CN206179967U - Battery module structure - Google Patents
Battery module structure Download PDFInfo
- Publication number
- CN206179967U CN206179967U CN201621270456.0U CN201621270456U CN206179967U CN 206179967 U CN206179967 U CN 206179967U CN 201621270456 U CN201621270456 U CN 201621270456U CN 206179967 U CN206179967 U CN 206179967U
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- Prior art keywords
- positive
- polar region
- hole
- negative pole
- positive pole
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- 230000005611 electricity Effects 0.000 claims abstract description 5
- 238000009413 insulation Methods 0.000 claims description 37
- 230000008878 coupling Effects 0.000 claims description 7
- 238000010168 coupling process Methods 0.000 claims description 7
- 238000005859 coupling reaction Methods 0.000 claims description 7
- 238000012423 maintenance Methods 0.000 abstract description 5
- 238000000034 method Methods 0.000 abstract description 4
- 239000000178 monomer Substances 0.000 description 2
- 238000005452 bending Methods 0.000 description 1
- 238000004146 energy storage Methods 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 239000007787 solid Substances 0.000 description 1
Classifications
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E60/00—Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
- Y02E60/10—Energy storage using batteries
Landscapes
- Connection Of Batteries Or Terminals (AREA)
- Battery Mounting, Suspending (AREA)
Abstract
The utility model provides a battery module structure, battery cell's positive pole pass through protection piece and conducting strip and first positive plate and second positive plate electric connection, battery cell's negative pole pass through negative electrode connection member with first negative plate and second negative plate electric connection have realized the positive negative pole homonymy wireless connection of battery cell, and just the electricity is got to the positive negative pole of battery cell is crisscross to first cylinder manifold and second cylinder manifold, and the maintenance can be dismantled alone to first positive plate, first negative plate, second positive plate and second negative plate, have simplified equipment and maintenance process, and battery cell and protection piece elastic connection, easy dismounting, protection piece have further guaranteed every battery cell's work safety performance.
Description
【Technical field】
The utility model is related to cell art, more particularly to a kind of battery module structure.
【Background technology】
Electrokinetic cell is the core energy storage device of each electronic product, generally by the circuit board that confluxes by multiple cells
Carry out connection in series-parallel and form battery modules, to reach the electricity and voltage of all kinds of required by electronic product.However, existing cell
It is complicated with the connection of the circuit board that confluxes, detachable maintaining is difficult, and connection electric wire is more;Also, the positive pole of cell is fixed not
Reliable, unprotect part protection, potential safety hazard is big.
In consideration of it, real be necessary to provide a kind of new battery module structure to overcome disadvantages described above.
【Utility model content】
The purpose of this utility model is being to provide a kind of simple battery modules interconnection structure, connection reliability, cell just
The power taking of negative pole homonymy, wireless connection and it is readily disassembled maintenance, security performance battery module structure high.
To achieve these goals, the utility model provides a kind of battery module structure, including battery modules, fixed seat,
Conflux board component and coupling assembly;The battery modules include multiple cells, the cell include positive pole end face and
Side wall, is provided with positive pole raised on the positive pole end face;The fixed seat offers accepting hole;The board component that confluxes includes the
One cylinder manifold, the second cylinder manifold and insulation board, first cylinder manifold include the first positive polar region and friendship adjacent with the first positive polar region
For the first negative pole area of arrangement, second cylinder manifold include the second positive polar region and it is adjacent with the second positive polar region be alternately arranged the
Two negative pole areas, the insulation board is arranged between first cylinder manifold and the second cylinder manifold;The coupling assembly includes negative pole
Connector and positive pole connector;Second cylinder manifold is stacked with first cylinder manifold and the second positive polar region is directed at first
Negative pole area, the second negative pole area is directed at the first positive polar region;The fixed seat is arranged on second cylinder manifold and monomer electricity
Pond is contained in the accepting hole near one end of the positive pole end face;The positive pole projection of a part of cell is electrically connected at
The positive pole connector and the positive pole connector are electrically connected at the described second positive polar region, and the side wall of cell is electrically connected with
The first negative pole area of alignment is electrically connected in the anode connector and the anode connector;The cell of another part
Positive pole projection be electrically connected at the positive pole connector and the positive pole connector is electrically connected at the described first positive polar region, it is single
The side wall of body battery is electrically connected at the anode connector and the anode connector is electrically connected at the second negative pole of alignment
Area.
