CN115126291B

CN115126291B - Storage panels, storage panel combination units, and battery swap stations or energy storage stations

Info

Publication number: CN115126291B
Application number: CN202110326906.2A
Authority: CN
Inventors: 张建平; 陈新雨
Original assignee: Aulton New Energy Automotive Technology Co Ltd
Current assignee: Aulton New Energy Automotive Technology Co Ltd
Priority date: 2021-03-26
Filing date: 2021-03-26
Publication date: 2025-03-14
Anticipated expiration: 2041-03-26
Also published as: CN115126291A

Abstract

The invention provides a warehouse board, a warehouse board combination unit and a power exchange station or an energy storage station, wherein the warehouse board comprises a first layer board and a second layer board, a plurality of protruding units protruding towards the direction far away from the second layer board are arranged on the first layer board, the protruding units extend towards the same direction, a column extending towards the second layer board is also arranged on the first layer board, an assembly hole is formed in the column, a through hole is formed in the first layer board, the assembly hole is communicated to the outer side of the first layer board through the through hole, the assembly hole is a blind hole, and the assembly hole is used for installing an assembly part. By providing a column between the first and second deck, it is achieved that other equipment installed outside the power exchange station or the energy storage station is connected while increasing the strength of the warehouse deck. Because the assembly hole is a blind hole, even if rainwater permeates into the interior of the assembly hole from a gap between the assembly hole and the assembly part, the rainwater cannot further enter the interior of the power exchange station or the energy storage station, so that the waterproof performance of the power exchange station or the energy storage station is improved.

Description

Warehouse board, warehouse board combination unit and power exchange station or energy storage station

Technical Field

The invention relates to the field of electric vehicle power conversion, in particular to a warehouse board, a warehouse board combination unit and a power conversion station or an energy storage station.

Background

At present, new energy vehicles are increasingly popular with consumers, the energy used by the new energy vehicles is basically electric energy, the new energy vehicles need to be charged after the electric energy is used, and due to the limitations of the existing battery technology and the charging technology, the new energy vehicles need to be fully charged for a long time, which is not as simple and rapid as the direct oiling of the vehicles. Therefore, in order to reduce the waiting time of the user, it is an effective means to replace the battery when the electric power of the new energy vehicle is rapidly exhausted. In order to facilitate battery replacement and meet the power replacement requirements of more and more new energy vehicles, a power replacement station or an energy storage station needs to be built.

Because the power exchange station and the energy storage station are generally arranged in the open air, and a large number of battery packs, electrical equipment for charging the battery packs and the like are arranged in the power exchange station and the energy storage station, the waterproof performance of the power exchange station and the energy storage station is particularly critical so as to avoid faults of the battery packs and the electrical equipment in the power exchange station and the energy storage station. The outside of the power exchange station or the energy storage station is also provided with solar energy and other equipment to provide power for the power exchange station or the energy storage station, and the equipment is generally fixed on the top plate of the power exchange station or the energy storage station through a fixing piece, so that in order to strengthen the waterproof performance of the power exchange station or the energy storage station, the equipment failure caused by the fact that rainwater and other liquids infiltrate into the inside of the power exchange station or the energy storage station through the connection part of the equipment and the top plate of the power exchange station or the energy storage station is also avoided, and the equipment failure caused by the fact that rainwater and other liquids infiltrate into the inside of the power exchange station or the energy storage station from the installation gap of the power exchange station or the energy storage station is avoided. The patent with the application number of CN203188396U discloses a sandwich structure type heat-insulating board, which comprises two layers of panels, wherein a heat-insulating layer is clamped between the two layers of panels, a plurality of through holes are formed in the heat-insulating layer, connecting columns with two ends fixedly connected with the two layers of panels respectively are inserted in the through holes, the two layers of panels and the connecting columns are made of inorganic cementing materials, and the heat-insulating layer is made of XPS (XPS board, EPS board, polyurethane or phenolic materials). The patent of application number CN211313108U discloses a mounting structure that unrestrained board of bakelite was used, including unrestrained board main part of bakelite, the left side integrated into one piece in unrestrained board main part of bakelite has first folding portion, and the first installation through-hole that the equidistance was arranged has been seted up at the top of first folding portion, and the right side integrated into one piece of unrestrained board main part of bakelite has the second folding portion, and the second installation through-hole that the equidistance was arranged has been seted up at the top of second folding portion, and during the installation, the second folding portion covers on first folding portion. The sandwich insulation board or the bakelite wave board structure in the prior art can not meet the requirements of overall strength, waterproof sealing performance of the power exchange station or the energy storage station.

Disclosure of Invention

The invention aims to solve the technical problem of providing a warehouse board, a warehouse board combination unit and a power exchange station or an energy storage station for improving the overall strength and waterproof sealing performance of the power exchange station.

The invention solves the technical problems by the following technical scheme:

A storehouse board for trading power station or energy storage station, the storehouse board includes first plywood and second plywood, be equipped with a plurality of orientation on the first plywood and keep away from the bellied protruding unit of second plywood direction, a plurality of protruding unit extends towards same direction, still be equipped with on the first plywood to the cylinder that the second plywood extends, set up the pilot hole in the cylinder, set up the through-hole on the first plywood, the pilot hole passes through the through-hole switches on to the outside of first plywood, the pilot hole is the blind hole, the pilot hole is used for installing the assembly part.

In this scheme, through setting up the cylinder between first plywood and second plywood to realize connecting other equipment of installing outside the power exchange station or the energy storage station in the time of improving storehouse board intensity. The assembly holes are not directly formed on the surface of the warehouse plate, but are arranged in the column body in the warehouse plate, so that the strength of the warehouse plate is not reduced, deformation of the warehouse plate caused by overlarge local stress in the use process is avoided, the structural strength of the warehouse plate and the structural strength of the joint of the warehouse plate are improved, and the integral strength of the power exchange station or the energy storage station is improved. And because the assembly hole is the blind hole, even if rainwater infiltrates into the inside of the assembly hole from the clearance between assembly hole and the assembly piece, can not further get into the inside of the power exchange station or the energy storage station to improve the waterproof sealing performance of the power exchange station or the energy storage station.

Preferably, the column extends to the second laminate and is abutted or bonded with the second laminate.

In this scheme, the cylinder connects first plywood and second plywood as an entity to improve the intensity of storehouse board.

Preferably, the wall surface of the assembly hole is flush with the wall surface of the through hole.

In this scheme, above-mentioned quick location when setting up the installation of convenience assembly part, and the outside at power station or energy storage station does not show the cylinder, makes the structure more level and smooth.

Preferably, the first layer board and the second layer board are made of carbon fiber, polymer composite material or SMC resin material;

And/or the column body is made of resin material.

In this scheme, first plywood, second plywood and cylinder select for use above-mentioned material, satisfy the structural strength requirement of trading power station or energy storage station when realizing the storehouse board lightweight, and it is more convenient to install.

Preferably, the warehouse board is further provided with an insulation layer, the insulation layer is sandwiched between the first layer board and the second layer board, and the insulation layer comprises inorganic foaming materials, rock wool, polyurethane foam or aerogel felt.

In this scheme, the storehouse board adopts three-layer combined type structure, can strengthen the intensity of storehouse board. The heat preservation layer is used for playing the heat insulation and preservation effect, guarantees that the inside temperature of power conversion station or energy storage station can not be too high or too low, reduces the influence of temperature to power conversion station or energy storage station internal equipment.

Preferably, the library plate further comprises a first connection column and/or a second connection column;

The first connecting column is arranged on the first layer plate, the second connecting column is arranged on the second layer plate, and the first layer plate and the second layer plate are fixed in an abutting mode through the first connecting column and/or the second connecting column.

In the scheme, the first connecting column and/or the second connecting column connect the first laminate and the second laminate into a whole, so that the strength of the warehouse board is improved.

Preferably, the first connecting column and the first laminate and/or the second connecting column and the second laminate and/or the first connecting column and the second connecting column and/or the first connecting column and the second laminate and/or the second connecting column and the first laminate are/is fixed by gluing, clamping, expanding beads or bolts.

In the scheme, the connecting mode is simple in process, convenient to assemble and manufacture and good in fixing effect.

Preferably, the heat insulation layer has a through hole corresponding to the first connecting column and/or the second connecting column, and the first connecting column and/or the second connecting column passes through the through hole to be connected and fixed.

In this scheme, because first plywood, second plywood and heat preservation form three-layer composite structure, first plywood and second plywood are located the heat preservation both sides to with the heat preservation intermediate layer clamp, consequently above-mentioned setting makes things convenient for first spliced pole and/or second spliced pole to run through the heat preservation and realizes the connection of first plywood and second plywood, in order to improve the joint strength of first plywood and second plywood.

Preferably, two opposite ends of the warehouse board are provided with protruding ends and matching ends, and the protruding ends and the matching ends protrude from the same side surface of the warehouse board and extend towards the same direction, so that the protruding ends and the matching ends on two adjacent warehouse boards can be mutually overlapped when the plurality of warehouse boards are assembled.

