A two-way back clip for intercom automatically adapting to thickness

By designing a walkie-talkie back clip that automatically adapts to thickness, and utilizing the transmission relationship between the auxiliary clamping component and the elastic component, the problem of slippage and fall-off caused by inconsistent belt sizes is solved, achieving a more stable clamping effect.

CN122394583APending Publication Date: 2026-07-14SHANGHAI SHUGUO TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
SHANGHAI SHUGUO TECH CO LTD
Filing Date
2026-05-29
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

Existing walkie-talkie back clips have inconsistent belt sizes, resulting in a fixed clamping space. This makes them prone to slipping and falling off when the wearer is running, affecting connection stability.

Method used

A dual-purpose back clip for walkie-talkies with automatic thickness adaptation is designed, comprising a first clamping component, a second clamping component, and an auxiliary clamping component. Through the transmission relationship between the auxiliary clamping component and the first elastic component, an active clamping surface is formed, which increases friction and clamping force and prevents slippage and detachment.

Benefits of technology

It effectively overcomes the problem of gaps between the clamping cavity and the waist belt when the waist belt is thin, improves the friction and connection stability between the back clip and the waist belt, and prevents slippage and detachment.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN122394583A_ABST
    Figure CN122394583A_ABST
Patent Text Reader

Abstract

This application discloses a dual-purpose walkie-talkie back clip that automatically adapts to thickness, comprising a first clamping assembly, a second clamping assembly, and an auxiliary clamping assembly. The first clamping assembly is used to connect a walkie-talkie. One end of the second clamping assembly is rotatably connected to one end of the first clamping assembly, and the other end of the second clamping assembly is detachably abutted against the surface of the first clamping assembly. The first and second clamping assemblies form a clamping cavity. The auxiliary clamping assembly includes a first elastic member and an auxiliary clamping member. One end of the second clamping assembly is movably connected to one end of the first clamping assembly via the first elastic member. The first elastic member is used to abut against the other end of the first and second clamping assemblies. The auxiliary clamping member is connected to the first elastic member and disposed within the clamping cavity. The auxiliary clamping member cooperates with either the first or second clamping assembly to clamp an object to be clamped. This application has the effect of enhancing clamping stability.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This application relates to the field of communication equipment accessories technology, and in particular to a walkie-talkie dual-purpose back clip that automatically adapts to thickness. Background Technology

[0002] Walkie-talkies, as instant communication devices, are widely used in public safety, industrial production, and outdoor activities. In practical use, wearers typically use a walkie-talkie clip to hold the device to their belt or shoulder strap, allowing for hands-free carrying and convenient communication during work or travel. Therefore, the reliability of the clip directly affects the walkie-talkie's carrying safety and ease of use.

[0003] Existing walkie-talkie clips typically include two opposing clamping parts, forming a clamping space between them to accommodate a waist belt or shoulder strap. The two clamping parts are spaced apart, and the waist belt is inserted into the clamping space, with the two clamping parts in direct contact with the waist belt. This increases the friction between the clip and the waist belt to some extent, reducing the likelihood of the clip slipping relative to the waist belt while the wearer is running.

[0004] However, existing walkie-talkie clips have certain drawbacks. Because the belt sizes are not entirely uniform, and the clamping space between the two clamping structures is fixed when they abut each other, relative slippage can easily occur between the clip and the belt when the wearer moves, affecting the stability of the connection. Repeated inertial impacts can also cause the walkie-talkie to shake, making it prone to slipping off the clip. How to solve these technical problems is a question that those skilled in the art need to consider. Summary of the Invention

[0005] To address the aforementioned technical problems, this application provides a dual-purpose walkie-talkie back clip that automatically adapts to different thicknesses.

[0006] This application provides a dual-purpose walkie-talkie back clip with automatic thickness adaptation, comprising a first clamping assembly, a second clamping assembly, and an auxiliary clamping assembly. The first clamping assembly is used to connect a walkie-talkie. One end of the second clamping assembly is rotatably connected to one end of the first clamping assembly, and the other end of the second clamping assembly is detachably abutted against the surface of the first clamping assembly. The first and second clamping assemblies form a clamping cavity. The auxiliary clamping assembly includes a first elastic member and an auxiliary clamping member. One end of the second clamping assembly is movably connected to one end of the first clamping assembly via the first elastic member. The first elastic member is used to abut against the other end of the first and second clamping assemblies. The auxiliary clamping member is connected to the first elastic member and disposed within the clamping cavity. The auxiliary clamping member cooperates with either the first or second clamping assembly to clamp an object to be clamped.

[0007] Understandably, the thickness-adaptive walkie-talkie back clip, by incorporating an auxiliary clamping component, allows the back clip to establish a transmission relationship with the first elastic element and be arranged inside the clamping cavity, while the first and second clamping components are kept closed by the first elastic element. The auxiliary clamping component, within the clamping cavity, cooperates with the first or second clamping component to form an active clamping surface. This application solves the technical problem of excessive clamping space in traditional walkie-talkie back clips. The auxiliary clamping component can cooperate with the first or second clamping component to clamp the belt or shoulder strap to be clamped, increasing the clamping force and friction between the back clip's interior and the belt surface. This overcomes the gap problem caused by a thin belt between the clamping cavity and the belt, preventing the back clip from slipping or falling off the belt during vigorous running or inertial impact.

[0008] In one embodiment, the auxiliary clamping member extends toward the other end of the first clamping assembly, the auxiliary clamping member and the first clamping assembly surround a first locking cavity, the auxiliary clamping member and the second clamping assembly surround a second locking cavity, and both the first locking cavity and the second locking cavity are in communication with the clamping cavity.

[0009] Understandably, the auxiliary clamping component further divides the overall space into a first clamping cavity and a second clamping cavity, with the waist belt positioned in the first clamping cavity and the shoulder strap positioned in the second clamping cavity. The first and second clamping cavities serve as guides and regional separation barriers, and the walls of the auxiliary clamping component itself provide further frictional restraint to the waist belt entering the first clamping cavity or the shoulder strap entering the second clamping cavity. This not only facilitates the smooth entry of the waist belt or shoulder strap into the first or second clamping cavity but also further restricts the sliding of the waist belt within the first clamping cavity or the shoulder strap within the second clamping cavity.

[0010] In one embodiment, the auxiliary clamping assembly includes two auxiliary clamping members, one of which is movably connected to the first clamping assembly and the other is movably connected to the second clamping assembly. Both auxiliary clamping members are detachably abutted against the first elastic member.

[0011] Understandably, by arranging auxiliary clamping components on the side of the first clamping assembly corresponding to the clamping cavity and on the side of the second clamping assembly corresponding to the clamping cavity, and ensuring that both auxiliary clamping components interact with the first elastic element under force, bidirectional clamping inside the clamping cavity is achieved. This facilitates the formation of a counter-pressure mechanism within the clamping cavity, reducing the possibility of relative sliding between the waist belt or shoulder strap extending into the clamping cavity and the back clip.

