DE177772C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

It has been shown that the nickel electrode during the iron-nickel collector the operation of the collector a much more rapid reduction in its efficiency experiences as the iron electrode. The cause of this deterioration in the nickel electrode has not been established with complete certainty, but it seems to be based on the formation of soluble impurities, the

ίο added to the nickel mass Graphite flakes respectively. Attach the conductive material added to the effective mass and thereby adversely affect the electrical conductivity of the electrode. ·

The present invention now relates to a method of removing the harmful reaction products to remove from the effective masses. This is achieved according to the invention in that the effective Mass of a treatment with hot alkali solution with simultaneous generation of large Is subjected to quantities of hydrogen gas inside. The heating is going on expediently brought about electrically by sending a discharge current through the effective mass.- Although the aforementioned harmful influences are particularly noticeable in the case of the nickel mass do, it is advisable to also apply the specified treatment to the iron mass expand, since impurities of the latter have a tendency towards the nickel electrode to wander and spoil these too. The above-mentioned method removes impurities from the effective Masses driven out into the solution. The latter will be upon completion of the procedure poured out and replaced with fresh electrolyte solution.

In carrying out the procedure one proceeds in such a way that one starts with so many Cells to be treated, the iron and nickel electrodes with each other to an opposite pole of the nickel-plated container in such a way that connects the two Electrodes act as cathodes and the nickel-plated container acts as an insoluble anode. A number of cells can be connected in series in this way, according to the Discharge current density. Now you send a current through the system in the direction that the two electrodes of each cell form the cathodes and release hydrogen. ■ With this counter-charge continued for a period of 10 to 30 hours while using the usual charge current. This process results in the generation of heat, which causes the electrolyte fluid is brought to almost boiling temperature and kept there. About the energy released in the form of heat To hold together whenever possible, it is best to cover the cells with asbestos or a to clothe another bad conductor of heat. The first effect of the by The countercurrent sent by the electrodes is, of course, the one that completely closes the active masses

to reduce; but when the complete reduction has occurred the electrodes act as insoluble cathodes on which hydrogen is evolved. In the case of the nickel mass the complete reduction has the consequence that the particles become non-conductive, so that the Hydrogen development on the surface of the graphite flakes and / or. that of the effective ones Conductive material admixed to the ground "

ίο takes place. This treatment of the electrodes has the consequence that the soluble impurities are transported out into the electrolyte solution can be. Apparently the effect achieved is not actually electrolytic, but is based on the dissolution of the impurities in the hot alkali solution, which is facilitated by the mechanical action of the hydrogen bubbles when these escape from the effective masses. After completing the procedure described the solution is poured out and a fresh solution is poured in. The electrodes are then connected in the usual way and for about 24 hours at normal charging amperage loaded.

The execution of the
type described above
Lich depends on the cell container surfaces made of metallic nickel. which is not attacked by electrolytic influences in alkaline solution, so that only oxygen is developed on these surfaces. This makes the method extremely simple to carry out. However, if the cell containers are made of any insoluble insulating material, or if they are completely clad with such a material, special anodes are used, which are made of nickel or graphite plates or any other suitable material. These anodes are introduced into the cell container when the counter-charging of the elec

Procedure in which the hang-up is carried out. The electrodes but can also outside of the cell container to an opposite pole compared to a suitable one insoluble electrode combined and then subjected to the treatment described will.

The method can of course also be applied to the nickel mass alone. In this case, the iron electrode is switched off from the circuit and the countercurrent only affects the nickel electrode applied.

If, after continued use of a battery, you find that its performance decreases and there is a presumption that this is due to the presence of soluble impurities the nickel mass, the method described can be applied to the battery, either using the effective masses of both electrodes or .only the nickel mass alone subjected to the refreshing process. By using this In the process, the battery is essentially restored to its original capacity.

Claims (2)

Patent claims: 1. Method of refreshing conductive with graphite or other insoluble Effective masses of alkaline collectors mixed with material, characterized in that that the electrode to be refreshed is placed opposite an auxiliary anode in a heated alkaline solution as the cathode and subjecting it to the action of a current, heating the solution is preferably brought about by the current itself. 2. Embodiment of the method according to claim I, characterized in that that the cell container is used as an auxiliary anode, with a covering for the purpose of reducing the heat radiation Made of asbestos or the like. Is provided.