CN206516695U - The chip architecture that is flexible coupling and battery cap - Google Patents

Abstract

The utility model is related to the technical field of battery, discloses one kind and is flexible coupling chip architecture and battery cap, wherein the chip architecture that is flexible coupling, include the laminated structure of two overlapping arrangements, laminated structure is integrally formed, and laminated structure includes connection sheet, and connection sheet is provided with fusing breach；The first bent sheet is respectively formed with the both sides of connection sheet, two bent sheets are bent to form by the connection sheet outboard end respectively, and two the first bent sheets are in be arranged in parallel on the both sides of connection sheet.The chip architecture that is flexible coupling includes the laminated structure of two overlapping arrangements, the connection sheet of laminated structure is provided with fusing breach, be conducive to circuit fusing, so, laminated structure can pass through two outboard ends in connection sheet, it is bent to form the first bent sheet, two the first bent sheets and the top for being listed in connection sheet, positioned at the both sides of connection sheet, thickness greatly reduces, when battery cap is sealed on the upper end open of housing, the chip architecture that is flexible coupling thickness is reduced, excessive space will not be occupied, the capacity of appropriate increase battery core reaches the energy density effect of increase battery.

Description

The chip architecture that is flexible coupling and battery cap

Technical field

The utility model is related to the technical field of battery, more particularly to the chip architecture and including the chip architecture that is flexible coupling of being flexible coupling Battery cap.

Background technology

At present, with increasingly miniaturization, lighting and the Portable belt of electronic product, such as video camera, notebook and hand Machine etc., the driving power supply of these electronic products also develops towards high power capacity, high security and the direction of lighting, lithium battery with The good characteristics such as its high power capacity, are widely used in electronic product.

Lithium battery includes housing, battery cap and battery core etc., and wherein battery core is placed in the inside of housing, the upper end tool of housing There is upper end open, battery cap is then enclosed in the opening of the upper end of housing, then by forming the conducting strip on battery cap, then Lithium battery can be electrically connected with outside electronic component, realize power supply, certainly, the capacity of the capacity of battery core then with battery is straight Connect correlation, that is, the energy density of battery and the capacity of battery core it is related.

In order to realize the function of battery, it is necessary to which battery cap is directly attached with battery core, generally, by setting Put and be attached battery core with pole in the chip architecture that is flexible coupling.The chip architecture that is flexible coupling in the prior art by multiple unilateral bending with Afterwards, its thickness formed is excessive, and so, the chip architecture that is flexible coupling occupies the excessive space of enclosure interior, causes to be difficult to provide battery core Capacity, that is to say, that the energy density of battery is difficult to improve.

Utility model content

The purpose of this utility model is that offer is flexible coupling chip architecture, it is intended to solve in the prior art, the energy of battery is close The problem of degree is difficult to improve.

The utility model is achieved in that the chip architecture that is flexible coupling, and includes the laminated structure of two overlapping arrangements, described Shape structural integrity is molded, and the laminated structure includes connection sheet, and the connection sheet is provided with fusing breach；The two of the connection sheet The first bent sheet is respectively formed with side, two bent sheets are bent to form by the connection sheet outboard end respectively, and two Individual first bent sheet is in be arranged in parallel on the both sides of the connection sheet.

Further, the fusing breach is in strip, and perpendicular to the connection sheet outboard end.

Further, the laminated structure also includes two the second bent sheets, the medial extremity of two second bent sheets The outboard end of the connection sheet is docked at respectively, and the medial extremity of two first bent sheets is docked at two respectively The outboard end of second bent sheet；Second bent sheet is formed in the top of the connection sheet in overlapping shape, and two institutes The second bent sheet is stated to be arranged in juxtaposition；First bent sheet is in overlapping shape formation in the top of second bent sheet.

Further, it is formed with first between the outboard end of second bent sheet and the medial extremity of first bent sheet Bend in transitional region, the first bending transitional region and be formed with the first breach bar, the first breach bar is along described first Bend the length direction extension of transitional region.

Further, the two ends difference camber shape arrangement of the first breach bar.

Further, the first bending transitional region is convexly curved shape.

Further, it is formed with the second bending between the outboard end of the connection sheet and the medial extremity of second bent sheet The second breach is formed with transition region, the second bending transition region, second breach bends transition region along described second Length direction extends.

Further, the two ends difference camber shape arrangement of second breach.

Further, the second bending transition region is convexly curved shape.

The utility model provides battery cap, including the above-mentioned chip architecture that is flexible coupling.

Compared with prior art, the chip architecture that is flexible coupling that the utility model is provided, the chip architecture that is flexible coupling includes two overlappings The laminated structure of arrangement, the connection sheet of laminated structure is conducive to circuit fusing, so, laminated structure can provided with fusing breach By two outboard ends in connection sheet, to be bent to form the first bent sheet, two the first bent sheets and the top for being listed in connection sheet, Positioned at the both sides of connection sheet, thickness greatly reduces, when battery cap is sealed on the upper end open of housing, and the chip architecture that is flexible coupling is thick Degree is reduced, and will not occupy excessive space, the capacity of appropriate increase battery core, reaches the energy density effect of increase battery.