[0012] In one embodiment, the first clamping assembly has a first receiving cavity that communicates with the clamping cavity, and the second clamping assembly has a second receiving cavity that communicates with the clamping cavity; an auxiliary clamping member is disposed in the first receiving cavity and rotatably connected to the first clamping assembly, and another auxiliary clamping member is disposed in the second receiving cavity and rotatably connected to the second clamping assembly, and the two auxiliary clamping members are configured to be driven to move closer or further away synchronously.

[0013] Understandably, the first and second receiving cavities provide accommodating space for the two auxiliary clamping components, enabling the retraction and avoidance of the first and second clamping assemblies during clamping. When the other end of the first clamping assembly separates from the other end of the second clamping assembly, the auxiliary clamping components can smoothly deflect into the first and second receiving cavities to make way for the main clamping space. Furthermore, the approach and departure movements of the two auxiliary clamping components are perfectly synchronized, ensuring equal dynamic damping on both sides of the belt or shoulder strap.

[0014] In one embodiment, the auxiliary clamping assembly further includes two rotating frames. One rotating frame is disposed in the first receiving cavity and rotatably connected to the first clamping assembly. The other rotating frame is detachably abutted against the first elastic member and the other auxiliary clamping member. The third rotating frame is disposed in the second receiving cavity and rotatably connected to the second clamping assembly. The other rotating frame is directly or indirectly abutted against the first elastic member and the other auxiliary clamping member.

[0015] Understandably, by placing the rotating frame in the first receiving cavity, a lever-type transmission path is constructed. By using the rotating frame as a transmission connection node between the first elastic member and the auxiliary clamping member and performing eccentric transmission in a rotating frame manner, the compressive force applied by the first elastic member to the auxiliary clamping member can be amplified and adjusted.

[0016] In one embodiment, the auxiliary clamping assembly further includes a plurality of second elastic members. The dimensions of the ends of the auxiliary clamping members corresponding to the first elastic members remain unchanged along the direction away from the first elastic members. The abutting end of the rotating frame corresponding to the auxiliary clamping member is disposed on the side of the auxiliary clamping member away from the first elastic member. The hinge end of the auxiliary clamping member and the first clamping assembly is disposed on the side of the auxiliary clamping member corresponding to the first elastic member. The second elastic members are disposed on the side of the hinge end away from the abutting end and are respectively connected to the auxiliary clamping member and the first clamping assembly.

[0017] Understandably, the auxiliary clamping member with a constant cross-sectional dimension is deployed separately at its proximal and distal ends, relying on the second elastic member to apply elastic force. The second elastic member provides elastic pressure to the auxiliary clamping member as it moves towards the clamping cavity. The abutting end serves as the force-applying end of the auxiliary clamping member, and the hinged end serves as the connection end for the rotatable connection between the auxiliary clamping member and the first clamping assembly. The second elastic member is located on the side of the hinged end away from the force-applying end, ensuring that the compressive force of the first elastic member can be smoothly transmitted to the rotating frame. The rotating frame smoothly transmits the compressive force to the auxiliary clamping member, which rotates relative to the first clamping assembly to enter or exit the clamping cavity.

[0018] In one embodiment, the auxiliary clamping assembly further includes a reversing element; The dimensions of the auxiliary clamping member at the end corresponding to the first elastic member gradually decrease along the direction away from the first elastic member. The reversing member is disposed in the first receiving cavity and rotatably connected to the first clamping assembly. The reversing member is disposed between the first elastic member and the auxiliary clamping member. The abutting end of the rotating frame corresponding to the reversing member is disposed on the side of the reversing member away from the first elastic member. The hinge end of the auxiliary clamping member and the first clamping assembly is disposed at the end of the reversing member away from the first elastic member. The second elastic member is disposed between the hinge end and the abutting end and is respectively connected to the auxiliary clamping member and the first clamping assembly.

[0019] Understandably, the reversing member is located between the rotating frame and the auxiliary clamping member and is rotatably connected to the first clamping assembly. The reversing member is used to transmit the compressive force from the rotating frame to the auxiliary clamping member. The second elastic member provides elastic pressure to the auxiliary clamping member as it moves towards the clamping cavity. The abutting end serves as the force-applying end of the auxiliary clamping member, the hinged end serves as the connection end rotatably connected to the first clamping assembly, and the reversing member serves as the structure for reversing the compressive force at the force-applying end. The second elastic member is located between the hinged end and the force-applying end. This ensures that the compressive force of the first elastic member can be smoothly transmitted to the rotating frame, the rotating frame smoothly transmits the compressive force to the reversing member, and the reversing member transmits the compressive force to the auxiliary clamping member through its own rotation. The auxiliary clamping member rotates relative to the first clamping assembly to enter or exit the clamping cavity.

[0020] In one embodiment, the walkie-talkie dual-purpose back clip that automatically adapts to thickness further includes two sets of anti-detachment components, each set of anti-detachment components including a rotating plate, an anti-detachment element and multiple third elastic elements; The first clamping assembly also has a third receiving cavity, which is located on the side of the first receiving cavity away from the clamping cavity and communicates with both the first receiving cavity and the clamping cavity. A rotating plate is disposed in the third receiving cavity and is rotatably connected to the first clamping assembly. The rotating plate and the rotating frame can be detachably abutted against each other. A third elastic member is located on the side of the rotating plate away from the first elastic member and on the side of the rotating plate close to the clamping cavity, and is connected to the rotating plate and the first clamping assembly respectively. An anti-detachment member is connected to the rotating plate to enter or exit the clamping cavity. The second clamping assembly also has a fourth receiving cavity, which is located on the side of the second receiving cavity away from the clamping cavity and communicates with both the second receiving cavity and the clamping cavity. A rotating plate is disposed in the fourth receiving cavity and is rotatably connected to the second clamping assembly. The rotating plate and the rotating frame can be detachably abutted against each other. A third elastic member is located on the side of the rotating plate away from the first elastic member and on the side of the rotating plate close to the clamping cavity, and is connected to the rotating plate and the second clamping assembly respectively. An anti-detachment member is connected to the rotating plate to enter or exit the clamping cavity.

[0021] Understandably, the rotating plate and the rotating frame can be detachably abutted. When the first elastic element applies a squeezing force to the rotating frame, causing the rotating frame to rotate, the rotating frame synchronously drives the rotating plate to rotate. The rotating plate, in conjunction with the anti-slip element, enters or exits the third and fourth receiving cavities. When the waist belt or shoulder strap is located in the clamping cavity, the two anti-slip elements are interlocked. Once a sudden longitudinal force is generated, the two anti-slip elements are used to prevent the waist belt from coming out of the clamping cavity.