In a preferred embodiment, the described first positive polar region offers connecting hole and the multiple around the connecting hole
Holding hole, the first negative pole area offers the through hole of circle;The shape phase of the second positive polar region and the described first positive polar region
Together, and position corresponding connecting hole and clamping identical with the connecting hole and clamping hole shape that the described first positive polar region is opened up are offered
Hole, the second negative pole area is identical with the shape in the first negative pole area, offers the shape of through holes opened up with the first negative pole area
The corresponding through hole in identical and position;The insulation board includes positive pole insulation board and negative insulation plate, the positive pole insulation board and the
The shape of one positive polar region is identical and position is relative, offers the connecting hole and clamping hole shape phase opened up with the described first positive polar region
Same and the corresponding connecting hole in position and holding hole, the negative insulation plate is identical with the shape in the first negative pole area and position is relative,
Offer and position corresponding through hole identical with the shape of through holes that the first negative pole area opens up.
In a preferred embodiment, the anode connector includes that clamping ring and uniform intervals are arranged at the clamping
The retaining sheet of ring side, the clamping ring is vertical with the retaining sheet.
In a preferred embodiment, the retaining sheet of a part of anode connector through the first negative pole area through hole,
The holding hole of the through hole of negative insulation plate and the second positive polar region, the first negative pole area, the negative pole of another part are connected to by clamping boxing
Connector is directly welded in the second negative pole area.
In a preferred embodiment, the positive pole connector include positive pole deck, conducting strip and guard member, it is described just
Pole deck includes deck body and is arranged at the buckle of the deck body edges, the buckle is evenly spaced be arranged at it is described
The side of deck body, the conducting strip is resisted against the deck body, and one end of the guard member is electrically connected to the conduction
Piece.
In a preferred embodiment, to sequentially pass through the first negative pole area through hole, negative pole exhausted for a part of positive pole connector
The holding hole of the through hole of listrium and the second positive polar region, the positive pole deck presses in the described second positive polar region the conducting strip
Connecting hole, the guard member is contained in the connecting hole of the described second positive polar region, also, the positive pole connector of the part
Conducting strip and the second positive polar region are electrically connected with;The positive pole connector of another part sequentially passes through the holding hole, just of the first positive polar region
The holding hole of pole insulation board and the through hole in the second negative pole area, the positive pole deck press in first positive pole conducting strip
The connecting hole in area, the guard member is contained in the through hole in the second negative pole area, also, the positive pole of described another part is connected
The conducting strip of part and the first positive polar region are electrically connected with.
In a preferred embodiment, the retaining sheet has been bent to form to the direction near the clamping ring central shaft
Projection, the side wall of the cell is formed with depression, the projection and depression phase interworking near the position of the positive pole end face
Close.
In a preferred embodiment, the board component that confluxes also includes positive pole output board and negative pole output board, described
Positive pole output board is arranged at one end of second cylinder manifold and the positive pole output board connects a second positive polar region, described negative
Pole output board is arranged at the other end of second cylinder manifold and the negative pole output board connects a second negative pole area.
In a preferred embodiment, the diameter of the through hole of the insulation board is slightly less than passing through for the positive pole cylinder manifold
The diameter of perforation.
In a preferred embodiment, the described second positive polar region is additionally provided with backing plate near the surface of the fixed seat,
The shape and thickness of the backing plate are identical with positive pole insulation board.
Compared to the battery module structure that prior art, the utility model are provided, the positive pole of cell passes through guard member
And conducting strip and the first positive polar region and the second positive polar region are electrically connected with, the negative pole of cell is by anode connector and described the
One negative pole area and the second negative pole area are electrically connected with, and realize cell both positive and negative polarity homonymy wireless connection, and the first cylinder manifold and
Second cylinder manifold interlocks power taking, the first positive polar region, the first negative pole area, the second positive polar region and the second negative pole to cell both positive and negative polarity
Area can independent detachable maintaining, simplify assembling and maintenance procedures;Also, cell and guard member elastic connection, dismounting side
Just, guard member further ensures the work safety of each cell.
