CS212472B1 - Method of determining the optimal time intervals of priming of two adjacent charges - Google Patents

Description

The invention provides a method for determining the optimal firing intervals of two adjacent charges during blasting operations in gaseous coal mines using the photographic method.

The known methods for determining the optimal time intervals between explosives and adjacent explosive charges during blasting work are based on theoretical knowledge of rock disintegration by explosion and practical modeling on models, or in adits in stone or quarries, which have only simulated body conditions for blasting and it is possible to use fast cameras or electronic counters, because the atmosphere is free of explosive gases. However, the method of detecting optimal time intervals for blasting operations using a speed camera and electronic counters cannot be used in gaseous coal mines, where an explosive mixture of methane (5-14%) or coal dust with air can be formed during rock disintegration and ejection.

The impossibility of using a quick camera and electronic counters to monitor the disruption of the hoof by blasting in gassing mines is eliminated by using the photographic method of the invention by recording the state of the massif prior to blasting and the massif at a predetermined time on the photosensitive material. the state of the massive mass is recorded by the same flash instrument. The invention is based on the fact that the second firing of the flashing device is carried out by means of an ionization sensor responsive to the detonation of the detonator charge or detonator which generates a time gap between the two shots taken.

Advantage of detecting optimal time intervals of firing of two adjacent charges during blasting works in gaseous coal mines according to the invention is the possibility to determine any time interval between idle shot and second photographic shot and to specify, ie increase or decrease the time interval according to their evaluation. delaying two detonators of adjacent explosive charges so as not to expose adjacent explosive charges at this interval, thereby freeing their detonation in an explosive atmosphere, which may also be generated by prior explosion charge detonation (eg, release of methane from crushed and discarded coal, coal dust). In addition, photographic monitoring of the massif disruption at predetermined intervals gives an objective picture of the rate of rock release as a function of time intervals between adjacent charges, their interaction, cracks, crevices, coal dust evolution and afterbursts. By using color photomaterial, an image of the ratio between the afterburst and the coal dust can be obtained. By finding the optimal time intervals between adjacent charges, ie when there is still no rock movement and crevices, and thus creating irregularities of the type of crevice and edge wounds, it is possible to determine optimal technology of blasting works, ie timing of individual charge and type of mine safe explosive used.

Claims (1)

SUBJECT OF THE INVENTION Method for determining the optimal time intervals of ignition of two adjacent charges during blasting operations in gaseous coal mines by means of a photographic method, whereby the state of the massif prior to blasting and the massif at a preselected breaking time is recorded on the photosensitive material. A flashing device, characterized in that the second start of the flashing device is carried out by means of an ionization sensor responsive to the detonation of that igniter or detonator, which generates a time delay of the two monitored states.