DE102457C - - Google Patents

Description

PATENT OFFICE.

PATENT LETTERING

CLASS 21: Electrical apparatus and machines.

ERNST MERIAN in BRUSSELS. Collector Electrode.

Patented in the German Empire on March 24, 1898.

The present invention relates to an electrode plate for electrical collectors. Same consists of individual members, for the most part independent of one another, which act as carriers serve the effective mass. This should cause the slab to be thrown and the mass to fall away, as is the case with uneven charging, vibrations and generally after a long period of time Use of the plate can be prevented.

The grid plates currently in use are designed in such a way that that the effective mass with the formation of individual cakes is between more or less strong projections or ridges of the plate is held. In the event that the the effective mass between receiving projections or webs under formation is proportional small cakes are numerous, a not inconsiderable part is electric Energy lost through the many lead bridges. Accordingly, the efficiency arises such collector low.

If, on the other hand, plates with large cakes, that is, with few bars, are used, this is the case again the disadvantage that the electric current, the shorter and better metal route following, does not penetrate sufficiently into the effective mass; even after perfect formation the electric current reaches the center of the effective mass only very weakly. For these reasons, the formation and loading of such plates can only be proportional weak currents are applied.

A maximum electrical work output would probably be achieved if on the one hand every part of the lead surface absorbs the current evenly, and every part the would supply effective mass evenly, on the other hand the surface of the effective Mass of uncovered part of lead brought back to the smallest possible extent would.

The present invention is now all of these considerations, as far as the Practice admitted, taken into account and so a plate was created which next to other advantages also include an even consumption and output of the electric current to the effective mass.

On the accompanying drawing is an embodiment of the new plate for illustration 1 shows the same from the front, FIG. 2 shows the same in longitudinal section along line 1-2 of FIGS. 1 and 3 in cross section along line 3-4 of FIG. 1.

The plate has the usual rectangular shape in outline and consists of two similar parts, each consisting of a longitudinal part α, respectively. α} a ^l with transverse webs b respectively protruding to one side. b ^{1 are} formed. The latter interlock with one another and form the central part of the plate, while the longitudinal parts α α and α ¹ α ¹ delimit the plate on the long sides. The exact position of the parts in relation to one another can still be ensured by means of grooves and tongues c provided on the converging end faces of the plate parts. The narrow space remaining between the two plate parts allows the electrolyte to circulate across it

the plate. As a result of this composition of the plate from two finger-like in each other The individual parts of the grasping parts can expand independently of one another.

In order to hold the effective mass firmly on the plate, both parts of it are surrounded on both sides by protruding edges, which are connected to one another by several ribs provided on the plate. The edges and ribs are appropriately undercut, so that the effective mass adheres more firmly. The number and surface of the ribs and edges are kept as small as possible in order to distribute the exit of the electric current from the electrode evenly over the whole mass. Furthermore, for the purpose of reducing the weight of the plate and more firmly adhering the effective mass, the plate is provided with slotted openings f through which the mass coverings can connect in places on both sides of the plates. The size, number and shape of these openings depend on the conditions to be placed on the plate.

In order to produce the above-described electrode plate, a casting mold is first made with smooth walls, which are only one in length, width and thickness with the one to be produced Electrode would result in a matching full plate.

To create the cavities for the absorption of the effective mass, cores are placed, which consist of a plastic mass which corresponds to the temperature of the liquid lead resists, but is soluble in a liquid that does not attack the lead, into the mold a. After the Gufs have been completed, the cores are destroyed, whereupon the finished panel with the effective mass is filled.

Claims (2)

Patent Claims: 1. Collector electrode, consisting of two or more independent from each other, with offset fingers interlocking and thus complementing each other to form the plate Divide, for the purpose of throwing the plate under the influence of the to prevent electrical current. 2. Embodiment of the described in claim ι Collector electrode, characterized in that the mutually engaging approaches with perforations and on Both sides with diagonally undercut or dovetail-shaped edges to better hold the effective mass are provided. For this purpose ι sheet of drawings.