adjusted by rotating the screw, while the spring buffers the changes in clamping force.

[0011] The concave arc surface of the clamping arm is provided with multiple anti-slip teeth, which are arranged along the grain direction of cattle and sheep horns; and

[0012] The anti-slip protrusions of the clamping arms are tapered in shape and have elastic material pads at the top.

[0013] In one specific embodiment, the bottom surface of the fixed base is provided with a suction cup.

[0014] In one specific embodiment, the fixed base is provided with a vibration suppression module.

[0015] In one specific embodiment, the rotating adjusting rod adopts a multi-section telescopic design, and positioning and locking at different angles are achieved through positioning holes.

[0016] In one specific embodiment, the rotary adjusting rod is provided with a hydraulic damper.

[0017] In one specific embodiment, the guide bracket is equipped with a ball bearing guide.

[0018] In one specific embodiment, the manual handle is equipped with a pressure sensor, and the applied pressure value is displayed in real time via an electronic control box, so that the operator can adjust it appropriately as needed.

[0019] In one specific embodiment, the outer surface of the transmission rod in the linkage mechanism is provided with scale markings.

[0020] In one specific embodiment, the top of the manual handle is provided with a non-slip grip texture and is further provided with a tactile rubber sleeve.

[0021] This disclosure provides a veterinary horn-removing device for cattle and sheep, comprising: a clamping arm for fixing and clamping the horns of cattle and sheep, wherein the clamping arm has a concave arc surface, anti-slip protrusions, and a locking mechanism for adjusting the tightness; a fixed base for providing support; a rotating adjusting rod, one end of which is connected to the fixed base and the other end of which is connected to the clamping arm; a guide bracket horizontally fixed to the fixed base and providing a linear motion track for the rotating adjusting rod and the connected clamping arm in the horizontal direction; and a manual pressure handle, which is manufactured by a linkage machine for the end of the clamping arm; wherein the locking mechanism includes a locking screw and a compression spring, the clamping force is adjusted by rotating the screw, and the spring buffers the change in clamping force; the concave arc surface of the clamping arm is provided with multiple anti-slip teeth arranged along the grain of the cattle and sheep horns; and the anti-slip protrusions of the clamping arm are conical structures with elastic material pads at the top. The solution provided by this disclosure can solve the problem of how to ensure that the head of cattle or sheep does not shift or slide when it struggles slightly during operation. Attached Figure Description

[0022] In the accompanying drawings, unless otherwise specified, the same reference numerals throughout the various drawings denote the same or similar parts or elements. These drawings are not necessarily drawn to scale. It should be understood that these drawings depict only some embodiments disclosed in this application and should not be construed as limiting the scope of this application.

[0023] Figure 1This is an isometric drawing of the cattle and sheep horn breaking device of this utility model;

[0024] Figure 2 This is an axonometric drawing of the anti-slip protrusion of this utility model;

[0025] Figure 3 This is a schematic diagram of the hydraulic damper of this utility model;

[0026] Figure 4 This is a schematic diagram of the transmission rod of this utility model.

[0027] In the diagram: 1. Clamping arm; 2. Fixed base; 3. Rotary adjustment rod; 4. Guide bracket; 5. Manual pressure handle; 6. Anti-slip teeth; 7. Elastic material gasket; 8. Adjustable locking screw; 9. Compression spring; 10. Suction cup; 11. Concave arc surface; 12. Anti-slip protrusion; 13. Locking mechanism; 14. Vibration suppression module; 15. Positioning hole; 16. Hydraulic damper; 17. Ball bearing guide; 18. Pressure sensor; 19. Transmission rod; 20. Scale markings; 21. Anti-slip texture on the handle; 22. Grip rubber sleeve. Detailed Implementation

[0028] The embodiments of this disclosure will now be described in detail with reference to the accompanying drawings.

