CN218648019U

CN218648019U - Light storage filling inspection container

Info

Publication number: CN218648019U
Application number: CN202222567361.7U
Authority: CN
Inventors: 卢楠; 谢翠婷; 李国伟; 林景水
Original assignee: Fujian Times Nebula Technology Co Ltd
Current assignee: Fujian Times Nebula Technology Co Ltd
Priority date: 2022-09-26
Filing date: 2022-09-26
Publication date: 2023-03-17
Anticipated expiration: 2032-09-26

Abstract

The utility model discloses an optical storage and charging inspection container, which comprises a box body and a middle partition wall; the intermediate wall divides the box body into a battery bin and an equipment bin; a first fire fighting device is arranged in the battery bin, and a second fire fighting device and a fan cover are arranged at the top of the equipment bin; the equipment compartment is close to one side of battery compartment is equipped with water cooling plant, can be when not taking place the conflagration through setting up first fire control unit, carry out the fire prevention to the battery compartment, the second fire control unit can be after the conflagration takes place, put out a fire to the battery compartment, utilize the fan housing to dispel the heat to the equipment compartment effectively, utilize water cooling plant can effectively dispel the heat to the battery compartment, because the high temperature easily induces the conflagration in avoiding equipment compartment and the battery compartment with this, even if take place the conflagration also can realize in time putting out a fire simultaneously, thereby effectively improved the security that the light storage filled the inspection container.

Description

Light storage filling inspection container

Technical Field

The utility model relates to a fill the electricity generation technical field, especially relate to a container is examined to light storage filling.

Background

The lithium battery energy storage technology is a large power assisting for electric vehicle popularization, professional and rapid charging and after-sale maintenance service are necessary conditions for electric vehicle marketization popularization, and construction of the light storage, charging and inspection integrated intelligent charging station is an optimal solution. The light storage, charging and detection integrated intelligent charging station uses an intelligent platform product integrating three functions of an advanced lithium iron phosphate battery, energy storage service, electric vehicle charging service and electric vehicle detection service, and is compatible with renewable energy access, so that an intelligent micro-grid system is really formed by a power grid, renewable energy, an energy storage system and a charging facility under the control and management of a function management system.

Traditional light storage is filled and is examined equipment such as container in being equipped with two-way isolation direct current converter, energy storage converter (PCS) and battery cabinet, can produce a large amount of heat energy in the course of the work, and is required for the temperature of surrounding environment higher, and the battery is easily fired, if the inside high temperature of box conflagration takes place easily, has certain potential safety hazard.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: the light storage and filling inspection container can effectively improve the safety of the light storage and filling inspection container.

In order to solve the technical problem, the utility model discloses a technical scheme be:

an optical storage and charging inspection container comprises a container body and a partition wall;

the box body is divided into a battery bin and an equipment bin by the intermediate wall;

a first fire fighting device is arranged in the battery bin, and a second fire fighting device and a fan cover are arranged at the top of the equipment bin;

and a water cooling device is arranged on one side of the equipment bin, which is close to the battery bin.

Further, the battery compartment comprises a plurality of battery cabinets;

the first fire fighting device comprises a fire fighting air outlet, a fire fighting air inlet and a combustible gas detector;

the plurality of battery cabinets are arranged in the battery bin;

the fire control air outlet is located the battery compartment is kept away from the one end in equipment storehouse, the fire control air intake is located on the well partition wall, combustible gas detector is located the top of battery cabinet, just the fire control air outlet with the fire control air intake electricity is connected, combustible gas detector with the fire control air outlet electricity is connected.

Furthermore, the fire-fighting air outlet comprises a first sealing plate, a first servo motor, an exhaust fan and a first supporting plate;

the side, close to the battery cabinet, of the first supporting plate is provided with the exhaust fan, and the other side of the first supporting plate is provided with the first sealing plate;

one end of the first servo motor is arranged on the first supporting plate, and the other end of the first servo motor is abutted to the first sealing plate.

Further, the fire-fighting air inlet comprises a second sealing plate, a second servo motor and a second supporting plate;

the second sealing plate is arranged on one side, close to the battery cabinet, of the second supporting plate, one end of the second servo motor is arranged on the second supporting plate, and the other end of the second servo motor is abutted to the second sealing plate;

the first servo motor is electrically connected with the second servo motor.