【Brief description of the drawings】
The decomposing schematic representation of the battery module structure that Fig. 1 is provided for the utility model;
The decomposing schematic representation of the board component that confluxes of the battery module structure that Fig. 2 is provided for the utility model;
The decomposing schematic representation of the coupling assembly of the battery module structure that Fig. 3 is provided for the utility model;
Schematic perspective view after the battery module structure assembling that Fig. 4 is provided for the utility model;
Top view after the battery module structure assembling that Fig. 5 is provided for the utility model;
Fig. 6 is the schematic cross-sectional view in A-A directions in Fig. 4;
Fig. 7 is the schematic cross-sectional view in B-B directions in Fig. 4.
【Specific embodiment】
In order that the purpose of this utility model, technical scheme and Advantageous Effects become apparent from understanding, below in conjunction with attached
Figure and specific embodiment, are further elaborated to the utility model.It should be appreciated that described in this specification
Specific embodiment is not intended to limit the utility model just for the sake of explaining the utility model.
Refer to Fig. 1, the utility model provides a kind of battery module structure 100, including battery modules 10, fixed seat 20,
Conflux board component 30 and coupling assembly 40.
The battery modules 10 include the cell 11 of multiple laid out in parallel, and the cell 11 is cylindric, bag
Positive pole end face 101, negative pole end face 102 and side wall 103 are included, the positive pole end face 101 is relative and described with the negative pole end face 102
Side wall 103 connects the positive pole end face 101 and the negative pole end face 102.Specifically, being provided with just on the positive pole end face 101
Extremely raised 104, the positive pole raised 104 is the positive pole of the cell 10, the negative pole end face 102 and the side wall 103
The negative pole of the cell 10 is, the side wall 103 is formed with depression 105 near the position of the positive pole end face 101.
The fixed seat 20 is rectangular-shape, described solid with top surface 201 and the bottom surface 202 relative with the top surface 201
Reservation 20 offers the accepting hole 203 through the top surface 201 and the bottom surface 202, and the accepting hole 203 is circle, described
The diameter of accepting hole 203 corresponds to the diameter of the cell 11.
The board component 30 that confluxes includes the first cylinder manifold 31, the second cylinder manifold 32, positive pole output board 33, negative pole output board
34 and insulation board 35.
Also referring to Fig. 2, first cylinder manifold 31 includes the first positive polar region 311 and the first negative pole area 312.Described
One positive polar region 311 offers connecting hole 3111 and the multiple holding holes 3112 around the connecting hole 3111, the connecting hole
3111 and holding hole 3112 run through the described first positive polar region 311.The first negative pole area 312 offers the through hole 3121 of circle,
The through hole 3121 runs through the first negative pole area 312.The first positive polar region 311 and the first negative pole area 312 are on the same plane
Inside it is alternately arranged, i.e., one the first negative pole area 312 connects a first positive polar region 311, reconnects a first negative pole area 312,
The like.
Second cylinder manifold 32 includes the second positive polar region 321 and the second negative pole area 322.The second positive polar region 321 with
Second negative pole area 322 is alternately arranged in the same plane, and second cylinder manifold 32 is stacked with first cylinder manifold 31,
And the second positive polar region 321 is directed at the first negative pole area 312, the second negative pole area 322 is directed at the first positive polar region 311.Specifically, described
Two positive polar regions 321 are identical with the shape of the described first positive polar region 311, also offer connecting hole and the multiple around the connecting hole
Holding hole;Second negative pole area 322 is identical with the shape in the first negative pole area 312, also offers the through hole of circle.
In present embodiment, the positive pole output board 33 is arranged at one end of second cylinder manifold 32 and the positive pole is defeated
Ejecting plate 33 connect a second positive polar region 321, the negative pole output board 34 be arranged at the other end of second cylinder manifold 32 and
The negative pole output board 33 connects a second negative pole area 322.In other embodiments, positive pole output board 33 and negative pole are exported
Plate 34 can be arranged at the two ends of the first cylinder manifold 31, or in positive pole output board 33 and negative pole output board 34 is arranged at
One end of first cylinder manifold 31, another is arranged at one end of the second cylinder manifold 32.Or, in other embodiments, can be with
It is not provided with positive pole output board 33 and negative pole output board 34.