In this scheme, carry out the connection of polylith storehouse board through the coincide of protruding end and cooperation end, the storehouse board equipment is convenient, and low in production cost behind the storehouse board modularization, and the intensity of the connected portion after the coincide mode equipment is higher, connects more stably, also can shelter the connection gap simultaneously and make the water proofness better.

Preferably, the plurality of protruding units comprise protruding portions and matching portions, the protruding portions are formed by protruding the first layer plate in the direction away from the second layer plate at the protruding ends, the matching portions are formed by protruding the first layer plate in the direction away from the second layer plate at the matching ends, and the matching portions are used for covering the outer sides of the protruding portions of the adjacent warehouse plates when the plurality of warehouse plates are assembled.

In this scheme, bellying and cooperation portion all are protruding by first plywood and form, and the cooperation portion of a storehouse board can cover and overlap in the bellying outside of another adjacent storehouse board when two storehouse boards are connected, forms the coincide structure, can make the intensity of connection higher, also can cover the joint gap of two storehouse boards, avoids liquid such as rainwater to permeate from this gap to improve the waterproof performance of storehouse board.

Preferably, at the protruding end, the edge portion of the second layer plate is bent towards the first layer plate, the edge portion of the first layer plate is bent towards the second layer plate, and the inner surface of the edge portion of the first layer plate is attached to the outer surface of the edge portion of the second layer plate.

In this scheme, through buckling the first plywood and the second plywood of the protruding end of storehouse board in opposite directions in order to form the structure of upper strata cover lower floor for the edge of protruding end forms seal structure, prevents liquid infiltration such as rainwater.

Preferably, at the protruding end, the edge portion of the first layer board includes a first bending portion bending towards a direction away from the second layer board and a second bending portion bending towards the second layer board, and a first transition portion is provided between the first bending portion and the second bending portion.

In this scheme, the setting of above-mentioned a plurality of kinks has formed on the one hand and has cooperated structure with the mating end shape, and the connection equipment between the adjacent storehouse board of being convenient for has set up the joint strength that above-mentioned a plurality of kinks have improved the structural strength and the junction of storehouse board at the edge of storehouse board, improves waterproof performance.

Preferably, the outer surface of the first transition portion is provided with a groove for mounting a sealing member.

In this scheme, above-mentioned setting is used for further strengthening the sealing performance of two adjacent storehouse board junction, prevents that liquid such as rainwater from entering into the storehouse board inside from protruding end and the clearance of mating end junction, improves the waterproof effect of storehouse board.

Preferably, at the mating end, an inner surface of the edge portion of the first layer plate is bonded to an outer surface of a side of the boss of the adjacent library plate remote from the mating end.

In this scheme, the edge portion laminating of the first plywood of cooperation end is in the bellying is kept away from the surface of one side of cooperation end, prevents that the storehouse board from rising at the rainwater horizontal plane when ponding state, avoids ponding to infiltrate the storehouse board inside from this gap.

Preferably, at the mating end, the edge portion of the first layer board includes a third bending portion bending toward a direction away from the second layer board and a fourth bending portion bending toward the second layer board, and a second transition portion is provided between the third bending portion and the fourth bending portion.

In this scheme, the setting of above-mentioned a plurality of kinks has formed on the one hand with protruding end form matched with structure, the connection equipment between the adjacent storehouse board of being convenient for, set up the joint strength that above-mentioned a plurality of kinks have improved the structural strength and the junction of storehouse board at the edge of storehouse board, and the rainwater on the second transition portion of being convenient for of third kink and fourth kink flows down, avoids ponding on storehouse board surface, improves waterproof performance.

Preferably, at the mating end, the edge portion of the second layer plate is bent towards the first layer plate, the edge portion of the second layer plate is sandwiched between the edge portion of the first layer plate and a side surface of the adjacent protruding portion of the warehouse plate, which is close to the mating end, and the outer surface of the edge portion of the second layer plate is attached to the outer surface of the edge portion of the first layer plate of the protruding end of the adjacent warehouse plate.

In this scheme, through buckling the first plywood and the second plywood of storehouse board mating end in order to form the structure of upper and lower plywood joint for the edge of mating end forms seal structure, and the edge portion of the second plywood of mating end and the edge portion of the second plywood of protruding end and the edge portion of first plywood laminate each other, make the gap between the three minimum, thoroughly seal the storehouse board from the side junction, prevent liquid such as rainwater infiltration from this junction in the power exchange station or the energy storage station.

Preferably, the inner surface of the first layer plate of the protruding part is provided with a first connecting column, the inner surface of the second layer plate of the protruding part is provided with a second connecting column, the first connecting column is abutted with the second connecting column, or,

The inner surface of the first layer plate of the protruding part is provided with the first connecting column, and the first connecting column is abutted with the second layer plate of the protruding part.

In this scheme, first spliced pole and/or second spliced pole are used for connecting first plywood and second plywood to strengthen the bellying.

Preferably, the warehouse board further has a plurality of intermediate protrusions provided between the protruding portion and the mating portion, the first layer board protrudes in a direction away from the second layer board to form the intermediate protrusions, the intermediate protrusions and the protruding portion extend in the same direction, and both the protruding portion and the mating portion are higher than the intermediate protrusions.

In this scheme, above-mentioned setting is used for avoiding ponding degree of depth of storehouse board surface to walk the highest point of junction of two storehouse boards, makes ponding ooze the storehouse inboard from the clearance of two storehouse board junctions.

Preferably, a first connecting column is arranged on the inner surface of the first layer plate of the middle bulge, and the other end of the first connecting column is abutted with the second layer plate of the middle bulge.

In this scheme, first spliced pole is used for connecting first plywood and second plywood to strengthen the intensity in middle protruding department.

Preferably, the warehouse plate further includes side portions located at opposite ends of the warehouse plate in the extending direction of the protrusion unit, the side portions being used for closing a gap between the first laminate and the second laminate.

In this scheme, the side portion covers two sides of storehouse board to seal the side tip of storehouse board, prevent liquids such as rainwater from the storehouse board side infiltration storehouse inboard, and then get into the inside of trading power station or energy storage station.

Preferably, the protruding units at two ends of the warehouse board along the first direction are a protruding portion and a matching portion, the side portions are respectively arranged at two ends of the warehouse board along the second direction perpendicular to the first direction, the side portions of the protruding portions are first side portions, the side portions of the matching portion are second side portions, and the second side portions cover the outer sides of the portions of the first side portions of the adjacent warehouse boards.

In this scheme, the second side face portion of one storehouse board cooperation portion side covers the outside of the first side face portion of adjacent another storehouse board bellying one side to realize the connection of two adjacent storehouse boards.

Preferably, the first side surface portion has a step portion, the second side surface portion has an open groove, the shape of the open groove matches with the step portion, and the open groove is used for clamping the step portion of the adjacent warehouse plate when the plurality of warehouse plates are assembled.

In this scheme, the first side portion of bellying and the second side portion of cooperation portion cooperate through step portion and open slot, and the both ends of the storehouse board of being convenient for form the block structure, prevent that the storehouse board junction from taking place relative movement, improve the watertightness of storehouse board junction.

Preferably, the end surface of the step part and the second side surface part are located on the same plane, and/or the first side surface part is provided with a bottom plate, the step part is formed on the surface of the bottom plate, and the height of the step part relative to the bottom plate is the same as the thickness of the second side surface part.

In this scheme, the junction of the first side face portion of bellying and the second side face portion of cooperation portion is in the coplanar, and the rivers of being convenient for flow from the side, avoid junction surface ponding.

Preferably, one end of the side surface portion, which is close to the first layer plate, is flush with the outer surface of the first layer plate, and the other end of the side surface portion extends toward the second layer plate and extends out of the outer surface of the second layer plate.

In this scheme, above-mentioned setting is used for preventing liquid such as rainwater from the junction infiltration storehouse board inside of side portion and second plywood, strengthens the water-proof effects.

A library plate combination unit comprising library plates for a power exchange station or an energy storage station as described above, a plurality of said library plates being interconnected to form said library plate combination unit.

In this scheme, above-mentioned mode equipment is convenient, and the monolithic storehouse board can make the cost lower through modularized production, and after the equipment, storehouse board combination unit intensity is higher, and waterproof nature is better.

Preferably, the protruding ends and the matching ends of the two sides of any two adjacent warehouse boards are connected with each other to form the warehouse board combination unit.

In this scheme, the storehouse board is through protruding end and cooperation end mutually supporting, superposes for the storehouse board combination unit intensity after the combination is higher, and waterproof nature is better.

A power exchange or energy storage station comprising a frame and a warehouse board combination unit as described above, the frame being detachably connected to the warehouse board combination unit.

In this scheme, above-mentioned setting makes the equipment between the frame group storehouse board combination unit more convenient, and the installation and the maintenance of the station of being convenient for trade or energy storage station. The warehouse board combination unit is used for preventing rainwater from entering the frame and the interior of the power exchange station or the energy storage station and improving the waterproof performance of the power exchange station or the energy storage station.

Preferably, a clamping groove is formed in the frame, a buckle is arranged on the second layer plate of the warehouse plate, and the warehouse plate combination unit is clamped in the clamping groove of the frame through the buckle.

