CN1713439A - Secondary battery - Google Patents

Abstract

A secondary battery includes an electrode assembly with a positive electrode, a negative electrode and a separator disposed between the positive and the negative electrodes, and a case in which the electrode assembly is mounted. At least one of the positive and the negative electrodes has a leading edge with a rigidity reinforcing member.

Description

Secondary cell

Technical field

The present invention relates to secondary cell, particularly relate to the electrode assemblie that is used for secondary cell.

Background technology

Based on rechargeable mechanism, secondary cell is different from the primary cell of chemical energy to the electric energy irreversible transformation.Secondary cell is divided into low-capacity batteries and high-capacity battery.Wherein low-capacity batteries is assembled into packet form with single battery cell; And high-capacity battery is assembled into battery pack with a plurality of battery cells.Low-capacity batteries is as for example power supply of the miniaturized electronics of portable phone, laptop computer and field camera and so on; And high-capacity battery can be used as the power supply of drive motor in hybrid electric vehicle etc.

Secondary cell can form multiple shape, and is for example cylindrical and prismatic.The electrode assemblie that is inserted with insulating barrier between banded positive pole and negative pole is installed in the housing, and cap assemblies is mounted to this housing.

By on collector, being coated with active material to form positive pole and negative pole respectively.According to be with or without the coating active material on collector body, the zone that scribbles active material is called " coating area "; And the zone that does not have active material is called " no coating area ".

Positive pole, dividing plate and negative pole are wound into film (jelly roll) shape (under the situation of cylindrical battery), or recompress (under the situation of prismatic battery) after being wound into the film shape.

When preparing electrode assemblie with the manufacturing secondary cell, anodal and negative pole is also reeled with the dividing plate lamination.Along with the coiling of electrode assemblie, its part that begins to reel is most wrinkled, and makes defective final products.

The generation of this problem is because the positive pole and the negative pole of electrode assemblie forms with thin plate, its rigidity a little less than.

When making the electrode assemblie defectiveness of manufacturing owing to the problems referred to above, collector is also defectiveness inevitably, and the product reliability of secondary cell also will worsen.

Particularly occur in when requiring in the high-power secondary cell that is used for drive motor when the problems referred to above, be difficult to power supply, and serious equipment failure can take place in the equipment that this battery is installed as drive motor with such battery.

Summary of the invention

According to the present invention, a kind of secondary cell with high-quality electrode assemblie is provided, this electrode assemblie has by the electrode of intact coiling.

According to an aspect of the present invention, a kind of secondary cell, comprise have positive pole, negative pole and place the electrode assemblie of the dividing plate between the both positive and negative polarity and the housing of this electrode assemblie of packing into therein.At least in the positive and negative electrode has the front end that has the rigidity reinforcement.

This electrode assemblie forms the film shape.

The active material layer that this electrode has collector and forms on collector.This collector has active material zone that has active material and the inert matter zone that does not have active material.

This inert matter zone forms in the one-sided periphery of collector along the length of collector.

This rigidity reinforcement forms on this active material layer.

This rigidity reinforcement can form on the collector of active material not having.

This rigidity reinforcement is extensible on this active material layer.

This active material layer is placed on the single side surface of collector, and the rigidity reinforcement does not have at collector to form on the opposite side surface of active material layer.

The rigidity reinforcement be form at electrode respectively and be attached to film on this electrode.

This film only is placed on the single side surface of collector.

This film can be placed on the double-sided surface of collector, and the while is round the front end of collector.

This film is selected from polyester, polyimides, polythiaether, glass fibre, vinyl chloride and synthetic fibers.

The width that is placed on the film on this collection liquid surface is 2～15cm.

This film by adhesive attachment to electrode.

Collector is overlapping to be formed this rigidity reinforcement by making.

This rigidity reinforcement can form corresponding to the thickness of the part of the electrode front end thickness greater than other parts of electrode by making collector.

This rigidity reinforcement can be constructed formation greater than the thickness of the active material layer that forms by the thickness that makes the active material layer that forms on corresponding to the electrode fore-end at collector on other parts of collector.