The insulation board 35 includes positive pole insulation board 351 and negative insulation plate 352, and the insulation board 35 is arranged at described the
Between one cylinder manifold 31 and the second cylinder manifold 32, the positive pole insulation board 351 and negative insulation plate 352 interlock in the same plane
Arrangement.Specifically, the positive pole insulation board 351 is identical with the shape of the first positive polar region 311 and position is relative, the negative insulation
Plate 352 is identical with the shape in the first negative pole area 312 and position is relative.
Also referring to Fig. 3, the coupling assembly 40 includes anode connector 41 and positive pole connector 42.
The anode connector 41 includes that clamping ring 411 and uniform intervals are arranged at the clamping of the side of clamping ring 411
Piece 412, the retaining sheet 412 has been bent to form raised 4121, the clamping near the direction of the central shaft of clamping ring 411
Ring 411 is vertical with the retaining sheet 412.In present embodiment, the retaining sheet 412 and clamping ring 411 are integrally formed, the card
Held in ring 411 is circle, and the diameter of the clamping ring 411 is corresponding with the diameter of cell 10.
The positive pole connector 42 includes positive pole deck 421, conducting strip 422 and guard member 423.
The positive pole deck 421 includes deck body 4210 and is arranged at the buckle at the edge of deck body 4210
4211, the evenly spaced side for being arranged at the deck body 4210 of the buckle 4211.Specifically, the deck body
4210 is circle.
The conducting strip 422 is resisted against the deck body 4210, and the buckle 4211 is surrounded on the conducting strip 422
The position at edge and the restriction conducting strip 422.Specifically, the shape of the shape of the conducting strip 422 and deck body 4210
Correspondence, is circular, and the diameter of the conducting strip 422 corresponds to the diameter of the deck body 4210.
The guard member 423 is helical form, and one end of guard member 423 is electrically connected to the conducting strip 422.This embodiment party
In formula, the guard member 423 is spiraled by a wire bending with fuse function and is formed.
Also referring to Fig. 4, Fig. 5, Fig. 6 and Fig. 7, during assembling, first, by the first cylinder manifold 31, the second cylinder manifold 32 and
The bonding of insulation board 35 is integrated, and positive pole output board 33 and negative pole output board 34 are arranged at the both sides of the second cylinder manifold 32;
Then, anode connector 41 is welded on the cylinder manifold 32 of first cylinder manifold 31 and second, specifically, one
Point anode connector 41 retaining sheet 412 through the through hole 3121 in the first negative pole area 312, the through hole of negative insulation plate 352 and
The holding hole of the second positive polar region 321, clamping ring 411 is welded in the first negative pole area 312, and the anode connector 41 of another part is direct
It is welded in the second negative pole area 322;Specifically, anode connector 41 is electrically connected at the first negative pole area 312 and the second negative pole area
322;
Secondly, positive pole connector 42 is arranged on the cylinder manifold 32 of first cylinder manifold 31 and second, specifically, one
The positive pole connector 42 for dividing sequentially passes through the through hole 3121 of the first negative pole area 312, the through hole of negative insulation plate 352 and the second positive polar region
321 holding hole, the positive pole deck 421 presses in the connecting hole of the described second positive polar region 321, institute the conducting strip 422
Guard member 423 is stated to be contained in the connecting hole of the described second positive polar region 321, also, the positive pole connector 42 of the part
Conducting strip 422 is electrically connected with the second positive polar region 321;The positive pole connector 42 of another part sequentially passes through the first positive polar region 311
Holding hole 3112, the holding hole of positive pole insulation board 351 and the second negative pole area 322 through hole, the positive pole deck 421 will be described
Conducting strip 422 presses in the connecting hole 3111 of the described first positive polar region 311, and the guard member 423 is contained in second negative pole
In the through hole in area 322, also, the conducting strip 422 of the positive pole connector 42 of described another part electrically connects with the first positive polar region 311
Connect;
Thirdly, fixed seat 20 is placed on the second cylinder manifold 32, the retaining sheet 412 of anode connector 41 is contained in fixation
In the accepting hole 203 of seat 20;
Finally, battery modules 10 are placed in the fixed seat 20, specifically, the close described positive terminal of cell 11
The one end in face 101 is contained in the accepting hole 203, and the clamping ring 411 of the anode connector 41 entangles cell 11
Near the positive pole end face 101 one end, and cell 11 described in the clamping of the retaining sheet 412 side wall 103, the projection
4121 with it is described depression 105 cooperate, the side wall 103 (negative pole of cell 11) by the anode connector 41 with
Negative pole area 322 of the first negative pole area 312 and second is electrically connected with;A part for the positive pole projection 104 of the cell 11
It is contained in the accepting hole 203, another part is beyond the bottom surface 201 and is exposed to outside the accepting hole 203, the positive pole
Raised 104 are fastened in buckle 4211 and are resisted against the guard member 423 beyond the part of the accepting hole 203, the monomer electricity
The positive pole projection 104 in pond 11 electrically connects by guard member 423 and conducting strip 422 with the first positive polar region 311 and the second positive polar region 321
Connect.
