SU535633A1 - A method of making a battery and a battery made by this method - Google Patents

Description

and improve battery electrical performance. This is achieved by the fact that, at the edge of the metal substrate after its bending, a filling nozzle and a current drain of the internal electrode with a bushing insulator are installed in the weld zone and the butt pad is welded around the perimeter.

The connection of individual batteries into the battery can be accomplished by soldering the current lead of the internal electrode, for example, a positive one battery, into the filling socket of the adjacent battery.

In a battery, the ratio of the number of series-connected batteries in parallel and in parallel is 0.25–200.

FIG. 1 shows an accumulator battery manufactured in accordance with the described method; in fig. 2 is a section along A-A in FIG. one; in fig. 3 - diagram of the connection of batteries in the battery.

The proposed method is as follows.

Electrode 1, for example, positive, is placed in seaiator 2. Electrode 3, for example, negative, is made by applying a metal plate substrate to one side of the active mass, is bent axially around the separated electrode 1 and sealed around the perimeter by welding along the edge 4 free from the mass. In the sealing seam 5, a hole is left for the current collector 6 of the electrode 1, sealed with the aid of a (a helix sleeve 7 or a glass insulator), and a fitting 8 is placed to check for hermetic sealing The accumulator is formed and the electrolyte is poured under the action of vacuum. The accumulators are insulated from each other by film insulating material and connected to the battery by soldering the collector 6 of the inner electrode 1 into the filling socket 8 of the adjacent accumulator. the battery and the sealing of their casting nipples.To obtain mechanical strength and to further seal the batteries, the space between them is filled with a thermosetting compound.

When choosing the ratio of the number of series-connected batteries, equal to 0.25-200, it should be assumed that the batteries of existing structures, as a rule, consist of batteries having a certain number L parallel-connected electrodes. Since the proposed battery is composed of flat batteries having only one electrode of each polarity, and one of the electrodes is also a vessel of the battery, this electrode is somewhat more desirable than the electrode of the same polarity of a multielectrode battery.

As an example, a nickel-cadmium battery can be taken in which the weight gain can be 15–25%. The weight of the multielectrode battery electrode block

/ aKK yVPnon + (V + l) / oTp, (1)

where RPOL is the weight of the positive electrode; POIP is the weight of the negative electrode; L - the number of parallels

electrodes in the battery; The yV + 1 is the number of parallel-connected electrodes of opposite polarity, such as the negative one, which must be 1 more than the number of positive electrodes to create the same operating conditions of the positive electrode in both compared cases.

If it is necessary to obtain a current source of the same capacity from flat batteries with electrodes of the same size as a multi-electrode battery, then in the worst case the weight of its electrode block

RPL. (RPOL + 1.25Rotr) (2)

From the condition of equality of the weights. & Kk, we obtain the lower limit of the ratio of the number of consecutive and parallel connected batteries.

L RPOL + (1) / Otr / V (Ppol + 1.25Rotr), (3)

from where it can be established that the current source from flat, parallel-connected batteries is more desirable than a multi-electrode battery when the ratio N

0.25

With an increase in the number n of series-connected batteries, as can be seen from relation (3), the advantage of a battery from flat batteries increases. The upper limit of the ratio is determined by the specific operating conditions and, in this case, the mechanical strength of the compound. It is limited only by the practically used number of series-connected batteries, which, as a rule, does not exceed 220.

The battery of the Torn battery, manufactured according to the proposed method, which is simpler in design, has a reliable sealing and increased specific characteristics by 1.5 times in weight and more than 2 times in volume.

Claims (2)

1. A method of manufacturing a battery by depositing on one side of a metal plate substrate an active mass of an electrode of one polarity, for example a negative separator installation, placing an electrode of opposite polarity in the separator, for example, positively, bending the substrate along the axial line around the separator and an electrode of opposite polarity, separating the resulting batteries with insulating material, filling the space between the batteries with a thermosetting compound and connecting individual batteries into a battery, characterized in that, in order to simplify the design, increase sealing reliability and improve the electrical characteristics of the battery, on the edge of the metal iodilder and after its bending, a filling nozzle and a current drain of the internal electrode with a bushing insulator are installed in the weld zone and the substrate is welded around the perimeter. 2. A method according to claim 1, characterized in that the connection of individual batteries into the battery is accomplished by soldering the current lead of the inner electrode, for example, a positive one battery, into the filling fitting of the adjacent battery. 3 A battery, manufactured according to the method in accordance with claim 1, consisting of series and parallel connected batteries, characterized in that the ratio of the number of series and parallel connected batteries is 0.25-200. Sources of information taken into account nude examination: 1. Patent of France No. 1448742; cl. H 01t, 2. US patent No. 3607401, CL. 136-6, 1971 (prototype). L r ji