[0029] The following specific examples illustrate the implementation of this disclosure. Those skilled in the art can easily understand other advantages and effects of this disclosure from the content disclosed in this specification. Obviously, the described embodiments are only a part of the embodiments of this disclosure, and not all of them. This disclosure can also be implemented or applied through other different specific embodiments, and the details in this specification can also be modified or changed based on different viewpoints and applications without departing from the spirit of this disclosure. It should be noted that, in the absence of conflict, the following embodiments and features in the embodiments can be combined with each other. Based on the embodiments in this disclosure, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of this disclosure.

[0030] It should be noted that various aspects of embodiments within the scope of the appended claims are described below. It will be apparent that the aspects described herein can be embodied in a wide variety of forms, and any particular structure and / or function described herein is merely illustrative. Based on this disclosure, those skilled in the art will understand that one aspect described herein can be implemented independently of any other aspect, and two or more of these aspects can be combined in various ways. For example, any number of aspects set forth herein can be used to implement the device and / or practice the method. Additionally, this device and / or method can be implemented using structures and / or functionalities other than one or more of the aspects set forth herein.

[0031] It should also be noted that the illustrations provided in the following embodiments are only schematic representations of the basic concept of this disclosure. The drawings only show the components related to this disclosure and are not drawn according to the number, shape and size of the components in actual implementation. In actual implementation, the form, quantity and proportion of each component can be arbitrarily changed, and the layout of the components may also be more complex.

[0032] Furthermore, specific details are provided in the following description to facilitate a thorough understanding of the examples. However, those skilled in the art will understand that the described aspects can be practiced without these specific details.

[0033] like Figure 1 As shown, a veterinary horn-breaking device for cattle and sheep according to this application includes a clamping arm 1, a fixed base 2, a rotating adjustment rod 3, a guide bracket 4, and a manual pressing handle 5. These components, through reasonable design and layout, achieve stability and safety during operation.

[0034] The clamping arm 1 is used to fix and clamp the horns of cattle and sheep. To better adapt to the natural curvature of the horns, the clamping arm 1 has a concave arc surface 11. The shape of this arc surface is specially designed to conform to the outer contour of the horns. To prevent slippage, it is equipped with anti-slip protrusions 12. The anti-slip protrusions 12 can be made of high-friction rubber or other suitable materials. In addition, the clamping arm 1 employs an adjustable locking mechanism 13, which allows the clamping force of the arm to be adjusted according to actual conditions, ensuring effective fixation of horns of different sizes.

[0035] The mounting base 2 is responsible for securely mounting the entire device onto the operating table, or it can be fixed to an external independent support frame as an alternative solution. In either case, the mounting base 2 should be able to stably support the weight of the entire tool kit and provide a reliable mounting base for the remaining components. The specific structure of the mounting base 2 typically includes several screw holes for tightening to the operating table or support frame to ensure structural stability during long-term use.

[0036] One end of the rotating adjustment rod 3 is connected to the fixed base 2 and extends from its center; the other end is connected to one side of the clamping forceps arm 1. It not only supports angle adjustment of the forceps arm but also allows for changes in its length to meet the requirements of various individual differences, enabling users to perform surgery in the most advantageous operating position. This adjustment rod may have a multi-section telescopic function, with each section's extension position secured by threads or locking pins.

[0037] To ensure that the clamping arm 1 can translate within a set spatial range without deviating from its orientation, the guide bracket 4 is horizontally positioned and integrated with the fixed base 2. This component is essentially a long, narrow track system that allows the rotating adjusting rod 3 and its end connector to move along a clearly defined path, thus ensuring precise alignment with the target position during operation. For example, in practical use, rollers or bearings on the guide rail can help reduce resistance and make the movement smoother.

[0038] The manual pressure handle 5, which enables safe closure, is linked to the clamping arm 1 via a linkage. When the medical personnel squeeze this handle, a lever transmission system transmits force until the clamping components themselves close, gripping the animal's horn, simultaneously triggering the aforementioned tension adjustment device to complete the locking process. This provides sufficient grip strength without the need for electric drive, ensuring the safety of both the operator and the livestock.

