CN211376732U - Mobile trailing type energy storage battery container - Google Patents

Abstract

The utility model discloses a mobile trailing type energy storage battery container, which comprises a container body (101), a battery frame (202), an energy storage battery and a distribution box (201); a plurality of battery racks are arranged in a straight line to form battery racks, two rows of battery racks are oppositely arranged to form an energy storage battery unit, and an overhaul channel (100) is reserved between the two oppositely arranged rows of battery racks; a plurality of groups of energy storage battery units are arranged in a container body at intervals, battery row frames of adjacent energy storage battery units are arranged in a back-to-back manner, a vertical cooling air channel (303) is arranged between the battery row frames arranged in the back-to-back manner, an integrated air conditioner (203) on the container body is connected with a hot air pipe (301) and a cold air pipe (302) inside, and a circulating air channel is formed between an overhaul channel, the hot air pipe, the integrated air conditioner, the cold air pipe and the vertical cooling air channel. The utility model discloses can satisfy the internal warm logical, illumination and the fire control requirement of container, ensure energy storage battery operational safety and energy supply validity, can satisfy the user demand of portable energy storage to reduce the bank electricity construction cost.

Description

Mobile trailing type energy storage battery container

Technical Field

The utility model relates to a portable energy storage system especially relates to a remove and pull type energy storage battery container.

Background

With the united release of the notification requirements of further jointly propelling ships to land for using shore power for work by multiple ministries of China, the transportation authorities in various regions supervise and urge port enterprises to accelerate the improvement of shore power facilities of the built docks. However, the high cost of shore power construction is the original resistance to using shore power; the construction cost at least comprises: the investment of the power transmission line, the investment of the buck-boost power distribution, the investment of the charging and discharging equipment and the like. In order to reduce the cost of shore power construction, various portable energy storage equipment should be transported and produced, but because the concentrated intensive arrangement of a large amount of batteries is in portable energy storage equipment, the battery is serious to generate heat when the unreasonable use that leads to of inside overall arrangement, and the heat dissipation is not good, has great potential safety hazard, also is not convenient for maintain simultaneously and overhauls.

Disclosure of Invention

An object of the utility model is to provide a remove and pull type energy storage battery container can satisfy the internal warm logical, illumination and the fire control requirement of container, ensures energy storage battery operational safety and energy supply validity to can satisfy the user demand of portable energy storage, with reduction bank electricity construction cost.

The utility model discloses a realize like this:

a mobile trailing type energy storage battery container comprises a container body provided with a container door, a plurality of battery racks arranged in the container body, a plurality of groups of energy storage batteries arranged on the battery racks at intervals, and a distribution box arranged on the outer wall of the container body and connected with the energy storage batteries;

the battery frames are arranged in a straight line to form battery bent frames, the two rows of battery bent frames are oppositely arranged to form an energy storage battery unit, and an overhaul channel is reserved between the two oppositely arranged rows of battery bent frames; two ends of the access passage respectively extend to the container door, and the top of the access passage is provided with an air outlet; the plurality of groups of energy storage battery units are respectively arranged in the container body at intervals, the battery bent frames of two adjacent groups of energy storage battery units are arranged oppositely, a vertical cooling air channel is arranged between the battery bent frames arranged oppositely, a plurality of cooling air ports are arranged on the vertical cooling air channel at intervals, and the plurality of cooling air ports are respectively arranged in one-to-one correspondence with the plurality of groups of energy storage batteries on the battery bent frames; the outer side wall of the container body is provided with an integrated air conditioner, the top of the inner wall of the container body is provided with a hot air pipe, air outlets of a plurality of groups of energy storage battery units are communicated with the hot air pipe through air exhaust pipelines, and one end of the hot air pipe extends to the outside of the container body and is connected with a port of the integrated air conditioner; a cold air pipe is arranged at the bottom of the inner wall of the container body, the vertical cooling air channels of the plurality of groups of energy storage battery units are communicated with the cold air pipe, and one end of the cold air pipe extends to the outside of the container body and is connected with a port of the integrated air conditioner; and a circulating air duct is formed among the overhaul channel, the hot air duct, the integrated air conditioner, the cold air duct and the vertical cooling air duct.

The battery row frame is characterized in that the plurality of groups of energy storage battery units are arranged along the length direction of the container body, a vertical cooling air channel is arranged between the battery row frame arranged along the inner side wall of the container body and the inner side wall of the container body, and the vertical cooling air channel is communicated with the cold air pipe.

