SU1320434A1 - Method of setting roof bolt - Google Patents

Abstract

The invention relates to the fastening of mine workings and makes it possible to increase the reliability of the fastening of fractured rocks and prevent the formation of fractures. The well is drilled and the fixedly locking part of the anchor rod 1 is fixed in it. A wedge-shaped end (QC) 2 of rod 1 projects into production. A support element in the form of a plate 3 with a pipe 4, the channel of which is narrowed in the direction from the wellhead, is mounted on it. The direction of the prevailing rock crack system is visually determined and the plate 3 is oriented so that the longitudinal section of the pipe 4 lies in a plane parallel to the main crack system in the rocks. It is spread by QC 2 into the walls of the well, which will act in the direction opposite to the fracture system. When rocks are displaced, QC 2 of the rod 1 is immersed in the channel of the pipe 4. The protruding QC 2 of the rod 1 of the anchor increases as the movable support element moves along it. 1 il. sl with N5 O 4: CO 4

Description

The invention relates to the fastening of mine workings, and in particular to methods of installation of anchor lining.

The aim of the invention is to maximize the reliability of fixation of fractured rocks and to prevent the formation of vortex.

The drawing shows an anchor mounted in a well, a longitudinal section.

The anchor consists of a rod 1 with a locking part fixed in the well, and a wedge-shaped end 2 projecting into development, which, for example, can be in the form of a cone, as well as a support element movable relative to the rod 1, made in the form of a plate 3 s. pipe 4, the channel of which is narrowed in the direction from the wellhead. The pipe 4 of the base plate 3 is made with at least one longitudinal section.

The method of installation of the anchor is carried out as follows.

The well is drilled and ampoules with a fast-hardening mass are placed in it, then the rod 1 is inserted into it with the support element 2 installed on its wedge-shaped end. The direction of the prevailing rock fracture system is visually determined and the plate 3 is oriented so that the longitudinal section of the pipe 4 lies in a plane parallel to the main fracture system in the rocks and spreads it into the borehole wall, which will act in the opposite fracture system direction.

Under the pressure of rocks, the support plate 3 is moved and, due to the wedge shape 2 of the rod 1, the expansion of the pipe 4 is increased in the walls of the well. Since the cut is tubular

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Step 4 of the base plate 3 is oriented in a plane parallel to the plane of the main propagation of cracks in rocks, the rock blocks are pressed, which significantly reduces the intensity of the formation. Moreover, the maximum of the compressive stressing plots is in the area of the wellhead, and compression forces are reduced in the depths of the mountain massif. This additionally contributes to the wedging of rocks and reduces the likelihood of their dumping. When the displacement of rocks. Occurs immersing the wedge-shaped part 2 of the rod 1 into the channel of the pipe 4 of the support plate 3.

To improve the performance of the anchor by increasing the thrust effort, the wedge-shaped end 2 is built up, for example, by screwing in an additional element 5 in the shape of a truncated cone.

Claims (1)

Invention Formula  The method of installation of the anchor, including drilling a well, fixing the fixedly locking part of the anchor rod in it, and placing at the wellhead a supporting element movable relative to the rod and expanding it into the well walls through a protruding wedge-shaped end of the rod, characterized in rocks and prevent the formation of vyvalovali, thrust of the support element into the walls are oriented in the opposite direction to the main system of cracks in rocks, and the protrusion conductive tapered end of the anchor rod are increasing when moving it along the movable support member.