CN220753627U - New energy battery energy storage cabinet - Google Patents

Abstract

The utility model discloses a new energy battery energy storage cabinet, and relates to the technical field of fire-fighting equipment; including energy storage cabinet body, fire control cabinet and fire extinguishing agent bottle group, the energy storage cabinet body is the level setting, the fire control cabinet is located the side of the energy storage cabinet body, fire extinguishing agent bottle group is located the fire control cabinet, be equipped with the fire extinguishing pipe who extends to the energy storage cabinet internal on the fire extinguishing agent bottle group. The utility model can ensure the safety of the new energy battery when the new energy battery is placed in the cabinet or charged.

Description

New energy battery energy storage cabinet

Technical Field

The utility model relates to the technical field of fire-fighting equipment, in particular to a new energy battery energy storage cabinet.

Background

With the rapid development of lithium battery technology, it is common that lithium ion batteries are applied to Megawatt (MW) class energy storage systems, and most of battery packs of the MW class energy storage systems adopt new battery packs, and the new battery packs are placed in a battery energy storage cabinet. When the battery pack is placed in the battery energy storage cabinet, the battery energy storage cabinet is also required to be provided with fire-fighting equipment for the needs at intervals, so that potential safety hazards are prevented.

However, the existing battery energy storage cabinet does not have the fire-fighting function, and potential safety hazards are large when the battery energy storage cabinet is used, so that the battery energy storage cabinet is needed to be provided for use.

Disclosure of Invention

The utility model provides a new energy battery energy storage cabinet to solve the technical problems.

The utility model provides a new energy battery energy storage cabinet which comprises an energy storage cabinet body, a fire-fighting cabinet and a fire-extinguishing agent bottle group, wherein the energy storage cabinet body is horizontally arranged, the fire-fighting cabinet is positioned at the side of the energy storage cabinet body, the fire-extinguishing agent bottle group is positioned in the fire-fighting cabinet, and a fire-extinguishing pipeline extending into the energy storage cabinet body is arranged on the fire-extinguishing agent bottle group.

Further, the energy storage cabinet body is a frame structure, the energy storage cabinet body is internally provided with a plurality of vertically arranged partition plates and a plurality of horizontally arranged placing plates, the energy storage cabinet body is divided into a plurality of battery placing grooves for storing new energy batteries by the plurality of partition plates and the plurality of placing plates, a plurality of cabinet doors are arranged outside the energy storage cabinet body, and a certain gap is reserved between the cabinet doors and the placing plates.

Further, when the placing plates are arranged between two adjacent clapboards, the left end, the right end and the rear end of the clapboard are provided with certain gaps with the corresponding clapboards and the rear wall of the energy storage cabinet body, and certain gaps are reserved when the clapboards are arranged in the energy storage cabinet body.

Further, two fire extinguishing agent bottle groups are arranged in the fire cabinet symmetrically, each fire extinguishing agent bottle group is provided with a pressure gauge, a container valve, an electromagnetic valve and a one-way valve, the two fire extinguishing agent bottle groups are communicated through a current collecting tee joint, a signal feedback device is arranged on the current collecting tee joint, and a main pipeline extending out of the fire cabinet is arranged on the signal feedback device.

Further, one end of the fire extinguishing pipeline is communicated with the main pipeline, the other end of the fire extinguishing pipeline extends to two ends in the energy storage cabinet body, a spray head is arranged at the other end of the fire extinguishing pipeline, two sensors are arranged on the spray head, and the sensors are electrically connected with the signal feedback device.

Compared with the prior art, the novel energy battery energy storage cabinet provided by the utility model has the following improvements and advantages:

when the new energy battery energy storage cabinet is used, the new energy battery is placed in the battery placing groove, when the energy storage cabinet body is in fire disaster, a sensor on a spray head in the energy storage cabinet body senses a signal with the fire disaster, the signal is fed back to the signal feedback device, the signal feedback device can control the fire extinguishing agent bottle group to work so as to convey fire extinguishing foam into the energy storage cabinet body through the main pipeline and the fire extinguishing pipeline, and fire in the energy storage cabinet body is extinguished.

