CN220984734U - Energy storage cabinet - Google Patents

Abstract

The utility model discloses an energy storage cabinet, which comprises a cabinet body, a top wall, a bottom wall and side walls, wherein the top wall and the bottom wall are arranged along the height direction of the cabinet body, the side walls are arranged along the circumferential direction of the cabinet body, the top wall, the bottom wall and the side walls jointly define a containing cavity, and the cabinet body further comprises: the partition plate is arranged in the accommodating cavity and is arranged along the height direction, the accommodating cavity is divided into a first cavity and a second cavity, the first cavity is used for accommodating the battery unit, the second cavity is used for accommodating the electrical control equipment, and the electrical control equipment is arranged on the partition plate; the first chamber and the second chamber are provided with a plurality of door opening structures.

Description

Energy storage cabinet

Technical Field

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

Background

At present, the application scenes of the energy storage system are mainly divided into two types, namely a large-scale energy storage system at a station level, which is generally wind power, photovoltaic power generation and the like, and a large-scale container energy storage system with standard size is configured. The outdoor cabinet energy storage system (namely the energy storage outdoor cabinet) can take industrial and commercial energy storage application scenes into consideration, the single cabinet is small in capacity, the market size is not uniform, the transportation cost is relatively high, the energy storage system is flexible, the small energy storage requirement occasions are met, and meanwhile, multiple energy storage application sites can be covered by multiple machines. Because the single cabinet capacity of the energy storage outdoor cabinet is smaller, how to design the energy storage outdoor cabinet with more reasonable and compact space layout and longer service life is a problem to be solved urgently by the technicians in the field.

Disclosure of Invention

The scheme provides an energy storage cabinet to the problem and the demand that put forward above, and the overall arrangement is compact, and different grade type devices separate and place, have reduced the possibility of device mutual interference, and the energy storage cabinet is many structures of opening the door, be convenient for installation, maintenance.

The utility model provides an energy storage cabinet which comprises a cabinet body, a top wall, a bottom wall and side walls, wherein the top wall and the bottom wall are arranged along the height direction of the cabinet body, and the side walls are arranged in the circumferential direction of the cabinet body in a surrounding mode, and the top wall, the bottom wall and the side walls jointly define a containing cavity.

The cabinet body also includes: the partition plate is arranged in the accommodating cavity and is arranged along the height direction, the accommodating cavity is divided into a first cavity and a second cavity, the first cavity is used for accommodating the battery unit, the second cavity is used for accommodating the electrical control equipment, and the electrical control equipment is arranged on the partition plate; the first chamber and the second chamber are provided with a plurality of door opening structures.

According to the energy storage cabinet provided by the embodiment of the utility model, the energy storage cabinet is divided into two chambers through the partition board, one chamber is used for placing the battery, the other chamber is used for placing the electric control equipment, and different types of devices are separately placed, so that the possibility of mutual interference of the devices is reduced, and the layout is compact. Simultaneously, each cavity is many structures that open the door, and installation and maintenance are all comparatively convenient.

In addition, the energy storage cabinet provided by the utility model can also have the following technical characteristics:

In one example of the present utility model, surrounding the sidewall forming the first chamber includes: the side plate, the first door plate, the second door plate and the partition plate;

the first door plate and the second door plate are oppositely arranged;

The side plates are arranged opposite to the partition plates, one side of each side plate is connected with the first door plate, and the other side of each side plate is connected with the second door plate.

In one example of the present utility model, the side wall of the second chamber is surrounded by three door panels and the partition plate.

In one example of the present utility model, the first top wall is covered on the top end of the cabinet body;

The second top wall is arranged on the first top wall in a ledge mode; and a heat preservation layer is filled between the second top wall and the first top wall.

In one example of the present utility model, the second top wall is a pitched roof structure.

In one example of the present utility model, a fire protection system is also included;

the fire tube of the fire protection system is arranged on the second door plate.

In one example of the present utility model,

A first venting assembly in communication with the first chamber configured to vent hydrogen gas from within the first chamber and to regulate a temperature of the first chamber;

Wherein the first ventilation assembly comprises:

The hydrogen discharging fan, the air conditioner and the pressure relief opening are communicated with the first chamber, the hydrogen discharging fan is configured to discharge hydrogen in the first chamber, the air conditioner is configured to adjust the temperature of the first chamber, and the pressure relief opening is configured to adjust the pressure of the first chamber;

a second venting assembly in communication with the second chamber configured to regulate a temperature of the second chamber;

Wherein the second ventilation assembly comprises:

and the plurality of ventilation fences are communicated with the second chamber and are configured to regulate the temperature of the second chamber.