[0039] In one embodiment, continue to refer to Figure 1 The clamping arm 1 of the veterinary horn-breaking device for cattle and sheep disclosed in this application features a concave arc surface 11. This concave arc surface 11 is specially equipped with multiple anti-slip teeth 6, which are arranged according to the grain direction of the cattle or sheep horns to maximize friction with the animal's horn surface. This structural layout effectively prevents the clamping of the cattle or sheep horns from failing due to external forces or the animal's own movements during surgery. This device ensures reliable stability of the target horn area at any stage of surgical preparation and execution.

[0040] For example, the anti-slip teeth 6 are arranged in an orderly manner along the specific direction of the concave arc surface 11 of the clamping arm 1, ensuring that each tooth can tightly bond with the surface texture of the cattle or sheep horns. This not only relies on the shape design of the teeth conforming to the natural horn growth pattern, but also requires the density and height of the anti-slip teeth 6 to be precisely calculated. Specifically, the anti-slip teeth 6 are made of a robust and durable metal material and are fixed to the arc-shaped recess inside the clamping arm 1 through a precision machining process, so that they maintain good anti-slip performance under certain pressure without damaging the horn surface of the cattle or sheep. In application, the operator can confidently use greater gripping force for safe clamping.

[0041] In one embodiment, such as Figure 2As shown, the anti-slip protrusion 12 of the clamping arm 1 of the veterinary cattle and sheep horn trimming device of this application has a conical structure, with an elastic material pad 7 at the top. The clamping arm 1 is one of the key operating components, used to ensure that the head of the cattle or sheep is stable and does not slip during the horn trimming process, and the device needs to be robust enough to accommodate slight changes during the surgical operation. In particular, the anti-slip protrusion 12 is set inside the concave arc surface 11 to increase the friction between the device and the cattle or sheep horns. These design details all serve the safety and stability of the surgical process, ensuring the surgical effect by preventing the animal horn surface from slipping or causing unnecessary movement. Considering that the surface of cattle and sheep horns may have different thicknesses, the device specifically uses an adjustable locking mechanism 13 to ensure stable application to various animal individuals.

[0042] The anti-slip protrusions 12 are tapered, which not only improves the coefficient of friction but also avoids the clamping failure that is common with traditional smooth surfaces. More importantly, each anti-slip protrusion 12 is equipped with a pad made of elastic material at its tip. This material has a cushioning effect, effectively reducing the pressure on the animal's horns during prolonged clamping, preventing horn damage and providing a degree of protection. The specific selection and manufacturing method of the elastic material can be adjusted according to the needs of the application scenario. For example, rubber materials with specific elasticity and temperature resistance properties, or other suitable polymer composite materials, can be selected as needed. This ensures that sufficient clamping force is applied without causing unnecessary harm to the animal, while maintaining the durability and consistency of the equipment's function. For example, when the user precisely positions the clamping arms 1 at the target position by rotating the adjusting lever 3, the two opposing clamping arms 1 are closed by manually pressing the handle 5. The anti-slip protrusions 12 then adhere to and firmly grasp the animal's horn, while the elastic pads at the top closely contact the contour of the animal's horn. The closing force of the clamping arms 1 is controlled by the adjustable locking mechanism 13.

[0043] See Figure 1 In one embodiment, the locking mechanism 13 of a veterinary cattle and sheep horn breaking device of this application achieves effective control and stable adjustment of clamping force through a unique design. Specifically, the locking mechanism 13 includes an adjustable locking screw 8 and a compression spring 9, which work together to achieve safe and reliable clamping of cattle and sheep horns. The adjustable locking screw 8 is located at the rear end of the clamping arm 1, passes through the fixed base 2, and is threadedly connected to it. The user can finely adjust the extension length of the screw and the resulting preset clamping force by rotating this screw. At the same time, the compression spring 9, located on one side of the locking screw, is sleeved on the outer periphery of the screw, with one end abutting against the fixed base 2 and the other end connected to the corresponding part of the clamping arm 1, to ensure that when the animal moves slightly or the external force changes, the spring can automatically absorb and buffer excess stress, maintaining a relatively stable clamping state.

