DE329544C - Dismountable zinc-carbon battery - Google Patents

Description

GERMAN EMPIRE

ISSUED ON NOVEMBER 29, 1920

REICH PATENT OFFICE

PATENT LETTERING

- JVi 329544 CLASS 21 b. GROUP

Dr. Ferdinand Keiner in Groitsch near Teicha, Saalkreis.

Dismountable zinc-carbon battery. Patented in the German Empire on March 29, 1919.

There are dry batteries known in which the plate-shaped electrodes with between stiffened electrolyte or electrolyte absorbed by porous bodies Kind of a voltaic column are combined into a battery. Have such batteries compared to the common ones the advantage that they are firstly very cheap to produce, because a large part of the manual labor (soldering

o> of the zinc cylinder, the contacts, in the case of manganese dioxide elements Manufacture of the brown stone bag, among other things. m.) and, secondly, the Make better use of the entire space, because the round elements are created when the round elements are put together There are no gaps. On the other hand, such batteries have the disadvantage that when carbon-zinc elements are used which in the form of the Lechanehe type are by far the cheapest of all known

ο types are the electrolyte penetrates the porous carbon plate and with the zinc plate of the next element, if it rests directly on the carbon, a short-circuited Element forms for itself, the secondary flow of which firstly counteracts the current of the battery and secondly, the zinc plate is destroyed after a very short time. To remedy this evil it has been proposed to wax the coal-brownstone plate. Happens

ο but only superficially on the back the plate, then the purpose will not be achieved. If, on the other hand, the impregnation is complete, for which purpose the carbon plate is glowing Must be immersed in boiling paraffin, then the effectiveness of the plate surface and the polarizer by wrapping. significantly impaired in paraffin. This one Deficiency seeks to remedy the battery described below. Make the drawings dar: -

Fig. Ι Average through a battery of three elements,

2 the frame containing the electrolyte in plan and section,

■ Fig. 3 contact plate iii intersection and At sight,

4 the same in a different embodiment.

Each element is composed of the carbon-manganese dioxide plate a, the zinc plate b, and the cardboard frame c between them, which contains the stiffened electrolyte or the electrolyte absorbed by the porous substance between blotting paper. Compared to the known, the composition of several such elements to a battery differs in that between each element there is an impermeable intermediate layer d , which on the one hand prevents the zinc plate from being oxidized by the moisture absorbed by the carbon plate, and on the other hand a good contact connection between the Elements must produce. This intermediate plate d can consist of a metal plate d, which is bare on the side adjacent to the zinc pole, but has small attachments h made of non-oxidizable metal (platinum, gold) on the other side, but otherwise completely lacquered or with a different oxidation hindering insulating layer g is coated. Instead of the metal plate, however, a plate made of impermeable insulating material can also be used.

the, in which small platinum pins h are riveted according to FIG. 4, on both sides of the carbon and zinc plate rest. This arrangement achieves a completely secure contact connection between the individual elements and makes oxidation impossible. The costs arising from the use of the very small pieces of platinum, which can be further reduced by adding small gold-plated protrusions to plate d in place of the platinum tips, will be eliminated very soon, since the issue is only a one-off issue and the intermediate plates are renewed the battery can be used over and over again.

Claims (4)

Patent Claims: i. Dismountable zinc-carbon dry battery with plate-shaped electrodes according to Type of Voltasaule, characterized in that the connection of the individual Elements through a moisture-impermeable intermediate layer, which on the one hand makes contact with the carbon plate through attachments made of non-oxidizable metal (platinum), Otherwise, however, it is protected against moisture by a varnish coating or the like and on the other hand creates a metallic connection with the zinc plate. 2. Battery according to claim i, characterized in that the intermediate layer consists of a metal plate (d) which is bare on the side adjacent to the zinc and on the other side with small platinum contacts (Ji) and a protective one - Lacquer layer (g) or the like is provided. 3. Battery according to claim 1, characterized in that the intermediate layer consists of a plate made of insulating material (cardboard, hard rubber, celluloid, fiber, etc.) with riveted platinum contacts. 4. Battery according to claim 1 to 3, characterized characterized in that the platinum contacts by small gold-plated bumps are replaced. - For this purpose ι sheet of drawings.