[0022] In one embodiment, the auxiliary clamping assembly further includes a plurality of side clamping members and a plurality of fourth elastic members; The first clamping assembly also has multiple fifth receiving cavities, which are spaced apart along a direction perpendicular to the extension of the auxiliary clamping member and distributed on the side of the first clamping assembly; a side clamping member is located in a fifth receiving cavity and is rotatably connected to the first clamping assembly, the side clamping member is detachably abutting against the rotating frame, and a fourth elastic member is located on the side of the side clamping member away from the rotating frame, the fourth elastic member is located on the side of the side clamping member corresponding to the clamping cavity and is respectively connected to the side clamping member and the first clamping assembly; The second clamping assembly also has a plurality of sixth receiving cavities, which are spaced apart along a direction perpendicular to the extension of the auxiliary clamping member and distributed on the side of the second clamping assembly; a side clamping member is located in a sixth receiving cavity and is rotatably connected to the second clamping assembly, the side clamping member is detachably abutting against the rotating frame, and a fourth elastic member is located on the side of the side clamping member away from the rotating frame. The fourth elastic member is located on the side of the side clamping member corresponding to the clamping cavity and is respectively connected to the side clamping member and the second clamping assembly.

[0023] Understandably, the automatically thickness-adjustable walkie-talkie clip also has multiple side clamping members on the side perpendicular to the first and second clamping components, spaced apart. When the other end of the first clamping component separates from the other end of the second clamping component, the first elastic element transmits the compressive force to the rotating frame. The rotating frame transmits the compressive force to the side clamping members, causing the multiple side clamping members to rotate towards the side of the rotating plate away from the auxiliary clamping member. When the other end of the first clamping component abuts against the other end of the second clamping component, the fourth elastic element drives the side clamping members to rotate towards the side corresponding to the clamping cavity.

[0024] In one embodiment, each fifth receiving cavity is arranged corresponding to a sixth receiving cavity, and the clamping end of the side clamping member located in the fifth receiving cavity extends out of the fifth receiving cavity and is correspondingly arranged with the clamping cavity; the clamping end of the side clamping member located in the sixth receiving cavity extends out of the sixth receiving cavity and is correspondingly arranged with the clamping cavity.

[0025] Understandably, the fifth and sixth receiving cavities are arranged correspondingly, so that each side clamp can be correspondingly set with the other side clamp. The clamping end extends out of the fifth or sixth receiving cavity and is set in the direction corresponding to the clamping cavity, which facilitates clamping the waist belt or shoulder strap and prevents the automatic thickness-adjustable walkie-talkie back clip from sliding relative to the waist belt or shoulder strap along the direction perpendicular to the extension of the auxiliary clamp. Attached Figure Description

[0026] Figure 1 This is a schematic diagram of the structure of the first clamping component of the walkie-talkie dual-purpose back clip that automatically adapts to thickness provided in the embodiments of this application.

[0027] Figure 2 This is a schematic diagram of the auxiliary clamping component of the walkie-talkie dual-purpose back clip that automatically adapts to thickness provided in the embodiments of this application.

[0028] Figure 3 This is a schematic diagram of the structure of the first snap-fit ​​cavity of the walkie-talkie dual-purpose back clip that automatically adapts to thickness provided in the embodiments of this application.

[0029] Figure 4 This is a schematic diagram of the structure of the second clamping component of the automatic thickness-adaptive walkie-talkie back clip provided in the embodiments of this application.

[0030] Figure 5 The cross-sectional view of the first elastic element is shown in the automatic thickness-adaptive walkie-talkie back clip provided in the embodiments of this application.

[0031] Figure 6 yes Figure 5 A magnified view of part A in the middle.

[0032] Figure 7 This is a cross-sectional view of the anti-slip component of the automatic thickness-adaptive walkie-talkie back clip provided in the embodiments of this application.

[0033] Figure 8 yes Figure 7 A magnified view of part B in the middle section.

[0034] Figure 9 This is a partial cross-sectional view of the clamping cavity of the automatic thickness-adaptive walkie-talkie back clip provided in the embodiments of this application.

[0035] Figure 10 yes Figure 9 A magnified view of part C in the middle.

[0036] Explanation of reference numerals in the attached figures: 1. First clamping assembly; 11. First receiving cavity; 12. Third receiving cavity; 13. Fifth receiving cavity; 2. Second clamping assembly; 21. Second receiving cavity; 22. Fourth receiving cavity; 23. Sixth receiving cavity; 3. Clamping cavity; 4. Auxiliary clamping assembly; 41. First elastic element; 42. Auxiliary clamping element; 421. Hinge end; 43. First snap-fit ​​cavity; 44. Second snap-fit ​​cavity; 45. Rotating frame; 451. Abutment end; 46. Second elastic element; 47. Reversing element; 48. Side clamping element; 481. Clamping end; 49. Fourth elastic element; 410. Anti-slip pad; 5. Anti-detachment assembly; 51. Rotating plate; 52. Anti-detachment element; 53. Third elastic element. Detailed Implementation

[0037] The following combination Figures 1 to 10 This application will be described in further detail below.

[0038] Example 1: In one embodiment, a dual-purpose walkie-talkie back clip that automatically adapts to thickness includes a first clamping component 1, a second clamping component 2, and an auxiliary clamping component 4. The first clamping component 1 is used to connect a walkie-talkie. One end of the second clamping component 2 is rotatably connected to one end of the first clamping component 1, and the other end of the second clamping component 2 is detachably abutted against the surface of the first clamping component 1. The first clamping component 1 and the second clamping component 2 form a clamping cavity 3. The auxiliary clamping component 4 includes a first elastic member 41 and an auxiliary clamping member 42. One end of the second clamping component 2 is movably connected to one end of the first clamping component 1 via the first elastic member 41. The first elastic member 41 is used to abut against the other end of the first clamping component 1 and the other end of the second clamping component 2. The auxiliary clamping member 42 is connected to the first elastic member 41 and disposed in the clamping cavity 3. The auxiliary clamping member 42 cooperates with the first clamping component 1 or the second clamping component 2 to clamp the object to be clamped.

[0039] In this embodiment, refer to Figures 1 to 3 Both the first clamping assembly 1 and the second clamping assembly 2 are plate-shaped, with the first clamping assembly 1 being larger than the second clamping assembly 2. The first elastic element 41 can be a double torsion spring. One end of the second clamping assembly 2 is elastically connected to one end of the first clamping assembly 1 via the first elastic element 41. The elastic force applied by the first elastic element 41 keeps the other end of the first clamping assembly 1 and the other end of the second clamping assembly 2 in a closed abutment state. The auxiliary clamping element 42 is smaller than the second clamping assembly 2. The auxiliary clamping element 42 is connected to the first elastic element 41 and is disposed in the clamping cavity 3. The auxiliary clamping element 42 cooperates with the first clamping assembly 1 or the second clamping assembly 2 to clamp the object to be clamped.