Further, the second fire fighting device comprises a fire detector, a heptafluoropropane fire bottle, a first fire fighting pipe and a second fire fighting pipe;

the fire detector is arranged at the top of the battery bin;

the heptafluoropropane fire bottle is arranged at the top of the equipment bin and close to the battery bin;

one end of the first fire fighting pipe is connected with the heptafluoropropane fire fighting bottle, and the other end of the first fire fighting pipe is connected with the battery bin;

one end of the second fire fighting pipe is connected with the heptafluoropropane fire fighting bottle, and the other end of the second fire fighting pipe is connected with the battery cabinet.

Further, the equipment bin comprises an energy storage converter, a power distribution cabinet, a control cabinet and a plurality of direct current converters;

the plurality of direct current converters are symmetrically arranged in the equipment bin, the energy storage converter is arranged on one side, close to the battery bin, of each direct current converter, the power distribution cabinet is arranged on the other side of each direct current converter, and the control cabinet is arranged at a position opposite to the power distribution cabinet;

a shutter is arranged on one side of the box body close to the equipment bin;

one side of the fan housing is connected with the energy storage converter, the power distribution cabinet and the tops of the plurality of direct current converters, and the other side of the fan housing is connected with the shutter.

Further, the device also comprises a first bracket and a second bracket;

the bottoms of the energy storage converter, the power distribution cabinet, the control cabinet and the plurality of direct current converters are locked on a bottom beam in the equipment bin through bolts and large flat pads, and the tops of the energy storage converter, the power distribution cabinet, the control cabinet and the plurality of direct current converters are connected with the side wall of the box body through the first support;

the bottom of each battery cabinet is locked on the bottom beam of the battery cabin through a bolt and a large flat pad, and the tops of every two battery cabinets are connected through the second support.

Further, the water cooling device comprises a water cooling unit and a water cooling pipe;

the water cooling unit is arranged on one side of the equipment bin close to the battery bin;

the water cooling pipe is provided with a water inlet, a water outlet and a pipeline, the water inlet and the water outlet are connected with the water cooling unit, and the pipeline penetrates through the middle partition plate and is arranged around the battery cabinet.

Furthermore, an equipment bin gate is arranged at one end, far away from the battery bin, of the equipment bin;

a maintenance door is arranged on one side of the equipment bin, which is far away from the power distribution cabinet;

the equipment bin gate with all be equipped with the heat dissipation air intake on the maintenance door, the heat dissipation air intake is equipped with the tripe, one side of tripe is equipped with the filter screen.

Furthermore, battery compartment gates are respectively arranged on two sides of the battery compartment;

an air conditioner is arranged on any battery bin gate.

The beneficial effects of the utility model reside in that: the mid-board divides the box into battery compartment and equipment compartment, be equipped with first fire control unit in the battery compartment, the top in equipment compartment is equipped with second fire control unit and fan housing, one side that the equipment compartment is close to the battery compartment is equipped with water cooling plant, can be when not taking place the conflagration through setting up first fire control unit, carry out fire prevention to the battery compartment, second fire control unit can be after the conflagration takes place, put out a fire to the battery compartment, utilize the fan housing to dispel the heat to the equipment compartment effectively, utilize water cooling plant can effectively dispel the heat to the battery compartment, with this avoid easily to induce the conflagration in equipment compartment and the battery compartment because the high temperature, even if take place the conflagration simultaneously also can realize in time putting out a fire, thereby effectively improved the security that light storage fills to examine the container.

