A damping shock-absorbing mobile phone holder

By employing a damping and shock absorption design, combined with a hydraulic damper and a shock-absorbing spring, the problem of poor shock absorption on bumpy roads by car phone holders has been solved, resulting in more stable phone mounting and a more comfortable riding experience.

CN224459854UActive Publication Date: 2026-07-03SHENZHEN KAMEIRUO TECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHENZHEN KAMEIRUO TECHNOLOGY CO LTD
Filing Date
2025-07-25
Publication Date
2026-07-03

AI Technical Summary

Technical Problem

Existing car phone holders have poor shock absorption on bumpy roads, and their spring structure causes continuous oscillation and repeated bouncing, affecting the riding experience.

Method used

The design employs a damping and shock absorption system, utilizing a combination of hydraulic dampers and shock-absorbing springs. By converting the resistance of hydraulic oil flow into heat energy, and combined with the design of guide rods and limit bolts, it achieves a slow release of elastic force, suppresses rapid rebound, and enhances the buffering effect.

Benefits of technology

It effectively suppresses continuous vibration of the phone holder, improves the stability and comfort of the phone during cycling, and prevents the phone from falling off.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model discloses a damping and shock-absorbing mobile phone holder, belonging to the technical field of mobile phone holders. It includes a connecting base, with a pair of guide rods fixedly connected to one side of the connecting base, and a support frame provided on one side of the connecting base. The support frame has a pair of through holes. This utility model includes a support frame, a damper, and a shock-absorbing spring. The damper is a hydraulic damper. The support frame is clamped to a bicycle or electric bicycle frame via a ball joint. During riding, the bumpy force generated is transmitted to the support frame, causing it to vibrate. The shock-absorbing spring directly absorbs the impact energy from the road surface through elastic deformation, providing basic buffering force. The kinetic energy released by the shock-absorbing spring is converted into heat energy, which, through the flow resistance of hydraulic oil, suppresses the continuous oscillation caused by the rapid rebound of the shock-absorbing spring, preventing repeated bouncing of the clamping components. When passing through bumpy road sections, the shock-absorbing spring compresses and stores energy, which is then slowly released by the damper to achieve a shock-absorbing effect.
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Description

Technical Field

[0001] This utility model belongs to the field of mobile phone holder technology, specifically a damping and shock-absorbing mobile phone holder. Background Technology

[0002] Phone holders are portable tools that support mobile phones. The main differences between current phone holders lie in their versatility of functions, comfort of use, and additional uses. Phone holders installed on bicycles and electric bicycles can make it easy to view navigation routes, record videos, and live stream while riding. The phone is firmly fixed to the handlebar bottom bracket, freeing up your hands to focus on operating the handlebars, improving the riding experience and social convenience.

[0003] Existing phone holders still have the following shortcomings: Existing car phone holders use a spring structure to provide shock absorption and cushioning, keeping the phone on the holder stable and providing a more comfortable viewing experience for cyclists. However, when riding over bumpy roads, the vibration generated by the spring structure in the existing technology is transmitted to the spring of the phone holder, and the continuous oscillation and repeated bouncing caused by the spring rebound result in poor shock absorption. Utility Model Content

[0004] To overcome the above-mentioned defects, this utility model provides a damping shock-absorbing mobile phone holder, which solves the problems existing in the current mobile phone holder.

[0005] To achieve the above objectives, this utility model provides the following technical solution: a damping and shock-absorbing mobile phone holder, including a connecting base, a pair of guide rods fixedly connected to one side of the connecting base, a support frame provided on one side of the connecting base, a pair of through holes opened on the support frame, a shock-absorbing rubber sleeve provided on each through hole, each guide rod passing through the corresponding shock-absorbing rubber sleeve, a rubber pad provided on one side of the shock-absorbing rubber sleeve, a limit bolt threaded to one end of each guide rod, two pairs of dampers fixedly connected to the support frame, two pairs of connecting grooves opened on one side of the connecting base, one end of each damper fixedly connected to the corresponding connecting groove, a shock-absorbing spring sleeved on the outer periphery of each damper, a locking component provided on the connecting base, a clamping component provided on one side of the connecting base, and a front cover fixedly connected to one side of the connecting base.

[0006] As a further embodiment of this utility model: the clamping assembly includes an upper slide and a lower slide, both of which are slidably connected to one side of the connecting seat. A first fixing block is fixedly connected to both sides of the upper slide, and a second fixing block is fixedly connected to both sides of the lower slide. A tension spring is provided between the first fixing block and the second fixing block. Internal teeth are provided on both the upper slide and the lower slide. A fixing shaft is fixedly connected to one side of the front cover, and a gear is rotatably connected to the fixing shaft. The gear meshes with the internal teeth.

