CN210152348U - Energy storage bin type system based on multi-fireproof separation - Google Patents

Abstract

The utility model relates to an energy storage storehouse formula system based on many fire protections are divided belongs to battery energy storage system application technical field. The energy storage container bin is divided into n battery energy storage intervals and 1 energy storage container bin equipment interval through the fire-proof plates in the energy storage bin areas, so that the installation and maintenance are convenient, the regulation and the management of the environmental temperature are facilitated, the probability of accidents is reduced, and meanwhile, once the phenomena of overcharge, overdischarge and short circuit till explosion occur in the energy storage operation process, the fire extinguishing action of the fire extinguishing system is conveniently implemented in the specific cells in the divided small fire-proof intervals, the fire extinguishing efficiency and the effectiveness of the fire extinguishing system are improved, the defect that the fire extinguishing system extinguishes the whole container when the batteries are damaged and exploded is difficult to extinguish the fire in the specific cells so that the fire extinguishing efficiency and the effectiveness of the fire extinguishing system are greatly reduced is overcome, and the energy storage battery system is simple, feasible and one of effective solutions for fire control setting of the battery energy storage system.

Description

Energy storage bin type system based on multi-fireproof separation

Technical Field

The utility model belongs to the technical field of battery energy storage system uses, concretely relates to energy storage storehouse formula system based on many fires prevention is divided.

Background

The large-scale electrochemical energy storage system has the rapid and bidirectional power regulation effect, is one of effective facilities and key modes for stably operating a power grid and increasing the flexibility regulation capacity of the power grid, particularly has important effects on the large-scale power generation grid connection of wind power with high permeability and new photoelectric energy power and the safety of a transmitting end and a receiving end of a high-voltage power transmission channel, has important and irreplaceable effects on the smooth support of power frequency modulation and peak shaving and the widening of the utilization rate of the power transmission channel, is also an effective mode for improving the resource utilization rate and the power utilization economy by peak shaving and valley filling at the side of a power utilization user, is widely concerned and is increasingly applied.

When the battery energy storage system is applied in a large number, accidents and burning events of the battery energy storage system are also continuous, particularly when one battery is damaged and is overcharged, overdischarged and easy to generate short circuit, liquid leakage and fire explosion accidents and risks in the energy storage operation process, the fire extinguishing system extinguishes the whole container, the fire extinguishing is difficult to implement aiming at the fire explosion battery interval, the fire extinguishing efficiency and effectiveness are greatly reduced, the whole energy storage container is always burnt out, the property and life safety are seriously damaged, and the accidents of the battery energy storage system, the burning and the accident control are urgently needed.

Disclosure of Invention

In order to improve fire extinguishing efficiency and validity of fire extinguishing system and the defect among the prior art of solution, the utility model provides a based on many divided energy storage storehouse formula system of preventing fires mainly includes: an energy storage container bin, a 1 st battery placing bracket cabinet, a 2 nd battery placing bracket cabinet, an ith battery placing bracket cabinet, a jth battery placing bracket cabinet, an nth battery placing bracket cabinet, a 1 st energy storage bin area passage, a 2 nd energy storage bin area passage, an ith energy storage bin area passage, a jth energy storage bin area passage, an nth energy storage bin area passage, a 1 st energy storage bin area fireproof plate, a 2 nd energy storage bin area fireproof plate, an ith energy storage bin area fireproof plate, a jth energy storage bin area fireproof plate, an nth energy storage bin area fireproof plate, an energy storage container bin energy storage end side door, an energy storage container bin equipment area, energy storage bin equipment, an energy storage bin area passage A door, a 1 st energy storage bin area passage B door, a 2 nd energy storage bin area passage A door, a 2 nd energy storage bin area passage B door, An ith energy storage bin area channel A door, an ith energy storage bin area channel B door, a jth energy storage bin area channel A door, a jth energy storage bin area channel B door, an nth energy storage bin area channel A door, an nth energy storage bin area channel B door, wherein:

