Buckle type packaging box convenient for disassembling energy storage battery

The snap-lock packaging design solves the problems of cumbersome disassembly and easy damage to energy storage batteries during transportation and storage, enabling quick installation and disassembly and improving battery safety and stability.

CN224336158UActive Publication Date: 2026-06-09WUXI DR BOX PACKAGING MATERIALS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
WUXI DR BOX PACKAGING MATERIALS CO LTD
Filing Date
2025-07-02
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

Existing energy storage battery packaging boxes are cumbersome to install and disassemble during transportation and storage, and are easily affected by the external environment, which can damage battery performance and lifespan. Difficult disassembly also leads to untimely fault handling.

Method used

The packaging box adopts a snap-fit ​​structure, including a bottom shell and a top shell. It can be quickly snapped on and off through a first snap-fit ​​component and a second snap-fit ​​component. Combined with the design of a sealing cover and ventilation holes, it provides protection and heat dissipation.

Benefits of technology

It enables rapid installation and removal of energy storage batteries, prevents shaking and external factors from entering, improves battery safety and stability, and extends service life.

✦ Generated by Eureka AI based on patent content.

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  • Figure CN224336158U_ABST
    Figure CN224336158U_ABST
Patent Text Reader

Abstract

This utility model discloses a snap-on packaging box for easy disassembly of energy storage batteries, relating to the field of energy storage battery packaging technology. It includes a packaging box body with two symmetrically designed sealing covers on the top. Inside the packaging box body are a bottom shell and a top shell, with the energy storage battery body installed between them. The advantages of this utility model are: when the energy storage battery body needs to be installed, the symmetrically designed sealing covers not only make the packaging box more neat and aesthetically pleasing, but also better protect the internal energy storage battery during transportation and storage, preventing the intrusion of external factors such as dust and moisture, providing a good protective environment for the battery. At the same time, the bottom and top shells allow for a reasonable placement of the energy storage battery body inside the packaging box, making the entire packaging box structure compact and maximizing space utilization.
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Description

Technical Field

[0001] This utility model relates to the field of energy storage battery packaging technology, and in particular to a snap-on packaging box for energy storage batteries that is easy to disassemble. Background Technology

[0002] An energy storage battery is a device that converts electrical energy into chemical energy for storage and releases it by converting chemical energy back into electrical energy when needed. It is based on electrochemical reactions and achieves charging and discharging through ion migration between the positive and negative electrodes inside the battery. Its key features are high capacity, long cycle life, and stable performance. It can improve energy utilization efficiency, promote the application of clean energy, and reduce carbon emissions. Energy storage batteries have a wide range of applications, covering fields such as power system energy storage, transportation energy storage, distributed energy storage, and electronic device energy storage.

[0003] In the energy sector, energy storage batteries are key equipment widely used in various scenarios. With the continuous development of energy storage battery technology, their application scale is expanding, and the requirements for the transportation, storage, and maintenance of energy storage batteries are also increasing. However, in order to ensure battery safety during transportation, existing energy storage battery packaging boxes usually adopt a relatively complex fixing structure, which makes the battery installation and disassembly process cumbersome, resulting in a lot of time and manpower consumption. At the same time, during transportation and storage, batteries are affected by external environmental factors, such as moisture, dust, and collisions. These factors can damage the performance and lifespan of the batteries. Furthermore, if a battery malfunctions inside the packaging box, the difficulty in disassembly makes it difficult for staff to handle it in a timely manner. Utility Model Content

[0004] The purpose of this section is to outline some aspects of embodiments of the present invention and to briefly describe some preferred embodiments. Simplifications or omissions may be made in this section, as well as in the abstract and title of this application, to avoid obscuring the purpose of these documents; however, such simplifications or omissions should not be construed as limiting the scope of the present invention.

[0005] To solve the above-mentioned technical problems, this utility model provides the following technical solution:

[0006] A snap-on packaging box for easy disassembly of an energy storage battery includes a packaging box body. The top of the packaging box body is provided with two sets of sealing covers with a symmetrical design. The inside of the packaging box body is provided with a bottom shell body and a top shell body. An energy storage battery body is installed between the bottom shell body and the top shell body. A first horizontal bar is fixed on both sides of the bottom shell body. A first snap-on component is provided on the outer side of the first horizontal bar. A second horizontal bar is fixed on both sides of the top shell body. A second snap-on component is provided on the outer side of the second horizontal bar.