In this scheme, frame and library board combination unit joint, it is convenient to connect, intensity is high.

The invention has the positive progress effect that the column body is arranged between the first layer plate and the second layer plate, so that the strength of the warehouse plate is improved, and other equipment arranged outside the power exchange station or the energy storage station is connected. The assembly holes are not directly formed on the surface of the warehouse board, but are arranged in the column body in the warehouse board, so that the strength of the warehouse board is not reduced, deformation of the warehouse board caused by overlarge local stress in the use process is avoided, and the overall strength of the power exchange station or the energy storage station is improved. And because the assembly hole is the blind hole, even if rainwater permeates into the interior of the assembly hole from the clearance between the assembly hole and the assembly part, rainwater can not further enter the interior of the power exchange station or the energy storage station, so that the structural strength of the warehouse board and the structural strength of the joint of the warehouse board are improved, and the waterproof performance of the power exchange station or the energy storage station is improved. The library board combination unit is formed by assembling a plurality of library boards, the cost of the single library board can be lower through modularized production, and after the library board combination unit is assembled, the strength of the library board combination unit is higher, and the waterproofness is better. The warehouse board combination unit is used for preventing liquids such as rainwater from entering the frame and the inside of the power exchange station or the energy storage station, so that the waterproof effect of the power exchange station or the energy storage station is enhanced.

Drawings

FIG. 1 is a schematic cross-sectional view of a first deck of a library deck according to one embodiment of the present invention.

Fig. 2 is a schematic perspective view of a power exchange station according to an embodiment of the invention.

Fig. 3 is a schematic plan layout of a power exchange station according to an embodiment of the invention.

Fig. 4 is a schematic diagram illustrating an internal structure of a power exchange station according to an embodiment of the present invention.

FIG. 5 is a schematic cross-sectional view of a single library plate according to an embodiment of the present invention.

FIG. 6 is a schematic cross-sectional view of two library plates according to an embodiment of the present invention.

FIG. 7 is a schematic cross-sectional view of a second deck of a library deck according to one embodiment of the present invention.

Fig. 8 is a schematic perspective view of a buckle according to an embodiment of the invention.

Reference numerals illustrate:

Level shifter 110

Charging chamber 120

Charging rack 121

Lifter 122

Main control box 123

Lifting area 124

Frame 130

Library board 140

Protruding end 141

Mating end 142

Raised unit 200

Boss 210

First bending part 211

Second bending part 212

First transition 213

Groove 214

Sealing member 215

Mating portion 220

Third bending part 221

Fourth bending part 222

Second transition 223

Cavity 224

Middle protrusion 230

Cavity 240

Strip-shaped groove 310

Body portion 320

First laminate 410

Second laminate 420

First connection post 510

Reinforcing rib 511

Second connecting post 520

First column 530

First fitting hole 531

Second column 540

Second fitting hole 541

Buckle 600

Connection portion 610

Engagement portion 620

Insulation layer 700

Side surface 800

First side surface 810

Second side surface portion 820

Open slot 821

Detailed Description

The invention is further illustrated by means of the following examples, which are not intended to limit the scope of the invention.

Fig. 2-4 illustrate a power plant according to an embodiment of the invention.

As shown in fig. 2, the power exchange station includes a power exchange platform 110, two charging chambers 120 respectively provided at both sides of the power exchange platform 110, and a power exchange cart (not shown) for disassembling and assembling a battery pack of a vehicle to and from the power exchange platform 110 and the charging chambers 120. The power exchange station may also comprise a monitoring room, a storage room or the like.

The battery changing platform 110 is used for carrying a vehicle with a battery pack to be changed, the vehicle is driven into and stopped at the battery changing platform 110, the battery changing trolley is used for disassembling an old battery pack to be charged on the vehicle and installing a new battery pack which is fully charged, and the battery changing trolley is used for transporting the old battery on the vehicle to the charging chamber 120 for charging after disassembling the old battery.

As shown in fig. 3, the charging chamber 120 is used for accommodating a charging frame 121, a lifter 122, a main control box 123, and the like, the charging frame 121 is used for accommodating a battery pack and charging an old battery pack, the lifter 122 is used for exchanging the battery pack with the battery changing trolley, and the battery pack is taken out from the charging frame 121 or put into the charging frame 121. At least two rows of charging frames 121 are arranged in the charging chamber 120 side by side along the direction perpendicular to the running direction of the vehicle, the lifter 122 is arranged in a lifting area 124 between the two rows of charging frames 121, the main control box 123 is arranged on one side of the charging chamber 120 close to the power exchanging platform 110, and the main control box 123 is used for controlling electrical equipment in the power exchanging station.

As shown in fig. 4, the power exchange station of the present embodiment is supported by a plurality of frames 130 and is partitioned into a plurality of functional chambers, such as a charging chamber 120, a monitoring chamber (not shown in the drawings), and the like, and the outer surfaces of the frames 130 are covered with a warehouse board combination unit to isolate the inside and outside of the functional chambers and prevent foreign matters such as rainwater, dust, and the like from entering the inside of the power exchange station, thereby damaging electrical components such as the charging frame 121 and the main control box 123 in the power exchange station.

The power exchange station has a top surface, a side surface and a bottom surface, and both the top surface and the side surface of the power exchange station are covered with a warehouse board combination unit, and the warehouse board combination unit is connected with the frame 130 of the power exchange station by means of clamping and the like. The present embodiment provides a library plate combination unit covering the top surface of the power exchange station, which is assembled from a plurality of individual library plates 140.

As shown in fig. 1 and 5-8, the library plate 140 includes a first plate 410 and a second plate 420, and the first plate 410 is provided with a plurality of protrusion units 200 protruding in a direction away from the second plate 420 and extending in the same direction, and as shown in fig. 5, the plurality of protrusion units 200 extend in a second direction (Y direction in fig. 5). The library plate 140 further includes a body portion 320 between the protruding portion 210 and the mating portion 220, and a bar-shaped groove 310 is formed between two adjacent protruding units 200, the bar-shaped groove 310 is formed above the body portion 320, and both ends of the bar-shaped groove 310 in the second direction are penetrated. In this embodiment, the "extending along the second direction" refers to the extending direction being substantially parallel to the second direction, including but not limited to being parallel, and the extending direction and the second direction forming an included angle within 45 ° may be considered as extending along the second direction.

When external rainwater and other liquids fall to the top of the power exchange station, the external rainwater and other liquids can flow into the strip-shaped groove 310 under the guiding action of the protruding unit 200, and then flow out of the warehouse board 140 from two ends communicated with the strip-shaped groove 310, so that water flow on the warehouse board 140 can be discharged in time, the waterproof effect of the warehouse board 140 is enhanced, the waterproof effect of the power exchange station is enhanced, and meanwhile, the structural strength of the warehouse board 140 and the structural strength of the joint of the warehouse board 140 are improved.

As shown in fig. 6, the first laminate 410 is provided with a plurality of first columns 530 extending toward the second laminate 420, first assembly holes 531 are formed in the first columns 530, through holes are formed in the first laminate 410 of the body portion 320, the first assembly holes 531 are conducted to the outer side (side located at the outer side of the power exchange station) of the first laminate 410 of the body portion 320 through the through holes in the first laminate 410 of the body portion 320, the first assembly holes 531 are blind holes, and the first assembly holes 531 are used for installing assembly parts to connect other devices installed outside the power exchange station, such as solar power generation devices. By providing the first column 530 between the first tier floor 410 and the second tier floor 420, it is achieved that other equipment installed outside the power exchange station is connected while increasing the strength of the warehouse floor. Because the first assembling holes 531 are not directly formed on the surface of the warehouse board 140, but are formed in the first column 530 in the warehouse board 140, the strength of the warehouse board 140 is not reduced, and deformation of the warehouse board 140 caused by overlarge local stress in the use process is avoided, so that the structural strength of the warehouse board 140 and the structural strength of the joint of the warehouse board 140 are improved, and the overall strength of the power exchange station is improved. And because the first assembling hole 531 is the blind hole, even the rainwater permeates into the inside of the assembling hole from the clearance between assembling hole and the assembly part, can not further get into the inside of the power exchange station or the energy storage station to improve the waterproof sealing performance of the power exchange station or the energy storage station.

The first columns 530 in this embodiment are mounted on the corresponding first deck 410 of the body 320, i.e., the first columns 530 are disposed on the first deck 410 of the library deck 140 at intervals from the protrusion units 200. In other alternative embodiments, the first cylinder 530 may also be mounted on the first laminate 410 of the protrusion unit 200, disposed inside the protrusion unit 200.

The wall surface of the first assembling hole 531 is flush with the wall surface of the through hole on the corresponding first laminate 410, so that the quick positioning during assembly installation is facilitated, the first column 530 is not displayed outside the power exchange station, and the structure is smoother.

The aperture of the first assembly hole 531 is the same as the aperture of the through hole on the corresponding first laminate 410, so that the inner wall of the first assembly hole 531 and the inner wall of the through hole on the corresponding first laminate 410 can be tightly attached to the outer wall of the corresponding assembly, the size of the gap is reduced, and the waterproof performance is further improved.

