CN218987433U - Heat-insulating waterproof bag for energy accumulator - Google Patents

Abstract

The utility model discloses an energy accumulator heat-insulating waterproof bag, which comprises a bag body and an energy accumulator accommodating cavity arranged in the bag body, wherein the bag body is made of heat-insulating waterproof materials; the bag body is provided with an opening part capable of opening and closing, a charging part capable of opening and closing and a heat dissipation part capable of opening and closing, the energy storage accommodating cavity is communicated with the outside when the opening part, the charging part or the heat dissipation part is opened, and the energy storage accommodating cavity is closed when the opening part, the charging part and the heat dissipation part are closed. The utility model can insulate heat and prevent water, and is suitable for outdoor use.

Description

Heat-insulating waterproof bag for energy accumulator

Technical Field

The utility model relates to an energy accumulator, in particular to a heat-insulating waterproof bag of the energy accumulator.

Background

When the solar energy storage device is used outdoors, the energy storage device is usually matched with the solar panel, electric energy generated by the solar panel is utilized to charge the energy storage device, and the energy storage device outputs electricity through the electric output port and is used for charging mobile equipment such as a mobile phone or supplying power to an illuminating lamp and the like. However, outdoor conditions are complex, when the energy accumulator is exposed to the sun in sunny days, the sun irradiates the energy accumulator, so that the energy accumulator is easy to be damaged due to the fact that the temperature of the energy accumulator is too high. Obviously, the energy storage is easily damaged by exposing the energy storage to the sun or rain.

Disclosure of Invention

The utility model provides a heat-insulating waterproof bag for an energy accumulator, which aims to solve the technical problem that the energy accumulator is easy to damage when the energy accumulator is exposed to the sun or in the rain in the prior art.

In order to solve the technical problems, the technical scheme adopted by the utility model is to design the heat-insulating waterproof bag for the energy accumulator, which comprises a bag body and an energy accumulator accommodating cavity arranged in the bag body, wherein the bag body is made of heat-insulating waterproof materials; the bag body is provided with an opening part capable of opening and closing, a charging part capable of opening and closing and a heat dissipation part capable of opening and closing, the energy storage accommodating cavity is communicated with the outside when the opening part, the charging part or the heat dissipation part is opened, and the energy storage accommodating cavity is closed when the opening part, the charging part and the heat dissipation part are closed.

One end of the charging part is integrally connected with the bag body, and a first opening seam is arranged between the other ends and the bag body; the energy accumulator heat-insulating waterproof bag further comprises a first zipper which is arranged at the first opening seam and can be opened and closed to connect the charging part with the bag body, and the first zipper is a waterproof zipper.

The charging part is arranged on the side face of the bag body, and the upper end of the charging part is integrally connected with the bag body.

One end of the heat dissipation part is integrally connected with the bag body, and a second opening seam is arranged between the other ends and the bag body; the heat-insulating waterproof bag of the energy accumulator further comprises a second zipper which is arranged at the second opening seam and can be opened and closed to connect the radiating part and the bag body, and the second zipper is a waterproof zipper.

The heat dissipation part is arranged on the side face of the bag body, and the lower end of the heat dissipation part is integrally connected with the bag body.

The bag body is also provided with an openable electric output part, one end of the electric output part is integrally connected with the bag body, and a third opening seam is arranged between the other ends and the bag body; the energy accumulator heat-insulating waterproof bag further comprises a third zipper which is arranged at the third opening seam and can be opened and closed to connect the electric output part and the bag body; the third zipper is a waterproof zipper.

The electric output part is arranged on the side surface of the bag body, and the upper end of the electric output part is integrally connected with the bag body.

One end of the opening part is integrally connected with the bag body, and a fourth opening seam is arranged between the other ends and the bag body; the heat-insulating waterproof bag of the energy accumulator further comprises a fourth zipper which is arranged at the position of the fourth opening seam and can be opened and closed to connect the opening part with the bag body, the opening part is arranged at the upper end of the bag body, the rear end of the opening part is integrally connected with the bag body, and the fourth zipper is a waterproof zipper.

The heat-insulating waterproof material comprises a waterproof nylon cloth layer, a pressure-sensitive adhesive layer, an aerogel layer and a PET layer which are sequentially arranged from outside to inside.

The heat-insulating waterproof bag of the energy accumulator further comprises the energy accumulator accommodated in the accommodating cavity of the energy accumulator, a charging port, an electric output interface and a heat dissipation port are arranged on the energy accumulator, the charging port is arranged opposite to the charging part, the electric output interface is arranged opposite to the electric output part, and the heat dissipation port is arranged opposite to the heat dissipation part; the heat dissipation port comprises two heat dissipation parts which are respectively arranged on two opposite sides of the energy accumulator, and the heat dissipation parts comprise two heat dissipation parts which are respectively arranged on two opposite sides of the bag body.