According to a further aspect in the invention, secondary cell comprise have positive pole, negative pole and place the electrode assemblie of the dividing plate between the both positive and negative polarity and the housing of this electrode assemblie of packing into therein.At least one in anodal and the negative pole has the thickness front end different with the thickness of these other parts of electrode.

The thickness setting of this electrode front end is the thickness greater than these other parts of electrode.

Description of drawings

Fig. 1 is the sectional view according to the secondary cell of first embodiment of the invention.

Fig. 2 is the decomposition diagram that is used for according to the electrode assemblie of the secondary cell of first embodiment of the invention.

Fig. 3 A is the partial plan that is used for according to the positive pole of the secondary cell of first embodiment of the invention.

Fig. 3 B is the partial plan that is used for according to the negative pole of the secondary cell of first embodiment of the invention.

Fig. 4 A, 4B, 4C and 4D explanation are used for the rigidity reinforcement according to the secondary cell of first embodiment of the invention.

Fig. 5 A, 5B and 5C explanation are used for the rigidity reinforcement according to the secondary cell of second embodiment of the invention.

Fig. 6 A, 6B and 6C explanation are used for the rigidity reinforcement according to the secondary cell of third embodiment of the invention.

Fig. 7 A and 7B explanation are used for the rigidity reinforcement according to the secondary cell of fourth embodiment of the invention.

Embodiment

Fig. 1 is the sectional view according to the secondary cell of first embodiment of the invention.With reference now to Fig. 1, the secondary cell according to first embodiment of the invention is described.

According to the secondary cell of first embodiment, electrode assemblie 10 is by being inserted into insulating barrier 13 between positive and negative pole plate 11 and 12, and reels and form.This electrode assemblie 10 is encased in this housing by the opening portion on cylindrical or prismatic housing 20.The opening portion of housing 20 with cap assemblies 30 through packing ring 31 and sealed.

Housing 20 usefulness such as conductive metallic materials such as aluminium, aluminium alloy and nickel-plated steel form.Housing 20 forms the cylindrical shape of the inner space with installing electrodes assembly 10, but is not limited thereto.

Cap assemblies 30 comprises the cover plate 32 with outside terminal 32a, and is used to the packing ring 31 that makes housing 20 electrically isolate from cover plate 32.Cap assemblies 30 can further comprise the vent board 33 that has safety vent, and this safety vent can be destroyed under predetermined pressure, and the gas that will produce in housing 20 is discharged to the outside, thereby prevents that secondary cell from exploding.This safety vent is not limited to form on ventilation pressing plate 33, and its structure can change, as long as it makes electrode assemblie 10 electrically isolate from the outside terminal 32a of cap assemblies 30 under predetermined pressure.

Based on packing ring 31 seal casinghousings 20 of insulating material, and make cap assemblies 30 as negative electrode be electrically insulated from housing 20 as anode.

Cap assemblies 30 is electrically connected on electrode assemblie 10 by lead elements and production method thereof 35.

Describe according to the electrode assemblie of the secondary cell of the first embodiment of the present invention now being used for.

As shown in Figure 2, in electrode assemblie 10, dividing plate 13 is placed between positive and negative pole plate 11 and 12, and is wound on together spirally.Positive and negative electrode 11 and 12 has active material layer, and this active material layer forms by be coated with active material respectively on collector 11b and 12b.

This active material is not applied to outside collector 11b and 12b length one-sided and places.That is to say that the collector 11b of conduction and the periphery of 12b are exposed to the outside.

Explain for convenience, hereinafter the zone that has active material layer with positive and negative electrode 11 and 12 is called " active material zone " 11c and 12c, does not call " inert matter zone " 11a and 12a having active material layer, collector 11b and 12b to be exposed to outside zone.

Along with the formation of electrode assemblie 10, the inert matter zone 12a of anodal 11 inert matter zone 11a and negative pole 12 is respect to one another, is highlighted out with respect to dividing plate 13 simultaneously.

Plus plate current-collecting body 40 is soldered to anodal 11 inert matter zone 11a, and negative current collector 50 is soldered to the inert matter zone 12a of negative pole 12.Plus plate current-collecting body 40 is electrically connected on the vent board 33 of cap assemblies 30 by lead elements and production method thereof 35, and negative current collector 50 is soldered to the bottom of housing 20, is electrically connected on it simultaneously.

