A bicycle lamp bluetooth remote control with quick release base

The bicycle light Bluetooth remote control, with its quick-release base and limit rail design, solves the problem of laborious disassembly of traditional remote controls, enabling quick installation and convenient operation, and improving riding safety and efficiency.

CN224343535UActive Publication Date: 2026-06-09SHENZHEN MINJUN ELECTRONICS TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHENZHEN MINJUN ELECTRONICS TECH CO LTD
Filing Date
2025-07-02
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

Traditional bicycle light remote controls are cumbersome to install, making disassembly laborious, which affects riding efficiency and safety, and requires stopping to operate, increasing the risk of falling.

Method used

The vehicle features a quick-release base design, allowing for rapid installation and removal of the inner shell and bottom cover via quick-release components. Combined with the sliding connection structure of the limit rail and the toggle switch, the headlights can be turned on with a single button without removing the handlebars.

Benefits of technology

It improves installation efficiency and safety, reduces disassembly difficulty, ensures a stable connection in bumpy environments, and allows for a quick response in emergencies, thus enhancing riding safety and ease of operation.

✦ Generated by Eureka AI based on patent content.

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Patent Text Reader

Abstract

This utility model belongs to the field of remote control technology, specifically disclosing a Bluetooth remote control for a bicycle light with a quick-release base. The utility model includes an outer shell and an inner shell. A bottom cover is located on one side of the outer shell, and a toggle switch is located on another side. A quick-release assembly is located between the toggle switch and the bottom cover, and an operating component is located between the outer shell and the toggle switch. The quick-release assembly enables rapid installation and removal of the inner shell and the bottom cover, thus enabling rapid disassembly of the remote control, greatly improving installation efficiency. Operation is simple, requiring no professional tools, and is convenient for users to complete themselves. Furthermore, during equipment maintenance, repair, or replacement of parts, users can easily disassemble and separate the components, reducing maintenance difficulty and costs. Simultaneously, the multiple cooperation of positioning blocks and positioning grooves, protrusions and grooves, and buckles and slots ensures the stability after installation, allowing the device to maintain a good connection even in bumpy riding environments, enhancing overall reliability and durability.
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Description

Technical Field

[0001] This application relates to the field of remote control technology, and more specifically, to a Bluetooth remote control for a bicycle light with a quick-release base. Background Technology

[0002] With the rise of intelligent bicycle development, the demand for convenience and safety in cycling scenarios is becoming increasingly prominent, and the application of wireless control technology in bicycle accessories is gradually becoming a focus of the industry. As one of the core components to ensure cycling safety, the control method of bicycle lights is upgrading from traditional manual wired operation to intelligent wireless operation. Remote control of the front and taillights through wireless technology can not only reduce the risk of taking the handlebars off during riding, but also improve the technological feel and control efficiency of riding. Under this trend, wireless control of bicycle lights has become a highly anticipated development direction in the process of intelligent bicycle development.

[0003] Traditional bicycle light remote controls are mostly button-type, requiring users to stop the bike or remove their grips to operate them. This can easily disrupt the riding rhythm, increasing the risk of falls or collisions. Furthermore, the installation of existing bicycle light remote controls is cumbersome, making disassembly time-consuming and laborious, which in turn affects riding efficiency and experience. Utility Model Content

[0004] To address the aforementioned issues, this application provides a Bluetooth remote control for a bicycle light with a quick-release base.

[0005] The Bluetooth remote control for a bicycle light with a quick-release base provided in this application adopts the following technical solution:

[0006] A Bluetooth remote control for a bicycle light with a quick-release base includes an outer shell and an inner shell. A bottom cover is provided on one side of the outer shell, and a toggle switch is provided on one side of the outer shell. A quick-release assembly is provided between the toggle switch and the bottom cover, and an operating assembly is provided between the outer shell and the toggle switch.

[0007] The quick-release assembly includes a quick-release base and a mounting slot, which are used for quick release of the inner shell and the bottom cover;

[0008] The operating components include a lever, which is used to drive the toggle switch to perform a toggle operation.

[0009] Furthermore, a quick-release base is located on one side of the bottom cover, with two protrusions on both sides of the quick-release base, and a buckle inside the quick-release base.

[0010] Furthermore, the mounting groove is opened on one side of the inner shell, and two grooves are opened on both sides of the inner wall of the inner shell. Each groove matches the corresponding protrusion. The mounting groove has a slot inside, which engages with the buckle.

