RU1799460C - Device for counting number of blasted charges - Google Patents

Abstract

The device for counting exploded charges relates to mining and can be used in underground and open blasting to count the number of exploded drill holes or borehole explosive charges. The purpose of the invention is to improve noise immunity. The device comprises serially connected receiver 1, amplifier 2, counting pulse shaper 3, and also a matching circuit 4, counter 5 and indicator 6. The device is equipped with serially connected electromagnetic signal sensor 7, amplifier 8, pulse shaper 9 and delay line 10, the second input of which It is connected to the output of an additional input unit 11 time intervals, and the output to the second input of the coincidence circuit 4, the first input of which is connected to the output of the shaper 3 of the counting pulse. 1 ill. Yo

Description

The invention relates to mining and can be used in underground and open blasting operations to calculate the number of blast-hole or borehole explosive charges that have exploded.

The purpose of the invention is to improve noise immunity.

The drawing shows a block diagram of a device for counting the number of exploded charges.

The device for counting the number of exploded charges contains a series-connected receiver (piezo or seismic sensor) 1, amplifier 2, counting pulse generator 3, as well as coincidence circuit 4, the output of which is connected to the input of counter 5, the output of which is connected to the input of indicator 6 (digital display).

The device is equipped with a series-connected sensor 7 of electromagnetic signals (antenna), an amplifier 8, a pulse shaper 9 and a delay line 10, the second (control) input of which is connected to the output of the master 11 time intervals, and the output of the delay line 10 is connected to the second input of the circuit coincidence 4.

The device operates as follows.

A receiver 4 (a piezo or seismic sensor) mounted on the surface of a rock massif (or in a hole) receives both elastic acoustic waves arising at the moment of a charge explosion and acoustic noise, converts them into an equivalent electrical signal, which is amplified by an amplifier 2 , is normalized by amplitude and duration by the shaper 3 of the counting pulse and fed to the first input of the matching circuit 4.

Electromagnetic pulses also occurring at the time of the explosion are received by the sensor 7 of electromagnetic signals (antenna), amplified by an amplifier 8, normalized by amplitude and duration by a pulse shaper 9, and fed to the first (signal) input of the delay line 10, to the second (control) input of which signals from the master 11 time intervals are received. Delay line 10 delays the signal generated by the pulse shaper into 9 for a time of r3 TT-.

where 1g is the distance from the blasting site to receiver 1 (piezoelectric or seismic acoustic sensor); VA is the speed of acoustic (elastic) vibrations in a controlled section of the rock mass. After a specified period of time (g3), the delayed signal is circulated at the second input of the matching circuit 4.

When the signals coincide on the first and

the second inputs of the matching circuit 4, the counting pulse passes to the input of the counter 5 and the indicator 6 (digital display) displays the first and subsequent signals from the exploding charges in a controlled

section of the rock mass.

When determining the delay time gz

The following simplification is accepted: the propagation velocity of electromagnetic pulses is immeasurably greater than the velocity

acoustic vibration propagation VA. The technical advantages of the claimed object in comparison with the prototype are to increase the noise immunity of the device when calculating the number of exploded charges, since The calculation is carried out according to two informative signs of the explosion: by elastic acoustic vibrations and by electromagnetic pulses. Achieving the goal contributes to the limitation of water control.

setting the delay time (ge), which reduces the number of possible recorded interference .....

Claims (1)

SUMMARY OF THE INVENTION A device for counting the number of exploded charges comprising a receiver, amplifier, counting pulse shaper, counter and capacitor connected in series, which, in order to increase noise immunity, it is additionally equipped with a connected electromagnetic sensor, amplifier, shaper , pulses and a delay line, as well as a coincidence circuit and time slot echo encoder, the input of which is connected to the second input of the delay line, the output of which is The key to the second input of the coincidence circuit having a first input connected to the output frrmir ovato- l counting pulse, and the output - to the input of the counter.