SU878934A1 - Method of breaking rock by electric current - Google Patents

Description

one

The invention relates to the mining industry, to methods for the destruction of rocks by the discharge current of a capacitor.

There is a known method of destroying mountainous rocks, in which, in order to increase the likelihood of energy input from a co-sensing battery into a rock, a conductor w, i channel with a power frequency current is preliminarily formed in the rock, and then energy from a capacitor battery 1 is introduced into it.

The drawbacks of this method are the sharp increase in the energy intensity of the blasting process at the expense of the energy consumption for the formation of the channel, the consumption in the relatively cumbersome equipment necessary for their realization.

The closest in technical dryness and results to the invention is a method of destroying rocks by electric current supplied to the rock by means of electrodes which are brought into contact with the rock 2.

This method allows to increase the electrical strength of the rock surface between the electrodes by stirring a dielectric barrier made of a solid dielectric on it. This made it possible to increase the likelihood of rock samples.

The disadvantage of this method is the low reliability of the working body. This is due to the fact that during breakdown only part of the energy stored in the capacitor bank is spent on the destruction of the rock, and the rest of the energy is transferred to the kinetic energy 5 of the crushing products. If there is no solid electrode between the electrodes, all this energy will be spent on its destruction, which will lead to the failure of this dielectric, and consequently, the implementation of the method will stop, and the probability of destruction will again decrease.

The purpose of the invention is to increase the efficiency of destruction by providing stable rock formation.

The goal is achieved by the fact that the space in which the electrodes are installed is hermetically sealed from the rest of the volume and filled with its gas, the electrical strength of which is higher than the electrical strength of the air. As a flash, its gas can be used (SFe). The drawing shows a schematic diagram of the implementation of the removal.

25 The method is carried out as follows.

Electrodes 1, made, for example, in the form of an annular peripheral electrode and a central one, located in a well,

The building is entered in contact with the rock mass 2.

3

Then, using a well-known hermetic partition 3 (ventilation doors, masonry and so on), the output volume 4, which assumes ocyniecTBUTb destruction of the massif 2, is discharged. Then, through the nozzle 5 from the gas reservoir 6, a gas volume 4 is produced, which displaces the air there.

Sensor 7 in preventer 8, located at the opposite end of the well, detects the filling of the working volume with a gas-dielectric. Gas in working volume 4 is maintained at a pressure sufficient to completely displace air.

After that, a 9n pulse energy generator is turned on, rock is being crushed, which falls through the electrode system onto the production soil, from where it is shipped through the hatch 10, if necessary. After shipment, volume 4 of the chamber is again filled with gas.

Filling the space in which the working body is located increases the dielectric strength of the rock surface, resulting in a stable rock breakdown and a complete exception to blocking its surface. At the same time, the dielectric barrier is not destroyed by the crushing products, which significantly increases the reliability of the working body.

As a dielectric gas, it is proposed to investigate SF6 or Freon.

(CS), the electrical strength of which at a normal atmospheric pressure is 2.5 times higher than the electrical strength of the air. Such an increase in the electric strength of the rock surface is 50–60% greater than that required for the complete elimination of surface discharges.

Claims (2)

1. A method of destroying rocks by an electric current supplied to the rock by means of electrodes which are brought into contact with the rock, characterized in that, in order to increase the efficiency of destruction by depleting the stable nrobo rock, the space in which the electrodes are installed is hermetically insulated from the rest volume and fill it with gas, the electrical strength of which is higher than the electrical strength of air. 2. A method according to claim 1, characterized in that SF6 is used as the fill gas. Sources of information taken into consideration prn examination 1. Authors certificate of USSR L 341944, cl. E 21 C 37/18, 1970. 2. USSR author's certificate according to the application 2492523 / 22-03, cl. E 21C 37/18, 1977. iSSuii iiiii iis: 5y7 5: g; w 5 :: TT 9 , /