[0007] The first snap-fit ​​assembly includes a first snap-fit ​​plate fixed to the outside of the first crossbar, and the inner wall of the first snap-fit ​​plate is provided with a first snap-fit ​​groove and a first snap-fit ​​hole respectively.

[0008] The second snap-fit ​​assembly includes a second snap-fit ​​plate fixed to the outside of the second crossbar, and the inner wall of the second snap-fit ​​plate is provided with a second snap-fit ​​groove and a second snap-fit ​​hole.

[0009] As a preferred embodiment of the snap-on packaging box for the energy storage battery of this utility model, wherein: a first clip is fixed on both sides of the bottom shell body, and a first side plate is fixed on the outer side of the first clip.

[0010] As a preferred embodiment of the snap-on packaging box for the energy storage battery described in this utility model, wherein: a second side plate is fixed to the outer side of the first clip, and a first placement groove and a second placement groove are respectively opened on the inner wall of the second side plate.

[0011] As a preferred embodiment of the snap-on packaging box for the energy storage battery described in this utility model, the inner wall of the bottom shell body is provided with a bottom shell through hole, and the number of bottom shell through holes is four sets.

[0012] As a preferred embodiment of the snap-on packaging box for the energy storage battery of this utility model, the top shell body is fixed with a second clip on both sides, a third side plate is fixed on the outer side of the second clip, and a first limiting groove is provided on the inner wall of the third side plate.

[0013] As a preferred embodiment of the snap-on packaging box for the energy storage battery of this utility model, wherein: a fourth side plate is fixed to the outer side of the second clip, and a second limiting groove is provided on the inner wall of the fourth side plate.

[0014] As a preferred embodiment of the snap-on packaging box for the energy storage battery described in this utility model, the inner wall of the top shell body is provided with ventilation holes and ventilation openings, and the number of ventilation holes is four sets and the number of ventilation openings is two sets.

[0015] In summary, this utility model has the following beneficial effects:

[0016] 1. When the energy storage battery body needs to be installed, the two sets of sealing covers with symmetrical left and right designs not only make the packaging box look more neat and beautiful, but also better protect the internal energy storage battery during transportation and storage, preventing the intrusion of external factors such as dust and moisture, and providing a good protective environment for the battery. At the same time, the setting of the bottom shell body and the top shell body allows the energy storage battery body to be reasonably placed inside the packaging box, making the entire packaging box structure compact and space utilization highly efficient.

[0017] 2. The first latching plate, first latching slot, and first latching hole in the first latching assembly, and the second latching plate, second latching slot, and second latching hole in the second latching assembly, work together to enable quick latching and disassembly between the bottom shell and the top shell, effectively preventing the energy storage battery from shaking inside the packaging box, reducing the risk of battery damage due to vibration or collision, ensuring the safety and stability of the energy storage battery, and extending the battery's service life. Attached Figure Description

[0018] To more clearly illustrate the technical solutions of the embodiments of this utility model, the drawings used in the description of the embodiments will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort. Among them:

[0019] Figure 1 A structural diagram of a snap-on packaging box for easy disassembly of energy storage batteries.

[0020] Figure 2 A structural diagram of the snap-on packaging box for easy disassembly of energy storage batteries.

[0021] Figure 3 A structural diagram of the bottom shell of a snap-on packaging box designed for easy disassembly of energy storage batteries.

[0022] Figure 4 A structural diagram of the first snap-fit ​​component of a snap-fit ​​packaging box for easy disassembly of energy storage batteries.

[0023] Figure 5 A structural diagram of the second snap-fit ​​assembly of a snap-fit ​​packaging box for easy disassembly of energy storage batteries.

