CN219172994U - Packaging structure for electrical equipment with rechargeable energy storage module - Google Patents

Abstract

The utility model relates to a packaging structure for electrical equipment with a rechargeable energy storage module, which consists of a selectively closed box body, wherein the box body can be used for accommodating the electrical equipment with the rechargeable energy storage module, the rechargeable energy storage module is provided with a charging interface for charging, at least one box wall of the peripheral box wall of the box body is provided with a shutter structure corresponding to the charging interface of the rechargeable energy storage module, the shutter structure is provided with a through charging opening on the box wall, and the shutter structure is provided with a cover capable of repeatedly opening and closing the charging opening, so that the electrical equipment with the rechargeable energy storage module accommodated in the packaging structure can be charged and maintained from the outside of the packaging structure under the condition of not taking out the electrical equipment, the rechargeable energy storage module is prevented from being damaged, and the service life of the electrical equipment can be further prolonged.

Description

Packaging structure for electrical equipment with rechargeable energy storage module

Technical Field

The utility model relates to a packaging structure for electrical equipment with a rechargeable energy storage module, which is mainly applied to the technical field of product packaging requiring charging maintenance.

Background

Lithium ion batteries (lithium batteries for short) belong to secondary batteries, have the characteristics of high energy density, no memory effect and long cycle life, and many 3C electronic products, electric scooters, electric bicycles, energy storage devices and other electrical equipment all select rechargeable energy storage modules formed by the lithium batteries as power sources, and the rechargeable energy storage modules based on the lithium batteries have the defects of being incapable of overdischarging or overcharging, and can cause the damage of the rechargeable energy storage modules or reduce the service life when being used by mistake;

in order to reduce the speed of the autorotation passivation reaction inside the lithium ion battery of the rechargeable energy storage module, the rechargeable energy storage module of the electrical equipment needs to be recharged every 3-5 months for maintenance, the time of the electrical equipment is often more than 3-5 months from production, inventory, transportation and sales to consumers, and in addition, the electrical equipment is usually contained in a sealed packaging structure (such as a packaging box, a packaging box and the like) with a fixed shape for effective protection and convenient transportation and inventory storage, so that when the rechargeable energy storage module of the electrical equipment is to be charged and maintained, the packaging structure must be disassembled, so that great inconvenience and possible disassembly and assembly damage of the packaging box are caused, and adverse effects and risks can be generated on the electrical equipment in the packaging structure.

In other words, the existing electrical equipment with rechargeable energy storage module is not fully designed, and cannot provide convenient charging maintenance, which results in acceleration of autorotation passivation reaction of lithium ion battery in rechargeable energy storage module of electrical equipment, and may cause damage to rechargeable energy storage module or shorten service life.

Disclosure of Invention

The technical problems to be solved by the utility model are as follows: a packaging structure for an electrical device having a rechargeable energy storage module is provided, which can perform charging maintenance of the rechargeable energy storage module without unpacking, so as to ensure the service efficiency and service life of the rechargeable energy storage module of the electrical device and overcome the defects of the prior art.

In order to solve the technical problems, the utility model adopts the following technical scheme: a packaging structure for an electrical device having a rechargeable energy storage module is composed of a selectively closeable case for accommodating an electrical device having a rechargeable energy storage module, the electrical device having a charging interface for charging; the box body forms a containing space by utilizing a plurality of box walls which are connected, the containing space can be selectively opened and closed to contain the electrical equipment, a shutter structure corresponding to a charging interface of the electrical equipment is formed on at least one side of the box wall in the periphery of the box body, a through charging opening is formed on the box wall by the shutter structure, the shutter structure also has a cover corresponding to the charging opening, and the cover can be selectively and repeatedly covered on the charging opening to form a closed shape.

Preferably, the box may be selected from cardboard, corrugated board, plastic board or metal board.

Preferably, the case may be a rectangular hollow body, a columnar hollow body or a geometric hollow body.

Preferably, the cover of the shutter structure and the charging port may be formed at a charging port side edge of the case wall in an integrally connected manner.

Preferably, the cover of the shutter structure may be provided at a charging port side edge of the case wall in a separated manner.

Preferably, the charging opening is formed with an opposite pivoting slot at two ends of one side edge, and the cover is formed with a corresponding pivoting block at two ends of the opposite side edge, so that the cover can be selectively and repeatedly covered on the charging opening in a pivoting manner to form a closed shape.

