CN112677859A

CN112677859A - Mobile energy storage vehicle

Info

Publication number: CN112677859A
Application number: CN202110112827.1A
Authority: CN
Inventors: 洪德映
Original assignee: Jiangsu Ashite Energy Technology Co ltd
Current assignee: Jiangsu Ashite Energy Technology Co ltd
Priority date: 2021-01-27
Filing date: 2021-01-27
Publication date: 2021-04-20

Abstract

The invention provides a mobile energy storage vehicle which can be quickly loaded and separated from a trailer, reduces the transportation cost and reduces the cost of a mobile energy storage structure. The container comprises a container type box body, wherein the box body comprises a bottom plate, two side plates, two end plates and a top plate, two ends of the box body in the length direction of the side plates are respectively provided with an inwards-concave hydraulic oil cylinder installation cavity, an upper oil cylinder rotating seat and a lower oil cylinder rotating seat are respectively arranged at the upper position and the lower position of a connecting upright column at the corresponding end of each side plate, a linear hydraulic oil cylinder base is fixedly arranged between the upper oil cylinder rotating seat and the lower oil cylinder rotating seat, the lower piston end of the linear hydraulic oil cylinder is arranged downwards, the linear hydraulic oil cylinder is arranged in the hydraulic oil cylinder installation cavity in the non-transfer state of a mobile energy storage vehicle, and a power grid connection box, a charging pile insertion box, an energy storage bidirectional converter, a charging pile, a control cabinet, a plurality of.

Description

Mobile energy storage vehicle

Technical Field

The invention relates to the technical field of mobile energy storage, in particular to a mobile energy storage vehicle.

Background

The existing mobile energy storage structures are all formed by directly integrating carriages on a chassis and wheels, the chassis, the wheels and the carriages cannot be separated during actual use, so that the manufacturing cost of the mobile energy storage vehicle is high, and the arrangement positions of the mobile energy storage vehicle are relatively fixed during actual use, so that the structure that the carriages are directly integrated with a movable vehicle body is relatively wasted; the existing mobile energy storage structure only provided with the carriage module needs a heavy crane to hoist a trailer when a position is needed to be transported, and the use of the heavy crane causes high transportation cost; therefore, an economical and practical mobile energy storage vehicle is urgently needed to be researched and developed.

Disclosure of Invention

In order to solve the problems, the invention provides a mobile energy storage vehicle which can be quickly loaded and separated from a trailer, so that the transportation cost is reduced, and the cost of a mobile energy storage structure is reduced.

The utility model provides a remove energy storage car which characterized in that: the container comprises a container type box body, wherein the box body comprises a bottom plate, two side plates, two end plates and a top plate, two ends of the two side plates of the box body in the length direction are respectively provided with an inwards-concave hydraulic oil cylinder installation cavity, the upper position and the lower position of a connecting upright column at the corresponding end of each side plate are respectively provided with an upper oil cylinder rotating seat and a lower oil cylinder rotating seat, a cylinder seat of a linear hydraulic oil cylinder is fixedly arranged between the upper oil cylinder rotating seat and the lower oil cylinder rotating seat, the lower piston end of the linear hydraulic oil cylinder faces downwards, the linear hydraulic oil cylinder is arranged in the hydraulic oil cylinder installation cavity in a non-transshipment state of a mobile energy storage vehicle, a power grid connection box, a charging pile insertion box, an energy storage bidirectional converter, a charging pile, a control cabinet, a plurality of battery packs and an industrial integrated air conditioner are arranged in an inner cavity of the, the utility model discloses a power grid, including power grid connection box, control cabinet, industry integrative air conditioner, main control unit connects energy storage bidirectional converter, the heap that charges respectively, the heap that charges, switch board, industry integrative air conditioner, the main control unit that has integrated in the switch board, main control unit connects energy storage bidirectional converter, the heap that charges respectively through the communication line that corresponds respectively, the heap integration that charges has the benefit electrical interface, the benefit electrical interface is connected fill the built-in electric pile that electric pile insertion box corresponds, energy storage bidirectional converter is connected to the group battery, the group battery is connected fill electric pile.