Drawings

Fig. 1 is a schematic front overall structure diagram of an optical storage and charging inspection container according to an embodiment of the present invention;

fig. 2 is a schematic view of the back overall structure of an optical storage and charging inspection container according to an embodiment of the present invention;

fig. 3 is a front view of an optical storage and charging inspection container according to an embodiment of the present invention;

fig. 4 is a top view of the hidden box body and the fan housing of the optical storage and filling container according to the embodiment of the present invention;

fig. 5 is a top view of the hidden box of the optical storage and filling inspection container according to the embodiment of the present invention;

fig. 6 is a side view of a hidden box of an optical storage and filling inspection container according to an embodiment of the present invention;

fig. 7 is a schematic front view of the overall structure of the optical storage and filling inspection container according to the embodiment of the present invention;

FIG. 8 is a detail view of B of FIG. 7;

fig. 9 is a structural side view of a fire outlet of an optical storage and inspection container according to an embodiment of the present invention;

fig. 10 is a structural side view of a fire outlet of an optical storage and inspection container according to an embodiment of the present invention;

fig. 11 is a side view of a fire inlet of an optical storage and filling container according to an embodiment of the present invention;

description of reference numerals:

1. a box body; 2. an intermediate wall; 3. a battery compartment; 31. a first fire fighting device; 311. a fire-fighting air outlet; 3111. a first seal plate; 3112. a first servo motor; 3113. an air extracting fan; 3114. a first support plate; 312. a fire-fighting air inlet; 3121. a second closing plate; 3122. a second servo motor; 3123. a second support plate; 313. a combustible gas detector; 32. a battery cabinet; 33. a second bracket; 4. an equipment bin; 41. a second fire fighting device; 411. a fire detector; 412. a heptafluoropropane fire bottle; 4121. a first heptafluoropropane fire bottle; 4122. a second heptafluoropropane fire bottle; 413. a fire hose; 4131. a first fire hose; 4132. a second fire hose; 42. a fan housing; 43. a water cooling device; 431. a water chiller unit; 432. a water-cooled tube; 4321. a water inlet; 4322. a water outlet; 4323. a pipeline; 44. an energy storage converter; 45. a power distribution cabinet; 46. a control cabinet; 47. a DC converter; 5. a blind window; 51. louver blades; 52. filtering with a screen; 6. a first bracket; 7. an equipment bin gate; 8. maintaining the door; 9. descending a manhole; 10. a battery compartment gate; 11. an air conditioner; 12. an illumination system; 13. and a display.

Detailed Description

In order to explain the technical content, the objects and the effects of the present invention in detail, the following description is made with reference to the accompanying drawings in combination with the embodiments.

Referring to fig. 1, an optical storage and filling inspection container includes a container body and a partition wall;

From the above description, the beneficial effects of the present invention are: the mid-board divides the box into battery compartment and equipment compartment, be equipped with first fire control unit in the battery compartment, the top in equipment compartment is equipped with second fire control unit and fan housing, one side that the equipment compartment is close to the battery compartment is equipped with water cooling plant, can be when not taking place the conflagration through setting up first fire control unit, carry out fire prevention to the battery compartment, second fire control unit can be after the conflagration takes place, put out a fire to the battery compartment, utilize the fan housing to dispel the heat to the equipment compartment effectively, utilize water cooling plant can effectively dispel the heat to the battery compartment, with this avoid easily to induce the conflagration in equipment compartment and the battery compartment because the high temperature, even if take place the conflagration simultaneously also can realize in time putting out a fire, thereby effectively improved the security that light storage fills to examine the container.

Further, the battery compartment comprises a plurality of battery cabinets;

the plurality of battery cabinets are arranged in the battery bin;

As can be known from the above description, when the combustible gas detector detects that combustible gas (like carbon monoxide) produces in the storehouse, accessible fire control air outlet discharges combustible gas, because the battery compartment is airtight relatively, the unilateral is toward outer convulsions, can lead to inside and outside pressure difference and can't arrange combustible gas completely, sets up the fire control air intake on the partition wall to guarantee whole ventilation process smooth and easy, and then guaranteed that combustible gas can arrange to the greatest extent smoothly.

Known by the above description, detect combustible gas when the combustible gas detector, first servo motor will start, backs down first shrouding, and exhaust fan begins work simultaneously, discharges the combustible gas in the storehouse to can not catch fire because of combustible gas concentration is too high in the assurance battery compartment, reduced the potential safety hazard.

the first servo motor is electrically connected with the second servo motor.