The hot-blast main and the cold-blast main all set up along the length direction level of container body, overhaul passageway and perpendicular cooling duct all vertically set up along the direction of height of container body.

And an anti-static raised floor is laid at the bottom of the maintenance channel and is laid above the cold air pipe.

The outer wall of the container body is provided with a towing rod, and the bottom of the container body is provided with a plurality of tires.

The bottom of container body be equipped with the hydraulic pressure case, the lower surface of hydraulic pressure case is located the lower surface top of tire, the vertical hydraulic pressure buttress that sets up of a plurality of is installed at the bottom interval of container body, a plurality of hydraulic pressure buttress is connected with the hydraulic pressure case.

The container body in be equipped with a plurality of light, a plurality of light distributes at the top of access way.

The container body is internally provided with a plurality of automatic fire extinguishers which are distributed at the top of the maintenance passage.

The tail end of the container body is provided with a brake lamp and a steering lamp, and the brake lamp and the steering lamp are connected with a whole vehicle control system of the trailer after the container body is connected to the trailer.

The distribution box is provided with distribution equipment, a power cable, a pluggable power cable joint, a signal control cable and a pluggable signal control cable joint.

Compared with the prior art, the utility model, following beneficial effect has:

1. the utility model discloses owing to be equipped with the crisscross circulation wind channel that link up between each internal energy storage battery unit of group of container, provide heat dissipation and heating for energy storage battery through the integral type air conditioner, make it can keep suitable operating temperature, ensure security and the validity of energy supply.

2. The utility model discloses owing to be equipped with the access way, the structural layout of messenger's battery frame in the container body is more reasonable with the heat dissipation, can ensure energy storage battery's safe operation.

3. The utility model discloses owing to be equipped with the tire and drag the peg, can satisfy energy storage battery's road transport requirement to bank electricity user demand when satisfying boats and ships and harbor, reduced transmission line's investment, reduce the cost of bank electricity construction and transformation.

4. The utility model discloses owing to be equipped with hydraulic pressure case and hydraulic pressure buttress, can be used for the fixed of container body to park, ensure the reliability and the security of power supply.

5. The utility model discloses pass through battery rack rational arrangement with energy storage battery in the container to install auxiliary assembly such as light, automatic fire extinguisher, have advantages such as anticorrosive, fire prevention, dustproof, waterproof, illumination, energy saving and consumption reduction.

The utility model discloses can satisfy the internal warm demand of leading to of container through the circulation wind channel, satisfy the internal illumination of container and fire control requirement through light and automatic fire extinguisher to ensure energy storage battery operation security and energy supply validity, and can satisfy the user demand of portable energy storage through towing peg and tire, with reduce transmission line's investment, thereby reduce shore power construction cost.

Drawings

Fig. 1 is a longitudinal sectional view of a mobile trailing energy storage battery container of the present invention;

fig. 2 is a transverse cross-sectional view of the mobile trailing energy storage battery container of the present invention;

fig. 3 is a front view of the mobile trailer-type energy storage battery container of the present invention.

In the figure, 100 access roads, 101 container bodies, 102 hydraulic buttresses, 103 hydraulic tanks, 104 tires, 105 towing poles, 106 container doors, 107 brake lamps, 108 steering lamps, 201 distribution boxes, 202 battery racks, 203 integrated air conditioners, 204 antistatic overhead floors, 205 lighting lamps, 206 automatic fire extinguishers, 301 hot air pipes, 302 cold air pipes and 303 vertical cooling air ducts.

Detailed Description

The invention will be further explained with reference to the drawings and the specific embodiments.

Referring to fig. 1 and fig. 3, a mobile trailer-type energy storage battery container includes a container body 101 having container doors 106, a plurality of battery racks 202 disposed in the container body 101, a plurality of groups of energy storage batteries disposed on the battery racks 202 at intervals, and a distribution box 201 disposed on an outer wall of the container body 101 and connected to the energy storage batteries through power cables and signal control cables. Power cable and signal control cable accessible cable tray (not shown in the figure) are connected and are drawn forth, make energy storage battery's electric energy export consumer such as boats and ships through block terminal 201 to provide the electric energy for various consumers such as boats and ships through the joint of different grade type and cable on block terminal 201, can satisfy plug-and-play's service function.