As shown in Figure 2, positive pole 11, negative pole 12 and dividing plate 13 are wound into the film form round core 14.At least in anodal and negative pole 11 and 12 one provides the rigidity reinforcement at its front end, makes the front end of this related electrode can center on core 14 and reels in good condition and gauffer does not take place.

In the present embodiment, this rigidity reinforcement forms on positive and negative electrode 11 and 12 respectively.The rigidity reinforcement is formed by the film 15 attached to the front end of positive and negative electrode 11 and 12 respectively.

The situation that Fig. 3 A explanation film 15 forms on anodal 11, the situation that Fig. 3 B explanation film 15 forms on negative pole 12.

In the present embodiment, film 15 is polyester, polyimides, polyphenylene sulfide, vinyl chloride or synthetic fibers, and is attached the front end in positive and negative electrode 11 and 12.

Fig. 4 A is attached state at the front end of positive and negative electrode 11 and 12 to 4D explanation when film 15.

Fig. 4 A is provided on the single side surface of positive and negative electrode 11 and 12 to the film shown in the 4D 15,15a, 15b and 15c, and is attached the front end in positive and negative electrode 11 and 12.

Fig. 4 A is placed on active material zone 11c and the 12c place on the single side surface of positive and negative electrode 11 and 12 to the film shown in the 4C 15,15a and 15b.

Film 15 can be set contact, shown in Fig. 4 A with active material layer; Perhaps film 15a can contact with 12b with the collector 11b that does not have active material layer, shown in Fig. 4 B.Perhaps, shown in Fig. 4 C, film 15b also can contact with the collector that does not have active material layer, and part extends on the active material layer simultaneously.

Simultaneously, film 15c can not have on the surface of another side of active material layer at positive and negative electrode 11 and 12.That is, shown in Fig. 4 D, film 15c can not have on the surface of the collector 11b of active material layer and 12b at positive and negative electrode 11 and 12.

Adhesive 16 is used for film 15,15a, 15b and 15c are attached to the front end of positive and negative electrode 11 and 12.This adhesive preferred not with positive and negative electrode 11 and 12 on active material and housing 20 in the electrolyte that is full of react.In the present embodiment, use the acrylic material as adhesive 16.

Film 15,15a, 15b and 15c have the width of 2～15cm.When the width of film during less than 2cm, than the whole area of positive and negative electrode 11 and 12, its area is too small, can not play the effect that strengthens positive and negative electrode 11 and 12 rigidity in the process of coiling positive and negative electrode 11 and 12.On the contrary, when the width of film during greater than 15cm, than the whole area of positive and negative electrode 11 and 12, its area is excessive, thereby the active material zone 11c and the 12c that are based upon on positive and negative electrode 11 and 12 are reduced, the capacity of electrode assemblie 10 and this secondary cell is reduced.

When film 15,15a, 15b and 15c are provided on positive and negative electrode 11 and 12 as the rigidity reinforcement, along with positive and negative electrode 11 and 12 is reeled around core 14, the front end that positive and negative electrode 11 and 12 rigidity strengthen can not wrinkled, thereby obtains high-quality electrode assemblie 10.

Fig. 5 A is to the secondary cell of 5C explanation according to second embodiment of the invention.

In this embodiment, form the rigidity reinforcement with the film 18 that is similar to those films that relate among first embodiment, 18a and 18b, and film 18,18a and 18b form in the both side surface of collector 11b and 12b, and they are just round the collector 11b of positive and negative electrode 11 and 12 and the front end of 12b like this.

Film 18,18a and 18b is similar to first embodiment attached to the method and structure on the positive and negative electrode 11 and 12, just no longer describe in detail here.

Fig. 6 A is to the secondary cell of 6C explanation according to third embodiment of the invention.By collector 11b and the overlapping rigidity reinforcement that forms of 12b that makes positive and negative electrode 11 and 12.

Particularly, form the rigidity reinforcement by the front end 110b of crooked collector 11b and 12b and the structure of 120b formation.

The amount of bent front ends 110b and 120b remains 2～15cm but be bent width partly without limits.