Preferably, the inner edge of the charging port of the shutter structure is provided with an engagement inner edge surface, and the outer edge of the cover is provided with an engagement outer edge surface which is embedded and clamped tightly corresponding to the engagement inner edge surface, so that the cover can be selectively embedded and clamped on the charging port to form a closed shape.

Preferably, the shutter structure has a cover having a pulling-out portion for pulling out the cover by a user for performing charging maintenance operation, unlike a side edge connected to the charging port.

Preferably, the pulling-out portion may be a concave finger groove.

The beneficial effects of the utility model are as follows: through the display of the technical means, the packaging structure can utilize the design of the shutter structure on the wall of the box body, so that a user can charge and maintain the rechargeable energy storage module of the electrical equipment arranged in the box body in a state of not unpacking through opening and closing the charging port of the shutter structure, thereby ensuring the service efficiency and service life of the rechargeable energy storage module of the electrical equipment, avoiding the adverse effect and risk of secondary unpacking on the internal electrical equipment, reducing unnecessary product quality disputes, saving the operation time and labor efficiency, improving the convenience and practicality of charging and maintaining, and further improving the added value and economic benefit.

The present utility model will be described in further detail with reference to the accompanying drawings.

Drawings

Fig. 1 is a schematic perspective view showing a preferred embodiment of the packaging structure for an electrical device having a rechargeable energy storage module.

Fig. 2 is an enlarged partial schematic view of a preferred embodiment of the present package structure for an electrical device having a rechargeable energy storage module.

Fig. 3 is a schematic partial cross-sectional view of a preferred embodiment of the present utility model for an electrical device with a rechargeable energy storage module in actual use.

Fig. 4 is a schematic view showing a partial perspective view of another preferred embodiment of the packaging structure for an electrical device having a rechargeable energy storage module.

Detailed Description

As shown in fig. 1 and 2, the packaging structure is formed by a selectively closable case 10, wherein the case 10 can be used to house an electrical device 50 having a rechargeable energy storage module 55, and wherein the rechargeable energy storage module 55 has a charging interface 56 for charging.

The creation is characterized in that: the case 10 of the above-mentioned packaging structure may be selected from cardboard, corrugated board, plastic board or metal board, etc., the case 10 may be a rectangular hollow body, a column hollow body or a geometric hollow body formed by a plurality of connected case walls 11, for forming a selectively closed or detachable receiving space inside the case 10 to receive the above-mentioned electrical equipment 50, a shutter structure 20 corresponding to the charging interface 56 of the rechargeable energy storage module 55 is formed on at least one case wall 11 of the peripheral surface case wall 11 of the case 10, the shutter structure 20 is formed with a through charging opening 21 on the case wall 11, the inner edge of the charging opening 21 has a joint inner edge surface 22, the shutter structure 20 has a cover opening and closing 25 capable of repeating the charging opening 21, and the outer edge of the cover 25 has a joint outer edge surface 26 corresponding to the joint inner edge surface 22, so that the cover 25 can be selectively covered on the charging opening 21, the cover 25 and the charging opening 21 can be integrally formed on the charging opening 21 as shown in fig. 1 or the charging opening 27 (the charging opening is shown in fig. 1, the charging opening is shown as a recess 25) is formed on the side of the case wall 21) or the charging opening is shown in fig. 1.

As shown in the embodiment of fig. 4, the cover 25 of the shutter structure 20 can be separately pivoted to one side edge of the charging port 21 of the wall 11, when the cover 25 is separately pivoted, the charging port 21 is respectively formed with an opposite pivoting slot 23 at two ends of one side edge, and the cover 25 is respectively formed with a corresponding pivoting block 28 at two ends of the opposite side edge, so that the cover 25 can be selectively snapped onto the charging port 21 in a pivoting manner to form a closed shape, thereby forming a packaging structure for an electrical apparatus with a rechargeable energy storage module capable of performing charging maintenance without disassembling the case.

