CN220190503U - Outdoor energy storage electric box and solar energy storage power supply - Google Patents

Abstract

The utility model provides an outdoor energy storage electric box and a solar energy storage power supply. The outdoor energy storage electric box comprises an energy storage waterproof sealing box and a solar energy storage switching socket; the energy storage waterproof sealing box comprises an energy storage waterproof sealing lower shell and an energy storage waterproof sealing upper cover, the energy storage waterproof sealing upper cover is sealed and installed on the energy storage waterproof sealing lower shell, and the energy storage waterproof sealing upper cover corresponds to the battery installation hole; the solar energy electricity storage adapter socket is arranged on the energy storage waterproof sealing lower shell, the energy storage waterproof sealing lower shell is provided with a solar energy electricity storage card hole, and part of the solar energy electricity storage adapter socket is contained in the solar energy electricity storage card hole. The energy storage waterproof sealing upper cover is connected with the energy storage waterproof sealing lower shell in a sealing mode, the whole energy storage waterproof sealing box is kept airtight, the solar energy electricity storage switching socket is used as a charging connection port between the energy storage battery structure and an external solar panel, and the outdoor energy storage electric box is used for supplementing electric energy by means of solar energy, so that the convenience of electricity supplementing outdoors is improved.

Description

Outdoor energy storage electric box and solar energy storage power supply

Technical Field

The utility model relates to the technical field of outdoor energy storage, in particular to an outdoor energy storage electric box and a solar energy storage power supply.

Background

Many life and production activities of people in the modern society are not powered off, and most devices cannot work normally without the support of power supply. In order to cope with the situations of sudden power failure and the like, the utility model provides energy storage equipment, such as an energy storage box and the like, and the energy storage box can be used as an emergency power supply when a power grid cannot normally supply power. With the rising of camping, exploration and other activities in the field, the demands of people for outdoor power supplies are continuously increased, and products such as outdoor energy storage power supply boxes become one of the necessary equipment for people to perform the field activities.

However, when the conventional outdoor energy storage power supply box is used in the field, a generator and a charging device are generally required to supplement power to the outdoor energy storage power supply box, resulting in inconvenience in power supplement of the conventional outdoor energy storage power supply box.

Disclosure of Invention

The utility model aims to overcome the defects in the prior art and provides an outdoor energy storage electric box and a solar energy storage power supply which can effectively improve the convenience of outdoor power supply.

The aim of the utility model is realized by the following technical scheme:

an outdoor energy storage electrical box comprising: energy storage waterproof seal box and solar energy electricity storage switching socket; the energy storage waterproof sealing box comprises an energy storage waterproof sealing lower shell and an energy storage waterproof sealing upper cover, the energy storage waterproof sealing lower shell is used for storing an energy storage battery structure, the energy storage waterproof sealing lower shell is provided with a battery mounting hole, the battery mounting hole is used for penetrating the energy storage battery structure, the energy storage waterproof sealing upper cover sealing ring is mounted on the energy storage waterproof sealing lower shell, the energy storage waterproof sealing upper cover corresponds to the battery mounting hole, and the energy storage waterproof sealing upper cover is used for sealing the battery mounting hole; the solar energy electricity storage adapter socket is arranged on the energy storage waterproof sealing lower shell, the energy storage waterproof sealing lower shell is provided with a solar energy electricity storage clamping hole, a part of the solar energy electricity storage adapter socket is contained in the solar energy electricity storage clamping hole, and the solar energy electricity storage adapter socket is used for being electrically connected with a charging end of the energy storage battery structure and the solar energy electric plate.

In one embodiment, the energy storage waterproof sealing box further comprises a waterproof sealing column, a waterproof sealing clamping hole is formed in the energy storage waterproof sealing upper cover, and the waterproof sealing column penetrates through the waterproof sealing clamping hole and is connected with the energy storage waterproof sealing lower shell.

