SU1188320A1 - Apparatus for forecasting shock hazard of rock - Google Patents

Abstract

A DEVICE FOR PREDICTING HAZARDOUS RISES OF MOUNTAIN BREEDS, containing an amplifier-converter, a block of forming locking pulses, a counter and a linear amplifier, characterized in that, in order to improve the prediction accuracy, it is equipped with an antenna with a pre-amplifier, a amplifier-former, an amplitude discriminator, and a slot with an amplifier with a slot and an amplifier with a trimmer, an amplifier with a preamplifier, an amplifier with a shaper, an amplitude discriminator, and a slot with an amplifier with a slot with a slot and a slot with an amplifier with a slot and an amplifier with a shaper, an amplitude discriminator with a slot and a slot with an amplifier with a slot and an amplifier with a trimmer, an amplifier with a preamplifier, a trimmer amplifier, an amplitude discriminator, and a slot with a trimmer. , a generator with external synchronization, two OR elements, four AND elements, a generator, a counter-corrector and a decoder, and the antenna output with aritelnym amplifier is connected to the locking pulse generating unit inputs, the line amplifier, the amplifier and the amplifier -formirovatel -preobrazovatel, viod coupled to a first input of a first AND gate whose output is connected to the first input of the counter, the locking pulse generating circuit output is connected to. the second input element And, the output of the linear amplifier is connected to the input of an amplitude discriminator with an adjustable threshold, the first output of which is connected to the first input of the first OR element and to the first input of the counter-corrector, and the second output to the first inputs of the second, third and fourth elements AND and the second SHS element and to the second input of the counter-corrector, the output of which is connected to the decoder, the first output of which is connected to the VST S eye of the second SHS element, the output of which is connected to the third. (L input of the counter-corrector, and the second output of the decoder is connected with the second inputs of the third and fourth elements And, the output of the third element And connected to the second input of the counter, and the output of the fourth element And connected to the fourth input of the counter-corrector 00 00 and with the third input the counter, the generator output is connected to the third input of the fourth element I, the output from to the amplifier-amplifier is connected via a generator with external synchronization to the second input of the second element AND whose output is connected to the second input of the first IL element Whose output is connected to a third input of the first element I.

Description

The invention relates to mining and is intended to predict the impact hazard of rocks in underground mine workings.

The purpose of the invention is to increase the prediction accuracy.

FIG. Figure 1 shows a structural diagram of a device for predicting the impact hazard of a rock massif; in fig. 2 - diagrams of the output signals of the structural elements of the device when the device is operated during a time of weak spark interference.

A device for predicting the impact of rocks contains a series-connected antenna with preamplifier 1, amplifier-converter 2, element 3, block 4 for the generation of blocking pulses, the output of which is connected to the second input of element 3, the linear amplifier 5, whose head is connected to the input amplitude discriminator 6 with adjustable threshold, connected in series amplifier 7, generator 8 with external synchronization, the second element AND .9 and the element OR 10 connected to the second input to the first output of the amplitude discriminator 6 with an adjustable threshold, the second element of which is connected to the second input of the second element and 9, and the output to the third input of the element I 3 connected to the input of the direct counting of the counter 11, the reverse input of which is connected to the output of the third element And 12 and to the reversing input of the counter-corrector 13 connected to the decoder 14, which is connected to the first output of the first input of the second element OR 15 connected to the zeroing input of the counter-corrector 13, and the second output to the first inputs t its 12 and fourth 16 elements are And, the second input of the fourth element And 16 is connected to the second output of the amplitude discriminator 6 with an adjustable threshold, with the second inputs of the second element SHIII 15 and the third element 12 and the command input of the counter-corrector 13, the direct input Which account is connected to the k first output of the element OR 10, while the third input of the third element And 12 is connected to the generator 17, and the output of the fourth element And 16 to the command input of the counter 11.

In the presence of a strong spark plug, the device operates as follows.

The signal of strong spark interference is transmitted by the antenna to the radio signal, is amplified by the preamplifier and is fed to the inputs i of the amplifier of the converter 2, the linear amplifier 5, the amplifier forming 7 and the block 4 of the blocking pulses. Amplifier transducer 2 forces, a radio signal and selects its envelope. From the output of the amplifier-converter 2, the radio signal is fed to the input of element 3. In the case of an increase in: the input signal amplitude of a predetermined value, block 4 of the generation of locking pulses produces a locking pulse (logic level zero), the duration of which corresponds to the duration of the input signal. The locking pulse arrives at the second input of the And 3 element, the output of which maintains the logic zero level for the time of the locking pulse, and, therefore, the signal of strong spark interference is not perceived by counter 11. If the amplitude of the input signal (electromagnetic emission signal) is not exceeds a predetermined value, the output voltage of the blocking pulses is maintained at a constant voltage corresponding to the level of the logical unit. In this case, the input signal, in addition to processing in amplifier-converter 2, is amplified by a linear amplifier 5 and fed to the input of an amplitude discriminator 6 with an adjustable threshold, at the first output of which the envelope signal is extracted, which through the element OR 10 goes to the third input of the AND 3 element and then to the input of the direct account of the counter 11.

In the presence of weak periodic interference, the device operates in the following way.