[0044] For example, during operation, the user can precisely control the position of the internal locking screw by simply turning the exposed handwheel, thus affecting the clamping force. This design not only facilitates rapid on-site response to the varying clamping needs of different animals, but also ensures a uniform pressure distribution throughout the entire treatment process thanks to the spring assembly, guaranteeing the safety and reliability of the equipment. This structure effectively compensates for and absorbs even slight changes in force, maintaining the safety and stability of the entire clamping process.

[0045] In one embodiment, the bottom surface of the fixing base 2 of the veterinary horn trimming device for cattle and sheep according to this application is provided with a suction cup 10. This design aims to improve the adhesion and stability of the entire device on the operating table. The fixing base 2 is the basic structural part of the entire device, installed on the operating table or fixed to an external support to ensure that it is not disturbed during operation and to improve the accuracy of operation. The suction cup 10 on the bottom surface enhances the adhesion between the device and the contact surface, ensuring that it can maintain its position even under slight vibration or external force. In addition, the selection of the suction cup 10 must take into account the flexibility and durability of the material, so that it can maintain a strong adhesion effect even when reused.

[0046] To ensure optimal fixation, the suction cup 10 is directly attached to the bottom of the mounting base 2 using a special adhesive. Depending on the application, a suction cup 10 with manual adjustment can also be selected, allowing the user to adjust the suction strength. This configuration ensures the device can be appropriately adjusted for different operating table materials. For example, when operating on glass or smooth metal surfaces, the user can change the suction strength by tightening or loosening the adjustment knob, ensuring a balance between optimal suction force and ease of assembly and disassembly. This enhances the device's stability while ensuring operational flexibility and convenience.

[0047] The above measures work together to ensure that the entire veterinary cattle and sheep horn trimming device has excellent operational reliability and positioning accuracy in various environments.

[0048] like Figure 1 As shown, in one embodiment, the fixing base 2 of the veterinary horn trimming device for cattle and sheep of this application is provided with a vibration suppression module 14. The main function of this module is to reduce minor vibrations caused by the external environment or other unexpected factors. Specifically, such minor mechanical vibrations may interfere with the stability of the animal during horn trimming surgery, thereby affecting the surgical outcome and safety. Therefore, the vibration suppression module 14 uses active control technology to suppress these interferences, enhancing the stability and robustness of the overall structure.

[0049] To achieve superior vibration suppression, the vibration suppression module 14 is designed to be installed within the fixed base 2. This location directly absorbs and reduces any form of weak oscillating energy transmitted from the outside to the operating table or external support. This module mainly consists of elastic buffer elements and damping materials. The elastic buffer elements automatically adjust their elasticity according to the vibration frequency, providing optimal resistance under different conditions. Simultaneously, the damping material converts kinetic energy into heat, ensuring rapid vibration decay. The fixed base 2, as the fundamental component connecting all moving parts, also exhibits significantly improved robustness and seismic resistance, ensuring that the position of the cattle's or sheep's head does not change due to minor disturbances throughout the entire horn-breaking process.

[0050] For example, by precisely configuring the material properties and parameter settings of the elastic buffer element, combined with optimized installation methods and connection methods, the vibration suppression module 14 can be perfectly integrated into existing devices. By rationally selecting and combining these elements, efficient and reliable technical implementation can be achieved.

[0051] In one embodiment, the rotating adjustment rod 3 of the veterinary horn trimming device for cattle and sheep of this application adopts a multi-section telescopic design, thereby enabling precise and flexible adjustment and positioning at different angles. This structure allows surgical operators to adaptively adjust the head and horns of cattle and sheep according to different body types and postures, improving the adaptability and flexibility of the surgery.

[0052] In terms of specific structural components, the multi-section telescopic design allows the component to be lengthened or shortened according to actual needs. To ensure that each section can be firmly locked and stably maintained at any length, a series of positioning holes 15 are provided to achieve locking and fixation at specific locations, preventing unwanted displacement during surgery.

