SU697745A1 - Apparatus for forecasting the hazardous state of acoustic activity of rock in mine workings - Google Patents

Description

(54) FORECASTING DEVICE FOR HAZARDOUS

THE CONDITION OF ACOUSTIC ACTIVITY OF MOUNTAIN BREEDS IN UNDERGROUND AND WORK

The Hn drawing shows a block diagram of a device for predicting the hazardous state of the acoustic activity of rocks in underground workings.

The device contains a transducer 1 of acoustic oscillations, a signal generation unit, elements I 3, 4, a counting unit 5, a counter 6, a decoder 7, a digital indicator 8, a timer 9, a control unit 10, a recording unit 11, an alarm unit 12, a frequency relay 13, trigger 14 and additional counter 15.

The acoustic oscillation transducer 1 is connected to a signal generation unit 2, the outputs of which are connected to one of the inputs of the AND3 element and the frequency relay 13. The output of timer 9 is connected to one of the inputs of the AND 4 elements and the inputs of the alarm 12 and control units 10, Outputs control unit 10 connected to the inputs of the element And 3, block 11 registration, the installation input of the additional counter 15 and the zero input of the trigger 14, the output of the element And 3 is connected to the input of the counter 6, the outputs of which are connected to one of the inputs of the registration unit 11 and the input decoder 7, connected with the digital indicator 8 and one of the inputs of the alarm unit 12. The output of the frequency relay 13 is connected to the second input of the And 4 element. The input of the additional counter 15 is connected to the output of the And 4 element, and the output with the single trigger input 14, Output the trigger 14 is connected to the inputs of the block 11 of the registration and block 12 alarm.

The device for predicting the hazardous state of acoustic activity of rocks in underground workings works as follows.

Elastic vibrations arising from the formation of cracks in the rock are sensed by the transducer 1 of acoustic oscillations and penetrated into electrical signals, which are fed to the signal conditioning unit 2, where they are amplified and the frequency pulses of the video pulses are formed. The generated signals of this block are sent to the counting unit 5, when receiving an enable signal from the control unit 9 to the second input of the element 3, the counter 6 counts the incoming pulses during a cycle determined by timer 8, which is an electronic clock, the signals of which arrive at the block 10 control causes the appearance of control signals at its outputs. The signals from the output of the counter 6 through the decoder 7 are fed to a digital indicator 8, designed to visually monitor the number of seismic pulses. When a certain number of pulses are detected in counter B, decoder 7 issues a signal to alarm unit 12 for storing it until the end of the registration cycle. When working excavation equipment s bottom frequency relay 13, tuned to the pulse frequency generated by the working mechanisms, is triggered when a signal of a certain frequency range arrives, opening AND 4 to pass pulses from timer 9 of a certain frequency to the additional counter 15.

When termination equipment stops working, frequency relay 13 is turned off, thereby prohibiting the timer pulses to arrive at counter 15.

In the initial state, after posting to the installation input of the additional counter 15 and the zero input of the trigger 14 of the signal from the output of the control unit 10, the additional counter 15 is in the zero state and the trigger 14 is in a position where there is no signal at its output. At the same time, no information signal is received at the inputs of the signaling units 12 and registrations 11 connected to the trigger 14.

If, during the registration cycle, the frequency relay 13 triggers and the pulses from timer 9 are filled by an additional counter 15 and a signal arrives at the output of the latter, arriving at the single input of trigger 14, causing it to turn over in one state, then the signal appearing on the output of the trigger 14 enters the inputs of the signaling unit 12, allowing its operation, and the registration unit 11 for recording the operation of the excavation equipment.

In the event that the overflow of the additional counter 15 does not occur and the trigger 14 remains in the initial state, then the recorder block records the absence of work of the excavation equipment in this cycle, and the information received from the counting block 5 is not received by the alarm unit 12 for execution.

The use of the proposed device allows, in comparison with the known, to improve the accuracy of determining the hazardous state of 1herny rocks in underground mines, to reduce the number of anti-blowout measures used and to increase the productivity of mining sites.

Claims (2)

1.Patent of France No. 2133283, cl. E 21 p. 39/00, published 1972. 2.PPP No. 61969, cl. 5 d 17/18, publ. 1968.