CN205828572U - Takeup type battery core - Google Patents

Abstract

This utility model provides a kind of takeup type battery core, and it is wound by the isolating membrane between the first pole piece, the second pole piece and the first pole piece and the second pole piece and forms.First pole piece includes the first collector and the first active material layer being coated on the surface of the first collector, and the first pole piece is formed with the first planar portions and the first bending section in the often circle being wound into.First bending section has: the first cleaning area, extend to both sides from the flexural center of the first bending section and form, first cleaning area includes being formed in first inside the first bending section in cleaning area, and first the first active material layer at cleaning area by partly or completely clear all.According in takeup type battery core of the present utility model, owing to the first active material layer at cleaning area in first is by partly or completely clear all, thus decrease the first active material layer when the first pole piece coiling to the constraint of lateral bend in the first collector, and then solve takeup type battery core breakage problem of the first pole piece in winding and/or hot pressing.

Description

Takeup type battery core

Technical field

This utility model relates to field of batteries, particularly relates to a kind of takeup type battery core.

Background technology

Along with the development of lithium ion battery, in order to improve the energy density of battery, the thickness of the collector of selection is increasingly Little.When selecting thinner foil (such as aluminium foil) as collector, along with in the compacted density of collector and the surface of collector The increase of thickness of active material layer, for takeup type battery core, takeup type battery core can be produced in winding and hot pressing Raw phenomenon of rupture, especially takeup type battery core be the part of bending when winding.

Currently for the foil of lower thickness, its compacted density cannot improve, and therefore can only select thicker foil, from And limit the raising of battery energy density.

When takeup type battery core utilizes thinner foil as collector, takeup type battery core during hot pressing, pole piece Inner round portion (the especially pole piece part of inner ring is in the position of bending when winding) phenomenon of rupture can occur.When inner ring pole Sheet fracture after, if off two parts in a portion without lug arrange, then rupture without lug setting this part Because son can not be conducted electricity again, the removal lithium embedded being no longer participate in lithium ion battery is worked, thus cause the energy density of lithium ion battery Reduce；If off two parts the most still have lug to arrange, owing to fracture can make the sub-ability of monolithic conductive of pole piece decline, The deintercalation speed of lithium ion reduces, thus causes energy density to decline.It addition, pole piece fracture can breaking part produce burr Granule, has the risk piercing through barrier film, causes battery short circuit, affect battery safety.

Utility model content

In view of problem present in background technology, the purpose of this utility model is to provide a kind of takeup type battery core, its energy Solve takeup type battery core breakage problem of pole piece in winding and/or hot pressing.

To achieve these goals, this utility model provides a kind of takeup type battery core, and it is by the first pole piece, the second pole piece And the isolating membrane winding being arranged between the first pole piece and the second pole piece forms.First pole piece includes the first collector and coating The first active material layer on the surface of the first collector, and the first pole piece is formed with the first plane in the often circle being wound into Portion and the first bending section.Wherein, the first bending section has: the first cleaning area, prolongs to both sides from the flexural center of the first bending section Stretching and form, the first cleaning area includes being formed in first inside the first bending section in cleaning area, and first at cleaning area One active material layer is by partly or completely clear all.

The beneficial effects of the utility model are as follows:

According in takeup type battery core of the present utility model, bend from first owing to the first bending section of the first pole piece has The first cleaning area that the flexural center in portion extends to both sides, and the first cleaning area includes being formed at inside the first bending section Cleaning area in first, and in first, the first active material layer at cleaning area is by partly or completely clear all, thus decrease first Active material layer when the first pole piece coiling to the constraint of lateral bend in the first collector, and then solve takeup type battery core volume Around and/or hot pressing in the breakage problem of the first pole piece.Especially when the first collector uses ultra-thin foil and has bigger Compacted density time, based on arranging the first cleaning area on the first bending section of the first pole piece, thus substantially increase takeup type The energy density of battery core.

