DE868938C - Galvanic dry element - Google Patents

Description

The invention relates to a galvanic dry element below Use of depolarizers, which in contrast to the manganese dioxide cell when discharging up to half the nominal voltage can be used up to about $ a%. As depolarizers The halogens, especially iodine, are preferred with such properties Question. As experiments have shown, the potential of such a cell is of the Concentration of the ions influencing the constancy of the voltage dependent. It was So far it has not been possible to keep the voltage of such cells constant in the course of the discharge to keep; as this is due to the increase in concentration that occurred during the discharge sank. In the case of the drying element according to the invention, these disadvantages are thereby eliminated avoided that to Kompensier tion of an increase in concentration during the discharge occurring ions which influence the constancy of the voltage a corresponding one There is excess electrolyte.

According to the invention, such an amount of the electrolyte is used that in the process that causes the discharge, the process that determines the constancy of the voltage Concentration of ions is maintained.

In the drying elements according to the invention is therefore for the purpose of recording according to the required amount of electrolyte between the doll and the cup of the element large space arranged. Fig. I shows an embodiment of such Drying element according to the invention. As can be seen, between the zinc cup z, which serves as a negative electrode, and the positive electrode with the depolarization mass The carbon pen and the cap k have a particularly large space to accommodate them of the thickened electrolyte e provided. Otherwise the cell is in the usual way closed by means of a cover plate a at the top. Also, between the positive Electrode and the lower bottom of the zinc cup an insulating so-called bottom star. B arranged. Fig. 2 shows an embodiment of the drying element, namely in the form of a plate cell, in which, according to the invention, the excess electrolyte is housed in a strong, absorbent carrier. As can be seen, rests on the zinc electrode n a wooden box h with electrolyte sucked into the pores. The box takes up a comparatively large quantity of the thickened electrolyte e on. At the top, the box is closed by means of paper p absorbing the electrolyte, on which the mass tablet t rests. The current is diverted from the bulk tablet in the usual way by means of a conductive layer c, on which the zinc plate i with laminated conductive layer lies.

According to the invention, an intimate mixture of solids serves as the depolarizer Iodine with soot and graphite as well as a certain amount of a neutral inner electrolyte more common. Composition. Fig.3 shows a discharge curve of a drying element according to the invention with the depolarization mass given above in comparison to the discharge curve of a brownstone cell; namely, the curve of the cell is after the Invention in dashed lines, that of the known manganese dioxide cell shown in full. The two curves show the technical progress achieved on the basis of the invention see clearly. Compared to a discharge time of about 18 hours for the brownstone cell the discharge time of the cell according to the invention is about 38 hours.

Claims (1)

PATENT CLAIMS: i. Galvanic dry cell with a halogen; in particular iodine-containing depolarizer, characterized by the presence of the electrolyte in such an amount that the concentration of ions which is decisive for the constancy of the voltage is maintained during the processes causing the discharge. Galvanic drying element according to Claim i, characterized in that a correspondingly large space is arranged between the dummy d and the cup z of the element in order to accommodate the required amount of electrolyte. 3. Galvanic dry element according to claim r, characterized in that in a plate cell, the excess electrolyte is housed in a highly absorbent carrier, for. B. in a wooden box h.