SU987114A1 - Method of fighting rock shocks and sudden coal and gas outbursts - Google Patents

Description

(54) METHOD OF COMBATING MOUNTAIN IMPACTS AND SUDDEN VB1. PROCESSES. COAL AND GAS

The invention relates to the mining industry and can be used as a method of dealing with rock bursts and sudden emissions of coal and gas. There is a known method of dealing with rock bursts, including drilling in a stressed coal mass of wells, placing in them a core charge of explosives and clay plugging, blasting charges 1. The drawbacks of the method are great difficulties in charging wells and the presence of charges of air gaps, which drastically reduce the charge density and the pressure of the gaseous products of the explosion in the explosion chamber, as a result of which the radius of action of the explosion is reduced. The closest to the invention is a method of dealing with rock bursts and sudden emissions of coal and gas, including drilling in a tight coal array of wells in which cavities are formed in their bottom part, spacing in wells of monoargents, filling them with a hydraulically wound well, filling the wellhead with a clay slab , the blasting of an explosive substance 2. The disadvantage of the method is that, in the presence of significant cavities in the zone of maximum bearing loads, the well cannot be charged to the required length, and the marginal part of the formation is not successful. with lead in neudaroopasnoe state over the entire width zash, itnoy zone. The purpose of the invention is to increase the efficiency of blasting in areas with a high concentration of stresses. The goal is achieved by the method of dealing with rock bursts and sudden emissions of coal and gas, including drilling wells, in which cavities are formed in their bottom part, placement in monosarks wells, filling them with a hydrolabber, filling the mouth of a well with a clay plug, blasting Explosives, wells are filled with a full length hydroliver, mono-charges are placed in the cavities of the wells, and separate explosive charges are fixed in the rest of the wells, the wellhead is filled with clay blocking to a depth of 0.8-1.0 m, this density g drozaboyki taken equal to the bulk density of charge explosives monozar length and greater than or equal to the length of the cavity wells and fixing the latter in a well-BB is produced chuck m wedging device.

The method is carried out as follows.

A bore hole with a diameter of 43 mm and a length equal to the width of the protective zone, including the zone of maximum loads, is drilled in a stressed coal massif. The well is positioned with a fall relative to the horizon. At high operating stresses due to the brittle destruction of the coal, cavities are formed in the walls of the borehole during drilling. Then, this well is filled with a hydraulic breakdown, at the same time the tamping density is assumed to be equal to the bulk density of the explosive charge. The bulk density of the packaged industrial explosives varies from 1 to 1.25. Under production conditions, the bulk density of the explosive cartridge is determined for each batch of explosives by determining the mass of the explosive cartridge and its volume, for example, based on the volume of water displaced. A hydrolick with the required density is prepared by making a mixture of water with clay or rock salt. The density of the surge check is controlled with a hydrometer. After the well has been filled with a hydraulic cylinder, the explosive charge is placed in it in the form of a mono charge. A monozar is made up of individual explosive cartridges by placing them in a tube of plastic film or mesh. The length of the monosar must be greater than or equal to the length of the cavity. The rest of the charge is made up of individual explosive cartridges. Placing such an explosive charge in a well filled with a hydraulic cylinder with a density equal to the bulk density of the explosive charge does not pose any difficulty, since the charge is in a suspended state. The last cartridge fighter is equipped with a riving device that ensures the charge is fixed in the well. The wellhead at a length of 0.8-1.0 m is filled with clay damming. After that, explosive charge exploded. As a result of the blasting of such charges located at a distance of 1.5–2 m from each other, the coal mass is destroyed and loses the ability to accumulate the energy of elastic deformations, and the zone of supporting loads moves in

deep in the massif, and the marginal part of the formation becomes not dangerous. due to rock bursts or sudden outbursts of coal and gas.

The advantages of the method are that its use provides

possibility of unrestricted charging of explosives with wells, in which there are cavities of significant diameter, over the entire width of the protective zone, with the possibility of re-blasting

explosive charges, which makes it possible to create safe conditions for striking and outburst formations.

Claims (2)

1.Makarov Yu. N., Akinschyn B.T. The effect of air and water-filled gaps on the effectiveness of camouflage 0 explosion. - Sat. “Safety, labor and mine rescue TsNMENUgol, 1975, No. 5, p. 20-22. 2.Makarov Yu.N., Akinshin B.T., Filenkov A.A. Study of the pattern of camouflet blasting on impact coal seams. FTPRPI, 1976, No. 1, p. 114-117 (prototype).