CN201134449Y - Housing for nickle zincium secondary battery - Google Patents

Abstract

A nickel-zinc secondary battery shell belongs to the technical field of secondary batteries. The battery shell is made of a metal material and is a container containing battery anodes and cathodes and electrolytic solution, wherein the internal surface of the battery shell is plated with one or more than one metal among indium, metallic tin and metallic copper. The metal layer is clung to the internal surface of the metal container by electroplating method, and the coating thickness is between 1 um-10 um. By using a metal housing plated with a metal layer capable of increasing zinc cathode reliability, harmful effects of elements in the metal housing to zinc in the nickel-zinc battery cathode can be effectively overcame, thereby increasing discharge capacity of the nickel-zinc battery.

Description

The Ni-MH secondary battery shell

Technical field

The utility model relates to the Ni-MH secondary battery technical field.

Background technology

Along with the direction of various electrical equipments towards miniaturization, portability develops, battery has obtained application more and more widely.Battery can be divided into primary cell and secondary cell, and primary cell can't recharge after having put electricity, can only discard.Secondary cell is called rechargeable battery again, after having put electricity, can charge again, recycles.So, in equipment such as electric tool, electronic toy, generally adopt secondary cell.

Nickel-cadmium cell is a kind of secondary cell that uses morely traditionally, but nickel-cadmium cell has had more and more countries that the use of nickel-cadmium cell is limited because used the noxious substance cadmium in the negative pole.Solution is exactly to seek the substitute of nickel-cadmium cell.Ni-MH battery is wherein a kind of, but the cost of Ni-MH battery is higher.Recently, nickel-zinc cell more and more is subject to people's attention, the advantage that nickel-zinc cell has is in light weight, power big, relative cost is lower, and the negative pole in the nickel-zinc cell uses zinc, has replaced the cadmium that in the past used, and zinc is nontoxic, and is environmentally friendly.Simultaneously, produce the production equipment that nickel-zinc cell can use nickel-cadmium cell to a great extent, reduce and produce input cost.

Nickel-zinc cell is made up of electric core, electrolyte and battery case, and electric core is formed by the stacked coiling of positive plate, negative plate and insulation diaphragm, and electric core is placed battery case, injects electrolyte, promptly makes battery after sealing.In existing technical scheme, the shell of cylindrical nickel-zinc cell adopts box hat more, and is similar with the battery case of making NI-G, Ni-MH battery use.But, because the major metal element that comprises is Fe or Ni in the box hat, under the environment of Fe or Ni, the easy liberation of hydrogen of zinc negative pole and dissolving, the guiding discharge ability can not be given full play of.

The utility model content

Technology of the present utility model is dealt with problems and is: overcome and use the weak point of box hat as the nickel-zinc cell shell in the prior art, a kind of shell of novel nickel zincium battery is provided.

Technical solution of the present utility model is: the Ni-MH secondary battery shell, be the container that is used for holding battery plus-negative plate and electrolyte that steel or nickel-plated steel are made, and the inner surface of container has a metal level that is used to improve zinc negative pole stability.The metal level that is used for improving zinc negative pole stability is that one or more metal alloys of indium metal, metallic tin, metallic copper are made, and metal layer thickness is 1 μ m～10 μ m, and metal level is to be attached to the canister inner surface by the mode of electroplating.

The utility model beneficial effect compared with prior art is: use and be coated with the metal-back of indium layer or tin layer or copper layer as battery case, can effectively overcome the harmful effect of iron in the metal-back, nickel, improve the discharge capability of nickel-zinc cell cathode of nickel zinc battery.

Description of drawings

Fig. 1 is a Ni-MH secondary battery shell schematic diagram of the present utility model.

Embodiment

Below in conjunction with accompanying drawing the technical solution of the utility model is illustrated.

As shown in Figure 1,1 is the Ni-MH secondary battery shell.Shell mainly contains two aspect effects, and an effect is as container, is used for holding electric core and the electrolyte that is made of both positive and negative polarity, so shell need have certain intensity, can not be easy to break; The effect of another aspect is to be used for conduction, and in the process of discharge, a large amount of electronics that cathode pole piece produces in electrochemical reaction process need be drawn outside the battery, and the battery case optimum is collected electronics, used as negative pole.Certainly, in the battery of some specific type, also have and use plastic or other material, as flexible-packed battery etc.But in the most frequently used cylindrical battery, the shell of battery is all selected metal material for use, is mainly box hat, perhaps is the nickel plating box hat.

The essential element of box hat is Fe, under the situation of box hat nickel plating, also contain metal Ni, in the electrolyte environment, the chemical property of Zn is more active, and the zinc negative pole dissolves easily, and separate out hydrogen, and the polarization potential of Fe and Ni is also lower, so the stability of zinc negative pole is lower in this case, discharge capability weakens.

In order to overcome this harmful effect, the utility model is taked to plate one deck thin metal layer at the inner surface of battery case, and shown in figure one, 2 are the metal level that inner surface plates.The best coat of metal of effect is the plating indium, and zinc-plated also have an effect preferably, can also copper facing.Though the effect of plating indium is best, the value of indium is higher, can increase cost greatly; From the practical operation of electroplating, copper facing is a kind of mode than zinc-plated more easy operating, so the highly preferred scheme of the utility model is copper facing on box hat, certainly, this does not get rid of plating indium, the zinc-plated and technical scheme of plating other metals, and plates the technical scheme of stating kind of metalloid at the inner surface of other metal battery cases.

Can adopt the technology of plating in the inner surface copper facing of box hat, consider to simplify and electroplate the course of work, can be when electroplating the box hat inner surface, also plate the outer surface of box hat, this is useful and harmless, this can will increase the use amount of about one times copper than only plating inner surface, but can simplify the operation of plating greatly, and is complete acceptable aspect cost.

The thickness of electroplated metal layer between 1 μ m～10 μ m all can, can select according to concrete condition, for example, to the battery of AA model, the thickness of plated metal copper can play good result at 8 μ m.

In concrete experiment, can obviously find out, use the battery case that is coated with metal levels such as copper, can improve the discharge performance of nickel-zinc cell greatly.

Claims (4)

1. the Ni-MH secondary battery shell is characterized in that: be the container that holds battery plus-negative plate and electrolyte that a metal material is made, that inner surface is coated with one or more metals in indium metal, metallic tin, the metallic copper.

2. Ni-MH secondary battery shell according to claim 1 is characterized in that: the container that described metal material is made, its metal material are steel or are nickel-plated steel.

3. Ni-MH secondary battery shell according to claim 1 is characterized in that: described inner surface is coated with metal, and its thickness of coating is 1 μ m～10 μ m.

4. Ni-MH secondary battery shell according to claim 1 is characterized in that: it is to make metal be attached to the canister inner surface by the mode of electroplating that described inner surface is coated with metal.

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