CN1368745A - Packaging method for electric accumulating unit of supercapacitance energy accumulator - Google Patents

Abstract

The invention relates to a method for encapsulating electric power storage unit of accumulator system of super capacitance energy. In the process of piling up pieces of electrodes, an electrolyte is filled so as to eliminate the step to seal and fill end port, thus increase the production efficiency. The manufacturing procedure is as follows: Annular glue wall is coated on the periphery of upper surface of the first pieces of electrodes, then the electrolyte is filled into the said electrodes surrounded by the annular glue wall. Second pieces of electrodes are put on the upperside of the first pieces of electrodes. Then, heating makes the annular glue wall become soft and melt to glue first and second pieces of electrode as well as the annular glue wall, and thus also seal the electrolyte between first and second pieces of electrodes.

Description

The method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device

The present invention relates to a kind of method for packing of energy accumulating device, particularly relate to the method for packing of the electricity accumulating unit of a kind of electrochemical capacitance (Ultracapacitor) energy accumulating device.

Battery is the supply unit that certain form energy directly is converted to electric energy without the intermediate mechanical transfer process.Electric capacity is the electronic component of store charge.Generally speaking, the storage power height of battery but power output is low, the power output height and the storage power of electric capacity is low.Therefore battery is regarded as a kind of " energy storage device " of electric energy, and electric capacity then is " power storage ", is used by people on each comfortable different purposes.

Along with the 3C arriving in (computer, communication and consumption electronic products) epoch, multi-functional, high efficiency, short and small frivolous electronic product are seen everywhere in daily life, for example: notebook computer, mobile phone, walkman.For satisfying electronic product portability and the long-time requirement of using, sufficient Portable energy supply promptly becomes critical problem, but the combination of traditional battery and electric capacity obviously can't meet the demands.So a kind of new energy accumulating device---electrochemical capacitance (Ultracapcitor) therefore arises.

Traditional capacitor is to be sandwiched in the effect that reaches separation between two conductors with insulating material (insulating material) or dielectric (dielectric), and its capacitive phenomena produces the separation of charge of conductive surface.

The material that the electrochemical capacitance energy accumulating device adopts " electrification is double-deck " (electrochemical doublelayer is called for short EDLC) then not to be had to separate is set up dielectric layer, and its charging is to occur in double-deck interface (interface) of electrification with store energy.Electrochemical capacitance can reach far above the energy density of traditional capacitance technology (energy density), and the power density of superelevation (powerdensity).Compared to traditional battery, it can disengage hundred times of power to battery, stores the electric energy more than 20 times.

At present, the electrochemical capacitance energy accumulating device successfully enters commodity application in a small amount by the experimental stage, and its product is used also by defence satellite and military special purpose, and the product of the automobile of marching toward gradually, mechanotronics and communication electronic industry.

Please refer to Figure 1A and Figure 1B, it has expressed the structure and the method for making thereof of known electrochemical capacitance energy accumulating device.

No. the 5384685th, 5464453,5711988,5800857,5821033,5825610, United States Patent (USP), and the method that proposed for the 283273rd, No. 284921 of Taiwan patent announcement, be between two electrode slices 11, to insert and put two gaskets (gasket) 12, insert and put a stick 13 therebetween simultaneously, and form a stacked structure 10.Gasket is to adopt polymer colloid to make film forming, extracts required form again and forms.Wherein can be formed with suitable micro-protuberance 17 on the high surface coating 16 of electrode slice 11 inner faces to help to support and insulate this two electrode slice 11.

Then, heating makes two gaskets, 12 soft heats (reflow) and makes two electrode slices 11 and two gaskets 12 bonding, and in the stacked structure 10 inner spaces 15 that form sealing.

The stick 13 of extracting out to the room temperature to be cooled promptly forms a fill port 14 in stacked structure 10 sides, again electrolyte is inserted the space 15 of these stacked structure 10 inside by this fill port 14, afterwards fill port 14 sealings is promptly finished the encapsulation of an electricity accumulating unit.

Yet, the method for packing of above-mentioned electricity accumulating unit must earlier be made film forming with polymer colloid and extract required form and form gasket, just can finish the stacked structure and the fill port of electricity accumulating unit, and then filling electrolyte and sealing fill port, manufacturing process is too loaded down with trivial details and be not suitable for a large amount of productions.Therefore still having needs to propose a kind of new method for packing, to solve existing above-mentioned shortcoming in the prior art.

