RU2433508C1 - Electrode assembly of bipolar lead accumulator - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: according to the invention, an electrode assembly of a bipolar lead accumulator contains a sealed partition made of non-conductive material, positive and negative pastes placed in shielded pockets and located from both sides of the partition, lead shunts placed in the pastes and passing through the partition and electrically connecting the pastes of different polarity from both sides of the partition; the pastes are placed in the cylindrical shielded pockets separated from the partition by a felt porous separator layer.

EFFECT: improved design of the electrode assembly, simplified technology, better specific performance and battery life.

3 dwg

Description

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

The known design of the bipolar electrode of a lead battery [1], containing a sealed partition of synthetic material with anode and cathode active masses deposited on opposite sides thereof, electrically conductively connected by a down conductor, revealing that the partition is made in a zigzag fashion.

The disadvantage of this design is the possibility of creeping of the active mass during operation of the battery.

Closest to the proposed solution is the design of a bipolar electrode of a lead battery containing an electrode plate with a current collector and anode and cathode active masses deposited on opposite sides thereof, placed in cavities formed by shells of a porous material and attached to an electrode plate, characterized in that the electrode the plate is made of synthetic material, the collector is wound on it and the electrode plate is made with a clamp for the collector [2].

The disadvantage of this solution is the insufficient use in the discharge process of the active mass facing the septum, which causes a decrease in the specific characteristics of the battery.

The objective of the invention is to improve the design of the electrode unit, which allows to increase the specific characteristics of a bipolar battery.

This is achieved by the fact that the active mass is located in shell-shaped pockets of a cylindrical shape, separated from the partition by a layer of felt porous separator.

This design of the bipolar electrode increases the access of the electrolyte and current to the active mass facing the septum, and thus increases the utilization of the active mass and, accordingly, the specific characteristics of the bipolar battery.

Figure 1 shows the electrode unit of a bipolar lead battery, General view.

Figure 2 is a transverse horizontal section of a block.

Figure 3 is a vertical section of a block.

The proposed electrode block of a bipolar lead battery consists of a sealed partition (1) made of non-conductive material (for example, polypropylene), a carapace consisting of a series of elastically stretched porous tubes filled with an anode mass on one side of the partition (2) and a cathode mass on the other side partitions (3). Lead down conductors (4) located inside the active masses, passing through the upper part of the septum, electrically connect the anode and cathode active masses.

On the bottom of the partition on both sides there are pockets (5) for securing the armor tubes.

A high-porous felt separator (6) (for example, glass-fiber) is placed between the partition and the armor tubes, which contributes to a more uniform distribution of current over the active mass.

The proposed design of the electrode unit of a bipolar lead battery can significantly increase the use of active masses and, accordingly, the specific characteristics of a bipolar battery.

Literature

1. USSR patent No. 1602306 from 22.10 88.

2. Patent SU 1554698.

Claims (1)

The electrode unit of a bipolar lead battery containing a sealed partition made of non-conductive material, positive and negative active masses placed in armored pockets and located on opposite sides of the partition, lead down conductors placed in active masses passing through the partition and electrically connecting active masses of different polarity along different sides of the partition, characterized in that the active masses are located in shell-shaped pockets of cylindrical shape, separated from the burnout DKI layer of felted porous separator.

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