Accompanying drawing explanation

Fig. 1 is according to takeup type battery core of the present utility model winding schematic diagram in one embodiment；

Fig. 2 is the schematic diagram after the second pole piece in Fig. 1 launches；

Fig. 3 is the schematic diagram after the first pole piece in Fig. 1 launches；

Fig. 4 is according to takeup type battery core of the present utility model winding schematic diagram in another embodiment；

Fig. 5 is the schematic diagram after the second pole piece in Fig. 4 launches；

Fig. 6 is the schematic diagram after the first pole piece in Fig. 4 launches；

Fig. 7 is the top view of Fig. 3, wherein eliminates the mid portion of the first pole piece；

Fig. 8 is the variation in Fig. 7, wherein eliminates the mid portion of the first pole piece, and lug is formed by cross cutting.

Wherein, description of reference numerals is as follows:

1 first pole piece 22 second active material layer

11 first collector 23 second lug accommodating grooves

12 first active material layer P2 the second planar portions

13 first lug accommodating grooves B2 the second bending sections

P1 the first planar portions B21 the second cleaning area

Cleaning area in B1 the first bending section B211 second

B212 the second outer cleaning area, B11 the first cleaning area

Non-cleaning area in cleaning area B22 second in B111 first

The outer non-cleaning area of B112 first outer cleaning area B23 second

Non-cleaning area 3 isolating membrane in B12 first

B13 the first outer non-cleaning area 4 first lug

2 second pole piece 5 second lugs

21 second collectors

Detailed description of the invention

Describe in detail with reference to the accompanying drawings according to takeup type battery core of the present utility model.

Referring to figs. 1 through Fig. 8, and arranged by first pole piece the 1, second pole piece 2 according to takeup type battery core of the present utility model Isolating membrane 3 winding between the first pole piece 1 and the second pole piece 2 forms.First pole piece 1 includes the first collector 11 and is coated in The first active material layer 12 on the surface of the first collector 11, and the first pole piece 1 is formed with first in the often circle being wound into Planar portions P1 and the first bending section B1.

Wherein, the first bending section B1 has: the first cleaning area B11, prolongs to both sides from the flexural center of the first bending section B1 Stretching and form, the first cleaning area B11 cleans in including being formed at cleaning area B111 in first inside the first bending section B1, and first The first active material layer 12 at district B111 is by partly or completely clear all.

According in takeup type battery core of the present utility model, owing to the first bending section B1 of the first pole piece 1 has from first The first cleaning area B11 that the flexural center of bending section B1 extends to both sides, and the first cleaning area B11 includes being formed at first Cleaning area B111 in inside bending section B1 first, and in first the first active material layer 12 at the B111 of cleaning area by part or Fully erased, thus decrease the first active material layer 12 when the first pole piece 1 winds to lateral bend in the first collector 11 Constraint, and then solve takeup type battery core breakage problem of the first pole piece 1 in winding and/or hot pressing.Especially when first When collector 11 uses ultra-thin foil and has bigger compacted density, based on the first bending section B1 of the first pole piece 1 First cleaning area B11 is set, thus substantially increases the energy density of takeup type battery core.

According to takeup type battery core of the present utility model, in one embodiment, also may be used with reference to Fig. 1 and Fig. 4, the first bending section B1 Have: non-cleaning area B12 in first, be positioned at the inner side of the first bending section B1 and be in the first planar portions P1 and the first cleaning area Part between B111, and in first, the first active material layer 12 at non-cleaning area B12 is not eliminated.

According to takeup type battery core of the present utility model, in one embodiment, from inside to outside 1～10 circles of the first pole piece 1 In the first bending section B1 can be provided with the first cleaning area B11.Further, in from inside to outside 1～6 circles of the first pole piece 1 The first bending section B1 can be provided with the first cleaning area B11.Certainly, the above-mentioned number of turns can be according to the first pole of actual takeup type battery core The number of total coils of sheet 1 determines.

In one embodiment, may also include the first outer cleaning area B112 with reference to Fig. 1 and Fig. 3, the first cleaning area B11, formed In the outside of the first bending section B1, and the first active material layer 12 at the first outer cleaning area B112 is by partly or completely clear all.

