CN219180686U - Energy storage container - Google Patents

Abstract

The utility model provides an energy storage container, which is applied to the technical field of energy storage systems and comprises a main container body, wherein a partition plate is arranged in the main container body to divide the interior of the main container body into a first space and a second space, and a third space is arranged at the top of the second space; the side walls of the main box body, which are positioned in the first space and the second space, are respectively provided with a box door, a fixing frame for storing battery clusters is arranged in the first space, a fire protection system is arranged in the first space, an air conditioner is arranged on the side wall of the first space in an embedded manner, and a second ventilation pipe and a first ventilation pipe are sequentially connected with a wind gap of the air conditioner; a control module, a transformer and a converter are arranged in the second space, and an overhaul box door is arranged on the side wall of the main box body; and a heat exchange fan is arranged in the third space, and a ventilation plate for heat exchange is inlaid and arranged on the side wall of the main box body. The energy storage container can reasonably utilize the inner space of the main box body, improve the integration level of the energy storage module and the ventilation system, and simultaneously improve the ventilation and heat dissipation efficiency.

Description

Energy storage container

Technical Field

The utility model belongs to the technical field of energy storage systems, and particularly relates to an energy storage container.

Background

Energy storage refers to the process of storing energy through a medium or device and releasing it when needed. When analyzing the energy storage process, the part of the object or space that is drawn for determining the object of investigation is called the energy storage system. It includes input and output of energy and substances, conversion of energy and storage devices. Energy storage systems often involve multiple energies, multiple devices, multiple substances, multiple processes, are complex energy systems that change over time, and require multiple indicators to describe their performance.

At present, the integration level of an energy storage module and a ventilation system of the existing energy storage container is not high, the space utilization rate is low, the occupied area of a box body is large, and a special air duct is not designed for cold-hot separation and ventilation and heat dissipation according to a given route, so that the ventilation efficiency is not high.

Disclosure of Invention

In view of the above problems in the prior art, the present utility model aims to provide an energy storage container, which can reasonably utilize the internal space of a main container body, improve the integration level of an energy storage module and a ventilation system, and improve the efficiency of ventilation and heat dissipation.

The energy storage container comprises a main container body, wherein a partition plate is arranged in the main container body, the partition plate divides the interior of the main container body into a first space and a second space, and a third space is arranged at the top of the second space;

the side walls of the main box body, which are positioned in a first space and a second space, are respectively provided with a box door, a fixing frame for storing battery clusters is arranged in the first space, a fire-fighting system is arranged beside the fixing frame in the first space, an air conditioner is arranged on the side wall of the first space in an embedded manner, an air inlet of the air conditioner is connected with a second ventilation pipe, and the other end of the second ventilation pipe is connected with a first ventilation pipe;

a control module, a transformer and a converter are arranged in the second space, and an overhaul box door is arranged at the position of the control module on the side wall of the main box body;

and a heat exchange fan is arranged in the third space, and a ventilation plate for heat exchange is inlaid and arranged on the side wall of the main box body.

In order to avoid the main box body from being moist inside due to contact with the ground, at least one strip-shaped groove is formed in the bottom of the main box body.

In order to avoid safety accidents caused by sharp corners of the main box body, anti-collision corners are respectively arranged at corners of the main box body.

In order to set a ventilation track and improve ventilation and heat dissipation efficiency, the first ventilation pipe and the second ventilation pipe are positioned at the top of the first space, a bearing plate for clamping the second ventilation pipe is arranged in the first space, and at least one supporting rod is further clamped on the bearing plate.

The baffle is provided with the ventilation groove in the position department of first ventilation pipe, first ventilation pipe passes through ventilation groove with first space, second space intercommunication.

The beneficial effects of the utility model are as follows: the energy storage container divides the main box body into two spaces through the partition board, is respectively used for energy storage ventilation and energy storage control, improves the space utilization rate of the main box body, and transmits cold air output by an air conditioner to the first space and the second space by virtue of the first ventilation pipe and the second ventilation pipe, and improves the ventilation and heat dissipation efficiency through a set route; the energy storage ventilation and the energy storage control are separated, the integration level of each system is improved, centralized maintenance of the control module is facilitated, and the working efficiency is improved.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate the utility model and together with the embodiments of the utility model, serve to explain the utility model. In the drawings:

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a spatial layout of the present utility model;

FIG. 3 is a schematic view of the structure of the fixing frame of the present utility model;

FIG. 4 is a schematic view of the structure of the inner top end of the main housing of the present utility model;

fig. 5 is a schematic view of the internal structure of the present utility model.

