SU1341355A1 - Apparatus for detecting tectonic disturbances of coal seam - Google Patents

Abstract

The invention relates to mining industry and is intended to detect inhomogeneities and low-amplitude tectonic disturbances of coal and shale mines. The invention is an increase in reliability and validity due to functional testing and continuous monitoring of the processing of control codes. The device contains in each channel consistently connected seismic detectors 1, preamplifiers 2, blocks 3 of the programmed gain control, attenuator 4, band-pass filters 5, the outputs of which are connected to the inputs of the multichannel imaging and recording unit 6. In addition, the device is equipped with a generator (D) 8 control codes, 12-15-15 operating equipment, a functional G 9, an attenuator 10, I 1 keys and an indication unit 7. By generating the corresponding codes in G 8, the law of the gain change and the operation time of the blocks 3 are set. The attenuation level in attenuators 4, the filter bandwidth 5, the sweep speed and the delay time of the gather on the screen of the cathode ray tube of the block 6. The operation of the nodes and blocks in the course of work and the setting of the modes of operation are carried out by the control circuit - decoders 12-15 and the display unit 7. Functional G 9, attenuator 10 and keys 11 form the test circuit. With its help, the main technical x-ki of the units and blocks of the device are determined. 1 and. to "(L with 4 SO JV JV

Description

The invention relates to mining and can be used to identify irregularities and low-amplitude tectonic disturbances of coal and shale mines, including hazardous gas and dust.

The aim of the invention is to increase reliability and validity due to functional testing and continuous monitoring of the control codes.

The drawing shows a block diagram of the device.

A device for detecting tectonic disturbances of a coal seam contains in each channel sequentially wk helix seismic receivers 1, preamplifiers 2, blocks 3 of programmed gain control, attenuators 4, band-pass filters 5, multichannel visualization and recording unit 6, display unit 7, generator 8 control codes , functional generator 9, additional attenuator 20, chi 11, decoders 12-15.

The outputs of the generator 8 of control codes are connected to the control inputs of the programmable gain control unit 3, attenuators 4, band-pass filters 5, imaging and recording unit 6, the control outputs of which are connected to the display unit 7 through the corresponding digitizers 12-15.

Other outputs of the control code generator 8 are connected to the control inputs of the keys 11, the additional attenuator 10 and the function generator 9, the output of which is connected to the input of the additional attenuator 10, the outputs of which through the corresponding keys 11 are connected to the inputs of the preamplifiers 2, blocks 3 of the program gain control, attenuators 4, bandpass filters 5 and block 6 visualization and registration.

The software gain adjustment units 3, attenuators 4, band-pass filters 5, imaging and recording units 6 contain decoders and encoders (not shown).

The device works as follows.

Seismoacoustic signals are excited in a coal seam by means of an explosion or a special device, received by means of geophones 1 and converted into electrical signals, amplified in preamplifiers 2 to the required level and fed to the input of blocks 3 of the programmed gain control. Adjusting the gain according to a predetermined rigid program (law) is necessary to suppress the most powerful first bursts of oscillations on the seismogram in order to expand the dynamic range of the recorded seismic signals. The law of variation of the gain from the minimum to the nominal value may be different, for example, linear, logarithmic, etc., with the beginning of the operation of block 3 of the program adjustment

coincides with the beginning of the seismogram registration process, and the adjustment time is determined by the mining and geological conditions of the studied medium, more precisely, by the duration of powerful non-informative seismic signal packs, and this time is set during the preparation of the device for operation immediately before measurements.

From the outputs of blocks 3 by software gain control, signals are sent to attenuators 4. The purpose of attenuators 4 is to bring the signal levels in each of the channels to a nominal value that allows them to be monitored and recorded with a maximum dynamic range, i.e. attenuators 4 match the dynamic range of the seismic signals in each of the channels with the dynamic range of the seismic channel. The change in attenuation of attenuators in each of the Q channels is made by preparing the device for operation immediately before measurements.

From the outputs of attenuators 4, the normalized signals are fed to the outputs of the corresponding band-pass filters 5, the purpose of which is to limit the bandwidth of the seismic channel in order to match it with the band of the seismic signal. When the level of noise and interference in the seismic is reduced

0 channel from both external and internal sources. This makes it possible to increase the sensitivity and noise immunity of the device in the event of interference. After the band-pass filters 5, signals are simultaneously received at the inputs of the visualization and recording unit 6, where a seismogram is visualized, for example, on a screen of a cathode ray tube, and a seismogram is recorded using an analog magnetic recorder (not shown).

The operating modes of the equipment (the law of change of the gain and the time of operation of the block 3 of the programmed gain control, the attenuation level in attenuators 4, the passband of the band-pass filters 5. speed

The 5 sweeps and the delay time of the seismogram on the screen of the cathode-ray tube are established by generating the corresponding codes in the multifunctional generator 8 of the control codes. For example, to set attenuators 4 to

0 corresponding to attenuation O dB, it is necessary to generate deciadial word IIII1IIII, and submit it to the control inputs of attenuators 4. To set the zero value of the delay time and the maximum sweep rate of the seismogram

5, on the screen of the cathode ray tube, it is necessary to generate the code 10000 and feed it to the control inputs of the imaging unit 6. In this way, set

0

all operating modes of the units and blocks of the device required for operation in O11 |) unified geological conditions.