The bag body is internally provided with the energy accumulator accommodating cavity for accommodating the energy accumulator, and is made of heat-insulating waterproof materials. Therefore, the solar energy storage device can be prevented from being excessively high due to direct irradiation of the sun in sunny days, and can be prevented from being wetted by rainwater in rainy days, so that the risk that the energy storage device is damaged outdoors is effectively avoided. In addition, be provided with opening part, charging portion and the radiating portion that can open and shut on the inclusion, opening part, charging portion or radiating portion open time the energy storage holding chamber communicates with each other with the external world, opening part, charging portion and radiating portion close time, the energy storage holding chamber is closed. Thereby accessible opening part that opens and shuts, put into or take out the energy storage, through opening the portion of charging, external solar energy charges to the energy storage, opens the radiating part, can dispel the heat to the energy storage when charging or the energy storage temperature is higher, can make the energy storage close in the energy storage holding intracavity again behind closed opening part, the portion of charging and the radiating part, it is more convenient to use.

Drawings

The utility model is described in detail below with reference to examples and figures, wherein:

FIG. 1 is a block diagram of an accumulator insulation package of the present utility model;

FIG. 2 is a block diagram of another view of the heat insulating waterproof pack of the present utility model;

FIG. 3 is an exploded view of the heat insulating waterproof pack of the present utility model;

FIG. 4 is an exploded view of an alternative view of the heat insulating waterproof pack of the present utility model;

fig. 5 is a schematic structural view of a waterproof material of the heat-insulating waterproof bag for an accumulator of the present utility model.

Detailed Description

Specific embodiments of the utility model are further described below with reference to the accompanying drawings:

please refer to fig. 1 to 5. The heat-insulating waterproof bag for the energy accumulator comprises a bag body 1. An accumulator accommodating cavity is arranged in the bag body 1. In order to realize the waterproof and heat-insulating functions, the bag body is made of heat-insulating and waterproof materials. The heat-insulating waterproof material can be made of the existing heat-insulating waterproof material. In this specific embodiment, the heat-insulating waterproof material includes a waterproof nylon cloth layer 11, a pressure-sensitive adhesive layer 12, an aerogel layer 13 and a PET layer 14, which are sequentially disposed from outside to inside. The waterproof nylon cloth layer is made of waterproof nylon cloth and is mainly used for waterproofing, the pressure-sensitive adhesive layer is made of pressure-sensitive adhesive, the function of adhering the waterproof nylon cloth layer is achieved, and meanwhile, the pressure-sensitive adhesive has good heat resistance. The aerogel layer is made of aerogel, and mainly plays a role in heat insulation, and the PET layer is made of PET, and mainly plays a role in insulation protection. The heat-insulating waterproof material comprises a waterproof nylon cloth layer 11, a pressure-sensitive adhesive layer 12, an aerogel layer 13 and a PET layer 14 which are sequentially arranged from outside to inside, and can enable the bag body to have better flexibility.

The bag body is made of the heat-insulating waterproof material, so that the energy accumulator can be prevented from being excessively high due to direct irradiation of the sun in sunny days, and can be prevented from being wetted by rainwater in rainy days, and the risk that the energy accumulator is damaged outdoors is effectively avoided.

The bag body 1 is provided with an opening part 3 capable of opening and closing, a charging part 4 capable of opening and closing and a heat dissipation part 5 capable of opening and closing, when the opening part 3, the charging part 4 or the heat dissipation part 5 is opened, the energy storage accommodating cavity is communicated with the outside, and when the opening part 3, the charging part 4 and the heat dissipation part 5 are closed, the energy storage accommodating cavity is closed.

Through opening and shutting the opening, put into or take out the energy storage, through opening the portion of charging, external solar energy charges to the energy storage, opens the radiating portion, can dispel the heat to the energy storage when charging or the energy storage temperature is higher, can make the energy storage close in the energy storage holding intracavity again behind closed opening, portion of charging and the radiating portion, it is more convenient to use.

One end of the opening part 3 is integrally connected with the bag body, and a fourth opening seam is arranged between the other end and the bag body; the heat-insulating waterproof bag of the energy accumulator further comprises a fourth zipper 31 which is arranged at the position of the fourth opening seam and can be opened and closed to connect the opening part with the bag body, the opening part is arranged at the upper end of the bag body, the rear end of the opening part is integrally connected with the bag body, and the fourth zipper is a waterproof zipper.

