SU858503A1 - Monolamellar electrode for alkaline storage battery - Google Patents

Abstract

1.MONORAMEL ELECTRODE FOR ALKALINE BATTERY containing active mass enclosed in a perforated metal sheath with grooves stitched by conductive material placed in the sheath grooves, characterized in that the grooves are made perpendicular to the electrical characteristics and service life the formation of rectangular cells on the electrode surface, with the sides of each cell parallel to the edges of the electrode, and the distance between the grooves is 1 / 30-1 / 7 of the electrode width and 1/901/10 of its length. 2. Electrode POP.1, which is also distinguished by the fact that in the rectangular cells additional puckles are made with a depth equal to 1 / 20-1 / 5 of the electrode thickness with an area equal to 1 / 35-1 / 2 of the square of the rectangular cell.

Description

cs sd

00

sd

about

00

J.

The invention relates to the electrical industry and can be used in alkaline batteries.

A lamella electrode for an alkaline battery is also known, consisting of an active mass pressed into a metal perforated sheath in the form of lamellae interconnected by ij locks.

The disadvantage of such a lamellar. electrode is a high consumption of inert metal shells for locks, the presence of which reduces the useful volume of the electrode. In addition, due to the transient resistances in the locks of the slats, the resistance of the electrode reaches significant values.

Closest to the invention in terms of technical essence and achievable results is a monolithic electrode for an alkaline battery containing an active mass enclosed in a perforated metal sheath with grooves stitched by conductive material placed in the grooves of the sheath 2.

However, in this electrode swelling and deterioration of the contact of the active mass with the current-conducting sheath occurs, which leads to a decrease in the specific electrical characteristics and service life.

The aim of the invention is to increase the specific electrical characteristics and service life.

This is achieved by the fact that the kinks are mutually perpendicular with the formation of rectangular cells on the electrode surface, with the sides {the cells parallel to the edges of the electrode, and the distance between the grooves is 1 / 30-1 / 7 the width of the electrode and 1 / 90-1 / 10 of its length, and in the rectangular cells additional puklevki (holes) with a depth equal to 1 / 20-1 / 5 of the electrode thickness and an area equal to 1 / 35-1 / 2 of the square of the rectangular cell can be performed.

Figure 1 shows the proposed electrode; figure 2 - section aa in figure 1.

The electrode contains an active mass enclosed in a perforated metal sheath, on which nonperforated grooves 1, perpendicular grooves 2, rectangular cells 3 formed by grooves 1 and 2 and having a puckle 4, are formed. for example, in the form of clips or wire. The grooves, in the form of rectangular cells, increase the rigidity of the metal shell, and therefore 5 its ability to inhibit swelling.

electrode, which gives an increase in its specific volume characteristics. When the grooves are applied by pressing or rolling, reliable

fO contact of the active mass with the current-carrying metal sheath, the internal resistance of the electrode decreases, its electrical characteristics, and consequently the characteristics and service life of the battery, improve.

The effect of the grooves is enhanced by additional puklevki in each rectangular cell with a depth equal to 1/20-1 / 5 of the electrode thickness, and an area equal to 1 / 35-1 / 2 of the square of the rectangular cell.

As an example, an electrode with a width of 150 mm and a length of 340 mm was used. It is used in traction alkaline batteries: with a capacity of 300,800 Ah. The distance between the grooves 1 is F mm, i.e. 1/19 of the width, and between the grooves 2 it is equal to 9 mm, i.e. 1/38 of the length of the electrode. Selected

0, the dimensions of the rectangular cell reduce the swelling of the electrode.

For this, additional puklevki 4 are made in the rectangular cells.

5 In a 150x340x4 mm electrode, the chamfer depth is 0.3 mm, which is 1/13 of the electrode thickness.

The area of one puklevka in this electrode was equal to 2x1.8-mm, the area of all puklevka in one rectangular cell (four in this case) is equal to 14.4 mm, i.e. the area of all the lumps in the rectangular cell is 1/5 of the area of the latter.

The advantages of the proposed electrode are the improved contact of the active mass with the current-conducting sheath, which reduces the internal resistance of the electrode and, therefore,

0 improves its electrical characteristics and increases battery life, increasing the rigidity of the metal shell of the electrode, which increases the ability of the shell

5 inhibit the swelling of the electrode, i.e. allows to increase the specific volumetric characteristics of the electrode and more fully use the internal volume of the battery.

Claims (2)

1. A MONOMEL LINE ELECTRODE FOR AN ALKALINE BATTERY, containing the active Maccyj enclosed in a perforated metal shell with grooves, stitched with conductive material placed in the grooves of the shell, which is connected with the aim of increasing the specific electrical characteristics and service life , the grooves are mutually perpendicular with the formation of rectangular cells on the surface of the electrode, while the sides of each cell are parallel to the edges of the electrode, and the distances between the grooves are 1 / 30-1 / 7 of the width of the electrode and 1/901 / 10 of its length. 2. The electrode according to claim 1, characterized in that in the rectangular cells additional beadings are made with a depth equal to 1 / 20-1 / 5 of the thickness by electrodes with an area equal to 1 / 35-1 / 2 of the square of the rectangular cell. □□ □ about □ □ □ 0 □ ate QO sl> Fig: / J 1_