Battery and battery holder connection structure

By utilizing the connection structure between the battery and the battery holder, and combining the design of the connecting part and the locking part, the problem of inconvenient battery removal for electric bicycles is solved, achieving stable battery installation and convenient use, thus enhancing the user experience.

CN224472613UActive Publication Date: 2026-07-07JINHUA ALOTA TECHNOLOGY CO LTD +1

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
JINHUA ALOTA TECHNOLOGY CO LTD
Filing Date
2025-11-04
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

The existing electric bicycle batteries and battery mounting brackets are difficult to remove, resulting in poor user convenience.

Method used

A battery-battery holder connection structure is designed. By combining the longitudinal limiting of the connecting part and the lateral limiting of the locking part, the battery assembly is ensured to be stable in the mounting groove and easy to disassemble and install. The structure includes a connecting block, an insert, a locking part, a lever, and other structures to achieve fixing and unlocking.

Benefits of technology

It achieves stable fixation of the battery pack on the bicycle, preventing it from falling off, and is easy to disassemble or install, making it convenient for users. The battery pack can also be used as a power source independently, meeting a variety of usage needs.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a battery and battery holder connecting structure, including battery assembly and the battery mounting seat for installing on the bicycle, and battery assembly can be dismantled install on the battery mounting seat, be equipped with the mounting groove of adaptation battery assembly outer contour on the battery mounting seat, and battery assembly embeds the mounting groove, be equipped with the connecting portion between mounting groove and battery assembly, and the connecting portion longitudinal position limiting battery assembly, the end of battery mounting seat and battery assembly is equipped with the locking portion, and the locking portion transverse position limiting battery assembly, and the design is through locking portion and connecting portion and tightly fixed battery assembly in mounting groove, prevent the bicycle in the riding process battery assembly and fall off the situation, simple structure, and the stability of battery assembly position limiting is higher, and the battery assembly is not easy to produce the shaking even falls off in the bicycle driving process, and dismounts or installs more convenient, and the convenience of user's use is higher.
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Description

Technical Field

[0001] This utility model relates to the field of battery technology, and in particular to a battery and battery holder connection structure. Background Technology

[0002] Batteries, a common household item, are widely used in mobile phones, tablets, remote controls, and electric vehicles. To facilitate outdoor riding, electric bicycles have also been invented, which can be driven electrically or manually. Electric bicycles typically require a battery mount.

[0003] Most existing electric bicycles have batteries that are difficult to remove from their mounting brackets, and charging requires multiple steps to take out the battery, making them generally inconvenient for users. Utility Model Content

[0004] To overcome the shortcomings of the prior art, this utility model provides a battery and battery holder connection structure. To solve the above-mentioned technical problems, this utility model provides the following technical solution.

[0005] A battery and battery holder connection structure includes a battery assembly and a battery mounting bracket for mounting on a bicycle. The battery assembly is detachably mounted on the battery mounting bracket. The battery mounting bracket has a mounting groove adapted to the outer contour of the battery assembly, and the battery assembly is embedded in the mounting groove. A connecting part is provided between the mounting groove and the battery assembly, and the connecting part longitudinally limits the battery assembly. A locking part is provided at the end of the battery mounting bracket and the battery assembly, and the locking part laterally limits the battery assembly.

[0006] Furthermore, the connecting part includes several protruding connecting blocks at the bottom of the battery assembly and a connecting groove located on the mounting groove into which the connecting blocks can be snapped in, and the connecting blocks can move back and forth within the connecting groove.

[0007] Furthermore, the connecting groove includes an insert at one end and a locking part at the other end. The connecting block is snapped into the insert from top to bottom and is fixed by sliding to the locking part.

[0008] Furthermore, the embedding part includes a groove into which the connecting block can be inserted, and the locking part includes a connecting buckle adapted to the connecting block. After the connecting block is snapped into the embedding part, the sliding battery assembly drives the connecting block to move laterally and form a limit with the connecting buckle.

[0009] Furthermore, the connecting buckle includes an arcuate profile.

[0010] Furthermore, the locking part includes a movable paddle mounted on the end of the battery mounting base and a positioning groove adapted to the paddle at the end of the battery assembly. The paddle is snapped into the positioning groove to fix the battery assembly.

[0011] Furthermore, the paddle is provided with anti-slip texture.

[0012] Furthermore, the battery assembly includes a battery body, battery charging sockets installed on both sides of the battery body, and a control panel inside the battery charging socket. One end of the battery charging socket is provided with a power display module and a power start button, and the other end of the battery charging socket is provided with a charging interface. The control panel, battery body, power display module, power start button, and charging interface are electrically connected.

[0013] Furthermore, the power socket at the end of the mounting groove and the power slot at the bottom of the battery charging base are adapted to the power socket. When the battery assembly slides into the mounting groove, the power socket is also snapped into the power slot.