The first fitting holes 531 and the through holes in the first laminate 410 in this embodiment are threaded holes, and can be fitted with fittings such as bolts. In other alternative embodiments, the first fitting holes 531 and the through holes on the first plate 410 may be replaced with other structures that enable the connection of the library plate 140 to the external equipment of the power exchange station.

One end of the first column 530 is fixed to the first deck 410, and the other end of the first column 530 extends in the direction of the second deck 420 and extends to the second deck 420 to be connected to the second deck 420, and the first column 530 connects the first deck 410 and the second deck 420 as a unit, thereby improving the strength of the library board 140.

The connection and fixation modes between the first column 530 and the first layer plate 410 and the second layer plate 420 can be one or more modes selected from gluing, clamping, bead expansion or bolt fastening, etc., and the fixation modes have simple process, more convenient assembly and manufacture and good fixation effect. In addition, the first column 530 may be integrally formed with the first layer 410, and when the first layer 410 is manufactured, the mold hole of the first column 530 is directly reserved in the mold, and the one-step forming is realized by pouring. The integrally formed connection fixing method has simple process and high connection strength, and can omit the assembly step of the first column 530 and the first laminate 410, thereby shortening the production time of the warehouse board 140.

In this embodiment, the materials of the first layer 410 and the second layer 420 are not specifically limited, and carbon fiber, polymer composite material or SMC resin material may be preferably selected, so that the light weight of the warehouse board 140 can be realized, the structural strength requirement of the power exchange station can be met, and the installation is more convenient, wherein the SMC composite material is formed by cutting and compression molding a sheet molding material formed by unsaturated polyester resin, a reinforcing material and an auxiliary material. The first laminate 410 and the second laminate 420 are preferably made of the same material, which is convenient for production and purchase, and in other alternative embodiments, the first laminate 410 and the second laminate 420 may be made of different materials, but at least the strength of the first laminate 410 and the second laminate 420 needs to meet the requirement.

Since the first pillar 530 and the first laminate 410 are integrally formed in this embodiment, the material of the first pillar 530 is the same as that of the first laminate 410. In other alternative embodiments, the first post 530 and the first laminate 410 may be of different materials when the first post 530 is otherwise attached to the first laminate 410. The first column 530 may be made of a resin material, wherein the resin may be an unsaturated polyacetal resin, which is light in weight, high in strength, and low in cost, thereby enabling to reduce the production cost of the library plate 140.

As shown in fig. 7, the second laminate 420 is provided with a plurality of second posts 540 extending toward the first laminate 410, the second posts 540 are provided with second assembly holes 541 therein, the second laminate 420 is provided with through holes, the second assembly holes 541 are conducted to the outside (on the side inside the power exchange station) of the second laminate 420 through the through holes in the second laminate 420, and the second assembly holes 541 are used for connecting with the frame 130 or other internal devices of the power exchange station to fix the warehouse board 140 on the power exchange station. The second assembly holes 541 are not directly formed on the surface of the warehouse board 140, but are formed in the column body in the warehouse board 140, so that the strength of the warehouse board 140 is not reduced, deformation of the warehouse board 140 caused by overlarge local stress in the use process is avoided, and the overall strength of the power exchange station is improved.

The second posts 540 in this embodiment are mounted on the second laminate 420 corresponding to the body 320, i.e., the second posts 540 are spaced apart from the protruding units 200. In other alternative embodiments, the second posts 530 may also be mounted on the corresponding second laminate 420 of the boss unit 200, disposed inside the boss unit 200.

The second fitting hole 541 is a blind hole, and even if liquid such as rainwater can enter the interior of the warehouse board 140, the liquid cannot penetrate into the interior of the power exchange station through a gap between the second fitting hole 541 and the fitting, thereby improving the waterproof performance of the power exchange station.

The wall surface of the second assembly hole 541 is flush with the wall surface of the through hole on the corresponding second laminate 420, so that the assembly can be conveniently and rapidly positioned during installation, and the second post 540 is not displayed in the power exchange station, so that the structure is smoother.

The aperture of the second assembly hole 541 is the same as the aperture of the through hole on the corresponding second laminate 420, so that the inner wall of the second assembly hole 541 and the inner wall of the through hole on the corresponding second laminate 420 can be tightly attached to the outer wall of the corresponding assembly, thereby reducing the size of the gap and further improving the waterproof performance.

The material of the second post 540 and the connection and fixation between the second post 540 and the first and second laminates 410 and 420 may be referred to as the material of the first post 530 and the connection and fixation between the first post 530 and the first and second laminates 410 and 420.

The second assembly hole 541 and the through hole on the second board 420 in this embodiment are both threaded holes, and the fitting that mates with the second assembly hole 541 is a buckle 600. As shown in fig. 8, the buckle 600 includes a connecting portion 610 and a locking portion 620, the locking portion 620 is provided with a through hole for the connecting portion 610 to pass through, the connecting portion 610 of the buckle 600 in this embodiment is a bolt, and the connecting portion 610 passes through the through hole of the locking portion 620 to fix with the second connecting plate 440. As shown in fig. 6, the connection portion 610 sequentially passes through and is screwed to the through hole of the engagement portion 620, the through hole of the second connection plate 440, and the second fitting hole 541 in the second column 540 from bottom to top, thereby fixing the buckle 600 to the library plate 140. The engagement portion 620 of the clasp 600 is located on the outside of the second tier plate 420 (the side facing the inside of the station) for connection with the frame 130 or other internal equipment of the station.

In other alternative embodiments, the second mounting holes 541 and through holes in the second plate 420 may be replaced with other structures that enable the connection of the library plate 140 to the frame 130 or other internal devices of the power exchange station.

The present embodiment provides a form of buckle, but the present invention is not limited thereto, and other forms of buckle may be adopted.

In other alternative embodiments, the second post 540 may not be provided between the first plate 410 and the second plate 420. Or only one end of the column is connected with the first laminate 410 or the second laminate 420, and the other end of the column is not abutted, and the column only plays a role of installing the assembly.

The mounting holes in this embodiment are provided only on the column located in the body portion 320, and in other alternative embodiments, the column provided with the mounting holes may be provided in the protrusion unit 200, and the present application is provided on the column mainly because the structure of the body portion 320 is flatter and the apparatus is more stably mounted thereon.

As shown in fig. 6, the library plate 140 further has an insulation layer 700, and the insulation layer 700 is sandwiched between the first laminate 410 and the second laminate 420. The heat preservation layer 700 is used for playing a role of heat insulation and heat preservation, guaranteeing that the temperature inside the power exchange station is not too high or too low, and reducing the influence of the temperature on the internal equipment of the power exchange station. The first laminate 410 of the library plate 140, the insulation layer 700, and the second laminate 420 of the library plate 140 form a three-layer composite structure, further enhancing the strength of the library plate 140.

The heat insulation layer 700 is preferably made of a material with good heat insulation performance, such as an inorganic foaming material, rock wool, polyurethane foam or aerogel felt, and the like, so that the heat insulation effect is good, and the weight is light.

The heat insulating layer 700 has through holes corresponding to the positions of the columns (the first column 530 and the second column 540) located in the body 320, and the columns are fixedly connected through the through holes. Because the first layer 410, the second layer 420 and the heat insulation layer 700 of the warehouse board 140 form a three-layer composite structure, the first layer 410 and the second layer 420 are positioned at two sides of the heat insulation layer 700, the heat insulation layer 700 is clamped in the middle, and through holes are formed in the heat insulation layer 700, so that a column body can conveniently penetrate through the heat insulation layer 700 to realize connection of the first layer 410 and the second layer 420, the connection strength between the first layer 410 and the second layer 420 is improved, and the position of the heat insulation layer 700 relative to the first layer 410 and the second layer 420 can be kept fixed. In other alternative embodiments, to further secure the position of the insulation 700 relative to the first and second laminates 410, 420, the first and second laminates 410, 420 may be screwed on to the sides of the insulation 700, respectively, or the connection between the first and second laminates 410, 420 and the insulation 700 may be made by bonding or the like.

The warehouse plate 140 further includes a plurality of connection posts, wherein the connection posts are disposed in the protruding units 200 of the warehouse plate 140, one ends of the connection posts are connected to the inner surface of the first laminate 410, and the other ends of the connection posts are abutted against the corresponding second laminate 420. The connection posts serve to connect the first deck 410 and the second deck 420 and to strengthen the library deck 140.

Specifically, the library plate 140 includes a plurality of first connection posts 510 and a plurality of second connection posts 520, the first connection posts 510 and the second connection posts 520 are in one-to-one correspondence, and the first connection posts 510 and the second connection posts 520 are disposed within the protrusion unit 200. The first connecting column 510 is disposed on the first laminate 410, the second connecting column 520 is disposed on the second laminate 420, the first laminate 410 and the second laminate 420 are fixed by being abutted to each other through the first connecting column 510 and the second connecting column 520, and the first connecting column 510 and the second connecting column 520 connect the first laminate 410 and the second laminate 420 into a whole, so that the strength of the warehouse board 140 is improved.

