CN109412025B

CN109412025B - Energy storage cabin structure

Info

Publication number: CN109412025B
Application number: CN201811377136.9A
Authority: CN
Inventors: 宁涛; 曹世宏; 胡国昌; 刘剑飞; 张海龙; 徐世华; 王经强; 张灵凌; 刘力
Original assignee: 32181 Troops of PLA
Current assignee: 32181 Troops of PLA
Priority date: 2018-11-19
Filing date: 2018-11-19
Publication date: 2024-03-26
Anticipated expiration: 2038-11-19
Also published as: CN109412025A

Abstract

The invention discloses an energy storage cabin structure, which comprises a box-type cabin body, wherein the cabin body is provided with a front side wall, a rear side wall, a left side wall and a right side wall; the left side wall and the right side wall are respectively provided with an outdoor air inlet shutter and an outdoor air outlet shutter; an air conditioner is arranged on the rear side wall; the front side wall is provided with a converter, a closed housing is arranged outside the converter and used for isolating the converter from other spaces in the cabin, one side of the closed housing is provided with an indoor air inlet shutter, and the other side of the closed housing is provided with an indoor air outlet shutter; and the battery assembly is arranged in the cabin body, is positioned between the air conditioner and the converter and is used for releasing electric energy to external equipment. The energy storage cabin structure adopts air conditioning heating and refrigeration, and can ensure that the temperature inside the cabin body is in a proper working temperature range, so that different climatic conditions can be dealt with, and the influence of over-high or over-low environmental temperature on equipment in the cabin body is avoided.

Description

Energy storage cabin structure

Technical Field

The invention relates to an energy storage cabin structure, and belongs to the technical field of energy storage systems.

Background

The energy storage system is an important component part and a key supporting technology of a smart grid, a micro-grid and renewable energy grid connection. The method plays a role in adjusting various links of a power system source, a network and a load, and is an important means for improving the flexibility, the economy and the safety of the traditional power system.

Conventional energy storage power stations are usually fixed on a certain occasion, and although the conventional energy storage power stations are mostly box-type products, the conventional energy storage power stations are relatively poor in flexibility. In addition, the existing mobile energy storage equipment is mainly used for emergency power supply, has poor environmental adaptability and cannot cope with various climatic conditions.

Disclosure of Invention

The technical problems to be solved by the invention are as follows: overcomes the defects of the prior art and provides an energy storage cabin structure so as to improve the environmental adaptability of the energy storage cabin.

In order to solve the technical problems, the technical scheme of the invention is as follows: an energy storage cabin structure comprises a box-type cabin body, wherein the cabin body is provided with a front side wall, a rear side wall, a left side wall and a right side wall;

the left side wall and the right side wall are respectively provided with an outdoor air inlet shutter and an outdoor air outlet shutter;

an air conditioner is arranged on the rear side wall and is used for heating and refrigerating the interior of the cabin;

the converter is arranged on the front side wall and is closely attached to the inner side surface of the front side wall, a closed housing is arranged outside the converter and is used for isolating the converter from other spaces in the cabin, an indoor air inlet shutter is arranged on one side of the closed housing, an indoor air outlet shutter is arranged on the other side of the closed housing, and the switching between the internal circulation of the converter and the external circulation of the cabin is controlled through the indoor air inlet shutter, the indoor air outlet shutter, the outdoor air inlet shutter and the outdoor air outlet shutter;

and the battery assembly is arranged in the cabin body, is positioned between the air conditioner and the converter and is used for releasing electric energy to external equipment.

Further, an installation and maintenance interface for the converter is reserved on the closed housing, a cover plate is assembled on the installation and maintenance interface, and the cover plate is detachably assembled at the installation and maintenance interface of the closed housing through a bolt.

Further, the air conditioner is mounted on the rear side wall through a flange edge, and the flange edge is located on the outer side of the cabin body.

Further, the battery pack includes a battery frame, and a battery box, a Battery Management System (BMS) and a control device mounted on the battery frame, wherein the bottom of the battery frame is fixed on the bottom plate of the cabin body through anchor bolts, and meanwhile, the top of the battery frame is fixedly connected with the top plate of the cabin body.

Further, the battery frame is of a splicing structure.

Further, the air inlet and the air outlet of the air conditioner are opposite to the battery frame.

By adopting the technical scheme, the invention has the following beneficial effects:

1) The energy storage cabin structure adopts air conditioning heating and refrigeration, and can ensure that the temperature inside the cabin body is in a proper working temperature range, so that different climatic conditions can be dealt with, and the influence of over-high or over-low environmental temperature on equipment in the cabin body is avoided. The cabin body of the invention preferably adopts the heat preservation cabin, when the temperature in the cabin body has higher temperature difference with the outdoor temperature, the heat preservation cabin is adopted as the cabin body of the energy storage cabin structure, so that the heat exchange between the air in the cabin body and the outdoor air can be reduced, the heat preservation time of the air temperature in the cabin body can be prolonged, and the power consumption of an air conditioner can be reduced.