[0011] Furthermore, two positioning grooves are provided on one side of the inner shell, and two positioning blocks are provided on one side of the bottom cover, each positioning block engaging with the corresponding positioning groove.

[0012] Furthermore, an indicator is provided on one side of the quick-release base.

[0013] The above technical solution enables the rapid installation and disassembly of the inner shell and the bottom cover, thus enabling the rapid disassembly of the remote control and greatly improving installation efficiency.

[0014] Furthermore, two mounting holes are provided on one side of the bottom cover, and each mounting hole is equipped with a screw.

[0015] The above technical solution allows the bottom cover to be installed on the bicycle handlebars.

[0016] Furthermore, an opening is provided on one side of the inner shell, and a matching groove is provided on the inner wall of the opening.

[0017] Furthermore, a waterproof screen is provided on one side of the opening, and the structure of the matching groove is adapted to the structure of the waterproof screen. The matching groove and the waterproof screen are engaged. The waterproof screen is made of silicone material.

[0018] The above technical solutions can effectively prevent rainwater, dust and other foreign objects from entering the inner shell, improve the waterproof and dustproof performance of the remote control, and ensure the safety of internal components.

[0019] Furthermore, both sides of the inner wall of the inner shell are provided with limit slide rails, and both sides of the inner wall of the toggle switch are slidably connected to the two limit slide rails. One side of the toggle switch is provided with a rotating block, and one side of the inner shell is provided with two contacts.

[0020] Furthermore, the outer wall of the lever is provided with anti-slip textured surfaces, the lever is fixedly installed on one side of the toggle switch, and a power display screen is provided on one side of the lever.

[0021] The above technical solution enables the convenient operation of turning on the bicycle lights with one click without taking your hands off the handlebars. This not only ensures the stability of your hands gripping the handlebars while riding, reducing safety risks, but also allows for a quick response in emergencies, improving driving safety.

[0022] In summary, this application includes at least one of the following beneficial technical effects:

[0023] This utility model achieves quick installation and disassembly of the inner shell and bottom cover through quick-release components, which also enables quick disassembly of the remote control, greatly improving installation efficiency. The operation is simple and does not require professional tools, making it convenient for users to complete the task themselves. When maintaining, repairing, or replacing parts of the equipment, users can easily disassemble and separate the components, reducing maintenance difficulty and costs. At the same time, the multiple cooperation of positioning blocks and positioning grooves, protrusions and grooves, and buckles and slots ensures the stability after installation, allowing the equipment to maintain a good connection even in bumpy riding environments, enhancing overall reliability and durability.

[0024] This invention provides a stable guide for the toggle operation through the sliding connection structure between the limit rail and the toggle switch in the operating component, ensuring accurate switch movement trajectory and avoiding accidental touches or operational failures caused by shaking. Furthermore, the toggle's toggle design, similar to a bicycle bell, conforms to the rider's operating habits, enabling convenient one-button operation to turn on the lights without taking the handlebars off the handlebars. This not only ensures the stability of both hands gripping the handlebars while riding, reducing safety risks, but also allows for rapid response in emergencies, improving driving safety. At the same time, the anti-slip textured design enhances the paddle's handling feel in various environments, ensuring operational reliability even on wet or bumpy roads. Attached Figure Description

[0025] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0026] Figure 2 This is a schematic diagram of the overall bottom structure of this utility model;

[0027] Figure 3 This is a cross-sectional view of the overall structure of the toggle switch of this utility model;

[0028] Figure 4 This is a schematic diagram of the top structure of the bottom cover of this utility model;

[0029] Figure 5 This is a schematic diagram of the overall structure of the mounting slot of this utility model;

[0030] Figure 6 This is a schematic diagram of the overall structure of the waterproof sieve and inner shell of this utility model.

[0031] Figure 7 This is a schematic diagram of the overall structure of the bottom cover and screws of this utility model.

[0032] Explanation of reference numerals in the attached diagram: 1. Outer shell; 2. Toggle switch; 3. Bottom cover; 4. Quick-release base; 5. Buckle; 6. Protrusion; 7. Mounting groove; 8. Groove; 9. Slot; 10. Positioning block; 11. Positioning groove; 12. Mounting hole; 13. Screw; 14. Indicator; 15. Opening; 16. Waterproof screen; 17. Contact point; 18. Matching groove; 19. Paddle; 20. Inner shell; 21. Limiting slide rail; 22. Rotating block; 23. Power display screen. Detailed Implementation

[0033] The technical solutions in the embodiments of this application will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this application, and not all embodiments. All other embodiments obtained by those skilled in the art based on the embodiments of this application without creative effort are within the scope of protection of this application.

