CN220273384U - Energy storage cabinet - Google Patents

Abstract

The utility model relates to the technical field of outdoor energy storage, in particular to an energy storage cabinet, which comprises a cabinet body provided with a containing cavity, wherein an energy storage battery is arranged at the lower part of the containing cavity, an inverter which is arranged at intervals with the energy storage battery is arranged at the upper part of the containing cavity, a first ventilation opening which is communicated with the containing cavity is arranged at the lower part of the cabinet body corresponding to the containing cavity, and a first baffle plate for closing or opening the first ventilation opening is arranged on the cabinet body; the upper part of the cabinet body corresponding to the accommodating cavity is provided with a second air vent communicated with the accommodating cavity, the cabinet body is provided with a second baffle plate for closing or opening the second air vent, and the accommodating cavity is internally provided with an electric fan which is opposite to the second air vent and can rotate forward or reverse; in summer, the first ventilation opening and the second ventilation opening are opened, and the electric fan is reversed to blow air towards the outer side of the second ventilation opening, so that heat dissipation is realized; and in winter, the first ventilation opening and the second ventilation opening are closed, so that the electric fan rotates forward to blow air to the inverter, and the energy storage battery is heated by utilizing heat generated by the inverter.

Description

Energy storage cabinet

Technical Field

The utility model relates to the technical field of outdoor energy storage, in particular to an energy storage cabinet.

Background

The energy storage system is an essential basic measure for the development of micro-grid, island grid, distributed power generation system and new energy automobile rapid charging technology. The energy storage system is applied to the power system, so that the management on the demand side, peak clipping and valley filling, smooth load and rapid adjustment of the frequency of the power grid are realized, the running stability and reliability of the power grid are improved, and the impact of a new energy power generation system with large instantaneous change such as photovoltaic, wind power and the like on the power grid is reduced. The energy storage system needs to use an energy storage cabinet which is arranged outdoors; for the region with distinct four seasons, the environmental temperature in summer is higher, and the cabinet is required to have better heat dissipation, so that heat generated in the operation process of the inverter can be rapidly dissipated to the outside of the energy storage cabinet, and the combustion or explosion of the energy storage battery is avoided; the temperature in winter is lower, the battery core temperature of the lithium energy storage battery is lower than 0 ℃ and can not charge the energy storage battery, and the energy storage battery can not discharge below-10 ℃, so that a cabinet is required to have better heat preservation or temperature rising performance so as to ensure that the lithium energy storage battery can work normally.

The existing energy storage cabinet has good heat dissipation performance or good heat preservation performance, and is difficult to meet the requirements of winter heat preservation and summer heat dissipation.

Disclosure of Invention

The technical problems to be solved by the utility model are as follows: the existing energy storage cabinet has good heat dissipation performance or good heat preservation performance, and is difficult to meet the requirements of winter heat preservation and summer heat dissipation.

In order to solve the technical problems, the utility model aims to provide an energy storage cabinet, which comprises a cabinet body provided with a containing cavity, wherein an energy storage battery is arranged at the lower part of the containing cavity, an inverter which is arranged at intervals with the energy storage battery is arranged at the upper part of the containing cavity, a first ventilation opening which is communicated with the containing cavity is arranged at the lower part of the cabinet body corresponding to the containing cavity, and a first baffle plate which is used for closing or opening the first ventilation opening is arranged at the cabinet body;

the cabinet body corresponds the upper portion of holding chamber be equipped with the second vent of holding chamber intercommunication, the cabinet body is equipped with and is used for closing or open the second baffle of second vent, be equipped with in the holding chamber with the electric fan that the second vent is relative and can corotation or reversal.

As a preferable scheme, the first baffle is connected to the inner side of the side wall of the cabinet body in a sliding guiding manner, a first electric push rod is fixed to the inner side of the side wall of the cabinet body, and the telescopic end of the first electric push rod is fixedly connected with the first baffle to drive the first baffle to move, so that the first baffle closes or opens the first ventilation opening;

the second baffle is connected to the inner side of the top wall of the cabinet body in a sliding guiding manner, a second electric push rod is fixed to the inner side of the top wall of the cabinet body, and the telescopic end of the second electric push rod is fixedly connected with the second baffle to drive the second baffle to move so that the second baffle closes or opens the second ventilation opening.