[0007] As a further embodiment of this utility model: the locking component includes a locking switch, the connecting seat has a movable groove, the locking switch is disposed in the movable groove, a slot is fixedly connected to one side of the front cover, the locking switch is movably connected to the slot, the locking switch is provided with a protrusion and a buckle respectively, a locking position is provided on the side wall of the movable groove, and multiple limiting grooves are provided on one side of the upper slide.

[0008] As a further embodiment of this utility model: a ball-head rod is fixedly connected to one side of the support frame.

[0009] Compared with the prior art, the beneficial effects of this utility model are as follows:

[0010] 1. This utility model is equipped with a support frame, a damper, and a shock-absorbing spring. The damper is a hydraulic damper. The support frame is clamped to the bicycle or electric vehicle frame via a ball joint. During riding, the bumpy force generated is transmitted to the support frame, causing it to vibrate. The shock-absorbing spring directly absorbs the impact energy of the road surface through elastic deformation, providing basic buffering force. The kinetic energy released by the shock-absorbing spring is converted into heat energy (through the flow resistance of hydraulic oil), suppressing the continuous oscillation caused by the rapid rebound of the shock-absorbing spring and avoiding repeated bouncing of the clamping components. When passing through bumpy road sections, the shock-absorbing spring is compressed and stored energy, and the damper controls its slow release to achieve the shock absorption effect.

[0011] 2. This utility model is equipped with a guide rod, a shock-absorbing rubber sleeve, a rubber pad, and a limiting bolt. The outer wall of the shock-absorbing rubber sleeve is fixedly connected to the inner wall of the through hole on the support frame. The limiting bolt is tightened at one end of the guide rod. When the clamping component vibrates, it drives the guide column to move. Then, the shock-absorbing spring and damper release the elastic force and the guide column returns to its original position. When the guide column returns to its original position, it drives the limiting bolt to squeeze the shock-absorbing rubber sleeve, causing the shock-absorbing rubber sleeve to deform. When it rebounds, it plays a buffering role, making the phone holder clamp the phone more stably.

[0012] 3. This utility model is provided with a limiting groove, a locking switch, a protrusion, a buckle, and a locking position. The locking position matches the buckle. When the upper slide and the lower slide tightly clamp the mobile phone, by pressing the locking switch, the protrusion at one end of the locking switch engages with the limiting groove of the upper slide, and the buckle at the other end engages with the locking position on the inner wall of the movable groove, which limits the upper slide and prevents the upper slide and the lower slide from loosening and causing the mobile phone to fall off. Attached Figure Description

[0013] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0014] Figure 2 Explosive disassembly of this utility model Figure 1 ;

[0015] Figure 3 Explosive disassembly of this utility model Figure 2 ;

[0016] Figure 4 This is a schematic diagram of the upper slide and lower slide of this utility model;

[0017] Figure 5 This is a schematic diagram of the front cover structure of this utility model;

[0018] Figure 6 For the present utility model Figure 5 Enlarged view of point A in the middle;

[0019] Figure 7 This is a schematic diagram of the upper slide and locking switch structure of this utility model;

[0020] Figure 8 This is a schematic diagram of the connecting base and locking switch structure of this utility model;

[0021] Figure 9 For the present utility model Figure 8 Enlarged diagram of point B in the middle.

[0022] In the diagram: 1. Connecting seat; 2. Guide rod; 3. Support frame; 4. Through hole; 5. Shock-absorbing rubber sleeve; 6. Rubber pad; 7. Limiting bolt; 8. Damper; 9. Connecting groove; 10. Shock-absorbing spring; 11. Front cover; 12. Upper slide seat; 13. Lower slide seat; 14. First fixing block; 15. Second fixing block; 16. Tensioning spring; 17. Internal gear; 18. Fixed shaft; 19. Gear; 20. Locking switch; 21. Movable groove; 22. Slot; 23. Protrusion; 24. Buckle; 25. Locking position; 26. Limiting groove; 27. Ball joint rod. Detailed Implementation

[0023] The technical solution of this patent will be further described in detail below with reference to specific embodiments.