[0024] The following are the labeling elements in the diagram: 1. Packaging box body; 2. Sealing cap; 3. Bottom shell body; 4. Top shell body; 5. Energy storage battery body; 6. First horizontal bar; 7. First snap-fit ​​assembly; 71. First snap-fit ​​plate; 72. First snap-fit ​​slot; 73. First snap-fit ​​hole; 8. Second horizontal bar; 9. Second snap-fit ​​assembly; 91. Second snap-fit ​​plate; 92. Second snap-fit ​​slot; 93. Second snap-fit ​​hole; 10. First snap-fit ​​strip; 11. First side plate; 12. Second side plate; 13. First placement slot; 14. Second placement slot; 15. Bottom shell through hole; 16. Second snap-fit ​​strip; 17. Third side plate; 18. First limiting slot; 19. Fourth side plate; 20. Second limiting slot; 21. Ventilation hole; 22. Ventilation opening. Detailed Implementation

[0025] To make the above-mentioned objectives, features and advantages of this utility model more apparent and understandable, the specific embodiments of this utility model will be described in detail below with reference to the accompanying drawings.

[0026] Many specific details are set forth in the following description in order to provide a full understanding of the present invention. However, the present invention may also be implemented in other ways different from those described herein. Those skilled in the art can make similar extensions without departing from the spirit of the present invention. Therefore, the present invention is not limited to the specific embodiments disclosed below.

[0027] Secondly, the term "an embodiment" or "embodiment" as used herein refers to a specific feature, structure, or characteristic that may be included in at least one implementation of the present invention. The phrase "in one embodiment" appearing in different places in this specification does not necessarily refer to the same embodiment, nor is it a single or selective embodiment that excludes other embodiments.

[0028] Example 1:

[0029] Reference Figures 1-5 This is the first embodiment of the present invention. This embodiment provides a snap-on packaging box for easy disassembly of energy storage batteries, including a packaging box body 1. The top of the packaging box body 1 is provided with two sets of sealing covers 2 with a symmetrical design. The inside of the packaging box body 1 is provided with a bottom shell body 3 and a top shell body 4 respectively. An energy storage battery body 5 is installed between the bottom shell body 3 and the top shell body 4. A first horizontal bar 6 is fixed on both sides of the bottom shell body 3. A first snap-fit ​​component 7 is provided on the outside of the first horizontal bar 6. A second horizontal bar 8 is fixed on both sides of the top shell body 4. A second snap-fit ​​component 9 is provided on the outside of the second horizontal bar 8.

[0030] The packaging box body 1 provides space for internal components, serving as protection and support, allowing internal energy storage batteries and other components to be placed stably. The sealing cover 2 is used to seal the packaging box, preventing dust, moisture, and other external impurities from entering, protecting the internal energy storage batteries from external environmental influences, and also preventing the batteries from accidentally slipping out. The bottom shell body 3 and the top shell body 4 cooperate to fix and support the energy storage battery body 5, providing bottom support and protection for the battery. The first horizontal bar 6 provides an installation position for the first snap-fit ​​component 7, allowing it to function stably. The second horizontal bar 8 provides an installation position for the second snap-fit ​​component 9, allowing it to function stably. The first snap-fit ​​component 7 and the second snap-fit ​​component 9 are designed so that the bottom shell body 3 and the top shell body 4 can be snapped together through the internal structure, thereby securing and protecting the energy storage battery body 5. It should be noted that the packaging box body 1, the sealing cover 2, the bottom shell body 3, and the top shell body 4 are all made of corrugated board.

[0031] The first snap-fit ​​assembly 7 includes a first snap-fit ​​plate 71 fixed to the outside of the first horizontal bar 6, and the inner wall of the first snap-fit ​​plate 71 is provided with a first snap-fit ​​groove 72 and a first snap-fit ​​hole 73.

[0032] The first card plate 71 is the main structure of the first card-connecting assembly 7, which plays the role of supporting and connecting other components. By setting the first card slot 72 and the first card-connecting hole 73 for use, it can be used to cooperate with the second card-connecting assembly 9 to realize the snap-fit ​​connection between the bottom shell body 3 and the top shell body 4, thereby facilitating the disassembly and installation of the energy storage battery body 5.

[0033] The second snap-fit ​​assembly 9 includes a second snap-fit ​​plate 91 fixed to the outside of the second horizontal bar 8, and the inner wall of the second snap-fit ​​plate 91 is provided with a second snap-fit ​​groove 92 and a second snap-fit ​​hole 93.

[0034] The second card plate 91 is the main structure of the second card-connecting assembly 9, which plays the role of supporting and connecting other components. By setting the second card slot 92 and the second card-connecting hole 93 for use, and by cooperating with the first card-connecting assembly 7, the top shell body 4 and the bottom shell body 3 can be snapped together, thereby facilitating the disassembly and installation of the energy storage battery body 5.

