NO115319B - - Google Patents

Description

Method for manufacturing galvanic plate battery.

The present invention relates to a

process for the production of a galvanic plate battery with plastic boxes, where a die-polarizer press piece together with a cardboard collar, an electrolyte carrier, an opium solution electrode and a conductive foil are loaded in the narrow part in a double box consisting of a narrower and a wider part, above which narrower døl, the further dei of the d-adjacent doobelt box is pushed. However, this construction does not provide a completely secure seal against leakage of electrolyte between the cells.

The invention aims to eliminate the aforementioned disadvantage, as well as to further achieve the advantage that the voltage of each individual cell in an oellstable can be measured.

The method according to the invention is mainly characterized by a closed cup-shaped covering of conductive kj emissive-inactive substance, e.g. conductive synthetic material foil is applied to the overturned, further box part on its entire inside facing the depolarizer in advance of gas and liquid fcett.

With the above-mentioned feature of the invention, among other things, a. the following advantages: A loosely applied foil can slip away from its short circuit with the neighboring cell's zinc plate during assembly of the cells and stacks in the event that the thus applied foil is not pore-free. Furthermore, when the cells are stationary, the electrolyte can be pressed between the foil and the box, so that an electrolytic connection takes place between two neighboring cells. Both possibilities are excluded by the application of a closed (lining of the further box with electrically conductive, inert foil.

If the conductive foil is glued on, there is a risk of leakage only on one side, but this is largely prevented by firm compression of the cells. The elasticity of the conductive foil helps ensure that the sealing line is also good on the side on which the foil is not glued.

The invention is described in more detail below with reference to the drawing.

As shown in fig. 1 and 2, the further part 9 of each double box 4 is completely lined inside with conductive foil 12 which is glued gas- and liquid-tight to the box part 9. On one or more sides of the double box there is, solm as can be seen from fig. 3, placed a latein recess 13 which enables the testing of the single-cell cells. With this arrangement, the technical advantage is also achieved that the greatest possible safety against over-cryping of the electrolyte is present. The introduced layer of conductive foil/consists of a closed bowl, through which no liquid can penetrate. The creep path for the electrolyte is significantly extended by this arrangement. Furthermore, the edge of the conductive layer 12 lies between the adjacent, mutually overlapping double boxes and causes a very good seal due to its plastic properties.

The one in fig. 2, the laminated conductive foil 11' can now be completely omitted without there being any danger of over-fertilization of the electrolyte.

In fig. 2 is, 5 "the depolarizer with a collar paper 10, 6 the electrolyte feeder, 7

the zinc plate. The Doibibelt box 4 has an intermediate wall 3 with an opening in between the box parts

8 and -9.

With regard to the term "collar paper", it should be noted that the task of the collar paper is to ensure an extra cohesion

of the depolarizer press piece and to prevent that

possibly crumbling miasse particles:

causing a short circuit.

The term "coating" in battery technology means an 'adhesive leg' or attachment.-de placement of one layer on another.

This ikan happen by rolling or pressing,

nine years the sjiikt to be fonned or one of

they are self-adhesive. The gluing ikan too

proceed with an additional adhesive, as

possibly also rolled and pressed.

Claims (2)

1. Method for the production of galvanic plate battery in tauntstoff boxes, where a diepioilardsatoirpress piece together with a paper collar, an electrolyte carrier, a dissolution electrode and a conductive foil are placed in the narrow part in one of the double boxes consisting of a narrower and a wider part, above which in the narrower part, the further part of the intervening double box is pushed, characterized by a closed top-shaped cover (12) of conductive chemically inactive substance, e.g. conductive plastic foil, gas- and liquid-tight in advance, is applied to the upper, further hiox part (9) of its entire inside facing the depolarizer (5) i 2. Method as stated in claim 1, characterized in that it. Conductive substance (12) is arranged accessible for the introduction of a test tip, as the k-unststoiff-box is equipped with one or more side openings 013).