[0024] like Figures 1-9 As shown, this utility model provides a technical solution:

[0025] A damping and shock-absorbing mobile phone holder includes a connecting base 1, a pair of guide rods 2 fixedly connected to one side of the connecting base 1, a support frame 3 provided on one side of the connecting base 1, a pair of through holes 4 opened on the support frame 3, a shock-absorbing rubber sleeve 5 provided on each through hole 4, each guide rod 2 passing through the corresponding shock-absorbing rubber sleeve 5, a rubber pad 6 provided on one side of the shock-absorbing rubber sleeve 5, a limit bolt 7 threadedly connected to one end of each guide rod 2, two pairs of dampers 8 fixedly connected to the support frame 3, two pairs of connecting grooves 9 opened on one side of the connecting base 1, one end of each damper 8 fixedly connected to the corresponding connecting groove 9, a shock-absorbing spring 10 sleeved on the outer periphery of each damper 8, a locking component provided on the connecting base 1, a clamping component provided on one side of the connecting base 1, a front cover 11 fixedly connected to one side of the connecting base 1, and a ball head rod 27 fixedly connected to one side of the support frame 3.

[0026] Specifically, the damper 8 is a hydraulic damper, and the shock-absorbing sleeve 5 is a hollow shock-absorbing sleeve. The outer wall of the shock-absorbing sleeve 5 is fixedly connected to the inner wall of the through hole 4 on the support frame 3. The limit bolt 7 is tightened at one end of the guide rod 2. The two ends of the shock-absorbing spring 10 are in contact with the connecting seat 1 and the support frame 3 respectively. The support frame 3 is connected and clamped to the bicycle or electric vehicle frame through the ball joint rod 27. The clamping component tightly clamps the mobile phone, and the locking component can prevent the clamping component from loosening and causing the mobile phone to fall off. The bumpy force generated during riding is transmitted to the support frame 3, causing the support frame 3 to vibrate. The shock-absorbing spring 10 directly absorbs the impact energy of the road surface through elastic deformation, providing a foundation. The damping force is absorbed by the kinetic energy released by the shock-absorbing spring 10, which is converted into heat energy (through the flow resistance of hydraulic oil). This suppresses the continuous oscillation caused by the rapid rebound of the shock-absorbing spring 10 and avoids repeated bouncing of the clamping component. When passing through bumpy road sections, the shock-absorbing spring 10 is compressed and stored, and the damper 8 controls its slow release to achieve the shock absorption effect. At the same time, when the clamping component vibrates, it drives the guide column 2 to move. Then, the shock-absorbing spring 10 and the damper 8 release the elastic force and the guide column 2 returns to its original position. When the guide column 2 returns to its original position, it drives the limit bolt 7 to squeeze the shock-absorbing rubber sleeve 5, causing the shock-absorbing rubber sleeve 5 to deform. This provides a buffering effect when it rebounds, making the phone holder clamp the phone more stably.

[0027] The clamping assembly includes an upper slide 12 and a lower slide 13. Both the upper slide 12 and the lower slide 13 are slidably connected to one side of the connecting seat 1. A first fixing block 14 is fixedly connected to both sides of the upper slide 12, and a second fixing block 15 is fixedly connected to both sides of the lower slide 13. A tension spring 16 is provided between the first fixing block 14 and the second fixing block 15. Both the upper slide 12 and the lower slide 13 are provided with internal teeth 17. A fixing shaft 18 is fixedly connected to one side of the front cover 11. A gear 19 is rotatably connected to the fixing shaft 18, and the gear 19 meshes with the internal teeth 17.

[0028] Specifically, when in use, pull the upper slide block 12 upward. The internal teeth 17 on the upper slide block 12 drive the internal teeth 17 on the lower slide block 13 to move through the gear 19, so that the upper slide block 12 and the lower slide block 13 move away from each other and open up. The tension spring 16 is stretched. Place the mobile phone between the upper slide block 12 and the lower slide block 13. At this time, the tension spring 16 pulls the first fixing block 14 and the second fixing block 15 at both ends, so that the upper slide block 12 and the lower slide block 13 tightly clamp the mobile phone.

[0029] The locking assembly includes a locking switch 20, a movable groove 21 is provided on the connecting base 1, the locking switch 20 is disposed in the movable groove 21, a slot 22 is fixedly connected to one side of the front cover 11, the locking switch 20 is movably connected to the slot 22, a protrusion 23 and a buckle 24 are respectively provided on the locking switch 20, a slot 25 is provided on the side wall of the movable groove 21, and a plurality of limiting grooves 26 are provided on one side of the upper slide base 12;

[0030] Specifically, the central shaft of the locking switch 20 is engaged in the groove on the slot 22, allowing the locking switch 20 to be installed in a seesaw-like manner. By pressing the locking switch 20, the protrusion 23 at one end of the locking switch 20 engages with the limiting groove 26 of the upper slide block 12, and the buckle 24 at the other end engages with the locking position 25 on the inner wall of the movable groove 21, thus limiting the upper slide block 12 and preventing the upper slide block 12 and the lower slide block 13 from loosening and causing the mobile phone to fall off.

