CN206322808U - Ultrathin secondary cell battery core - Google Patents

Abstract

The utility model discloses a kind of ultrathin secondary cell battery core, it is the flat battery core that winding is sequentially stacked by the first pole piece, the first barrier film, the second pole piece, the second barrier film, it is in winding, strictly control the winding starting point of the position at each layer of place, make the inside of battery core without blank coil membrane layer, so as to reduce the thickness of battery core, the energy density of secondary cell is improved.In addition, using the barrier film of superthin structure, the first pole piece and the second pole piece structure, also rolling and being provided the foundation for ultra-thin finished product for battery battery core.

Description

Ultrathin secondary cell battery core

Technical field

The utility model is related to field of batteries technology, refers in particular to a kind of ultrathin secondary cell battery core.

Background technology

Wide variety of secondary cell, is all made up of the battery core and shell of secondary cell in the market.Wherein, battery core is Active component, typically by anode pole piece, cathode pole piece and the barrier film being arranged between anode pole piece and cathode pole piece stacking or Person's winding is formed.Positive plate includes plus plate current-collecting body and is coated in the positive active material on plus plate current-collecting body surface；Negative plate bag Include negative current collector and be coated in the negative electrode active material on negative current collector surface.

With the further development of commercial cells, market to the requirement more and more higher of secondary cell energy density (ED), At present in traditional winding method, the set location of lug is core shift structure, pole piece and membrane winding into flat battery core, every Need sky around half cycle from film initiating terminal, form the barrier film of two layers of blank coil, not only cause the waste of barrier film, and cause isolation Film is overlapping in a thickness direction with positive pole ear, negative lug, therefore increases the thickness of battery core so as to which the energy for reducing battery core is close Degree.In consideration of it, special propose the application.

Utility model content

In view of this, in view of the existing deficiencies of the prior art, its main purpose is to provide a kind of ultrathin type to the utility model Secondary cell battery core.

To achieve the above object, the utility model is using following technical scheme：

A kind of ultrathin secondary cell battery core, is folded successively by the first pole piece, the first barrier film, the second pole piece, the second barrier film Put the flat battery core of winding；

First barrier film and the second barrier film are ultrathin multilayer shut-off micropore polyolefin barrier diaphragm, including positioned at middle part Microporous polyethylene layer, the microporous polypropylene layer positioned at microporous polyethylene layer two sides, positioned at the ceramics of microporous polypropylene layer lateral surface Layer；

First pole piece is anode composite piece, includes the first nylon layer of the first barrier film of contact, the table of the first nylon layer Face is provided with positive collector, and the surface of positive collector is provided with positive pole diaphragm；

Second pole piece is composite negative plate, includes the second nylon layer of the first barrier film of contact, the table of the second nylon layer Face is provided with negative collector, and the surface for bearing collector is provided with cathode membrane；

The center line of the flat battery core in the direction of the width is battery core center line N, and the winding initiating terminal of the first pole piece is First initiating terminal, the first initiating terminal connects the first lug, and the site that the first pole piece is bent for the first time is the first turning point；Institute The initiating terminal for stating the first barrier film is the first barrier film head；The second pole piece coiling initiating terminal is the second initiating terminal, the second starting The second lug of end connection, the site that the second pole piece is bent for the first time is the second turning point；The initiating terminal of second barrier film For the second barrier film head；

First lug is located at the battery core center line N left and right sides and misaligned, first initiating terminal with the second lug Positioned at battery core center line N left side；The first barrier film head, the second barrier film head end and the second initiating terminal are respectively positioned on battery core center line N Right side, the second barrier film head end is concordant with the second initiating terminal, and the first barrier film head extends to battery core center line N right side, and The second barrier film head end and the second initiating terminal are coated after turnover；First turning point is respectively positioned on battery core center line with the second turning point N the same side.

As a kind of preferred scheme, the gross thickness of the multilayer shut-off micropore polyolefin barrier diaphragm is 4~20 μm.

As a kind of preferred scheme, the microporous polyethylene thickness degree of first barrier film and the second barrier film is 1.5~6 μm.

As a kind of preferred scheme, the microporous polypropylene layer thickness of first barrier film and the second barrier film is 1~4 μm.

As a kind of preferred scheme, the positive collector of first pole piece is provided with the first lug, the first lug and Zheng Ji Fluid is structure as a whole；The negative collector of second pole piece is provided with the second lug, and the second lug is integrated with negative collector Structure.

As a kind of preferred scheme, first lug is aluminium foil strip, and the second lug is nickel foil band.

As a kind of preferred scheme, the 2nd PP around the first PP layers, the cathode membrane around the positive pole diaphragm Layer.