[0040] The automatic thickness-adaptive walkie-talkie back clip incorporates an auxiliary clamping component 4. This allows the back clip to maintain the closure of the first clamping component 1 and the second clamping component 2 using a first elastic element 41. The auxiliary clamping component 42 is then positioned within the clamping cavity 3, establishing a transmission relationship with the first elastic element 41. The auxiliary clamping component 42, within the clamping cavity 3, cooperates with either the first or second clamping component 1 to form an active clamping surface. This design solves the technical problem of excessive clamping space in traditional walkie-talkie back clips. The auxiliary clamping component 42 can cooperate with either the first or second clamping component 2 to clamp the belt or shoulder strap, increasing the pressure and friction between the back clip and the belt surface. This overcomes the gap problem caused by a thin belt between the clamping cavity 3 and the belt, preventing the back clip from slipping or falling off during vigorous running or inertial impact.

[0041] In one embodiment, the auxiliary clamping member 42 extends toward the other end of the first clamping component 1. The auxiliary clamping member 42 and the first clamping component 1 surround a first locking cavity 43, and the auxiliary clamping member 42 and the second clamping component 2 surround a second locking cavity 44. Both the first locking cavity 43 and the second locking cavity 44 are connected to the clamping cavity 3.

[0042] In this embodiment, refer to Figures 1 to 3 The auxiliary clamping member 42 is in the shape of a curved plate, bent towards the first clamping assembly 1 and spaced apart from it. A first engaging cavity 43 is formed between the auxiliary clamping member 42 and the inner wall of the first clamping assembly 1, and a second engaging cavity 44 is formed between the auxiliary clamping member 42 and the inner wall of the second clamping assembly 2. Both the first engaging cavity 43 and the second engaging cavity 44 communicate with the clamping cavity 3, and the size of the first engaging cavity 43 is smaller than the size of the second engaging cavity 44.

[0043] The auxiliary clamping member 42 further divides the overall space into a first clamping cavity 43 and a second clamping cavity 44 that are interconnected. The waist belt entering the clamping cavity 3 is positioned in the first clamping cavity 43, and the shoulder strap entering the clamping cavity 3 is positioned in the second clamping cavity 44. The first clamping cavity 43 and the second clamping cavity 44 serve as guides and regional separation barriers. The wall surface of the auxiliary clamping member 42 itself can further rub and limit the waist belt entering the first clamping cavity 43 or the shoulder strap entering the second clamping cavity 44. This not only facilitates the smooth entry of the waist belt or shoulder strap into the first clamping cavity 43 or the second clamping cavity 44, but also further restricts the sliding of the waist belt in the first clamping cavity 43 or the shoulder strap in the second clamping cavity 44.

[0044] The implementation principle of this application embodiment is as follows: When using the automatically adaptable thickness walkie-talkie back clip, the wearer presses the end of the first clamping component 1 and the second clamping component 2 connected to the first elastic member 41, overcoming the elastic force of the first elastic member 41, causing the other end of the first clamping component 1 to separate from the other end of the second clamping component 2, thereby opening the clamping cavity 3. Subsequently, the wearer inserts the waist belt into the first snap-fit ​​cavity 43, or the shoulder strap into the second snap-fit ​​cavity 44. After releasing the back clip, the first elastic member 41 resets under the action of elastic force, driving the other end of the first clamping component 1 and the second clamping component 2 to re-close. The curved wall surface of the auxiliary clamping member 42 further frictionally limits the waist belt or shoulder strap, reducing the possibility of the automatically adaptable thickness walkie-talkie back clip slipping and falling off when the wearer is running or encountering inertial impact.

[0045] Example 2: In one embodiment, the auxiliary clamping assembly 4 includes two auxiliary clamping members 42. One auxiliary clamping member 42 is movably connected to the first clamping assembly 1, and the other auxiliary clamping member 42 is movably connected to the second clamping assembly 2. Both auxiliary clamping members 42 are detachably abutted against the first elastic member 41.

[0046] In this embodiment, refer to Figure 1 , Figure 4 , Figure 7 , Figure 8 and Figure 9 The auxiliary clamping member 42 is in the shape of a strip plate, and its thickness is less than that of the first clamping assembly 1 and the second clamping assembly 2. One auxiliary clamping member 42 is movably connected to the side of the first clamping assembly 1 near the clamping cavity 3, and the other auxiliary clamping member 42 is movably connected to the side of the second clamping assembly 2 near the clamping cavity 3. Both auxiliary clamping members 42 are detachably abutted against the first elastic member 41.

[0047] By arranging auxiliary clamping members 42 on the side of the first clamping assembly 1 corresponding to the clamping cavity 3 and the side of the second clamping assembly 2 corresponding to the clamping cavity 3, and ensuring that both auxiliary clamping members 42 interact with the first elastic member 41 under force, bidirectional clamping is achieved inside the clamping cavity 3. This facilitates the formation of a counter-pressure mechanism within the clamping cavity 3, reducing the possibility of relative slippage between the waist belt or shoulder strap extending into the clamping cavity 3 and the back clip.

[0048] In one embodiment, the first clamping assembly 1 has a first receiving cavity 11, which is connected to the clamping cavity 3; the second clamping assembly 2 has a second receiving cavity 21, which is connected to the clamping cavity 3; an auxiliary clamping member 42 is disposed in the first receiving cavity 11 and rotatably connected to the first clamping assembly 1; another auxiliary clamping member 42 is disposed in the second receiving cavity 21 and rotatably connected to the second clamping assembly 2; the two auxiliary clamping members 42 are configured to be driven to move closer or further away synchronously.

[0049] In this embodiment, refer to Figure 1 , Figure 4 , Figure 7 , Figure 8 and Figure 9 The first receiving cavity 11 is located on the side of the first clamping assembly 1 corresponding to the clamping cavity 3, and the second receiving cavity 21 is located on the side of the second clamping assembly 2 corresponding to the clamping cavity 3. Both the first receiving cavity 11 and the second receiving cavity 21 are connected to the clamping cavity 3. Both auxiliary clamping members 42 are detachably abutted against the first elastic member 41, and the two auxiliary clamping members 42 can be driven to move closer or further away synchronously.

[0050] The first receiving cavity 11 and the second receiving cavity 21 provide accommodating space for the two auxiliary clamping members 42, enabling the retraction and avoidance of the first clamping assembly 1 and the second clamping assembly 2 during the clamping process. When the other end of the first clamping assembly 1 separates from the other end of the second clamping assembly 2, the auxiliary clamping members 42 can smoothly deflect into the first receiving cavity 11 and the second receiving cavity 21 to make way for the main clamping space. In addition, the approaching and moving away movements of the two auxiliary clamping members 42 are completely synchronized, ensuring that the dynamic damping on both sides of the waist belt or shoulder strap is equal.

[0051] In one embodiment, the auxiliary clamping assembly 4 further includes two rotating frames 45. One rotating frame 45 is disposed in the first receiving cavity 11 and rotatably connected to the first clamping assembly 1. The rotating frame 45 is detachably abutting against the first elastic member 41 and the auxiliary clamping member 42 respectively. The other rotating frame 45 is disposed in the second receiving cavity 21 and rotatably connected to the second clamping assembly 2. The other rotating frame 45 is directly or indirectly abutting against the first elastic member 41 and the other auxiliary clamping member 42 respectively.