Brief description of the drawings

Fig. 1 is the schematic perspective view for the rotating sheet that the utility model embodiment is provided；

Fig. 2 is the cut-away illustration for the rotating sheet that the utility model embodiment is provided；

Fig. 3 is the schematic top plan view before the chip architecture that is flexible coupling that the utility model embodiment is provided is not bent；

Fig. 4 is the schematic perspective view for another chip architecture that is flexible coupling that the utility model embodiment is provided.

Embodiment

In order that the purpose of this utility model, technical scheme and advantage are more clearly understood, below in conjunction with accompanying drawing and implementation Example, the utility model is further elaborated.It should be appreciated that specific embodiment described herein is only to explain The utility model, is not used to limit the utility model.

Realization of the present utility model is described in detail below in conjunction with specific embodiment.

Referring to figs. 1 to shown in Fig. 4, the preferred embodiment provided for the utility model.

The present embodiment provide the chip architecture that is flexible coupling be used in the battery cap of battery, battery can be lithium battery or Other various types of batteries.

The chip architecture that is flexible coupling is that biplate overlaps shape structure, includes the laminated structure of two overlapping arrangements, the laminated structure is It is integrally formed, and laminated structure includes connection sheet 103 and by being bent to form outside 103 liang of outboard ends of connection sheet in connection sheet Two the first bent sheets 101 on 103, this two the first bent sheets 101 form the top in the upper surface of connection sheet 103, and two Individual first bent sheet 101 is arranged in juxtaposition, respectively positioned at the both sides of connection sheet 103.

The chip architecture that is flexible coupling of above-mentioned offer overlaps shape structure for biplate, includes the laminated structure of two overlapping arrangements, piece Shape structure includes connection sheet 103, and connection sheet 103 is conducive to circuit fusing, so, then can passed through provided with fusing breach 108 In two outboard ends of connection sheet 103, the first bent sheet 101 is bent to form respectively, and two the first bent sheets 101 are in cloth arranged side by side Put, be arranged in the top of the upper surface of connection sheet 103, and positioned at the both sides of connection sheet 103, so, for the whole piece knot that is flexible coupling For structure, its thickness can then greatly reduce, when battery cap is sealed on the upper end open of housing, the chip architecture that is flexible coupling thickness Reduce, the excessive space of enclosure interior will not be occupied, and then can suitably increase the capacity of battery core, reach the energy of increase battery The effect of density.

When the chip architecture that needs to be flexible coupling is connected with battery core, between the first bent sheet 101 between two laminated structures Open form is into grasping part 100, and the attachment structure for clamping battery core using two the first bent sheets 101 then may be used.

In the present embodiment, provided with multiple fusing breach 108 in connection sheet 103, multiple fusing breach 108 are along sheet knot The length direction arrangement of the bending place of structure, so, when short circuit occurs for battery, can disconnect in order to the chip architecture fusing that is flexible coupling Connection between pole and battery core.

Specifically, fusing breach 108 growth strip, and length of the fusing breach 108 along the bending place perpendicular to laminated structure Degree direction is disposed to extend.

Fuse depending on connection performance of the breach 108 according to the chip architecture that is flexible coupling, can be set in the two ends of connection sheet 103 Put or middle setting at one end, fusing breach 108 can be periphery blind bore or be formed with side opening Hole, depending on specific visual actual conditions.

In the present embodiment, laminated structure also includes by two the second bent sheets 106, wherein, two the second bent sheets 106 Medial extremity is docked at the outboard end of connection sheet 103 respectively, and the medial extremity of two the first bent sheets 101 is docked at two respectively The outboard end of second bent sheet 106.

It is in practical operation, the medial extremity of two the second bent sheets 106 is curved down relative to the outboard end of connection sheet 103 Folding so that the second bent sheet 106 overlapping shape is located at the top of connection sheet 103, and two the second bent sheets 106 are arranged in juxtaposition；Will The medial extremity of two the first bent sheets 101 is bent relative to the outboard end of the second bent sheet 106 so that two the first bent sheets 101 correspond to the top that overlapping shape is located at two the second bent sheets 106 respectively.

So, in overlapping shape cloth from bottom to top between connection sheet 103, the second bent sheet 106 and the first bent sheet 101 Put, and be in be arranged in juxtaposition between two the first bent sheets 101 in being arranged in juxtaposition between two the second bent sheets 106.It is soft when utilizing When connection chip architecture is attached, connection sheet 103 is connected with pole, the first bent sheet 101 can be then attached with battery core, So that realizing connection between pole and battery core.