Specifically, the first connection post 510 and the second connection post 520 are disposed between the first laminate 410 and the second laminate 420, one end of the first connection post 510 is fixed on one side of the first laminate 410 facing the second laminate 420, the other end of the first connection post 510 extends toward the second laminate 420, one end of the second connection post 520 is fixed on one side of the second laminate 420 facing the first laminate 410, the other end of the second connection post 520 extends toward the first laminate 410, and one end of the first connection post 510 away from the first laminate 410 is abutted and fixed with one end of the corresponding second connection post 520 away from the second laminate 420.

In other alternative embodiments, the first laminate 410 and the second laminate 420 may be connected and fixed by only a single connecting post, that is, the first connecting post 510 may directly extend onto the second laminate 420 and be fixed by abutting the second laminate 420, and in this connection, the second connecting post 520 may not be provided. Alternatively, the second connecting post 520 may extend directly onto the first laminate 410 and be fixed in abutment with the first laminate 410, and in this connection manner, no additional second connecting post 520 may be provided.

Of course, in actual production and use, the library board 140 may include one or more of the above three connection modes of the first laminate 410 and the second laminate 420 (the first connection post 510 and the second connection post 520 abut, the first connection post 510 abuts directly against the second laminate 420, and the second connection post 520 abuts directly against the first laminate 410).

The connection fixing between the first connection post 510 and the first laminate 410, the connection fixing between the second connection post 520 and the second laminate 420, the connection fixing between the first connection post 510 and the second connection post 520, the connection fixing between the first connection post 510 and the second laminate 420, and the connection fixing between the second connection post 520 and the first laminate 410 may be one or more of gluing, clamping, expanding bead or bolt fastening, that is, the above five connection fixing may be the same fixing manner or different fixing manners. The fixing mode is simple in process, convenient to assemble and manufacture and good in fixing effect.

The first connection column 510 and the first laminate 410 and/or the second connection column 520 and the second laminate 420 may be integrally formed, and when the first laminate 410 or the second laminate 420 is manufactured, a mold hole of the first connection column 510 or the second connection column 520 is directly reserved in a mold, and one-step forming is realized by casting. The integrally formed connection and fixation method has simple process and high connection strength, and can omit the assembly step of the first connecting column 510 and the first laminate 410 and/or the assembly step of the second connecting column 520 and the second laminate 420, thereby shortening the production time of the warehouse board 140.

The present embodiment involves only three types of connection fixation, namely, connection fixation between the first connection post 510 and the first laminate 410, connection fixation between the second connection post 520 and the second laminate 420, and connection fixation between the first connection post 510 and the second connection post 520. In this embodiment, the first connecting post 510 is integrally formed with the first laminate 410, the second connecting post 520 is integrally formed with the second laminate 420, and the first connecting post 510 and the second connecting post 520 are adhesively fixed. The connection and fixing manner in this embodiment is adopted, so that the first connection post 510 and/or the second connection post 520 and/or the first laminate 410 and/or the second laminate 420 do not need to be processed secondarily, for example, connection holes for bolts to pass through are formed in the connection holes, or clamping parts are processed and formed in the connection holes, so that the production time of the warehouse board 140 is shortened, and the efficiency is improved.

The requirements of the materials of the first connecting post 510 and the second connecting post 520 can be referred to as the requirements of the first post 530.

In other alternative embodiments, the first connecting post 510 and the second connecting post 520 may be made of the same material, or may be made of different materials, and the skilled person may flexibly adjust the first connecting post 510 and the second connecting post 520 according to actual requirements, but at least the strength of the first connecting post 510 and the second connecting post 520 may meet the requirements.

The insulation layer 700 has through holes corresponding to the positions of the first connection columns 510 and the second connection columns 520, and the first connection columns 510 and the second connection columns 520 are connected and fixed through the through holes. Because the first layer 410, the second layer 420 and the heat insulation layer 700 of the warehouse board 140 form a three-layer composite structure, the first layer 410 and the second layer 420 are positioned at two sides of the heat insulation layer 700, and the heat insulation layer 700 is clamped in the middle, and the through holes are formed in the heat insulation layer 700, so that the first connecting columns 510 and the second connecting columns 520 penetrate through the heat insulation layer 700 to realize connection of the first layer 410 and the second layer 420, thereby improving the connection strength between the first layer 410 and the second layer 420, and keeping the position of the heat insulation layer 700 relative to the first layer 410 and the second layer 420 fixed. In other alternative embodiments, to further secure the position of the insulation 700 relative to the first and second laminates 410, 420, the first and second laminates 410, 420 may be screwed on to the sides of the insulation 700, respectively, or the connection between the first and second laminates 410, 420 and the insulation 700 may be made by bonding or the like.

As shown in fig. 6, the library plate 140 includes a protruding end 141 and a mating end 142 which are disposed opposite to each other, the protruding end 141 and the mating end 142 are disposed at opposite ends of the library plate 140 in a first direction (X direction in fig. 5), protruding cavities are formed in the protruding end 141 and the mating end 142, the protruding end 141 and the mating end 142 protrude from the same side surface of the library plate 140 and extend toward the same direction, and the mating end 142 is configured to mate with the protruding end 141 of an adjacent library plate 140 when the plurality of library plates 140 are assembled. In this embodiment, the plurality of warehouse boards 140 are connected by overlapping the protruding ends 141 and the mating ends 142, so that the warehouse boards 140 are convenient to assemble, the production cost is low after the warehouse boards are modularized, the strength of the connecting parts is higher after the warehouse boards are assembled in an overlapping manner, the connection is more stable, and the connecting gaps can be shielded to ensure that the water tightness is better. In this embodiment, "extending toward the same direction" refers to extending directions substantially parallel, including but not limited to parallel, and the extending directions may all be considered to extend toward the same direction within 45 °.

As shown in fig. 5 and 6, the plurality of projection units 200 include a projection 210 provided at the projection end 141 of the library plate 140, and a fitting 220 provided at the fitting end 142 of the library plate 140. At the protruding end 141, the edge portion of the library plate 140 protrudes upward to form a protruding portion 210, and at the mating end 142, the edge portion of the library plate 140 protrudes upward to form a mating portion 220, the mating portion 220 being for covering the outside of the protruding portion 210 of an adjacent library plate 140 when a plurality of library plates 140 are assembled. The matching portion 220 of one warehouse board 140 covers and sleeves the protruding portion 210 of the other warehouse board 140 when two adjacent warehouse boards 140 are connected to form a stacked structure, so that the connection strength of the two adjacent warehouse boards 140 is higher, and the connection gap of the two warehouse boards 140 can be covered, so that liquid such as rainwater can be prevented from penetrating through the gap, and the waterproof performance of the warehouse boards 140 is improved.

As shown in fig. 6, when two warehouse boards 140 are assembled, the inner surface of the mating part 220 of one warehouse board 140 is attached to the outer surface of the protruding part 210 of the other adjacent warehouse board 140, so that the mating part 220 can cover the outer side of the protruding part 210 of the adjacent warehouse board 140 when a plurality of warehouse boards 140 are assembled, and prevent the rainwater level of the warehouse board 140 from rising in a rain accumulation state, and prevent the accumulated water from penetrating into the interior of the warehouse board 140 from the gap.

As shown in fig. 6, at the protruding end 141, the first layer 410 protrudes in a direction away from the second layer 420 to form the protruding portion 210, and a side of the first layer 410 facing the second layer 420 forms the cavity 240 (corresponding to the cavity in which the protruding end 141 protrudes) due to the protruding portion 210. At the mating end 142, the first deck 410 protrudes away from the second deck 420 to form a mating portion 220, the mating portion 220 being configured to cover the outside of the protruding portion 210 of an adjacent library deck 140. The protruding portion 210 and the matching portion 220 are both formed by protruding the first layer board 410, when two warehouse boards 140 are connected, the matching portion 220 of the warehouse board 140 covers and is sleeved outside the protruding portion 210 of the other warehouse board 140 adjacent to each other, so that a stacked structure is formed, the connection strength is higher, and the connection gap of the two warehouse boards 140 can be covered, so that liquid such as rainwater is prevented from penetrating from the gap, and the waterproof performance of the warehouse boards 140 is improved.

As shown in fig. 6, at the protruding end 141, the edge portion of the second laminate 420 is bent toward the first laminate 410 of the protruding end 141, the edge portion of the first laminate 410 of the protruding end 141 is bent toward the second laminate 420 of the protruding end 141, the first laminate 410 of the protruding end 141 covers the outer surface of the second laminate 420 of the protruding end 141, and the inner surface of the edge portion of the first laminate 410 is adhered to the outer surface of the edge portion of the second laminate 420. The first and second laminate plates 410 and 420 of the protruding end 141 of the warehouse plate 140 are bent toward each other to form an upper-layer and lower-layer structure, so that the edge of the protruding end 141 forms a sealing structure, preventing rainwater and other liquids from penetrating into the warehouse plate 140.