As a preferred scheme, the energy storage cabinet comprises a controller and a temperature sensor arranged in the accommodating cavity, and the temperature sensor, the first electric push rod and the second electric push rod are all electrically connected with the controller.

Preferably, the temperature sensor is disposed at a lower portion of the accommodating chamber.

As a preferable scheme, a fixing frame is arranged at the inner side of the cabinet body and used for installing the electric fan, and the electric fan is positioned at one side of the second baffle plate, which is away from the second air vent.

As a preferable scheme, a first limiting plate and a second limiting plate which are arranged corresponding to the first baffle are arranged on the inner side of the side wall of the cabinet body, and the first baffle is in sliding fit with the first limiting plate and the second limiting plate; the first electric push rod is arranged in parallel with the first limiting plate, and the telescopic end of the first electric push rod is connected with the first baffle plate so as to drive the first baffle plate to slide along the length direction of the first limiting plate and the second limiting plate.

Preferably, the first baffle is provided with a first connecting part protruding towards the inner side of the accommodating cavity, and the telescopic end of the first electric push rod is connected with the first connecting part.

As a preferable scheme, a third limiting plate and a fourth limiting plate are arranged on the inner side of the top wall of the cabinet body corresponding to the second baffle, and the second baffle is in sliding fit with the third limiting plate and the fourth limiting plate; the second electric push rod is arranged in parallel with the third limiting plate, and the telescopic end of the second electric push rod is connected with the second baffle plate so as to drive the second baffle plate to slide along the length direction of the third limiting plate and the fourth limiting plate.

Preferably, the second baffle is provided with a second connecting part protruding towards the inner side of the accommodating cavity, and the telescopic end of the second electric push rod is connected with the second connecting part.

As the preferable scheme, the first ventilation openings are arranged in two, the two first ventilation openings are respectively arranged at the left side wall and the right side wall of the cabinet body, and the first baffle is arranged at the left side wall and the right side wall of the cabinet body.

Compared with the prior art, the utility model has the beneficial effects that:

the energy storage cabinet comprises a cabinet body provided with a containing cavity, wherein an energy storage battery is arranged at the lower part of the containing cavity, an inverter which is arranged at intervals with the energy storage battery is arranged at the upper part of the containing cavity, a first ventilation opening which is communicated with the containing cavity is arranged at the lower part of the cabinet body corresponding to the containing cavity, and a first baffle plate which is used for closing or opening the first ventilation opening is arranged on the cabinet body; the upper part of the cabinet body corresponding to the accommodating cavity is provided with a second air vent communicated with the accommodating cavity, the cabinet body is provided with a second baffle plate for closing or opening the second air vent, and the accommodating cavity is internally provided with an electric fan which is opposite to the second air vent and can rotate forward or reverse; when the temperature in summer is higher, the first ventilation opening and the second ventilation opening are opened, the electric fan blows air towards the outer side of the second ventilation opening, negative pressure is generated at the upper part of the accommodating cavity, external air flows to the electric fan from the first ventilation opening and flows out of the second ventilation opening under the action of the negative pressure, so that the temperature in the accommodating cavity is reduced, and as hot air naturally floats upwards, the inverter is arranged at the upper part of the accommodating cavity, and the flow quantity of hot air generated by the inverter to the energy storage battery below the inverter can be reduced; when the temperature in winter is lower, the first ventilation opening and the second ventilation opening are closed, external air can be prevented from entering the accommodating cavity, the electric fan is turned on to enable the electric fan to blow towards the inverter, heat generated in the operation process of the inverter in the accommodating cavity can be accelerated to be conducted to the energy storage battery, and the energy storage battery is heated by the heat generated by the inverter, so that the energy storage cabinet disclosed by the utility model can meet the requirements of heat preservation in winter and heat dissipation in summer.

Drawings

FIG. 1 is a schematic diagram of an energy storage cabinet according to the present utility model;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

FIG. 3 is a right side view of FIG. 2;

in the figure, 1, a cabinet body; 11. a first vent; 2. an energy storage battery; 3. an inverter; 4. a first baffle; 41. a first connection portion; 5. an electric fan; 6. a first electrical push rod; 71. a first limiting plate; 711. a first limit part; 72. a second limiting plate; 721. a second limit part; 8. a fixing seat.

