DE1496182A1 - Plate dry cell - Google Patents

Description

The invention relates to a dry battery in which for the positive electrode (cathode) carbon and for the negative electrode (anode) zinc is used. Serves as a depolarizer

Manganese dioxide MnO ₂ , and ammonium chloride HH.Cl are used as electrolyte. The elements are flat.

There are already flat primary elements with carbon-zinc-duplex

Electrode known in which a zinc plate with a carbon plate and

layer is put together to form a body or an XSIXä, / which cell

/ is surrounded by a thin elastic cover. With these well-known Plate batteries, however, have the component that the gas and liquid in the depolarization mass over time or the other components are formed and thereby the The element tension drops relatively early. Gas and! Liquid emerge from the depolarizer or the electrodes and, because of their high pressure, cannot get off the elastic cover either to be held back "

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In the case of the battery according to the invention, these disadvantages of the known primary elements are avoided and they are as will be described in more detail below, in particular "for volume production....

In the manufacture of plate batteries, it comes down above all on the composition of the electrodes * So far, fine coal dust was mixed with wax on the zinc plate in the heated State applied or a mixture of coal dust and varnish was painted on the zinc plate and then dried. The after first process produced carbon layer is brittle and mostly unevenly. In addition, this method is extremely laborious.

The other method uses a significant amount of one Requires solvent that cannot be used as an electrode, so that unnecessary costs arise. This layer also contains for the most part pores, so that after some time its electrical Resistance is increased significantly and its service life is reduced.

In the case of the rock battery according to the invention, the carbon layer becomes not applied directly to the zinc plate, but the inode consists of four superimposed layers that are firmly are pressed onto the zinc plate, which are chemically stable

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_F metal, such as silver "galvanisiertist, wherein the separately prepared electroconductive carbon layer electrically connected to a

conductive glue is firmly glued to the zinc plate,

The coal layer is made up of a mixture of fine grains of coal dust, with high conductivity such as artificial graphite powder or acetylene black, etc., with thermoplastic resin, such as chlorovinyl, known under the trade name neoprene

or

synthetic .. rubber, polyethylene, / Alkydkunst st of f, made, the mixture being kneaded with a heated roller und.über a further roller to form a Ulm. _t

The method has the advantage that the manufacturing costs are low because when using a heated roller no solvents need to be used and consequently also there is no loss of material during manufacture; application with the help of rollers also enables mass production Since, in addition, in the case of the manufactured by this process Layer that prevents pore formation increases the conductivity of the layer and the internal resistance of the Element increases only »little * in the course of time

An exemplary embodiment is explained below:

The. Carbon is made from a mixture of $ 70 ethylene carbon black and. 30 #. Chlorovinyl, easy and cheap to manufacture. This carbon layer is preferably 0.2 mm thick and pore-free and has a resistance that of electrodes with an area of

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1 cm and a pressure of 5 kg is less than 1 ohm. To produce the carbon layer, the carbon powder, mixed with vinyl emulsion or with varnish, is applied to the surface a mirrored roller or a belt, and after the mixture has hardened or dried there, it is stripped from the surface. It is true that the coal layer could can be placed directly on the zinc plate, but this has the disadvantage that it shows conductivity by penetration the electrolyte in the zinc is considerably reduced, £ this increases the internal resistance · It is therefore to recommend the carbon layer and the zinc plate as a composite Execute plate · This facilitates the production, since a plate with one layer on both sides with

or press
a punch / can be produced.

The electrically conductive adhesive is the mixture of conductive dust grains and thermoplastic resin added. The fine graphite dust and ethylene oxide are for the mixture well suited because they are thermally stable * As metal dust Silver dust with high conductivity is recommended because it is at the contact surface of the zinc and carbon layer no gas is produced because of its high resistance to hydrogen and its stability and conductivity. As an adhesive With a high conductivity, carbonyl nickel powder can be used because it adheres particularly well. When zinc powder is used, it is recommended to galvanize the surface of the zinc plate with silver to protect it against oxidation. That

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Adhesive must not cause any etching of the zinc plate. _v Therefore, polymers such as polybutylene or epoxy resin are preferable, while the ester group should not be used because it decomposes easily, separates the acid and etches the zinc. Chlorinated rubber is particularly suitable because of its adhesiveness.

Since zinc is a chemically activatable substance, the

non-conductive danger that it will absorb oxygen from the air and / zinc oxide ZnO forms so that the electrode has a high resistance. Even if a paint with a less corrosive effect is used it can chemically decompose over time and release an undesirable substance such as acid, which, together with the zinc reacts and creates a non-conductive zinc compound to to avoid this harmful effect, is in the invention Battery the carbon layer side of the zinc plate with chemically stable metal, e.g. Galvanized silver or tin. The galvanization of the silver can, since the silver belongs to the noble metals, by permutation by means of painting of silver cyanide (AgCn) after machining the zinc plate easily perform with an alkaline liquid.

The use of silver in this Pail has the further advantage that it is because of its high stability against hydrogen a destruction of the zinc when generating hydrogen as a result prevents self-discharge even if it is on the separator side feet. f

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The cell separator is constructed as follows »

In the well-known flat dry cell batteries, paper was called Electrolyte carrier used. Gelatinized ones have also been suggested to extend battery life To spread starch on the surface of the zinc plate or on the paper. But if the cells with such an electrolyte are provided and assembled under pressure, there is a risk that the still liquid electrolyte when compressed runs out to the sides and thereby short-circuits the cells caused.