In view of this, the object of the present invention is to provide the method for packing that a kind of manufacturing process is simple, be suitable for the electricity accumulating unit of mass-produced electrochemical capacitance energy accumulating device, to reduce production costs.

Above-mentioned purpose of the present invention is achieved in that a kind of method for packing of electricity accumulating unit of electrochemical capacitance energy accumulating device, be directly in the process that electrode slice piles up, to fill in electrolyte, omitted electrode slice and scraped limit, macromolecule glue system film, extract required form etc. and form step with the sealing fill port, thereby can effectively simplify manufacturing process, enhance productivity and reduce cost.

Method for packing of the present invention comprises the following step:

Coating Jiao Qiang: around the upper surface of first electrode slice, be coated with a ring-type Jiao Qiang;

Fill in electrolyte: the upper surface of filling in first electrode slice that electrolyte surrounded in ring-type glue wall;

Stacked electrodes sheet: second electrode slice is stacked on first electrode slice;

Soft heat Jiao Qiang: heating soft heat ring-type Jiao Qiang, in order to first electrode slice that bonds, second electrode slice and ring-type Jiao Qiang, and hermetic electrolyte liquid is between first electrode slice and this second electrode slice.

Ring-type Jiao Qiang is by electrode slice being had good adherence and the acid proof material of tool is constituted, and for example: the resin of a kind of thermoplasticity (therma1 plastic) can be heated polymerization again after the soft heat.

The lower surface of second electrode slice also can form the second ring-type Jiao Qiang, and the first ring-type Jiao Qiang of the upper surface of corresponding first electrode slice can heat the soft heat first ring-type Jiao Qiang and the second ring-type Jiao Qiang simultaneously with hermetic electrolyte liquid, and make electricity accumulating unit have more sealing.

Can be in coating glue wall step quicken the polymerization of ring-type Jiao Qiang in modes such as hot blast or infrared ray heating, ultraviolet ray, radiation.

The heating source of soft heat glue wall step can be ultrasonic wave, hot blast or infrared ray.

Also the supporting construction of spacer as electricity accumulating unit can be set at the upper surface of first electrode slice, contact with each other because of flexural deformation in order to avoid this two electrode slice.Spacer need possess characteristics such as porous, acidproof, thin thickness, can be glass fiber sheets.

Below in conjunction with accompanying drawing shown in the embodiment, purpose of the present invention, structural feature and function thereof are described in further detail.

Figure 1A is the preceding stacked structure three-dimensional exploded view of electricity accumulating unit encapsulation of known a kind of electrochemical capacitance energy accumulating device;

Figure 1B is the stacked structure of the electricity accumulating unit of known a kind of electrochemical capacitance energy accumulating device, and its side is formed with a fill port;

Fig. 2 A～Fig. 2 B is that wherein Fig. 2 B is the cutaway view of a-a ' position among Fig. 2 A according to a kind of printing anchor clamps in the embodiments of the invention;

Fig. 3 A～Fig. 3 B is according in the embodiments of the invention, and an electrode slice is placed this printing anchor clamps, and wherein Fig. 3 B is the cutaway view of b-b ' position among Fig. 3 A;

Fig. 4 is according in the embodiments of the invention, prints coating resin glue in the screen painting mode on this electrode slice;

Fig. 5 A～Fig. 5 D is according in the embodiments of the invention, forms a ring-type Jiao Qiang on this electrode slice, and wherein Fig. 5 B is the cutaway view of c-c ' position among Fig. 5 A, and Fig. 5 D is the cutaway view of d-d ' position among Fig. 5 C;

Fig. 6 is according in the embodiments of the invention, the three-dimensional exploded view of the electricity accumulating unit stacked structure on a ultrasonic wave heated jig;

Fig. 7 is according in the embodiments of the invention, with a ultrasonic wave heater, to the regional heating of ring-type Jiao Qiang do of this electricity accumulating unit stacked structure;

Fig. 8 is according in the embodiments of the invention, the generalized section of this electricity accumulating unit of one of encapsulation of finishing after this ring-type glue wall soft heat.

The preferred embodiment of one of the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device disclosed according to the present invention is described as follows.

Shown in Fig. 2 A and Fig. 2 B, printing anchor clamps 20 are provided, these printing anchor clamps 20 comprise: end face 21, storage tank 22, the bottom of storage tank 22 then form in order to the vacuum that pull of vacuum is provided inhales hole 23.