Detailed Description

The following describes in further detail the embodiments of the present utility model with reference to the drawings and examples. The following examples are illustrative of the utility model and are not intended to limit the scope of the utility model.

In the description of the present utility model, it should be understood that the directions or positional relationships indicated by the terms "upper", "lower", "left", "right", "top", "bottom", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present utility model. It should be understood that the terms "first," "second," and the like are used herein to describe various information, but such information should not be limited to these terms, which are used merely to distinguish one type of information from another. For example, a "first" message may also be referred to as a "second" message, and similarly, a "second" message may also be referred to as a "first" message, without departing from the scope of the utility model.

As shown in fig. 1 to 3, a preferred embodiment of an energy storage cabinet of the present utility model includes a cabinet body 1 provided with a containing cavity, wherein an energy storage battery 2 is provided at a lower portion of the containing cavity, an inverter 3 spaced from the energy storage battery 2 is provided at an upper portion of the containing cavity, a first ventilation opening 11 communicated with the containing cavity is provided at a lower portion of the cabinet body 1 corresponding to the containing cavity, and a first baffle 4 for closing or opening the first ventilation opening 11 is provided at the cabinet body 1; the upper part of the cabinet body 1 corresponding to the accommodating cavity is provided with a second air vent communicated with the accommodating cavity, the cabinet body 1 is provided with a second baffle plate for closing or opening the second air vent, and the accommodating cavity is internally provided with an electric fan 5 which is opposite to the second air vent and can rotate forward or reversely; when the electric fan 5 rotates forward, the air inlet of the electric fan is opposite to the second air inlet.

When the temperature in summer is higher, the first ventilation opening 11 and the second ventilation opening are opened, so that the electric fan 5 is reversed, the reversed electric fan 5 blows air towards the outer side of the second ventilation opening 11, negative pressure is generated at the upper part of the accommodating cavity, and external air flows from the first ventilation opening 11 to the electric fan 5 and flows out of the second ventilation opening under the action of the negative pressure, so that the temperature in the accommodating cavity is reduced; because the hot air naturally floats upwards, the inverter 3 is arranged at the upper part of the accommodating cavity, and the flow quantity of the hot air generated by the inverter 3 to the energy storage battery 2 positioned below the inverter 3 can be reduced; when the temperature in winter is lower, the first ventilation opening 11 and the second ventilation opening are closed, external cold air can be prevented from entering the accommodating cavity, the electric fan 5 is opened to enable the electric fan to rotate positively, the electric fan 5 rotating positively blows towards the inverter 3, heat generated in the operation process of the inverter 3 in the accommodating cavity can be accelerated to be conducted to the energy storage battery 2, the energy storage battery 2 is heated by the heat generated by the inverter 3, extra consumption of electric energy is not needed for heating the energy storage battery 2, or the electric consumption for heating the energy storage battery 2 is reduced, and therefore, the energy storage cabinet disclosed by the utility model can meet the requirements of heat preservation in winter and heat dissipation in summer of the energy storage cabinet. In the actual use process, the heat generated in the operation of the energy storage inverter is used for heating the lithium battery, so that the temperature of the lithium battery can be at least increased by 12-15 ℃, and the problem that the charge and discharge operation cannot be realized when the temperature of the lithium battery in the energy storage integrated cabinet is low is effectively solved. The technology is used for heating the battery, the main energy loss is the running power of the electric fan, and the running power is only about 4.5W, and compared with the heating module arranged in the cabinet, the technology requires 200W to 300W of power, and has remarkable energy saving and consumption reduction effects.

The energy storage battery 2 is a lithium battery, and the first ventilation opening 11 can be arranged on the side wall of the lower part of the cabinet body 1 or can be arranged at the bottom of the cabinet body 1; similarly, the second ventilation opening can be arranged on the side wall of the upper portion of the cabinet body 1, and can also be arranged on the top of the cabinet body 1. The first baffle 4 and the second baffle are arranged in multiple manners, such as being clamped on the outer side of the cabinet body 1, in this embodiment, the first baffle 4 and the second baffle are displayed in the same manner, the first baffle 4 is connected to the inner side of the side wall of the cabinet body 1 in a sliding guiding manner, a first electric push rod 6 is fixed to the inner side of the side wall of the cabinet body 1, and the telescopic end of the first electric push rod 6 is connected with the first baffle 4 to drive the first baffle 4 to move, so that the first baffle 4 closes or opens the first ventilation opening 11; the second baffle is connected to the top wall inboard of the cabinet body 1 in a sliding guide way, and the top wall inboard of the cabinet body 1 is fixed with the second electric push rod, and the flexible end and the second baffle of second electric push rod are connected to drive the second baffle to remove, make the second baffle close or open the second ventilation opening.