[0052] In this embodiment, refer to Figure 1 , Figure 4 , Figure 8 and Figure 10 The cross-sectional dimensions of the rotating frame 45 are smaller than those of the first clamping assembly 1 and the second clamping assembly 2. One rotating frame 45 is installed in the first receiving cavity 11 of the first clamping assembly 1 and is rotatably connected to the first clamping assembly 1 via a rotating shaft. The two ends of the rotating frame 45 abut against the first elastic member 41 and the auxiliary clamping member 42 located in the first receiving cavity 11, respectively. The other rotating frame 45 is installed in the second receiving cavity 21 of the second clamping assembly 2 and is rotatably connected to the second clamping assembly 2 via a rotating shaft. The two ends of the rotating frame 45 abut against the first elastic member 41 and the auxiliary clamping member 42 located in the second receiving cavity 21, respectively.

[0053] By placing one rotating frame 45 in the first receiving cavity 11 and another rotating frame 45 in the second receiving cavity 21, a lever-type transmission path is constructed. By using the rotating frame 45 as a transmission connection node between the first elastic member 41 and the auxiliary clamping member 42 and performing eccentric transmission in a rotating frame manner, the compressive force applied by the first elastic member 41 to the auxiliary clamping member 42 can be amplified and adjusted.

[0054] In one embodiment, the auxiliary clamping assembly 4 further includes a plurality of second elastic members 46. The dimensions of the ends of the auxiliary clamping member 42 corresponding to the first elastic member 41 remain unchanged along the direction away from the end of the auxiliary clamping member 42 away from the first elastic member 41. The abutting end 451 of the rotating frame 45 corresponding to the auxiliary clamping member 42 is disposed on the side of the auxiliary clamping member 42 away from the first elastic member 41. The hinge end 421 of the auxiliary clamping member 42 and the first clamping assembly 1 is disposed on the side of the auxiliary clamping member 42 corresponding to the first elastic member 41. The second elastic members 46 are disposed on the side of the hinge end 421 away from the abutting end 451 and are respectively connected to the auxiliary clamping member 42 and the first clamping assembly 1.

[0055] In this embodiment, refer to Figure 1 , Figure 4 , Figure 7 , Figure 8 , Figure 9 and Figure 10 The auxiliary clamping member 42 is in the shape of a strip plate, and the abutment end 451 is in the shape of a plate. The second elastic member 46 can be a small spring. Multiple second elastic members 46 are arranged at intervals along a direction perpendicular to the extension of the auxiliary clamping member 42. Multiple second elastic members 46 are disposed on the side of the hinge end 421 away from the abutment end 451 and are respectively connected to the auxiliary clamping member 42 and the first clamping assembly 1.

[0056] An auxiliary clamping member 42 with a constant cross-sectional dimension is deployed separately at its proximal and distal ends, and relies on a second elastic member 46 to apply elastic force. The second elastic member 46 provides elastic pressure to the auxiliary clamping member 42 as it moves toward the clamping cavity 3. The abutment end 451 serves as the force-applying end of the auxiliary clamping member 42, and the hinge end 421 serves as the connection end for the auxiliary clamping member 42 to be rotatably connected to the first clamping assembly 1. The second elastic member 46 is located on the side of the hinge end 421 away from the force-applying end, ensuring that the compressive force of the first elastic member 41 can be smoothly transmitted to the rotating frame 45. The rotating frame 45 smoothly transmits the compressive force to the auxiliary clamping member 42, and the auxiliary clamping member 42 rotates relative to the first clamping assembly 1 to enter or exit the clamping cavity 3.

[0057] In this embodiment, refer to Figure 1 , Figure 4 , Figure 7 , Figure 8 and Figure 9The auxiliary clamping assembly 4 also includes two anti-slip pads 410. One anti-slip pad 410 is connected to the side of one auxiliary clamping member 42 corresponding to the clamping cavity 3, and the other anti-slip pad 410 is connected to the side of another auxiliary clamping member 42 corresponding to the clamping cavity 3.

[0058] In one embodiment, the walkie-talkie dual-purpose back clip that automatically adapts to thickness also includes two sets of anti-detachment components 5, each set of anti-detachment components 5 including a rotating plate 51, an anti-detachment element 52 and a plurality of third elastic elements 53; The first clamping assembly 1 also has a third receiving cavity 12, which is located on the side of the first receiving cavity 11 away from the clamping cavity 3 and is connected to both the first receiving cavity 11 and the clamping cavity 3. A rotating plate 51 is disposed in the third receiving cavity 12 and is rotatably connected to the first clamping assembly 1. The rotating plate 51 is detachably abutted against the rotating frame 45. A third elastic member 53 is located on the side of the rotating plate 51 away from the first elastic member 41 and on the side of the rotating plate 51 close to the clamping cavity 3, and is connected to the rotating plate 51 and the first clamping assembly 1 respectively. An anti-detachment member 52 is connected to the rotating plate 51 to enter or exit the clamping cavity 3. The second clamping assembly 2 also has a fourth receiving cavity 22, which is located on the side of the second receiving cavity 21 away from the clamping cavity 3 and is connected to the second receiving cavity 21 and the clamping cavity 3. The rotating plate 51 is disposed in the fourth receiving cavity 22 and is rotatably connected to the second clamping assembly 2. The rotating plate 51 is detachably abutted against the rotating frame 45. The third elastic member 53 is located on the side of the rotating plate 51 away from the first elastic member 41 and is located on the side of the rotating plate 51 close to the clamping cavity 3 and is connected to the rotating plate 51 and the second clamping assembly 2 respectively. The anti-detachment member 52 is connected to the rotating plate 51 to enter or exit the clamping cavity 3.

[0059] In this embodiment, refer to Figure 1 , Figure 4 , Figure 7 , Figure 8 , Figure 9 and Figure 10 The rotating plate 51 is strip-shaped, and its thickness is less than that of the first clamping assembly 1 and the second clamping assembly 2. The anti-detachment member 52 is plate-shaped, and its size is smaller than that of the rotating plate 51. The third receiving cavity 12 is connected to the first receiving cavity 11 on one side corresponding to the first elastic member 41, and to the clamping cavity 3 on one side corresponding to the other end of the first clamping assembly 1. The fourth receiving cavity 22 is connected to the second receiving cavity 21 on one side corresponding to the first elastic member 41, and to the clamping cavity 3 on one side corresponding to the other end of the second clamping assembly 2. The third elastic member 53 can be a small spring.