[0053] One end of the rotating adjustment rod 3 is connected to the fixed base 2, while the other end is combined with the clamping arm 1. This design not only ensures the stability of the overall structure but also greatly facilitates adjustments for different usage needs. Users can achieve the desired position and angle changes by altering the degree of extension and repositioning and securing it using the positioning locking mechanism 13. The guide bracket 4, horizontally mounted on the fixed base 2, provides a certain range of movement restriction and support for the rotating adjustment rod 3, ensuring that it operates along the set path.

[0054] In practice, when adjusting the clamping angle or distance, the operator can extend the rotating adjustment rod 3 to a suitable length, aligning one of its nodes with the corresponding positioning hole 15 for fixation. This completes the angle adjustment and fixation steps, ensuring the entire device is suitable for various target objects of different shapes and sizes, improving work efficiency while guaranteeing the safety and precision of the surgical procedure. For example, when dealing with larger animals such as adult cattle, the rotating adjustment rod 3 is extended and locked using a more distant positioning hole 15 to meet the larger space requirements; while when handling relatively small sheep, a more compact fixation point is selected for the retractable telescopic section. This design simplifies many inconveniences in the preoperative preparation process.

[0055] In one embodiment, such as Figure 3 As shown, the rotating adjustment rod 3 of the veterinary horn-breaking device for cattle and sheep in this application is equipped with a hydraulic damper 16. This device can effectively delay the action response of the rotating adjustment rod 3 when the cattle or sheep struggle slightly with their heads, maintaining its current position and state. By introducing a hydraulic damping mechanism, the stability and safety during the operation are enhanced, avoiding device failure or surgical errors caused by sudden animal movement.

[0056] Specifically, the hydraulic damper 16 consists of main components such as a piston, oil seal, and spring. These components are installed inside the rotary adjusting rod 3, providing additional resistance between the clamping arm 1 and the fixed base 2. This special design mitigates instantaneous angular or displacement changes in the rotary adjusting rod 3 caused by external forces, ensuring that the entire device maintains its precise settings and control even during minor head tremors throughout the procedure. For example, when cattle or sheep sway slightly due to external disturbances, the damper buffers these unintended movements by limiting the flow rate of the internal fluid, thereby achieving a more ideal static holding performance.

[0057] In one embodiment, the guide bracket 4 of a veterinary horn-breaking device for cattle and sheep according to this application is equipped with a ball bearing guide rail 17, see [link to relevant documentation]. Figure 1 This ensures that the rotating adjusting rod 3 and the clamping arm 1 move smoothly along the straight track, while reducing the risk of skewing. The guide bracket 4 is designed with practical operational needs in mind. Its structure is matched with the fixed base 2, and it is horizontally fixed on the fixed base 2, providing support and limiting functions for the rotating adjusting rod 3 and the connected clamping arm 1 in the horizontal direction.

[0058] The ball bearing guide 17 is installed inside the guide bracket 4, covering the entire length from one end of the rotary adjusting rod 3 to the clamping arm 1, thus ensuring stable and smooth linear movement of these components during positioning operations. Specifically, the sliding pair formed between the rotary adjusting rod 3 and the clamping arm 1 and the guide bracket 4 is filled with balls, utilizing the rolling friction between the balls to reduce the coefficient of friction. This arrangement not only improves the overall operating efficiency of the mechanism but also effectively prevents angular deviations caused by non-linear displacement. The balls themselves are made of high-strength materials and are precision-machined to ensure surface finish and flatness requirements, ensuring good performance even after prolonged use.

[0059] For example, the ball bearing guide 17 can be formed with two matching grooves through high-precision casting or machining. One groove is installed on both sides of the inner wall of the guide bracket 4, and the other is located on the outer edge of the component that needs to be moved (such as the part where the rotary adjusting rod 3 and the clamping arm 1 are connected). In this way, when the position is adjusted under the action of external force, all the force is borne by countless tiny and evenly distributed balls, which is then converted into a continuous and smooth linear trajectory movement. This design avoids the jamming and excessive wear caused by traditional sliding bearings.