Marked in the figure as: 100. a first space; 200. a second space; 300. a third space; 1. a main case; 2. a door; 3. air-conditioning; 4. an anti-collision angle; 5. a ventilation board; 6. a groove; 7. a partition plate; 8. a receiving plate; 9. an overhaul box door; 10. a fire protection system; 11. a fixing frame; 12. a battery cluster; 13. a first ventilation pipe; 14. a second ventilation pipe; 15. a heat exchange fan; 16. a support rod; 17. a control module; 18. a transformer; 19. a current transformer.

Detailed Description

Example 1

As shown in fig. 1 and 2, an energy storage container includes a main container body 1, wherein a partition 7 is provided in the main container body 1 to divide the interior of the main container body 1 into a first space 100 and a second space 200, and a third space 300 is provided at the top of the second space 200. In addition, the bottom of the main box body 1 is provided with at least one strip-shaped groove 6, and the corners of the main box body 1 are respectively provided with an anti-collision angle 4.

As shown in fig. 2 and 3, the side walls of the main box body 1 in the first space 100 and the second space 200 are respectively provided with a box door 2, the two box doors 2 are convenient for respectively overhauling and maintaining equipment in the first space 100 and the second space 200, a fixing frame 11 for storing battery clusters 12 is installed in the first space 100, the battery clusters 12 are distributed on the fixing frame 11 in an array manner, a fire protection system 10 is installed at the side of the fixing frame 11 in the first space 100, an air conditioner 3 is installed on the side wall of the first space 100 in an embedded manner, an air port of the air conditioner 3 is connected with a second ventilation pipe 14, and the other end of the second ventilation pipe 14 is connected with a first ventilation pipe 13 for guiding cold air to flow through a route, so that the heat dissipation efficiency is improved.

As shown in fig. 2 and fig. 4, specifically, the first ventilation pipe 13 and the second ventilation pipe 14 are located at the top of the first space 100, a receiving plate 8 for clamping the second ventilation pipe 14 is installed in the first space 100, at least one supporting rod 16 is further clamped on the receiving plate 8, the receiving plate 8 is used for receiving the second ventilation pipe 14, and the second ventilation pipe 14 is erected above the first space 100, so that cold air is convenient to sink.

The baffle 7 is located the position department of first ventilation pipe 13 and is provided with the ventilation groove, first ventilation pipe 13 communicates first space 100, second space 200 through the ventilation groove, sets up the ventilation route through first ventilation pipe 13, second ventilation pipe 14, is favorable to improving ventilation radiating efficiency.

As shown in fig. 5, the second space 200 is provided with a control module 17, a transformer 18 and a converter 19, the side wall of the main box 1 is provided with an access door 9 at the position of the control module 17, the access door 9 is used for daily maintenance of the control module 17, and the working principles of the control module 17, the transformer 18 and the converter 19 are not described in detail herein.

As shown in fig. 2 and 4, the third space 300 is provided with a heat exchange fan 15, and the side wall of the main box 1 is embedded with a ventilation board 5 for heat exchange, so as to facilitate the heat exchange between the inside of the main box 1 and the outside air.

The foregoing description is only a preferred embodiment of the present utility model, and the present utility model is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present utility model has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (5)

1. The energy storage container comprises a main container body (1), and is characterized in that a partition plate (7) is arranged in the main container body (1), the partition plate (7) divides the interior of the main container body (1) into a first space (100) and a second space (200), and a third space (300) is arranged at the top of the second space (200);

the fire-fighting system comprises a main box body (1), a box door (2) is arranged on the side wall of a first space (100) and a second space (200) respectively, a fixing frame (11) for storing battery clusters (12) is installed in the first space (100), a fire-fighting system (10) is installed on the side of the fixing frame (11) in the first space (100), an air conditioner (3) is installed on the side wall of the first space (100) in an inlaid manner, a second ventilation pipe (14) is connected with an air port of the air conditioner (3), and a first ventilation pipe (13) is connected with the other end of the second ventilation pipe (14);

a control module (17), a transformer (18) and a converter (19) are arranged in the second space (200), and an overhaul box door (9) is arranged at the position of the control module (17) on the side wall of the main box body (1);

and a heat exchange fan (15) is arranged in the third space (300), and a ventilation plate (5) for heat exchange is inlaid in the side wall of the main box body (1).

2. Energy storage container according to claim 1, characterized in that the bottom of the main container body (1) is provided with at least one elongated recess (6).

3. Energy storage container according to claim 1, characterized in that the corners of the main container body (1) are provided with anti-collision corners (4), respectively.

4. The energy storage container according to claim 1, wherein the first ventilation pipe (13) and the second ventilation pipe (14) are located at the top of the first space (100), a receiving plate (8) for clamping the second ventilation pipe (14) is installed in the first space (100), and at least one supporting rod (16) is further clamped on the receiving plate (8).

5. The energy storage container according to claim 1, characterized in that the partition (7) is provided with a ventilation slot at the location of the first ventilation tube (13), through which ventilation slot the first ventilation tube (13) communicates the first space (100) with the second space (200).

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