Drawings

FIG. 1 is a first perspective view of the present utility model;

FIG. 2 is a schematic view of a second perspective structure of the present utility model;

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

FIG. 4 is a schematic view of a fire suppressant bottle set of the present utility model;

reference numerals illustrate:

the fire-extinguishing agent tank comprises an energy storage cabinet body 1, a partition plate 11, a placing plate 12, a battery placing groove 13, a cabinet door 14, a fire-extinguishing cabinet 2, a fire-extinguishing agent bottle group 3, a pressure gauge 31, a container valve 32, an electromagnetic valve 33, a one-way valve 34, a signal feedback device 35, a collecting tee 36, a main pipeline 37, a fire-extinguishing pipeline 4 and a spray head 41.

Detailed Description

The following detailed description of the present utility model will provide clear and complete description of the technical solutions of the embodiments of the present utility model, with reference to fig. 1 to 4, and it is obvious that the described embodiments are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The utility model provides a new energy battery energy storage cabinet through improvement, which comprises an energy storage cabinet body 1, a fire-extinguishing cabinet 2 and a fire-extinguishing agent bottle group 3, wherein the energy storage cabinet body 1 is horizontally arranged, the fire-extinguishing cabinet 2 is positioned at the side of the energy storage cabinet body 1, the fire-extinguishing agent bottle group 3 is positioned in the fire-extinguishing cabinet 2, and a fire-extinguishing pipeline 4 extending into the energy storage cabinet body 1 is arranged on the fire-extinguishing agent bottle group 3.

Working principle: when the new energy battery energy storage cabinet is used, the new energy battery is placed in the battery placing groove 13, when the energy storage cabinet body 1 is in a fire disaster, a sensor positioned on a spray head 41 in the energy storage cabinet body 1 senses a fire disaster signal, the signal is fed back to the signal feedback device 35, the signal feedback device 35 controls the fire extinguishing agent bottle group 3 to work so as to convey fire extinguishing foam into the energy storage cabinet body 1 through the main pipeline 37 and the fire extinguishing pipeline 4, and fire in the energy storage cabinet body 1 is extinguished, and because the energy storage cabinet body 1 is of a frame structure and has gaps, the gaseous fire extinguishing agent can be quickly diffused into the energy storage cabinet body 1 to extinguish the fire in the energy storage cabinet body 1 during fire extinguishing.

Specifically, the energy storage cabinet body 1 is of a frame structure, a plurality of vertically arranged partition plates 11 and a plurality of horizontally arranged placing plates 12 are arranged in the energy storage cabinet body 1, the plurality of partition plates 11 and the plurality of placing plates 12 divide the interior of the energy storage cabinet body 1 into a plurality of battery placing grooves 13 for storing new energy batteries, a plurality of cabinet doors 14 are arranged outside the energy storage cabinet body 1, and a certain gap is reserved between the cabinet doors 14 and the placing plates 12; when the placing plates 12 are arranged between two adjacent partition plates 11, certain gaps are reserved between the left end, the right end and the rear end of each partition plate 11 and the rear wall of the corresponding partition plate 11 and the rear wall of the energy storage cabinet body 1, and certain gaps are reserved when the partition plates 11 are installed in the energy storage cabinet body 1. Certain gaps are reserved among the placing plates 12, the partition plates 11, the energy storage cabinet body 1 and the cabinet door 14, so that the gaseous extinguishing agent can be conveyed to a fire place through the corresponding gaps rapidly when a fire disaster occurs, the fire can be extinguished, and heat can be dissipated in the energy storage cabinet body 1 when the fire disaster extinguishing agent is used.

