CN204189848U - A kind of Novel nickel-hydrogen battery - Google Patents

Abstract

The utility model discloses a kind of Novel nickel-hydrogen battery, it battery core and the electrolyte that comprise housing, battery cap and be positioned at housing, it is characterized in that, described battery core comprises the pillared barrier film of a winding, and be located at this respectively and be wound into the upper end of barrier film after column and the positive plate of lower end and negative plate, wherein, described barrier film comprises polyethylene film layer and Teflon membranes, and mutually superpose coiling and molding successively, and Teflon membranes is located at inside polyethylene film layer; Described positive plate base material is coated with the polytetrafluoroethylene reticular membrane that thickness is 4 ~ 5 μm, and described positive plate, by a conducting strip, is connected with described battery cap.

Description

A kind of Novel nickel-hydrogen battery

Technical field

The utility model relates to battery manufacturing field, is specifically related to a kind of Novel nickel-hydrogen battery.

Background technology

Ni-MH battery (NiMH) is improved by nickel-cadmium cell (NiCd), replaces cadmium (Cd) with the metal that can absorb hydrogen.It provides the capacitance higher than nickel-cadmium cell with identical price, does not substantially have memory effect, is a kind of battery of environmental protection.Ni-MH battery has that energy density is high, charge/discharge rates is fast, lightweight, the advantage such as life-span length, non-environmental-pollution, has become the new forms of energy product of countries in the world competitively Study and Development.Since the nineties in last century, successively enter the industrialization stage at home and abroad, and be mainly used in consumer electronics field, and in the majority with A type, AA type, be used for greatly notebook computer, video camera, pocket telephone etc.

And existing Ni-MH battery, its battery core adopts the non-woven cloth of polypropylene using Ni-MH battery at present, and because of the problem of mechanical strength, its thickness must on 0.1mm, and generally common is about 0.12-0.13mm, compares lithium rechargeable battery film used thick a lot.Film thickness, though can be thinning via fibre density decline, its mechanical strength also can and then decline, cause membrane ruptures, cause short circuit, affect the useful life of battery, and its battery core positive plate is directly connected with battery cap, its energy conversion rate is low, causes the loss when discharging of large energy.

Utility model content

The utility model, for the deficiencies in the prior art, provides a kind of rational in infrastructure, long service life, the Novel nickel-hydrogen battery that energy utilization rate is high.

The technical scheme that the utility model adopts for achieving the above object is:

A kind of Novel nickel-hydrogen battery, it battery core and the electrolyte that comprise housing, battery cap and be positioned at housing, described battery core comprises the pillared barrier film of a winding, and be located at this respectively and be wound into the upper end of barrier film after column and the positive plate of lower end and negative plate, wherein, described barrier film comprises polyethylene film layer and Teflon membranes, and mutually superposes coiling and molding successively, and Teflon membranes is located at inside polyethylene film layer; Described positive plate base material is coated with the polytetrafluoroethylene reticular membrane that thickness is 4 ~ 5 μm, and described positive pole, by a conducting strip, is connected with described battery cap.

Described conducting strip is discoid, and center is provided with projection, and described positive plate one end is welded on this conducting strip lower surface, and described projection is connected with described battery cap.

Also steam vent is provided with at described high spot.

It also comprises a Foamed Nickel, and described Foamed Nickel cushioning is in the bottom of described battery case, and the bottom of described battery core is connected with the bottom of described battery case by described Foamed Nickel.

On described battery cap, corresponding conducting strip is provided with steam vent.

Electric silica gel is filled with between described battery cap and conducting strip

The beneficial effects of the utility model are: by being set to by electric core membrane by polyethylene film layer and Teflon membranes twin-laminate roll around forming, improve the hot strength of Ni-MH battery electric core membrane and improve life-span and the spray charging precipitator of barrier film, reduce the short circuit ratio of barrier film simultaneously, substantially increase the useful life of this Novel nickel-hydrogen battery.The utility model is by applying polytetrafluoroethylene reticular membrane at positive pole, battery core positive pole is made to there will not be shedding phenomenon, and then battery capacity is played stably, and connect battery core positive pole and battery cap by a discoid conducting strip, greatly optimize conductive capability, thus further increase the service efficiency of Ni-MH battery.