[0060] In one embodiment, the manual handle 5 of the veterinary horn-breaking device for cattle and sheep of this application is equipped with a pressure sensor 18, and the applied pressure value is displayed in real time through an electronic control box, allowing the operator to make appropriate adjustments according to actual needs. This design effectively improves the safety and accuracy of the operation. The linkage mechanism between the manual handle 5 and the clamping arm 1 ensures that the user's movements are accurately converted into the force applied to the cattle or sheep horns.

[0061] To ensure controllability and stability during the procedure, a pressure sensor 18 is integrated into a key contact area inside the manual pressure handle 5, enabling it to sensitively capture and transmit the magnitude and frequency of the user's applied force. This sensor connects to the electronic control box, transmitting data signals via cable. The electronic control box is placed in an easily observable location, such as the front panel of the mounting base 2 or a suitable area near the external support, allowing the surgeon to directly read the values ​​on the data display and adjust the force accordingly.

[0062] For example, in one specific instance, when the user grasps and presses down on the manual pressure handle 5, the pressure sensor 18 installed inside it senses the pressure change and immediately transmits it to the electronic control box for processing and display as a real-time reading. This technology ensures accurate pressure feedback information in different usage environments, further helping the user make fine adjustments based on the specific animal's condition and avoiding unnecessary risk of injury due to excessive force.

[0063] In one embodiment, see further. Figure 4In this application, the transmission rod 19 of the linkage mechanism of a veterinary cattle and sheep horn-breaking device is made of a high-torsional-strength material to enhance its structural stability during use. The design of the transmission rod 19 is particularly suitable for applications requiring the bearing of large torsional loads, ensuring that it is not prone to deformation or failure during operation. Furthermore, to facilitate precise adjustment of the closing amplitude, the outer surface of the transmission rod 19 is provided with graduation marks 20. These graduation marks 20 not only visually indicate the specific dimensions or rotation angles at different positions but also provide an effective measuring tool, helping the operator monitor and adjust the applied force in real time, thereby ensuring the accuracy and safety of the surgical procedure.

[0064] Specifically, the selection of high torsional strength materials and the design of the scale markings 20 fundamentally ensure the operational accuracy and reliability of the entire device. The transmission rod 19 is installed inside the linkage mechanism, connecting with the manual pressure handle 5 and other transmission components to form a complete and coordinated motion system. The scale markings 20 are created on the outer surface of the transmission rod 19 through physical engraving, laser printing, or other suitable methods. Users can refer to these scales to determine the position and state of the transmission rod 19 as needed, thereby achieving precise control over the opening and closing amplitude of the clamping arms 1. For example, the operator can make fine adjustments by reading the current scale value to keep the clamping force within a safe range and gradually increase or decrease the closing force according to the actual situation. This not only improves the success rate of surgical operations but also minimizes unnecessary harm to the animal.

[0065] In one embodiment, see Figure 1 The manual handle 5 of the veterinary horn-breaking device for cattle and sheep disclosed in this application features an anti-slip texture 21 at its tip and an ergonomically designed ergonomic grip sleeve 22. This design not only improves the user's grip stability but also significantly enhances comfort during use. To further illustrate the importance of this feature, the anti-slip texture 21 increases the surface friction coefficient, preventing hand slippage during surgery. The ergonomic grip sleeve 22 is optimized according to the natural grip shape and size of the human hand, ensuring that the user maintains a good grip posture and feel even during prolonged use.

[0066] Specifically, the tactile grip 22 is directly wrapped around the outer surface of the manual lever 5 and secured by a mechanical snap-fit ​​to ensure its stability. The anti-slip texture 21 is finely etched or pressed onto the outer surface of the tactile grip 22. These details collectively ensure the consistency between the design rationality and actual performance of the entire hand grip system. Structurally, the manual lever 5 is connected to the clamping arm 1 via a linkage mechanism. When the user manipulates this component, it directly affects the movement of the clamping arm 1, ensuring the safe closing and operation of the horn grip. For example, when greater force or precise adjustment of force is required, the improved handle allows the operator to maintain a more stable force application state.

[0067] Furthermore, to meet the specific needs of different users, the tactile rubber sleeve 22 can be made of materials with different hardness levels to provide the most suitable support and protection for users in different operating environments. This design concept makes the corner break device more user-friendly and suitable for various occasions and user habits. The above-mentioned technical means ensure the efficient implementation of this feature.