2) The air conditioner is arranged on the rear side wall and is arranged on the rear side wall through the flange edge, the air conditioner does not protrude out of the cabin body, the maximum outline of the cabin body is not exceeded, the cabin body and other cabin bodies are not affected to carry out cabin splicing, and the cabin body and other cabin bodies can be conveniently spliced and transported. Moreover, the air conditioner is arranged on the rear side wall, and the air conditioner can be conveniently detached from the cabin body through outdoor operation, so that the air conditioner can be conveniently installed and overhauled. The converter is installed on the front side wall, is convenient for the output panel of converter and the connection of external output window, and battery pack sets up between air conditioner and converter, and the focus of whole cabin body keeps balanced, also is convenient for with the splice of other cabin bodies, has taken into account battery pack's maintenance simultaneously, still usable air conditioner's air inlet, air outlet dispel the heat to battery pack and the internal equipment of cabin. The whole energy storage cabin structure is an independent cabin body, and can be used and transported with other cabin bodies, such as other energy storage cabins and photovoltaic cabins.

Drawings

FIG. 1 is a schematic view of the internal structure of the energy storage compartment structure of the present invention (the compartment body omits the top plate, the closed housing);

FIG. 2 is a schematic view of the internal structure of the energy storage compartment structure of the present invention (the compartment body omits the top plate);

FIG. 3 is a schematic view of the structure of the tank of the energy storage tank structure of the present invention (the tank omits the top plate);

fig. 4 is a schematic structural view of a tank body of the energy storage tank structure of the present invention (the tank body omits a top plate).

Detailed Description

In order that the invention may be more readily understood, a more particular description of the invention will be rendered by reference to specific embodiments that are illustrated in the appended drawings.

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 invention belongs. The terms "first," "second," and the like in the description and in the claims, do not denote any order, quantity, or importance, but rather are used to distinguish one element from another. Likewise, the terms "a" or "an" and the like do not denote a limitation of quantity, but rather denote the presence of at least one.

As shown in fig. 1 to 4, an energy storage cabin structure comprises a box-type cabin body 1, wherein the cabin body 1 is used for accommodating and fixing an air conditioner 2, a current transformer 4 and other equipment, so that the whole energy storage cabin structure is convenient to transport. The cabin 1 has a front side wall 1-1, a rear side wall 1-2, a left side wall 1-3 and a right side wall 1-4.

An outdoor air inlet shutter 10 and an outdoor air outlet shutter 13 are respectively arranged on the left side wall 1-3 and the right side wall 1-4. The outdoor air inlet shutter 10 and the outdoor air outlet shutter 13 are simultaneously opened, and the indoor air inlet shutter 5 and the indoor air outlet shutter 9 are simultaneously closed, so that the outdoor air inlet shutter and the outdoor air outlet shutter are used for external circulation of heat in the cabin.

The air conditioner 2 is arranged on the rear side wall 1-2, the air conditioner 2 is used for heating and refrigerating the interior of the cabin, when the environmental temperature is too high, the air conditioner 2 is used for refrigerating the interior of the cabin, and when the environmental temperature is too low, the air conditioner 2 is used for heating the interior of the cabin, so that the energy storage cabin structure can adapt to different climates, and the environmental adaptability is improved.

The front side wall 1-1 is provided with the current transformer 4, the current transformer 4 is closely attached to the inner side surface of the front side wall 1-1, and a closed housing 7 is arranged outside the current transformer 4 and used for isolating the current transformer 4 from other spaces in the cabin. The sealing cover shell 7 is preferably provided with an installation and maintenance interface for the converter 4, the installation and maintenance interface is provided with a cover plate 8, the cover plate 8 is tightly pressed on the back surface of the converter 4 to isolate an air inlet area and an air outlet area, and the cover plate 8 is detachably assembled at the installation and maintenance interface of the sealing cover shell 7 through the bolt 6 so as to achieve the purpose of detachable maintenance. The converter 4 is isolated from the air inlet air cavity and the air outlet air cavity of the external circulation of the cabin through the cover plate 8, so that the external circulation of the cabin does not influence the converter 4. An indoor air inlet shutter 5 is arranged on one side of the closed housing 7, an indoor air outlet shutter 9 is arranged on the other side of the closed housing 7, and the switching between the internal circulation of the converter 4 and the cabin external circulation is controlled through the opening and closing of the indoor air inlet shutter 5, the indoor air outlet shutter 9, the outdoor air inlet shutter 10 and the outdoor air outlet shutter 13. The indoor air inlet louver 5 and the indoor air outlet louver 9 are simultaneously opened, and the outdoor air inlet louver 10 and the outdoor air outlet louver 13 are simultaneously closed, so that the internal circulation of the converter is opened.

