A hard snap-in battery tray
The hard-buckle segmented shock-absorbing and clamping fixing structure solves the problem of battery tray shaking and bumping during transportation, and achieves safe fixing and quick locking of batteries, which is suitable for batteries of different sizes.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- YIJIAYI PACKAGING EQUIPMENT (SUZHOU) CO LTD
- Filing Date
- 2025-06-25
- Publication Date
- 2026-06-05
AI Technical Summary
The existing battery trays have an open structure and lack effective safety protection, which causes the batteries to shake and bump during transportation, affecting battery quality.
It adopts a hard-clamp segmented shock-absorbing and clamping fixing structure. Through the cooperation of partition baffles, shock-absorbing compression rods and spring clamping components, it can securely fix the battery. The linkage design of rotating hinge and spring clamping components can achieve quick locking.
It effectively prevents batteries from shaking and bumping during transportation, improves fixing efficiency, is suitable for batteries of different sizes, and enhances transportation safety and quality stability.
Smart Images

Figure CN224324317U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of battery tray technology, specifically a hard-button battery tray. Background Technology
[0002] In the automated production process of lithium-ion batteries, battery trays are used for sorting, cleaning, formation, capacity testing, charge and discharge performance testing, and transportation of batteries. Existing battery trays are all open structures, and batteries are directly placed on the trays for movement and transportation. There is no effective safety protection structure, and the batteries cannot be fixed. During transportation, they are prone to shaking and bumping against each other, which can damage the batteries and affect their quality. Utility Model Content
[0003] To achieve the above objectives, this utility model is implemented through the following technical solution: a hard-button battery tray, comprising: a tray base, on which a hard-button segmented shock-absorbing and clamping fixing structure is installed;
[0004] The rigid snap-fit segmented shock-absorbing and clamping structure includes: a storage slot, three partition baffles, a pair of rotating hinge seats, a pair of fixed pressure rods, a pair of spring-fastening assemblies, three pairs of mounting blocks, three pairs of mounting plates, several shock-absorbing compression rods, and several fixed pressure plates;
[0005] The storage slot is located inside the pallet base. Three partition baffles are installed on the lower wall of the storage slot. A pair of rotating hinge seats are installed on the rear end of the upper wall of the pallet base. A pair of fixed pressure rods are movably installed on the pair of rotating hinge seats. A pair of spring-loaded fastening assemblies are installed on the front end of the upper wall of the pallet base. Three pairs of mounting blocks are installed on the pair of fixed pressure rods. Three pairs of mounting plates are installed on the three pairs of mounting blocks. Several shock-absorbing compression rods are installed on the lower wall of the three pairs of mounting plates. Several fixed pressure plates are installed at the lower ends of the several shock-absorbing compression rods.
[0006] Preferably, a support block is installed on the lower wall of the tray base.
[0007] Preferably, a pair of fixed pressure rods are mounted on a pair of rotating hinges via rotating pins.
[0008] Preferably, the width of the fixed pressure plates is smaller than the spacing between the three partition baffles.
[0009] Preferably, the three pairs of mounting blocks are mounted on a pair of fixed pressure bars by fixing bolts.
[0010] Preferably, each pair of spring-loaded fastening assemblies includes: a support frame, a device cavity, a compression spring, and a fastening block;
[0011] The support frame is installed on the upper wall of the tray base, the equipment cavity is opened inside the support frame, one end of the compression spring is installed inside the equipment cavity, and the fastening block is installed on the other end of the compression spring.
[0012] Preferably, the fixed pressure rod has a fixing groove for the fastening block to be fastened and fixed.