As can be seen from the above description, when the combustible gas detector detects combustible gas, the second servo motor is also started simultaneously to jack the second sealing plate, so that the gas outside the battery compartment enters the compartment, and the ventilation effect is ensured.

the fire detector is arranged at the top of the battery bin;

Known by the above description, in order to improve the space utilization of container, locate the box top with the second fire control unit, when fire detector detected the battery compartment and is on fire, seven fluoropropane fire control bottle starts, sprays seven fluoropropane through first fire control pipe to the battery compartment and put out a fire, sprays seven fluoropropane through the second fire control pipe to the battery cabinet simultaneously and puts out a fire to this dual effective fire control of realization to the battery compartment, thereby cause bigger loss when avoiding the battery compartment to catch fire.

the plurality of direct current converters are symmetrically arranged in the equipment bin, the energy storage converter is arranged on one side, close to the battery bin, of the direct current converter, the power distribution cabinet is arranged on the other side of the direct current converter, and the control cabinet is arranged at a position opposite to the power distribution cabinet;

a shutter is arranged on one side of the box body close to the equipment bin;

It can be known from the above description that one side that the box is close to the equipment storehouse is equipped with the shutter, one side and the energy storage converter of fan housing, switch board and a plurality of DC converter's top are connected, the opposite side and the shutter of fan housing are connected, can dispel the heat to energy storage converter, switch board and a plurality of DC converter well through the fan housing, and the fan housing is connected with the shutter, so that in time with the produced heat discharge of equipment, thereby avoid leading to the emergence of trouble because of the equipment high temperature, the security of container has further been improved.

Further, the device also comprises a first bracket and a second bracket;

According to the above description, because the fan housing bulk strength is relatively weak, during container transportation and hoist and mount, the equipment cabinet body in the equipment compartment rocks, cause the fan housing to break easily, the energy storage converter, the switch board, the top of switch board and a plurality of DC converter is passed through first support and box connection, the bottom is paid on the floorbar in the equipment compartment through bolt and big flat pad lock, it is fixed with the equipment cabinet body, thereby avoid the equipment cabinet body to rock, thereby the fan housing has been avoided breaking, the radiating effect has been guaranteed, and simultaneously, the bottom of battery cabinet is paid on the floorbar in battery compartment through bolt and big flat pad lock, the top of two liang of battery cabinets passes through the second leg joint, with this with the battery cabinet fixed, avoid the battery cabinet to take place to rock.

According to the description, because the water-cooling unit needs to carry the coolant liquid to the battery cabinet through the water-cooling pipe, it is big to consider that the longer loss of carrying the coolant liquid pipeline is big, and delivery pressure is big more, locate the one side that the equipment compartment is close to the battery compartment with the water-cooling unit, the water-cooling pipe is equipped with the water inlet, delivery port and pipeline, water inlet and delivery port all are connected with the water-cooling unit, the pipeline runs through the median septum and locates around the battery cabinet, constitute the water-cooling liquid flow circuit with this, through water-cooling unit output coolant liquid, get into for the battery cabinet cooling in the battery compartment through the water-cooling pipe, then the coolant liquid is defeated again and is returned to the water-cooling unit, realize the circulation cooling, thereby guarantee that electric core can not influence life because of the high temperature.

According to the above description, the equipment bin gate can be convenient for equipment to get in and out of the container, the maintenance door is used for maintenance personnel to get in and out of the maintenance equipment, the equipment bin large door and the maintenance door are respectively provided with the heat dissipation air inlet, the heat dissipation air inlet is provided with the louver, one side of the louver is provided with the filter screen, the dustproof and rainproof effect is achieved, the normal heat dissipation of the equipment bin is ensured, and the safety of the light storage and filling inspection container is comprehensively improved.

and an air conditioner is arranged on any battery bin gate.

According to the battery cabinet dehumidification system, the battery cabinet door is arranged on each of the two sides of the battery compartment, the air conditioner is arranged on any battery compartment door, the battery cabinet can conveniently enter and exit from the container through the battery compartment door, the air conditioner is arranged, the dehumidification effect is achieved through the air conditioner, the drying in the battery compartment is guaranteed, and then the phenomenon that the normal operation of the battery is influenced due to the fact that the battery compartment generates condensed water is avoided, so that the working stability of the optical storage and charging inspection container is improved.