In one embodiment, also can have with reference to Fig. 1, the first bending section B1: the first outer non-cleaning area B13, be positioned at first The outside of bending section B1 and be in the part between the first planar portions P1 and the first outer cleaning area B112, and the first outer non-cleaning area The first active material layer 12 at B13 is not eliminated.

In one embodiment, the width from the inner ring multiple first cleaning area B11 in outer ring of the first pole piece 1 can be identical Or it is different.Preferably, with reference to Fig. 1, Fig. 3, Fig. 4 and Fig. 6, the first pole piece 1 from inner ring multiple first cleaning in outer ring The width of district B11 can successively decrease successively.

Specifically, the first pole piece 1 from inner ring in outer ring multiple first in the width of cleaning area B111 can be successively Successively decrease, this be due to the first pole piece 1 bending time, the first pole piece 1 from inner ring in outer ring multiple first in cleaning area The radius of curvature of B111 becomes larger, and from inner ring in outer ring multiple first in the produced internal stress of cleaning area B111 Be gradually reduced, therefore the first pole piece 1 from inner ring in outer ring multiple first in the width of cleaning area B111 can suitably depend on Secondary successively decrease.

The width from the inner ring multiple first outer cleaning area B112 in outer ring of the first pole piece 1 can successively decrease successively.This is Owing to the first pole piece 1 is when bending, the curvature from the inner ring multiple first outer cleaning area B112 in outer ring of the first pole piece 1 half Footpath becomes larger, and is gradually reduced from the produced internal stress of the inner ring multiple first outer cleaning area B112 in outer ring, because of The width from the inner ring multiple first outer cleaning area B112 in outer ring of this first pole piece 1 can successively decrease the most successively.

In one embodiment, the degree of depth from the inner ring multiple first cleaning area B11 in outer ring of the first pole piece 1 can be identical Or it is different.Preferably, the degree of depth from the inner ring multiple first cleaning area B11 in outer ring of the first pole piece 1 can be successively decreased successively.? Here remarking additionally, the thickness of active material layer based on the first active material layer 12 employing is different with compacted density, the Width from the inner ring multiple first cleaning area B11 in outer ring and the degree of depth of one pole piece 1 can correspondingly adjust.Here supplement Illustrate, for arrange on the same first bending section B1 of the first pole piece 1 first in cleaning area B111 and first outer clear Wash district B112, due to the radius of curvature of the cleaning area B111 radius of curvature less than the first outer cleaning area B112 in first, thus ought When this first bending section B1 of the first pole piece 1 bends, in first, internal stress produced by the B111 of cleaning area is relatively big, therefore exists During design, the width of cleaning area B111 can be suitably larger than the width of the first outer cleaning area B112 in first.

In one embodiment, with reference to Fig. 1, Fig. 3, Fig. 4 and Fig. 6, the first pole piece 1 upon deployment, cleans in multiple first District B111 is spaced, and multiple first outer cleaning area B112 are spaced.

In one embodiment, with reference to Fig. 1 and Fig. 4, the second pole piece 2 comprises the steps that the second collector 21；And second active matter Matter layer 22, is coated on the surface of the second collector 21.Second pole piece 2 is formed with the second planar portions P2 in the often circle being wound into Have with the second bending section B2, the second bending section B2: the second cleaning area B21, from the flexural center of the second bending section B2 to both sides Extension forms, and the second cleaning area B21 includes being formed at cleaning area B211 in second inside the second bending section B2, and clear in second Wash the second active material layer 22 at district B211 by partly or completely clear all.Owing to the second bending section B2 of the second pole piece 2 has Second cleaning area B21, the second cleaning area B21 include being formed at cleaning area B211 in second inside the second bending section B2, and In two, the second active material layer 22 at the B211 of cleaning area is by partly or completely clear all, thus decreases the second active material layer 22 When the second pole piece 2 winds to the constraint of lateral bend in the second collector 21, and then solve takeup type battery core in winding and heat The breakage problem of the second pole piece 2 during pressure.Especially when the second collector 21 uses ultra-thin foil and has bigger compacting During density, based on arranging the second cleaning area B21 on the second bending section B2 of the second pole piece 2, substantially increase takeup type battery core Energy density.