Fig. 6 A explanation be that front end 110b and 120b are bent to situation on the active material layer, Fig. 6 B explanation be that front end 110b and 120b are bent to situation about not having on the collector of active material layer 11b and the 12b.The situation of Fig. 6 C explanation is front end 110b and 120b to be bent to do not have to form active material layer again on front end 110b and 120b on the collector of active material layer 11b and the 12b.

In the present embodiment, the front end of collector 11b and 12b is bent, and positive and negative electrode 11 and 12 is just overlapped like this.In this way, positive and negative electrode 11 and 12 rigidity are enhanced.

Fig. 7 A and 7B explanation are according to the secondary cell of fourth embodiment of the invention.

In the present embodiment, the rigidity reinforcement is to constitute like this: collector 60a and 62a or active material layer 60b and 62b have the different thickness of part corresponding to positive and negative electrode 60 and 62 other parts with collector 60a and 62a or active material layer 60b and 62b corresponding to the part of positive and negative electrode 60 and 62 front ends.

That is to say, shown in Fig. 7 A, positive and negative electrode 60 and 62 rigidity reinforcement are configured to: collector 60a and 62a corresponding to the thickness t 1 of positive and negative electrode 60 and 62 fore-ends greater than collector 60a and 62a thickness t 2 corresponding to positive and negative electrode 60 and 62 other parts.

The ratio of t1 and t2 is set at 1.8: 1, and the active material layer 60b and the 62b that are painted on collector 60a and the 62a have homogeneous thickness t3 on collector 60a and the whole zone of 62a.

On the contrary, in the positive and negative electrode shown in Fig. 7 B 60 and 62, collector 60a and 62a have homogeneous thickness t4 in its whole zone, and are painted on active material layer 60b on collector 60a and the 62a and the thickness of 62b partly changes.

That is to say that the rigidity reinforcement is configured to: active material layer 60b and 62b are set at the thickness t 6 corresponding to the part of positive and negative electrode 60 and 62 other parts greater than active material layer 60b and 62b corresponding to the thickness t 5 of positive and negative electrode 60 and 62 fore-ends.

The ratio of t5 and t6 remained 1.8: 1, and the ratio of this thickness also to can be said to be active material layer 60b and 62b corresponding to the unit are coating of positive and negative electrode 60 and 62 fore-ends and active material layer 60b and the 62b ratio corresponding to the unit are coating of the part of positive and negative electrode 60 and 62 other parts.

In the present embodiment, for positive and negative electrode 60 and 62, be greater than corresponding to its collector of other parts or the thickness of active material layer segment corresponding to its collector of fore-end or the thickness setting of active material layer segment.Use this structure, when positive and negative electrode 60 and 62 is reeled, its coiling will not produce gauffer and intact carrying out, thereby form high-quality electrode assemblie.

More than explanation all forms the rigidity reinforcement on positive and negative electrode, yet structure of the present invention is not limited in this.That is, only form the rigidity reinforcement in positive and negative electrode.

As mentioned above, owing to form the rigidity reinforcement, can prevent that the front end of this electrode is distorted in the core winding process at electrode at the electrode front end.

Therefore, can form high-quality electrode assemblie, and strengthen the product reliability of secondary cell.

Can be used in the power supply that is used as drive motors in hybrid electric vehicle (HEV), electric motor car (HV), wireless dust collector, electric bicycle, the electronic motor scooter etc. effectively according to secondary cell of the present invention.

Though exemplary embodiment of the present invention is shown and describes, yet one skilled in the art should appreciate that, can change these embodiments under the situation that does not deviate from principle of the present invention and spirit, scope of the present invention limits in claim and of equal value replacement the thereof.

Claims (33)

1, a kind of secondary cell comprises:

Have positive pole, negative pole and place the electrode assemblie of the dividing plate between this positive pole and the negative pole; With

Pack into the therein housing of this electrode assemblie;

Wherein in the positive and negative electrode has the front end that has the rigidity reinforcement at least.

2, secondary cell as claimed in claim 1, wherein this electrode assemblie forms the film shape.

3, secondary cell as claimed in claim 1, wherein said electrode comprise collector and the active material layer that forms on this collector, this collector comprises active material zone that has active material and the inert matter zone that does not have active material.