It is further characterized in that:

each battery pack is provided with a group of vertical battery inserting frames, the battery inserting boxes are inserted into the positioning cavities of the corresponding vertical battery inserting frames and then connected in series, all the battery packs are connected in parallel and connected to a battery management system, and the battery management system is connected to a main controller;

the air outlet of the industrial integrated air conditioner is arranged in the area of one end plate, and a safety door is further integrated on the area of the end plate provided with the air outlet of the industrial integrated air conditioner;

the inner cavity of the box body also comprises an electric cabin, the electric grid connection box, a charging pile slot box, an energy storage bidirectional converter and a charging pile are arranged in the electric cabin, the electric cabin and the battery cabin are isolated by a heat insulation wall, the other end plate is provided with an access door and a cabin door of an electric grid equipment cabin, at least one group of cabin air inlets are integrated on the access door, and the cabin door of the electric grid equipment cabin is covered on the outer end surface of the electric grid connection box;

an air outlet at the upper part of the outer side of the energy storage bidirectional converter is arranged towards one side plate, a first access/access door of the energy storage bidirectional converter is arranged in the surface area of one side plate, an air outlet at the upper part of the outer side of the charging pile is arranged towards the other side plate, and a second access/access door of the charging pile is arranged in the surface area of the other side plate;

the battery compartment is provided with a third access door at the position of two side plates corresponding to the arrangement position of the battery pack, the control cabinet is provided with a fourth access door at the position corresponding to the side plates, the fourth access door is provided with an operation window at the position corresponding to the display screen of the control cabinet, and the operation control and observation of the display screen are directly carried out through the operation window;

the position that exposes in the curb plate that corresponds is exposed to in the stake of charging of the stake slotting box of both sides, ensures to charge convenient reliable going on.

After the structure of the invention is adopted, the movable energy storage vehicle does not need to be integrated on a chassis and wheels, when the transportation is needed, the cylinder base of the linear hydraulic oil cylinder is overturned to the outer side of the box body, then the lower piston ends of the linear hydraulic oil cylinders at four positions synchronously act to downwards jack and play the role of a jack, then the whole box body is jacked to the corresponding height, the supporting surface of the transportation trailer runs to the lower part of the box body, the lower piston end of the linear hydraulic oil cylinder retracts, then the box body is supported on the supporting surface of the transportation trailer, after the fastening through external equipment, the transportation trailer drives the movable energy storage vehicle to the set position, then the cylinder base of the linear hydraulic oil cylinder is overturned to the outer side of the box body again, then the lower piston ends of the linear hydraulic oil cylinders at four positions synchronously act to downwards jack and jack, then the whole box body is jacked to the, the transfer trailer leaves the box, and last linear hydraulic cylinder's lower part piston end withdraws, and later the box supports in ground, and linear hydraulic cylinder's cylinder seat upset to the hydraulic cylinder installation cavity of indent, it can load the separation with the trailer fast, has reduced the cost of transporting, and has reduced the cost of removing the energy storage structure.

Drawings

FIG. 1 is a first perspective view of the present invention with the top plate removed;

FIG. 2 is a first perspective view of the present invention with the top plate removed;

FIG. 3 is a schematic view of the internal perspective structure of the present invention;

FIG. 4 is a schematic top view of the present invention with the top plate removed;

FIG. 5 is a front view structural schematic diagram of the present invention;

FIG. 6 is a rear view structural schematic of the present invention;

FIG. 7 is a left side view structural schematic of the present invention;

FIG. 8 is a right side view structural schematic of the present invention;

the names corresponding to the sequence numbers in the figure are as follows:

the device comprises a bottom plate 1, side plates 2, end plates 3, a top plate 4, a hydraulic oil cylinder installation cavity 5, a connecting upright post 6, an upper oil cylinder rotating seat 7, a lower oil cylinder rotating seat 8, a linear hydraulic oil cylinder 9, a cylinder seat 91, a lower piston end 92, a power grid connection box 10, a charging pile slot box 11, an energy storage bidirectional converter 12, an outer upper air outlet 121, a first inlet/access door 122, a charging pile 13, an upper charging pile air outlet 131, a second inlet/access door 132, a control cabinet 14, a battery pack 15, an industrial integrated air conditioner 16, an air conditioner air outlet 161, an air duct 17, a cable slot frame 18, a charging pile 19, a vertical battery inserting frame 20, a battery inserting box 21, a fire fighting cabinet 22, a safety door 23, an access door 24, a power grid equipment compartment door 25, a compartment air inlet 26, a third inlet/access door 27, a fourth access door 28, an operation

Battery compartment 100, electric compartment 200, heat preservation wall 300.