[0031] The working principle of this utility model is as follows:

[0032] The support frame 3 is connected and clamped to the bicycle or electric vehicle frame via the ball joint rod 27. When in use, the upper slide 12 is pulled upward. The internal teeth 17 on the upper slide 12 drive the internal teeth 17 on the lower slide 13 to move through the gear 19, so that the upper slide 12 and the lower slide 13 move away from each other and open up. The tension spring 16 is stretched. The mobile phone is placed between the upper slide 12 and the lower slide 13. At this time, the tension spring 16 pulls the first fixing block 14 and the second fixing block 15 at both ends, so that the upper slide 12 and the lower slide 13 clamp the mobile phone tightly.

[0033] By pressing the locking switch 20, the protrusion 23 at one end of the locking switch 20 engages with the limiting groove 26 of the upper slide block 12, and the buckle 24 at the other end engages with the locking position 25 on the inner wall of the movable groove 21, which limits the upper slide block 12 and prevents the upper slide block 12 and the lower slide block 13 from loosening and causing the mobile phone to fall off.

[0034] During cycling, the bumpy force is transmitted to the support frame 3, causing the support frame 3 to vibrate. The shock-absorbing spring 10 absorbs the impact energy of the road surface directly through elastic deformation, providing basic buffering force. The kinetic energy released by the shock-absorbing spring 10 is converted into heat energy (through the flow resistance of hydraulic oil), suppressing the continuous oscillation caused by the rapid rebound of the shock-absorbing spring 10 and avoiding repeated bouncing of the clamping component. When passing through bumpy road sections, the shock-absorbing spring 10 compresses and stores energy, and the damper 8 controls its slow release to achieve the shock absorption effect. At the same time, when the clamping component vibrates, it drives the guide column 2 to move. Subsequently, the shock-absorbing spring 10 and the damper 8 release the elastic force and the guide column 2 returns to its original position. When the guide column 2 returns to its original position, it drives the limit bolt 7 to squeeze the shock-absorbing rubber sleeve 5, causing the shock-absorbing rubber sleeve 5 to deform. When it rebounds, it plays a buffering role, making the phone holder clamp the phone more stably.

[0035] The preferred embodiments of this patent have been described in detail above. However, this patent is not limited to the above embodiments. Within the scope of knowledge possessed by those skilled in the art, various changes can be made without departing from the spirit of this patent.

Claims

1. A damping shock-absorbing mobile phone holder comprising a connecting seat (1), characterized in that: A pair of guide rods (2) are fixedly connected to one side of the connecting seat (1). A support frame (3) is provided on one side of the connecting seat (1). A pair of through holes (4) are provided on the support frame (3). A damping rubber sleeve (5) is provided on each through hole (4). Each guide rod (2) passes through the corresponding damping rubber sleeve (5). A rubber pad (6) is provided on one side of the damping rubber sleeve (5). A limit bolt (7) is threaded to one end of each guide rod (2). Two pairs of dampers (8) are fixedly connected to the support frame (3). Two pairs of connecting grooves (9) are provided on one side of the connecting seat (1). One end of each damper (8) is fixedly connected to the corresponding connecting groove (9). A damping spring (10) is sleeved on the outer periphery of each damper (8). A locking component is provided on the connecting seat (1). A clamping component is provided on one side of the connecting seat (1). A front cover (11) is fixedly connected to one side of the connecting seat (1).

2. The shock-absorbing mobile phone holder according to claim 1, characterized in that: The clamping assembly includes an upper slide (12) and a lower slide (13). The upper slide (12) and the lower slide (13) are slidably connected to one side of the connecting seat (1). A first fixing block (14) is fixedly connected to both sides of the upper slide (12), and a second fixing block (15) is fixedly connected to both sides of the lower slide (13). A tension spring (16) is provided between the first fixing block (14) and the second fixing block (15). Internal teeth (17) are provided on both the upper slide (12) and the lower slide (13). A fixing shaft (18) is fixedly connected to one side of the front cover (11). A gear (19) is rotatably connected to the fixing shaft (18), and the gear (19) meshes with the internal teeth (17).

3. A damped mobile phone holder according to claim 2, characterized in that: The locking assembly includes a locking switch (20), a movable groove (21) is provided on the connecting seat (1), the locking switch (20) is disposed in the movable groove (21), a slot (22) is fixedly connected to one side of the front cover (11), the locking switch (20) is movably connected to the slot (22), a protrusion (23) and a buckle (24) are respectively provided on the locking switch (20), a slot (25) is provided on the side wall of the movable groove (21), and a plurality of limiting grooves (26) are provided on one side of the upper slide (12).

4. The shock-absorbing mobile phone holder according to claim 3, characterized in that: A ball head rod (27) is fixedly connected to one side of the support frame (3).