Further, the energy storage cabinet comprises a controller and a temperature sensor arranged in the accommodating cavity, and the temperature sensor, the first electric push rod 6 and the second electric push rod are electrically connected with the controller. Specifically, when the detection value of the temperature sensor is lower than a first set temperature, an electric signal is sent to the first electric push rod 6 and the second electric push rod through the controller, so that the first electric push rod 6 pushes the first baffle plate 4 to close the first ventilation opening 11, and the second electric push rod pushes the second baffle plate to close the second ventilation opening; the controller sends an electrical signal to the electric fan 5 to enable the electric fan 5 to rotate forward, and along with the closing of the first ventilation opening 11 and the second ventilation opening and the forward rotation of the electric fan 5, the temperature inside the cabinet body 1 can rise gradually, and the controller controls the electric fan 5 to keep a forward rotation state within a preset time. The controller enters a countdown state, after the preset time is reached, the temperature sensor re-detects the temperature in the cabinet body 1, if the temperature in the cabinet body 1 is still smaller than the first preset temperature, the controller re-counts time, and the electric fan 5 keeps rotating forwards; if the temperature in the cabinet body 1 is higher than the first preset temperature, the controller controls the electric fan 5 to stop rotating, and the first ventilation opening 11 and the second ventilation opening are kept in a closed state; the electric fan 5 is controlled to be started by the controller when the temperature sensor detects that the temperature in the cabinet 1 is lower than the first preset temperature again.

When the temperature sensor detects that the temperature inside the cabinet body 1 is higher than a second set temperature, an electric signal is sent to the first electric push rod 6 and the second electric push rod through the controller, so that the first electric push rod 6 pushes the first baffle plate 4 to open the first ventilation opening 11, and the second electric push rod pushes the second baffle plate to open the second ventilation opening; the controller sends an electric signal to the electric fan 5 to enable the electric fan 5 to rotate reversely, the temperature in the cabinet 1 is reduced along with the starting of the electric fan 5, and the controller controls the electric fan 5 to keep a reverse rotation state within a preset time. The controller enters a countdown state, after the preset time is reached, the temperature sensor re-detects the temperature in the cabinet body 1, if the temperature in the cabinet body 1 is still higher than the second preset temperature, the controller re-counts time, and the electric fan 5 keeps reversing; if the temperature in the cabinet body 1 is smaller than the second preset temperature, the controller controls the electric fan 5 to stop reversing, and the first ventilation opening and the second ventilation opening are kept in an open state; when the temperature sensor detects that the temperature in the cabinet 1 is higher than the first preset temperature again, the electric fan 5 is started under the control of the controller. In this embodiment, the first set temperature is preferably 5 ℃, and the second set temperature is preferably 30 ℃.

Wherein the temperature sensor is arranged at the lower part of the accommodating cavity so as to detect the ambient temperature near the energy storage battery 2.

Specifically, the cabinet body 1 inboard is equipped with the mount, and the mount is used for installing electric fan 5, and electric fan 5 is located one side that the second baffle deviates from the second ventilation opening, and the mount setting is inboard and downwardly extending at the roof of cabinet body 1 in this embodiment, and electric fan 5 is fixed in the lower extreme of mount, and electric fan 5 is located the below of second baffle.

