CN113839131A - Subdivision formula energy storage battery container - Google Patents

Abstract

The utility model provides a subdivision formula energy storage battery container, belong to energy storage battery and store the field, the whole storage of energy storage battery has mainly been solved, the single battery appears on fire, other battery are whole to be on fire and patrol and examine inconvenient problem, box including the cuboid structure, bilateral symmetry is provided with a plurality of battery doors in succession around the box, the both sides of battery door are provided with the air outlet, the inside of box divide into workspace and automatically controlled district, the inside battery support that is provided with of workspace, battery support's both sides are provided with refrigerating plant, refrigerating plant is connected with the air outlet, the top is connected with the wind channel, wherein one side refrigerating plant's another side is automatically controlled district, the refrigerating plant's of opposite side another side is provided with fire extinguishing system. Use the subdivision structure to store and place energy storage battery, with the energy storage battery separation, prevent that single energy storage battery from influencing the battery of whole battery holder, the bilateral symmetry sets up simultaneously, can follow the battery door of both sides and examine the energy storage battery of inside, and convenient and fast promotes staff's security.

Description

Subdivision formula energy storage battery container

Technical Field

The invention belongs to the field of storage of energy storage batteries, and particularly relates to a cabin type energy storage battery container.

Background

With the continuous development of various power generation technologies, particularly the development of wind power generation and solar power generation technologies, the energy storage technology is valued to a certain extent, the current energy storage mode mainly uses energy storage batteries for energy storage, the current energy storage batteries are used for storing an integral container, except for a fire-fighting part and an electric control part, all the energy storage batteries are concentrated in a battery compartment, in the use process of the batteries, individual batteries always have faults, smoke and fire can be generated seriously, fire can be generated, when all the batteries are in the same battery compartment, the temperature can be raised due to single fire, other batteries in the same compartment can also be ignited, a large amount of fire can be generated, once the fire is generated, the damage is great, the loss is serious, the battery clusters are arranged on two sides, a compartment-type structure is not adopted, when the battery container is used for inspection, the side door of the container needs to be opened, the inspection personnel enter the container for operation, and the danger coefficient is very high.

Disclosure of Invention

In order to solve the defects in the prior art, the invention provides a cabin type energy storage battery container, which uses a special cabin type container to place energy storage batteries and is provided with a monitoring device and a cooling device to reduce the probability of battery fire.

A compartment type energy storage battery container comprises a box body which is of a cuboid structure and is characterized in that a plurality of battery doors are symmetrically and continuously arranged on the front side and the rear side of the box body, air outlets are respectively arranged on the two sides of each battery door, two side doors are also arranged on the left side and the right side of the box body, the interior of the box body is divided into a working area and an electric control area, a battery support is arranged in the working area, the front side and the rear side of the battery support are symmetrically divided into a plurality of vertically arranged cabins, the cabins correspond to the battery doors on the two sides of the box body, refrigerating devices are arranged on the two sides of the battery support, the lower part of each refrigerating device is connected with the air outlets on the two sides, an air duct is connected above the refrigerating devices, a smoke detector and a temperature sensor are also arranged on the top of the box body, the other side of one refrigerating device is the electric control area, a plurality of confluence cabinets are arranged in the electric control area, and finally lines are intensively connected into a power distribution cabinet, the other side of the refrigerating device at the other side is provided with a fire-fighting system.

Use the container box as storing the main part, inside is provided with the battery support that the subdivision set up, every cabin is all just to having solitary battery door, satisfy the security requirement that the battery patrolled and examined, set up refrigerating plant in battery support both sides simultaneously, guarantee energy storage battery's storage temperature, the top is provided with smoke detector and temperature sensor, if the battery catches fire, the temperature risees, when smoke concentration risees, surpass the detector setting value and report to the police promptly and inform operating personnel, the fire control unit who utilizes one side to set up can in time put out a fire, the battery support of subdivision design also can guarantee that all the other batteries can not receive the arrival, reduce the accident cost, the automatically controlled district that the opposite side set up is to each part circuit connection parallel parameter setting, guarantee device normal operating.

Further, the inside rock wool heat preservation that has filled of wall body of box, rock wool heat preservation thickness are not less than 50mm, and the wall body outside is the corrugated sheet, and the battery door is double-deck iron plate infill rock wool, and the inside of box all covers there is the rock wool purifying plate. The box body is wholly filled with a rock wool heat-insulating layer and covered with a rock wool purification plate, and the rock wool is used as an engineering material and has the characteristics of heat preservation, fire prevention, sound insulation, moisture prevention, light weight, environmental protection and the like.