[0034] Reference Figures 1-7 A Bluetooth remote control for a bicycle light with a quick-release base includes an outer shell 1 and an inner shell 20. A bottom cover 3 is provided on one side of the outer shell 1, and a toggle switch 2 is provided on one side of the outer shell 1. A quick-release assembly is provided between the toggle switch 2 and the bottom cover 3, and an operating assembly is provided between the outer shell 1 and the toggle switch 2.

[0035] The quick-release assembly includes a quick-release base 4 and a mounting slot 7, which are used for quick release of the inner shell 20 and the bottom cover 3.

[0036] The operating components include a lever 19, which is used to drive the toggle switch 2 to perform a toggle operation.

[0037] Reference Figures 1-7 The quick-release base 4 is located on one side of the bottom cover 3. Two protrusions 6 are provided on both sides of the quick-release base 4. The quick-release base 4 has a buckle 5 inside. The mounting groove 7 is opened on one side of the inner shell 20. Two grooves 8 are opened on both sides of the inner wall of the inner shell 20. Each groove 8 matches the corresponding protrusion 6. The mounting groove 7 has a slot 9 inside. The slot 9 engages with the buckle 5. Two positioning grooves 11 are opened on one side of the inner shell 20. Two positioning blocks 10 are provided on one side of the bottom cover 3. Each positioning block 10 engages with the corresponding positioning groove 11. An indicator 14 is provided on one side of the quick-release base 4.

[0038] The quick-release assembly enables the quick disassembly of the inner shell 20 and the bottom cover 3. The specific quick-release method is as follows: first, align the quick-release base 4 and the bottom cover 3 together with the side of the inner shell 20 where the mounting groove 7 is opened, and insert the protrusions 6 on both sides of the quick-release base 4 into the grooves 8 on the inner wall of the inner shell 20 to achieve initial positioning.

[0039] Next, push the quick-release base 4 according to the direction of the indicator 14. After it is pushed into place, the buckle 5 inside the quick-release base 4 will engage with the slot 9 in the mounting slot 7. When the buckle 5 is engaged into the slot 9, there will be a clicking sound, which means the installation is completed. At the same time as the buckle 5 is engaged into the slot 9, the positioning block 10 on the bottom cover 3 will engage into the positioning groove 11 of the inner shell 20.

[0040] During disassembly, push the outer shell 1 in the opposite direction according to the pressing indicator 14. At this time, the buckle 5 will gradually disengage from the slot 9 by the pushing force. Continue to push until it can no longer be pushed. At this time, each protrusion 6 is in the corresponding position with the corresponding groove 8. The protrusion 6 can be pulled out from the groove 8, and the positioning block 10 will also disengage from the positioning groove 11. The bottom cover 3, quick-release base 4 and inner shell 20 can then be separated to complete the quick disassembly.

[0041] The quick-release assembly enables rapid installation and removal of the inner shell 20 and the bottom cover 3, thus allowing for quick disassembly of the remote control. This greatly improves installation efficiency and is simple to operate, requiring no professional tools and allowing users to complete the process themselves. Furthermore, users can easily disassemble and separate the components during equipment maintenance, repair, or replacement, reducing maintenance difficulty and costs. At the same time, the multiple cooperation of the positioning block 10 and positioning groove 11, the protrusion 6 and groove 8, and the buckle 5 and slot 9 ensures the stability after installation, allowing the device to maintain a good connection even in bumpy riding environments, thus enhancing overall reliability and durability.

[0042] Reference Figure 7 Two mounting holes 12 are provided on one side of the bottom cover 3, and each mounting hole 12 is equipped with a screw 13.

[0043] With the addition of two screws 13 and mounting holes 12, the bottom cover 3 can be fixed to the dedicated screw holes on the bicycle handlebars, ensuring that the remote control is not easily shaken or fall off during riding, and that installation and disassembly are convenient and highly adaptable.

[0044] Reference Figure 5 and Figure 6 An opening 15 is provided on one side of the inner shell 20. A matching groove 18 is provided on the inner wall of the opening 15. A waterproof screen 16 is provided on one side of the opening 15. The structure of the matching groove 18 is adapted to the structure of the waterproof screen 16. The matching groove 18 and the waterproof screen 16 are engaged. The waterproof screen 16 is made of silicone material.