[0014] Furthermore, the power display module includes several power indicator lights.

[0015] Compared with the prior art, the beneficial effects that this utility model can achieve are:

[0016] This invention features a connecting part between the mounting slot and the battery assembly. The connecting part longitudinally limits the battery assembly, while the battery mounting base and the end of the battery assembly have an openable locking part that laterally limits the battery assembly. This design securely fixes the battery assembly within the mounting slot using the locking part and the connecting part, preventing it from falling off during bicycle riding. Opening the locking part releases the lateral limitation on the battery assembly, allowing it to be removed for charging or used independently to charge electronic devices. The battery assembly can be mounted on a bicycle using the battery mounting base for electric bicycle use, or removed for independent power supply, offering strong functionality. After the battery assembly is inserted into the mounting slot, the connecting part longitudinally limits it, and then the locking part closes to laterally limit it. The structure is simple, provides high stability in limiting the battery assembly, preventing it from shaking or falling off, and is easy to disassemble and install, offering high user convenience. Attached Figure Description

[0017] Figure 1 This is a perspective view of the present invention.

[0018] Figure 2 This is a perspective view of the battery mounting base of this utility model.

[0019] Figure 3 This is a perspective view of the battery assembly of this utility model.

[0020] Figure 4 This is a cross-sectional view of the present invention.

[0021] Reference numerals: 1. Battery assembly; 2. Battery mounting base; 3. Mounting slot; 4. Connecting part; 5. Locking part; 6. Connecting block; 7. Connecting slot; 8. Embedded part; 9. Locking part; 10. Paddle; 11. Positioning slot; 12. Anti-slip texture; 13. Battery body; 14. Battery charging base; 15. Control panel; 16. Power socket; 17. Power slot; 18. Power display module; 19. Power start button; 20. Charging interface. Detailed Implementation

[0022] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0023] like Figure 1-4 As shown, a battery and battery holder connection structure includes a battery assembly 1 and a battery mounting base 2 for mounting on an electric bicycle. The battery assembly 1 is detachably mounted on the battery mounting base 2 and can be removed for charging. The battery mounting base 2 has a mounting groove 3 adapted to the outer contour of the battery assembly 1, and the battery assembly 1 is embedded in the mounting groove 3 for fixation. A connecting part 4 is provided between the mounting groove 3 and the battery assembly 1, which longitudinally limits the battery assembly 1. The battery mounting base 2 and the battery assembly 1 have an openable and closable locking part 5 at their ends, which laterally limits the battery assembly 1. This design securely fixes the battery assembly 1 within the mounting slot 3 using the locking part 5 and the connecting part 4, preventing the battery assembly 1 from falling off during bicycle riding. Opening the locking part 5 releases the lateral restriction on the battery assembly 1, allowing the movable battery assembly 1 to be removed for charging. After the battery assembly 1 is inserted into the mounting slot 3, the connecting part 4 forms a longitudinal restriction on the battery assembly 1, and then closing the locking part 5 provides a lateral restriction on the battery assembly 1. The structure is simple, provides high stability in restricting the battery assembly 1, and prevents the battery assembly 1 from shaking or even falling off. Furthermore, it is easy to disassemble or install, offering high user convenience.

[0024] The connecting part 4 includes several protruding connecting blocks 6 at the bottom of the battery assembly 1 and a connecting groove 7 located on the mounting groove 3 into which the connecting blocks 6 can be snapped. The size of the connecting groove 7 is larger than the size of the connecting blocks 6, and the connecting blocks can move back and forth within the connecting groove 7. The connecting groove 7 includes an insert 8 at one end and a locking part 9 at the other end. When installing the battery assembly 1, the connecting blocks 6 are snapped into the insert 8 from top to bottom, and the connecting blocks 6 are moved from the insert 8 to the locking part 9 to be fixed by sliding the battery assembly 1.

[0025] The embedding part 8 includes a groove into which the connecting block 6 can be inserted, and the locking part 9 includes a connecting buckle adapted to the connecting block 6. After the connecting block 6 is snapped into the embedding part 8, the sliding battery assembly 1 drives the connecting block 6 to move laterally and form a limit with the connecting buckle. The connecting buckle has an arc-shaped profile, which can increase the contact surface and further increase the fixing strength with the connecting block 6, making it less likely to fall off.

[0026] The locking part 5 includes a movable lever 10 installed at the end of the battery mounting base 2 and a positioning groove 11 adapted to the end of the battery assembly 1. The lever 10 is engaged in the positioning groove 11 to fix the battery assembly 1 laterally, preventing the battery assembly 1 from sliding. Manually pressing the lever 10 disengages it from the positioning groove 11, releasing the limiting state of the locking part 5. The battery assembly 1 can then be slid to allow the connecting block 6 to slide from the locking part 9 to the inserting part 8. At this point, both the lateral and longitudinal limiting states of the battery assembly 1 are released, and the battery assembly 1 can be lifted upwards to remove it. The lever 10 can spring back.

