SU918914A2 - Device for seismic prospecting - Google Patents

Description

(5) DEVICE FOR SEISMIC EXPLORATION

 1J

The invention relates to seismometry and can be used in conducting seismic, seismic electrical and piezoelectric prospecting in the conditions of mines, tunnels and mine workings.

The use of complex seismic, seismic and piezoelectric measurements greatly expands the possibilities of seismometry, but requires an increase in the bandwidth of the recording devices, which impairs the noise immunity of the latter.

A device for seismic reconnaissance according to the main auth. St. comprising an excitation source of elastic oscillations in the form of an explosive charge placed in a closed metal shell, which is connected to the screen of the measuring lines and the sensor housings and a recorder containing shielded measuring lines and sensors l 3-

A disadvantage of the known device is that the shielding of the measuring and explosive lines, as well as an explosive, excludes the registration of not all interference. In the case when the point of the explosion and the recording system are located at a small distance from each other, the measures taken are not sufficient to separate the first. arrivals of the useful signal against the background of interference, the main source of which is external electromagnetic radiation ..

Claims (1)

It is known that about three quarters of induced electromagnetic radiation are caused by various effects of electrification, mainly destructive rocks, and only a quarter of the radiation that may be delayed by the shell for an explosive is associated with the thermal ionization of the explosion products. Therefore, in order to increase the signal / interference ratio, it is necessary to localize the electromagnetic radiation arising in the rocks surrounding the explosive. The purpose of the invention is to increase the signal / interference ratio from the charge due to the elimination of the rocks destroyed by electrification. This goal is achieved by arranging for seismic prospecting around the explosive charge electrodes are located at a distance not less than the radius of the zone of destruction of the rock, and connected to shields from measuring lines, sensor housings and metal sheath of the explosive. The schematic representation of the proposed device. The device contains an explosive 1, enclosed in a metal sheath 2 and placed in the hole 3 of an explosive machine k, sensor 5 and recorder 6. The explosive is filled with a network of holes 7 located around the circumference in which electrodes 8 are placed, connected by conductors to the shields of measuring lines, shells gauges and metal shell explosives. The device works as follows. Using an explosive machine k, they undermine charge 1 and record the oscillation of seismic or seismoelectric waves with the aid of the recorder 6. In the case of recording of seismic vibrations, the geophones with a glittering body are used as sensors 5, and one of them is grounded. A part of electromagnetic radiation caused by thermal ionization of the explosion products will be delayed by a metal sheath, and a part of radiation caused by electrifying destructive rocks will be delayed by a system of shielding electrodes 8. The distance between the electrodes 8 should be small compared to the wavelength of the electromagnetic radiation. The last requirement is not difficult to satisfy, since the frequencies of secondary electromagnetic radiation do not exceed several kilohertz. The use of the proposed device makes it possible to increase the signal-to-noise ratio by an order of magnitude (especially in seismic prospecting), which ensures a higher accuracy of processing of research materials. The invention The device for seismic exploration by author. St. ., in order to increase the signal-to-noise ratio by eliminating the effect of electrifying destructive rocks, electrodes located at a distance not less than the radius of the rock destruction zone and connected to the measuring line screens are placed around the explosive charge, sensor housings and a metal explosive shell. Sources of information taken into account in the examination 1. USSR author's certificate, cl. G 01 V 1/00, 1979 (prototype).