the energy storage container cabin is divided into n battery energy storage areas and 1 energy storage container cabin equipment area through a 1 st energy storage cabin area fire-proof plate, a 2 nd energy storage cabin area fire-proof plate, an i th energy storage cabin area fire-proof plate, a j th energy storage cabin area fire-proof plate and an n th energy storage cabin area fire-proof plate;

the 1 st battery placing support cabinet is arranged on one side opposite to the 1 st energy storage cabin area fireproof plate, a 1 st energy storage cabin area channel is arranged between the 1 st battery placing support cabinet and the 1 st energy storage cabin area fireproof plate, and a 1 st energy storage cabin area channel A door and a 1 st energy storage cabin area channel B door are respectively arranged on two sides of the 1 st energy storage cabin area channel;

the 2 nd battery placing support cabinet is arranged on one side opposite to the 2 nd energy storage cabin area fireproof plate, a 2 nd energy storage cabin area channel is arranged between the 2 nd battery placing support cabinet and the 2 nd energy storage cabin area fireproof plate, and a 2 nd energy storage cabin area channel A door and a 2 nd energy storage cabin area channel B door are respectively arranged on two sides of the 2 nd energy storage cabin area channel;

an ith battery placing support cabinet is arranged on one side opposite to the 1 st energy storage cabin area fireproof plate, an ith energy storage cabin area channel is arranged between the ith battery placing support cabinet and the ith energy storage cabin area fireproof plate, and an ith energy storage cabin area channel A door and an ith energy storage cabin area channel B door are respectively arranged on two sides of the ith energy storage cabin area channel;

the jth battery placing support cabinet is arranged on one side opposite to the jth energy storage cabin area fireproof plate, a jth energy storage cabin area channel is arranged between the jth battery placing support cabinet and the jth energy storage cabin area fireproof plate, and a jth energy storage cabin area channel A door and a jth energy storage cabin area channel B door are respectively arranged on two sides of the jth energy storage cabin area channel;

the nth battery placing support cabinet is arranged on one side opposite to the nth energy storage cabin area fireproof plate, an nth energy storage cabin area channel is arranged between the nth battery placing support cabinet and the nth energy storage cabin area fireproof plate, and an nth energy storage cabin area channel A door and an nth energy storage cabin area channel B door are respectively arranged on two sides of the nth energy storage cabin area channel;

the energy storage bin equipment and the energy storage bin fire-fighting equipment are arranged in the energy storage container bin equipment region through the end side door of the energy storage container bin equipment;

and the 1 st battery of the battery placing support cabinet is installed and maintained through the side door of the energy storage end of the energy storage container bin.

The energy storage bin type system based on multiple fireproof partitions is characterized in that a 1 st energy storage bin area fireproof plate, a 2 nd energy storage bin area fireproof plate, a jth energy storage bin area fireproof plate and an nth energy storage bin area fireproof plate are assembled fireproof partition plates respectively and are installed after a battery and equipment are installed.

An energy storage bin type system based on multi-fire separation belongs to the technical field of battery energy storage system application. The energy storage container bin is divided into n battery energy storage intervals and 1 energy storage container bin equipment interval through the fire-proof plates in the energy storage bin areas, so that the installation and maintenance are convenient, the regulation and the management of the environmental temperature are facilitated, the probability of accidents is reduced, and meanwhile, once the phenomena of overcharge, overdischarge and short circuit till explosion occur in the energy storage operation process, the fire extinguishing action of the fire extinguishing system is conveniently implemented in the specific cells in the divided small fire-proof intervals, the fire extinguishing efficiency and the effectiveness of the fire extinguishing system are improved, the defect that the fire extinguishing system extinguishes the whole container when the batteries are damaged and exploded is difficult to extinguish the fire in the specific cells so that the fire extinguishing efficiency and the effectiveness of the fire extinguishing system are greatly reduced is overcome, and the energy storage battery system is simple, feasible and one of effective solutions for fire control setting of the battery energy storage system.