[0060] The rotating plate 51 and the rotating frame 45 are detachably abutted. When the first elastic member 41 applies a squeezing force to the rotating frame 45, causing the rotating frame 45 to rotate, the rotating frame 45 synchronously drives the rotating plate 51 to rotate. The rotating plate 51, in conjunction with the anti-slip member 52, enters or exits the third receiving cavity 12 and the fourth receiving cavity 22. When the waist belt or shoulder strap is located in the clamping cavity 3, the two anti-slip members 52 are interlocked. Once a sudden longitudinal force is generated, the two anti-slip members 52 are used to prevent the waist belt from coming out of the clamping cavity 3.

[0061] In one embodiment, the auxiliary clamping assembly 4 further includes a plurality of side clamping members 48 and a plurality of fourth elastic members 49; The first clamping assembly 1 also has a plurality of fifth receiving cavities 13, which are spaced apart along a direction perpendicular to the extension of the auxiliary clamping member 42 and distributed on the side of the first clamping assembly 1; a side clamping member 48 is located in a fifth receiving cavity 13 and is rotatably connected to the first clamping assembly 1, the side clamping member 48 is detachably abutting against the rotating frame 45, and a fourth elastic member 49 is disposed on the side of the side clamping member 48 away from the rotating frame 45. The fourth elastic member 49 is disposed on the side of the side clamping member 48 corresponding to the clamping cavity 3 and is respectively connected to the side clamping member 48 and the first clamping assembly 1; The second clamping assembly 2 also has a plurality of sixth receiving cavities 23, which are spaced apart along a direction perpendicular to the extension of the auxiliary clamping member 42 and distributed on the side of the second clamping assembly 2; a side clamping member 48 is located in a sixth receiving cavity 23 and is rotatably connected to the second clamping assembly 2, the side clamping member 48 is detachably abutting against the rotating frame 45, a fourth elastic member 49 is disposed on the side of the side clamping member 48 away from the rotating frame 45, the fourth elastic member 49 is disposed on the side of the side clamping member 48 corresponding to the clamping cavity 3 and is respectively connected to the side clamping member 48 and the second clamping assembly 2.

[0062] In this embodiment, refer to Figure 1 , Figure 4 , Figure 7 and Figure 9 The first clamping assembly 1 has two fifth receiving cavities 13 on its side surface. The two fifth receiving cavities 13 are arranged at intervals along a direction perpendicular to the extension of the auxiliary clamping member 42, and a side clamping member 48 is disposed in each fifth receiving cavity 13. The second clamping assembly 2 has two sixth receiving cavities 23 on its side surface. The two sixth receiving cavities 23 are arranged at intervals along a direction perpendicular to the extension of the auxiliary clamping member 42, and a side clamping member 48 is disposed in each sixth receiving cavity 23.

[0063] The walkie-talkie dual-purpose back clip, which automatically adapts to thickness, also has multiple side clamping members 48 arranged on the side perpendicular to the first clamping assembly 1 and the second clamping assembly 2, with the multiple side clamping members 48 spaced apart. When the other end of the first clamping assembly 1 separates from the other end of the second clamping assembly 2, the first elastic member 41 transmits the compressive force to the rotating frame 45. The rotating frame 45 transmits the compressive force to the side clamping members 48, so that the multiple side clamping members 48 rotate toward the side of the rotating plate 51 away from the auxiliary clamping member 42. When the other end of the first clamping assembly 1 abuts against the other end of the second clamping assembly 2, the fourth elastic member 49 drives the side clamping members 48 to rotate toward the side corresponding to the clamping cavity 3.

[0064] In one embodiment, each fifth receiving cavity 13 is arranged corresponding to a sixth receiving cavity 23. The clamping end 481 of the side clamping member 48 located in the fifth receiving cavity 13 extends out of the fifth receiving cavity 13 and is correspondingly arranged with the clamping cavity 3. The clamping end 481 of the side clamping member 48 located in the sixth receiving cavity 23 extends out of the sixth receiving cavity 23 and is correspondingly arranged with the clamping cavity 3.

[0065] In this embodiment, refer to Figure 1 , Figure 4 , Figure 7 , Figure 8 , Figure 9 and Figure 10 Each fifth receiving cavity 13 on the first clamping assembly 1 is spatially arranged in a one-to-one correspondence with a sixth receiving cavity 23 on the second clamping assembly 2. The side clamping member 48 located inside the fifth receiving cavity 13 has an outwardly extending clamping end 481, which extends out of the fifth receiving cavity 13 and is correspondingly positioned towards the clamping cavity 3. The side clamping member 48 located inside the sixth receiving cavity 23 also has a clamping end 481, which extends out of the sixth receiving cavity 23 and is correspondingly positioned towards the clamping cavity 3.

[0066] The fifth receiving cavity 13 and the sixth receiving cavity 23 are arranged correspondingly, so that each side clamping member 48 can be correspondingly set with the other side clamping member 48. The clamping end 481 extends out of the fifth receiving cavity 13 or the sixth receiving cavity 23 and is set in the direction corresponding to the clamping cavity 3, so as to facilitate clamping the waist belt or shoulder strap and prevent the automatic thickness-adjusting walkie-talkie dual-purpose back clip from sliding relative to the waist belt or shoulder strap along the direction perpendicular to the extension of the auxiliary clamping member 42.

[0067] The implementation principle of this application embodiment is as follows: When the wearer clamps the automatically adaptable thickness walkie-talkie back clip onto the waist belt or shoulder strap, the other end of the first clamping assembly 1 separates from the other end of the second clamping assembly 2 by overcoming the elastic force of the first elastic member 41. At this time, the first elastic member 41 transmits the squeezing force to the rotating frame 45, which rotates and overcomes the pulling or elastic force of the second elastic member 46, the third elastic member 53, and the fourth elastic member 49. Simultaneously, it drives the auxiliary clamping member 42, the rotating plate 51, and the side clamping member 48 to deflect, causing the auxiliary clamping member 42 to retract into the first receiving cavity 11 and the second receiving cavity 21, the rotating plate 51 to retract into the third receiving cavity 12 and the fourth receiving cavity 22, and the side clamping member 48 to retract into the fifth receiving cavity 13 and the sixth receiving cavity 23. This fully frees up the clamping space of the clamping cavity 3, facilitating the smooth entry of the waist belt or shoulder strap. When the waist belt or shoulder strap is placed in the clamping cavity 3 and the back clip is released, the other end of the first clamping component 1 and the other end of the second clamping component 2 re-close under the action of the first elastic member 41. The rotating frame 45 then resets and releases the squeezing restriction on each component. At this time, the second elastic member 46 pushes the two auxiliary clamping members 42 to move towards the clamping cavity 3 simultaneously to actively clamp the front and back of the waist belt or shoulder strap. The fourth elastic member 49 simultaneously drives multiple side clamping members 48 to rotate towards the corresponding side of the clamping cavity 3 to clamp the side of the waist belt or shoulder strap. At the same time, the third elastic member 53 drives the rotating plate 51 to rotate, causing the anti-detachment member 52 to extend and form a block in the detachment path of the clamping cavity 3. The components work together to improve the clamping stability of the walkie-talkie dual-purpose back clip that automatically adapts to thickness.