The opening can be conveniently opened or closed by providing the fourth zipper 31 to connect the opening to the bag body. The fourth zipper is a waterproof zipper, and can play a good waterproof role.

One end of the charging part 4 is integrally connected with the bag body, and a first opening seam is arranged between the other ends and the bag body; the heat-insulating waterproof bag of the energy accumulator further comprises a first zipper 41 which is arranged at the first opening seam and can be opened and closed to connect the charging part with the bag body, and the first zipper is a waterproof zipper. The charging part is connected with the bag body in an opening and closing way through the first zipper, so that the charging part can be conveniently opened or closed. The first zipper is a waterproof zipper, and can play a good waterproof role.

In this specific embodiment, the charging part is disposed on a side surface of the bag body, and an upper end of the charging part is integrally connected with the bag body. Therefore, when the first zipper is pulled open and the charging part is opened to charge the energy accumulator, the charging part can naturally droop to cover the charging position, so that the sunlight can be prevented from irradiating the energy accumulator during charging, and the probability that rainwater is sprayed into the accommodating cavity of the energy accumulator can be reduced during raining.

One end of the heat dissipation part 5 is integrally connected with the bag body, and a second opening seam is arranged between the other ends and the bag body; the heat-insulating waterproof bag of the energy accumulator further comprises a second zipper 51 which is arranged at the second opening seam and can be opened and closed to connect the heat dissipation part and the bag body, and the second zipper is a waterproof zipper.

The radiating part is connected with the bag body in an opening and closing way by arranging the second zipper, so that the radiating part can be conveniently opened or closed. The second zipper is a waterproof zipper, and can play a good waterproof role.

In this embodiment, the heat dissipation part 5 is disposed on a side surface of the bag body, and the lower end of the heat dissipation part is integrally connected with the bag body. Therefore, the second zipper is opened, and when the heat dissipation part is opened, the heat dissipation part naturally sags, and the heat dissipation part is fully opened to expose the heat dissipation position, so that heat dissipation is facilitated.

In this specific embodiment, the bag body 1 is further provided with an openable electric output part 6, one end of the electric output part 6 is integrally connected with the bag body, and a third opening seam is formed between the other ends and the bag body; the energy accumulator heat-insulating waterproof bag further comprises a third zipper 61 which is arranged at the third opening seam and can be opened and closed to connect the electric output part and the bag body; the third zipper is a waterproof zipper.

The third zipper is arranged to enable the radiating part to be connected with the bag body in an opening and closing way, so that the electric output part can be conveniently opened or closed. The third zipper is a waterproof zipper, and can play a good waterproof role.

In this specific embodiment, the electric output part is disposed on a side surface of the bag body, and an upper end of the electric output part is integrally connected with the bag body. Therefore, when the third zipper is opened and the electric output part is powered on, the electric output part can naturally droop to cover the electric output position, so that the sunlight can be prevented from irradiating the energy accumulator during charging, and the probability that rainwater is sprayed into the accommodating cavity of the energy accumulator can be reduced during raining.

The first opening seam, the second opening seam, the third opening seam and the fourth opening seam are all cut on the bag body.

In this specific embodiment, the heat-insulating waterproof bag for an energy storage further includes an energy storage 2 accommodated in the accommodating cavity of the energy storage, a charging port 21, an electric output interface 22 and a heat dissipation port 23 are arranged on the energy storage 2, the charging port is arranged opposite to the charging portion, the electric output interface is arranged opposite to the electric output portion, and the heat dissipation port is arranged opposite to the heat dissipation portion; the heat dissipation port comprises two heat dissipation parts which are respectively arranged on two opposite sides of the energy accumulator, and the heat dissipation parts comprise two heat dissipation parts which are respectively arranged on two opposite sides of the bag body.

The electrical output interface 22 may have a plurality of output ports including a DC output port and an AC output port.

In this embodiment, the charging port is disposed on the front side of the energy storage device, the electric output port is disposed on the front side and the right side of the energy storage device, the dc output port is disposed on the front side of the energy storage device, the ac output port is disposed on the right side of the energy storage device, the heat dissipation port is disposed on the left and right sides of the energy storage device, the charging portion is disposed on the right side of the bag body, the electric output portion is disposed on the front side of the bag body, and the heat dissipation portion is disposed on the left and right sides of the bag body. The first opening seam, the second opening seam, the third opening seam and the fourth opening seam are all U-shaped.

