SU1559177A1 - Method of constructing water-retaining plug for closing underground working in tectonic fracture area - Google Patents

Abstract

The invention relates to underground construction and is intended for the construction of temporary workings that are liquidated after the end of their service life. The purpose of the invention is to reduce material consumption and increase the reliability of the plug in operation. The plug 1 for embedding the underground excavation 2 at the site of the active tectonic fault (TR) 3 is made in the form of a concrete body consisting of sections (C) 6 with ends (T) 7, separated by intersection stitches. C 6 of varying lengths are made, decreasing in the direction from the edges of the zone TP 3 to its seam 5. At the same time, T 7 is made at an angle varying from the vertical zone TP 3 at the edges to the angle of TP 3 at its seam 5. A thin layer of antifriction material 8 is placed in the intersection joints. When the large tectonic advances are expected, a cavity 9 may be formed inside the body, filled with a viscous body. Through pipe 10, the body is connected to an external pressure source 11. 2 hp f-ly, 2 ill.

Description

The invention relates to underground construction, in particular to the construction of temporary workings, liquidated after the end of their life.

The purpose of the invention is to reduce material consumption and increase the reliability of the cork.

In FIG. 1 shows a plug, a longitudinal section; in FIG. 2 - plug with a closed cavity inside, a longitudinal section.

Hydrogen ^ support plug 1, located ^ underground mine 2 in the area of tectonic grinding 3 with edges 4 and seam 5, includes a concrete casing, consisting of sections 6 with ends 7, separated from one another (intersectional seams, in which a thin layer of antifriction is placed 8. With the expected large tectonic movements inside the casing 1, a closed cavity 9 can be formed, filled with a viscous body, which is connected via pipe to an external pressure source.

Water stopper works as follows.

As a result of seismic influences or other reasons, shifts occur in the rock mass along fault 3. At the same time, the maximum movement occurs along the seam 5 of the fault with attenuation of the displacement amplitude along 35 edges 4. Due to the fact that the tube sections are made of different lengths, decreasing in the direction from the edges 4 fault zones 3 to its seam 5, and the ends of the sections 6 have a different angle of inclination of 4C, changing from vertical to the angle of incidence at its seam 5, and a layer of antifriction material 8. is placed in the intersection seams, section 6 of the cork moves in willow, following fault 3, and the destruction of the plug does not occur. At large (up to 20-30 cm) possible displacements along fault 3, the internal cavity 9 of the plug 1 is filled with a viscous body, for example, bitumen, connected to an external pressure source 11 through the pipe 10.

Claims (3)

Claim 1 о The method of constructing a water-tight plug for embedding underground excavation in an active tectonic fault section, including the construction of a concrete building consisting of sections with ends, separating the sections from one another by intersectional seams, and connecting an external pressure source, characterized in that, in order to reduce material consumption and improve the reliability of the cork, the cork sections are of various lengths along the normal, decreasing in the direction from the edges of the fault zone to its seam, and the ends of the sections are performed at an angle, I change imsya from the vertical edges at the fracture zone to the angle of incidence of fracture at its seam, the seams are placed in the intersectional layer of antifriction material. 2. The method of pop. 1, with the exception of the fact that inside the casing a closed cavity is fulfilled, which is filled with a viscous body. 3. The method of pop. 1, on the basis of the fact that the viscous body located inside the body is connected to an external pressure source. figure 1