CN218274758U - Energy storage cabinet - Google Patents

Abstract

The utility model provides an energy storage rack, this energy storage rack includes the cabinet body, have the battery chamber that is used for placing the battery subrack, the battery chamber is separated for air inlet district and return air district because of the battery subrack, the air conditioner room locate cabinet body top and with battery chamber intercommunication, be equipped with the air conditioner in the air conditioner room, the air current that the air conditioner blew off gets into the air inlet district, guided to battery subrack radiating part place region through the wind-guiding runner, the radiating part inhales the air current and flows to the return air district and use in order to supply the air conditioner, the electric room independently forms and is used for installing electrical equipment at the internal at cabinet, the converter room independently forms and is used for installing the converter at the internal. The utility model discloses an energy storage rack retrencies the structure of rack, and the air current of air conditioner is at air inlet district and return air district reciprocating cycle, and the inside ventilation cooling of the rack of being convenient for provides good environment for the battery subrack to when satisfying the demand that holds the battery subrack, still integrated have independent electric room and converter room, be favorable to the maintenance work in technical staff later stage, improved the performance of rack.

Description

Energy storage cabinet

Technical Field

The utility model relates to an energy storage system technical field, in particular to energy storage rack.

Background

The existing energy storage system mostly operates independently with large containers or constitutes a station to operate, the manufacturing and maintenance cost is relatively low, and a medium-sized cabinet type energy storage product is used as a standard small unit energy storage system to replace large container type energy storage products, and the manufacturing cost is slightly higher than that of the large container type energy storage products.

Currently, a medium-sized cabinet type energy storage cabinet is an important component of an energy storage system, and is a cabinet shell for bearing a battery system, an electrical control system and a thermal management system. The energy storage cabinet is used as an important standby energy device and can assist in solving a plurality of power utilization problems. Because the main function of energy storage rack is rationally to settle the module to for the use of module provides good, controllable operational environment, the collective control each module of being convenient for simultaneously, consequently the design of current rack all aims at satisfying above-mentioned functional requirement.

However, the designs of various energy storage cabinets currently in use have some randomness and lack of logicality, and these defects result in poor stability and transportability of the cabinets and bring inconvenience to the assembly and later maintenance of each component. In addition, rack in use, the module generates heat constantly, and the gas mobility that current rack design is in traditional design rack inside is poor, leads to the heat of module to be detained. In the era of continuous update of technology, hardware design is more and more emphasized by users, and based on the hardware design, further improvement needs to be made on the existing energy storage cabinet, so that the stability and operability of the energy storage cabinet are further improved.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model aims at providing an energy storage rack to improve the performance of energy storage rack.

In order to achieve the above purpose, the technical scheme of the utility model is realized like this:

an energy storage cabinet comprises a cabinet body, a cabinet door and a cabinet door, wherein the cabinet body is provided with a battery chamber for placing a battery plug box, and the battery chamber is divided into an air inlet area and an air return area by the battery plug box; the air conditioning chamber is arranged at the top of the cabinet body and communicated with the battery chamber, an air conditioner is arranged in the air conditioning chamber, airflow blown out by the air conditioner enters the air inlet area and is guided to the area where the heat dissipation part of the battery plug-in box is located through the air guide flow channel, and the heat dissipation part sucks the airflow and flows to the air return area for the use of the air conditioner; an electrical room independently formed in the cabinet body for mounting electrical equipment; and the converter chamber is independently formed in the cabinet body and used for installing the converter.

Furthermore, a plurality of battery racks for the battery plug boxes to be arranged in an up-and-down stacked mode are arranged in the battery chamber, and the plurality of radiating parts are arranged close to one side of each battery rack to suck the air flow guided by the air guide flow channel.

Furthermore, the air guide channel is an air guide plate detachably connected to the battery rack, and the air guide plate is adjusted to enable the airflow in the air inlet area to flow to the heat dissipation part.

Furthermore, the air deflectors are arranged in two opposite positions, and part of the heat dissipation part is located in an area surrounded by the two air deflectors.

Furthermore, an anti-scratch insulating film is attached to the surface of the battery frame.

Furthermore, the side wall of the air conditioning chamber is provided with an air inlet communicated with the air inlet area and an air outlet communicated with the air return area, and shutters are arranged at the air inlet and the air outlet.