In one embodiment, also can have with reference to Fig. 1 and Fig. 3, the second bending section B2: non-cleaning area B22 in second, be positioned at The inner side of the second bending section B2 and part between the B211 of cleaning area in being in the second planar portions P2 and second, and the most clear in second Wash the first active material layer 12 at district B22 not to be eliminated.

In one embodiment, the second bending section B2 in from inside to outside 1～10 circles of the second pole piece 2 can be provided with second Cleaning area B21.Further, it is clear that the second bending section B2 during from inside to outside 1～the 6 of the second pole piece 2 are enclosed can be provided with second Wash district B21.

In one embodiment, seeing figures.1.and.2, the second cleaning area B21 may also include the second outer cleaning area B212, is formed In the outside of the second bending section B2, the second active material layer 22 at the second outer cleaning area B212 is by partly or completely clear all.

In one embodiment, also can have with reference to Fig. 1, the second bending section B2: the second outer non-cleaning area B23, be positioned at second The outside of bending section B2 and be in the part between the second planar portions P2 and the second outer cleaning area B212, and the second outer non-cleaning area The first active material layer 12 at B23 is not eliminated.

In one embodiment, the width from the inner ring multiple second cleaning area B21 in outer ring of the second pole piece 2 can be identical Or it is different.Preferably, with reference to Fig. 2 and Fig. 5, the width from the inner ring multiple second cleaning area B21 in outer ring of the second pole piece 2 Can successively decrease successively.

Specifically, the second pole piece 2 from inner ring in outer ring multiple second in the width of cleaning area B211 can be successively Successively decrease.This be due to the second pole piece 2 bending time, the second pole piece 2 from inner ring in outer ring multiple second in cleaning area The radius of curvature of B211 becomes larger, and from inner ring in outer ring multiple second in the produced internal stress of cleaning area B211 Be gradually reduced, therefore the second pole piece 2 from inner ring in outer ring multiple second in the width of cleaning area B211 can suitably depend on Secondary successively decrease.

The width from the inner ring multiple second outer cleaning area B212 in outer ring of the second pole piece 2 can successively decrease successively.This is Owing to the second pole piece 2 is when bending, the curvature from the inner ring multiple second outer cleaning area B212 in outer ring of the second pole piece 2 half Footpath becomes larger, and is gradually reduced from the produced internal stress of the inner ring multiple second outer cleaning area B212 in outer ring, because of The width from the inner ring multiple second outer cleaning area B212 in outer ring of this second pole piece 2 can successively decrease the most successively.

In one embodiment, the degree of depth from the inner ring multiple second cleaning area B21 in outer ring of the second pole piece 2 can be identical Or it is different.Preferably, the degree of depth from the inner ring multiple second cleaning area B21 in outer ring of the second pole piece 2 is successively decreased successively.At this In remark additionally, the thickness of active material layer used based on the second active material layer 22 is different with compacted density, second Width from the inner ring multiple second cleaning area B21 in outer ring and the degree of depth of pole piece 2 can correspondingly adjust.

Here remark additionally, for arrange on the same second bending section B2 of the second pole piece 2 second in clear Wash district B211 and the second outer cleaning area B212, due in second the radius of curvature of cleaning area B211 less than the second outer cleaning area B212 Radius of curvature, thus when the second pole piece 2 this second bending section B2 bending time, in second produced by the B211 of cleaning area Internal stress is relatively big, and therefore when design, the width of cleaning area B211 can be suitably larger than the width of the second outer cleaning area B212 in second Degree.

In one embodiment, with reference to Fig. 1, Fig. 2, Fig. 4 and Fig. 5, the second pole piece 2 upon deployment, cleaning area in multiple second B211 is spaced, and multiple second outer cleaning area B212 are spaced.

In one embodiment, the first active material layer 12 at the first cleaning area B11 of the first bending section B1 passes through laser Cleaning technique is by partly or completely clear all.