[0035] Example 2:

[0036] This is the second embodiment of the present invention, which is based on the previous embodiment.

[0037] Specifically, the bottom shell body 3 is fixed with a first retaining strip 10 on both sides, and a first side plate 11 is fixed to the outside of the first retaining strip 10.

[0038] The first clip 10 provides a mounting base for the first side plate 11 and the second side plate 12, enhancing the structural stability of the bottom shell body 3. The first side plate 11 strengthens the structural strength of the bottom shell body 3 and provides lateral protection for the internal battery to a certain extent.

[0039] Specifically, a second side plate 12 is fixed to the outer side of the first card strip 10, and a first placement groove 13 and a second placement groove 14 are respectively opened on the inner wall of the second side plate 12.

[0040] The first placement slot 13 and the second placement slot 14 opened on the inner wall of the second side plate 12 can be used to place some components or auxiliary items that are compatible with the energy storage battery, making it convenient to organize and store them.

[0041] Specifically, the inner wall of the bottom shell body 3 is provided with bottom shell through holes 15, and the number of bottom shell through holes 15 is four sets.

[0042] The first placement groove 13 and the second placement groove 14 opened on the inner wall of the second side plate 12 can be used to place some parts or auxiliary items that are matched with the energy storage battery, making it convenient to organize and store. The main function of the bottom shell through hole 15 is to facilitate heat dissipation of the battery during operation, dissipate the heat generated by the battery, and prevent the battery from being damaged due to overheating.

[0043] Example 3:

[0044] This is the third embodiment of the present invention, which is based on the first two embodiments.

[0045] Specifically, a second locking strip 16 is fixed on both sides of the top shell body 4, a third side plate 17 is fixed on the outer side of the second locking strip 16, and a first limiting groove 18 is opened on the inner wall of the third side plate 17.

[0046] The second clip 16 provides a mounting base for the third side plate 17 and the fourth side plate 19, enhancing the structural stability of the top shell body 4. The third side plate 17 strengthens the structural strength of the top shell body 4 and provides lateral protection for the internal battery. The first limiting groove 18 on its inner wall can be used to limit some components of the energy storage battery body 5 to prevent it from shaking.

[0047] Specifically, a fourth side plate 19 is fixed to the outer side of the second clip 16, and a second limiting groove 20 is provided on the inner wall of the fourth side plate 19.

[0048] By using the fourth side plate 19 in conjunction with the second limiting groove 20 opened on its inner wall, it can be used to limit the movement of some components and ensure the stability of the internal components of the packaging box.

[0049] Specifically, the inner wall of the top shell body 4 is provided with ventilation holes 21 and ventilation openings 22, and the number of ventilation holes 21 is four sets, and the number of ventilation openings 22 is two sets.

[0050] By using ventilation holes 21 and ventilation openings 22 together, the ventilation and heat dissipation effect inside the packaging box can be further enhanced, ensuring that the battery works in a suitable temperature environment and extending the battery life.

[0051] During use, in the battery installation stage, the operator first places the energy storage battery body 5 stably inside the bottom shell body 3. The first retaining strips 10 on both sides of the bottom shell body 3 provide important support, and the first side plate 11 on its outer side further enhances the structural strength of the bottom shell body 3, providing stable lateral support for the battery and preventing lateral displacement during transportation or use. At the same time, the first placement slot 13 and the second placement slot 14 can be used to place the battery-compatible components, such as battery connection wires and sensors, making the internal layout of the packaging box more neat and orderly, facilitating subsequent maintenance and management. The four sets of bottom shell through holes 15 on the inner wall of the bottom shell body 3 provide air circulation channels for the bottom of the battery, helping to dissipate the heat generated during battery operation and preventing the battery from being affected by overheating, thus reducing its performance and lifespan. Next, the top shell body 4 is placed on top of the bottom shell body 3. The second retaining strips 16 fixed on both sides of the top shell body 4 also provide support, and the third side plate 17 and the fourth side plate 19 on its outer side further enhance the top shell body 4. The structural strength provides reliable top protection for the battery. The first limiting groove 18 on the inner wall of the third side plate 17 and the second limiting groove 20 on the inner wall of the fourth side plate 19 can accurately limit the battery and related components, preventing the battery from shaking in the packaging box and ensuring the stability of the battery. The four sets of ventilation holes 21 and two sets of ventilation openings 22 on the inner wall of the top shell body 4, together with the bottom shell through hole 15, form an air convection channel, which can accelerate air flow, effectively remove the heat generated by the battery, and ensure that the battery is always in a suitable working temperature environment. Finally, the bottom shell body 3 and the top shell body 4 are tightly connected by a snap-fit ​​structure. The first snap-fit ​​plate 71 of the first snap-fit ​​component 7 and the second snap-fit ​​plate 91 of the second snap-fit ​​component 9 cooperate with each other. The first snap-fit ​​groove 72 and the first snap-fit ​​hole 73 are snapped into the second snap-fit ​​groove 92 and the second snap-fit ​​hole 93, respectively. The operation is simple and quick, without the need for additional tools. When it is necessary to remove the battery, just operate gently to release the snap-fit ​​connection, and the top shell body 4 can be easily opened and the battery can be taken out, which greatly improves work efficiency.