When the ambient temperature is too high, the outdoor air inlet shutter 10 and the outdoor air outlet shutter 13 are opened simultaneously, the indoor air inlet shutter 5 and the indoor air outlet shutter 9 are closed simultaneously, when the converter 4 operates, the inner circulation of the converter 4 is closed, the external circulation of the cabin is opened, the cabin absorbs cold air from the outside, hot air is discharged to the outside, the external circulation is realized, and the refrigerating pressure of the air conditioner 2 is reduced.

When the environmental temperature is too low, the outdoor air inlet shutter 10 and the outdoor air outlet shutter 13 are closed simultaneously, the indoor air inlet shutter 5 and the indoor air outlet shutter 9 are opened simultaneously, when the converter 4 operates, the inner circulation of the converter 4 is opened, the outer circulation of the cabin is closed, the converter 4 absorbs cold air from the cabin 1 and discharges hot air into the cabin, the inner circulation of the converter 4 is realized, the waste heat of the converter 4 can be fully utilized, the inside of the cabin 1 is heated, and the power consumption of the air conditioner 2 is further reduced.

And the battery assembly is arranged in the cabin body, is positioned between the air conditioner 2 and the current transformer 4 and is used for releasing electric energy to external equipment. The battery pack is located inside the cabin body, between the air conditioner 2 and the current transformer 4, on one hand, the gravity center of the whole cabin body is kept balanced, side turning caused by the fact that the battery is located on one side is avoided, the cabin splicing with other cabin bodies 1 is convenient, on the other hand, maintenance of the battery pack is considered, maintenance spaces are reserved between the battery pack and the air conditioner 2 and between the battery pack and the current transformer 4, and front-back maintenance of the battery pack is facilitated.

The front side wall 1-1 is also provided with a man-machine interaction window 15, and the man-machine interaction window 15 is integrated with an operation panel, so that running indicator lamps of equipment in the cabin can be observed in real time, and the equipment in the cabin can be set and adjusted. The front side wall 1-1 is also provided with an external output window 14. The converter 4 is arranged on the front side wall 1-1, so that the output panel 12 of the converter 4 is conveniently connected with the external output window 14, the external output window 14 is preferably a quick plug interface, and the connection can be directly carried out in the outdoor operation, so that the energy storage cabin structure can be quickly put into use, meanwhile, the man-machine interaction window 15 is integrated with the operation panel, and the running indicator lamp of the cabin equipment can be observed in real time and set and adjusted to the cabin equipment. The terminal box 11 is arranged right above the closed housing 7, and the terminal box 11 is an in-cabin equipment wiring switching interface and a power distribution interface and is one of in-cabin equipment overhaul and maintenance points.

The energy storage cabin structure adopts the air conditioner 2 for heating and refrigerating, and can ensure that the temperature inside the cabin body is in a proper working temperature range, so that different climatic conditions can be dealt with, and the influence of the over-high or over-low environmental temperature on equipment in the cabin body is avoided. The cabin body of the invention preferably adopts the heat preservation cabin, when the temperature in the cabin body has higher temperature difference with the outdoor temperature, the heat preservation cabin is adopted as the cabin body of the energy storage cabin structure, so that the heat exchange between the air in the cabin body and the outdoor air can be reduced, the heat preservation time of the air temperature in the cabin body can be prolonged, and the power consumption of the air conditioner 2 can be reduced.

According to the invention, the air conditioner 2 is arranged on the rear side wall 1-2, and is arranged on the rear side wall 1-2 through the flange edge, the air conditioner does not protrude out of the cabin body 1, does not exceed the maximum outer contour of the cabin body 1, does not influence the cabin 1 to splice with other cabin bodies, and is convenient for splicing and transportation of the cabin body and other cabin bodies. In addition, the air conditioner 2 is arranged on the rear side wall 1-2, and the air conditioner 2 can be conveniently detached from the cabin body 1 through outdoor operation, so that the air conditioner can be conveniently installed and overhauled. The converter 4 is arranged on the front side wall 1-1, so that the output panel of the converter 4 is conveniently connected with the external output window 14, the battery assembly is arranged between the air conditioner 2 and the converter 4, the gravity center of the whole cabin body is kept balanced, the cabin is conveniently spliced with other cabin bodies 1, the maintenance of the battery assembly is simultaneously considered, and the air inlet and the air outlet of the air conditioner 2 can be utilized for radiating heat of the battery assembly and equipment in the cabin body. The whole energy storage cabin structure is an independent cabin body, and can be used and transported with other cabin bodies, such as other energy storage cabins and photovoltaic cabins. The energy storage cabin structure of the invention has high integration degree, the cabin body integrates the air conditioner 2, the battery component and the converter 4, the whole structure is compact, and the space in the cabin body is fully utilized.