In one embodiment, the energy storage waterproof sealing lower shell is provided with a waterproof sealing clamping groove, an opening of the waterproof sealing clamping groove faces to the energy storage waterproof sealing upper cover, and a part of the waterproof sealing column is accommodated in the waterproof sealing clamping groove.

In one embodiment, the energy storage waterproof sealing lower shell is provided with a waterproof sealing limiting through hole, the waterproof sealing limiting through hole is communicated with the waterproof sealing clamping groove, the waterproof sealing limiting through hole is located at the bottom of the waterproof sealing clamping groove, and the aperture of the waterproof sealing limiting through hole is smaller than the diameter of the notch of the waterproof sealing clamping groove.

In one embodiment, the energy storage waterproof sealing box further comprises a sealing silica gel separation layer, and the sealing silica gel separation layer is located between the energy storage waterproof sealing lower shell and the energy storage waterproof sealing upper cover.

In one embodiment, the energy storage waterproof sealing lower shell comprises a lower shell body and a word returning lifting plate which are connected with each other, the word returning lifting plate is located between the lower shell body and the energy storage waterproof sealing upper cover, and the word returning lifting plate is used for supporting the energy storage waterproof sealing upper cover.

In one embodiment, a heat exchange reciprocating air passage is formed between the reverse-shaped lifting plate and the lower shell body, and the heat exchange reciprocating air passage is used for flowing hot air flow generated by the energy storage battery structure back and forth.

In one embodiment, the reverse-U-shaped lifting plate has a reverse-U-shaped structure.

In one embodiment, the energy-storage waterproof sealing upper cover is provided with a plurality of heat dissipation grooves, and openings of the heat dissipation grooves deviate from the energy-storage waterproof sealing lower shell.

A solar energy storage power supply comprises the outdoor energy storage electric box according to any embodiment.

Compared with the prior art, the utility model has at least the following advantages:

the energy storage waterproof sealing upper cover is in sealing connection with the energy storage waterproof sealing lower shell, so that the whole energy storage waterproof sealing box is kept airtight, the whole tightness of the energy storage waterproof sealing box is effectively improved, moreover, the solar energy electricity storage switching socket is used as a charging connection port between an energy storage battery structure and an external solar panel, a battery pack in the energy storage battery structure is conveniently charged in a solar charging mode, and the outdoor energy storage electric box is enabled to supplement electric energy by means of solar energy, so that the electricity supplementing convenience outdoors is effectively improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some embodiments of the present utility model and therefore should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of an outdoor energy storage electric box according to an embodiment;

FIG. 2 is a cross-sectional view of the outdoor energy storage electric box of FIG. 1;

FIG. 3 is an enlarged schematic view of the cross-sectional view of FIG. 2 at A3;

FIG. 4 is another cross-sectional view of the outdoor energy storage electric box of FIG. 1;

fig. 5 is an enlarged schematic view of the cross-sectional view of fig. 4 at A4.

Detailed Description

In order that the utility model may be readily understood, a more complete description of the utility model will be rendered by reference to the appended drawings. The drawings illustrate preferred embodiments of the utility model. This utility model may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only and are not meant to be the only embodiment.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

The utility model relates to an outdoor energy storage electric box. In one embodiment, the outdoor energy storage electric box comprises an energy storage waterproof sealing box and a solar energy storage adapter socket; the energy storage waterproof sealing box comprises an energy storage waterproof sealing lower shell and an energy storage waterproof sealing upper cover, wherein the energy storage waterproof sealing lower shell is used for storing an energy storage battery structure, the energy storage waterproof sealing lower shell is provided with a battery mounting hole, the battery mounting hole is used for penetrating the energy storage battery structure, the energy storage waterproof sealing upper cover is hermetically arranged on the energy storage waterproof sealing lower shell, the energy storage waterproof sealing upper cover corresponds to the battery mounting hole, and the energy storage waterproof sealing upper cover is used for sealing the battery mounting hole; the solar energy electricity storage adapter socket is arranged on the energy storage waterproof sealing lower shell, the energy storage waterproof sealing lower shell is provided with a solar energy electricity storage clamping hole, a part of the solar energy electricity storage adapter socket is contained in the solar energy electricity storage clamping hole, and the solar energy electricity storage adapter socket is used for being electrically connected with a charging end of the energy storage battery structure and the solar energy electric plate. The energy storage waterproof sealing upper cover is in sealing connection with the energy storage waterproof sealing lower shell, so that the whole energy storage waterproof sealing box is kept airtight, the whole tightness of the energy storage waterproof sealing box is effectively improved, moreover, the solar energy electricity storage switching socket is used as a charging connection port between an energy storage battery structure and an external solar panel, a battery pack in the energy storage battery structure is conveniently charged in a solar charging mode, and the outdoor energy storage electric box is enabled to supplement electric energy by means of solar energy, so that the convenience of outdoor electricity supplement is improved.