[0052] It should be noted that the above embodiments are only used to illustrate the technical solution of this utility model and are not intended to limit it. Although this utility model has been described in detail with reference to preferred embodiments, those skilled in the art should understand that modifications or equivalent substitutions can be made to the technical solution of this utility model without departing from the spirit and scope of the technical solution of this utility model, and all such modifications or substitutions should be covered within the scope of the claims of this utility model.

Claims

1. A buckle type packaging box for energy storage battery convenient to disassemble, comprising a packaging box body (1), characterized in that: The top of the packaging box body (1) is provided with two sets of sealing covers (2) with a left and right symmetrical design. The inside of the packaging box body (1) is provided with a bottom shell body (3) and a top shell body (4). A storage battery body (5) is installed between the bottom shell body (3) and the top shell body (4). A first horizontal bar (6) is fixed on both sides of the bottom shell body (3). A first snap-fit ​​component (7) is provided on the outside of the first horizontal bar (6). A second horizontal bar (8) is fixed on both sides of the top shell body (4). A second snap-fit ​​component (9) is provided on the outside of the second horizontal bar (8). The first snap-fit ​​assembly (7) includes a first snap-fit ​​plate (71) fixed to the outside of the first crossbar (6), and the inner wall of the first snap-fit ​​plate (71) is provided with a first snap-fit ​​groove (72) and a first snap-fit ​​hole (73). The second snap-fit ​​assembly (9) includes a second snap plate (91) fixed to the outside of the second crossbar (8), and the inner wall of the second snap plate (91) is provided with a second snap groove (92) and a second snap-fit ​​hole (93).

2. The energy storage battery convenient disassembly buckle type packaging box according to claim 1, wherein: The bottom shell body (3) is fixed with a first locking strip (10) on both sides, and a first side plate (11) is fixed on the outside of the first locking strip (10).

3. The snap-on packaging box for easily detachable energy storage batteries as described in claim 2, characterized in that: The outer side of the first card strip (10) is fixed with a second side plate (12), and the inner wall of the second side plate (12) is provided with a first placement groove (13) and a second placement groove (14).

4. The snap-on packaging box for easily detachable energy storage batteries as described in claim 1, characterized in that: The inner wall of the bottom shell body (3) is provided with bottom shell through holes (15), and the number of bottom shell through holes (15) is four.

5. The snap-on packaging box for easily detachable energy storage batteries as described in claim 1, characterized in that: The top shell body (4) is fixed with a second locking strip (16) on both sides, and a third side plate (17) is fixed on the outer side of the second locking strip (16). The inner wall of the third side plate (17) is provided with a first limiting groove (18).

6. The snap-on packaging box for easily detachable energy storage batteries as described in claim 5, characterized in that: The second card strip (16) is fixed with a fourth side plate (19) on its outer side, and the inner wall of the fourth side plate (19) is provided with a second limiting groove (20).

7. The snap-on packaging box for easily detachable energy storage batteries as described in claim 1, characterized in that: The inner wall of the top shell body (4) is provided with ventilation holes (21) and ventilation openings (22), and the number of ventilation holes (21) is four sets, and the number of ventilation openings (22) is two sets.