In present embodiment, the diameter of the connecting hole of the positive pole insulation board 351 be slightly less than the described first positive polar region 311 and
The diameter of the connecting hole of the second positive polar region 321, in order to positive pole projection 104 described in further clamping.
In present embodiment, the second positive polar region 321 is additionally provided with backing plate 35, institute near the surface of the fixed seat 20
The shape and thickness for stating backing plate 36 are identical with positive pole insulation board 351, and the backing plate 36 ensure that the positive pole of all cells 11
Raised 104 in same level.
The battery module structure 100 that the utility model is provided, the positive pole of cell 11 passes through guard member 423 and conducting strip
422 are electrically connected with the first positive polar region 311 and the second positive polar region 321, the negative pole of cell 11 by anode connector 41 with
Negative pole area 322 of the first negative pole area 312 and second is electrically connected with, and realizes the both positive and negative polarity homonymy wireless connection of cell 10,
And first cylinder manifold 31 and the second cylinder manifold 32 both positive and negative polarity of cell 11 is interlocked power taking, the first positive polar region 311, the first negative pole
Area 312, the second positive polar region 321 and the second negative pole area 322 can independent detachable maintaining, simplify assembling and maintenance procedures;Also,
Cell 11 and the elastic connection of guard member 423, convenient disassembly, guard member 423 further ensure each cell 11
Work safety.
The utility model is not restricted to described in specification and implementation method, therefore for the personnel of familiar field
For be easily achieved additional advantage and modification, therefore in the universal limited without departing substantially from claim and equivalency range
Spirit and scope in the case of, the utility model be not limited to specific details, representational equipment and shown here as with retouch
The examples shown stated.
Claims (10)
1. a kind of battery module structure, it is characterised in that:Including battery modules, fixed seat, conflux board component and coupling assembly;Institute
Stating battery modules includes multiple cells, and the cell includes positive pole end face and side wall, is set on the positive pole end face
There is positive pole raised;The fixed seat offers accepting hole;It is described conflux board component including the first cylinder manifold, the second cylinder manifold and absolutely
Listrium, first cylinder manifold includes the first positive polar region and the first negative pole area being alternately arranged adjacent with the first positive polar region, described
Second cylinder manifold includes the second positive polar region and the second negative pole area being alternately arranged adjacent with the second positive polar region, and the insulation board is set
Between first cylinder manifold and the second cylinder manifold;The coupling assembly includes anode connector and positive pole connector;
Second cylinder manifold is stacked with first cylinder manifold and the second positive polar region is directed at the first negative pole area, the second negative pole
Area is directed at the first positive polar region;The fixed seat is arranged on second cylinder manifold and the cell is near the positive terminal
The one end in face is contained in the accepting hole;The positive pole projection of a part of cell be electrically connected at the positive pole connector and
The positive pole connector is electrically connected at the described second positive polar region, and the side wall of cell is electrically connected at the anode connector
And the anode connector is electrically connected at the first negative pole area of alignment;
The positive pole projection of the cell of another part is electrically connected at the positive pole connector and the positive pole connector is electrical
The described first positive polar region is connected to, the side wall of cell is electrically connected at the anode connector and anode connector electricity
Property is connected to the second negative pole area of alignment.