[0013] Beneficial effects
[0014] This utility model provides a rigid-clasp battery tray with the following advantages: This solution uses a rigid-clasp segmented shock-absorbing and clamping fixing structure. The rigid-clasp structure, combined with segmented shock absorption, securely fixes the placed batteries. Through the cooperation of three partition baffles, multiple sets of shock-absorbing compression rods, and fixing plates, independent clamping of the battery modules is achieved, preventing localized overpressure or loosening. The shock-absorbing compression rods elastically deform during vibration, absorbing impact energy. This design is suitable for fixing batteries of different sizes and models. The linkage design of the rotating hinge and spring-loaded fastening components allows the fixing rods to be quickly pressed down, and one-click locking is achieved through the cooperation of the fastening block and the fixing slot, significantly improving fixing efficiency. This solves the problem that existing battery trays are all open structures, where batteries are directly placed on the tray for transportation without effective safety protection, making it impossible to fix the batteries securely. This leads to shaking and collisions during transportation, damaging the batteries and affecting their quality. Attached Figure Description
[0015] Figure 1 This is a front-view perspective three-dimensional structural diagram of a snap-on battery tray according to the present invention.
[0016] Figure 2 This is a three-dimensional structural diagram of the tray base of a snap-on battery tray according to the present invention.
[0017] Figure 3 This is a side sectional view of the support frame of the rigid-button battery tray described in this utility model.
[0018] Figure 4 This is a side view of the tray base structure of the rigid-button battery tray described in this utility model.
[0019] In the diagram: 1-Pallet base; 2-Storage slot; 3-Divider baffle; 4-Rotating hinge; 5-Fixing pressure bar; 6-Mounting block; 7-Mounting plate; 8-Shock-absorbing compression bar; 9-Fixing pressure plate; 10-Support block; 11-Rotating pin; 12-Fixing bolt; 13-Support frame; 14-Equipment cavity; 15-Compression spring; 16-Clamping block; 17-Fixing slot. Detailed Implementation
[0020] Based on the embodiments of this utility model, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of this utility model.
[0021] Example: Please refer to Figure 1-4 This utility model provides a technical solution: a hard-button battery tray. This solution takes into account that existing battery trays do not have an effective safety protection and fixing structure during production and transportation. Shaking during movement will cause the batteries to collide with each other, resulting in damage and leakage, which will affect production safety and production speed. Based on the above, this invention sets up the following technical means.
[0022] Specifically, this device includes at least a tray base 1, a storage slot 2, three partition baffles 3, a pair of rotating hinge seats 4, a pair of fixed pressure rods 5, a pair of spring fastening assemblies, three pairs of mounting blocks 6, three pairs of mounting plates 7, several shock-absorbing compression rods 8, and several fixed pressure plates 9.
[0023] Each pair of spring-loaded fastening assemblies includes: a support frame 13, an equipment cavity 14, a compression spring 15, and a fastening block 16;
[0024] The tray base 1 provides overall support for the installation of the equipment. During use, the batteries to be placed are put into the storage slot 2 and separated by the partition baffle 3. After placement, the rotating hinge 4, in conjunction with the rotating pin 11, drives the fixing rod 5 to rotate and be horizontally fastened above the storage slot 2. When the fixing rod 5 rotates and presses down, the fixing plate 9 presses against the upper surface of the battery. As the fixing rod 5 continues to press down, the shock-absorbing compression rod 8 is compressed. The deformation elasticity of the shock-absorbing compression rod 8, which is installed on the mounting plate 7, works with the fixing plate 9 to press and fix the battery, preventing the battery from shaking during movement. The fixing plate 9 adopts a partitioned structure, which can be used to fix batteries of different heights and sizes. As the fixing rod 5 continues to press down, the fastening block 16, which is installed in the equipment cavity 14 inside the support frame 13 by the compression spring 15, is engaged into the fixing slot 17 opened on the fixing rod 5, thereby achieving quick hard-fastening and ensuring the battery fixing efficiency and effect.