Shown in Fig. 3 A and Fig. 3 B, first electrode slice 30 is placed in the storage tank 22 of printing anchor clamps 20, first electrode slice 30 is for example: be the thickness thin square electrode sheet of several mil (1 mil=0.00254cm) only, its length of side can be several centimeters to tens of centimetres, and its shape and size be not as limit certainly.

The shape of storage tank 22, size are to cooperate this first electrode slice 30 and design with the degree of depth, just can hold first electrode slice 30, and make the upper surface 31 of first electrode slice 30 rough and to print anchor clamps end face 21 contour.

After first electrode slice 30 was inserted this storage tank 22, vacuum is inhaled hole 23 promptly provided pull of vacuum that 30 absorption of first electrode slice are fixed in the storage tank 22, in order to the carrying out of print steps.

Then, screen painting mode that can be as shown in Figure 4, the half tone 40 and a scraper 41 of patterning are coated this electrode slice 30 upper surfaces 31 with resin glue 42 in advance to utilize one, wherein resin glue 42, be preferably a kind of acidproof, to this electrode slice tool good adhesion, and at-50 ℃～75 ℃ temperature range stable in properties and good thermoplasticity (thermal plastic) resin material of sealing.This resin glue 42 also can be heated to a high temperature, and for example 150 ℃, and become liquid state or semisolid and polymerization again by soft heat.

Shown in Fig. 5 A, Fig. 5 B, Fig. 5 C and Fig. 5 D, form the first ring-type glue wall 32 around first electrode slice, 30 upper surfaces 31, it highly can be several mil.

As shown in Figure 6, first electrode slice 30 that forms the first ring-type glue wall 32 is placed ultrasonic wave anchor clamps 45.Then, fill in the upper surface of first electrode slice 30 that electrolyte 33 surrounded in the first ring-type glue wall 32.One second electrode slice 35 is stacked on first electrode slice 30, common second electrode slice 35 is and identical structure and the size of first electrode slice, 30 tools again.Comparatively it is desirable to, second electrode slice 35 is formed with the second ring-type glue wall 36 of the corresponding first ring-type glue wall 32 towards the lower surface of first electrode slice 30, the generation type of the second ring-type glue wall 36 can be identical with the first ring-type glue wall 32, for example: form with same mode of printing.Comparatively it is desirable to, before piling up this second electrode slice 35, can place a spacer 34 at the upper surface 31 of first electrode slice 30 earlier.

Spacer 34 is in order to becoming to contact with each other because of flexural deformation to avoid this two electrode slice 30,35 as the supporting construction of 30,35 of this two electrode slices, and that spacer 34 need possess is acidproof, the characteristic of porous and thin thickness, can be a glass fiber sheets.

As shown in Figure 7, utilize 46 pairs first ring-type glue of the heater wall 32 and the second ring-type glue wall 36 to heat, when the temperature of the first ring-type glue wall 32 and the second ring-type glue wall 36 is increased to a specified temp, it is soft heat (reflow) and as shown in Figure 8, make first electrode slice 30, second electrode slice 35 and by the ring-type glue wall 37 of soft heat tight bond each other, and electrolyte 33 is sealed between first electrode slice 30 and second electrode slice 35.Treat promptly to finish behind ring-type glue wall 37 cooling curings encapsulation of the electricity accumulating unit of an electrochemical capacitance energy accumulating device.Heater 46 can be ultrasonic wave, hot blast or infrared ray.

Above-described only is the present invention's preferred embodiment wherein, be not to be used for limiting practical range of the present invention, the personnel that are familiar with this technology are under the situation that does not break away from the present invention's design, when making suitable modification or retouching, for example, the material of this ring-type Jiao Qiang can be other material that is fit to, and the mode that forms this ring-type Jiao Qiang is not defined as the mode of wire mark yet, for example, also can be coated with formation by point gum machine.In addition, with so that the mode of heating of this ring-type glue wall soft heat except with the ultrasonic wave localized heating mode, also can other mode of heating heat this ring-type Jiao Qiang; Therefore all equal variation and modifications of doing according to claim of the present invention, the protection range that is claim of the present invention is contained.

