RU2032969C1 - Electrode of lead-acid cell - Google Patents

Abstract

FIELD: manufacture of lead-acid cells. SUBSTANCE: electrode of lead-acid cell is fabricated in the form of current tap 1, coat 2 which part 4 is made impenetrable to electrolyte and active mass 3 produced by transformation of surface layer of current tap by means of electrochemical treatment. EFFECT: facilitated manufacture. 3 dwg

Description

 The invention relates to the electrical industry and relates to the production of lead batteries.

A known design of the electrode of a lead battery containing a collector and an active mass obtained by converting the surface layer of a collector into an active mass by electrochemical processing. Such electrodes are commonly known as Plante electrodes [1]
A disadvantage of the known design are low specific energy characteristics.

The closest in technical essence and the achieved result is an electrode of a lead battery, consisting of a shell, a collector and an active mass obtained by converting the surface layer of a collector by electrochemical processing. [2]
In such electrodes, the active mass relative to the collector is evenly distributed. The aim of this invention is to obtain the possibility of a given distribution of the active mass. The desired technical result is achieved by the fact that in the electrode of the lead accumulator, consisting of a collector, a carapace and active mass obtained by converting the surface layer of a collector by electrochemical processing, part of the surface of the carapace is made impermeable to electrolyte.

 In FIG. 1 shows the proposed electrode, a General view; in FIG. 2 section of the electrode to the formation of the active mass; in FIG. 3 section of the electrode after the formation of the active mass.

 The electrode consists of a collector 1, placed in a confined space formed by the shell 2 of the active mass 3, obtained by converting the surface layer of the collector through electrochemical processing.

 Part 4 of the shell 2 is impermeable to the electrolyte, for example, by thermally coating it with a polyethylene (polypropylene, etc.) film.

 In the process of converting the surface layer of the collector 1, the collector portion covered by the electrolyte impermeable portion 4 of the carapace 2 is practically not converted to the active mass 3, i.e. changing the location of the surface of the shell 2, impervious to electrolyte, changes the distribution of the active mass 3 relative to the collector 1.

 The proposed electrodes can be used, for example, as the extreme electrodes of the battery, i.e. electrodes directly adjacent to the walls of the battery tank. The active mass of these electrodes, facing the tank wall, is ineffective as a result of screening by the wall. Thus, the active mass of the extreme electrodes has a total utilization coefficient lower than in the average electrodes, which leads to a decrease in the specific energy characteristics.

 The proposed electrodes, when used as extreme ones, are positioned so that the impermeable part of the shell is facing the wall of the battery. Opposite this part of the carapace, the active mass is practically absent in the electrode, and therefore the overwhelming part of the active mass is facing the electrode of opposite polarity. This increases the utilization of the active mass of the extreme electrodes, which leads to an increase in the specific energy characteristics of the battery.

Claims (1)

 LEAD BATTERY ELECTRODE, consisting of a collector, shell and active mass obtained by converting the surface layer of a collector by electrochemical treatment, characterized in that part of the shell is made impermeable to electrolyte.

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