As a preferred scheme, the battery assembly includes a battery frame 3, and a battery box 16, a Battery Management System (BMS) and a control device which are mounted on the battery frame 3, wherein the bottom of the battery frame 3 is fixed on the bottom plate of the cabin body through anchor bolts, and meanwhile, the top of the battery frame 3 is fixedly connected with the top plate of the cabin body 1, and the battery box 16 is fixed on the battery frame 3, so that the vehicle-mounted requirement is met. The battery frame 3 is preferably a splicing structure, the battery frame 3 can be assembled inside the cabin 1, then a battery box 16, a Battery Management System (BMS) and a control device are installed on the battery frame 3, and the internal space of the cabin can be fully utilized.

The air inlet and the air outlet of the air conditioner 2 are opposite to the battery frame 3, and when the battery box 16 is installed, a reasonable gap is reserved between the battery boxes 16, and the air inlet and the air outlet of the air conditioner 2 can be utilized to radiate heat of the battery boxes 16 and equipment in the cabin body.

The technical problems, technical solutions and advantageous effects solved by the present invention have been further described in detail in the above-described embodiments, and it should be understood that the above-described embodiments are only illustrative of the present invention and are not intended to limit the present invention, and any modifications, equivalent substitutions, improvements, etc. within the spirit and principle of the present invention should be included in the scope of protection of the present invention.

Claims

1. An energy storage cabin structure, its characterized in that: comprises a box-type cabin body (1), wherein the cabin body (1) is provided with a front side wall (1-1), a rear side wall (1-2), a left side wall (1-3) and a right side wall (1-4); an outdoor air inlet shutter (10) and an outdoor air outlet shutter (13) are respectively arranged on the left side wall (1-3) and the right side wall (1-4); an air conditioner (2) is arranged on the rear side wall (1-2), and the air conditioner (2) is used for heating and refrigerating the interior of the cabin; a converter (4) is arranged on the front side wall (1-1), the converter (4) is tightly attached to the inner side surface of the front side wall (1-1), a closed housing (7) is arranged outside the converter (4) and is used for isolating the converter (4) from other spaces in the cabin, an indoor air inlet shutter (5) is arranged on one side of the closed housing (7), an indoor air outlet shutter (9) is arranged on the other side of the closed housing (7), and switching between the internal circulation of the converter (4) and the external circulation of the cabin is controlled through the indoor air inlet shutter (5), the indoor air outlet shutter (9) and the outdoor air inlet shutter (10) and the opening and closing of the outdoor air outlet shutter (13); the indoor air inlet louver 5 and the indoor air outlet louver 9 are simultaneously opened, and the outdoor air inlet louver 10 and the outdoor air outlet louver 13 are simultaneously closed, so that the internal circulation of the converter is opened; when the ambient temperature is too high, the outdoor air inlet louver 10 and the outdoor air outlet louver 13 are simultaneously opened, the indoor air inlet louver 5 and the indoor air outlet louver 9 are simultaneously closed, and when the converter 4 operates, the internal circulation of the converter 4 is closed, and the cabin body is opened in an external circulation mode;

an installation and maintenance interface for the converter (4) is reserved on the closed housing (7), a cover plate (8) is arranged on the installation and maintenance interface, and the converter (4) is isolated from an air inlet air cavity and an air outlet air cavity of the cabin body through the cover plate (8);

and the battery assembly is arranged in the cabin body, is positioned between the air conditioner (2) and the current transformer (4) and is used for releasing electric energy to external equipment.

2. The energy storage compartment structure of claim 1, wherein: the cover plate (8) is detachably assembled at the installation and maintenance interface of the closed housing (7) through the bolt (6).

3. The energy storage compartment structure of claim 1, wherein: the air conditioner (2) is arranged on the rear side wall (1-2) through a flange edge, and the flange edge is positioned on the outer side of the cabin body (1).

4. The energy storage compartment structure of claim 1, wherein: the battery assembly comprises a battery frame (3), and a battery box (16), a Battery Management System (BMS) and a control device which are arranged on the battery frame, wherein the bottom of the battery frame (3) is fixed on the bottom plate of the cabin body through foundation bolts, and meanwhile, the top of the battery frame (3) is fixedly connected with the top plate of the cabin body (1).

5. The energy storage compartment structure of claim 4 wherein: the battery frame (3) is of a splicing structure.

6. The energy storage compartment structure of claim 4 wherein: the air inlet and the air outlet of the air conditioner (2) are opposite to the battery frame (3).