Specifically, the two fire extinguishing agent bottle groups 3 are provided with two groups, the two fire extinguishing agent bottle groups 3 are symmetrically arranged in the fire cabinet 2, each fire extinguishing agent bottle group 3 is provided with a pressure gauge 31, a container valve 32, an electromagnetic valve 33 and a one-way valve 34, the two fire extinguishing agent bottle groups 3 are communicated through a current collecting tee 36, the current collecting tee 36 is provided with a signal feedback device 35, and the signal feedback device 35 is provided with a main pipeline 37 extending out of the fire cabinet 2; it is known in the art how to automatically eject the gaseous extinguishing agent from the extinguishing agent bottle group 3. The two fire extinguishing agent bottle groups 3 are arranged, so that the fire extinguishing time is longer, and the fire extinguishing effect is better.

Specifically, one end of the fire extinguishing pipeline 4 is communicated with the main pipeline 37, the other end of the fire extinguishing pipeline 4 extends to two ends in the energy storage cabinet body 1, a spray head 41 is arranged at the other end of the fire extinguishing pipeline 4, two sensors are arranged on the spray head 41, and the sensors are electrically connected with the signal feedback device 35; the sensor is a temperature sensor or a smoke sensor; the model of the high temperature sensor is PT1000; the model of the smoke sensor is MQ-K2; the temperature sensor or the smoke sensor can sense whether the energy storage cabinet body 1 has fire, and after the fire occurs, signals are transmitted to the signal feedback device 35 on the fire extinguishing agent bottle group 3, so that the fire extinguishing agent in the fire extinguishing agent bottle group 3 generating gas can be controlled to perform fire extinguishing operation in the energy storage cabinet body 1.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present utility model. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present utility model is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (3)

1. The utility model provides a new forms of energy battery energy storage cabinet which characterized in that: the fire extinguishing agent tank comprises an energy storage tank body (1), a fire extinguishing cabinet (2) and a fire extinguishing agent bottle group (3), wherein the energy storage tank body (1) is horizontally arranged, the fire extinguishing cabinet (2) is positioned beside the energy storage tank body (1), the fire extinguishing agent bottle group (3) is positioned in the fire extinguishing cabinet (2), and a fire extinguishing pipeline (4) extending into the energy storage tank body (1) is arranged on the fire extinguishing agent bottle group (3);

the energy storage cabinet body (1) is of a frame structure, a plurality of vertically arranged partition plates (11) and a plurality of horizontally arranged placing plates (12) are arranged in the energy storage cabinet body (1), the energy storage cabinet body (1) is divided into a plurality of battery placing grooves (13) for storing new energy batteries by the plurality of partition plates (11) and the plurality of placing plates (12), a plurality of cabinet doors (14) are arranged outside the energy storage cabinet body (1), and a certain gap is reserved between each cabinet door (14) and each placing plate (12);

the left end, the right end and the rear end of each partition board (11) are provided with a certain gap with the corresponding partition boards (11) and the rear wall of the energy storage cabinet body (1) when the placing boards (12) are arranged between the two adjacent partition boards (11), and a certain gap is reserved when the partition boards (11) are arranged in the energy storage cabinet body (1).

2. The new energy battery energy storage cabinet according to claim 1, wherein two fire extinguishing agent bottle groups (3) are arranged, the two fire extinguishing agent bottle groups (3) are symmetrically arranged in the fire extinguishing cabinet (2), a pressure gauge (31), a container valve (32), an electromagnetic valve (33) and a one-way valve (34) are arranged on each fire extinguishing agent bottle group (3), the two fire extinguishing agent bottle groups (3) are communicated through a current collecting tee joint (36), a signal feedback device (35) is arranged on the current collecting tee joint (36), and a main pipeline (37) extending out of the fire extinguishing cabinet (2) is arranged on the signal feedback device (35).

3. A new energy battery energy storage cabinet according to claim 2, characterized in that one end of the fire extinguishing pipeline (4) is communicated with the main pipeline (37), the other end of the fire extinguishing pipeline (4) extends to two ends in the energy storage cabinet body (1), a spray head (41) is arranged at the other end of the fire extinguishing pipeline (4), two sensors are arranged on the spray head (41), and the sensors are electrically connected with the signal feedback device (35).