Furthermore, all be provided with pressure relief device on the battery door, all install the container lock on the battery door. Pressure relief device prevents when inside emergence danger, in time goes out inside gaseous release, prevents to explode, and installation container lock is fixed the battery door on the battery door, can not opened at will, receives external environment influence.

Further, the battery support divide into the wind channel district and places the district, and the wind channel district is located the top, places district front and back symmetry, and the centre uses the baffle to separate, and each side all is cut apart into the cabin of vertical setting by the baffle. The air duct area above is used for placing the air duct of the cooling device, the placing area is symmetrical front and back, energy storage batteries can be placed as many as possible, and meanwhile, the whole energy storage batteries can be conveniently inspected from two sides.

Furthermore, each cabin of the battery bracket is provided with a plurality of supporting plates. Because energy storage battery will be placed in the cabin of battery support, consequently set up the backup pad and can divide into the multilayer at every cabin and place energy storage battery, the height on every layer can be adjusted according to energy storage battery's height.

Furthermore, two air ducts are connected to the front side and the rear side of the refrigerating device, the air ducts are arranged in the air duct area of the battery support, the tail ends of the air ducts extend to the middle position of the air duct area, and gaps are reserved between the air ducts on the left side and the right side. Four air ducts are symmetrically arranged on two sides of the battery support to cool the inner space.

Furthermore, the smoke detectors are symmetrically arranged on two sides of a middle partition plate of the battery support, a plurality of pairs are arranged at intervals, the temperature sensors are symmetrically arranged on two sides of the edge of the box body, the arrangement range of the temperature sensors is the same as that of the smoke detectors, and the pairs are arranged at intervals. A smoke detector and a temperature sensor are arranged to detect the internal temperature and smoke concentration, and an alarm is given when the internal temperature and smoke concentration exceed a set value.

Furthermore, the top of the electric control area is also provided with an access hole leading to the working area, and two side surfaces of the electric control area are respectively provided with a pressure relief device. The device at operating personnel accessible access hole top is overhauld the workspace, is provided with pressure relief device on both sides face, and is the same with the device on the battery door, when preventing that danger from appearing in inside, in time goes out inside gaseous release, prevents to explode.

Further, fire extinguishing system links to each other and sets up the piece that catchments at the box inboard including setting up the fire control water inlet in the box outside with the fire control water inlet, and the piece that catchments is connected with the water pipe, lays the workspace top from the box top. The fire-fighting water inlet is connected with a fire-fighting pipeline from the outside, the water collecting block divides water into a plurality of water outlet channels, and water is sprayed to different positions to extinguish fire.

Furthermore, four water pipes are arranged and are divided into two groups which are respectively paved on the front area and the rear area of the battery support, each group is provided with two water pipes which are paved on two sides of the middle partition plate of the battery support, one water pipe in each group is paved on the refrigerating device on the other side, the other water pipe is paved on the middle gap of the air duct, and a plurality of spray heads are arranged below the water pipes at intervals. The water collecting block divides water flow into four water outlet channels, the front side and the rear side of the battery support are covered, one water pipe on one side covers the opposite side face of the battery support, the other water pipe covers the central position of the battery support, the whole area of the battery support is covered, and meanwhile, the water pipes adopt a spraying mode to extinguish fire.

Compared with the prior art, the invention has the beneficial effects that:

1. the interior of the box body is divided into a plurality of cabin battery supports, and a support plate is arranged in each cabin to store the energy storage batteries in different cabins, so that the situation that the temperature of a single energy storage battery is too high and even the single energy storage battery is on fire is prevented from affecting other batteries, and the accident cost is reduced;

2. the battery supports are symmetrically arranged from two sides, the width of one single side is proper, the staff can check the energy storage battery from the battery doors on the two sides during inspection, the staff is prevented from entering the internal space for inspection, convenience and rapidness are realized, the safety is high, and various problem faults can be quickly handled by the battery doors arranged on the two sides;

3. the battery support both sides are provided with refrigerating plant to cool down the storage environment of energy storage battery through four large-scale wind channels, and the top is supporting to be equipped with temperature and flue gas induction system, monitors the storage environment of energy storage battery, and the trouble that can in time discover the battery and appear informs operating personnel.

Drawings

Fig. 1 is a schematic structural diagram of a cabin-type energy storage battery container according to a preferred embodiment of the present invention;

FIG. 2 is a rear view of the preferred embodiment;

FIG. 3 is a schematic elevation view of the preferred embodiment;

FIG. 4 is a schematic top view of the preferred embodiment;

FIG. 5 is a front view of the battery holder;

FIG. 6 is a top view of the battery holder;

wherein: 1. a box body; 2. a battery door; 3. a refrigeration device; 4. a pressure relief device; 5. a fire-fighting water inlet; 6. a support; 7. a combiner cabinet; 8. an access hole; 9. a power distribution cabinet; 31. an air outlet; 32. an air duct; 51. a water collection block; 52. a water pipe; 61. a cabin; 62. a support plate; 63. an air duct area; 64. a placement area; 101. a smoke detector; 102. a temperature sensor.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the following detailed description of the technical solutions of the preferred embodiments of the present invention is provided with reference to the accompanying drawings.