Drawings

Fig. 1 is a schematic diagram of the structure and principle of an energy storage bin system based on multiple fire partitions.

Detailed Description

An energy storage bin system based on multiple fire partitions is described as an example of an implementation with reference to the accompanying drawings, however, the described embodiments are part, rather than all, of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention. The technology and the scheme of the utility model are not limited to the content given in this embodiment.

As shown in fig. 1, an energy storage bin system based on multiple fire partitions mainly includes: an energy storage container warehouse (10), a 1 st battery placing bracket cabinet (11), a 2 nd battery placing bracket cabinet (12), an ith battery placing bracket cabinet (1i), a jth battery placing bracket cabinet (1j), a nth battery placing bracket cabinet (1n), a 1 st energy storage warehouse area channel (21), a 2 nd energy storage warehouse area channel (22), an ith energy storage warehouse area channel (2i), a jth energy storage warehouse area channel (2j), an nth energy storage warehouse area channel (2n), a 1 st energy storage warehouse area fire-proof plate (31), a 2 nd energy storage warehouse area fire-proof plate (32), an ith energy storage warehouse area fire-proof plate (3i), a jth energy storage warehouse area fire-proof plate (3j), an nth energy storage warehouse area fire-proof plate (3n), an energy storage container warehouse energy storage end side door (41), an energy storage container warehouse equipment end side door (42), an energy storage container warehouse equipment area (50), Energy storage compartment equipment (60), energy storage compartment fire-fighting equipment (70), energy storage compartment district passageway A door (211) of 1 st, energy storage compartment district passageway B door (212) of 1 st, energy storage compartment district passageway A door (221) of 2 nd, energy storage compartment district passageway B door (222) of 2 nd, energy storage compartment district passageway A door (2i1) of ith, energy storage compartment district passageway B door (2i2), energy storage compartment district passageway A door (2j1) of jth, energy storage compartment district passageway B door (2j2) of nth, energy storage compartment district passageway A door (2n1) of nth, energy storage compartment district passageway B door (2n2) of nth, wherein:

the energy storage container bin (10) is divided into n battery energy storage areas and 1 energy storage container bin equipment area (50) through a 1 st energy storage bin area fireproof plate (31), a 2 nd energy storage bin area fireproof plate (32), an ith energy storage bin area fireproof plate (3i), a jth energy storage bin area fireproof plate (3j) and an nth energy storage bin area fireproof plate (3 n);

a 1 st battery placing support cabinet (11) is arranged on one side opposite to the 1 st energy storage chamber area fireproof plate (31), a 1 st energy storage chamber area channel (21) is arranged between the 1 st battery placing support cabinet (11) and the 1 st energy storage chamber area fireproof plate (31), and a 1 st energy storage chamber area channel A door (211) and a 1 st energy storage chamber area channel B door (212) are respectively arranged on two sides of the 1 st energy storage chamber area channel (21);

a 2 nd battery placing support cabinet (12) is arranged on one side opposite to the 2 nd energy storage chamber area fireproof plate (32), a 2 nd energy storage chamber area channel (22) is arranged between the 2 nd battery placing support cabinet (12) and the 2 nd energy storage chamber area fireproof plate (32), and a 2 nd energy storage chamber area channel A door (221) and a 2 nd energy storage chamber area channel B door (222) are respectively arranged on two sides of the 2 nd energy storage chamber area channel (22);

an ith battery placing support cabinet (1i) is installed on one side opposite to a fireproof plate (3i) of a 1 st energy storage cabin area, an ith energy storage cabin area channel (2i) is arranged between the ith battery placing support cabinet (1i) and the fireproof plate (3i) of the ith energy storage cabin area, and an ith energy storage cabin area channel A door (2i1) and an ith energy storage cabin area channel B door (2i2) are respectively arranged on two sides of the ith energy storage cabin area channel (2 i);