[0027] The paddle is provided with anti-slip texture 12, which can increase friction when the finger presses it to prevent slipping.

[0028] The battery assembly 1 includes a battery body 13, battery charging sockets 14 mounted on both sides of the battery body 13, and a control panel 15 inside the battery charging sockets 14. One end of the battery charging socket 14 has a charging interface 20, and the other end has a power display module 18 and a power start button 19. The control panel 15, battery body 13, power display module 18, power start button 19, and charging interface 20 are electrically connected. The control panel 15 controls the operation of the battery body 13, power display module 18, power start button 19, and charging interface 20. When the battery assembly 1 is removed and used as a separate battery, the data cable connecting the electronic product is inserted into the charging interface 20, and the power start button 19 is manually pressed to start charging the battery body 13. The battery assembly 1 of this design can be installed on a bicycle as a power source for an electric bicycle, or removed and used as a power source, offering multiple usage options to meet the user's multi-functional needs and providing sufficient power for charging mobile phones during outdoor cycling activities.

[0029] The power socket 16 at the end of the mounting groove 3 and the power slot 17 at the bottom of the battery charging base 14 are adapted to the power socket 16. When the battery assembly 1 slides into the mounting groove 3, the power socket 16 is also snapped into the power slot 17, realizing the electrical connection between the battery assembly 1 and the battery mounting base 2. The electric control device on the bicycle is connected to the battery mounting base 2.

[0030] The power display module 18 includes several power indicator lights. After pressing the power display button 19, the control panel 15 feeds back the remaining power of the battery body 1 to the power display module 18, thereby lighting up different numbers of power indicator lights.

[0031] It will be apparent to those skilled in the art that this invention is not limited to the details of the exemplary embodiments described above, and that it can be implemented in other specific forms without departing from the spirit or essential characteristics of this invention. Therefore, the embodiments should be considered illustrative and non-limiting in all respects, and the scope of this invention is defined by the appended claims rather than the foregoing description. Thus, all variations falling within the meaning and scope of equivalents of the claims are intended to be included within this invention, and no reference numerals in the claims should be construed as limiting the scope of the claims.

Claims

1. A battery and battery holder connection structure, comprising a battery assembly and a battery mounting bracket for mounting on a bicycle, wherein the battery assembly is detachably mounted on the battery mounting bracket, characterized in that, The battery mounting base is provided with a mounting groove that adapts to the outer contour of the battery assembly, and the battery assembly is embedded in the mounting groove; a connecting part is provided between the mounting groove and the battery assembly, and the connecting part longitudinally limits the battery assembly; a locking part is provided at the end of the battery mounting base and the battery assembly, and the locking part laterally limits the battery assembly.

2. The battery and battery holder connection structure according to claim 1, characterized in that, The connecting part includes several protruding connecting blocks at the bottom of the battery assembly and a connecting groove on the mounting groove into which the connecting blocks can be snapped in. The connecting blocks can move back and forth within the connecting groove.

3. The battery and battery holder connection structure according to claim 2, characterized in that, The connecting groove includes an insert at one end and a locking part at the other end. The connecting block is snapped into the insert from top to bottom and is fixed by sliding to the locking part.

4. The battery and battery holder connection structure according to claim 3, characterized in that, The embedding part includes a groove into which the connecting block can be inserted, and the locking part includes a connecting buckle adapted to the connecting block. After the connecting block is snapped into the embedding part, the sliding battery assembly drives the connecting block to move laterally and form a limit with the connecting buckle.

5. The battery and battery holder connection structure according to claim 4, characterized in that, The connecting buckle has an arc-shaped profile.

6. The battery and battery holder connection structure according to claim 1, characterized in that, The locking part includes a movable paddle installed at the end of the battery mounting base and a positioning groove at the end of the battery assembly that adapts to the paddle. The paddle is snapped into the positioning groove to fix the battery assembly.

7. The battery and battery holder connection structure according to claim 6, characterized in that, The paddle has anti-slip texture.

8. The battery and battery holder connection structure according to claim 1, characterized in that, The battery assembly includes a battery body, battery charging sockets installed on both sides of the battery body, and a control panel inside the battery charging sockets. One end of the battery charging socket is provided with a power display module and a power start button, and the other end of the battery charging socket is provided with a charging interface. The control panel, battery body, power display module, power start button, and charging interface are electrically connected.

9. The battery and battery holder connection structure according to claim 8, characterized in that, The power socket at the end of the mounting slot and the power slot at the bottom of the battery charging base are adapted to the power socket. When the battery assembly slides into the mounting slot, the power socket is also snapped into the power slot.

10. A battery and battery holder connection structure according to claim 8, characterized in that, The power display module includes several power indicator lights.