In one embodiment, the second active material layer 22 at the second cleaning area B21 of the second bending section B2 passes through laser Cleaning technique is by partly or completely clear all.

In one embodiment, with reference to Fig. 7, the first cleaning area B11 (cleaning area B111 and/or the first outer cleaning area in first B112) shape can be rectangle, and the width of a length of first pole piece 1 of the first cleaning area B11.

In one embodiment, with reference to Fig. 8, in first, cleaning area B111 and the first outer cleaning area B112 can be formed with multiple points The pit dissipated.

In one embodiment, the shape of the second cleaning area B21 (cleaning area B211 and/or the second outer cleaning area B212 in second) Shape can be rectangle, and the width of a length of second pole piece 2 of the second cleaning area B21.

In one embodiment, cleaning area B211 and the second outer cleaning area B212 is formed with multiple scattered pit in second.

In one embodiment, referring to figs. 1 through Fig. 8, takeup type battery core may also include that the first lug 4, is electrically connected to first flat The first collector 11 at face P1；And second lug 5, it is electrically connected to the second collector 21 at the second planar portions P2.

In one embodiment, with reference to Fig. 1 and Fig. 4, the at the first planar portions P1 in the often circle that the first pole piece 1 is wound into One collector 11 correspondence is electrically connected to first lug 4, at the second planar portions P2 in the often circle that the second pole piece 2 is wound into Second collector 21 correspondence is electrically connected to second lug 5.

In one embodiment, all of first lug 4 and the second lug 5 are respectively positioned on thickness direction same of takeup type battery core Side.

The first collection in one embodiment, in all circles that the first pole piece 1 is wound into, at only one the first planar portions P1 Fluid 11 correspondence is electrically connected to first lug 4.In all circles that the second pole piece 2 is wound into, only one the second planar portions The second collector 21 correspondence at P2 is electrically connected to second lug 5.

In one embodiment, with reference to Fig. 8, the first lug 4 can be formed by the first direct cross cutting of collector 11, the second lug 5 Can be formed by the second direct cross cutting of collector 21.

In one embodiment, with reference to Fig. 1, Fig. 3, Fig. 4, Fig. 6 and Fig. 7, the first pole piece 1 is formed with the first lug and houses recessed Groove 13, houses the first lug 4.With reference to Fig. 1, Fig. 2, Fig. 4 and Fig. 5, the second pole piece 2 is formed with the second lug accommodating grooves 23, receives Hold the second lug 5.Wherein, all sides of the second lug accommodating grooves 33 can be that three bandings close openings at one side (with reference to Fig. 8), or the All sides of two lug accommodating grooves 33 can be closing both sides, both sides opening (i.e. through slot).Second lug accommodating grooves 23 also can be such as This.

In one embodiment, the first lug 4 is welded on the first collector 11, and the second lug 5 is welded in the second collector On 21.

According in takeup type battery core of the present utility model, the thickness of the first collector 11 is less than 13 μm, the first active matter The density of matter layer 12 is more than 3.3g/cm³。

According in takeup type battery core of the present utility model, the second active substance in the second active material layer 22 is selected from One or more in Delanium, native graphite, amorphous carbon, hard charcoal.

According in takeup type battery core of the present utility model, the first active substance in the first pole active material layer is selected from One or more in cobalt acid lithium, LiMn2O4, ternary material, LiFePO 4.

According in takeup type battery core of the present utility model, the material of isolating membrane 3 can be polypropylene or polyethylene.

According in takeup type battery core of the present utility model, the first pole piece 1 can be anode pole piece, and the second pole piece 2 is negative Pole pole piece, for plus plate current-collecting body, the second collector 21 is that negative current collector is (if the first collector 11 is aluminum to the first collector 11 Paper tinsel, the second collector 21 is Copper Foil), for positive electrode active material layer, the second active material layer 22 is negative to the first active material layer 12 Pole active material layer.Or, the first pole piece 1 can be cathode pole piece, and the second pole piece 2 is anode pole piece, and the first collector 11 is Negative current collector and the second collector 21 is negative current collector, the first active material layer 12 second is lived for negative electrode active material layer Property material layer 22 is positive electrode active material layer.