2. battery module structure as claimed in claim 1, it is characterised in that:The first positive polar region offers connecting hole and encloses
Around multiple holding holes of the connecting hole, the first negative pole area offers the through hole of circle;The second positive polar region with it is described
The shape of the first positive polar region is identical, offers and position identical with the connecting hole and clamping hole shape that the described first positive polar region is opened up
Corresponding connecting hole and holding hole, the second negative pole area are identical with the shape in the first negative pole area, offer negative with described first
The shape of through holes that polar region is opened up is identical and the corresponding through hole in position;The insulation board includes positive pole insulation board and negative insulation plate,
The positive pole insulation board is identical with the shape of the first positive polar region and position is relative, offers the company opened up with the described first positive polar region
Connect hole and clamping hole shape is identical and the corresponding connecting hole in position and holding hole, the shape in the negative insulation plate and the first negative pole area
Shape is identical and position is relative, offers and position corresponding through hole identical with the shape of through holes that the first negative pole area opens up.
3. battery module structure as claimed in claim 2, it is characterised in that:The anode connector is including clamping ring and uniformly
The retaining sheet of the clamping ring side is arranged at intervals at, the clamping ring is vertical with the retaining sheet.
4. battery module structure as claimed in claim 3, it is characterised in that:The retaining sheet of the anode connector of a part is passed through
The holding hole of the through hole, the through hole of negative insulation plate and the second positive polar region in the first negative pole area, the first negative pole is connected to by clamping boxing
Area, the anode connector of another part is directly welded in the second negative pole area.
5. battery module structure as claimed in claim 4, it is characterised in that:The positive pole connector includes positive pole deck, leads
Electric piece and guard member, the positive pole deck include deck body and are arranged at the buckle of the deck body edges, the buckle
The evenly spaced side for being arranged at the deck body, the conducting strip is resisted against the deck body, the guard member
One end is electrically connected to the conducting strip.
6. battery module structure as claimed in claim 5, it is characterised in that:The positive pole connector of a part sequentially passes through first
The holding hole of negative pole area through hole, the through hole of negative insulation plate and the second positive polar region, the positive pole deck presses the conducting strip
In the connecting hole of the described second positive polar region, the guard member is contained in the connecting hole of the described second positive polar region, also, described one
The conducting strip of partial positive pole connector and the second positive polar region are electrically connected with;The positive pole connector of another part sequentially passes through first
The through hole of the holding hole, the holding hole of positive pole insulation board and the second negative pole area of positive polar region, the positive pole deck is by the conducting strip
Press in the connecting hole of the described first positive polar region, the guard member is contained in the through hole in the second negative pole area, also, described
The conducting strip of the positive pole connector of another part and the first positive polar region are electrically connected with.
7. battery module structure as claimed in claim 2, it is characterised in that:The retaining sheet is near the clamping ring center
The direction of axle has been bent to form projection, and the side wall of the cell is formed with depression, institute near the position of the positive pole end face
Raised and depression is stated to cooperate.
8. battery module structure as claimed in claim 1, it is characterised in that:The board component that confluxes also includes positive pole output board
And negative pole output board, the positive pole output board is arranged at one end of second cylinder manifold and the positive pole output board connects one
Second positive polar region, the negative pole output board is arranged at the other end of second cylinder manifold and the negative pole output board connects one
Second negative pole area.
9. battery module structure as claimed in claim 2, it is characterised in that:The diameter of the through hole of the insulation board is slightly less than
The diameter of the through hole of the positive pole cylinder manifold.
10. battery module structure as claimed in claim 1, it is characterised in that:The second positive polar region is near the fixed seat
Surface be additionally provided with backing plate, the shape and thickness of the backing plate are identical with positive pole insulation board.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201621270456.0U CN206179967U (en) | 2016-11-23 | 2016-11-23 | Battery module structure |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621270456.0U CN206179967U (en) | 2016-11-23 | 2016-11-23 | Battery module structure |
Publications (1)
Publication Number | Publication Date |
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CN206179967U true CN206179967U (en) | 2017-05-17 |
Family
ID=60241892
Family Applications (1)
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CN201621270456.0U Active CN206179967U (en) | 2016-11-23 | 2016-11-23 | Battery module structure |
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CN (1) | CN206179967U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106711383A (en) * | 2016-11-23 | 2017-05-24 | 深圳市沃特玛电池有限公司 | Battery module structure |
-
2016
- 2016-11-23 CN CN201621270456.0U patent/CN206179967U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106711383A (en) * | 2016-11-23 | 2017-05-24 | 深圳市沃特玛电池有限公司 | Battery module structure |
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