SU703605A1 - Current supply to electrolyzer electrodes - Google Patents

Description

(54) CURRENT CONTROL TO ELECTRODES ELECTRODES

The invention relates to metal-engineering and, in particular, to equipment of workshops for the electrolytic production and refining of non-ferrous metals, for example copper.

A current lead to the electrodes of the electrolytic cell is known, which contains an equalizing bus provided with contact lugs and located on the longitudinal side of the bath, and insulators located on axle 1. In the known current lead, insulators are installed along the center line of the bus in staggered order and form grooves for fixing the anodes and cathode rods

The disadvantages of the known current lead are that the grooves for fixing the electrodes are made in an insulator, and this does not ensure their sufficient mechanical strength, i.e. reliability of the electrical power supply, as well as the fact that the known electrical power supply does not allow the electrodes to be pinched so that their edges are parallel to the walls of the bath, and this does not allow the anodes to be buried in the electrolyte, which reduces the potential performance of the electrolyzer.

The purpose of the present invention is to improve the reliability and performance of the electrolyzer.

The goal is achieved by the fact that on one of the contact projections

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grooves for fixing the anodes, and on the other for fixing the cathode rods, and these grooves are placed relative to each other in a staggered order with the same pitch, and the ratio of the distance from the tire to the bottom of the groove for fixing the cathode rod to the bottom the slot for fixing the iodine is (1, M.5): 1.

Figure 1 is a general view of the electrical power supply; and in fig. 2 - block electrolysis baths, view in plan.

The proposed device is made in. as an equalizing bus 1 provided on one of the longitudinal sides with a protrusion 2 with grooves 3 for fixing the anodes 4, and with the other a protrusion 5 with grooves 6 for rigidly fixing the cathode rods 7. Between the projections 2 and 5 are placed installed at a given step coaxially with grooves 6 insulating inserts 8. The current lead 70 is mounted on the longitudinal sides 9, 10 of the adjacent electrolyzers on an insulating gasket 11. Acode 4 is consolidated from the sides mounted on the insulator 12. Pa: 3 and 6 for fixing the anodes 4 and each utan 7 established relative to a friend in a chess set ke. .-. To ensure that the distance set from the base of the front busbar 1 to the base of the groove b is fixed, tiejiHOTHoiiieHHe for rigid fixation of the cathode rod 7 D) to the base distance to the basic groove 3. to fix the anode, 4 (c) is (1.1, 5): 1. This ratio is necessary both for the parallel passage of the electrodes in Jann and the optimally optimal use of the working volume of the electrolysers. . The reduction of the specified ratio is unacceptable because of the inevitable misalignment of the electrodes and the deterioration of cathode quality due to uneven conditions of copper. Revealing this correlation will lead to a contraction: enik), proisability and deterioration of the technical economic indicators of the process. TaiaJM, this ratio provides the maximum performance when used and - essentially 100%. electrodes and electrolysis units ... The current k is applied to the anode 4 using the interrupt yytthroClBa is carried out as follows: rbr: 3 cm; . . The current with equalization falls on the anodes of 4 electrolysers, then through the electrolyte and the cathode to the cathode, rod 7 of the same electrolyzer. From the cathode and ang 7tok falls on the balancing bus 1 of the electric motorized puller, and from it the anodes 4 of the same elektroiZera. ./. . . ..:,. -: -. The proposed device provides: a) a rigid fixation of the position and pitch. pfcctaHoBsra electrodes in the electrolyzer,,; which is necessary to improve the performance of the electrolyzer and to ensure the possibility of a combination of loading and unloading of the electrodes into the electrolyzers, such as, for example, in the same pattern, I’m using the pattern and I’m using the pattern on the line, I’m using the pattern on the line, I’m using the pattern on the tab, and I’m using the pattern on the tab, I’m using the pattern on the tabs, I am using the pattern on the tab, I am using the settings on the tab, and I am using the settings on the tabs, I am using the settings on the i According to the performance of 6–20%, while simultaneously rigidly fixing the electrodes, C1 shrinks the number of interelectrode short circuits (due to the elimination of the twisting effect of this electrode by another). b) reliable electrical contact in the circuit-, pi anode-cathode, sKOHONmio of electricity, optimization of the conditions of the process of electrolysis - increasing the grade of cathode copper. c) the maximum possible use of the working surfaces of the electrodes due to their rational placement in height in the working volume of the electrolyzer and ensuring the parallelism of the working cloths of the electrodes, which will make it possible to increase the performance of the electrolyzer by more than 2.0%. The operation of the electrical power supply can be within the range of 3.5 to 23.5%. The service life of the current lead supplied in comparison with the existing one is 3–6 times shorter, which is stiffened by the stiffness of the design. Summary of the Invention Current lead to the electrodes of the electrolytic cell, containing a Uravggel bus, a siabzheshy contact protrusions T1ami and located on the longitudinal side of the bath, and. Isolation located on the Shiis, characterized in that, in order to increase reliability and; the electrolyzer solids capacity are made on one of the contact protrusions grooves for fixing the anodes, and on the other - for fixing cathode rods; The busbar busbar until the bottom of the groove of the pn fyksash anode is (1.1-1.5) :. The sources of information taken into question at the examination i. U.S. Patent No. 3,929,614, Cl. 204-242, pub. 1975.