Furthermore, a water outlet pipe communicated with the air conditioner is arranged in the converter chamber to guide and discharge condensed water in the air conditioner.

Furthermore, a temperature detection sensor connected with the control unit and a fire fighting assembly controlled by the controller are arranged in the battery chamber, the temperature detection sensor detects that the temperature of the battery chamber exceeds a set threshold value, an alarm signal is triggered, and the controller controls the fire fighting assembly to be started.

Furthermore, the fire-fighting assembly comprises a fire-fighting pipeline which is arranged in the battery chamber and can be controlled to be switched on and off, the fire-fighting pipeline is communicated with fire-fighting gas, the controller receives the alarm signal and opens the fire-fighting pipeline, and the fire extinguishing agent is sprayed out from a plurality of nozzles on the fire-fighting pipeline.

Furthermore, a plurality of heat dissipation holes are formed in the side walls of the electric room and the converter room.

Compared with the prior art, the utility model discloses following advantage has:

(1) Energy storage rack, retrencied the structure of rack, the air current of air conditioner is at air inlet district and return air district reciprocating cycle moreover, the inside ventilation cooling of the rack of being convenient for provides good environment for the battery subrack to when satisfying the demand that holds the battery subrack, the rack still integrates independent electric room and converter room, is favorable to the maintenance work in technical staff later stage, has improved the performance of rack.

(2) The battery subrack is from top to bottom stacked arrangement, and the air current of the air conditioner of being convenient for is cooled down in to the battery compartment, and the radiating part of battery subrack is close to the wind-guiding runner, and consequently the cooling air that the radiating part of battery subrack can inhale the air conditioner flows from the return air district after cooling down the battery subrack, and the temperature in the battery compartment reduces, can avoid producing the overheated phenomenon of catching fire of battery subrack because of the high temperature.

(3) The air deflector can guide the cold air of the air conditioner, so that most of the cold air of the air conditioner is gathered in the area where the heat dissipation part of the battery plug box is located, and the battery plug box is cooled better.

(4) The air deflectors are oppositely arranged, so that the air guiding effect and the cooling effect are improved.

(5) The anti-scratch insulating film is attached to the surface of the battery rack, so that a paint film of the battery rack can be prevented from being damaged in the push-pull process of the battery inserting box, and the battery rack is prevented from being corroded.

(6) The shutters on the air inlet and the air outlet can block part of dust on one hand, and on the other hand, the ventilation rate in the battery chamber can be improved.

(7) The condensed water of the air conditioner is led out by adopting a water outlet pipe arranged in the converter chamber, so that the condensed water is convenient to discharge, and the harm of water leakage to the battery chamber and the electric room is avoided.

(8) The fire control subassembly is integrated in the battery room, has saved the high space of rack to can increase the space utilization of rack.

(9) Under abnormal conditions, the controller receives the alarm signal and opens the fire-fighting pipeline, at the moment, the fire-fighting gas is sprayed out from the fire-fighting pipeline, and the whole battery chamber can be filled with the fire-fighting gas quickly, so that the aim of quickly cooling is fulfilled.

(10) The setting of louvre is convenient for the circulation of air in order to cool down electric room and converter room.

Drawings

The accompanying drawings, which form a part of the present disclosure, are provided to provide a further understanding of the present disclosure, and the exemplary embodiments and descriptions thereof are provided to explain the present disclosure, wherein the related terms in the front, back, up, down, and the like are only used to represent relative positional relationships, and do not constitute an undue limitation of the present disclosure. In the drawings:

fig. 1 is a schematic view of an overall structure of an energy storage cabinet according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of another view angle of the energy storage cabinet according to the embodiment of the present invention.

Description of the reference numerals:

1. a cabinet body; 10. a battery chamber; 100. an air inlet area; 101. a return air zone; 11. an air conditioning chamber; 110. an air inlet; 111. an air outlet; 112. a louver; 12. an electric room; 120. heat dissipation holes; 13. a converter chamber; 130. a water outlet pipe; 14. a cabinet door; 2. a battery holder; 20. a support plate; 21. an air deflector; 30. a fire-fighting pipeline; 31. a temperature detection sensor; 4. and (4) inserting a battery into the box.

Detailed Description

It should be noted that, in the present invention, the embodiments and features of the embodiments may be combined with each other without conflict.

