CN221014262U - A fire control frame for placing battery pack - Google Patents

Abstract

The utility model provides a fire-fighting rack for placing battery pack, comprising: a main body including a fire extinguishing isolation unit and an equipment storage unit; the fire extinguishing isolation unit comprises a plurality of independent compartments, wherein the compartments are used for storing abnormal battery pack; a detection device is arranged in the fire extinguishing isolation unit, and the detection device comprises a temperature detection probe for detecting the temperature in the compartment in real time; the equipment storage unit comprises a fire-fighting device, a communication device and a controller, wherein the fire-fighting device is used for conveying fire-extinguishing and cooling media into the compartment, the communication device is used for sending state information in the compartment to an external control center and receiving instructions of the external control center, and the controller is used for controlling the working state of the fire-fighting device according to the information fed back by the detection device and the instructions of the control center so as to extinguish the fire and cool the abnormal battery pack in the compartment; the utility model can avoid the harmful gas generated when the thermal runaway of the battery pack pollutes the environment, and can also avoid the explosion of the battery pack, thereby threatening the safety of personnel.

Description

A fire control frame for placing battery pack

Technical Field

The utility model relates to the technical field of air conditioners, in particular to a fire-fighting rack for placing a battery pack.

Background

In modern energy storage systems, an energy storage container has become a key component, and generally contains a large number of battery packs inside the energy storage container for storing and releasing electric energy, when the battery packs are out of control thermally, abnormal battery packs need to be taken out in time and placed in a safe place for fire extinguishing and temperature reduction, however, the battery packs can generate a large amount of harmful gas in the combustion process, pollute the environment, are easy to explode, threaten personnel safety, and the prior art lacks a fire fighting device for handling the abnormal battery packs.

Disclosure of utility model

In view of the above, the present utility model aims to provide a fire-fighting rack for placing a battery pack, so as to solve the problems of harmful gas generation, environmental pollution, easy explosion and threat to personnel safety when the battery pack is out of control in the prior art.

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

a fire rack for placing a battery pack, comprising:

The main body comprises a fire extinguishing isolation unit and an equipment storage unit, wherein the fire extinguishing isolation unit and the equipment storage unit are arranged up and down;

the fire extinguishing isolation unit comprises a plurality of independent compartments for storing abnormal battery pack;

A detection device is arranged in the fire extinguishing isolation unit, and the detection device comprises a temperature detection probe for detecting the temperature in the compartment in real time;

The device storage unit comprises a fire-fighting device, a communication device and a controller, wherein the fire-fighting device is used for conveying fire-extinguishing cooling media into a compartment, the communication device is used for sending state information in the compartment to an external control center and receiving instructions of the external control center, and the controller is used for controlling the working state of the fire-fighting device according to information fed back by the detection device and the instructions of the control center to extinguish the fire and cool abnormal battery pack in the compartment.

The fire-fighting rack for placing the battery pack can prevent the environment from being polluted by harmful gas generated when the battery pack is out of control, and can also prevent the battery pack from being exploded, thereby threatening the safety of personnel.

Further, a smoke purifying device is arranged in the equipment storage unit and is communicated with the compartment through an exhaust pipe, and the smoke purifying device is used for purifying gas exhausted from the compartment.

This kind of setting can purify the harmful gas that produces when battery pack takes place thermal runaway, discharges the gas after purifying to the external world through the pipeline, avoids polluting the environment.

Further, the detection device further comprises a smoke detection probe which is arranged in the exhaust pipe and used for detecting smoke concentration information in the compartment in real time.

This kind of setting can not only detect the smog concentration information in the compartment, can also avoid smog detection probe to be damaged by high temperature, prolongs smog detection probe's life.

Further, the compartment is provided with a fire door for isolating the space inside the compartment from the outside.

The device has simple structure and is convenient for the installation and the movement of the fireproof door.

Further, a pneumatic device is arranged in the equipment storage unit and is provided with a pneumatic ejector rod, the pneumatic ejector rod is connected with the lower end of the fireproof door, and the pneumatic device drives the pneumatic ejector rod to move up and down to control the opening and closing state of the fireproof door.