Accompanying drawing explanation

Fig. 1 is the utility model cross-sectional view.

In figure: 1. housing 2. battery cap 3. battery core 4. barrier film 5. positive plate

6. protruding 9. steam vent 10. Foamed Nickels of negative plate 7. conducting strip 8.

11. electric silica gels

Embodiment

Embodiment: see Fig. 1, the Novel nickel-hydrogen battery that the present embodiment provides, it battery core 3 and the electrolyte that comprise housing 1, battery cap 2 and be positioned at housing 1, described battery core 3 comprises the pillared barrier film 4 of a winding, and be located at this respectively and be wound into the upper end of barrier film after column and the positive plate 5 of lower end and negative plate 6, wherein, described barrier film 4 comprises polyethylene film layer and Teflon membranes, and mutually superpose coiling and molding successively, and Teflon membranes is located at inside polyethylene film layer; Described positive plate 5 base material is coated with the polytetrafluoroethylene reticular membrane that thickness is 4 ~ 5 μm, and described positive plate 5, by a conducting strip 7, is connected with described battery cap 2.

Described conducting strip 7 is discoid, and center is provided with protruding 8, and described positive plate 5 one end is welded on this conducting strip 7 lower surface, and described protruding 8 are connected with described battery cap 2.

Steam vent 9 is also provided with at described protruding 8 places.

It also comprises a Foamed Nickel 10, and described Foamed Nickel 10 cushioning is in the bottom of described battery container 1, and the bottom of described battery core 3 is connected with the bottom of described battery container 1 by described Foamed Nickel 10.

On described battery cap 2, corresponding conducting strip 7 is provided with steam vent 9.

Electric silica gel 11 is filled with between described battery cap 2 and conducting strip 7.

But the foregoing is only better possible embodiments of the present utility model, and be not used to limit to the scope of the claims of the present utility model, therefore the equivalent structure change that all utilization the utility model specifications and accompanying drawing content are done, be all included in protection range of the present utility model.

Claims (6)

1. a Novel nickel-hydrogen battery, it battery core and the electrolyte that comprise housing, battery cap and be positioned at housing, it is characterized in that, described battery core comprises the pillared barrier film of a winding, and be located at this respectively and be wound into the upper end of barrier film after column and the positive plate of lower end and negative plate, wherein, described barrier film comprises polyethylene film layer and Teflon membranes, and mutually superpose coiling and molding successively, and Teflon membranes is located at inside polyethylene film layer; Described positive plate base material is coated with the polytetrafluoroethylene reticular membrane that thickness is 4 ~ 5 μm, and described positive plate, by a conducting strip, is connected with described battery cap.

2. Novel nickel-hydrogen battery according to claim 1, is characterized in that, described conducting strip is discoid, and center is provided with projection, and described positive plate one end is welded on this conducting strip lower surface, and described projection is connected with described battery cap.

3. Novel nickel-hydrogen battery according to claim 2, is characterized in that, is also provided with steam vent at described high spot.

4. Novel nickel-hydrogen battery according to claim 1, is characterized in that, it also comprises a Foamed Nickel, and described Foamed Nickel cushioning is in the bottom of described battery container, and the bottom of described battery core is connected with the bottom of described battery container by described Foamed Nickel.

5. Novel nickel-hydrogen battery according to claim 1, is characterized in that, on described battery cap, corresponding conducting strip is provided with steam vent.

6. Novel nickel-hydrogen battery according to claim 1, is characterized in that, between described battery cap and conducting strip, be filled with electric silica gel.