SU957965A1 - Method of controlling electric spark crushing process - Google Patents

Description

The invention relates to the mining, building materials industry and can be used to improve the processes of crushing and destruction of solid materials by electrical discharges.

There is a known method for controlling the process of electric-spark grinding, pieces of solid material placed in a liquid, including the application of voltage to the electrodes during the discharge .Cl.,

The disadvantage of this method of crushing is the relatively high energy intensity, due to the fact that high-voltage pulses of the same voltage are applied to the electrodes of the electric-spark crusher. Experimental studies make it possible to establish that the breakdown voltages even for geometrically identical pieces differ quite strongly, their values are randomly distributed within some relatively wide interval. ... In addition, the reduction of energy consumption by using the control of the electric-spark crushing process by adjusting the magnitude of the voltage applied to the electrodes is not possible according to the known method.

The purpose of the invention is to increase the quality of control by reducing the energy content of the crushing process.

The goal is achieved by the fact that according to the method of controlling the process of electric-spark crushing of pieces of solid material placed in a liquid, including applying voltage to the electrodes during the discharge, the relationship between the bulk electrical conductivity of the piece of electrical material and breakdown voltage is additionally established and before each discharge the volumetric electric conductivity is measured, and the voltage applied to the electrodes during the discharge is carried out depending on the volumetric electric conductivity. STI based ustavov- lennoy to the dependence.

FIG. Figure 1 shows the relationship between the bulk electrical conductivity of a material and its breakdown voltage. FIG. 2 is a block diagram of a control system.

A correlation is established between the breakdown value of the voltage and the bulk electrical conductivity.

for coals, sandstones, mudstones, etc.

The correlation coefficient is very wide (0.9).

According to FIG. 1, it can be calculated that the ratio of the energies expended to breakdown and sample failure at voltages corresponding to the 95% probability of breakdowns and voltages corresponding to the upper confidence limit is 2.2. Thus, predicting the electrical strength of rocks can reduce energy consumption by more than two times.

Pieces of crushable Ohx material entering the electric spark crusher 1 are located inside it between the grounded screening organ 2, which simultaneously plays the role of a low-voltage electrode, and the high-voltage electrode 3. Device 4, electrically connected to electrodes 2 and 3, makes it possible to estimate the volume electrical conductivity of pieces in the interelectrode gap. Information about the actual volumetric electrical conductivity of the crushed pieces in the form of the electrical signal is fed to the input of the automatic control system 5, which, based on the correlation dependencies between the breakdown voltage and the bulk electrical conductivities, provides for the formation of

Generator B is actually required for voltage breakdown.

This control method allows to significantly increase the efficiency of the electric-spark crushing process due to a sharp decrease in its energy intensity.

Claims (1)

Invention Formula The method of controlling the electric spark crushing of pieces of solid material placed in a liquid involving the supply of voltage to the electrodes during the discharge, characterized in that in order to improve the quality of control by reducing the energy intensity of the crushing process, the relationship between the bulk electrical conductivity is also established. a piece of material located in the interelectrode gap, and the breakdown voltage and before each discharge measure the volume conductivity, and the supply voltage to the electrode s during the discharge are carried out depending on the volume conductivity based on the established relationship. Sources of information taken into account in the examination 1. tonkonog MP Dielectric relaxation, electrical breakdown; and rock destruction. M., Nedra, 1975, p. 25-37. / Ul.t