The setting structure is simple, the fireproof door can be conveniently controlled to be opened or closed, and automatic control is realized by utilizing the setting structure.

Further, the fire door is provided with a viewing window for viewing the condition within the compartment.

This arrangement facilitates the operator to observe the condition of the battery pack in the compartment, improving safety and processing efficiency.

Further, a support frame is arranged in the compartment and used for placing a battery pack.

This arrangement facilitates handling of the battery pack.

Further, the fireproof door is provided with an indicator light for conveying the working condition in the compartment to the outside.

The arrangement is convenient for operators to rapidly judge the condition of the battery pack, and improves the safety of operation.

Further, the device further comprises a fixed platform, wherein the fixed platform is fixed on the ground, and the main body is installed on the fixed platform.

This kind of setting is convenient for install fixed main part, improves the overall stability of fire control frame.

Further, the body is made of a refractory material.

The fire-fighting frame can be prevented from being damaged at high temperature, and the safety and the service life of the fire-fighting frame are improved.

Compared with the prior art, the fire-fighting rack for placing the battery pack has the following advantages: the method can avoid the environmental pollution caused by harmful gas generated when the thermal runaway of the battery pack is avoided, and the explosion of the battery pack is avoided, so that the safety of personnel is threatened.

Drawings

FIG. 1 is a schematic view of a fire-fighting rack according to an embodiment of the present utility model;

FIG. 2 is a schematic view of a fire-fighting rack according to a second embodiment of the present utility model;

FIG. 3 is a schematic view of a third view of a fire-fighting rack according to an embodiment of the present utility model;

Fig. 4 is a schematic view of a partially enlarged structure at a in fig. 1.

Reference numerals illustrate:

1. A main body; 11. a fire extinguishing isolation unit; 12. a device storage unit; 121. a fire fighting device; 122. a communication device; 123. a controller; 124. a smoke purifying device; 2. a compartment; 21. a support frame; 22. fireproof doors; 220. a chute; 221. an observation window; 222. an indicator light; 23. a spout; 3. a temperature detection probe; 4. a pneumatic device; 41. pneumatic ejector rods; 100. a fixed platform; 200. battery pack.

Detailed Description

In order that the above objects, features and advantages of the utility model will be readily understood, a more particular description of the utility model will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings.

Example 1

As shown in fig. 1-4, a fire rack for placing battery packs, comprising:

the fire extinguishing device comprises a main body 1, a fire extinguishing device and a fire extinguishing device, wherein the main body 1 comprises a fire extinguishing isolation unit 11 and a device storage unit 12, and the fire extinguishing isolation unit 11 and the device storage unit 12 are arranged up and down;

The fire extinguishing isolation unit 11 comprises a plurality of individual compartments 2, the compartments 2 being used for storing abnormal battery pack200;

A detection device is arranged in the fire extinguishing isolation unit 11, and the detection device comprises a temperature detection probe 3 for detecting the temperature in the compartment 2 in real time;

The device storage unit 12 includes a fire-fighting device 121, a communication device 122 and a controller 123, wherein the fire-fighting device 121 is used for delivering fire-extinguishing cooling medium into the compartment 2, the communication device 122 is used for sending status information in the compartment 2 to an external control center and receiving instructions from the external control center, and the controller 123 controls the working state of the fire-fighting device 121 according to the information fed back by the detection device and the instructions from the control center to extinguish fire and cool the abnormal battery pack200 in the compartment 2.

Specifically, the fire-fighting rack for placing the battery pack200 is used for placing the battery pack200 with thermal runaway, isolating the abnormal battery pack200 from the external environment through the compartment 2, and using the fire-fighting device 121 to extinguish fire and cool the abnormal battery pack200, so that the environment pollution caused by harmful gas generated when the battery pack200 is thermal runaway can be avoided, and the explosion of the battery pack200 can be avoided, thereby threatening the safety of personnel.

Preferably, a nozzle 23 is arranged in the compartment 2, and the nozzle 23 is communicated with the fire-fighting device 121 through a pipeline and is used for spraying fire-extinguishing cooling medium into the compartment 2.

Preferably, the fire-fighting device 121 is configured as a dry powder fire extinguisher.

Preferably, the fire protection device 121 is configured as a CO ₂ fire extinguisher.