In the embodiment, a first limiting plate 71 and a second limiting plate 72 which are arranged corresponding to a first baffle plate 4 are arranged on the inner side of the side wall of the cabinet body 1, and the first baffle plate 4 is in sliding fit with the first limiting plate 71 and the second limiting plate 72; the first electric push rod 6 is arranged in parallel with the first limiting plate 71, and the telescopic end of the first electric push rod 6 is connected with the first baffle 4 so as to drive the first baffle 4 to slide along the length directions of the first limiting plate 71 and the second limiting plate 72. In the embodiment of the application, the first limiting plate 71 and the second limiting plate 72 are arranged at intervals up and down for example, the first limiting plate 71 and the second limiting plate 72 are arranged in parallel, one end of the first limiting plate 71, which is far away from the side wall of the cabinet body 1, is provided with a first limiting part 711 extending vertically downwards, and a first guide groove with a downward opening is formed between the first limiting part 711 and the side wall of the cabinet body 1 in a surrounding manner; one end of the second limiting plate 72, which is far away from the side wall of the cabinet body 1, is provided with a second limiting part 721 extending vertically upwards, and a second guide groove with an upward opening is formed between the second limiting part 721 and the side wall of the cabinet body 1 in a surrounding manner; the upper end of the first baffle plate 4 is inserted into the first guide groove, and the lower end of the first baffle plate 4 is inserted into the second guide groove; the first electric push rod 6 is arranged along the front-back direction, the telescopic end of the first electric push rod 6 is fixedly connected with the first baffle 4, and the piston rod of the first electric push rod 6 drives the first baffle 4 to slide along the first guide groove when being telescopic. Similarly, the first limiting plate 71 and the second limiting plate 72 may have other structures, and may be slidably connected to the first baffle 4.

The top wall inner side of the cabinet body 1 is provided with a third limiting plate and a fourth limiting plate corresponding to the second ventilation opening, and the embodiment of the application is shown by taking the front-back interval arrangement of the third limiting plate and the fourth limiting plate as an example. One end of the third limiting plate, which is far away from the top wall of the cabinet body 1, is provided with a third limiting part which horizontally extends backwards, and a third limiting groove with a forward opening is formed between the third limiting part and the top wall of the cabinet body 1 in a surrounding manner; one end of the fourth limiting plate, which is far away from the top wall of the cabinet body 1, is provided with a fourth limiting part which extends horizontally and forwards, and a fourth limiting groove with a backward opening is formed between the fourth limiting part and the top wall of the cabinet body 1 in a surrounding manner; the rear end of the second baffle is inserted into the third limit groove, and the front end of the second baffle is inserted into the fourth limit groove; the second electric push rod is arranged in parallel with the third limiting plate, and the telescopic end of the second electric push rod is connected with the second baffle. Similarly, the third limiting plate and the fourth limiting plate can also adopt other structures, and can be in sliding connection with the second baffle.

Specifically, the first baffle 4 is provided with a first connecting portion 41 protruding toward the inner side of the accommodating chamber, and the telescopic end of the first electric push rod 6 is connected with the first connecting portion 41. The second baffle is provided with a second connecting part protruding downwards, and the telescopic end of the second electric push rod is connected with the second connecting part.

As shown in fig. 3, in this embodiment, a fixing seat 8 is welded on an inner side wall of the cabinet body 1, and the first electric push rod 6 is connected to the fixing seat 8. In order to improve the ventilation effect, two first ventilation openings 11 are provided in this embodiment, and the two first ventilation openings 11 are respectively disposed at the left side wall and the right side wall of the cabinet body 1, and the left side wall and the right side wall of the cabinet body 1 are both provided with first baffles 4.

In summary, the preferred embodiment of the energy storage cabinet of the utility model comprises a cabinet body 1 provided with a containing cavity, wherein the lower part of the containing cavity is provided with an energy storage battery 2, the upper part of the containing cavity is provided with an inverter 3 which is arranged at intervals with the energy storage battery 2, the lower part of the cabinet body 1 is provided with a first ventilation opening 11 which is communicated with the lower part of the containing cavity, and the lower part of the cabinet body is provided with a first baffle 4 which can close or open the first ventilation opening 11; the top of the cabinet body 1 is provided with a second air vent communicated with the upper part of the accommodating cavity, the top of the cabinet body 1 is provided with a second baffle plate capable of closing or opening the second air vent, and the accommodating cavity is internally provided with an electric fan 5 which is opposite to the second air vent up and down and can rotate forward or reverse. When the temperature in summer is higher, the first ventilation opening 11 and the second ventilation opening are opened, so that the electric fan 5 is reversed, and the temperature in the accommodating cavity can be reduced; when the temperature in winter is lower, the first ventilation opening 11 and the second ventilation opening are closed, external cold air can be prevented from entering the accommodating cavity, the electric fan 5 is opened to enable the electric fan to rotate forward, and the energy storage battery 2 can be heated by utilizing heat generated by the inverter 3, so that the energy storage cabinet can meet the requirements of winter heat preservation and summer heat dissipation of the energy storage cabinet.