The chip architecture that is flexible coupling of above-mentioned offer, it bends the second bent sheet respectively by two outboard ends in connection sheet 103 106 and first bent sheet 101, and two the second bent sheets 106, in being arranged in juxtaposition, two the first bent sheets 101 are in cloth arranged side by side Put, so, for the whole chip architecture that is flexible coupling, its thickness can then greatly reduce, when battery cap is sealed on housing During upper end open, the chip architecture that is flexible coupling thickness is reduced, and will not occupy the excessive space of enclosure interior, and then can suitably increase electricity The capacity of core, reaches the effect of the energy density of increase battery.

In the present embodiment, formed between the medial extremity of the first bent sheet 101 and the outboard end of the second bent sheet 106 One bending transitional region 105, in the present embodiment, the first bending transitional region 105 is formed with the first breach bar 107, and this first lacks Length direction of the pig's tongue 107 along the first bending transitional region 105 is disposed to extend, and the first breach bar 107 is closed at both ends, That is, the two ends of the first breach bar 107 will not be run through, so, then be easy to the first bent sheet 101 and the second bent sheet 106 it Between bending operation.

Specifically, the curved shape in the two ends of the first breach bar 107 is set.First bent sheet 101 and the second bent sheet 106 it Between curved bending, that is to say, that the first bending transitional region 105 is convexly curved shape.

The the second bending transitional region formed between the medial extremity of the second bent sheet 106 and the outboard end of connection sheet 103 104, in the present embodiment, the second bending transitional region 104 is formed with the second breach bar 102, the second breach bar 102 along second The length direction of bending transitional region 104 is disposed to extend, and the second breach bar 102 is closed at both ends, that is to say, that the second breach The two ends of bar 102 will not be run through, so, then be easy to the bending between the second bent sheet 106 and connection sheet 103 to operate.

Specifically, the curved shape in the two ends of the second breach bar 102 is set.It is between the bent sheet 106 of connection sheet 103 and second Arc is bent, that is to say, that the second bending transitional region 104 is convexly curved shape.

Shown in reference picture 1-3, the chip architecture that is flexible coupling can be two bendings folding, that is, be bent including connection sheet 103, first The bent sheet 106 of piece 101 and second；Shown in reference picture 4, the chip architecture that is flexible coupling can also be that a bending is rolled over, including connection sheet 103 With the first bent sheet 101.

Preferred embodiment of the present utility model is the foregoing is only, it is all at this not to limit the utility model Any modifications, equivalent substitutions and improvements made within the spirit and principle of utility model etc., should be included in the utility model Protection domain within.

Claims (10)

1. be flexible coupling chip architecture, it is characterised in that include the laminated structures of two overlapping arrangements, the laminated structure one into Type, the laminated structure includes connection sheet, and the connection sheet is provided with fusing breach；Formed respectively on the both sides of the connection sheet There is the first bent sheet, two bent sheets are bent to form by the connection sheet outboard end respectively, and two described first curved Tabs is in be arranged in parallel on the both sides of the connection sheet.

2. the chip architecture as claimed in claim 1 that is flexible coupling, it is characterised in that the fusing breach is in strip, and perpendicular to institute State connection sheet outboard end.

3. the chip architecture as claimed in claim 1 or 2 that is flexible coupling, it is characterised in that the laminated structure also includes two second Bent sheet, the medial extremity of two second bent sheets is docked at the outboard end of the connection sheet, two described respectively The medial extremity of one bent sheet is docked at the outboard end of two second bent sheets respectively；Second bent sheet is in overlapping Shape formation is arranged in juxtaposition in the top of the connection sheet, and two second bent sheets；First bent sheet is in overlapping shape Formed in the top of second bent sheet.

4. the as claimed in claim 3 chip architecture that is flexible coupling, it is characterised in that the outboard end of second bent sheet and described the It is formed with the first bending transitional region between the medial extremity of one bent sheet, being formed with first in the first bending transitional region lacks Pig's tongue, length direction of the first breach bar along the described first bending transitional region extends.

5. the chip architecture as claimed in claim 4 that is flexible coupling, it is characterised in that the two ends difference camber of the first breach bar Shape is arranged.

6. the chip architecture as claimed in claim 4 that is flexible coupling, it is characterised in that the first bending transitional region is convexly curved Shape.

7. the as claimed in claim 3 chip architecture that is flexible coupling, it is characterised in that the outboard end of the connection sheet and described second curved It is formed between the medial extremity of tabs in the second bending transition region, the second bending transition region and is formed with the second breach, it is described Length direction of second breach along the described second bending transition region extends.

8. the chip architecture as claimed in claim 7 that is flexible coupling, it is characterised in that the two ends difference camber shape of second breach Arrangement.

9. the chip architecture as claimed in claim 7 that is flexible coupling, it is characterised in that the second bending transition region is convexly curved Shape.

10. battery cap, it is characterised in that including the chip architecture that is flexible coupling described in any one of claim 1~9.