[0025] More specifically, the storage slot 2 is opened inside the pallet base 1, three partition baffles 3 are installed on the lower wall of the storage slot 2, a pair of rotating hinge seats 4 are installed on the rear end of the upper wall of the pallet base 1, a pair of fixed pressure rods 5 are movably installed on the pair of rotating hinge seats 4 at their rear ends, a pair of spring fastening assemblies are installed on the front end of the upper wall of the pallet base 1, three pairs of mounting blocks 6 are installed on the pair of fixed pressure rods 5, three pairs of mounting plates 7 are installed on the three pairs of mounting blocks 6, a number of shock-absorbing compression rods 8 are installed on the lower wall of the three pairs of mounting plates 7, and a number of fixed pressure plates 9 are installed at the lower end of the number of shock-absorbing compression rods 8;
[0026] The support frame 13 is installed on the upper wall of the tray base 1, the equipment cavity 14 is opened inside the support frame 13, one end of the compression spring 15 is installed inside the equipment cavity 14, and the fastening block 16 is installed on the other end of the compression spring 15.
[0027] In the specific implementation process, a support block 10 is further installed on the lower wall of the tray base 1.
[0028] In the specific implementation process, a pair of fixed pressure rods 5 are further mounted on a pair of rotating hinge seats 4 via rotating pins 11.
[0029] In the specific implementation process, furthermore, the width of several fixed pressure plates 9 is smaller than the spacing between the three partition baffles 3.
[0030] In the specific implementation process, furthermore, the three pairs of mounting blocks 6 are mounted on a pair of fixed pressure rods 5 by fixing bolts 12.
[0031] In the specific implementation process, furthermore, a fixing groove 17 is provided on the fixing pressure rod 5 for the fastening block 16 to be fastened and fixed.
[0032] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.
Claims
1. A rigid-button battery tray, comprising: The pallet base (1) is characterized in that a hard-buckle segmented shock-absorbing and clamping fixing structure is installed on the pallet base (1); The hard-lock segmented shock-absorbing and clamping fixing structure includes: a storage slot (2), three partition baffles (3), a pair of rotating hinge seats (4), a pair of fixed pressure rods (5), a pair of spring fastening assemblies, three pairs of mounting blocks (6), three pairs of mounting plates (7), several shock-absorbing compression rods (8), and several fixed pressure plates (9); The storage slot (2) is located inside the pallet base (1). Three partition baffles (3) are installed on the lower wall of the storage slot (2). A pair of rotating hinge seats (4) are installed on the rear end of the upper wall of the pallet base (1). A pair of fixed pressure rods (5) are movably installed on the pair of rotating hinge seats (4) at their rear ends. A pair of spring fastening assemblies are installed on the front end of the upper wall of the pallet base (1). Three pairs of mounting blocks (6) are installed on the pair of fixed pressure rods (5). Three pairs of mounting plates (7) are installed on the three pairs of mounting blocks (6). Several shock-absorbing compression rods (8) are installed on the lower wall of the three pairs of mounting plates (7). Several fixed pressure plates (9) are installed at the lower end of the several shock-absorbing compression rods (8).
2. The rigid-button battery tray according to claim 1, characterized in that, A support block (10) is installed on the lower wall of the tray base (1).
3. A snap-on battery tray according to claim 1, characterized in that, A pair of fixed pressure rods (5) are mounted on a pair of rotating hinges (4) via rotating pins (11).
4. A rigid-button battery tray according to claim 1, characterized in that, The width of several fixed pressure plates (9) is smaller than the spacing between the three partition baffles (3).
5. A rigid-button battery tray according to claim 1, characterized in that, Three pairs of mounting blocks (6) are mounted on a pair of fixed pressure rods (5) by fixing bolts (12).
6. A snap-on battery tray according to claim 1, characterized in that, Each pair of spring-loaded fastening assemblies includes: a support frame (13), an equipment cavity (14), a compression spring (15), and a fastening block (16); The support frame (13) is installed on the upper wall of the tray base (1), the equipment cavity (14) is opened inside the support frame (13), one end of the compression spring (15) is installed inside the equipment cavity (14), and the fastening block (16) is installed on the other end of the compression spring (15).
7. A snap-on battery tray according to claim 6, characterized in that, The fixed pressure rod (5) is provided with a fixed slot (17) for fastening the fastening block (16) into which it is fastened.