Claims (10)

1. a takeup type battery core, by the first pole piece (1), the second pole piece (2) and be arranged at the first pole piece (1) and the second pole piece (2) isolating membrane (3) winding between forms, and described first pole piece (1) includes the first collector (11) and is coated in the first afflux The first active material layer (12) on the surface of body (11), and the first pole piece (1) to be formed with first in the often circle being wound into flat Face (P1) and the first bending section (B1), it is characterised in that

First bending section (B1) has: the first cleaning area (B11), from the flexural center of the first bending section (B1) to both sides extension Becoming, the first cleaning area (B11) includes being formed at cleaning area (B111) in first inside the first bending section (B1), and clear in first Wash first active material layer (12) at district (B111) place by partly or completely clear all.

Takeup type battery core the most according to claim 1, it is characterised in that the first bending section (B1) also has: in first not Cleaning area (B12), is positioned at the inner side of the first bending section (B1) and is in the first planar portions (P1) and the first cleaning area (B111) Between part, and in first, first active material layer (12) at non-cleaning area (B12) place is not eliminated.

Takeup type battery core the most according to claim 1, it is characterised in that

First cleaning area (B11) also includes the first outer cleaning area (B112), is formed at the outside of the first bending section (B1), and first First active material layer (12) at outer cleaning area (B112) place is by partly or completely clear all.

Takeup type battery core the most according to claim 3, it is characterised in that

First bending section (B1) also has: the first outer non-cleaning area (B13), is positioned at the outside of the first bending section (B1) and is in the Part between one planar portions (P1) and the first outer cleaning area (B112), and first activity at the first outer non-cleaning area (B13) place Material layer (12) is not eliminated.

5. according to the takeup type battery core according to any one of claim 1-4, it is characterised in that

The width from the inner ring multiple first cleaning areas (B11) in outer ring of the first pole piece (1) successively decreases successively；And/or

The degree of depth from the inner ring multiple first cleaning areas (B11) in outer ring of the first pole piece (1) is successively decreased successively.

Takeup type battery core the most according to claim 1, it is characterised in that the second pole piece (2) including:

Second collector (21)；And

Second active material layer (22), is coated on the surface of the second collector (21)；

Second pole piece (2) is formed with the second planar portions (P2) and the second bending section (B2), the second bending in the often circle being wound into (B2) has in portion: the second cleaning area (B21), extends to both sides from the flexural center of the second bending section (B2) and forms, and second cleans District (B21) includes being formed at cleaning area (B211) in second inside the second bending section (B2), and cleaning area (B211) in second Second active material layer (22) at place is by partly or completely clear all.

Takeup type battery core the most according to claim 6, it is characterised in that the second bending section (B2) also has: in second not Cleaning area (B22), is positioned at the inner side of the second bending section (B2) and is in the second planar portions (P2) and the second cleaning area (B211) Between part, and in second, first active material layer (12) at non-cleaning area (B22) place is not eliminated.

Takeup type battery core the most according to claim 7, it is characterised in that

Second cleaning area (B21) also includes the second outer cleaning area (B212), is formed at the outside of the second bending section (B2), outside second Second active material layer (22) at cleaning area (B212) place is by partly or completely clear all.

Takeup type battery core the most according to claim 8, it is characterised in that the second bending section (B2) also has: outside second not Cleaning area (B23), is positioned at the outside of the second bending section (B2) and is in the second planar portions (P2) and the second outer cleaning area (B212) Between part, and first active material layer (12) at the second outer non-cleaning area (B23) place is not eliminated.

10. according to the takeup type battery core according to any one of claim 6-9, it is characterised in that

The width from the inner ring multiple second cleaning areas (B21) in outer ring of the second pole piece (2) successively decreases successively；And/or

The degree of depth from the inner ring multiple second cleaning areas (B21) in outer ring of the second pole piece (2) is successively decreased successively.