SU736225A1 - Standby primary cell activated with water - Google Patents

Description

one

The invention relates to electrical engineering and can be used in the manufacture of backup water-activated primary batteries, which are widely used in radiosondes, emergency rescue equipment, etc.

Known backup primary batteries are activated by immersion in seawater Ij.

In order to reduce leakage currents in the external structures, there are inter-element separators made of an insulating film, and the electrical connection of the elements is carried out by strips of silver foil enveloping these separators.

The marine-activated battery of the AgCS / Mg electrochemical system is also known, where the elements are separated by an accordion-folded plate made of an electrically insulating material, protruding beyond the edge of the electrodes, and for the electrical connection of the elements, there are windows smaller in size than the electrodes in which the electrical conductors 2 are placed.

The closest in technical essence and the achieved result

the invention is a backup primary battery activated by water, consisting of series-connected elements containing metal a-nodes ji cathodes contacting with electrically conductive substrates and separated by separators, and inter-element separators made of electrically insulating material, made in the form of frames, which they rest on the ends of the electrodes with sealing paste 3. In this case, on two opposite sides of the battery, they have; open areas for entry and exit of gases.

However, such a battery is characterized by the impossibility of using it for operation in an excess of electrolyte due to the presence of leakage currents comparable to

20 with discharge current; labor intensity due to the impossibility of mechanization of the product assembly process; reduction of the active area of the electrodes due to the layer of sealing

25 pasta; limited amount of electrolyte.

The aim of the invention is to improve the electrical characteristics of the battery and to enable

30 of the mechanization of its manufacture.

For this, the inter-element dividers are proposed to be made in the form of a rectangular plastic cup, the two opposite walls of which have a slope of 70-88®, and the other two walls — 30-60 °, with the last slope equal to the angle of the two first walls of the cup.

FIG. 1 shows the proposed backup primary battery, side view and plan; on fkg. 2 - inter element separator; in fig. 3 - inter element separator assembled with a negative electrode and an electrically conductive substrate.

The battery consists of a series of series-connected elements 1, containing positive 2 and metal: negative negative 3 electrodes of the same size, separated by a separator 4.

A series connection of the elements is carried out by using an electrically conductive substrate made of metal foil 5, fastened with a bracket 6 to the cup 7 and the negative electrode 3.

The cup is made of plastic, for example, vinyl plastic or polystyrene. The bottom of the cup has the dimensions of the electrodes and serves as a support for them.

: The walls of the cups having a tilt angle: 70-88, after assembling the battery, are joined by welding or in another way, for example, gluing and form the body of the battery, and the walls, located at an angle of 30-60, form the flanges through which water flows electrodes.

The battery is put into operation by an external load when immersed in fresh or seawater, which serves as an electrolyte.

After the separator is impregnated with electrolyte and the surface of the positive and negative electrodes is wetted, an electrochemical reaction begins to flow between them. The electrical connection between the elements is provided by a bracket that connects the electrically conductive substrate to the negative electrode through a plastic cup.

When the battery is removed from the water or after the excess gases evict water, further work is carried out by the electrolyte impregnated with the separator.

In such a battery, leakage currents are significantly reduced by increasing the electrolyte resistance between adjacent elements, while the electrolyte supply in the separators protruding into the channels formed by the walls of the inter-element separators is increased, which creates more favorable conditions for the battery to work as immersed and after removing it from the water.

In addition, with this battery design, the mechanization of the manufacturing process is facilitated.

Claims (3)

1. US Patent No. 3542599, cl. 136-112, 1970 2. Japan patent number 17336, cl. 57 VO, 15.06.70. 3. US patent I 2716671, cl. 136-90, 1955.