Through the above structural design, in practical application, as shown in fig. 1, 2 and 3, the case 10 of the packaging structure is provided with the shutter structure 20 for charging and maintenance, when the electrical equipment 50 with the rechargeable energy storage module 55 is accommodated in the case 10, the charging interface 56 of the rechargeable energy storage module 55 corresponds to the shutter structure 20 of the case 10 for charging and maintenance after the electrical equipment 50 is accommodated in the case 10;

in operation, in a state that the case 10 is not disassembled, a user can directly open the opening portion 27 of the cover 25 of the shutter structure 20 (as shown in fig. 2), so that the charging port 21 of the shutter structure 20 is exposed from the case wall 11 of the case 10, and the charging port 56 of the rechargeable energy storage module 55 of the electrical equipment 50 in the case 10 can be correspondingly seen, and the charging port 56 of the rechargeable energy storage module 55 can be docked by using a charging assembly 60, and charging maintenance operation can be started, and after the charging maintenance operation is completed, the charging assembly 60 and the charging port 56 of the rechargeable energy storage module 55 are separated, then the cover 25 of the shutter structure 20 is covered on the charging port 21 again, and the purpose of blocking the charging port 21 of the case wall 11 of the case 10 is achieved by using the joint inner edge surface 22 of the charging port 21 and the joint outer edge surface 26 of the cover 25, so as to protect the charging port 56 of the rechargeable energy storage module 55 of the electrical equipment 50.

As can be seen from the above description, the packaging structure of the present utility model utilizes the design of the shutter structure 20 on the wall 11 of the case 10, so that a user can charge and maintain the rechargeable energy storage module 55 of the electrical equipment 50 disposed inside the case 10 without unpacking through opening and closing the charging port 21 of the shutter structure 20, thereby ensuring the service efficiency and service life of the rechargeable energy storage module 55 of the electrical equipment 50, avoiding adverse effects and risks caused by secondary unpacking to the electrical equipment 50 inside, reducing unnecessary product quality disputes, saving operation time, avoiding disassembly and assembly loss, and improving convenience and practicality of charging and maintenance.

Claims (9)

1. A packaging structure for an electrical device having a rechargeable energy storage module is composed of a selectively closeable case for accommodating an electrical device having a rechargeable energy storage module, the electrical device having a charging interface for charging; the method is characterized in that: the box body forms a containing space by utilizing a plurality of box walls which are connected, the containing space can be selectively opened and closed to contain the electrical equipment, a shutter structure corresponding to a charging interface of the electrical equipment is formed on at least one side of the box wall in the periphery of the box body, a through charging opening is formed on the box wall by the shutter structure, the shutter structure also has a cover corresponding to the charging opening, and the cover can be selectively and repeatedly covered on the charging opening to form a closed shape.

2. The packaging structure for an electrical device having a rechargeable energy storage module of claim 1, wherein: the box may be selected from cardboard, corrugated board, plastic board or metal board.

3. The packaging structure for an electrical device having a rechargeable energy storage module of claim 1, wherein: the box body can be a rectangular hollow body, a columnar hollow body or a geometric hollow body.

4. The packaging structure for an electrical device having a rechargeable energy storage module of claim 1, wherein: the cover of the shutter structure and the charging port may be integrally formed at the charging port side edge of the case wall.

5. The packaging structure for an electrical device having a rechargeable energy storage module of claim 1, wherein: the cover of the shutter structure may be provided on the charging port side edge of the case wall in a separated manner.

6. The packaging structure for an electrical device having a rechargeable energy storage module of claim 1, wherein: the charging port is provided with opposite pivot grooves at two ends of one side edge, and the cover is provided with corresponding pivot blocks at two ends of the opposite side edge, so that the cover can be selectively and repeatedly covered on the charging port in a pivot mode to form a closed shape.

7. The packaging structure for an electrical device having a rechargeable energy storage module of claim 5, wherein: the inner edge of the charging opening of the shutter structure is provided with a joint inner edge surface, and the outer edge of the cover is provided with a joint outer edge surface which corresponds to the joint inner edge surface in a clamping manner, so that the cover can be selectively clamped on the charging opening to form a closed shape.

8. The packaging structure for an electrical device having a rechargeable energy storage module of claim 6, wherein: the shutter structure covers the side edge, which is different from the side edge connected with the charging port, and is provided with a poking part for a user to poke the shutter for charging maintenance operation.

9. The packaging structure for an electrical device having a rechargeable energy storage module of claim 8, wherein: the pulling-out portion may be a concave finger groove.

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