DE876260C - Bipolar battery - Google Patents

Description

In the case of bipolar batteries, the electrical stores must be installed in such a way that that they form liquid-tight mutually sealed cells, the two Assignments of each electrode so no electrically conductive connections over the Electrolyte: the cells neighboring each other possess. So far this has been the case Attempts to achieve known proposals by making the bipolar Electrode plates insulated into the side walls and the bottom of a container and Embedded in a liquid-tight manner (case i) or with the interposition of suitable insulating frames (possibly with the use of adhesives or putty) as well as two end walls has united by compression to a battery (Fa112).

However, these designs have the disadvantage that they over time leak, primarily within! the bottom wall and at the bottom edges, sda, these parts are exposed to increased mechanical stress compared to the side surfaces are exposed to the easy crumbling of the sealant (case i) or to Loosening of the pressed parts can lead (F, 112). In accordance with the present invention, now in novel; simply on the endangered floor wall or on the floor edges an absolutely secure seal of the bipolar electrodes and, moreover, a A number of other significant advantages achieved.

In case i of the new accumulator, the bipolar electrode plates are which consist of a conductive support wall with positive and negative ground the two side surfaces of which exist, only in the two side walls of the container embedded in a known manner isolated, while the lower edges by a non-conductive, non-conductive to the electrolyte located at the bottom of the container, immiscible and specifically heavier liquid is sealed. Appropriate the panels are built in at a certain distance from the bottom of the container to obtain a larger sludge chamber (Fig. i).

In case 2 the electrade plates are more suitable with the interposition Insulating rods (for sealing the side edges) and two end walls, by pressing them together combined to form a set of electrodes which, however, is open at the bottom i (Fig: 2). This Set is in a suitable container, which is on the bottom with the aforementioned electric non-conductive, indifferent to the electrolyte, immiscible and specific heavier liquid and -over it is filled with electrolyte, so far suspended or posed; that the electrode plates are sufficiently immersed in the insulating liquid.

Except for the absolutely safe insulation inside, the bottom wall or At Aden floor edges there are a further series of additional advantages, which as such are conditioned by the peculiarity of the construction, namely adle that once the plate set or, in the case of pressed plates, the plates, even easily replaced or can be cleaned, on the other hand by the fact that any large sludge chamber is created in which the falling particles are hermetically sealed from, the insulating Liquid are surrounded and thus cannot give rise to short circuits. These advantages also allow the electroids to be incorporated relatively closely which can only be achieved with difficulty with the previous bipolar electrics was connected. At the same time, in case 2, such an arrangement can also be used as a submersible battery Find use, where so, the plate sets separated during storage or at rest of the electrolyte must be kept by in an easy-to-perform manner the plate set at start-up, the cell in the reit insulating liquid and Electrolyte-filled container is immersed or one is placed, which was the case with the previous one bipolar cells only in a very cumbersome way, namely by respective Filling or emptying the simple cells with electrolyte was possible.

- As an example of a liquid sealant, consider a bipolar one Lead-acid battery called trichlorethylene. This is a dielectric, against sulfuric acid chemically indifferent, immiscible, non-flammable, boiling point 88 °, and has a specific weight of 447. For roofing and container material one can then take for example a hardenable plastic.

The drawing shows, namely Fig. I in view t the electrode set with container and Fig. 2, the details of the panel installation.

I is the set of electrodes, 2 is the container; 3: the liquid sealant, at the same time sludge chamber, 4 the electrolyte,, 5 the electrode plates, 6 the end wall of installation; 7, the insulating rods.

Claims (3)

PATENT CLAIM: z. Accumulator, learns the bipolar electrodes in a manner known per se in the side walls of a container. insulated and liquid-tight are embedded or recessed in such a way that their lower seal through a non-conductive, chemically indifferent to the electrolyte and immiscible, but specifically heavier fluid occurs. 2. Accumulator according to claim i, d characterized in that one of any number in a known manner insulated at the side edges and liquid-tight glued or cemented or compressed bipolar electrodes existing electrode set so in the container hung or adjusted that the lower edges of the electrodes are sufficient immerse in the insulating liquid. 3. Accumulator according to claim i and 2, characterized characterized in that the insulating liquid for the floor seal made of trichlorethylene consists.