The primary element according to the invention causes an automatic Regulation of the pH of the electrolyte, as the adhesive layer withstands the pressure when the cells are assembled, and yes Gas formation is inhibited «'

A paper is used as a carrier for the electrolyte which does not contain any anti-leakage agents such as rosin ester etc. and which can suck in the electrolyte. The following solutions are spread on one side of the paper: Solution A, starch 2 $>

Flour $ 2

Water 96 * fc solution B solution A 80 $

Strength 8 $>

Flour 8

Tincoxide 4 $>

10 minutes heating to 80 G and after gelatinization of starch and flour cooling below 50 ° O.

Eohstarch, which retains the shell, flour and zinc oxide are added to solution A, after the solution has cooled *

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The drying of the paper coated with solution B must be carried out at Temperatures below 60 ° O take place, so that the raw starch

and the flour cannot be gelatinized

The reasons for using starch and flour are:

The starch is also digested at room temperature when it comes into contact with metal ions of high valence. The starch absorbs the water molecules and gelatinizes »Zinc chloride ZnGIg is added to the dry battery in order to reduce the self-consumption of zinc. When the amount of zinc chloride over 20 # is ^ converts the strength even under room temperature in the paste-like state to * Therefore, in the fiction, modern battery 20 to 25 # zinc chloride, 20 $> ammonium chloride in an aqueous Lösung'mit be a small admixture of Mercury chloride HgCIg used as electrolyte -

When the electrolyte is placed on the carrier, the strength will be and the starch parts of the flour gelatinized below room temperature and the thickened mass soaks up the electrolyte. As a result, the electrolyte cannot leak from the paper to the sides, even if the individual cells are stacked on top of one another and get squeezed. The paste also retains a certain strength and does not run out.

The starch binds the electrolyte and promotes the adhesion of the Paper to the zinc plate and at the same time protects it against Etching. '

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. '. 'Bas starch-soaked paper has a plate-like, edge bent upwards and thus prevents the course from closing between the electrodes.

The well-known dry batteries contain strong paper in the Size of the zinc plate and thinner paper that wraps the depolarization mass. By using two types of paper however, the production becomes complicated and the batteries are not all equal to one another. Battery is only used a layer of paper and the paste is only applied to the side of the paper that is in contact with the zinc plate. "So you don't need both sides of the To be coated paper, so that the manufacturing process is also cheaper.

The addition of zinc oxide ZnO is used to adjust the pH of the electrolyte. The electrolyte should be saturated with zinc oxide from the start Coating is used, the application mass thickens when The temperature rises and the pH value changes. The formation of hydrogen gas is slowed down or its formation prevented.

When the dry battery discharges, the anode side becomes more acidic, so that the zinc decomposes and hydrogen gas is formed can be. The addition of zinc oxide turns it into acid neutralized and the formation of the gas is prevented.

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The ammonia gas produced in the cell in the event of a sudden discharge or short circuit due to the alkalization of the cathode side is absorbed by the solution of zinc chloride in the battery according to the invention and forms a precipitate of zinc-amine-chloride (HH * J ₂ Gl ₂ * This process can with can be explained by the following reaction equation:

. + OH + 01 + Zn -r Zn (IiH ₃ ) ₂ Cl ₂ + 2 HgO

Each cell of the known surface batteries is resilient with a thin, Λ, provided tubular wrapping. In the case of the flat battery according to the invention, on the other hand, each cell is covered with a hard Yinyl hose that has been stretched far by heating. The electrolyte cannot leak out because of the waterproof cover. The battery therefore has a long service life ·. ,

The inextensible one. . Ä

% Χψ Wrapping is carried out as follows: First, a tube, the inside diameter of which is slightly smaller than the outer diameter of the cell, is stretched by heating under pressure until its inner diameter is slightly larger ± xk than the outer diameter of the cell, and then it is opened Chilled to room temperature · This hose has a tendency to shrink when exposed to heat. A cell is placed in a piece of tubing, one edge of which remains open. Will this one

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When the edge is heated, it contracts and encloses the Cell feat «Wake up cold, he will be hard Since this one If the tube does not stick easily to the electrode, it is necessary to place it on the lower inner part of the tube to paint some glue. Instead of hard vinyl, the hose can also be made of rubber chlorate or vinyl acetate with an additive consist of sodium nitrate or a similar hard substance · The substance should only have low temperature sensitivity »

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Claims (5)

"'A 26 978 jakfko claims 1. Flat dry battery, the cells of which consist of a zinc plate as the cathode and a carbon anode and a depolarizer and thickened electrolyte, which are surrounded by a shell, characterized in that the anode consists of several layers pressed together, and with chemically stable Metal, for example silver, is galvanized, and that the carbon layer is connected to the zinc plate by an electrically conductive adhesive _e . Flat dry cell battery according to claim 1, characterized in that that absorbent paper is used as a carrier for the electrolyte, which is coated with an aqueous starch-flour solution is" ; . ■ 5 «Flat dry cell battery according to claim 2, characterized in that that zinc oxide is added to the solution 4 * flat dry cell battery according to claim 2 or 2 and 3 $ thereby; characterized in that the side of the paper coated with the solution rests against the zinc plate. * 5. Flat dry cell battery according to claim 1 and one or more; the other claims / jι characterized in that the envelope j made of thermoplastic material% it looks 9098T5 / 082S