4, secondary cell as claimed in claim 3, wherein this inert matter zone forms in the one-sided periphery of collector along the length of this collector.

5, secondary cell as claimed in claim 3, wherein this rigidity reinforcement forms on this active material layer.

6, secondary cell as claimed in claim 3, wherein this rigidity reinforcement forms on the collector of active material not having.

7, secondary cell as claimed in claim 6, wherein this rigidity reinforcement extends on this active material layer.

8, secondary cell as claimed in claim 3, wherein this active material layer is placed on the single side surface of this collector, and this rigidity reinforcement forms on the opposite side surface that does not have active material layer of collector.

9, secondary cell as claimed in claim 3, wherein this rigidity reinforcement be form at this electrode respectively and be attached to film on this electrode.

10, secondary cell as claimed in claim 9, wherein this film only is placed on the single side surface of collector.

11, secondary cell as claimed in claim 9, wherein this film is placed on the double-sided surface of collector, and the while is round the front end of collector.

12, secondary cell as claimed in claim 9, wherein this film is selected from the group of being made up of polyester, polyimides, polyphenylene sulfide, glass fibre, vinyl chloride and synthetic fibers.

13, secondary cell as claimed in claim 9, the width that wherein is placed on the film on the collection liquid surface is 2～15cm.

14, secondary cell as claimed in claim 9, wherein this film by adhesive attachment on electrode.

15, secondary cell as claimed in claim 3, wherein collector is overlapping to be formed this rigidity reinforcement by making.

16 secondary cells as claimed in claim 3, wherein this rigidity reinforcement forms corresponding to the thickness of the electrode fore-end thickness greater than other parts of electrode by making collector.

17, secondary cell as claimed in claim 3, wherein this rigidity reinforcement is constructed formation by making at the thickness of the active material layer that forms on the part of collector corresponding to the electrode front end greater than the thickness of the active material layer that forms on other parts of collector.

18, secondary cell as claimed in claim 1 has cylindrical shape.

19, secondary cell as claimed in claim 1 is the battery of drive motors type.

20, a kind of secondary cell comprises:

Have positive pole, negative pole and place the electrode assemblie of the dividing plate between the both positive and negative polarity; With

Pack into the therein housing of this electrode assemblie;

One in wherein anodal at least and the negative pole has the thickness front end different with the thickness of these other parts of electrode.

21, secondary cell as claimed in claim 20, wherein the thickness of this electrode front end is greater than the thickness of these other parts of electrode.

22, secondary cell as claimed in claim 20, wherein this electrode assemblie forms the film shape.

23, secondary cell as claimed in claim 20, wherein said electrode comprise collector and the active material layer that forms on collector, this collector comprises active material zone that has active material and the inert matter zone that does not have active material.

24, secondary cell as claimed in claim 23, wherein this inert matter zone forms in the one-sided periphery of collector along the length of collector.

25, secondary cell as claimed in claim 23, wherein collector is corresponding to the thickness of the electrode fore-end thickness greater than other parts of electrode.

26, secondary cell as claimed in claim 25, wherein collector is 1.8: 1 corresponding to the thickness of electrode fore-end and collector corresponding to the ratio of the thickness of the part of other parts of electrode.

27, secondary cell as claimed in claim 25, wherein this active material layer has homogeneous thickness in whole collector zone.

28, secondary cell as claimed in claim 23 is wherein at the thickness of the active material layer that forms on the part of collector corresponding to the electrode front end thickness greater than the active material layer that forms on other parts of this collector.

29, secondary cell as claimed in claim 28 is 1.8: 1 corresponding to the thickness of the active material layer of this electrode front end with ratio corresponding to the thickness of the active material layer of these other parts of electrode wherein.

30, secondary cell as claimed in claim 28 is 1.8: 1 corresponding to the unit are coating of the active material layer of this electrode front end with ratio corresponding to the unit are coating of the active material layer of other parts of electrode wherein.

31, secondary cell as claimed in claim 28, wherein this collector has homogeneous thickness on its whole collector zone.

32, secondary cell as claimed in claim 20 is a cylindrical shape.

33, secondary cell as claimed in claim 20 is the battery of drive motors type.

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