The battery frames 202 are arranged in a straight line to form battery bent frames, the two battery bent frames are oppositely arranged to form an energy storage battery unit, and an overhaul channel 100 is reserved between the two oppositely arranged battery bent frames; the two ends of the access passage 100 extend to the container doors 106, and the top of the access passage 100 is provided with an air outlet (not shown in the figure); the plurality of groups of energy storage battery units are respectively arranged in the container body 101 at intervals, the battery bent frames of two adjacent groups of energy storage battery units are arranged in an opposite manner, a vertical cooling air duct 303 is arranged between the battery bent frames arranged in the opposite manner, a plurality of cooling air ports (not shown in the figure) are arranged on the vertical cooling air duct 303 at intervals, and the plurality of cooling air ports are respectively arranged in one-to-one correspondence with the plurality of groups of energy storage batteries on the battery frame 202; the outer side wall of the container body 101 is provided with an integrated air conditioner 203, the top of the inner wall of the container body 101 is provided with a hot air pipe 301, air outlets of a plurality of groups of energy storage battery units are communicated with the hot air pipe 301 through air exhaust pipelines, and one end of the hot air pipe 301 extends to the outside of the container body 101 and is connected with a port of the integrated air conditioner 203; a cold air pipe 302 is arranged at the bottom of the inner wall of the container body 101, the vertical cooling air channels 303 of the plurality of groups of energy storage battery units are communicated with the cold air pipe 302, and one end of the cold air pipe 302 extends to the outside of the container body 101 and is connected with a port of the integrated air conditioner 203; and a circulating air duct is formed among the overhaul channel 100, the hot air duct 301, the integrated air conditioner 203, the cold air duct 302 and the vertical cooling air duct 303.

The plurality of groups of energy storage battery units are arranged along the length direction of the container body 101, a vertical cooling air duct 303 is arranged between the battery bent frame arranged along the inner side wall of the container body 101 and the inner side wall of the container body 101, the vertical cooling air duct 303 is communicated with the cold air pipe 302, and heat accumulation between the inner wall of the container body 101 and the battery frame 202 is prevented.

Hot-blast main 301 and cold-blast main 302 all set up along the length direction level of container body 101, the maintenance passageway 100 and the vertical cooling wind channel 303 of a plurality of energy storage battery unit of group all vertically set up along the direction of height of container body 101, make the circulation wind channel horizontal, vertically crisscross distribution in each energy storage battery unit of group in container body 1, be favorable to the heat of container body 101 inside to dissipate fast through integral type air conditioner 203 to ensure energy storage battery's normal operating.

The bottom of the overhaul channel 100 is paved with the anti-static raised floor 204, the anti-static raised floor 204 is paved above the cold air pipe 302, the cold air pipe 302 can be prevented from being trampled, and the overhaul channel 100 is ensured to be safely used due to good anti-static performance.

The outer wall mounting of container body 101 pull rod 105, container body 101's bottom is installed a plurality of tire 104 through the shaft, accessible pull rod 105 is connected to the trailer to reach the purpose that pulls the removal through a plurality of tire 104, with the requirement of satisfying the removal energy storage.

The bottom of container body 101 be equipped with hydraulic pressure case 103, the lower surface of hydraulic pressure case 103 is located tire 104's lower surface top, avoid hydraulic pressure case 103 to rub with the ground or collide with the step, the hydraulic pressure buttress 102 of the vertical setting of a plurality of is installed to container body 101's bottom interval, a plurality of hydraulic pressure buttress 102 passes through the hydraulic pressure pipeline and is connected with hydraulic pressure case 103, hydraulic pressure case 103 controls the flexible of hydraulic pressure buttress 102 through hydraulic pressure pipeline transmission hydraulic pressure force, extend and prop up container body 101 when hydraulic pressure buttress 102, make tire 104 when liftoff, can make the utility model discloses stable location, the energy supply of being convenient for is used.

Referring to fig. 2, a plurality of illuminating lamps 205 are disposed in the container body 101, the illuminating lamps 205 are distributed on the top of the access passage 100 to provide illumination for the access operation, and the illuminating lamps 205 can provide a working power supply through an energy storage battery to meet the illumination requirement.

Referring to fig. 2, a plurality of automatic fire extinguishers 206 are disposed in the container body 101, and the plurality of automatic fire extinguishers 206 are distributed at the top of the access passage 100, and can be started by smoke sensing, temperature sensing and the like to ensure the safe operation of the energy storage battery.