Fig. 1 is a schematic structural diagram of an outdoor energy storage box according to an embodiment of the utility model.

The outdoor energy storage electric box of an embodiment comprises an energy storage waterproof seal box 100 and a solar energy storage adapter socket 400. Referring to fig. 2, the energy-storing waterproof sealing case 100 includes an energy-storing waterproof sealing lower case 130 and an energy-storing waterproof sealing upper cover 140. The energy storage waterproof sealing lower case 130 is used for storing an energy storage battery structure, the energy storage waterproof sealing lower case 130 is provided with a battery mounting hole, and the battery mounting hole is used for penetrating the energy storage battery structure. The energy storage waterproof sealing upper cover 140 is mounted on the energy storage waterproof sealing lower shell 130 in a sealing mode, the energy storage waterproof sealing upper cover 140 corresponds to the battery mounting hole, and the energy storage waterproof sealing upper cover 140 is used for sealing the battery mounting hole. Referring to fig. 3, the solar electricity storage adapter socket 400 is mounted on the energy storage waterproof sealing lower shell 130, and the energy storage waterproof sealing lower shell 130 is provided with a solar electricity storage card hole 106. The solar electricity storage adapter socket 400 is partially received in the solar electricity storage card hole 106, and the solar electricity storage adapter socket 400 is electrically connected with the charging end of the energy storage battery structure and the solar panel.

In this embodiment, the energy storage waterproof sealing upper cover 140 is in sealing connection with the energy storage waterproof sealing lower shell 130, so that the whole of the energy storage waterproof sealing box 100 is kept airtight, the whole tightness of the energy storage waterproof sealing box 100 is effectively improved, moreover, the solar energy electricity storage switching socket 400 is used as a charging connection port between the energy storage battery structure and an external solar panel, a battery pack in the energy storage battery structure is conveniently charged in a solar charging mode, and the outdoor energy storage electric box is used for supplementing electric energy by means of solar energy, so that the convenience of outdoor electricity supplementing is improved.

In another embodiment, the solar electricity storage adapter socket is provided with an electric energy conversion control circuit, so that the charging end of the energy storage battery structure and the output end of the solar electric plate are connected together, and electric energy output by the solar electric plate is conveniently transmitted to the charging end of the energy storage battery structure through the solar electricity storage adapter socket, so that the energy storage battery structure is conveniently subjected to electricity supplementing and charging operation.

In one embodiment, referring to fig. 4 and 5, the energy-storing waterproof sealing case 100 further includes a waterproof sealing post 150, the energy-storing waterproof sealing upper cover 140 is provided with a waterproof sealing clamping hole 108, and the waterproof sealing post 150 is disposed in the waterproof sealing clamping hole 108 in a penetrating manner and is connected with the energy-storing waterproof sealing lower shell 130. In this embodiment, the waterproof sealing clamping hole 108 is located on the energy storage waterproof sealing upper cover 140, the waterproof sealing clamping hole 108 penetrates through the energy storage waterproof sealing upper cover 140, and the portion of the waterproof sealing column 150 is located in the waterproof sealing clamping hole 108, so that the waterproof sealing column 150 is embedded in the waterproof sealing clamping hole 108, and therefore the waterproof sealing column 150 is clamped with the energy storage waterproof sealing upper cover 140, the waterproof sealing column 150 is convenient to fix the energy storage waterproof sealing upper cover 140 on the energy storage waterproof sealing lower shell 130, and connection stability between the energy storage waterproof sealing upper cover 140 and the energy storage waterproof sealing lower shell 130 is effectively improved.