Claims (58)

1, a kind of method for packing of electricity accumulating unit of electrochemical capacitance energy accumulating device is characterized in that comprising at least the following step:

Coating Jiao Qiang: one first electrode slice is provided, and around the upper surface of this first electrode slice, is coated with a ring-type Jiao Qiang;

Fill in electrolyte: fill in electrolyte on the upper surface of this first electrode slice that this ring-type glue wall is surrounded;

Stacked electrodes sheet: one second electrode slice is provided, is stacked on this first electrode slice; And

Soft heat Jiao Qiang: this ring-type of heating soft heat Jiao Qiang, in order to this first electrode slice that bonds, this second electrode slice and this ring-type Jiao Qiang, and hermetic electrolyte liquid is between this first electrode slice and this second electrode slice.

2, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 1, it is characterized in that being coated with glue wall step is to form this ring-type Jiao Qiang with the thermoplastic resin material.

3, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 1, it is characterized in that being coated with glue wall step is to form this ring-type Jiao Qiang in the upper surface of this first electrode slice with printing process.

4, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 3 is characterized in that the printing process that is coated with glue wall step comprises:

This first electrode slice is fixed in printing anchor clamps; And

Upper surface at this first electrode slice imposes screen printing.

5, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 4 is characterized in that these printing anchor clamps have a size and are similar to the storage tank of this first electrode slice in order to ccontaining this first electrode slice with the degree of depth.

6, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 5 is characterized in that the bottom of this storage tank has vacuum suction hole, fixes this first electrode slice in order to absorption.

7, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 1, it is characterized in that being coated with glue wall step is to form this ring-type Jiao Qiang with point gum machine.

8, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 1, it is characterized in that being coated with glue wall step is to form this ring-type Jiao Qiang with dip-coating method.

9, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 1, it is characterized in that being coated with glue wall step is to form this ring-type Jiao Qiang with spraying method.

10, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 1 is characterized in that being coated with glue wall step and also comprises:

Quicken the polymerization of this ring-type Jiao Qiang.

11, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 10, it is characterized in that being coated with glue wall step is to quicken the polymerization of this ring-type Jiao Qiang with mode of heating.

12, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 11, it is characterized in that being coated with glue wall step is to heat with hot blast.

13, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 11, it is characterized in that being coated with glue wall step is to heat with infrared ray.

14, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 10, it is characterized in that being coated with glue wall step is to quicken the polymerization of this ring-type Jiao Qiang with ultraviolet ray.

15, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 10, it is characterized in that being coated with glue wall step is to quicken the polymerization of this ring-type Jiao Qiang with radiation.

16, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 1 is characterized in that filling in the electrolyte step and also comprises:

Place the upper surface of a spacer in this first electrode slice.

17, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 16 is characterized in that this spacer is porous and acidproof spacer.

18, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 16 is characterized in that this spacer is a glass fiber sheets.

19, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 1 is characterized in that soft heat glue wall step is to heat this ring-type Jiao Qiang with a thermal source.

20, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 19 is characterized in that soft heat glue wall step is to heat this ring-type Jiao Qiang with ultrasonic wave.

21, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 19 is characterized in that soft heat glue wall step is to heat this ring-type Jiao Qiang with hot blast.

22, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 19 is characterized in that soft heat glue wall step is to heat this ring-type Jiao Qiang with infrared ray.

23, a kind of method for packing of electricity accumulating unit of electrochemical capacitance energy accumulating device is characterized in that comprising at least the following step:

Coating Jiao Qiang: one first electrode slice is provided, and around the upper surface of this first electrode slice, be coated with one first ring-type Jiao Qiang, one second electrode slice is provided, and around the upper surface of this second electrode slice, being coated with one second ring-type Jiao Qiang, this first ring-type Jiao Qiang is corresponding with this second ring-type glue wall;

Fill in electrolyte: fill in electrolyte on the upper surface of this first electrode slice that this ring-type glue wall is surrounded;

Stacked electrodes sheet: this second electrode slice is stacked on this first electrode slice; And

Soft heat Jiao Qiang: heating this first ring-type Jiao Qiang of soft heat and this second ring-type Jiao Qiang, with this first electrode slice that bonds, this second electrode slice, this first ring-type Jiao Qiang and this second ring-type Jiao Qiang, and hermetic electrolyte liquid is between this first electrode slice and this second electrode slice.

24, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 23, it is characterized in that being coated with glue wall step is to form this first ring-type Jiao Qiang with the thermoplastic resin material.

25, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 23, it is characterized in that being coated with glue wall step is to form this first ring-type Jiao Qiang with printing process.

26, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 25 is characterized in that the printing process that is coated with glue wall step comprises:

This first electrode slice is fixed in printing anchor clamps; And

Upper surface at this first electrode slice imposes screen printing.

27, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 26 is characterized in that these printing anchor clamps have a size and are similar to the storage tank of this first electrode slice in order to ccontaining this first electrode slice with the degree of depth.

28, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 27 is characterized in that the bottom of this storage tank has vacuum suction hole, fixes this first electrode slice in order to absorption.

29, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 23, it is characterized in that being coated with glue wall step is to form this first ring-type Jiao Qiang with point gum machine.

30, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 23, it is characterized in that being coated with glue wall step is to form this first ring-type Jiao Qiang with dip-coating method.

31, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 23, it is characterized in that being coated with glue wall step is to form this first ring-type Jiao Qiang with spraying method.

32, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 23 is characterized in that being coated with glue wall step and also comprises:

Quicken the polymerization of this first ring-type Jiao Qiang.

33, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 32, it is characterized in that being coated with glue wall step is to quicken the polymerization of this first ring-type Jiao Qiang with mode of heating.

34, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 33, it is characterized in that being coated with glue wall step is to heat with hot blast.

35, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 33, it is characterized in that being coated with glue wall step is to heat with infrared ray.

36, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 32, it is characterized in that being coated with glue wall step is to quicken the polymerization of this first ring-type Jiao Qiang with ultraviolet ray.

37, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 32, it is characterized in that being coated with glue wall step is to quicken the polymerization of this first ring-type Jiao Qiang with radiation.

38, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 23, it is characterized in that being coated with glue wall step is to form this second ring-type Jiao Qiang with the thermoplastic resin material.

39, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 23, it is characterized in that being coated with glue wall step is to form this second ring-type Jiao Qiang with printing process.

40, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 39 is characterized in that the printing process that is coated with glue wall step comprises:

This second electrode slice is fixed in printing anchor clamps; And

Upper surface at this second electrode slice imposes screen printing.

41, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 40 is characterized in that these printing anchor clamps have a size and are similar to the storage tank of this second electrode slice in order to ccontaining this second electrode slice with the degree of depth.

42, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 41 is characterized in that the bottom of this storage tank has vacuum suction hole, fixes this second electrode slice in order to absorption.

43, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 23, it is characterized in that being coated with glue wall step is to form this second ring-type Jiao Qiang with point gum machine.

44, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 23, it is characterized in that being coated with glue wall step is to form this second ring-type Jiao Qiang with dip-coating method.

45, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 23, it is characterized in that being coated with glue wall step is to form this second ring-type Jiao Qiang with spraying method.

46, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 23 is characterized in that being coated with glue wall step and also comprises:

Quicken the polymerization of this second ring-type Jiao Qiang.

47, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 46, it is characterized in that being coated with glue wall step is to quicken the polymerization of this second ring-type Jiao Qiang with mode of heating.

48, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 47, it is characterized in that being coated with glue wall step is to heat with hot blast.

49, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 47, it is characterized in that being coated with glue wall step is to heat with infrared ray.

50, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 46, it is characterized in that being coated with glue wall step is to quicken the polymerization of this second ring-type Jiao Qiang with ultraviolet ray.

51, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 46, it is characterized in that being coated with glue wall step is to quicken the polymerization of this second ring-type Jiao Qiang with radiation.

52, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 23 is characterized in that filling in the electrolyte step and also comprises:

Place the upper surface of a spacer in this second electrode slice.

53, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 52 is characterized in that this spacer is porous and acidproof spacer.

54, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 52 is characterized in that this spacer is a glass fiber sheets.

55, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 23 is characterized in that soft heat glue wall step is to heat this first ring-type Jiao Qiang and this second ring-type Jiao Qiang with a thermal source.

56, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 55 is characterized in that soft heat glue wall step is to heat this first ring-type Jiao Qiang and this second ring-type Jiao Qiang with ultrasonic wave.

57, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 55 is characterized in that soft heat glue wall step is to heat this first ring-type Jiao Qiang and this second ring-type Jiao Qiang with hot blast.

58, the method for packing of the electricity accumulating unit of electrochemical capacitance energy accumulating device as claimed in claim 55 is characterized in that soft heat glue wall step is to heat this first ring-type Jiao Qiang and this second ring-type Jiao Qiang with infrared ray.

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