a jth battery placing support cabinet (1j) is arranged on the opposite side of a jth energy storage cabin area fireproof plate (3j), a jth energy storage cabin area channel (2j) is arranged between the jth battery placing support cabinet (1j) and the jth energy storage cabin area fireproof plate (3j), and a jth energy storage cabin area channel A door (2j1) and a jth energy storage cabin area channel B door (2j2) are respectively arranged on two sides of the jth energy storage cabin area channel (2 j);

the nth battery placing support cabinet (1n) is arranged on one side opposite to the nth energy storage cabin area fireproof plate (3n), an nth energy storage cabin area channel (2n) is arranged between the nth battery placing support cabinet (1n) and the nth energy storage cabin area fireproof plate (3n), and an nth energy storage cabin area channel A door (2n1) and an nth energy storage cabin area channel B door (2n2) are respectively arranged on two sides of the nth energy storage cabin area channel (2 n);

the energy storage bin equipment (60) and the energy storage bin fire-fighting equipment (70) are arranged in the energy storage container bin equipment area (50) through an energy storage container bin equipment end side door (42);

the batteries of the No. 1 battery placing bracket cabinet (11) are installed and maintained through an energy storage end side door (41) of an energy storage container bin.

The energy storage bin type system based on multiple fire partitions is characterized in that a 1 st energy storage bin area fireproof plate (31), a 2 nd energy storage bin area fireproof plate (32), an ith energy storage bin area fireproof plate (3i), a jth energy storage bin area fireproof plate (3j) and an nth energy storage bin area fireproof plate (3n) are assembled fireproof partition plates respectively and are installed after a battery and equipment are installed.

An energy storage bin type system based on multi-fire separation belongs to the technical field of battery energy storage system application. The energy storage container bin is divided into n battery energy storage intervals and 1 energy storage container bin equipment interval through the fire-proof plates in the energy storage bin areas, so that the installation and maintenance are convenient, the regulation and the management of the environmental temperature are facilitated, the probability of accidents is reduced, and meanwhile, once the phenomena of overcharge, overdischarge and short circuit till explosion occur in the energy storage operation process, the fire extinguishing action of the fire extinguishing system is conveniently implemented in the specific cells in the divided small fire-proof intervals, the fire extinguishing efficiency and the effectiveness of the fire extinguishing system are improved, the defect that the fire extinguishing system extinguishes the whole container when the batteries are damaged and exploded is difficult to extinguish the fire in the specific cells so that the fire extinguishing efficiency and the effectiveness of the fire extinguishing system are greatly reduced is overcome, and the energy storage battery system is simple, feasible and one of effective solutions for fire control setting of the battery energy storage system.

Claims (2)

1. An energy storage bin type system based on multi-fire separation mainly comprises: an energy storage container warehouse (10), a 1 st battery placing bracket cabinet (11), a 2 nd battery placing bracket cabinet (12), an ith battery placing bracket cabinet (1i), a jth battery placing bracket cabinet (1j), a nth battery placing bracket cabinet (1n), a 1 st energy storage warehouse area channel (21), a 2 nd energy storage warehouse area channel (22), an ith energy storage warehouse area channel (2i), a jth energy storage warehouse area channel (2j), an nth energy storage warehouse area channel (2n), a 1 st energy storage warehouse area fire-proof plate (31), a 2 nd energy storage warehouse area fire-proof plate (32), an ith energy storage warehouse area fire-proof plate (3i), a jth energy storage warehouse area fire-proof plate (3j), an nth energy storage warehouse area fire-proof plate (3n), an energy storage container warehouse energy storage end side door (41), an energy storage container warehouse equipment end side door (42), an energy storage container warehouse equipment area (50), Energy storage compartment equipment (60), energy storage compartment fire-fighting equipment (70), energy storage compartment district passageway A door (211) of 1 st, energy storage compartment district passageway B door (212) of 1 st, energy storage compartment district passageway A door (221) of 2 nd, energy storage compartment district passageway B door (222) of 2 nd, energy storage compartment district passageway A door (2i1) of ith, energy storage compartment district passageway B door (2i2), energy storage compartment district passageway A door (2j1) of jth, energy storage compartment district passageway B door (2j2) of nth, energy storage compartment district passageway A door (2n1) of nth, energy storage compartment district passageway B door (2n2) of nth, wherein:

