SU1710983A1 - Method for blasting timer actuation control - Google Patents

Abstract

The invention relates to the mining industry, in particular for controlling the quality of pyrotechnic relays. The purpose of the invention is to increase the possibility of monitoring the operation of a pyrotechnic relay in field conditions without the use of special equipment. An input 2 is connected to the pyrotechnic relay 1.

Description

3 segments of a detonating cord, to which a loop 5 is fastened from a detonating cord with a length equal to the product of the detonation speed of the detonating cord by one of the limits of the range of the response time of the pyrotechnic turnip. An overlay is attached to the output section of the detonating cord.

against the direction of the detonation wave from the side of the pyrotechnic relay, an additional segment 6 of the detonating cord. The recording of the response time of the pyrotechnic relay is made according to the state of the additional segment of the detonating cord. 1 il.

The invention relates to the mining industry, in particular for controlling the quality of pyrotechnic relays.

It is known to use a detonating cord as a moderator for short-delay blasting. The propagation of detonation along a detonating cord (LH) proceeds at a known speed. It is possible to determine the required number of meters of LH to create the required slowdown interval. For example, to create a deceleration of 10 m / s at a detonation velocity of LH at 7000 m / s, a segment of LH at 70 m is required. The section of LH intended to create deceleration is arranged as a loop. The explosion of several charges occurs through the time interval of the detonation wave passing through the loop.

Yes However, the use of LH in mass explosions is associated with difficulties in fabricating a complex LH network and is unreliable.

: A known method of testing pyrotechnic relays for response times, according to which the suitability of a relay batch is determined after determining the response time spread. The tests are carried out on a test bench. The relays are placed one by one on the base so that the middle of the relay is covered with a steel partition to prevent damage to the input and output sensors of the time meter when the relay is triggered. The sensor of the time meter and the primer-detonor toron are fastened to one of the segments of the LH; the Ostag sensor is attached to the second segment.

new time meter The frequency meter used is an electron-counting frequency counter.

However, the need to use special devices (frequency meters)

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and the creation of a stationary stand is unacceptable under field conditions and is expensive.

The aim of the invention is to expand the possibility of controlling the operation of a pyrotechnic relay in field conditions without the use of special equipment.

The goal is achieved by the method of controlling the time range of operation of a pyrotechnic relay (RP), including the connection of segments of LH to the input and output of RP, fastening to the input segment of LH of means for initiating it, blasting and fixing the time of operation of RP, at the ends of the input and output LH segments are attached a LH loop with a length equal to the product of the detonation velocity LH by one of the limits of the range of time triggered: no RP, and to the output segment of LH a pad against the direction of the detonation wave On the side of the RP, an additional segment of LH is attached, while the response time of the RP is fixed according to the state of the additional segment of LH.

The drawing shows an assembly diagram for testing a pyrotechnic relay explaining the proposed method.

An input section LH 2 and an output segment LH 3 are connected to the pyrotechnic relay 1. A means is also attached to the input segment LH to initiate it. To control the time range of operation, a loop 5 of LH is attached to the input and output segments of LH, which is equal to the product of the detonation velocity of LH and one of the limits of the trigger time range of the pyrotechnic relay.

To the output segment of LH attach -1 -1 inset against the direction of the detonation wave from the pyrotech

NIC relay an additional segment of LH 6.

 The method is carried out as follows.

To control the time range of operation of the RP-9 pyrotechnic relay with a lower limit of 18 ms and an upper limit of 22 ms, use LH-A with a detonation speed of 7000 m / s.

To RP-8 connect the input segment LH 2 and the output segment LH. 3 with a length of 2–3 m. A detonator capsule A is connected to the inlet section. At a short time, they make the detonation speed LH equal to the lower limit of the relay response time, i.e. 126 m.

To the output segment of LH 3, an inset is connected against the direction of the detonation wave (at an angle of 15-30 °) from the side of the pyrotechnic relay 1 an additional segment of LH 6 with a length of 2-3 m.

Then excite detonation. With the integrity of the additional segment of LH, the response time of the pyrotechnic relay is fixed to less than T8 ms, and when it is undermined, it is above the lower limit of 18 ms.

To control the upper limit of the relay response time (when an additional segment of LH is blown up), a loop of LH with a length corresponding to the upper limit of the range of the response time of the relay, in our case 7 km / s 22 ms 15 m, is mounted. They detonate in the input segment of the detonating cord and no / J

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Claims (1)

In the additional section k, the relay response time is fixed above the upper limit of the range of 22 ms. Thus, using the LH loop, you can set the level for checking the RP response time. Invention Formula The method of controlling the time range of the pyrotechnic relay operation, including attaching a sharp detonating cord to the input and output of the pyrotechnic relay, attaching a means for initiating a detonating cord to the input segment of the detonating cord, blasting and fixing the response time of the pyrotechnic relay, characterized by the fact that the possibility of monitoring the operation of a pyrotechnic relay in field conditions without the use of special equipment, to the ends of the input and output segments of the detonating beam A loop of a detonating cord with a length equal to the product of the detonation speed of the detonating cord for one of the limits of the range of the pyrotechnic relay operation time is added to the output section of the detonating cord an inset against the direction of the detonation wave from the pyrotechnic relay side an additional segment of the detonating cord is attached, while fixing the response time of the pyrotechnic relay is made according to the state of the additional length of the detonating cord.