SU574796A1 - Method of accumulator manufacturing quality control - Google Patents

Description

one

The invention relates to the electrical industry and can be used in enterprises for the production of secondary current sources, in particular during quality control of their manufacture.

A known method of quality control of battery manufacture is carried out by measuring the EMF of a current source in a charged state before and after storage, and then determining the quality of battery manufacture from the difference of these EMF 1.

However, in a charged source, the change in emf is affected by its natural self-discharge, which reduces the control accuracy. In addition, this method requires long-term storage of batteries.

The closest to the technical essence of the invention is a method of quality control of battery manufacturing, in which, before measuring the EMF, the battery is discharged and the determination of the difference in its EMF before and after storage is performed in a discharged state of the battery 2.

However, the storage time of the battery lasts from several days to several months. This time is required for the natural formation of interelectrode circuits in the battery, due, for example, to the formation of copper or cadmium dendrides, leading to a decrease in the battery's EMF.

after storage. During the established

The storage time for the formation of copper or cadmium dendritic bridges between the electrodes may not occur, since a longer storage time is required for a given sample (battery) than is set under the control. At the same time, during operation, dendrides can form and cause the battery to malfunction, which reduces the reliability of the control and operation of the battery by the consumer.

The aim of the invention is to improve accuracy and reduce battery monitoring time.

For this, in a known method, including the discharge of a battery, measuring the difference in its EMF before and after storage in a discharged state, before the initial measurement of the EMF, an alternating current, for example, of sinusoidal form, is passed through the battery with a frequency of 1-100 Hz time, the ratio of which to the storage time is 0.001-0.02, and with an effective value of current amounting to 0.001-0.5 C, where Cn is the value of the nominal capacity of the battery. A / h

The proposed method for quality control of battery manufacturing is carried out as follows.

The battery is discharged to a finite discharge voltage. An alternating current, for example, of a sinusoidal form with a frequency of 50 Hz, is passed through the battery for a time, the ratio of which to the storage time in a discharged state is, for example, 0.02, for example, for 30 days It takes about 15 hours. The effective value of the AC current is taken to be 0.001-0.05 in magnitude of the nominal battery capacity (СН) depending on the type and thickness of the separation between the battery electrodes. The greater the separation thickness, the greater the current strength.

Passing an alternating current accelerates the formation of copper dendrides or cadmium through separation. If there are local places (points) between opposite electrodes in which sprouting through dendrides, such as copper, can form during battery operation, the sprouting of such dendrides is accelerated by passing an alternating current.

At the end of the transmission of the alternating current, the emf of the battery is measured and stored in a pa, after which its emf is measured again and the quality of manufacture of the battery is judged by the difference in these emfs.

The application of the proposed method allows to increase the accuracy and reliability of the quality control and the quality of current sources sent to the consumer, to reduce the time of control operations.

Claims (2)

1. USSR author's certificate No. 444279, cl. P 01M 23/00, 1974. 2. USSR Author's Certificate N ° 543049 cl. H 01 M 10/42, 1975.