Detailed Description

A mobile energy storage vehicle, see fig. 1-8: the container comprises a container type box body, the box body comprises a bottom plate 1, two side plates 2, two end plates 3 and a top plate 4, two ends of the two side plates 3 of the box body in the length direction are respectively provided with an inwards concave hydraulic oil cylinder installation cavity 5, the upper position and the lower position of a connecting upright post 6 at the corresponding end of each side plate 3 are respectively provided with an upper oil cylinder rotating seat 7 and a lower oil cylinder rotating seat 8, a cylinder seat 91 of a linear hydraulic oil cylinder 9 is fixedly arranged between the upper oil cylinder rotating seat 7 and the lower oil cylinder rotating seat 8, a lower piston end 92 of the linear hydraulic oil cylinder 9 faces downwards, the linear hydraulic oil cylinder 9 is arranged in the hydraulic oil cylinder installation cavity 5 in a non-transfer state of a mobile energy storage vehicle, a power grid connection box 10, a charging pile slot box 11, an energy storage bidirectional converter 12, a charging pile 13, a control cabinet 14, a plurality of battery packs 15 and an industrial integrated air conditioner 16 are arranged in an inner cavity of, the electric wire netting connects case 10 to arrange in the inboard region of one of them end plate 3, the electric wire netting is connected the integrated electric wire netting subrack that has on case 10, the load subrack, the electric wire netting connects the input line of case 10 to set up in the cable trough frame 18 at box top, later be connected to energy storage bidirectional converter 12 respectively, the heap 13 that charges, switch board 14, the integrative air conditioner 16 of industry, the integration has main control unit in the switch board 14, main control unit connects energy storage bidirectional converter 12 through the communication line who corresponds respectively, the heap 13 that charges, the heap 13 integration that charges has the benefit electrical interface, the built-in electric pile 19 that electric pile subrack 11 corresponds is filled in the benefit electrical interface connection, energy storage bidirectional converter 12 is connected to group battery 15, group battery.

Each battery pack 15 is provided with a group of vertical battery inserting frames 20, the battery inserting boxes 21 are inserted into the positioning cavities of the corresponding vertical battery inserting frames 20 and then connected in series, all the battery packs 15 are connected in parallel and connected to a battery management system, and the battery management system is connected to a main controller;

a cavity formed by the plurality of battery packs 15 is a battery compartment 100, a control cabinet 14 and a fire-fighting cabinet 22 are further arranged in the battery compartment 100, a top air duct 17 is arranged at the top of the battery compartment 100, the top air duct 17 is connected with an air inlet and an air outlet of an independently arranged industrial integrated air conditioner 16, an air conditioner air outlet 161 of the industrial integrated air conditioner 16 is arranged in the surface area of one end plate 3, and a safety door 23 is further integrated on the surface area of the end plate on which the air conditioner air outlet 161 is arranged;

the inner cavity of the box body also comprises an electric cabin 200, a power grid connection box 10, a charging pile slot box 11, an energy storage bidirectional converter 12 and a charging pile 13 are arranged in the electric cabin 200, the electric cabin 200 and the battery cabin 100 are isolated by a heat insulation wall 300, the other end plate is provided with an access door 24 and a power grid equipment cabin door 25, at least one group of cabin air inlets 26 are integrated on the access door 24, and the outer end face of the power grid connection box 10 is covered with the power grid equipment cabin door 25;

the outer upper air outlet 121 of the energy storage bidirectional converter 12 is arranged towards one side plate, the first access/access door 122 of the energy storage bidirectional converter 12 is arranged in the surface area of one side plate, the outer upper charging stack air outlet 131 of the charging stack 13 is arranged towards the other side plate, and the second access/access door 132 of the charging stack 13 is arranged in the surface area of the other side plate;

the battery compartment 100 is provided with third access doors 27 at two side plate positions corresponding to the arrangement position of the battery pack 15, the control cabinet 14 is provided with fourth access doors 28 at positions corresponding to the side plates, the fourth access doors 28 are provided with operation windows 29 at positions corresponding to the display screens 30 of the control cabinet 14, and the operation control and observation of the display screens 30 are directly performed through the operation windows 29;

the charging pile 19 of the charging pile slot boxes 11 on the two sides is exposed out of the corresponding side plate, so that charging is convenient and reliable.

In specific implementation, the battery packs 15 are three groups, and each group is provided with 14 battery inserting boxes 21.