The tail end of the container body 101 be equipped with brake light 107 and indicator 108, brake light 107 and indicator 108 can be connected to the trailer back through towing linkage 105 at the container body 101, be connected with the whole car control system of trailer through the pencil, realize the synchronous scintillation of brake light 107 and indicator 108 of the container body 101 and the brake light and the indicator of trailer to improve the removal security of the container body 101, avoid the rear vehicle to chase into the back. The brake lamp 107 and the steering lamp 108 can also be connected with the whole trailer control system in a wireless mode to meet the use of braking and steering functions.

The block terminal 201 be equipped with distribution equipment, power cable, but plug power cable connects, signal control cable, but plug signal control cable connects etc. to satisfy the requirement of power supply connection and control, ensure the plug-and-play of equipment such as boats and ships.

Example (b):

distribution box 201 is installed on the short side outer wall of one side of container body 101, and distribution box 201 is connected with the energy storage battery on battery holder 202 through the power cable and the signal control cable of cable tray for energy storage battery's electric energy transmission. Cable trough box and cold wind pipe 302 hide in the below of clearance passageway 100 through antistatic raised floor 204, ensure the unobstructed and cable trough box of overhaul passageway 100 and the normal use of cold wind pipe 302. The tow-hook 105 is installed on one side short edge outer wall of the container body 101, is located the below of block terminal 201, and the accessible tow-hook 105 connects the container body 101 on the trailer to four tires 104 of cooperation container body 101 bottom satisfy the demand of removing. Six hydraulic buttresses 102 of bottom both sides equipartition of container body 101 move the back that targets in place, and accessible hydraulic pressure case 103 passes through hydraulic pressure pipeline hydraulic control hydraulic pressure buttress 102 downwardly extending, makes four tires 104 liftoff, with container body 101 lifting and location, is convenient for keep holistic stability when providing the electric energy.

The battery bent frame is installed in the container body 101 in a face-to-face-back mode, a proper number of battery frames 202 are selected according to the length and the width of the container body 101, the battery frames 202 are arranged along the width direction of the container body 101 to form the battery bent frame, and a proper number of battery bent frames are sequentially arranged along the length direction of the container body 101, so that an overhaul channel 100 is formed between the two rows of battery bent frames which are arranged face to face, and overhaul and warm ventilation are facilitated; a vertical cooling air duct 303 is arranged between two rows of battery bent frames arranged back to back, and a cooling air port is correspondingly arranged on each group of energy storage batteries on the vertical cooling air duct 303, so that the purpose of quickly and effectively dissipating heat is achieved. And a circulating air duct is formed among the overhaul channel 100, the hot air duct 301, the integrated air conditioner 203, the cold air duct 302 and the vertical cooling air duct 303.

During operation, the integrated air conditioner 203 is installed on the outer wall of the short side of the other side of the container body 101, heat generated during operation of the energy storage batteries enters the hot air pipe 301 through the air outlet in the top of the overhaul channel 100, and is cooled by the integrated air conditioner 203 and then returns to the battery rack 202 through the cooling air inlet of the vertical cooling air duct 303 through the cold air pipe 302, and because the cooling air inlet of the vertical cooling air duct 303 and the energy storage batteries are arranged in a one-to-one correspondence mode, quick and effective heat dissipation of each group of energy storage batteries is achieved through the circulating. Similarly, when the energy storage battery cannot normally operate in a low-temperature environment, the integrated air conditioner 203 can heat cold air and reversely convey the cold air to each group of energy storage battery units in the container body 101 through the circulating air duct, so that the energy storage battery in the container body 101 can operate in a working environment with a proper temperature, and the effectiveness and the safety of energy supply are ensured.

During the maintenance, set up the container door 106 with energy storage battery unit matching quantity on the container body 101, because the both ends of access way 100 directly link to the container door 106, maintainer accessible container door 106 gets into the access way 100 of corresponding energy storage battery unit, overhauls and maintains the energy storage battery. The container door 106 may be hingedly mounted to the container body 101 for easy opening and closing.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and should not be taken as limiting the scope of the present invention, therefore, any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention should be included in the scope of the present invention.