In the description of the present invention, it should be noted that if terms indicating directions or positional relationships such as "up", "down", "inside", "outside", etc. appear, they are based on the directions or positional relationships shown in the drawings, and are only for convenience of description of the present invention and simplification of description, but do not indicate or imply that the device or element referred to must have a specific direction, be constructed and operated in a specific direction, and thus, should not be construed as limiting the present invention. Furthermore, the appearances of the terms first, second, etc. in this specification are not necessarily all referring to the same order, but are to be construed as referring to the same order.

In addition, in the description of the present invention, the terms "mounted," "connected," and "connecting" are to be construed broadly unless otherwise specifically limited. For example, the connection may be fixed, detachable, or integrated; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. To those of ordinary skill in the art, the specific meaning of the above terms in the present invention can be understood in combination with the specific situation.

The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

The embodiment relates to an energy storage cabinet, overall structure, this energy storage cabinet includes cabinet body 1, have the battery room 10 that is used for placing battery plug box 4, battery room 10 is separated for air inlet area 100 and return air district 101 because of battery plug box 4, air-conditioning room 11 is located cabinet body 1 top and is communicate with battery room 10, be equipped with the air conditioner in the air-conditioning room 11, the air current that the air conditioner blew out gets into air inlet area 100, be guided to the region in battery plug box 4 radiating part place through the wind-guiding runner, the radiating part inhales the air current and flows to return air district 101 and use for the air conditioner, electric room 12 independently forms and is used for installing electrical equipment in cabinet body 1, converter room 13 independently forms and is used for installing the converter in cabinet body 1.

The energy storage rack of this embodiment, the structure of rack has been retrencied, and the air current of air conditioner is at air inlet area 100 and the reciprocal circulation of return air district 101, the inside ventilation cooling of rack of being convenient for provides good environment for battery subrack 4, and when satisfying the demand that basic holds battery subrack 4, still integrated have independent electric room 12 and converter room 13, prevent that harmful gas from invading the battery room 10 that closes on, be favorable to the maintenance work in technical staff later stage, the performance of rack has been improved.

Based on the above overall design, an exemplary structure of the energy storage cabinet of the embodiment is as shown in fig. 1 and fig. 2, it should be noted that the cabinet body 1 is in a through shape at two sides, and the cabinet body 1 has two openings that are relatively open, and the inside of the cabinet body 1 is vacant to facilitate spatial arrangement.

The battery chamber 10, the electrical chamber 12 and the converter chamber 13 are independent from each other and do not interfere with each other, and a cabinet door 14 capable of sealing the inside of the cabinet body 1 is provided at openings on both sides of the battery chamber 10, the electrical chamber 12 and the converter chamber 13. And the cell chamber, the electrical chamber 12 and the converter chamber 13 are arranged independently, so that harmful gas can be prevented from entering the cell chamber 10, and the battery plug box 4 is ensured to be in a safe environment. And on the lateral wall of electric room 12 and converter room 13, be provided with a plurality of louvres 120, the setting of louvre 120, the circulation of air is convenient for in order to cool down electric room 12 and converter room 13.

In addition, a battery holder 2 in which a plurality of battery boxes 4 are stacked up and down is provided in the battery chamber 10, and a plurality of heat dissipating portions are provided near the battery holder 2 to suck the air flow guided through the air guide flow path. Specifically, the top end and the bottom end of the battery rack 2 are both pre-installed on the top wall and the bottom wall in the battery chamber 10 by welding to prevent the battery rack 2 from shaking when the battery box 4 is disposed.

In this embodiment, the battery rack 2 is provided in two, which are arranged side by side, and the plurality of support plates 20 are arranged on the battery rack 2 at intervals from top to bottom, and the plurality of support plates 20 are symmetrically and horizontally arranged on the same battery rack 2, that is, the battery sockets 4 are placed on two opposite support plates 20, which also allows the plurality of battery sockets 4 to be arranged in a stacked manner along the height direction of the battery rack 2.

And the spacing between adjacent support plates 20 is greater than the thickness of the battery compartments 4 for heat dissipation, it will be appreciated that a space is left between adjacent battery compartments 4 to dissipate heat from the battery compartments 4. And when the battery box 4 is placed, the heat radiating portions of the battery boxes 4 on the two battery racks 2 are disposed near the middle positions of the two battery racks 2 so as to suck the cool air of the air conditioner.