Preferably, after the battery pack200 is placed in the compartment 2, the temperature detection probe 3 is capable of detecting the surface temperature of the battery pack200 in real time.

As a preferred example of the present utility model, the device storage unit 12 is provided therein with a smoke purifying device 124, and the smoke purifying device 124 communicates with the compartment 2 through an exhaust pipe for purifying the gas exhausted from the compartment 2.

Specifically, this kind of setting can purify the harmful gas that produces when battery pack200 takes place thermal runaway, discharges the gas after purifying to the external world through the pipeline, avoids polluting the environment.

As a preferred example of the present utility model, the detection device further comprises a smoke detection probe provided in the exhaust pipe for detecting in real time smoke concentration information in the compartment 2.

Specifically, with the setting of smog detecting probe in the blast pipe, this kind of setting can detect the smog concentration information in the compartment 2, can also avoid smog detecting probe to be damaged by high temperature, prolongs smog detecting probe's life.

As a preferred example of the utility model, the compartment 2 is provided with a fire door 22 for isolating the space inside the compartment 2 from the outside.

Specifically, the compartment 2 is provided with a chute 220, the fireproof door 22 is installed in the chute 220, the fireproof door 22 can move up and down in the chute 220, and the compartment 2 is opened or closed.

As a preferred example of the present utility model, the device storage unit 12 is provided with a pneumatic device 4, the pneumatic device 4 is provided with a pneumatic ejector 41, the pneumatic ejector 41 is connected with the lower end of the fire door 22, and the pneumatic device 4 controls the opening and closing state of the fire door 22 by driving the pneumatic ejector 41 to move up and down.

Specifically, when the pneumatic device 4 drives the pneumatic ejector rod 41 to move upwards, the fireproof door 22 is opened, and at the moment, the compartment 2 is communicated with the external environment, so that the battery pack200 can be conveniently placed; when the pneumatic device 4 drives the pneumatic ejector rod 41 to move downwards, the fireproof door 22 is closed, the compartment 2 is isolated from the external environment, the battery pack200 is cooled and extinguished conveniently, and harmful gas leakage is avoided. This arrangement is simple in construction and facilitates control of the fire door 22 to open or close, with automatic control.

As a preferred example of the present utility model, the fire door 22 is provided with a viewing window 221 for viewing the condition within the compartment 2.

In particular, this arrangement facilitates the operator to observe the condition of the battery pack200 within the compartment 2, improving safety and processing efficiency.

Preferably, the viewing window 221 is made of high temperature resistant glass.

As a preferred example of the present utility model, a supporting frame 21 is disposed in the compartment 2, and the supporting frame 21 is used for placing the battery pack200.

Specifically, the battery pack200 is placed on the supporting frame 21, so that an operation space is reserved between the battery pack200 and the bottom of the compartment 2, and tools are conveniently inserted into the bottom of the battery pack200 to carry the battery pack 200. This arrangement facilitates handling of the battery pack 200.

Preferably, the supporting frame 21 comprises a left supporting frame 211 and a right supporting frame 212, the left supporting frame 211 and the right supporting frame 212 are respectively arranged at the left side and the right side of the compartment 2, when the mechanical arm is used for carrying the battery pack200, the distance between the left supporting frame 211 and the right supporting frame 212 is larger than the width of the mechanical arm, the distance between the battery pack200 and the bottom of the compartment 2 is larger than the height of the mechanical arm, and the mechanical arm is convenient to stretch into the bottom of the battery pack200 and carry the battery pack 200.

As a preferred example of the present utility model, the fire door 22 is provided with an indicator lamp 222 for communicating the operation condition in the compartment 2 to the outside.

Specifically, the fire-extinguishing status indicator lamp 222 is electrically connected to the controller 123, if the battery pack200 in the compartment 2 is out of control, the controller 123 controls the fire-extinguishing status indicator lamp 222 to display a red light according to the information fed back by the temperature detecting probe 3, otherwise the fire-extinguishing status indicator lamp 222 displays a green light. This arrangement facilitates the operator to quickly determine the condition of the battery pack200, improving the safety of operation.