Claims (10)

1. A mobile trailing type energy storage battery container comprises a container body (101) provided with a container door (106), a plurality of battery racks (202) arranged in the container body (101), a plurality of groups of energy storage batteries arranged on the battery racks (202) at intervals, and a distribution box (201) arranged on the outer wall of the container body (101) and connected with the energy storage batteries;

the method is characterized in that: the battery frames (202) are arranged in a straight line to form battery row frames, the two rows of battery row frames are oppositely arranged to form energy storage battery units, and an overhaul channel (100) is reserved between the two rows of battery row frames which are oppositely arranged; two ends of the access passage (100) respectively extend to the container door (106), and the top of the access passage (100) is provided with an air outlet; the plurality of groups of energy storage battery units are respectively arranged in the container body (101) at intervals, the battery racks of two adjacent groups of energy storage battery units are arranged in an opposite manner, a vertical cooling air duct (303) is arranged between the battery racks arranged in the opposite manner, a plurality of cooling air ports are arranged on the vertical cooling air duct (303) at intervals, and the plurality of cooling air ports are respectively arranged in one-to-one correspondence with the plurality of groups of energy storage batteries on the battery rack (202); the outer side wall of the container body (101) is provided with an integrated air conditioner (203), the top of the inner wall of the container body (101) is provided with a hot air pipe (301), air outlets of a plurality of groups of energy storage battery units are communicated with the hot air pipe (301) through air exhaust pipelines, and one end of the hot air pipe (301) extends to the outside of the container body (101) and is connected with a port of the integrated air conditioner (203); a cold air pipe (302) is arranged at the bottom of the inner wall of the container body (101), vertical cooling air channels (303) of the plurality of groups of energy storage battery units are communicated with the cold air pipe (302), and one end of the cold air pipe (302) extends to the outside of the container body (101) and is connected with a port of the integrated air conditioner (203); and a circulating air duct is formed among the overhaul channel (100), the hot air duct (301), the integrated air conditioner (203), the cold air duct (302) and the vertical cooling air duct (303).

2. A mobile tow behind energy storage battery container as claimed in claim 1 wherein: the battery row frame that a plurality of groups energy storage battery unit set up along the length direction of container body (101), set up along container body (101) inside wall between battery framed bent and container body (101) inside wall be equipped with perpendicular cooling air duct (303), and this perpendicular cooling air duct (303) and cold-blast pipe (302) intercommunication.

3. A mobile tow behind energy storage battery container as claimed in claim 1 wherein: hot-blast main (301) and cold-blast main (302) all set up along the length direction level of container body (101), overhaul passageway (100) and perpendicular cooling duct (303) all vertically set up along the direction of height of container body (101).

4. A mobile towed energy storage battery container as defined in claim 1 or 3, wherein: and an anti-static raised floor (204) is laid at the bottom of the overhaul channel (100), and the anti-static raised floor (204) is laid above the cold air pipe (302).

5. A mobile, towed, energy storage battery container as defined in any one of claims 1 to 3, wherein: the outer wall of the container body (101) is provided with a towing rod (105), and the bottom of the container body (101) is provided with a plurality of tires (104).

6. A mobile, towed, energy storage battery container as defined in any one of claims 1 to 3, wherein: the bottom of container body (101) be equipped with hydraulic tank (103), the lower surface of hydraulic tank (103) is located the lower surface top of tire (104), the hydraulic pressure buttress (102) of a plurality of vertical setting are installed at the bottom interval of container body (101), a plurality of hydraulic pressure buttress (102) are connected with hydraulic tank (103).

7. A mobile, towed, energy storage battery container as defined in any one of claims 1 to 3, wherein: the container body (101) is internally provided with a plurality of illuminating lamps (205), and the illuminating lamps (205) are distributed at the top of the overhaul channel (100).

8. A mobile, towed, energy storage battery container as defined in any one of claims 1 to 3, wherein: a plurality of automatic fire extinguishers (206) are arranged in the container body (101), and the automatic fire extinguishers (206) are distributed at the top of the overhaul channel (100).

9. A mobile, towed, energy storage battery container as defined in any one of claims 1 to 3, wherein: the tail end of the container body (101) is provided with a brake lamp (107) and a steering lamp (108), and the brake lamp (107) and the steering lamp (108) are connected with a trailer whole vehicle control system after the container body (101) is connected to the trailer.

10. A mobile tow behind energy storage battery container as claimed in claim 1 wherein: the distribution box (201) is provided with distribution equipment, a power cable, a pluggable power cable joint, a signal control cable and a pluggable signal control cable joint.

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