The utility model discloses foretell a light storage is filled and is examined container can be applicable to electric automobile charging device, if integration intelligent charging station, explain through embodiment mode below:

example one

Referring to fig. 1 to 11, an optical storage and filling inspection container of the present embodiment includes a container body 1 and a partition wall 2;

the intermediate wall 2 divides the box body 1 into a battery compartment 3 and an equipment compartment 4;

a first fire-fighting device 31 is arranged in the battery bin 3, and a second fire-fighting device 41 and a wind shield 42 are arranged at the top of the equipment bin 4;

a water cooling device 43 is arranged on one side of the equipment bin 4 close to the battery bin 3;

specifically, as shown in fig. 4 and 5, the battery compartment 3 includes a plurality of battery cabinets 32;

the first fire fighting device 31 comprises a fire fighting air outlet 311, a fire fighting air inlet 312 and a combustible gas detector 313;

the plurality of battery cabinets 32 are arranged in the battery compartment 3;

the fire-fighting air outlet 311 is arranged at one end of the battery compartment 3 far away from the equipment compartment 4, the fire-fighting air inlet 312 is arranged on the intermediate wall 2, the combustible gas detector 313 is arranged at the top of the battery cabinet 32, the fire-fighting air outlet 311 is electrically connected with the fire-fighting air inlet 312, and the combustible gas detector 313 is electrically connected with the fire-fighting air outlet 311;

in an alternative embodiment, as shown in fig. 4 and 5, the battery compartment 3 includes 4 battery cabinets 32, the 4 battery cabinets 32 are arranged in the battery compartment 3 and mainly used for storing electricity, and the tops of every two battery cabinets 32 are connected through a second bracket 33;

in another alternative embodiment, the plurality of battery cabinets 32 are arranged in the battery compartment 3, and the bottom of the battery cabinets 32 is locked on the bottom beam of the battery compartment 3 by using M16 × 40 hexagon bolts and large flat gaskets;

specifically, as shown in fig. 9 and 10, the fire outlet 311 includes a first sealing plate 3111, a first servo motor 3112, an exhaust fan 3113 and a first supporting plate 3114;

the exhaust fan 3113 is disposed on one side of the first support plate 3114 close to the battery cabinet 32, and the first sealing plate 3111 is disposed on the other side of the first support plate 3114;

one end of the first servo motor 3112 is disposed on the first support plate 3114, and the other end of the first servo motor 3112 abuts against the first sealing plate 3111;

as shown in fig. 6 and 11, the fire inlet 312 includes a second sealing plate 3121, a second servo motor 3122, and a second support plate 3123;

the second sealing plate 3121 is disposed on one side of the second support plate 3123 close to the battery cabinet 32, one end of the second servo motor 3122 is disposed on the second support plate 3123, and the other end of the second servo motor 3122 abuts against the second sealing plate 3121;

the first servo motor 3112 is electrically connected to the second servo motor 3122;

specifically, as shown in fig. 4 and 5, the second fire fighting device 41 includes a fire detector 411, a heptafluoropropane fire bottle 412 and a fire hose 413;

the fire detector 411 is arranged at the top of the battery compartment 3;

the heptafluoropropane fire bottle 412 is arranged at the top of the equipment bin 4 and close to the battery bin 3;

one end of the fire fighting pipe 413 is connected with the heptafluoropropane fire fighting bottle 412, and the other end of the fire fighting pipe 413 is connected with the battery bin 3;

specifically, as shown in fig. 5, the heptafluoropropane fire fighting bottle 412 comprises a first heptafluoropropane fire fighting bottle 4121 and a second heptafluoropropane fire fighting bottle 4122, and the fire fighting pipe 413 comprises a first fire fighting pipe 4131 and a second fire fighting pipe 4132; the first heptafluoropropane fire fighting bottle 4121 and the second heptafluoropropane fire fighting bottle 4122 are respectively arranged at the positions, close to the battery bin 3, of the top of the equipment bin 4; one end of the first fire fighting pipe 4131 is connected with the first heptafluoropropane fire fighting bottle 4121, and the other end of the first fire fighting pipe 4131 is connected with the battery bin 3; one end of the second fire fighting pipe 4132 is connected with the second heptafluoropropane fire fighting bottle 4122, and the other end of the second fire fighting pipe 4132 is connected with the battery cabinet 32, so that double fire fighting is realized for the battery cabinet;