As a preferred example of the present utility model, there is further included a fixed platform 100, the fixed platform 100 being fixed on the ground, the main body 1 being mounted on the fixed platform 100.

In particular, this arrangement facilitates the installation of the fixed body 1, improving the overall stability of the fire frame.

As a preferred example of the present utility model, the body 1 is made of a refractory material.

In particular, the arrangement can avoid the fire-fighting frame from being damaged in high temperature, and improve the safety and the service life of the fire-fighting frame.

In summary, the fire protection for placing the battery pack200 according to the present application has the following advantages: 1. the abnormal battery pack200 is isolated from the external environment through the compartment 2, the fire-fighting device 121 is used for extinguishing fire and reducing temperature of the abnormal battery pack200, so that the environment is prevented from being polluted by harmful gas generated when the battery pack200 is in thermal runaway, the battery pack200 is prevented from being exploded, and the safety of personnel is threatened; 2. by providing the smoke purifying device 124, the harmful gas generated when the battery pack200 is thermally out of control can be purified, and environmental pollution can be avoided.

Although the present utility model is disclosed above, the present utility model is not limited thereto. Various changes and modifications may be made by one skilled in the art without departing from the spirit and scope of the utility model, and the scope of the utility model should be assessed accordingly to that of the appended claims.

Claims (10)

1. A fire rack for placing a battery pack, comprising:

The fire extinguishing device comprises a main body (1) and a fire extinguishing device, wherein the main body comprises a fire extinguishing isolation unit (11) and a device storage unit (12), and the fire extinguishing isolation unit (11) and the device storage unit (12) are arranged up and down;

The fire-extinguishing isolation unit (11) comprises a plurality of individual compartments (2), the compartments (2) being for storing abnormal battery packs (200);

A detection device is arranged in the fire extinguishing isolation unit (11), and comprises a temperature detection probe (3) for detecting the temperature in the compartment (2) in real time;

The device storage unit (12) comprises a fire-fighting device (121), a communication device (122) and a controller (123), wherein the fire-fighting device (121) is used for conveying fire-extinguishing cooling media into the compartment (2), the communication device (122) is used for sending state information in the compartment (2) to an external control center and receiving instructions of the external control center, and the controller (123) is used for controlling the working state of the fire-fighting device (121) according to information fed back by the detection device and the instructions of the control center and carrying out fire-extinguishing cooling on abnormal battery pack (200) in the compartment (2).

2. Fire rack for placing battery pack according to claim 1, characterized in that a smoke purification device (124) is arranged in the equipment storage unit (12), which smoke purification device (124) communicates with the compartment (2) via an exhaust pipe for purifying the gas discharged from the compartment (2).

3. Fire rack for placing battery pack according to claim 2, characterized in that the detection means further comprise a smoke detection probe arranged in the exhaust pipe for detecting smoke concentration information in the compartment (2) in real time.

4. Fire rack for placing battery packs according to claim 1, characterized in that the compartment (2) is provided with fire doors (22) for isolating the space inside the compartment (2) from the outside.

5. The fire rack for placing battery pack according to claim 4, wherein a pneumatic device (4) is arranged in the equipment storage unit (12), the pneumatic device (4) is provided with a pneumatic ejector rod (41), the pneumatic ejector rod (41) is connected with the lower end of the fireproof door (22), and the pneumatic device (4) drives the pneumatic ejector rod (41) to move up and down to control the opening and closing state of the fireproof door (22).

6. Fire rack for placing battery packs according to claim 4, characterized in that the fire door (22) is provided with a viewing window (221) for viewing the conditions inside the compartment (2).

7. Fire rack for placing battery packs according to claim 4, characterized in that the fire door (22) is provided with indicator lights (222) for communicating the operating conditions inside the compartment (2) to the outside.

8. Fire rack for placing battery packs according to claim 1, characterized in that a supporting rack (21) is provided in the compartment (2), which supporting rack (21) is used for placing battery packs (200).

9. The fire rack for placing battery pack according to claim 1, further comprising a fixed platform (100), the fixed platform (100) being fixed on the ground, the main body (1) being mounted on the fixed platform (100).

10. Fire rack for placing battery pack according to claim 1, characterized in that the body (1) is made of refractory material.