A compartment type energy storage battery container comprises a box body 1, the box body 1 is of a cuboid structure, six battery doors 2 are symmetrically and continuously arranged on the front side and the rear side of the box body 1, twelve battery doors 2 are arranged on the two sides, a pressure relief device 4 is arranged on each battery door 2 and used for quickly releasing gas in the box body in emergency to prevent explosion, a container lock is arranged on each battery door 2 for fixing, a rock wool heat insulation layer is filled in the wall body of the box body 1, the thickness of the rock wool heat insulation layer is not less than 50mm, a corrugated plate is arranged on the outer side of the wall body, the battery doors 2 are double-layer iron plates filled with rock wool, a rock wool purification plate is covered in the box body 1, the box body 1 is filled and covered with the rock wool heat insulation layer and the rock wool purification plate to insulate the box body 1 and isolate the running sound of internal equipment, can prevent simultaneously that external moisture from getting into inside box 1, the rock wool material is light and have characteristics such as environmental protection concurrently, can effectively promote the life of box, is provided with air outlet 31 respectively in the both sides of battery door 2, still is provided with the twice side door in two sides about box 1, and operating personnel can follow both sides and get into inside the box.

As shown in fig. 3 and 4, the interior of the box 1 is divided into a working area and an electric control area, for convenience of description and simplification of the present invention, the present invention is described in the prior layout state, the left side of the box is a working area, the right side of the box is an electric control area, twelve battery doors 2 are located within the working area, a battery support 6 is provided in the working area, as shown in fig. 5 and 6, the battery support 6 is divided into an air duct area 63 and a placing area 64, the air duct area 63 is located at the top, the placing area 64 is symmetrical in the front and back, the middle is separated by a partition, the front and back sides are divided into vertically arranged compartments 61 by the partition, twelve compartments 61 are provided, the total number of the compartments 61 is twelve, the compartments correspond to the battery doors 2 on the two sides of the box 1, nine support plates 62 are provided on each compartment 61, each compartment 61 is divided into nine layers, and two energy storage batteries can be placed on each layer.

The refrigeration device 3 is arranged on two sides of the battery support 6, two air ducts 32 are connected to the front side and the rear side of the refrigeration device 3, namely four air ducts are arranged on the battery support 6, the air ducts 32 are arranged in an air duct area 63 of the battery support 6, the tail ends of the air ducts 32 extend to the middle position of the air duct area 63, and gaps are reserved between the air ducts 32 on the left side and the right side and used for ventilation; the lower part of the refrigerating device 3 is connected with the air outlets 31 at the two sides, and four air outlets 31 are arranged.

The top of the box body 1 is further provided with a smoke detector 101 and a temperature sensor 102, the smoke detector 101 is symmetrically arranged on two sides of a middle partition board of the battery support 6, six pairs are arranged at intervals, the temperature sensor 102 is symmetrically arranged on two sides of the edge of the box body 1, the arrangement range is the same as that of the smoke detector 101, and six pairs are arranged at intervals in the range of the whole battery support 6.

Wherein one side refrigerating plant 3's another side is automatically controlled district, describe with current overall arrangement state, right side refrigerating plant 3's right side is automatically controlled district, be provided with six collection flow cabinet 7 in the automatically controlled district, control refrigerating plant respectively, the fire extinguishing system, smoke detection, temperature sensor, lighting system and battery energy storage system, six collection flow cabinet 7 finally concentrate the circuit to be connected to in the switch board 9, automatically controlled district top still is provided with access hole 8, lead to the workspace, be provided with pressure relief device 4 on the both sides face in automatically controlled district respectively, operating personnel accessible access hole 8 overhauls the device at workspace top, be provided with pressure relief device 4 on the both sides face, the same with the device on battery door 2, when dangerous appears in the automatically controlled district inside, in time go out inside release, prevent to explode. The electric control zone is accessible from the right side door.