As shown in fig. 6, the first plate 410 of the protruding end 141 is bent to form a trapezoid-like structure, and at the protruding end 141, the edge portion of the first plate 410 includes a first bending portion 211 bent in a direction away from the second plate 420 (toward the outside of the battery), and a second bending portion 212 bent in a direction toward the second plate 420 (toward the inside of the battery), between the first bending portion 211 and the second bending portion 212, a first transition portion 213 is provided, the first transition portion 213 extending in a horizontal direction and connecting the first bending portion 211 and the second bending portion 212, thereby connecting the protruding end 141 as a unit. The first bending part 211 and the second bending part 212 form two trapezoid bevel edges, the first transition part 213 forms a trapezoid top edge, the arrangement of the bending parts forms a structure matched with the shape of the matching end 142 on one hand, the connection assembly between the adjacent warehouse boards 140 is convenient, the arrangement of the bending parts at the edges of the warehouse boards 140 improves the structural strength of the warehouse boards 140 and the connection strength of the connection parts, and the waterproof performance is improved.

As shown in fig. 6, the outer surface of the first transition portion 213 is provided with a groove 214, two ends of the groove 214 along the second direction penetrate through the first laminate 410 of the protruding end 141, the groove 214 is used for installing a sealing member 215, one surface of the sealing member 215 is clamped inside the groove 214, and the other surface of the sealing member 215 can be pressed against the inner side of the top of the mating end 142 of the adjacent other warehouse plate 140. When two library plates 140 are assembled, the sealing member 215 is sandwiched between the outer surface of the raised end 141 of one library plate 140 and the inner surface of the mating end 142 of an adjacent library plate 140. When the accumulated water rises from the gap between the protruding end 141 and the matching end 142 of the two warehouse boards 140, the accumulated water can be blocked by the sealing member 215 arranged at the top, and can not enter the interior of the power exchange station from the gap between the protruding end 141 and the matching end 142, so that the sealing performance of the joint of the two adjacent warehouse boards 140 is further enhanced, and liquids such as rainwater are prevented from entering the interior of the warehouse boards 140 from the gap between the protruding end 141 and the matching end 142, and the waterproof effect of the warehouse boards 140 is improved. In other alternative embodiments, the groove 214 may be disposed on the first bending portion 211 or the second bending portion 212, and the position of the sealing member 215 may be changed correspondingly with the position of the groove 214.

In this embodiment, the sealing member 215 is a rubber waterproof strip, and in other alternative embodiments, other waterproof sealing members 215 may be used.

As shown in fig. 6, at the mating end 142, the inner surface of the edge portion of the first laminate 410 is attached to the outer surface of the side of the protruding portion 210 of the adjacent warehouse plate 140 away from the mating end 142, so as to prevent the rainwater level of the warehouse plate 140 from rising in a rain-accumulation state and prevent the accumulated water from penetrating into the interior of the warehouse plate 140 from the gap.

At the mating end 142, the edge portion of the first lamina 410 is bent toward the second lamina 420, the first lamina 410 forming a raised cavity 224 (corresponding to the raised cavity of the middle mating end 142 described above), the cavity 224 being configured to receive the raised portion 210 of an adjacent library plate 140 when the two library plates 140 are assembled, the inner surface of the first lamina 410 of the mating end 142 being capable of overlying the outer surface of the first lamina 410 of the raised end 141 of an adjacent library plate 140. The cavity 224 of the matching end 142 of one warehouse board 140 is matched with the convex end 141 of the adjacent other warehouse board 140, so that the connection of the two adjacent warehouse boards 140 is realized, the connection mode is simple, the operation is convenient, the assembly efficiency of the warehouse boards 140 can be improved, the rise of the rainwater level of the warehouse boards 140 in a rain accumulation state can be prevented, and the interior of the warehouse boards 140 is infiltrated from the gap between the two warehouse boards 140.

As shown in fig. 6, the first plate 410 of the mating end 142 is also bent to form a trapezoid-like structure, and the edge portion of the first plate 410 of the mating end 142 includes a third bending portion 221 bent in a direction away from the second plate 420 (toward the outside of the battery), and a fourth bending portion 222 bent in a direction toward the second plate 420 (toward the inside of the battery), with a second transition portion 223 between the third bending portion 221 and the fourth bending portion 222, the second transition portion 223 extending in a horizontal direction and connecting the third bending portion 221 and the fourth bending portion 222, thereby connecting the mating end 142 as a unit. The third kink 221 and the fourth kink 222 constitute two trapezoidal hypotenuses, the second transition portion 223 forms trapezoidal topside, the setting of a plurality of kinks has formed on the one hand and has had the structure with protruding end 141 shape matched with, the connection equipment between the adjacent storehouse board 140 of being convenient for, the structural strength of storehouse board 140 and the joint connection intensity of junction have been improved to the edge at storehouse board 140 to set up a plurality of kinks, the rainwater on the second transition portion 223 of third kink 221 and fourth kink 222 convenience flows down, avoid ponding on storehouse board 140 surface, improve waterproof performance.

At the mating end 142, the edge portion of the second laminate 420 is bent toward the first laminate 410 of the mating end 142, and the second laminate 420 of the mating end 142 covers the inner surface of the first laminate 410 of the mating end 142 to close the end of the mating end 142 remote from the body portion 320. The first laminate 410 and the second laminate 420 of the mating end 142 of the warehouse board 140 are bent to form a structure in which the upper laminate and the lower laminate are joined, so that the edge of the mating end 142 forms a sealing structure, thereby ensuring that the side edge of the warehouse board 140 on the side where the protruding end 141 is provided is closed, and preventing liquid such as rainwater from penetrating. The edge portion of the second plate 420 of the mating end 142 is sandwiched between the edge portion of the first plate 410 and a side surface of the protrusion 210 of an adjacent plate 140 near the mating end 142 when the two plates 140 are assembled, and the outer surface of the edge portion of the second plate 420 is attached to the outer surface of the edge portion of the first plate of the protrusion 141 of an adjacent plate 140, so that the gap between the three is minimized, the plate 140 is completely closed from the side connection, and liquids such as rainwater are prevented from penetrating into the station from the connection.

In this embodiment, the protruding end 141 and the mating end 142 are both protruding with trapezoid structures, so that the joint of the warehouse board 140 can be covered, and the protruding structure can also play a role in guiding flow, so that the liquid such as rainwater at the joint can flow down along the trapezoid oblique side to avoid siltation. At the same time, the top side of the trapezoid is planar, and may be used to mount other components, such as sealing member 215, etc. In other alternative embodiments, the protruding end 141 and the mating end 142 may be configured to have triangular, semicircular, etc. shapes according to different needs and situations, so long as it is ensured that the protruding end is in a protruding state in the vertical direction and the warehouse board 140 is seam-wrapped therein, which achieves a corresponding effect.

The connection between the first bending part 211 and the second bending part 212 and the first transition part 213 is an arc chamfer, and the connection between the third bending part 221 and the third connecting part 610 and the second transition part 223 is also an arc chamfer, so that the strength of the connection can be increased, and meanwhile, the protruding part 210 and the matching part 220 are more attached in the overlapped state, and the water tightness is further improved.

The first connection post 510 is disposed on the inner surface of the first layer plate 410 of the protruding portion 210 and extends toward the second layer plate 420, and the second connection post 520 is disposed on the inner surface of the second layer plate 420 of the protruding portion 210, and one end of the first connection post 510 away from the first layer plate 410 abuts against and is fixed to one end of the corresponding second connection post 520 away from the second layer plate 420. Along the second direction, the inside of the protruding portion is provided with a plurality of first connection columns 510 and second connection columns 520 uniformly arranged along the second direction, and the plurality of first connection columns 510 and the plurality of second connection columns 520 are uniformly distributed in the protruding portion 210, so as to perform the functions of connecting, fixing and reinforcing the protruding unit 200.

In other alternative embodiments, the first and second connection posts 510, 520 may also be disposed within other boss units 200.

The diameter of the first connection post 510 is the same as the diameter of the corresponding second connection post 520. On the one hand, the outer contours of the first connecting columns 510 and the corresponding second connecting columns 520 can be aligned, so that the first connecting columns 510 can be rapidly positioned relative to the corresponding second connecting columns 520, and the assembly efficiency of the warehouse plate 140 can be improved. On the other hand, the inner space of the boss 210 can be fully utilized, the selectable range of the diameter sizes of the first and second connection posts 510 and 520 can be increased, and the diameters of the first and second connection posts 510 and 520 can be set to a larger value to improve the strength of the boss 210.

The two sides of the first connecting column 510 are further provided with reinforcing ribs 511, the reinforcing ribs 511 are arranged in the cavity 240, one side of each reinforcing rib 511 is abutted against the first connecting column 510, and the other side of each reinforcing rib 511 is abutted against the inner side surface of the first laminate 410, so that the strength of the warehouse plate is further enhanced.