[0068] Example 3: In one embodiment, the auxiliary clamping assembly 4 further includes a reversing member 47; The dimensions of the end of the auxiliary clamping member 42 corresponding to the first elastic member 41 gradually decrease along the direction away from the end of the auxiliary clamping member 42 away from the first elastic member 41. The reversing member 47 is disposed in the first receiving cavity 11 and rotatably connected to the first clamping assembly 1. The reversing member 47 is disposed between the first elastic member 41 and the auxiliary clamping member 42. The abutting end 451 of the rotating frame 45 corresponding to the reversing member 47 is disposed on the side of the reversing member 47 away from the first elastic member 41. The hinge end 421 of the auxiliary clamping member 42 and the first clamping assembly 1 is disposed at the end of the reversing member 47 away from the first elastic member 41. The second elastic member 46 is disposed between the hinge end 421 and the abutting end 451 and is respectively connected to the auxiliary clamping member 42 and the first clamping assembly 1.

[0069] In this embodiment, refer to Figure 1 , Figure 4 , Figure 5 , Figure 6 and Figure 9The size of the reversing member 47 is smaller than that of the auxiliary clamping member 42. The size of the auxiliary clamping member 42 near the end of the first elastic member 41 gradually decreases along the direction away from the first elastic member 41. The reversing member 47 is installed in the first receiving cavity 11 and rotatably connected to the first clamping assembly 1, and the reversing member 47 is located on the transmission path between the first elastic member 41 and the auxiliary clamping member 42. The abutment end 451 of the rotating frame 45, which contacts the reversing member 47, is located on the side of the reversing member 47 away from the first elastic member 41. The hinge end 421 of the auxiliary clamping member 42, which connects to the first clamping assembly 1, is located at the end of the reversing member 47 away from the first elastic member 41. The second elastic member 46 is installed between the hinge end 421 and the abutment end 451, and the two ends of the second elastic member 46 are respectively connected to the auxiliary clamping member 42 and the first clamping assembly 1.

[0070] The reversing member 47 is located between the rotating frame 45 and the auxiliary clamping member 42 and is rotatably connected to the first clamping assembly 1. The reversing member 47 is used to transmit the compressive force from the rotating frame 45 to the auxiliary clamping member 42. The second elastic member 46 provides the auxiliary clamping member 42 with an elastic pulling force that moves towards the clamping cavity 3. The abutting end 451 serves as the force-applying end of the auxiliary clamping member 42, and the hinge end 421 serves as the connection end that rotatably connects the auxiliary clamping member 42 to the first clamping assembly 1. The reversing member 47 serves as a structure that realizes the reversal of the compressive force at the force-applying end. The second elastic member 46 is disposed between the hinge end 421 and the force-applying end. This ensures that the compressive force of the first elastic member 41 can be smoothly transmitted to the rotating frame 45. The rotating frame 45 smoothly transmits the compressive force to the reversing member 47. The reversing member 47 transmits the compressive force to the auxiliary clamping member 42 through its own rotation. The auxiliary clamping member 42 rotates relative to the first clamping assembly 1 to enter or exit the clamping cavity 3.

[0071] The implementation principle of this embodiment is as follows: When using the automatic thickness-adaptive walkie-talkie back clip, the user overcomes the elastic force of the first elastic member 41 to separate one end of the first clamping component 1 from one end of the second clamping component 2, so as to place the belt or shoulder strap to be clamped into the clamping cavity 3. During this process, the first elastic member 41 transmits the change in force state to the rotating frame 45, and the abutting end 451 of the rotating frame 45 pushes the reversing member 47 to rotate. The reversing member 47 realizes the reversal of the squeezing force through its own rotation, and transmits the squeezing force to the auxiliary clamping member 42 to overcome the elastic pressure of the second elastic member 46, so that the auxiliary clamping member 42 retracts into the first receiving cavity 11 and the second receiving cavity 21, thereby making enough clamping space for the belt or shoulder strap. When the belt or shoulder strap is placed in place and the back clip is released, the restoring elastic force of the first elastic member 41 drives the first clamping component 1 and the second clamping component 2 to close and abut again. Simultaneously, the second elastic element 46 provides elastic pressure towards the clamping cavity 3, causing the auxiliary clamping element 42 to rotate closer to the clamping cavity 3, making the auxiliary clamping element 42 fit tightly against the surface of the belt or shoulder strap. The reversing element 47 and the rotating frame 45 then return to their initial mating state under the transmission of force. This structure guides the direction of the transmitted force through the reversing element 47. Combined with the gradually decreasing end size of the auxiliary clamping element 42, the depth and angle of the auxiliary clamping element 42 extending into the clamping cavity 3 can be flexibly adjusted according to the actual thickness of the belt or shoulder strap, improving the connection stability of the walkie-talkie under complex activity conditions.

[0072] The above are all preferred embodiments of this application, and are not intended to limit the scope of protection of this application. Therefore, all equivalent changes made in accordance with the structure, shape and principle of this application should be covered within the scope of protection of this application.

Claims

1. A dual-purpose walkie-talkie clip that automatically adapts to different thicknesses, characterized in that, include: The first clamping component (1) is used to connect a walkie-talkie; The second clamping component (2) has one end rotatably connected to one end of the first clamping component (1), and the other end of the second clamping component (2) is detachably abutted against the surface of the first clamping component (1). The first clamping component (1) and the second clamping component (2) form a clamping cavity (3). The auxiliary clamping assembly (4) includes a first elastic element (41) and an auxiliary clamping element (42). One end of the second clamping assembly (2) is movably connected to one end of the first clamping assembly (1) via the first elastic element (41). The first elastic element (41) is used to make the other end of the first clamping assembly (1) abut against the other end of the second clamping assembly (2). The auxiliary clamping element (42) is connected to the first elastic element (41) and disposed in the clamping cavity (3). The auxiliary clamping element (42) cooperates with the first clamping assembly (1) or the second clamping assembly (2) to clamp the object to be clamped.

2. The automatic thickness-adaptive dual-purpose walkie-talkie back clip according to claim 1, characterized in that, The auxiliary clamping member (42) extends toward the other end of the first clamping assembly (1). The auxiliary clamping member (42) and the first clamping assembly (1) surround a first snap-fit ​​cavity (43). The auxiliary clamping member (42) and the second clamping assembly (2) surround a second snap-fit ​​cavity (44). Both the first snap-fit ​​cavity (43) and the second snap-fit ​​cavity (44) are connected to the clamping cavity (3).

3. The automatic thickness-adaptive dual-purpose walkie-talkie clip according to claim 1, characterized in that, The auxiliary clamping assembly (4) includes two auxiliary clamping members (42), one of which is movably connected to the first clamping assembly (1), and the other is movably connected to the second clamping assembly (2). Both auxiliary clamping members (42) are detachably abutted against the first elastic member (41).