in an alternative embodiment, the fire detector 411 is a photoelectric smoke-sensitive fire detector;

in another optional embodiment, the fire detection system further comprises a plurality of audible and visual alarms, wherein the audible and visual alarms are arranged in the equipment bin and outside the box body and are electrically connected with the fire detector 411;

specifically, as shown in fig. 4, the equipment bin 4 includes a Power Conversion System (PCS) 44, a Power distribution cabinet 45, a control cabinet 46, and a plurality of direct current converters (DC-DC) 47, and is mainly used for implementing interconversion between System direct current and alternating current, voltage boosting and voltage dropping, current limiting, power distribution, and the like;

the plurality of direct current converters 47 are symmetrically arranged in the equipment bin 4, the energy storage converter 44 is arranged on one side of the direct current converter 47 close to the battery bin 3, the power distribution cabinet 45 is arranged on the other side of the direct current converter 47, and the control cabinet 46 is arranged at a position opposite to the power distribution cabinet 45;

a shutter 5 is arranged on one side of the box body 1 close to the equipment bin 4;

one side of the wind shield 42 is connected with the energy storage converter 44, the power distribution cabinet 45 and the tops of the plurality of direct current converters 47, and the other side of the wind shield 42 is connected with the shutter 5;

in an alternative embodiment, as shown in fig. 4, the 4 dc converters 47 are symmetrically disposed on two sides in the equipment bin 4;

in another alternative embodiment, as shown in fig. 7 and 8, the louver 5 includes a louver 51 and a filter 52, the louver 51 is disposed on one side of the box 1 close to the equipment bin 4, and the filter 52 is disposed on one side of the louver 51 far from the equipment bin 4;

in another alternative embodiment, the bottoms of the energy storage converter 44, the power distribution cabinet 45, the control cabinet 46 and the plurality of dc converters 47 are locked on the bottom beam in the equipment room 4 by M16 × 40 hexagon bolts and large flat pads;

in another alternative embodiment, the other side of the wind shield 42 is connected to the louver 5 through a pressing plate;

specifically, as shown in fig. 4, the device further includes a first bracket 6;

the tops of the energy storage converter 44, the power distribution cabinet 45, the control cabinet 46 and the plurality of direct current converters 47 are connected with the side wall of the box body 1 through the first bracket 6;

specifically, as shown in fig. 4 and 5, the water cooling device 43 includes a water cooling unit 431 and a water cooling pipe 432;

the water cooling unit 431 is arranged on one side of the equipment bin 4 close to the battery bin 3;

the water cooling pipe 432 is provided with a water inlet 4321, a water outlet 4322 and a pipeline 4323, the water inlet 4321 and the water outlet 4322 are both connected with the water chiller unit 431, and the pipeline 4323 penetrates through the middle partition plate 2 and is arranged around the battery cabinet 32;

specifically, as shown in fig. 1 and fig. 2, an equipment bin gate 7 is arranged at one end of the equipment bin 4 away from the battery bin 3;

a maintenance door 8 is arranged on one side of the equipment bin 4 far away from the power distribution cabinet 45;

the equipment bin large door 7 and the maintenance door 8 are both provided with heat dissipation air inlets, the heat dissipation air inlets are provided with shutters, and one side of each shutter is provided with a filter screen;

in an alternative embodiment, the equipment bin door 7 is a double door, and the maintenance door 8 can be pushed from inside to outside to be used as a fire escape door;

in another alternative embodiment, as shown in fig. 5, a manhole 9 is arranged at the top of the equipment bin 4 corresponding to the equipment bin gate 7, so that a person goes from the manhole when the maintenance is convenient;

specifically, as shown in fig. 2 and 3, a battery compartment door 10 is respectively arranged on two sides of the battery compartment 3;

an air conditioner 11 is arranged on any battery compartment door 10;