[0045] By setting up the waterproof screen 16, rainwater, dust and other foreign objects can be effectively blocked from entering the inner shell 20, improving the waterproof and dustproof performance of the remote control and ensuring the safety of internal components. Furthermore, the matching slot 18 is engaged with the waterproof screen 16, which not only enables the waterproof screen 16 to be quickly installed and disassembled, facilitating later maintenance and replacement, but also ensures that the two fit tightly together, enhancing the stability of the waterproof and dustproof structure.

[0046] Reference Figures 1-3 The inner wall of the inner shell 20 is provided with limit slide rails 21 on both sides. The inner wall of the toggle switch 2 is slidably connected to the two limit slide rails 21 on both sides. The toggle switch 2 is provided with a rotating block 22 on one side. The inner shell 20 is provided with two contacts 17 on one side. The outer wall of the toggle 19 is provided with anti-slip ridges. The toggle 19 is fixedly installed on one side of the toggle switch 2. The toggle 19 is provided with a power display screen 23 on one side.

[0047] The operation is similar to ringing a bicycle bell, achieved by toggling the paddle 19. This method ensures that the light illuminates instantly without needing to remove the handlebars. Specifically, the rider hooks or presses the anti-slip texture on the outer wall of the paddle 19 and moves it laterally along the guide direction of the limiting slide rail 21. This causes the paddle 19 to slide along the limiting slide rail 21, with the sliding structures on both sides of the switch's inner wall tightly engaging with the limiting slide rail 21 to ensure stable movement. Since the rotating block 22 is fixedly connected to the toggle switch 2, it rotates when the toggle switch 2 slides to a specific position. It will also touch the two contacts 17 on the inner shell 20. Since the rotating block 22 is usually made of conductive material, and the contacts 17 are connected to the circuit system of the bicycle light, the two will form a complete conductive path after contact. At this time, the current flows from the power source through the contacts 17 and the rotating block 22 into the circuit of the bicycle light, triggering the circuit to conduct, so that electrical energy is converted into light energy, and the bicycle light is lit immediately. The whole process is as smooth as ringing a bicycle bell. The fingers do not need to leave the handlebars, and can be completed by simply flicking the handlebars with the fingertips or pads. The anti-slip texture can effectively prevent slipping during operation and ensure accurate triggering even in bumpy or wet environments.

[0048] The sliding connection structure between the limit rail 21 in the operating component and the toggle switch 2 provides a stable guide for the toggle operation, ensuring accurate switch movement trajectory and avoiding accidental touches or operation failures caused by shaking. Furthermore, the toggle switch 19, with its toggle design similar to a bicycle bell, conforms to the rider's operating habits, enabling convenient one-button operation to turn on the lights without taking the handlebars off the handlebars. This not only ensures the stability of both hands gripping the handlebars while riding, reducing safety risks, but also allows for rapid response in emergencies, improving driving safety. At the same time, the anti-slip textured design enhances the handling feel of the toggle switch 19 in various environments, ensuring operational reliability even on wet or bumpy roads.

[0049] Working principle: When it is necessary to install or remove the remote control, first align the quick-release base 4 and the bottom cover 3 together with the side of the inner shell 20 where the mounting groove 7 is opened, and insert the protrusions 6 on both sides of the quick-release base 4 into the grooves 8 on the inner wall of the inner shell 20 to achieve initial positioning.

[0050] Next, push the quick-release base 4 according to the direction of the indicator 14. After it is pushed into place, the buckle 5 inside the quick-release base 4 will engage with the slot 9 in the mounting slot 7. When the buckle 5 is engaged into the slot 9, there will be a clicking sound, which means the installation is completed. At the same time as the buckle 5 is engaged into the slot 9, the positioning block 10 on the bottom cover 3 will engage into the positioning groove 11 of the inner shell 20.

[0051] During disassembly, push the outer shell 1 in the opposite direction according to the pressing indicator 14. At this time, the buckle 5 will gradually disengage from the slot 9 by the pushing force. Continue to push until it can no longer be pushed. At this time, each protrusion 6 is in the corresponding position with the corresponding groove 8. The protrusion 6 can be pulled out from the groove 8, and the positioning block 10 will also disengage from the positioning groove 11. The bottom cover 3, quick-release base 4 and inner shell 20 can then be separated to complete the quick disassembly.