Contra.ch for both in the process of bots and in the scheme

the state of the nodes and blocks of installation of their modes of operation of the osus1stroy control (dentifiers 12–15 and the display unit). For example, by setting the code 0000000001 using a generator of 8 unuv.x codes, the control inputs of the attenuators 4 receive a mode corresponding to the attenuation 1) O l1us 60 dB, and if this is the case, then the control outputs of the attenuators 4 but Wits code III III III O, someone who has a daily help on () the device 13 and the display unit 7 causes the indication of the state "Minus 60 dB. If the code fails or the attenuator 4 itself fails during the operation of the seismic station or 3, attenuator control outputs will not have the expected code, therefore, there will not be a status indication of “Minus 60 dB. Thus, control of the installation of attenuator modes 4 and continuous control over the presence of the required mode in each channel is carried out. Similarly, control of the installation and the presence of modes of other units and units of the device, such as blocks 3 of the programmed gain control, band-pass filters 5, block 6 of the visa, 1-up and registration, are carried out.

The functional generator 9, the additional attenuator 10 and the keys 11 form a testing circuit with which the production conditions are monitored to determine the main technical characteristics of individual units and blocks, as well as the device as a whole. For the sake of this, with the help of the generator 8 of the control codes, the test mode is set up, which consists in placing the seismic signal. In each channel, the testing system is simultaneously delivered to the devices, which is tuned by tunable. Toie functions. Generator 9. From the generator generator, a test signal is sent to an additional attenuator 10, which, depending on the control code from the generator 8, can be reduced in discrete steps; steps (oTHonienne output voltage before switching to the output day) after the increase in attenuation by one degree) exactly should be equal to the multiplicity of steps of attenuators 4 in seismic channels.

In the test mode, with the help of the generator of 8 control codes, the required submode is installed, for example, “Testing from the preamplifier inputs.

five

0

five

0

five

At the same time, from the generator 9 through an additional attenuate) 10 and keys II to the inputs of all preamplifiers. 2 serves tes Sh1) uk) P1i sy1nal, tuned by the frequency of Toic and loKoii amplitude, so that block 6 of visualization and registration is not nepei | this signal.iuum (i.e., that there is no distortion and overlap of channel 44a channel on the seismic | -ramme). By rearranging the generator 9 but at the frequency, it is possible to estimate the screen of the visualization unit 6 and () its operator the amplitude and frequency properties of each channel in the range and their identity from the channel, 1а to the channel. Rebuilding the add-on attenuator 10 and setting all its attenuation values to the nose. However, at the same time, simultaneously with attenuation of attenuators 4, it is possible to determine the accuracy and ideality of the operation of attenuators 4 in the iiponycKainiH band by using a pass-by-pass filter (LL 5.

It is juicy that you can check the operation of the device, starting from the input (1dov.chokok 3 nrogovaviMhoi i pe1y; (at the amplification n, the attenuator inputs 4, or from the inputs of the band-pass filters 5, or from the inputs 6 of the viz, 1 For this registration, it is possible to evaluate the main technical actions of the ycTpoiiciBa as a whole and its individual nodes, as well as in the event of a failure or localization of the fault location and assess the possibility of using the device by:.

Formula 11: () Pregeni 1

A device for detecting tectonic violations of coal p.last, containing

0

five

in each channel, sequentially connected, seismic amplifiers, pre-set, multiply adjustable gain blocks, attenuators, band-pass filters, the outputs of which are connected to the inputs of the multichannel 1H) visualization and recording, characterized in that and reliability at the expense of functional testing and continuous testing of control codes, it is equipped with a generator of control codes, four power defenders, a display unit, a functional transmitter, a donor, an attenuator and a key s, the control oscillator outputs coupled to yup1ih codes yn) Aulus yup1imi inputs) b.yukov gain adjustment program. aiTc- 0 nuto) 01. bandpass filters, multichannel b,; 1oka visibility and tagging,) ontro. The 1 outputs of which are through the corresponding keypad (Jpl5l are connected to the indication unit, 11) and this other outputs of the control code generator generator |) 1 with the control inputs of the keys, an additional attenuator and a functional generator, the output of which is connected to the input of an additional attenuator5

1341355

56

torus, whose outputs through the corresponding gain, attenuators, bandpass

to the auger, the keys are connected to the inputs of the pre-filters, the multichannel block of visual amplifiers, blocks of program regulation and registration,

Claims (1)

Claim A device for detecting tectonic disturbances of a coal seam, containing in each channel sequentially connected seismic receiver, preamplifiers, program blocks for gain control, attenuators, bandpass filters, the outputs of which are connected to the inputs of a multi-channel visualization and recording unit, characterized in that, in order to increase reliability in reliability due to functional testing and continuous monitoring of the development of control codes, it is equipped with a control code generator and four decoders , an indication unit, a functional generator, an additional attenuator and keys, and the outputs of the control code generator are connected to the control inputs of the software gain control units, attenuators. bandpass filters, a multichannel visualization and registration unit, the control outputs of which are connected through the corresponding decoders to the display unit, while the other outputs of the control code generator are connected to the control inputs of the keys, an additional attenuator, and a functional generator, the output of which is connected to the input of an additional amplification1341355 amplification, attenuators , band-pass filters, multichannel visualization and registration unit, a torus, the outputs of which are connected to the inputs through the corresponding keys dams of preamplifiers, blocks of program regulation