specifically, the device also comprises a grounding copper bar; one end of the grounding copper bar is arranged in the equipment bin 4 and is respectively connected with the energy storage converter 44, the power distribution cabinet 45, the control cabinet 46 and the plurality of direct current converters 47 through wiring harnesses to ensure that the cabinet bodies are normally grounded, the other end of the grounding copper bar extends out of the equipment bin 4, and the other end of the grounding copper bar is provided with two M10 tooth holes for grounding the outer side of the container; in an optional embodiment, the grounding copper bar is connected with the equipment bin 4 through an M10 screw, and the connecting part of the equipment bin 4 and the grounding copper bar is coated with conductive paint to ensure that the container body is grounded;

in another alternative embodiment, the optical storage and charge inspection container is a standard 20-foot container, and the length, width and height of the container are 6058mm, 2438mm and 2896mm respectively;

in another alternative embodiment, as shown in fig. 4, the lighting system 12 and the panel switch electrically connected to the lighting system 12 are further included, and the lighting system 12 includes an explosion-proof lamp, an emergency lamp and a safety exit indicator lamp; the explosion-proof lamp, the emergency lamp and the safety exit indicator lamp are respectively arranged at the top in the equipment bin 4;

in another alternative embodiment, as shown in FIG. 3, a display is also included; the display 13 is arranged on one side of the box body 1, which is provided with the shutter 5, so that when the vehicle is charged, personnel can see the health state, the charging condition and the like of the battery through the display;

in summary, as shown in fig. 4, the devices on one side of the device bin 4 from right to left along the length direction sequentially include the power distribution cabinet 45, 2 dc converters 47 and the energy storage converter 44, and the devices on the other side of the device bin 4 from right to left along the length direction sequentially include the control cabinet 46, 2 dc converters 47 and the water cooling device 43;

the specific working principle is as follows:

when the combustible gas detector detects that combustible gas exists in the battery cabinet, the fire-fighting air outlet and the fire-fighting air inlet are controlled to start working, the exhaust fan and the first servo motor of the fire-fighting air outlet are started, the first servo motor pushes the first sealing plate open, so that the combustible gas in the battery cabinet can be extracted by the exhaust fan, the second servo motor of the fire-fighting air inlet is started, the second sealing plate is pushed open, so that the external air of the battery cabinet can enter through the fire-fighting air inlet, a smooth air exchange process is realized, and a fire caused by the combustible gas is avoided; when a fire detector in the battery compartment detects that the battery cabinet is in fire, the first heptafluoropropane fire fighting bottle is started, heptafluoropropane is sprayed to the battery compartment through the first fire fighting pipe to extinguish the whole battery compartment, meanwhile, the second heptafluoropropane fire fighting bottle is started, heptafluoropropane is sprayed into the battery cabinet through the second fire fighting pipe to extinguish the fire of the battery cabinet, and therefore double fire fighting is achieved, and loss and danger are reduced as far as possible when the fire occurs; the heat energy generated when the energy storage converter, the power distribution cabinet, the control cabinet and the plurality of direct current converters work is discharged out of the equipment bin through the shutter, so that the heat dissipation effect is achieved, and equipment faults caused by overhigh temperature are avoided; the water cooling unit cools the battery cabinet by allowing water cooling liquid to enter the pipeline through the water inlet and then return to the water cooling unit through the water outlet, and the circulation is performed in such a way, so that the battery cabinet is cooled, and a fire caused by overheating of the battery is avoided; the safety of the light storage and filling inspection container is comprehensively and effectively improved through the device.