Further, the energy-storing waterproof sealing lower case 130 is provided with a waterproof sealing clamping groove 101, an opening of the waterproof sealing clamping groove 101 faces the energy-storing waterproof sealing upper cover 140, and a portion of the waterproof sealing clamping groove 101 containing the waterproof sealing column 150 is accommodated. In this embodiment, the waterproof sealing clamping groove 101 is located on the energy storage waterproof sealing lower case 130, the waterproof sealing clamping groove 101 corresponds to the waterproof sealing post 150, and specifically, the waterproof sealing clamping hole 108 communicates with the waterproof sealing clamping groove 101. When the waterproof sealing column 150 is inserted into the waterproof sealing clamping hole 108, the waterproof sealing column 150 is further embedded into the waterproof sealing clamping groove 101, so that the waterproof sealing column 150 is simultaneously clamped with the energy storage waterproof sealing lower shell 130 and the energy storage waterproof sealing upper cover 140, and the connection stability between the energy storage waterproof sealing upper cover 140 and the energy storage waterproof sealing lower shell 130 is further improved.

Still further, the energy-storing waterproof sealing lower shell 130 is provided with a waterproof sealing limiting through hole 103, the waterproof sealing limiting through hole 103 is communicated with the waterproof sealing clamping groove 101, the waterproof sealing limiting through hole 103 is located at the bottom of the waterproof sealing clamping groove 101, and the aperture of the waterproof sealing limiting through hole 103 is smaller than the diameter of the notch of the waterproof sealing clamping groove 101. In this embodiment, the waterproof sealing limiting through hole 103 is located on the energy storage waterproof sealing lower shell 130, the waterproof sealing limiting through hole 103 corresponds to the waterproof sealing clamping groove 101, the aperture of the waterproof sealing limiting through hole 103 is smaller than the diameter of the notch of the waterproof sealing clamping groove 101, so that a resisting structure is formed at the bottom of the waterproof sealing clamping groove 101, similar to a step, after the waterproof sealing column 150 sequentially passes through the waterproof sealing clamping hole 108 and the waterproof sealing clamping groove 101, the end of the waterproof sealing column 150 abuts against the bottom of the waterproof sealing clamping groove 101, so that the waterproof sealing column 150 is effectively prevented from being excessively embedded into the energy storage waterproof sealing box 100. Moreover, the end of the waterproof sealing post 150 is aligned with the waterproof sealing limit through hole 103, specifically, the end of the waterproof sealing post 150 seals the waterproof sealing limit through hole 103, so that the sealability of the energy storage waterproof sealing case 100 is effectively improved.

In one embodiment, referring to fig. 5, the energy storage waterproof sealing case 100 further includes a sealing silica gel barrier 160, and the sealing silica gel barrier 160 is located between the energy storage waterproof sealing lower case 130 and the energy storage waterproof sealing upper cover 140. In this embodiment, the sealing silica gel blocking layer 160 is abutted to the energy storage waterproof sealing lower shell 130, the sealing silica gel blocking layer 160 is also abutted to the energy storage waterproof sealing upper cover 140, the energy storage waterproof sealing upper cover 140 and the energy storage waterproof sealing lower shell 130 clamp the sealing silica gel blocking layer 160 under the fastening of the waterproof sealing column 150, so that the sealing silica gel blocking layer 160 is filled between the energy storage waterproof sealing upper cover 140 and the energy storage waterproof sealing lower shell 130, and the gap between the energy storage waterproof sealing upper cover 140 and the energy storage waterproof sealing lower shell 130 is effectively reduced, thereby effectively improving the tightness of the energy storage waterproof sealing box 100.