[0052] When operating the remote control, the rider first hooks or presses the anti-slip texture on the outer wall of the paddle 19 with their finger, and then moves the paddle 19 laterally along the guide direction of the limiting slide rail 21. At this time, the paddle 19 drives the fixedly connected toggle switch 2 to slide on the limiting slide rail 21. The sliding structure on both sides of the inner wall of the switch is tightly engaged with the limiting slide rail 21 to ensure stable movement. Since the rotating block 22 is fixedly connected to the toggle switch 2, when the toggle switch 2 slides to a specific position, its rotating block 22 rotates and touches the two contacts 17 on the inner shell 20. 22 is usually made of conductive material, while contact 17 is connected to the bicycle light's circuit system. When the two come into contact, they form a complete conductive path. At this time, current flows from the power source through contact 17 and rotating block 22 into the bicycle light's circuit, triggering the circuit to conduct, so that electrical energy is converted into light energy, and the bicycle light is lit immediately. The whole process is as smooth as ringing a bicycle bell. The fingers do not need to leave the handlebars; they can be completed by simply flicking the handlebars with the pads or tips of the fingers. The anti-slip texture effectively prevents slippage during operation, ensuring accurate triggering even in bumpy or slippery environments.

[0053] 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 Bluetooth remote control for a bicycle light with a quick-release base, comprising a housing (1) and an inner housing (20), characterized in that, The outer casing (1) has a bottom cover (3) on one side, a toggle switch (2) on one side, a quick-release assembly between the toggle switch (2) and the bottom cover (3), and an operating assembly between the outer casing (1) and the toggle switch (2). The quick-release assembly includes a quick-release base (4) and a mounting slot (7), which are used to quickly release the inner shell (20) and the bottom cover (3); The operating component includes a lever (19) for driving the toggle switch (2) to perform a toggle operation.

2. The bicycle light Bluetooth remote control with quick-release base according to claim 1, characterized in that: The quick-release base (4) is located on one side of the bottom cover (3). Two protrusions (6) are provided on both sides of the quick-release base (4). The quick-release base (4) has a buckle (5) inside.

3. A Bluetooth remote control for a bicycle light with a quick-release base according to claim 1, characterized in that: The mounting groove (7) is opened on one side of the inner shell (20). Two grooves (8) are opened on both sides of the inner wall of the inner shell (20). Each groove (8) matches the corresponding protrusion (6). A slot (9) is opened inside the mounting groove (7). The slot (9) is engaged with the buckle (5).

4. A Bluetooth remote control for a bicycle light with a quick-release base according to claim 1, characterized in that: The inner shell (20) has two positioning grooves (11) on one side, and the bottom cover (3) has two positioning blocks (10) on one side, each positioning block (10) engaging with the corresponding positioning groove (11).

5. A Bluetooth remote control for a bicycle light with a quick-release base according to claim 1, characterized in that: The quick-release base (4) has an indicator (14) on one side.

6. A Bluetooth remote control for a bicycle light with a quick-release base according to claim 1, characterized in that: Two mounting holes (12) are provided on one side of the bottom cover (3), and each mounting hole (12) is provided with a screw (13).

7. A Bluetooth remote control for a bicycle light with a quick-release base according to claim 1, characterized in that: An opening (15) is provided on one side of the inner shell (20), and a matching groove (18) is provided on the inner wall of the opening (15).

8. A Bluetooth remote control for a bicycle light with a quick-release base according to claim 7, characterized in that: A waterproof screen (16) is provided on one side of the opening (15). The structure of the matching groove (18) is adapted to the structure of the waterproof screen (16). The matching groove (18) is engaged with the waterproof screen (16). The waterproof screen (16) is made of silicone material.

9. A Bluetooth remote control for a bicycle light with a quick-release base according to claim 1, characterized in that: The inner wall of the inner shell (20) is provided with limit slide rails (21) on both sides. The inner wall of the toggle switch (2) is slidably connected to the two limit slide rails (21) on both sides. The toggle switch (2) is provided with a rotating block (22) on one side. The inner shell (20) is provided with two contacts (17) on one side.

10. A Bluetooth remote control for a bicycle light with a quick-release base according to claim 1, characterized in that: The outer wall of the lever (19) is provided with anti-slip texture. The lever (19) is fixedly installed on one side of the toggle switch (2). A power display screen (23) is provided on one side of the lever (19).