To sum up, the light storage, charging and inspection container provided by the utility model comprises a box body and a middle partition wall; the box body is divided into a battery bin and an equipment bin by the intermediate wall; a first fire fighting device is arranged in the battery bin, and a second fire fighting device and a fan cover are arranged at the top of the equipment bin; a water cooling device is arranged on one side of the equipment bin close to the battery bin; the plurality of battery cabinets are arranged in the battery bin; the fire-fighting air outlet is arranged at one end of the battery bin, which is far away from the equipment bin, the fire-fighting air inlet is arranged on the partition wall, the combustible gas detector is arranged at the top of the battery cabinet, the fire-fighting air outlet is electrically connected with the fire-fighting air inlet, and the combustible gas detector is electrically connected with the fire-fighting air outlet, so that the smoothness of the whole ventilation process is ensured, and the smooth exhaustion of the combustible gas is further ensured; the fire detector is arranged at the top of the battery bin; the heptafluoropropane fire bottle is arranged at the top of the equipment bin and close to the battery bin; one end of the first fire fighting pipe is connected with the heptafluoropropane fire fighting bottle, the other end of the first fire fighting pipe is connected with the battery bin, one end of the second fire fighting pipe is connected with the heptafluoropropane fire fighting bottle, and the other end of the second fire fighting pipe is connected with the battery cabinet, so that the situation that fire is caused due to overhigh concentration of combustible gas in the battery bin is avoided, and potential safety hazards are reduced; the water cooling device comprises a water cooling unit and a water cooling pipe; the water cooling unit is arranged on one side of the equipment bin close to the battery bin; the water cooling pipe is provided with a water inlet, a water outlet and a pipeline, the water inlet and the water outlet are connected with the water cooling unit, the pipeline penetrates through the middle partition plate and is arranged on the periphery of the battery cabinet, a water cooling liquid flowing loop is formed by the pipeline, cooling liquid is output through the water cooling unit, the cooling liquid enters the battery cabin through the water cooling pipe and cools the battery cabinet, then the cooling liquid is conveyed back to the water cooling unit, circulating cooling is achieved, the situation that the service life of an electric core is influenced due to overhigh temperature is avoided, meanwhile, fire can be easily induced due to overhigh temperature in the equipment cabin and the battery cabin, and timely fire extinguishing can be achieved even if fire occurs, so that the safety of the optical storage and charging inspection container is effectively improved.

The above mentioned is only the embodiment of the present invention, and not the limitation of the patent scope of the present invention, all the equivalent transformations made by the contents of the specification and the drawings, or the direct or indirect application in the related technical field, are included in the patent protection scope of the present invention.

Claims

1. An optical storage and filling inspection container is characterized by comprising a container body and a partition wall;

2. An optical storage and charging inspection container as claimed in claim 1, wherein the battery compartment comprises a plurality of battery cabinets;

the plurality of battery cabinets are arranged in the battery bin;

3. The optical storage and filling inspection container of claim 2, wherein the fire outlet comprises a first sealing plate, a first servo motor, an induced draft fan and a first supporting plate;

4. The optical storage and filling container as claimed in claim 3, wherein the fire inlet comprises a second closing plate, a second servo motor and a second supporting plate;

the first servo motor is electrically connected with the second servo motor.

5. The optical storage and filling inspection container of claim 2, wherein the second fire fighting device comprises a fire detector, a heptafluoropropane fire bottle, a first fire fighting pipe and a second fire fighting pipe;

the fire detector is arranged at the top of the battery bin;

6. The optical storage and charging inspection container according to claim 2, wherein the equipment bin comprises an energy storage converter, a power distribution cabinet, a control cabinet and a plurality of direct current converters;

a shutter is arranged on one side of the box body close to the equipment bin;

one side of the fan housing is connected with the tops of the energy storage converter, the power distribution cabinet and the plurality of direct current converters, and the other side of the fan housing is connected with the louver.

7. An optical storage and inspection container as claimed in claim 6, further comprising a first rack and a second rack;

the bottom of the battery cabinet is locked and attached to a bottom beam of the battery cabin through bolts and large flat pads, and the tops of every two battery cabinets are connected through the second support.

8. The optical storage, filling and inspection container according to claim 2, wherein the water cooling device comprises a water cooling unit and a water cooling pipe;

the water cooling pipe is provided with a water inlet, a water outlet and a pipeline, the water inlet and the water outlet are connected with the water cooling unit, and the pipeline penetrates through the intermediate wall and is arranged around the battery cabinet.

9. The optical storage and charging inspection container as claimed in claim 6, wherein an equipment bin gate is arranged at one end of the equipment bin far away from the battery bin;

10. The optical storage and charging inspection container as claimed in claim 1, wherein a battery compartment gate is respectively arranged at two sides of the battery compartment;

an air conditioner is arranged on any battery bin gate.