As shown in fig. 6, the plurality of protrusion units 200 further include a plurality of middle protrusions 230 disposed between the protrusion portions 210 and the mating portions 220, the first plate 410 is protruded in a direction away from the second plate 420 to form middle protrusions, the middle protrusions 230 and the protrusion portions 210 are extended in the same direction (second direction/Y direction in fig. 5), and the protrusion portions 210 and the mating portions 220 are higher than the middle protrusions 230, so as to prevent the depth of the water accumulation on the outer surface of the warehouse plate 140 from crossing the highest point of the junction of the two warehouse plates 140, and to allow the water accumulation to penetrate between the first plate 410 and the second plate 420 from the gap of the junction of the two warehouse plates 140.

Specifically, the first plate 410 of the middle protrusion 230 protrudes in a direction away from the second plate 420, the second plate 420 is plate-shaped, and a side of the first plate 410 facing the second plate 420 also forms the cavity 240 due to the middle protrusion 230. Since the first tier floor 410 of the middle lobe 230 is directed toward the outside of the station, timely drainage is facilitated. The second plate 420 of the middle protrusion 230 faces the inner side of the battery exchange station, and is designed into a flat plate shape, so that the connection area between the warehouse plate 140 and other components in the battery exchange station can be increased, the warehouse plate 140 is connected with the inner upright post of the battery exchange station through the second plate 420, and the second plate 420 is of a flat plate structure, so that the warehouse plate 140 and the inner upright post of the battery exchange station can be conveniently connected and fixed.

The inner surface of the first plate 410 of the middle protrusion 230 in this embodiment is also provided with a first connection post 510, the first connection post 510 is disposed in the cavity corresponding to the middle protrusion 230, the inner surface of the second plate 420 of the middle protrusion 230 is also provided with a second connection post 520, and the first connection post 510 abuts against the second connection post 520 for connecting the first plate 410 and the second plate 420 of the middle protrusion 230, thereby improving the strength at the middle protrusion 230. In other alternative embodiments, since the protrusion height of the middle protrusion 230 is small, the first connection post 510 may be provided only at the inner surface of the first laminate 410 of the middle protrusion 230, and the other end of the first connection post 510 abuts against the second laminate 420 of the middle protrusion 230 to achieve connection of the first laminate 410 and the second laminate 420 of the middle protrusion 230. Alternatively, the second connection post 520 may be provided only on the inner surface of the second laminate 420 of the middle protrusion 230, and the other end of the second connection post 520 may abut against the first laminate 410 of the middle protrusion 230 to achieve connection of the first laminate 410 and the second laminate 420 of the middle protrusion 230.

The material, size, connection manner with the middle protrusion 230, and the like of the first and second connection posts 510 and 520 provided at the middle protrusion 230 may be referred to as the related requirements of the first and second connection posts 510 and 520 provided at the protrusion.

The insulation layer 700 has through holes corresponding to the positions of the first and second connection posts 510 and 520 provided at the middle protrusion 230, and the first and second connection posts 510 and 520 provided at the middle protrusion 230 are connected and fixed through the through holes. The column is convenient to penetrate through the insulation layer 700 to connect the first layer plate 410 of the middle protrusion 230 and the second layer plate 420 of the middle protrusion 230, so that the connection strength of the first layer plate 410 and the second layer plate 420 is further improved, and the position of the insulation layer 700 relative to the first layer plate 410 and the second layer plate 420 can be kept fixed.

The heat insulation layer 700 is disposed between the first layer 410 and the second layer 420 of the protruding unit 200 and between the first layer 410 of the body portion 320 and the second layer 420 of the body portion 320 in this embodiment, so that the heat insulation effect of the warehouse board 140 on the power exchange station can be enhanced, the heat insulation effect of each part of the warehouse board 140 can be substantially the same, and the temperature difference of each part can be reduced. In other alternative embodiments, the insulation layer 700 may be provided between the first plate 410 and the second plate 420 of the library plate 140 everywhere, or the insulation layer 700 may be provided only between the first plate 410 and the second plate 420 of the protrusion unit 200 or the insulation layer 700 may be provided only between the first plate 410 of the body portion 320 and the second plate 420 of the body portion 320.

As shown in fig. 1, the library plate 140 further includes side portions 800, the side portions 800 being located at opposite ends of the library plate 140 in the extending direction (second direction) of the protrusion unit 200, the side portions 800 being for closing the gap between the first and second deck 410 and 420. The side portions 800 cover both sides of the warehouse plate 140 to close the side ends of the warehouse plate 140, preventing liquids such as rainwater from penetrating into the warehouse plate 140 from the side of the warehouse plate 140 and further entering the inside of the battery exchange station.

The side portion 800 near the protruding portion 210 is a first side portion 810, and the side portion 800 near the mating portion 220 is a second side portion 820, where the second side portion 820 can cover a portion outside the first side portion 810 of the adjacent library plate 140 when the two library plates 140 are assembled, so as to achieve connection of the adjacent two library plates 140.

Specifically, the first side portion 810 has a stepped portion, the second side portion 820 has an open groove 821, and a part of the outer surface of the first side portion 810 is recessed inward (inside in the second direction) to form a stepped portion, and a part of the outer surface of the first side portion 810 at the stepped portion is higher than the outer surface of the part of the first side portion 810 of the recessed portion. The bottom end of the second side surface part 820 is recessed upward to form an open groove 821. The shape of the open slot 821 matches the stepped portion, and the open slot 821 is used to catch the stepped portion of an adjacent library plate 140 when a plurality of library plates 140 are assembled. The first side 810 of the protrusion 210 of one warehouse plate 140 is matched with the second side 820 of the matching part 220 of the adjacent other warehouse plate 140 through the step part and the open slot 821, so that the two ends of the warehouse plate 140 can conveniently form a clamping structure, the relative movement of the joint of the warehouse plates 140 is prevented, and the water tightness of the joint of the warehouse plates 140 is improved.

In a preferred embodiment, the first side 810 has a bottom plate, the step is formed on the surface of the bottom plate, and the height of the step relative to the bottom plate is the same as the thickness of the second side 820, so that the end surface of the step is located on the same plane as the second side 820, so that when the two warehouse boards 140 are assembled, the first side 810 and the corresponding second side 820 can be flush, so that water flows out from the sides, and surface water accumulation at the joint is avoided. In other alternative embodiments, the molding method of the step portion is not limited to the above method, and other structures or molding methods may be adopted, but it is necessary to ensure that the end surface of the step portion is located on the same plane as the second side surface 820.

In this embodiment, one end of the side portion 800 near the first layer 410 is flush with the outer surface of the first layer 410, one end of the side portion 800 near the second layer 420 is flush with the outer surface of the second layer 420, that is, the upper end of the side portion 800 is flush with the corresponding upper end of the first layer 410, and the lower end of the side portion 800 is flush with the corresponding lower end of the second layer 420, so that two sides of the warehouse plate 140 are closed, and liquids such as rainwater are prevented from entering the inside of the power exchange station from the side of the warehouse plate 140. In other alternative embodiments, one end of the side portion 800 near the first layer 410 may be flush with the outer surface of the first layer 410, and the other end of the side portion 800 extends toward the second layer 420 and extends out of the lowermost end of the second layer 420, i.e. out of the outer surface of the second layer 420, so as to prevent liquids such as rainwater from penetrating into the warehouse-in plate 140 from the connection between the side portion 800 and the second layer 420, thereby enhancing the waterproof effect.

The present embodiment provides a form of engagement between the first side portion 810 and the second side portion 820 of the adjacent warehouse plate 140, but the present invention is not limited thereto, and the first side portion 810 and the second side portion 820 of the adjacent warehouse plate 140 may also be engaged by other forms, for example, only such that the first side portion 810 is recessed inward in the extending direction of the protruding portion 210 to form a shape that mates with the second side portion 820, or such that the first side portion 810 and the second side portion 820 of the adjacent warehouse plate 140 form mutually-adapted tooth shapes in the first direction.

The library plate combination unit is formed by connecting a plurality of library plates 140 with each other, the assembly is convenient, and the cost of the single library plate 140 can be lower through modularized production, and after the assembly, the library plate combination unit has higher strength and better waterproof property. The plurality of warehouse boards 140 are assembled in sequence along the first direction, the protruding ends 141 and the matching ends 142 of the two sides of any two adjacent warehouse boards 140 are connected with each other to form a warehouse board combination unit, and the warehouse boards 140 are mutually matched and overlapped through the protruding ends 141 and the matching ends 142, so that the combined warehouse board combination unit is higher in strength and better in waterproof performance. The assembly positional relationship between the adjacent two library plates 140 is as follows:

As shown in fig. 6, the protruding end 141 of one warehouse plate 140 is accommodated in the cavity 224 of the mating end 142 of the adjacent warehouse plate 140, the first bending portion 211 of the protruding end 141 is adjacent to the fourth bending portion 222 of the mating end 142, the second bending portion 212 of the protruding end 141 is adjacent to the third bending portion 221 of the mating end 142, the second laminate 420 of the mating end 142 is sandwiched between the second bending portion 212 of the protruding end 141 and the third bending portion 221 of the mating end 142, the first transition portion 213 of the protruding end 141 is adjacent to the second transition portion 223 of the mating end 142, the sealing member 215 is disposed on top of the first transition portion 213 of the protruding end 141, and both ends of the sealing member 215 are respectively abutted against the first transition portion 213 and the second transition portion 223.