In one example of the present utility model, the electrical control apparatus includes: the energy storage converter and the uninterrupted power source are sequentially arranged from top to bottom, and the energy storage converter is at least arranged opposite to one ventilation fence.

In one example of the utility model, a protection cover plate is arranged at a cable interface of the energy storage converter, and a handle is arranged on the outer wall of the protection cover plate.

In one example of the present utility model, the energy storage cabinet further includes: the lifting rings comprise a plurality of lifting rings and are fixedly connected to the top wall.

Preferred embodiments for carrying out the present utility model will be described in more detail below with reference to the attached drawings so that the features and advantages of the present utility model can be easily understood.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present utility model, the following description will briefly explain the drawings of the embodiments of the present utility model. Wherein the showings are for the purpose of illustrating some embodiments of the utility model only and not for the purpose of limiting the same.

Fig. 1 is a front view of an energy storage cabinet according to an embodiment of the utility model;

FIG. 2 is a rear view of an energy storage cabinet according to an embodiment of the utility model;

FIG. 3 is a perspective view of an energy storage cabinet according to an embodiment of the utility model;

fig. 4 is a perspective view (with side walls removed) of an energy storage cabinet according to an embodiment of the utility model.

List of reference numerals:

An energy storage cabinet 1000;

A cabinet 100; a top wall 110; a first plate portion 111; a second plate portion 112; a bottom wall 120; a sidewall 130; a first door panel 131; a second door panel 132; a side plate 133; a partition 140;

A first ventilation assembly 200; a hydrogen discharge blower 210; an air conditioner 220; pressure relief vent 230;

a second venting assembly 300; a ventilation fence 310;

a hanging ring 400;

An electrical control device 500; an energy storage converter 510; an uninterruptible power supply 520;

and a battery cell 600.

Detailed Description

In order to make the objects, technical solutions and advantages of the technical solutions of the present utility model more clear, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings of specific embodiments of the present utility model. Like reference numerals in the drawings denote like parts. It should be noted that the described embodiments are some, but not all embodiments of the present utility model. All other embodiments, which can be made by a person skilled in the art without creative efforts, based on the described embodiments of the present utility model fall within the protection scope of the present utility model.

Unless defined otherwise, technical or scientific terms used herein should be given the ordinary meaning as understood by one of ordinary skill in the art to which this utility model belongs. The terms "first," "second," and the like in the description and in the claims, are not used for any order, quantity, or importance, but are used for distinguishing between different elements. Likewise, the terms "a" or "an" and the like do not necessarily denote a limitation of quantity. The word "comprising" or "comprises", and the like, means that elements or items preceding the word are included in the element or item listed after the word and equivalents thereof, but does not exclude other elements or items. The terms "connected" or "connected," and the like, are not limited to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", etc. are used merely to indicate relative positional relationships, which may also be changed when the absolute position of the object to be described is changed.

An energy storage cabinet 1000 according to the present utility model, as shown in fig. 1 to 4, comprises a cabinet body 100 having a top wall 110 and a bottom wall 120 arranged in a height direction and a side wall 130 arranged between the top wall 110 and the bottom wall 120 and along a circumferential direction, wherein the top wall 110, the bottom wall 120 and the side wall 130 together define a receiving cavity.

In this embodiment, the cabinet body 100 is in a rectangular frame form, and the energy storage cabinet 1000 further includes: a partition plate 140 disposed in the receiving chamber and arranged in a height direction to divide the receiving chamber into a first chamber for receiving the battery cell 600 and a second chamber for receiving the electric control apparatus 500, and the electric control apparatus 500 is mounted on the partition plate 140;

in this embodiment, the first chamber and the second chamber have a plurality of door opening structures.

The energy storage cabinet 1000 further includes:

a first ventilation assembly 200 in communication with the first chamber and configured to regulate the temperature of the first chamber to cool the battery;

A second venting assembly 300, in communication with the second chamber, is configured to regulate the temperature of the second chamber.

That is, the energy storage cabinet 1000 divides the accommodating cavity into the first cavity and the second cavity through the partition 140, wherein the battery unit 600 is arranged in the first cavity, the electric control device 500 is installed on the partition 140 in the first cavity, the installation and the arrangement of the electric control device 500 can be facilitated, and the maintenance and the installation can be facilitated by arranging a plurality of door opening structures on the first cavity and the second cavity; the design makes the single cabinet space layout of the energy storage cabinet 1000 more reasonable, more compact and longer in service life.

