SU1682584A1 - Reinforced concrete anchor - Google Patents

Abstract

The invention relates to mining. The goal is to increase the reliability of the initial securing of the anchor by ensuring guaranteed contact of the proppant with the walls of the well. The reinforced concrete anchor contains a rod (Ø) 1 with transverse projections 2, a wedging device 3 and a holding solution 7. Device 3 is mounted on the inner end of Ø 1 and contains a frame made in the form of flat arc-shaped cutting elements (RE) 4. The latter are oriented radially. but in different planes with respect to the W 1 axis. To the lower part of the OM 4 there are attached fixing plates (AF) 5, installed with the possibility of touching the free ends of the walls of the well 6. The ratio of the distance between the outer ends of the AF 5 to the maximum The transverse size of the OM 4 is 1.05-1.10. The assembled anchor is introduced into the well 6 filled in the holding solution 7. During the process of moving, the OM 4 pushes the solution 7 apart. This allows the AF 5 to freely slide along the wall of the well 6 with constant contact with it. By introducing the FP 5 into the rock walls of the well 6, the W 1 is wedged into it. 2 Il. (Ls

Description

FIG.

The invention relates to mining, namely to the fastening of capital and preparatory mine workings.

The aim of the invention is to increase the reliability of the initial zakreplenie anchor by providing guaranteed contact of the proppant with the walls of the well

Fig. H depicts a reinforced concrete anchor installed in a well, a longitudinal section with a wedging device; figure 2 - section aa in figure 1.

The reinforced concrete anchor contains a rod 1 in the form of a metal rod of a periodic profile with transverse projections 2. At the inner end of the rod, a proppant 3 is mounted, containing a frame in the form of flat arcuate cutting elements 4, to the lower part of which are fixing plates 5. Elements 4 with plates 5 can be executed as one unit. The cutting flat elements 4 are oriented radially in different planes relative to the axis of the rod 1. The fixing plates 5 are installed with the possibility of their contacting the free ends of the walls of the borehole 6, which is filled with the holding solution 7. The ratio of the distance between the outer ends of the fixing plates 5 to the maximum transverse size of the arcuate cutting elements 4 is 1.05-1.10. Coaxially with rod 1 in proppant 3, slot 8 is formed.

Reinforced concrete anchor set as follows.

The well 6 is filled in the holding solution 7. Then one flat element 4 of the proppant 3 is inserted into the slot 8 of the other

A proppant 3 assembled in such a way from several (usually two) flat elements 4 is mounted on the deep end of rod 1 (a rod of a periodic profile) and introduced into the well 6, and during the movement in the well 6, the cutting arcuate element 4 moves apart into the melting solution 7, which allows the fixing plates 5 to freely slide along the wall of the borehole 6 with constant contact with it, thus eliminating the force effect on the fixing plates 5 in the holding solution 7. Transverse

the section between the outer ends of the fixing plates 5 and the maximum transverse size of the cutting arcuate element 4 are chosen from the condition of the possibility of free movement of the fixing

plates 5 in the space free from the holding solution 7 in order to guarantee guaranteed jamming of the rod 1 between the fixing plates 5 relative to the walls of the well 6.

5 Reinforced concrete anchor works as follows.

After the rod 1 is installed, the rod is made of a periodic profile with flat elements 4 mounted on it of the wedging device 3 — the rod 1 with rocks is wedged in the well 6 with the holding solution 7 by means of the fixing plates 5. By means of the fixing plates 5 the walls of the well 6, the rod 1 acquires the necessary bearing capacity.

Claims (1)

Invention Form Reinforced concrete anchor including 0 rod with transverse protrusions, on the inner end of which is mounted proppant device containing a frame with retaining plates, 5 installed with the possibility of touching the free ends of the borehole walls during the installation of the anchor, as well as into the cementing solution, characterized in that, in order to increase the reliability of the initial 0 securing the anchor by providing guaranteed contact of the proppant with the borehole walls, the proppant framework is made in the form of flat arcuate retaining elements oriented radially in different planes relative to the rod, while the fixing plates are attached to the bottom of the elements, and the ratio of the distance between external 0 ends of the fixing plates to the maximum transverse size of the element is 1.05-1.10. FIG. 2