4. The automatic thickness-adaptive dual-purpose walkie-talkie back clip according to claim 3, characterized in that, The first clamping assembly (1) has a first receiving cavity (11) which is connected to the clamping cavity (3). The second clamping assembly (2) has a second receiving cavity (21) which is connected to the clamping cavity (3). One of the auxiliary clamping members (42) is disposed in the first receiving cavity (11) and rotatably connected to the first clamping assembly (1). The other auxiliary clamping member (42) is disposed in the second receiving cavity (21) and rotatably connected to the second clamping assembly (2). The two auxiliary clamping members (42) are configured to be driven to move closer or further away synchronously.

5. The automatic thickness-adaptive dual-purpose walkie-talkie back clip according to claim 4, characterized in that, The auxiliary clamping assembly (4) further includes two rotating frames (45). One rotating frame (45) is disposed in the first receiving cavity (11) and rotatably connected to the first clamping assembly (1). The rotating frame (45) is detachably abutting against the first elastic member (41) and the auxiliary clamping member (42) respectively. The other rotating frame (45) is disposed in the second receiving cavity (21) and rotatably connected to the second clamping assembly (2). The other rotating frame (45) is directly or indirectly abutting against the first elastic member (41) and the other auxiliary clamping member (42) respectively.

6. The automatic thickness-adaptive dual-purpose walkie-talkie clip according to claim 5, characterized in that, The auxiliary clamping assembly (4) also includes a plurality of second elastic elements (46); The dimension of the end of the auxiliary clamping member (42) corresponding to the first elastic member (41) remains unchanged along the direction away from the end of the auxiliary clamping member (42) away from the first elastic member (41). The abutting end (451) of the rotating frame (45) corresponding to the auxiliary clamping member (42) is disposed on the side of the auxiliary clamping member (42) away from the first elastic member (41). The hinge end (421) of the auxiliary clamping member (42) and the first clamping assembly (1) is disposed on the side of the auxiliary clamping member (42) corresponding to the first elastic member (41). The second elastic member (46) is disposed on the side of the hinge end (421) away from the abutting end (451) and is respectively connected to the auxiliary clamping member (42) and the first clamping assembly (1).

7. The automatic thickness-adaptive dual-purpose walkie-talkie back clip according to claim 5, characterized in that, The auxiliary clamping assembly (4) also includes a reversing element (47). The dimension of the end of the auxiliary clamping member (42) corresponding to the first elastic member (41) gradually decreases along the direction away from the end of the auxiliary clamping member (42) away from the first elastic member (41). The reversing member (47) is disposed in the first receiving cavity (11) and rotatably connected to the first clamping assembly (1). The reversing member (47) is disposed between the first elastic member (41) and the auxiliary clamping member (42). The abutting end (451) of the rotating frame (45) corresponding to the reversing member (47) is disposed on the side of the reversing member (47) away from the first elastic member (41). The hinge end (421) of the auxiliary clamping member (42) and the first clamping assembly (1) is disposed at the end of the reversing member (47) away from the first elastic member (41). The second elastic member (46) is disposed between the hinge end (421) and the abutting end (451) and is respectively connected to the auxiliary clamping member (42) and the first clamping assembly (1).

8. A dual-purpose walkie-talkie clip with automatic thickness adaptation according to any one of claims 6 or 7, characterized in that, The automatic thickness-adaptive walkie-talkie back clip also includes two sets of anti-detachment components (5), each set of anti-detachment components (5) includes a rotating plate (51), an anti-detachment component (52) and multiple third elastic components (53). The first clamping assembly (1) also has a third receiving cavity (12), which is located on the side of the first receiving cavity (11) away from the clamping cavity (3) and communicates with the first receiving cavity (11) and the clamping cavity (3). The rotating plate (51) is disposed in the third receiving cavity (12) and is rotatably connected to the first clamping assembly (1). The rotating plate (51) is detachably abutted against the rotating frame (45). The third elastic member (53) is located on the side of the rotating plate (51) away from the first elastic member (41) and on the side of the rotating plate (51) close to the clamping cavity (3) and is connected to the rotating plate (51) and the first clamping assembly (1) respectively. The anti-detachment member (52) is connected to the rotating plate (51) to enter or exit the clamping cavity (3). The second clamping assembly (2) also has a fourth receiving cavity (22), which is located on the side of the second receiving cavity (21) away from the clamping cavity (3) and communicates with the second receiving cavity (21) and the clamping cavity (3). The rotating plate (51) is disposed in the fourth receiving cavity (22) and is rotatably connected to the second clamping assembly (2). The rotating plate (51) is detachably abutted against the rotating frame (45). The third elastic member (53) is located on the side of the rotating plate (51) away from the first elastic member (41) and is located on the side of the rotating plate (51) close to the clamping cavity (3) and is connected to the rotating plate (51) and the second clamping assembly (2) respectively. The anti-detachment member (52) is connected to the rotating plate (51) to enter or exit the clamping cavity (3).

9. A dual-purpose walkie-talkie clip with automatic thickness adaptation according to claim 5, characterized in that, The auxiliary clamping assembly (4) also includes multiple side clamping members (48) and multiple fourth elastic members (49). The first clamping assembly (1) also has a plurality of fifth receiving cavities (13), which are spaced apart along a direction perpendicular to the extension of the auxiliary clamping member (42) and distributed on the side of the first clamping assembly (1); a side clamping member (48) is located in a fifth receiving cavity (13) and is rotatably connected to the first clamping assembly (1), the side clamping member (48) is detachably abutting against the rotating frame (45), the fourth elastic member (49) is disposed on the side of the side clamping member (48) away from the rotating frame (45), the fourth elastic member (49) is disposed on the side of the side clamping member (48) corresponding to the clamping cavity (3) and is respectively connected to the side clamping member (48) and the first clamping assembly (1). The second clamping assembly (2) also has a plurality of sixth receiving cavities (23), which are spaced apart along a direction perpendicular to the extension of the auxiliary clamping member (42) and distributed on the side of the second clamping assembly (2); a side clamping member (48) is located in a sixth receiving cavity (23) and is rotatably connected to the second clamping assembly (2), the side clamping member (48) is detachably abutting against the rotating frame (45), the fourth elastic member (49) is located on the side of the side clamping member (48) away from the rotating frame (45), the fourth elastic member (49) is located on the side of the side clamping member (48) corresponding to the clamping cavity (3) and is respectively connected to the side clamping member (48) and the second clamping assembly (2).

10. A dual-purpose walkie-talkie clip with automatic thickness adaptation according to claim 9, characterized in that, Each of the fifth receiving cavities (13) is arranged in correspondence with a sixth receiving cavity (23). The clamping end (481) of the side clamping member (48) located in the fifth receiving cavity (13) extends out of the fifth receiving cavity (13) and is correspondingly arranged with the clamping cavity (3). The clamping end (481) of the side clamping member (48) located in the sixth receiving cavity (23) extends out of the sixth receiving cavity (23) and is correspondingly arranged with the clamping cavity (3).