The periodic signal of a weak spark interference is converted by the antenna into a periodic sequence pa-. diodes are amplified by preamplifier 1 and fed to the inputs of amplifier converter 2, linear amplifier 5, amplifier 7 and blocking pulse shaping unit 4, the output of which maintains a constant voltage corresponding to the level of logic 3

unit since the amplitude of the input signal is less than the specified value. From the output of the amplifier-converter 2, a periodic signal is fed to the first input of the element And 3. At the same time, the periodic signal is amplified by the linear amplifier 5, fed to the input of amplitude discriminator 6 with an adjustable threshold, where the amplitude threshold iio is set to the pulse with the maximum amplitude by the required number of periodic pulses. From the first output of the amplitude discriminator 6 with an adjustable threshold, the signal arrives at the second input of the element OR 10, and after the amplitude threshold is established, the Reverse command (level of the logical unit) is sent to the second input of the second element AND 9. In addition, when a periodic signal arrives from the sequence of pulses forms the start-up pulses of the generator 8 with external synchronization. The latter produces locking pulses whose duration corresponds to the duration of the input pulses (logic level zero), which arrive at the first input of the second element I 9, and in the intervals between the locking pulses the voltage at the output of the generator 8 with external synchronization corresponds to the logic e ;: Yindi. At the same time, from the output of the second element AND 9, the signal goes to the second input of the first element OR 10 and to the third input of the element 3, the output of which generates logic level zero pulses at the moments of arrival of periodic interference, blocking the input of direct counting of counter 11 for a duration impulse. However, the counter 11 will register the interference pulses necessary to form the amplitude threshold, while the readings of the counter 11 are corrected as follows. The signal from the first output of the amplitude discriminator 6 with an adjustable threshold is fed to the direct input of the counter-corrector counter 13, and from the second output, the Reverse command is fed to the command input of the counter-corrector 13 and to the second inputs of the third 12 and fourth 16 elements And the counter-corrector 13 goes into reversing mode, i.e. his forward account entry is blocked and the reversing

88320.4

the input is released. Depending

from the number of pulses counted by corrector 13, the output of the decoder 14, corresponding to the number of pulses, will be a logical zero level, and the second output of the decoder 14, corresponding to the zero state of the counter corrector 13, will be the level of a logical unit. From the second JJJ output of the decoder 14, the signal arrives at the first inputs of the fourth element 16 and the third element 12, to the third input of which the pulses from the generator 17 constantly flow.

5 elements And 16 levels of logical units from its output a signal is sent to the command input of the counter 11. The last one goes into the reversing mode. If there is a logical level

0 units on the first and second inputs of the third element And 12 from the output of the last generator pulses are fed to the reverse inputs of the counter 11 and the counter-corrector 13, with each pulse of the generator 17 reduces the readings of the counters 11 and 13 on

one until the counter-corrector is reset to zero. On the second output of the decoder 14 and on the first

0 inputs of the third 12 and the fourth 16 elements And a logic zero level appears, which blocks the passage of pulses from the generator to the output of the third element And 12 and switches

5 counter 11 to the direct account mode. The counter-corrector 13 is in the reverse mode as long as there is a periodic disturbance. With the coincidence of the electromagnetic signal

0 of emission with interference pulses, the amplitude of the total signal will exceed the amplitude threshold set in amplitude discriminator 6, with the first input of the first element OR

5 10 and further, through the circuit 3, an impulse arrives at the input of the direct counting of the counter 11. When receiving a signal of electromagnetic emission in the intervals between the pulses of periodic noise

0 a pulse appears at the first input

element 3, on the third input of which at this moment the level of the logical unit is maintained, coming from the output of the first element OR 10.

5 output element And 3 electromagnetic emission signal is fed to the input of the direct counting of the counter 11. When registering only signals of electromagnetic emission or strong non-periodic spark interference, the signals rtocty are also fed to the input of the direct counting of the counter-corrector 13. As soon as the latter counts the preset

element OR 15 is formed the logical zero level, while on the second input there is no Reverse command and the counter-corrector 13 is zeroed. number of pulses at the first input

Claims (1)

DEVICE FOR PREDICTING SHOCK HAZARD OF ROCKS, comprising an amplifier-converter, a blocking pulse generating unit, a counter and a linear amplifier, characterized in that, in order to increase the accuracy of forecasting, it is equipped with an antenna with a preliminary amplifier, an amplifier former, an amplitude discriminator with an adjustable threshold, a generator with external synchronization, two OR elements, four AND elements, a generator, a counter-corrector and a decoder, and the antenna output with pre the second amplifier is connected to the inputs of the blocking pulse forming unit, the linear amplifier, the driver-former and the converter-amplifier, the output of which is connected to the first input of the first element And, the output of which is connected to the first input of the counter, the output of the blocking pulse forming unit is connected to. the second input of the And element, the output of the linear amplifier is connected to the input of the amplitude discriminator with an adjustable threshold, the first output of which is connected to the first input of the first OR element and to the first input of the counter-corrector, 'and the second output to the first inputs of the second, third and fourth elements and the second OR element and to the second input of the counter-corrector, the output of which is connected to the decoder, the first output of which is connected to the second input of the second OR element, the output of which is connected to the third input of the counter-corrector, and w The second output of the decoder is connected to the second inputs of the third and fourth elements And, the output of the third element And is connected to the second input of the counter, and the output of the fourth element And is connected to the fourth input of the counter-corrector and to the third input of the counter, the generator output is connected to the third input of the fourth element And , the output of the amplifier-driver is connected through a generator with external synchronization to the second input of the second element And, you; the course of which is connected to the second input of the first OR element, the output of which is connected to the third input of the first element I. , SU „„ 1188320