SU1151900A1 - Device for locating inhomogeneity in mountain rock mass - Google Patents

Abstract

A DEVICE FOR SEARCHING INHOMOGENEITIES IN THE MASSIFY OF MOUNTAIN BREEDS, containing a radiating antenna, a receiving antenna of the measured signal, first and second selective amplifiers, an amplitude meter and a phase meter, differing from the fact that, in order to expand functionality by determining the size and depth of inhomogeneities, it contains the transmitting and receiving units, while the transmitting unit contains a clock pulse generator, the first sawtooth voltage generator, a controlled oscillator with tunable an amplitude modulator and a frequency-tunable power amplifier, the first output of the clock generator is connected to the start input of the sawtooth generator, and the second output is connected to the control input of the amplitude modulator, the first output of the sawtooth generator, neither a frequency tunable power amplifier, and a second output with a control input of a controlled oscillator with a tunable frequency, the output of which through an amplitude modulator and tunable The frequency amplifier is connected to the radiating antenna, the receiving unit contains the reference receiving antenna, the first and second preselectors with a tunable frequency, the first and second intermediate frequency converters and the second sawtooth voltage generator, the selector of clock pulses, the local oscillator with a tunable frequency, and The antenna of the measured signal is connected to the input of the first selective amplifier (L) through the signal circuits of the first preselector with a tunable frequency and from the first the intermediate frequency converter, the first output of the first selective amplifier is connected to the input of the amplitude meter, and the second output is connected to the signal input of the phase meter, the receiving antenna of the reference frequency signal is connected to the signal input of the second preselector with a tunable frequency, the output of which is connected to the signal input of the second intermediate frequency converter, the output of which is connected to the input of the second selective amplifier, the first output of which is connected to the reference input of the phase meter, and the second output through the clock pulse selector is connected to the start input of the second sawtooth generator, the first and second outputs of which are connected respectively to the control inputs of the first and second presses

Description

Tuners with tunable frequency, connected respectively with the input, the third output is connected to the control inputs of the first and second local oscillator with tunable frequency converters intermediate frequency, the first and second outputs of which are tota.

1151900

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The invention relates to geophysics and more specifically to devices for geological surveying, and can be used in the exploration of mineral resources, as well as to search for engineering communications and other hidden heterogeneities in the rock massif under study.

A device for detecting engineering communications in an array of rocks is known, comprising a sinusoidal voltage generator, an induction converter with a generator coil and a system of measuring coils located coaxially with the generator coil, as well as switches, a compensator, a discretely adjustable gain amplifier, a clock pulse generator, a selective amplifier , demodulator, memory, comparison circuit, pulse counter and indicator P.

The disadvantage of this device is the limited functionality due to the impossibility of its use for searching dielectric inhomogeneities.

The closest in technical essence to the invention is a device for searching for inhomogeneities in a rock massif, comprising a radiated antenna, a receiving antenna of a measured signal, first and second selective amplifiers, an amplitude meter and a C23 phase meter.

A disadvantage of the known device is also limited functional capabilities due to the difficulty of determining the size and depth of heterogeneous materials. The purpose of the invention is to enhance the functionality by determining the size and depth of the non-Uniformities.

This goal is achieved by the fact that a device for searching inhomogeneities in a rock mass containing a radiating antenna, a receiving antenna of a measured signal, the first and second selective amplifiers, an amplitude meter and a phase meter, contains transmitting and receiving units, while the transmitting unit contains a clock pulse generator , the first sawtooth generator, a tunable frequency controlled oscillator, an amplitude modulator and a frequency tunable power amplifier, the first output being The clock pulse is connected to the trigger input of the sawtooth voltage generator, and the second output is connected to the control input of the amplitude modulator, the first output of the sawtooth voltage generator is connected to the control input of the frequency tunable power amplifier, and the second output to the control input of the controlled a tunable frequency generator, the output of which through an amplitude modulator and a tunable frequency amplifier of the monastery is connected to a radiating antenna, the receiving unit contains a receiving antenna reference tunable frequency first and second preselectors, first and second intermediate frequency converters and second sawtooth voltage generator, clock pulse selector, tunable frequency oscillator, the receiving antenna of the measured signal connected to the input of the first selective amplifier through the signal circuits of the first preselector with tunable Frequency and the first intermediate frequency converter, the first output of the first selective amplifier is connected to the input of the amp meter The second output is connected to the signal input of the phase meter, the receiving antenna of the reference signal is connected to the signal input of the second selector with a tunable frequency, the output of which is connected to the signal input of the second intermediate frequency converter, the output of which is connected to the input of the second selective amplifier, the first output of which is connected to the reference the phase meter input, and the second output through the clock pulse selector is connected to the start input of the second sawtooth voltage generator, the first and second outputs to torogo connected respectively to the control inputs of the first and second tunable preselector h | Totoy, and a third output coupled to an input of a tunable local oscillator, first and second outputs are connected respectively to the control inputs .First and second intermediate frequency converters.

The drawing shows a structural diagram of the device.