In addition, as a preferred embodiment of the present embodiment, a scratch-proof insulating film is attached to the surface of the cell holder 2. Among them, the scratch-resistant insulating film may be a PC film. The anti-skid insulating film can prevent the paint film of the battery frame 2 from being damaged and further corroding the battery frame 2 in the pushing and pulling process of the battery inserting box 4.

In order to ensure the stability of placing the battery plug box 4, the cross section of the supporting plate 20 is L-shaped, and the end surface of the battery plug box 4 can abut against one side surface of the supporting plate 20, so that the battery plug box 4 is not easy to shake when placed on the battery rack 2. The heat dissipation portion of the battery box 4 is a heat dissipation fan provided in the battery box 4. It will be appreciated that the heat dissipation fan draws an airflow at one end of the battery compartment 4 to cool the battery compartment 4 and to draw the airflow out of the other end of the battery compartment 4. For this reason, the air intake area 100 is an area of the battery compartment 4 on one side where the heat dissipation portion is disposed, and the air return area 101 is an area of the battery compartment 4 on the other side.

In this embodiment, in order to improve the heat dissipation effect of the battery chamber 10, as shown in fig. 1, the air guiding channel is an air guiding plate 21 detachably connected to the battery rack 2, and the air guiding plate 21 is adjusted to make the airflow in the air inlet area 100 flow to the heat dissipation part. Specifically, the air guide plates 21 are provided in two oppositely arranged portions, and part of the heat dissipation portion is located in a region surrounded by the two air guide plates 21. The area enclosed by the two air deflectors 21 represents a space enclosed by two opposite ends of the two air deflectors 21 connected to each other.

It is worth mentioning that the air deflector 21 adopts detachable connection, so that the air quantity and the flow direction of air of the air conditioner can be conveniently adjusted, and the air deflector 21 can be fixed on the battery rack 2 by adopting bolts. When the cool air of the air conditioner flows to the air inlet area 100, the cool air is blown to the air deflector 21, and the air flow contacts the air deflector 21, so that the flow direction of the air flow is changed, the cool air is blown to the area of the heat dissipation part, and the cool air is conveniently sucked by the heat dissipation fan of the battery plug box 4 to cool the battery plug box.

In a preferred embodiment, the air deflector 21 has an L-shaped cross section, and one side surface of the air deflector 21 is used for arranging bolts to be fixed on the battery rack 2, and the other side surface is used for guiding air flow. In the present embodiment, the two air deflectors 21 are disposed in a splayed shape, so that the air flow guiding effect of the air deflectors 21 can be increased.

In addition, the side wall of the air conditioning room 11 is provided with an air inlet 110 communicated with the air inlet area 100 and an air outlet 111 communicated with the air return area 101, and shutters 112 are disposed at the air inlet 110 and the air outlet 111. The louvers 112 on the air inlet 110 and the air outlet 111 can block a part of dust, on the other hand, the air-conditioning chamber 11 is located at the top of the cabinet 1, and the cooling effect on the battery chamber 10 can be improved because the cold air sinks, and meanwhile, the louvers 112 can improve the ventilation rate in the battery chamber 10.

Referring to fig. 1, an outlet pipe 130 communicating with the air conditioner is provided in the inverter chamber 13 to guide and discharge condensed water in the air conditioner. Specifically, one end of the water outlet pipe 130 is connected with the air conditioner, the other end of the water outlet pipe is led into the converter chamber 13, and the water outlet pipe 130 is vertically arranged on one side in the converter chamber 13, so that condensed water is discharged conveniently, and the harm of water leakage to the battery chamber 10 and the electric room 12 is avoided.

Referring to fig. 2, in order to improve the safety performance of the energy storage cabinet, a temperature detection sensor 31 connected to the control unit and a fire fighting module controlled by the controller are arranged in the battery chamber 10, the temperature detection sensor 31 detects that the temperature of the battery chamber 10 exceeds a set threshold value, an alarm signal is triggered, and the controller controls the fire fighting module to be started.

Specifically, the fire fighting module comprises a fire fighting pipeline 30 which is arranged in the battery chamber 10 in an on-off controllable manner, the fire fighting pipeline 30 is connected with a storage tank storing fire fighting gas, the controller receives an alarm signal and opens the fire fighting pipeline 30, and the fire fighting gas is sprayed out from a plurality of nozzles on the fire fighting pipeline 30. It should be noted that both the temperature detecting sensor 31 and the fire fighting pipeline 30 are disposed on the cabinet door 14 of the battery chamber 10, so as to save the height space of the cabinet and increase the space utilization rate of the cabinet.