As shown in fig. 2, the left side of refrigerating plant 3 on the left side is provided with the fire extinguishing system, the fire extinguishing system is including setting up the fire control water inlet 5 in the box 1 outside, link to each other with fire control water inlet 5 and set up at box 1 inboard catchment piece 51, catchment piece 51 is connected with four water pipes 52, divide into two sets of front and back two regions of laying battery support 6 respectively, every group has two water pipes 52, lay the workspace top from box 1 top, all lay the both sides at battery support 6 intermediate bottom, another side refrigerating plant 3 department is laid to a water pipe 52 in every group, wind channel 32 space department is laid to another water pipe 52, the equal interval in below of water pipe 52 is provided with a plurality of shower nozzles, four water pipes 52 cover into to the whole scope of battery support 6, the mode that sprays that fire control water pipe 32 adopted simultaneously puts out a fire. The fire protection system is accessible from the left side door.

In the description of the aspects of the present invention, it should be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

Finally, it should be noted that: while the invention has been described in detail with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes, modifications and equivalents may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. A compartment type energy storage battery container comprises a box body (1), wherein the box body (1) is of a cuboid structure, and is characterized in that a plurality of battery doors (2) are symmetrically and continuously arranged on the front side and the rear side of the box body (1), air outlets (31) are respectively arranged on the two sides of each battery door (2), two side doors are further arranged on the left side and the right side of the box body (1), the interior of the box body (1) is divided into a working area and an electric control area, a battery support (6) is arranged in the working area, the front side and the rear side of each battery support (6) are symmetrically divided into a plurality of vertically arranged compartments (61), the compartments (61) correspond to the battery doors (2) on the two sides of the box body (1), refrigerating devices (3) are arranged on the two sides of each battery support (6), the lower portions of the refrigerating devices (3) are connected with the air outlets (31) on the two sides, an air duct (32) is connected above the refrigerating devices, a smoke detector (101) and a temperature sensor (102) are further arranged on the top of the box body (1), the other side of the refrigerating device (3) on one side is an electric control area, a plurality of confluence cabinets (7) are arranged in the electric control area, the confluence cabinets (7) are finally connected with circuits in a centralized mode into the power distribution cabinet (9), and a fire-fighting system is arranged on the other side of the refrigerating device (3) on the other side.

2. The cellular energy storage battery container as claimed in claim 1, wherein the wall body of the container body (1) is filled with a rock wool heat preservation layer, the thickness of the rock wool heat preservation layer is not less than 50mm, the outer side of the wall body is a corrugated plate, the battery door (2) is a double-layer iron plate filled with rock wool, and the interior of the container body (1) is covered with a rock wool purification plate.

3. A compartmentalized energy storage battery container as recited by claim 1 wherein said battery doors (2) are each provided with a pressure relief device (4) and the battery doors (2) are each fitted with a container lock.

4. A compartmentalized energy storage battery container as recited by claim 1 wherein said battery support (6) is divided into a wind tunnel area (63) and a placement area (64), the wind tunnel area (63) is on the top, the placement area (64) is symmetrical front to back, the middle is separated by a partition, and each side is divided into vertically disposed compartments (61) by a partition.

5. A compartmentalized energy storage battery container as recited by claim 4 wherein each compartment (61) of said battery support (6) has a plurality of support panels (62) disposed thereon.

6. A compartment-type energy storage battery container as claimed in claim 4, wherein the refrigeration device (3) is connected with two air ducts (32) at the front and rear sides, the air ducts (32) are disposed in the air duct area (63) of the battery support (6), the tail end of the air duct (32) extends to the middle position of the air duct area (63), and a gap is left between the air ducts (32) at the left and right sides.

7. The compartmentalized energy storage battery container as recited by claim 1, wherein said smoke detectors (101) are symmetrically disposed on both sides of the middle partition of the battery support (6) and are spaced in several pairs, and said temperature sensors (102) are symmetrically disposed on both sides of the edge of the container body (1) and are disposed in the same range as the smoke detectors (101) and are spaced in several pairs.

8. A capsule energy storage battery container as claimed in claim 1, wherein the top of the electrical control area is further provided with a manhole (8) leading to the working area, and pressure relief devices (4) are respectively arranged on two side surfaces of the electrical control area.

9. The compartmentalized energy storage battery container of claim 1, wherein said fire fighting system comprises a fire fighting water inlet (5) located outside the container body (1), a water collection block (51) connected to the fire fighting water inlet (5) and located inside the container body (1), the water collection block (51) being connected to a water pipe (52) laid from the top of the container body (1) to above the working area.

10. The compartmentalized energy storage battery container as recited by claim 9, wherein there are four water pipes (52), divided into two groups, which are laid in the front and back regions of the battery rack (6), each group has two water pipes (52), which are laid on both sides of the middle partition of the battery rack (6), one water pipe (52) in each group is laid on the other side of the refrigeration device (3), the other water pipe (52) is laid in the middle gap of the air duct (32), and a plurality of nozzles are arranged below the water pipes (52) at intervals.

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