The device contains transmitting 1 and receiving 2 blocks. Broadcast unit

I1 contains a clock pulse generator (GTI) 3, the first output of which is connected to the start input of the first sawtooth generator (LPG) 4, the output of which is connected to the input of a variable frequency controlled oscillator (UGHF), the output of which is connected to the signal input of the amplitude module torus (AM) 6,

The control input of which is connected to the second output of the GTI 3 and the output connected to the signal & the input of the frequency-tunable power amplifier (UMPCH) 7, the control input of which is connected to the second output of the first FPG 4, and the output to the radiating antenna 8. Receiving unit 2 contains a receiving antenna of the measured signal (PAYS) 9 connected to the signal input of the first tunable frequency selector (FPCH) to, you, whose course is connected to the signal input of the first intermediate frequency converter (IF) 11, output

which is connected to the entrance of the first

selective amplifier (IC) 12, the first output of which is connected to the input of the meter 13 amplitude. The reference receiving antenna (PASS) 14 in the receiving unit 2 is connected to

the signal input of the second PCF 15, the output of which is connected to the signal input of the second IF 16, the output of which is connected to the input of the second PS 17, the first output of which is connected through the clock pulse selector (STI) 18 to the input of the second GPN 19, the first and second outputs of which are connected respectively with the control inputs of the second PCF 15 and the second IF 16, and the third terminal is connected to the input of a variable frequency oscillator (VFD) 20, the first and second outputs are connected respectively to the control inputs of the first and second IF 11 and 16. The second inputs of the first and second On the second PS 12 and 17 are connected respectively with the signal and reference inputs of the phase meter 21.

The device works as follows.

GTI 3 generates pulses to start FPG 4, which controls the frequency of UGPR 5 and adjusts 7 to the frequency of UGPR 5. Simultaneously, the pulses produced by GTI 3 are on (Step on AM 6, which modulates the voltage of UGPC 5 on amplitude with clock pulses. On radiating The antenna 8 receives a variable frequency signal, modulated in amplitude by clock pulses.

The primary electromagnetic field of variable frequency, the passage through the studied massif of rocks, induces a secondary field, the amplitude and phase of which depends on the electromagnetic properties of the rocks.

The secondary electromagnetic field is captured by PAIS 9, the signal of which is fed to the VFR 10, and then to the IF 11, and then amplified by the PSI 12 and fed to the amplitude meter 13 and the phase meter 21. The primary electromagnetic field is sensed by the PAC 14 and serves to form a reference signal. The signal from the PAC 14 is fed to the HRC 15, from the output of which is fed to the FC 16, is amplified by the second PS 17 and is fed to the reference input of the phase meter 21. The clock selector 18 extracts the clock pulses that trigger the second LO 19, such as Thus, the frequencies of the signals at the outputs of the first and second frequency converter 11 and 16 are constant, as well as the frequency control of the first 1 and the second frequency converter 10 and 15, so that the frequency to be tuned is equal to the frequency of the HRDI 5. The amplitude meter 13 and the phase meter 21 measure according to amplitude the phase of a received, the magnitude of which is judged on the characteristics of the studied rock mass. The invention extends the functionality of finding non-homogeneity in mountain massifs through the use of excitation signal modulation circuits in frequency and amplitude, as well as through the use of a reference signal circuit in a receiving unit connected to the excitation circuit of the transmitting unit by an electromagnetic excitation field repeatedly determine the size and depth of the inhomogeneities.

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Claims (1)

DEVICE FOR SEARCHING INHOMOGENEITIES IN A ROCK ARRAY, containing a radiating antenna, a receiving antenna of the measured signal, first and second selective amplifiers, an amplitude meter and a phase meter, characterized in that, in order to expand the functionality by determining the size and depth of the inhomogeneities, it contains transmitting and receiving blocks, while the transmitting unit contains a clock pulse generator, a first sawtooth voltage generator, a controlled oscillator with a tunable frequency , The amplitude modulator and tunable frequency power amplifier, a first output clock pulse generator connected to the input of the sawtooth generator start ', and the second output - to the control input of the amplitude modulator, the first sawtooth generator output coupled to an input upravle-. frequency tunable power amplifier, and the second output with a control input of a controlled generator with tunable frequency, the output of which is connected to a radiating antenna through an amplitude modulator and frequency tunable amplifier, the receiving unit contains a receiving antenna of the reference signal, the first and second preselectors with tunable frequency, the first and second intermediate frequency converters and the second sawtooth voltage generator, clock selector, local oscillator with tunable h frequency, and the receiving antenna of the measured signal is connected to the input of the first selective amplifier through the signal circuits of the first preselector with tunable frequency and the first intermediate frequency converter, the first output of the first selective amplifier is connected to the input of the amplitude meter, and the second output is connected to the signal input of the phase meter, the receiving antenna of the reference signal is connected to the signal input of the second preselector with a tunable frequency, the output of which is connected to the signal input of the second an intermediate frequency converter, the output of which is connected to the input of the second selective amplifier, the first output of which is connected to the reference input of the phase meter, and the second output, through the clock selector, is connected to the start input of the second sawtooth voltage generator, the first and second outputs of which are connected respectively to the control inputs of the first and the second presuSU, 1151900 are connected respectively to the control inputs of the first and second intermediate frequency converters. tuners with a tunable frequency and the third output is connected to the input of the local oscillator with a tunable frequency, the first and second outputs of which