The working principle is as follows: the movable energy storage vehicle does not need to be integrated on a chassis and wheels, when the movable energy storage vehicle needs to be transported, a cylinder seat of a linear hydraulic oil cylinder is turned to the outer side of a box body, then piston ends of the lower parts of the linear hydraulic oil cylinders at four positions synchronously act to downwards jack and play a role of a jack, then the whole box body is jacked to a corresponding height, a supporting and conveying supporting surface of a transport trailer runs to the lower part of the box body, the piston ends of the lower parts of the linear hydraulic oil cylinders retract, then the box body is supported on the supporting and conveying supporting surface of the transport trailer, after the movable energy storage vehicle is driven by the transport trailer to a set position after being fastened through external equipment, then the cylinder seat of the linear hydraulic oil cylinder is turned to the outer side of the box body again, then the piston ends of the lower parts of the linear hydraulic oil cylinders at four positions synchronously act to downwards jack and, and finally, the piston end at the lower part of the linear hydraulic oil cylinder retracts, the box body is supported on the ground, and the cylinder seat of the linear hydraulic oil cylinder is turned to the inwards concave hydraulic oil cylinder mounting cavity, so that the linear hydraulic oil cylinder can be quickly loaded and separated from a trailer, the transfer cost is reduced, and the cost of the movable energy storage structure is reduced.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. A movable energy storage vehicle comprises a container type box body, wherein the box body comprises a bottom plate, two side plates, two end plates and a top plate, inwards-concave hydraulic cylinder installation cavities are respectively arranged at two ends of two side plates of the box body in the length direction, an upper cylinder rotating seat and a lower cylinder rotating seat are respectively arranged at the upper position and the lower position of a connecting upright column at the corresponding end of each side plate, a cylinder seat of a linear hydraulic cylinder is fixedly arranged between the upper cylinder rotating seat and the lower cylinder rotating seat, the lower piston end of the linear hydraulic cylinder faces downwards, the linear hydraulic cylinder is arranged in the hydraulic cylinder installation cavity in a non-transfer state of the movable energy storage vehicle, a power grid connection box, a charging pile insertion groove box, an energy storage bidirectional converter, a charging pile, a control cabinet, a plurality of battery packs and an industrial integrated air conditioner are arranged in an inner cavity of the box body, and an air inlet and outlet of the industrial integrated air, the utility model discloses a power grid, including power grid connection box, control cabinet, industry integrative air conditioner, main control unit connects energy storage bidirectional converter, the heap that charges respectively, the heap that charges, switch board, industry integrative air conditioner, the main control unit that has integrated in the switch board, main control unit connects energy storage bidirectional converter, the heap that charges respectively through the communication line that corresponds respectively, the heap integration that charges has the benefit electrical interface, the benefit electrical interface is connected fill the built-in electric pile that electric pile insertion box corresponds, energy storage bidirectional converter is connected to the group battery, the group battery is connected fill electric pile.

2. A mobile energy storage vehicle as claimed in claim 1, characterized in that: each battery pack is provided with a group of vertical battery inserting frames, the battery inserting boxes are inserted into the positioning cavities of the corresponding vertical battery inserting frames and then connected in series, all the battery packs are connected in parallel and connected to a battery management system, and the battery management system is connected to the main controller.

3. A mobile energy storage vehicle as claimed in claim 1, characterized in that: the cavity that a plurality of group battery formed is the battery compartment, switch board, fire control cabinet have still been arranged to the battery compartment, the top in battery compartment is provided with the wind channel, independently arrange the business turn over wind gap of the integrative air conditioner of industry is connected to the wind channel, the air outlet of the integrative air conditioner of industry arranges in the face territory of one of them end plate, has still integrated the emergency exit on the face territory of the end plate of arranging the integrative air conditioner air outlet of industry.

4. A mobile energy storage vehicle as claimed in claim 3, characterized in that: still including the electric cabin in the inner chamber of box, the electric cabin is interior to be arranged the electric wire netting connects the case, fills electric pile inserting groove case, energy storage bidirectional converter, the heap of charging, the electric cabin with keep apart the setting through the heat preservation wall between the battery compartment, another end plate is provided with access door, electric wire netting equipment cabin hatch door, integrated at least a set of cabin air intake on the access door, the electric wire netting connects the outer end face lid of case to be equipped with electric wire netting equipment cabin hatch door.

5. A mobile energy storage vehicle as claimed in claim 1, characterized in that: the air outlet of the upper outer portion of the energy storage bidirectional converter is arranged towards one side plate, the first access/access door of the energy storage bidirectional converter is arranged in the surface area of one side plate, the air outlet of the charging pile of the upper outer portion of the charging pile is arranged towards the other side plate, and the second access/access door of the charging pile is arranged in the surface area of the other side plate.

6. A mobile energy storage vehicle as claimed in claim 1, characterized in that: the battery compartment is provided with a third access door corresponding to the two side plates of the battery pack, and the control cabinet is provided with a fourth access door corresponding to the side plates.

7. A mobile energy storage vehicle as claimed in claim 1, characterized in that: the charging piles of the charging pile slot boxes on the two sides are exposed out of the corresponding side plates.