The frame 130 of the power exchange station in this embodiment is detachably connected with the warehouse board combination unit, so that the assembly between the frame 130 and the warehouse board combination unit is more convenient, and the installation and maintenance of the power exchange station are facilitated. The warehouse board combination unit is used for preventing liquids such as rainwater from entering the frame 130 and the inside of the power exchange station, and improving the waterproof performance of the power exchange station.

Specifically, as shown in fig. 6, a clamping groove is disposed on the frame 130 corresponding to the clamping buckle 600 of the second connecting plate 440, and the clamping portion 620 of the clamping buckle 600 is clamped into the clamping groove on the frame 130. The warehouse board combination unit is clamped in the clamping groove of the frame 130 through the clamp 600, so that the connection is convenient and the strength is high. In other alternative embodiments, the frame 130 of the power exchange station may be detachably connected to the library plate combination unit by other connection means, such as bolting, etc.

Although the present embodiment provides a warehouse board combination unit for covering the top surface of the power exchange station, the warehouse board combination unit in the present embodiment may also be used for covering the side surface of the power exchange station during actual use.

The present invention is not limited to the form shown in fig. 2-4, and the present invention provides a combination of warehouse boards, frame 130, warehouse boards 140, etc. that are suitable for use in other configurations or arrangements of the present invention.

Similarly, the structures of the warehouse board combination unit, the frame 130, the warehouse board 140, etc. provided by the invention are also applicable to the energy storage station with the functions of storage and charging.

In the description of the present invention, it should be understood that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the device or component in normal use, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or component in question must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

While specific embodiments of the invention have been described above, it will be appreciated by those skilled in the art that this is by way of example only, and the scope of the invention is defined by the appended claims. Various changes and modifications to these embodiments may be made by those skilled in the art without departing from the principles and spirit of the invention, but such changes and modifications fall within the scope of the invention.

Claims

1. The utility model provides a storehouse board for trading power station or energy storage station, its characterized in that, storehouse board includes first plywood and second plywood, be equipped with a plurality of orientation on the first plywood and keep away from the bellied protruding unit of second plywood direction, a plurality of protruding unit extends towards same direction, still be equipped with on the first plywood towards the cylinder that the second plywood extends, the pilot hole has been seted up in the cylinder, the through-hole has been seted up on the first plywood, the pilot hole passes through the through-hole switches on to the outside of first plywood, the pilot hole is the blind hole, the pilot hole is used for installing the assembly part.

2. A warehouse panel for a power exchange or energy storage station as claimed in claim 1, wherein the post extends to and abuts or is bonded to the second deck.

3. A warehouse plate for a power exchange or storage station as claimed in claim 1, wherein the wall of the mounting hole is flush with the wall of the through hole.

4. A warehouse board for a power exchange or energy storage station as claimed in claim 1, wherein the first and second laminates are carbon fibre or polymeric composite materials;

And/or the column body is made of resin material.

5. The warehouse floor for a power exchange or energy storage station of claim 1, further comprising an insulation layer sandwiched between the first and second panels, the insulation layer comprising an inorganic foam material, rock wool, polyurethane foam, or aerogel blanket.

6. A warehouse board for a power exchange or storage station as claimed in claim 5, wherein the warehouse board further includes a first connection post and/or a second connection post;

7. A warehouse plate for a power exchange or energy storage station as claimed in claim 6, wherein the first connection post and the first laminate and/or the second connection post and the second laminate and/or the first connection post and the second connection post and/or the first connection post and the second laminate and/or the second connection post and the first laminate are secured by gluing, snapping, beading or bolting.

8. A warehouse board for a power exchange or energy storage station as claimed in claim 6, wherein the insulating layer has through-holes corresponding in location to the first and/or second connection posts through which the first and/or second connection posts are secured.

9. A warehouse panel for a power exchange or storage station as claimed in claim 1, wherein the opposite ends of the warehouse panel are provided with a protruding end and a mating end, both protruding from the same side surface of the warehouse panel and extending in the same direction, such that the protruding end and the mating end on adjacent two of the warehouse panels are stackable with each other when a plurality of the warehouse panels are assembled.

10. The warehouse floor for a power exchange or storage station as claimed in claim 9, wherein the plurality of raised units includes a raised portion at which the first deck is raised away from the second deck to form the raised portion and a mating portion at which the first deck is raised away from the second deck to form the mating portion, the mating portion for covering an outside of the raised portion of an adjacent warehouse floor when the plurality of warehouse floors are assembled.

11. A warehouse plate for a power exchange or storage station as claimed in claim 10, wherein at the raised end the edge portion of the second plate is folded in a direction towards the first plate, the edge portion of the first plate is folded in a direction towards the second plate, and the inner surface of the edge portion of the first plate is adhered to the outer surface of the edge portion of the second plate.

12. A warehouse plate for a power exchange or energy storage station as claimed in claim 11, wherein at the raised end the edge portion of the first laminate includes a first bend portion that bends in a direction away from the second laminate and a second bend portion that bends in a direction toward the second laminate, the first and second bend portions having a first transition therebetween.

13. A warehouse panel for a power exchange or energy storage station as claimed in claim 12, wherein the outer surface of the first transition portion is provided with a recess for mounting a sealing member.

14. A warehouse panel for a power exchange or storage station as claimed in claim 11, wherein at the mating end, an inner surface of the edge portion of the first panel conforms to an outer surface of a side of the boss of the adjacent warehouse panel remote from the mating end.

15. A warehouse panel for a power or energy storage station as claimed in claim 14, wherein at the mating end, the edge portion of the first panel includes a third bend portion that bends toward a direction away from the second panel and a fourth bend portion that bends toward the second panel, with a second transition portion between the third and fourth bend portions.

16. A warehouse plate for a power exchange or storage station as claimed in claim 10, wherein at the mating end, an edge portion of the second laminate is bent toward the first laminate, the edge portion of the second laminate is sandwiched between the edge portion of the first laminate and a side surface of the raised portion of an adjacent warehouse plate adjacent the mating end, and an outer surface of the edge portion of the second laminate is bonded to an outer surface of the edge portion of the first laminate of the raised end of the adjacent warehouse plate.

17. A storage plate for a power exchange or energy storage station according to claim 10 wherein the inner surface of the first plate of the boss is provided with a first connecting post and the inner surface of the second plate of the boss is provided with a second connecting post, the first connecting post abutting against the second connecting post, or,

18. A warehouse plate for a power exchange or energy storage station as claimed in claim 10, wherein the warehouse plate further has a plurality of intermediate protrusions disposed between the protrusions and the mating portion, the first deck protruding away from the second deck to form the intermediate protrusions, the intermediate protrusions extending in the same direction as the protrusions, the protrusions and the mating portion being higher than the intermediate protrusions.

19. A warehouse plate for a power exchange or energy storage station as claimed in claim 18, wherein the inner surface of the first plate of the central protrusion is provided with a first connection post, the other end of the first connection post being in abutment with the second plate of the central protrusion.

20. A warehouse plate for a power exchange or energy storage station as claimed in claim 1, further comprising side portions at opposite ends of the warehouse plate in the direction of extension of the projection unit, the side portions for closing gaps between the first and second laminate plates.

21. The warehouse board for a power exchange station or an energy storage station as claimed in claim 20, wherein the protruding units at both ends of the warehouse board in the first direction are protruding parts and mating parts, respectively, the side parts are provided at both ends in the second direction perpendicular to the first direction, the side parts of the protruding parts are first side parts, the side parts of the mating parts are second side parts, and the second side parts cover part of the outside of the first side parts of the adjacent warehouse boards.

22. A warehouse plate for a power exchange or storage station as claimed in claim 21, wherein the first side portion has a stepped portion and the second side portion has an open slot shaped to match the stepped portion, the open slot being configured to capture the stepped portion of an adjacent warehouse plate when a plurality of warehouse plates are assembled.

23. A warehouse plate for a power exchange or storage station as claimed in claim 22, wherein the end face of the step is coplanar with the second side and/or the first side has a floor, the step is formed on a floor surface, and the height of the step relative to the floor is the same as the thickness of the second side.

24. A warehouse panel for a power exchange or storage station as claimed in claim 20, wherein an end of the side portion adjacent the first panel is flush with the outer surface of the first panel and the other end of the side portion extends in a direction toward and out of the outer surface of the second panel.

25. A warehouse board combination unit, characterized in that it includes a warehouse board for a power exchange or storage station as claimed in any one of claims 1-24, and a plurality of the warehouse boards are interconnected to form the warehouse board combination unit.

26. The library plate combination of claim 25, wherein the raised ends and mating ends of two sides of any adjacent two of said library plates are connected to each other to form said library plate combination.

27. A power or energy storage station comprising a frame and a warehouse board combination unit as claimed in claim 25 or 26, wherein the frame is removably connected to the warehouse board combination unit.

28. A station as claimed in claim 27, wherein the frame is provided with a slot and the second deck of the warehouse deck is provided with a catch, the warehouse deck combination unit being retained in the slot of the frame by the catch.