[0068] In actual operation, when this device is used, the horns of cattle or sheep can be placed in the concave arc surface 11 of the clamping arm 1, and the anti-slip protrusions 12 increase friction to prevent the horns from slipping. The tightness of the locking mechanism 13 can be adjusted to accommodate horns of different thicknesses and ensure a secure clamping. One end of the rotating adjustment rod 3 is connected to the fixed base 2, and the other end is connected to the clamping arm 1. The angle and position can be adjusted according to the size of the cattle or sheep to ensure optimal operating conditions. The fixed base 2 is mounted on the operating table or external support, providing stable support for the entire device. The guide bracket 4 is horizontally fixed to the fixed base 2, guiding the rotating adjustment rod 3 and the clamping arm 1 to move along a straight track, ensuring precise positioning of the cattle or sheep's head. The manual pressure handle 5 is made by a linkage machine for the end of the clamping arm 1. The operator can manipulate this component to safely and securely close and lock the cattle or sheep's horns.

[0069] The above description is the preferred embodiment of this application. It should be noted that for those skilled in the art, several improvements and modifications can be made without departing from the principle of this invention, and these improvements and modifications should also be considered within the scope of protection of this application.

Claims

1. A veterinary device for dehorning cattle and sheep horns, characterized in that, include: Clamping arm (1), the clamping arm (1) is used to fix and clamp the horns of cattle and sheep, wherein the clamping arm (1) has a concave arc surface (11), is provided with anti-slip protrusions (12), and is provided with a locking mechanism (13) that can adjust the tightness. A fixed base (2) is used to provide support; Rotary adjustment rod (3), one end of which is connected to the fixed base (2), and the other end is connected to the clamping arm (1); The guide bracket (4) is horizontally fixed on the fixed base (2) and provides a linear motion track for the rotating adjustment rod (3) and the connected clamping arm (1) in the horizontal direction; A manual clamping handle (5), the manual clamping handle (5) being manufactured via a linkage mechanism to hold the end of the clamping arm (1); wherein The locking mechanism (13) includes a locking screw (8) and a compression spring (9). The clamping force is adjusted by rotating the screw, while the spring buffers the change in clamping force. The concave arc surface (11) of the clamping arm (1) is provided with a plurality of anti-slip teeth (6), which are arranged along the grain direction of cattle and sheep horns; and The anti-slip protrusion (12) of the clamping arm (1) has a conical structure and an elastic material pad (7) on the top.

2. A veterinary horn-breaking device for cattle and sheep according to claim 1, characterized in that: The bottom surface of the fixed base (2) is provided with a suction cup (10).

3. A veterinary horn-breaking device for cattle and sheep according to claim 2, characterized in that: The fixed base (2) is equipped with a vibration suppression module (14).

4. A veterinary horn-breaking device for cattle and sheep according to claim 1, characterized in that: The rotating adjustment rod (3) adopts a multi-section telescopic design and achieves positioning and locking at different angles through the positioning hole (15).

5. A veterinary horn-breaking device for cattle and sheep according to claim 4, characterized in that: The rotary adjusting rod (3) is equipped with a hydraulic damper (16).

6. A veterinary horn-breaking device for cattle and sheep according to claim 1, characterized in that: The guide bracket (4) is equipped with a ball bearing guide rail (17).

7. A veterinary horn-breaking device for cattle and sheep according to claim 1, characterized in that: The manual pressure handle (5) is equipped with a pressure sensor (18) and displays the applied pressure value in real time through an electronic control box, so that the operator can adjust it appropriately according to the situation.

8. A veterinary horn-breaking device for cattle and sheep according to claim 1, characterized in that: The transmission rod (19) in the linkage mechanism has scale markings (20) on its outer surface.

9. A veterinary horn-breaking device for cattle and sheep according to claim 1, characterized in that: The manual handle (5) has a handle anti-slip texture (21) at the top and is also equipped with a tactile rubber sleeve (22).