The utility model has clear advantage and beneficial effect compared with prior art, specifically, by above-mentioned technology Scheme understand, this secondary cell battery core be by the first pole piece, the first barrier film, the second pole piece, the second barrier film be sequentially stacked winding and Into flat battery core, it strictly controls the winding starting point of the position at each layer of place in winding, make the inside of battery core without Blank coil membrane layer is needed, so as to reduce the thickness of battery core, the energy density of secondary cell is improved.In addition, using superthin structure Barrier film, the first pole piece and the second pole piece structure, also roll and provided the foundation for ultra-thin finished product for battery battery core.

More clearly to illustrate architectural feature of the present utility model and effect, come below in conjunction with the accompanying drawings with specific embodiment pair The utility model is described in detail.

Brief description of the drawings

Fig. 1 is the schematic perspective view of the battery core of the embodiment of the utility model.

Fig. 2 is the interior roll of the battery core of the embodiment of the utility model around structure chart.

Fig. 3 is the layer structure figure of the barrier film of the first barrier film/second of the embodiment of the utility model.

Fig. 4 is the first pole piece of the embodiment of the utility model and the layer structure figure of the second pole piece.

Fig. 5 is the first lug schematic diagram of the embodiment of the utility model.

Fig. 6 is the first lug schematic diagram of the embodiment of the utility model.

Accompanying drawing identifier declaration：

10th, the first pole piece 11, the first initiating terminal

12nd, the first turning point 13, the first nylon layer

14th, positive collector 15, positive pole diaphragm

16th, the first PP layers

20th, the first barrier film 21, the first barrier film head

22nd, microporous polyethylene layer 23, microporous polypropylene layer

24th, ceramic layer 30, the second pole piece

31st, the second initiating terminal 32, the second turning point

33rd, the second nylon layer 34, negative collector

35th, PP layers of cathode membrane the 36, the 2nd

40th, the second barrier film

41st, the second barrier film head 50, the first lug

60th, the second lug.

Embodiment

It refer to shown in Fig. 1 to Fig. 6, be a kind of that show the concrete structure of the preferred embodiment of the utility model Ultrathin secondary cell battery core, is to be sequentially stacked volume by the first pole piece 10, the first barrier film 20, the second pole piece 30, the second barrier film 40 Around flat battery core.

Wherein, as shown in Fig. 2 the center line of the flat battery core in the direction of the width is battery core center line N, the first pole piece 10 winding initiating terminal is the first initiating terminal 11, and the first initiating terminal 11 connects the first lug 50, and the first pole piece 10 occurs for the first time The site of bending is the first turning point 12；The initiating terminal of first barrier film 20 is the first barrier film head 21；Second pole piece 30 winding initiating terminals are the second initiating terminal 31, and the second initiating terminal 31 connects the second lug 60, and the second pole piece 30 occurs curved for the first time The site of folding is the second turning point 32；The initiating terminal of second barrier film 40 is the second barrier film head 41.

First lug 50 is located at the battery core center line N left and right sides and misaligned, the first with the second lug 60 Top 11 is located at battery core center line N left side；The first barrier film head 21, the second barrier film head 41 and the equal position of the second initiating terminal 31 In battery core center line N right side, the second barrier film head 41 is concordant with the second initiating terminal 31, and the first barrier film head 21 extends to battery core The second barrier film head 41 and the second initiating terminal 31 are coated behind center line N right side, and turnover；First turning point 12 and Two turning points 32 are respectively positioned on battery core center line N the same side.So, the inside of battery core is without blank coil membrane layer, so as to reduce electricity The thickness of core, improves the energy density of secondary cell.

As shown in figure 3, the barrier film 40 of the first barrier film 20 and second is ultrathin multilayer shut-off micropore polyolefin barrier diaphragm, Including the microporous polyethylene layer 22 positioned at middle part, the microporous polypropylene layer 23 positioned at 22 two sides of microporous polyethylene layer, positioned at micropore The ceramic layer 24 of the lateral surface of polypropylene layer 23.In the present embodiment, the gross thickness of multilayer shut-off micropore polyolefin barrier diaphragm for 4~ 20μm.Microporous polyethylene 22 thickness of layer of the barrier film 40 of first barrier film 20 and second are 1.5~6 μm.First barrier film 20 The thickness of microporous polypropylene layer 23 with the second barrier film 40 is 1~4 μm.So as to which the thickness of the first barrier film 20 and the second barrier film 40 is non- It is often thin, provide basis for the making of ultra-thin battery core.