Preferably, the electrical control device 500 is hung on the partition 140, for example, in both the electrical control device 500 and the partition 140, one of them is provided with a hook, and the other is provided with a hanging hole adapted to the hook.

In one example of the present utility model, surrounding the sidewall forming the first chamber includes: a side plate 133, a first door plate 131, a second door plate 132, and the partition;

The first door panel 131 and the second door panel 132 are oppositely arranged;

the side plates are arranged opposite to the partition plates, one side of each side plate is connected with the first door plate 131, and the other side of each side plate is connected with the second door plate 132;

The door opening structure of the first chamber is increased by arranging the first door plate 131 and the second door plate 132 on two sides of the cabinet body 100, so that the door can be opened both front and back of the first chamber, and the installation and maintenance of the internal devices of the energy storage cabinet are facilitated.

In one example of the present utility model, the side wall of the second chamber is surrounded by three door panels and the partition plate;

similar to the first cavity, the lateral wall of second cavity sets up three door plant, has increased the structure of opening the door of second cavity, and the three side of second cavity all can open the door, is convenient for further to the installation and the maintenance of energy storage cabinet internal device.

In one example of the present utility model, the first top wall connection cover is disposed at the top end of the cabinet;

The second top wall is arranged on the first top wall in a ledge mode; and a heat preservation layer is filled between the second top wall and the first top wall.

Through two-layer roof and setting up heat preservation cotton, can play well heat preservation effect to holding the intracavity portion.

In one example of the present utility model, the second top wall is a pitched roof structure;

For example, the second top wall includes two plate structures (herringbone inclined top) that present obtuse angles between each other, so when the top wall 110 is mounted on the energy storage cabinet 1000, the middle protrusion, the inclined states of two sides can be presented, the pouring of rainwater is facilitated, and the effects of heat insulation outside the cabinet and heat preservation inside the cabinet can be further improved.

In one example of the present utility model, a fire protection system is also included;

the fire tube of the fire protection system is arranged on the second door plate 132;

through set up fire tube on second door plant 132, play fire control's effect to the battery cell of placing in first cavity, improved the security of energy storage cabinet.

In one example of the present utility model,

A first venting assembly 200 in communication with the first chamber and configured to vent hydrogen from within the first chamber and to regulate the temperature of the first chamber;

wherein the first ventilation assembly 200 comprises:

the hydrogen discharging fan 210, the air conditioner 220 and the pressure relief port 230 are all communicated with the first chamber, the hydrogen discharging fan 210 is configured to discharge hydrogen in the first chamber, the air conditioner 220 is configured to adjust the temperature of the first chamber, and the pressure relief port 230 is configured to adjust the pressure of the first chamber;

Specifically, the sidewall 130 of the first chamber includes: a side plate 133, a first door plate 131 and a partition plate 140, wherein the side plate 133 and the partition plate 140 are disposed opposite to each other, and the first door plate 131 includes two and is disposed opposite to each other between the partition plate 140 and the side plate 133; the hydrogen discharging fan 210 is installed on the first door panel 131 at the rear end, the pressure relief opening 230 and the air conditioner 220 are installed on the first door panel 131 at the front end, and the adjustment of hydrogen, temperature and pressure in the first chamber is realized through the structure.

A second venting assembly 300 in communication with the second chamber and configured to regulate a temperature of the second chamber;

wherein the second ventilation assembly 300 comprises:

A plurality of ventilation bars 310, each of the plurality of ventilation bars 310 being in communication with the second chamber and configured to regulate a temperature of the second chamber;

The second chamber may be communicated with the outside by providing a plurality of ventilation bars 310, thereby facilitating the outward discharge of heat in the second chamber.

As can be seen from the above description, the first chamber and the second chamber are respectively provided with an independent ventilation assembly (the first ventilation assembly 200 and the second ventilation assembly 300), so that each chamber in the energy storage cabinet can be ventilated and cooled independently.

In one example of the present utility model, the electrical control apparatus 500 includes: the energy storage converter 510 and the uninterruptible power supply 520 are sequentially arranged from top to bottom, wherein the energy storage converter 510 is at least opposite to one of the ventilation bars 310;

Positioning the energy storage converter 510 opposite the ventilation fence 310 may facilitate cooling of the energy storage converter 510.

In one example of the present utility model, a protection cover plate is disposed at the cable interface of the energy storage converter 510, and a handle is disposed on the outer wall of the protection cover plate;

The cable interface can be protected by arranging the protective cover plate, so that the working safety of the energy storage converter is improved; and the handle is arranged on the protective cover plate, so that the wiring operation at the cable interface is also facilitated.