In one embodiment, referring to fig. 5, the energy-storing waterproof sealing lower case 130 includes a lower case body 132 and a word-returning lifting plate 134 that are connected to each other, the word-returning lifting plate 134 is located between the lower case body 132 and the energy-storing waterproof sealing upper cover 140, and the word-returning lifting plate 134 is used for supporting the energy-storing waterproof sealing upper cover 140. In this embodiment, the lower case body 132 is used as a storage box of the energy storage battery structure, the letter-return lifting plate 134 is located between the lower case body 132 and the energy storage waterproof sealing upper cover 140, and the letter-return lifting plate 134 supports the energy storage waterproof sealing upper cover 140, so that a space is formed between the energy storage waterproof sealing upper cover 140 and the lower case body 132, and thus the internal air circulation space of the energy storage waterproof sealing lower case 130 is enough, so that heat exchange with the outside is facilitated, and the heat dissipation performance is improved.

Further, a heat exchange reciprocating air passage is formed between the return-type lifting plate 134 and the lower case body 132, and the heat exchange reciprocating air passage is used for reciprocally flowing the hot air flow generated by the energy storage battery structure. In this embodiment, an interval is formed between the word return lifting plate 134 and the lower casing body 132, the word return lifting plate 134 forms the heat exchange reciprocating air passage between the energy storage waterproof sealing upper cover 140 and the lower casing body 132, so that the high-temperature and high-pressure gas in the energy storage waterproof sealing box 100 flows back in the heat exchange reciprocating air passage to form turbulent flow, thereby improving the heat exchange efficiency between the energy storage waterproof sealing box 100 and the outside, and further improving the thermal runaway resistance of the outdoor energy storage electric box. In another embodiment, the reverse-U lifting plate 134 has a U-shaped structure.

In one embodiment, referring to fig. 2, the energy-storage waterproof sealing upper cover 140 is provided with a plurality of heat dissipation grooves 105, and the openings of the heat dissipation grooves 105 face away from the energy-storage waterproof sealing lower case 130. In this embodiment, the heat dissipation groove 105 is formed on the outer side of the energy storage waterproof sealing upper cover 140, and the heat dissipation groove 105 increases the contact area between the energy storage waterproof sealing upper cover 140 and air, so as to improve the overall heat dissipation performance of the outdoor energy storage electric box. In another embodiment, the plurality of heat dissipation grooves 105 are distributed in parallel and uniformly, so that the temperature distribution on the energy storage waterproof sealing upper cover 140 is uniform, and damage caused by local overhigh temperature is avoided.

In one embodiment, the utility model further provides a solar energy storage power supply, which comprises the outdoor energy storage electric box according to any embodiment. In this embodiment, the outdoor energy storage electric box comprises an energy storage waterproof sealing box and a solar energy storage adapter socket; the energy storage waterproof sealing box comprises an energy storage waterproof sealing lower shell and an energy storage waterproof sealing upper cover, wherein the energy storage waterproof sealing lower shell is used for storing an energy storage battery structure, the energy storage waterproof sealing lower shell is provided with a battery mounting hole, the battery mounting hole is used for penetrating the energy storage battery structure, the energy storage waterproof sealing upper cover is hermetically arranged on the energy storage waterproof sealing lower shell, the energy storage waterproof sealing upper cover corresponds to the battery mounting hole, and the energy storage waterproof sealing upper cover is used for sealing the battery mounting hole; the solar energy electricity storage adapter socket is arranged on the energy storage waterproof sealing lower shell, the energy storage waterproof sealing lower shell is provided with a solar energy electricity storage clamping hole, a part of the solar energy electricity storage adapter socket is contained in the solar energy electricity storage clamping hole, and the solar energy electricity storage adapter socket is used for being electrically connected with a charging end of the energy storage battery structure and the solar energy electric plate. The energy storage waterproof sealing upper cover is in sealing connection with the energy storage waterproof sealing lower shell, so that the whole energy storage waterproof sealing box is kept airtight, the whole tightness of the energy storage waterproof sealing box is effectively improved, moreover, the solar energy electricity storage switching socket is used as a charging connection port between an energy storage battery structure and an external solar panel, a battery pack in the energy storage battery structure is conveniently charged in a solar charging mode, and the outdoor energy storage electric box is enabled to supplement electric energy by means of solar energy, so that the convenience of outdoor electricity supplement is improved.

