SU817253A1 - Method of driving a mine working - Google Patents

Description

The invention relates to mining, and in particular to methods for excavating a mine in mines producing coal seams at a great depth. The known method of producing with the use of double penetration is carried out as follows. First, the excavation is done: at an underestimated section, and then after forming an inelastic deformation zone around the factory, it is passed a second time, expanding the section to design dimensions l. The disadvantage of this method is that the effective unloading of the array is not achieved because during the penetration the fractured unloaded rocks are removed, and therefore the long-term stability of the work is not ensured. The closest to the present invention is a method for sludge processing in an array unloaded from rock pressure by blasting camouflage charges prior to sinking. In this Method, a section of an array of mountain pores unloaded from the initial stress state is created by: blowing explosives in front of the working hole. Then, after unloading, the ladies will get into the workplace. In order to implement the method from B1: “The wells are drilled several wells in the direction of the drilling of 5 wells are 15–20 m long. The wells are charged with a charge of powerful explosive charges and avuug simultaneously in the mode of creative blasting, and then the excavation of the destroyed rocks t. However, the rock that is unloaded is removed and, thus, rock unloaded & The aim of the invention is to increase the stability of work in the unloaded mountain massif. The goal is achieved by the fact that in the method of drilling, including the definition of the radius of the zone of elastic deformations, drilling wells, blasting camouflage charges in them and the subsequent drilling of the drill, In the case of explosions and the area of rocks destroyed by the explosion, the wells for camouflage charges are drilled at a distance from the axis of the excavation, exceeding the radius of the inelastic deformation.

Moreover, the distance from the axis of generation is chosen in the range 1.0-1.2 of the radius 301 of inelastic deformations,

FIG. 1 shows the production of boreholes for detonation of explosive charges, a longitudinal section; Fig, 2 production on the site of the array with, discharge, cross-section.

For the excavation of the excavation in the unloaded mountain massif, the radius of the inelastic deformability zone around the excavation is established. At the same time, geological data are used on the limits of rock strength for uniaxial compression, depth of laying, the resistance of the installed support, and the dimensions of the excavation. The destruction of rocks by an explosion is carried out at a distance from the axis of the excavation, exceeding the specified radius of the inelastic zone. Reformations in the roof, soil and walls are modified. For this purpose, directional drilling of the drill is squiggled with a diameter of 80-150 mm from the bottom in the direction of the bottom opening (Fig. 1). The depth of the wells is determined from the condition of creating an unloaded stable zone at the site of the excavation works. In addition, drilling and blasting operations should be associated with a weekly drilling schedule. Taking this into account, the discharge of the array is carried out on weekends. The number of wells is chosen taking into account the charge modality, the size of the inelastic deformation zone and the rock strength (Fig. 2).

Due to the fact that the development takes place in the zone unloaded from the original rock pressure, which is maintained after the formation of an inelastic deformation zone, an increase in the stability of generation is achieved,

As a result of the formation of a zone of rocks destroyed by an explosion with a smaller deformation modulus compared with the rocks surrounding it, a considerable part of the deformations are transmitted to the mine from the surrounding discharge zone. This zone serves as a supple element.

The application of the proposed method for excavation of workings provides an increase in the stability of production by 1.5-2 times due to the preservation of the unloading zone after the excavation of the excavation and the formation of an inelastic deformation zone, in addition, the safety of operation of the drifters in the bottom of the mine is improved by reducing the rock truncation.

Claims (1)

1. Koshelev K.V., Trumbachev V, F, Increasing the sustainability of capital. mining at great depths, M ,, Nedra, 1972, p., 115, 2, Zborshchik, M.P., Dorokhov, D., Prevention of sudden coal and gas emissions during excavations, - Industrial Safety, 1974, No. 7, p. 36-37, /