In one example of the present utility model, the second ventilation assembly 300 includes:

a plurality of ventilation bars 310, a plurality of the ventilation bars 310 being disposed on the second door panel 132 and configured to regulate a temperature of the second chamber;

for example, at least one of the ventilation bars 310 is provided on the second door panel 132 at the front end, and the remaining ventilation bars 310 are provided on the second door panel 132 at the rear end.

In one example of the present utility model, the energy storage cabinet 1000 further includes: the hanging ring 400 comprises a plurality of hanging rings 400 and is fixedly connected to the top wall; for example, the lifting rings 400 include four, and one lifting ring 400 is disposed at each of four corners of the top wall 110, such that transportation and movement of the energy storage cabinet 1000 may be facilitated by the provision of the lifting rings 400.

While the exemplary embodiments of the energy storage cabinet according to the present utility model have been described in detail with reference to the preferred embodiments, it will be understood by those skilled in the art that various modifications and adaptations may be made to the specific embodiments described above and that various combinations of the technical features and structures may be made without departing from the scope of the utility model, which is defined in the appended claims.

Claims (10)

1. An energy storage cabinet comprises a cabinet body (100), a top wall (110) and a bottom wall (120) which are arranged along the height direction of the cabinet body (100) and a side wall (130) which is arranged around the circumferential direction of the cabinet body (100), wherein the top wall (110), the bottom wall (120) and the side wall (130) jointly define a containing cavity,

It is characterized in that the method comprises the steps of,

The cabinet (100) further comprises: a partition plate (140) provided in the accommodation chamber and arranged in the height direction, dividing the accommodation chamber into a first chamber for accommodating the battery unit (600) and a second chamber for accommodating the electrical control device (500), and the electrical control device (500) is mounted on the partition plate (140);

The first chamber and the second chamber are provided with a plurality of door opening structures.

2. The energy storage cabinet of claim 1, wherein the side wall surrounding the first chamber comprises: a side plate (133), a first door plate (131), a second door plate (132), and the partition plate;

the first door plate (131) and the second door plate (132) are oppositely arranged;

The side plates are arranged opposite to the partition plates, one side of each side plate is connected with the first door plate (131), and the other side of each side plate is connected with the second door plate.

3. The energy storage cabinet of claim 1 or 2, wherein the side wall of the second chamber is surrounded by three door panels and the partition.

4. The energy storage cabinet of claim 1, wherein the top wall comprises: a first top wall, a second top wall;

The first top wall is covered at the top end of the cabinet body;

The second top wall is arranged on the first top wall in a ledge mode; and a heat preservation layer is filled between the second top wall and the first top wall.

5. The energy storage cabinet of claim 4, wherein the second top wall is a pitched roof structure.

6. The energy storage cabinet of claim 2, further comprising a fire protection system;

the fire tube of the fire protection system is arranged on the second door plate (132).

7. The energy storage cabinet of claim 1, further comprising:

A first venting assembly (200) in communication with the first chamber and configured to vent hydrogen from within the first chamber and to regulate a temperature of the first chamber;

wherein the first ventilation assembly (200) comprises:

The hydrogen discharging fan (210), the air conditioner (220) and the pressure relief opening (230) are communicated with the first chamber, the hydrogen discharging fan (210) is configured to discharge hydrogen in the first chamber, the air conditioner (220) is configured to adjust the temperature of the first chamber, and the pressure relief opening (230) is configured to adjust the pressure of the first chamber;

A second venting assembly (300) in communication with the second chamber and configured to regulate a temperature of the second chamber;

Wherein the second ventilation assembly (300) comprises:

A plurality of ventilation bars (310), a plurality of the ventilation bars (310) are in communication with the second chamber and configured to regulate the temperature of the second chamber.

8. The energy storage cabinet of claim 7, wherein,

The electrical control device (500) comprises: the energy storage converter (510) and the uninterruptible power supply (520) are sequentially arranged from top to bottom, and the energy storage converter (510) and the uninterruptible power supply (520) are arranged opposite to at least one ventilation fence (310).

9. The energy storage cabinet according to claim 8, wherein a protection cover plate is arranged at a cable interface of the energy storage converter (510), and a handle is arranged on the outer wall of the protection cover plate.

10. The energy storage cabinet of claim 1, wherein the energy storage cabinet comprises a cabinet body,

The energy storage cabinet further comprises: the lifting rings (400) are arranged, and the lifting rings (400) comprise a plurality of lifting rings and are fixedly connected to the top wall.