In addition, the fire-fighting pipeline 30 is provided with a valve, the controller can open the valve to enable fire-fighting gas to enter the fire-fighting pipeline 30, wherein the fire-fighting gas can be carbon dioxide, under abnormal conditions, the controller receives an alarm signal and opens the fire-fighting pipeline 30, at the moment, the fire-fighting gas is sprayed out from a nozzle of the fire-fighting pipeline 30, the whole battery chamber 10 can be filled with the fire-fighting gas quickly, and the purposes of quickly cooling and extinguishing fire are achieved.

The energy storage rack described in this embodiment is integrated with independent electric room 12 and converter room 13, is favorable to the maintenance work in technical staff later stage, has improved the performance of rack. In addition, the guide plate can change the air current flow direction, so that the cold air current blows to the area of the heat dissipation part, the heat dissipation fan of the battery plug box 4 sucks cold air to cool the battery plug box, and the ventilation and heat dissipation in the cabinet are convenient to provide a good environment for the battery plug box 4.

The above description is only for the preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. An energy storage cabinet, characterized by comprising:

the cabinet body (1) is provided with a battery chamber (10) for placing a battery inserting box (4), and the battery chamber (10) is divided into an air inlet area (100) and an air return area (101) due to the battery inserting box (4);

the air conditioning chamber (11) is arranged at the top of the cabinet body (1) and is communicated with the battery chamber (10), an air conditioner is arranged in the air conditioning chamber (11), airflow blown out by the air conditioner enters the air inlet area (100) and is guided to the area where the heat dissipation part of the battery plug box (4) is located through an air guide flow channel, and the heat dissipation part sucks the airflow and flows to the air return area (101) for the use of the air conditioner;

an electrical room (12) independently formed in the cabinet (1) for mounting electrical equipment;

and the converter chamber (13) is independently formed in the cabinet body (1) and used for mounting the converter.

2. The energy storage cabinet of claim 1, wherein:

the battery chamber (10) is internally provided with a battery frame (2) for a plurality of battery plug boxes (4) to be arranged in a vertically stacked manner, and the heat dissipation parts are arranged close to one side of the battery frame (2) to suck the air flow guided by the air guide flow channel.

3. The energy storage cabinet of claim 2, wherein:

the air guide flow channel is an air guide plate (21) detachably connected to the battery rack (2), and the air guide plate (21) is adjusted to enable the airflow of the air inlet area (100) to flow to the heat dissipation part.

4. The energy storage cabinet of claim 3, wherein:

the air deflectors (21) are arranged in two opposite positions, and part of the heat dissipation part is located in an area surrounded by the two air deflectors (21).

5. The energy storage cabinet of claim 3, wherein:

and an anti-scratch insulating film is adhered to the surface of the battery frame (2).

6. The energy storage cabinet of claim 1, wherein:

the side wall of the air conditioning chamber (11) is provided with an air inlet (110) communicated with the air inlet area (100) and an air outlet (111) communicated with the air return area (101), and shutters (112) are arranged at the air inlet (110) and the air outlet (111).

7. The energy storage cabinet of claim 1, wherein:

and a water outlet pipe (130) communicated with the air conditioner is arranged in the converter chamber (13) to guide and discharge condensed water in the air conditioner.

8. The energy storage cabinet of any one of claims 1-7, wherein:

the fire-fighting protection device is characterized in that a temperature detection sensor (31) connected with a control unit and a fire-fighting assembly controlled by a controller are arranged in the battery chamber (10), the temperature detection sensor (31) detects that the temperature of the battery chamber (10) exceeds a set threshold value and then triggers an alarm signal, and the controller controls the fire-fighting assembly to be started.

9. The energy storage cabinet of claim 8, wherein:

the fire fighting assembly comprises a fire fighting pipeline (30) which is arranged in the battery chamber (10) and can be controlled in on-off, the fire fighting pipeline (30) and fire fighting gas, the controller receives the alarm signal and opens the fire fighting pipeline (30), and the fire fighting gas is sprayed out from a plurality of nozzles on the fire fighting pipeline (30).

10. The energy storage cabinet of claim 1, wherein:

and a plurality of heat dissipation holes (120) are formed in the side walls of the electric room (12) and the converter room (13).

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