As shown in figure 4, first pole piece 10 is anode composite piece, include the first nylon layer of the first barrier film 20 of contact 13, the surface of the first nylon layer 13 is provided with positive collector 14, and the surface of positive collector 14 is provided with positive pole diaphragm 15.Second pole Piece 30 is composite negative plate, includes the second nylon layer 33 of the first barrier film 20 of contact, the surface of the second nylon layer 33 is provided with negative collection Fluid 34, the surface for bearing collector 34 is provided with cathode membrane 35.First PP layers 16, the negative pole around the positive pole diaphragm 15 2nd PP layers 36 around diaphragm 35.As shown in figure 5, the positive collector 14 of first pole piece 10 is provided with the first lug 50, First lug 50 is structure as a whole with positive collector 14；As shown in fig. 6, the negative collector 34 of second pole piece 30 is provided with the Two lugs 60, the second lug 60 is structure as a whole with negative collector 34.In the present embodiment, first lug 50 is aluminium foil strip, Second lug 60 is nickel foil band.This structure design make it that battery core has certain flexibility, battery core is realized length and width 0-180 ° of bending and folding on direction are spent, is easy to the installation forming in battery case.

The above, is only preferred embodiment of the present utility model, and not technical scope of the present utility model is made Any limitation, therefore every any trickle amendment made according to technical spirit of the present utility model to above example, equivalent change Change with modification, in the range of still falling within technical solutions of the utility model.

Claims (7)

1. a kind of ultrathin secondary cell battery core, is by the first pole piece（10）, the first barrier film（20）, the second pole piece（30）, second Barrier film（40）It is sequentially stacked the flat battery core of winding；It is characterized in that：

First barrier film（20）With the second barrier film（40）Ultrathin multilayer shut-off micropore polyolefin barrier diaphragm is, including in The microporous polyethylene layer in portion（22）, the microporous polypropylene layer positioned at microporous polyethylene layer two sides（23）, positioned at microporous polypropylene layer The ceramic layer of lateral surface（24）；

First pole piece（10）For anode composite piece, include the first nylon layer of the first barrier film of contact（13）, the first nylon layer Surface be provided with positive collector（14）, the surface of positive collector is provided with positive pole diaphragm（15）；

Second pole piece（30）For composite negative plate, include the second nylon layer of the first barrier film of contact（33）, the second nylon layer Surface be provided with negative collector（34）, the surface for bearing collector is provided with cathode membrane（35）；

The center line of the flat battery core in the direction of the width is battery core center line N, the first pole piece（10）Winding initiating terminal be First initiating terminal（11）, the first initiating terminal the first lug of connection（50）, the site that the first pole piece is bent for the first time is first Turning point（12）；The second pole piece coiling initiating terminal is the second initiating terminal（31）, the second initiating terminal the second lug of connection（60）, The site that second pole piece is bent for the first time is the second turning point（32）；The initiating terminal of first barrier film is the first diaphragm heads Portion（21）；Second barrier film（40）Initiating terminal be the second barrier film head（41）；

First lug is located at the battery core center line N left and right sides and misaligned, first initiating terminal with the second lug（11） Positioned at battery core center line N left side；The first barrier film head（21）, the second barrier film head（41）With the second initiating terminal（31）Equal position In battery core center line N right side, the second barrier film head is concordant with the second initiating terminal, the first barrier film head（21）Extend in battery core The second barrier film head and the second initiating terminal are coated behind line N right side, and turnover；First turning point（12）With second turn At folding（32）It is respectively positioned on battery core center line N the same side.

2. ultrathin secondary cell battery core according to claim 1, it is characterised in that：The multilayer turns off micropore polyolefin The gross thickness of barrier film is 4~20 μm.

3. ultrathin secondary cell battery core according to claim 2, it is characterised in that：First barrier film and the second barrier film Microporous polyethylene layer（22）Thickness is 1.5~6 μm.

4. ultrathin secondary cell battery core according to claim 2, it is characterised in that：First barrier film and the second barrier film Microporous polypropylene layer（23）Thickness is 1~4 μm.

5. ultrathin secondary cell battery core according to claim 1, it is characterised in that：The positive collector of first pole piece （14）It is provided with the first lug（50）, the first lug is structure as a whole with positive collector；Second pole piece（30）Negative afflux Body（34）It is provided with the second lug（60）, the second lug is structure as a whole with negative collector.

6. ultrathin secondary cell battery core according to claim 5, it is characterised in that：First lug（50）For aluminium foil Band, the second lug（60）For nickel foil band.

7. ultrathin secondary cell battery core according to claim 1, it is characterised in that：The positive pole diaphragm（15）Around First PP layers（16）, the cathode membrane（35）Around the 2nd PP layers（36）.