The above examples illustrate only a few embodiments of the utility model, which are described in detail and are not to be construed as limiting the scope of the utility model. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model. Accordingly, the scope of protection of the present utility model is to be determined by the appended claims.

Claims (10)

1. An outdoor energy storage electric box, characterized by comprising:

the energy storage waterproof sealing box comprises an energy storage waterproof sealing lower shell and an energy storage waterproof sealing upper cover, wherein the energy storage waterproof sealing lower shell is used for storing an energy storage battery structure, the energy storage waterproof sealing lower shell is provided with a battery mounting hole, the battery mounting hole is used for penetrating the energy storage battery structure, the energy storage waterproof sealing upper cover is hermetically mounted on the energy storage waterproof sealing lower shell, the energy storage waterproof sealing upper cover corresponds to the battery mounting hole, and the energy storage waterproof sealing upper cover is used for sealing the battery mounting hole;

the solar energy electricity storage adapter socket is arranged on the energy storage waterproof sealing lower shell, the energy storage waterproof sealing lower shell is provided with a solar electricity storage clamping hole, a part of the solar energy electricity storage adapter socket is contained in the solar electricity storage clamping hole, and the solar electricity storage adapter socket is used for being electrically connected with a charging end of the energy storage battery structure and the solar electric plate.

2. The outdoor energy storage electric box according to claim 1, further comprising a waterproof sealing column, wherein the energy storage waterproof sealing upper cover is provided with a waterproof sealing clamping hole, and the waterproof sealing column penetrates through the waterproof sealing clamping hole and is connected with the energy storage waterproof sealing lower shell.

3. The outdoor energy storage electric box of claim 2, wherein the energy storage waterproof sealing lower shell is provided with a waterproof sealing clamping groove, an opening of the waterproof sealing clamping groove faces the energy storage waterproof sealing upper cover, and a portion of the waterproof sealing column is accommodated in the waterproof sealing clamping groove.

4. The outdoor energy storage electric box according to claim 3, wherein the energy storage waterproof sealing lower shell is provided with a waterproof sealing limiting through hole, the waterproof sealing limiting through hole is communicated with the waterproof sealing clamping groove, the waterproof sealing limiting through hole is located at the bottom of the waterproof sealing clamping groove, and the aperture of the waterproof sealing limiting through hole is smaller than the diameter of the notch of the waterproof sealing clamping groove.

5. The outdoor energy storage electric box of claim 1, wherein the energy storage waterproof seal box further comprises a sealing silica gel barrier layer located between the energy storage waterproof seal lower case and the energy storage waterproof seal upper cover.

6. The outdoor energy storage electric box of claim 1, wherein the energy storage waterproof sealing lower shell comprises a lower shell body and a word return lifting plate which are connected with each other, the word return lifting plate is located between the lower shell body and the energy storage waterproof sealing upper cover, and the word return lifting plate is used for supporting the energy storage waterproof sealing upper cover.

7. The outdoor energy storage electric box of claim 6, wherein a heat exchange reciprocating air passage is formed between the return-word lifting plate and the lower shell body, and the heat exchange reciprocating air passage is used for reciprocating hot air flow generated by the energy storage battery structure.

8. The outdoor energy storage electric box of claim 6, wherein the return-to-letter lifting plate has a "n" shape.

9. The outdoor energy storage electric box of claim 1, wherein the energy storage waterproof seal upper cover is provided with a plurality of heat dissipation grooves, and openings of the heat dissipation grooves face away from the energy storage waterproof seal lower shell.

10. A solar energy storage power supply, characterized by comprising an outdoor energy storage electric box according to any one of claims 1 to 9.