the energy storage container bin (10) is divided into n battery energy storage areas and 1 energy storage container bin equipment area (50) through a 1 st energy storage bin area fireproof plate (31), a 2 nd energy storage bin area fireproof plate (32), an ith energy storage bin area fireproof plate (3i), a jth energy storage bin area fireproof plate (3j) and an nth energy storage bin area fireproof plate (3 n);

a 1 st battery placing support cabinet (11) is arranged on one side opposite to the 1 st energy storage chamber area fireproof plate (31), a 1 st energy storage chamber area channel (21) is arranged between the 1 st battery placing support cabinet (11) and the 1 st energy storage chamber area fireproof plate (31), and a 1 st energy storage chamber area channel A door (211) and a 1 st energy storage chamber area channel B door (212) are respectively arranged on two sides of the 1 st energy storage chamber area channel (21);

a 2 nd battery placing support cabinet (12) is arranged on one side opposite to the 2 nd energy storage chamber area fireproof plate (32), a 2 nd energy storage chamber area channel (22) is arranged between the 2 nd battery placing support cabinet (12) and the 2 nd energy storage chamber area fireproof plate (32), and a 2 nd energy storage chamber area channel A door (221) and a 2 nd energy storage chamber area channel B door (222) are respectively arranged on two sides of the 2 nd energy storage chamber area channel (22);

an ith battery placing support cabinet (1i) is installed on one side opposite to a fireproof plate (3i) of a 1 st energy storage cabin area, an ith energy storage cabin area channel (2i) is arranged between the ith battery placing support cabinet (1i) and the fireproof plate (3i) of the ith energy storage cabin area, and an ith energy storage cabin area channel A door (2i1) and an ith energy storage cabin area channel B door (2i2) are respectively arranged on two sides of the ith energy storage cabin area channel (2 i);

a jth battery placing support cabinet (1j) is arranged on the opposite side of a jth energy storage cabin area fireproof plate (3j), a jth energy storage cabin area channel (2j) is arranged between the jth battery placing support cabinet (1j) and the jth energy storage cabin area fireproof plate (3j), and a jth energy storage cabin area channel A door (2j1) and a jth energy storage cabin area channel B door (2j2) are respectively arranged on two sides of the jth energy storage cabin area channel (2 j);

the nth battery placing support cabinet (1n) is arranged on one side opposite to the nth energy storage cabin area fireproof plate (3n), an nth energy storage cabin area channel (2n) is arranged between the nth battery placing support cabinet (1n) and the nth energy storage cabin area fireproof plate (3n), and an nth energy storage cabin area channel A door (2n1) and an nth energy storage cabin area channel B door (2n2) are respectively arranged on two sides of the nth energy storage cabin area channel (2 n);

the energy storage bin equipment (60) and the energy storage bin fire-fighting equipment (70) are arranged in the energy storage container bin equipment area (50) through an energy storage container bin equipment end side door (42);

the batteries of the No. 1 battery placing bracket cabinet (11) are installed and maintained through an energy storage end side door (41) of an energy storage container bin.

2. The energy storage bin type system based on multiple fire partitions is characterized in that a 1 st energy storage bin region fire-proof plate (31), a 2 nd energy storage bin region fire-proof plate (32), an ith energy storage bin region fire-proof plate (3i), a jth energy storage bin region fire-proof plate (3j) and an nth energy storage bin region fire-proof plate (3n) are assembled fire-proof partition plates respectively and are installed after a battery and equipment are installed.

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