The bag body is internally provided with the energy accumulator accommodating cavity for accommodating the energy accumulator, and is made of heat-insulating waterproof materials. Therefore, the solar energy storage device can be prevented from being excessively high due to direct irradiation of the sun in sunny days, and can be prevented from being wetted by rainwater in rainy days, so that the risk that the energy storage device is damaged outdoors is effectively avoided. In addition, be provided with opening part, charging portion and the radiating portion that can open and shut on the inclusion, opening part, charging portion or radiating portion open time the energy storage holding chamber communicates with each other with the external world, opening part, charging portion and radiating portion close time, the energy storage holding chamber is closed. Thereby accessible opening part that opens and shuts, put into or take out the energy storage, through opening the portion of charging, external solar energy charges to the energy storage, opens the radiating part, can dispel the heat to the energy storage when charging or the energy storage temperature is higher, can make the energy storage close in the energy storage holding intracavity again behind closed opening part, the portion of charging and the radiating part, it is more convenient to use.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (10)

1. The utility model provides an energy storage ware thermal-insulated waterproof package, includes inclusion and locates the interior energy storage ware holding chamber of inclusion, its characterized in that: the bag body is made of heat-insulating waterproof materials; the bag body is provided with an opening part capable of opening and closing, a charging part capable of opening and closing and a heat dissipation part capable of opening and closing, the energy storage accommodating cavity is communicated with the outside when the opening part, the charging part or the heat dissipation part is opened, and the energy storage accommodating cavity is closed when the opening part, the charging part and the heat dissipation part are closed.

2. The heat-insulating waterproof pack for an energy accumulator according to claim 1, wherein: one end of the charging part is integrally connected with the bag body, and a first opening seam is arranged between the other ends and the bag body; the energy accumulator heat-insulating waterproof bag further comprises a first zipper which is arranged at the first opening seam and can be opened and closed to connect the charging part with the bag body, and the first zipper is a waterproof zipper.

3. The heat-insulating waterproof pack for an accumulator according to claim 2, wherein: the charging part is arranged on the side face of the bag body, and the upper end of the charging part is integrally connected with the bag body.

4. The heat-insulating waterproof pack for an energy accumulator according to claim 1, wherein: one end of the heat dissipation part is integrally connected with the bag body, and a second opening seam is arranged between the other ends and the bag body; the heat-insulating waterproof bag of the energy accumulator further comprises a second zipper which is arranged at the second opening seam and can be opened and closed to connect the radiating part and the bag body, and the second zipper is a waterproof zipper.

5. The heat-insulating waterproof pack for an accumulator according to claim 4, wherein: the heat dissipation part is arranged on the side face of the bag body, and the lower end of the heat dissipation part is integrally connected with the bag body.

6. The heat-insulating waterproof pack for an energy accumulator according to claim 1, wherein: the bag body is also provided with an openable electric output part, one end of the electric output part is integrally connected with the bag body, and a third opening seam is arranged between the other ends and the bag body; the energy accumulator heat-insulating waterproof bag further comprises a third zipper which is arranged at the third opening seam and can be opened and closed to connect the electric output part and the bag body; the third zipper is a waterproof zipper.

7. The heat-insulating waterproof pack for an accumulator according to claim 6, wherein: the electric output part is arranged on the side surface of the bag body, and the upper end of the electric output part is integrally connected with the bag body.

8. The heat-insulating waterproof pack for an energy accumulator according to claim 1, wherein: one end of the opening part is integrally connected with the bag body, and a fourth opening seam is arranged between the other ends and the bag body; the heat-insulating waterproof bag of the energy accumulator further comprises a fourth zipper which is arranged at the position of the fourth opening seam and can be opened and closed to connect the opening part with the bag body, the opening part is arranged at the upper end of the bag body, the rear end of the opening part is integrally connected with the bag body, and the fourth zipper is a waterproof zipper.

9. The heat-insulating waterproof pack for an energy accumulator according to claim 1, wherein: the heat-insulating waterproof material comprises a waterproof nylon cloth layer, a pressure-sensitive adhesive layer, an aerogel layer and a PET layer which are sequentially arranged from outside to inside.

10. The heat-insulating waterproof pack for an accumulator according to claim 6, wherein: the heat-insulating waterproof bag of the energy accumulator further comprises the energy accumulator accommodated in the accommodating cavity of the energy accumulator, a charging port, an electric output interface and a heat dissipation port are arranged on the energy accumulator, the charging port is arranged opposite to the charging part, the electric output interface is arranged opposite to the electric output part, and the heat dissipation port is arranged opposite to the heat dissipation part; the heat dissipation port comprises two heat dissipation parts which are respectively arranged on two opposite sides of the energy accumulator, and the heat dissipation parts comprise two heat dissipation parts which are respectively arranged on two opposite sides of the bag body.

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