The foregoing is merely a preferred embodiment of the present utility model, and it should be noted that modifications and substitutions can be made by those skilled in the art without departing from the technical principles of the present utility model, and these modifications and substitutions should also be considered as being within the scope of the present utility model.

Claims (10)

1. The energy storage cabinet is characterized by comprising a cabinet body (1) provided with a containing cavity, wherein an energy storage battery (2) is arranged at the lower part of the containing cavity, an inverter (3) which is arranged at intervals with the energy storage battery (2) is arranged at the upper part of the containing cavity, a first ventilation opening (11) which is communicated with the containing cavity is arranged at the lower part of the cabinet body (1) corresponding to the containing cavity, and a first baffle plate (4) for closing or opening the first ventilation opening (11) is arranged on the cabinet body;

the cabinet body (1) is provided with a second air vent corresponding to the upper part of the accommodating cavity and communicated with the accommodating cavity, the cabinet body (1) is provided with a second baffle for closing or opening the second air vent, and an electric fan (5) which is opposite to the second air vent and can rotate forward or reverse is arranged in the accommodating cavity.

2. The energy storage cabinet according to claim 1, wherein the first baffle (4) is slidably connected to the inner side of the side wall of the cabinet body (1), a first electric push rod (6) is fixed to the inner side of the side wall of the cabinet body (1), and a telescopic end of the first electric push rod (6) is fixedly connected with the first baffle (4) so as to drive the first baffle (4) to move, so that the first baffle (4) closes or opens the first ventilation opening (11);

the second baffle is connected to the inner side of the top wall of the cabinet body (1) in a sliding guiding manner, a second electric push rod is fixed to the inner side of the top wall of the cabinet body (1), and the telescopic end of the second electric push rod is fixedly connected with the second baffle to drive the second baffle to move so that the second baffle closes or opens the second ventilation opening.

3. The energy storage cabinet according to claim 2, comprising a controller and a temperature sensor arranged in the receiving cavity, the temperature sensor, the first electrical push rod (6) and the second electrical push rod being electrically connected to the controller.

4. The energy storage cabinet of claim 3, wherein the temperature sensor is disposed in a lower portion of the receiving cavity.

5. The energy storage cabinet according to claim 1, characterized in that a fixing frame is arranged on the inner side of the cabinet body (1), the fixing frame is used for installing the electric fan (5), and the electric fan (5) is located on one side of the second baffle plate, which is away from the second air vent.

6. The energy storage cabinet according to claim 2, wherein a first limiting plate (71) and a second limiting plate (72) which are arranged corresponding to the first baffle plate (4) are arranged on the inner side of the side wall of the cabinet body (1), and the first baffle plate (4) is in sliding fit with the first limiting plate (71) and the second limiting plate (72); the first electric push rod (6) is arranged in parallel with the first limiting plate (71), and the telescopic end of the first electric push rod (6) is connected with the first baffle (4) so as to drive the first baffle (4) to slide along the length direction of the first limiting plate (71) and the second limiting plate (72).

7. The energy storage cabinet according to claim 6, wherein the first baffle (4) is provided with a first connecting portion (41) protruding towards the inner side of the accommodating cavity, and the telescopic end of the first electric push rod (6) is connected with the first connecting portion (41).

8. The energy storage cabinet according to claim 2, wherein a third limiting plate and a fourth limiting plate are arranged on the inner side of the top wall of the cabinet body (1) corresponding to the second baffle plate, and the second baffle plate is in sliding fit with the third limiting plate and the fourth limiting plate; the second electric push rod is arranged in parallel with the third limiting plate, and the telescopic end of the second electric push rod is connected with the second baffle plate so as to drive the second baffle plate to slide along the length direction of the third limiting plate and the fourth limiting plate.

9. The energy storage cabinet of claim 8, wherein the second baffle is provided with a second connection portion protruding toward the inner side of the accommodating cavity, and the telescopic end of the second electric push rod is connected with the second connection portion.

10. Energy storage cabinet according to claim 1, characterized in that two first ventilation openings (11) are provided, two first ventilation openings (11) are respectively arranged at the left side wall and the right side wall of the cabinet body (1), and the first baffle (4) is arranged at the left side wall and the right side wall of the cabinet body (1).