RU150861U1 - TUBULAR ANCHOR - Google Patents

Abstract

The technical solution relates to mining, namely, the fastening of rock outcrops during the construction of mine workings, tunnels and other industrial facilities.

The technical result of the proposed technical solution is to increase the efficiency and quality of fixing rock outcrops by increasing the bearing capacity of the anchor and the possibility of using it in any mining conditions.

The specified technical result is achieved by the fact that the tubular anchor includes an outer tubular rod with a longitudinal slot along the entire length, an emphasis for the base plate and an inwardly pressed tubular spacer rod with a longitudinal slot along the entire length, according to a utility model, the outer surface of the outer tubular rod is made with a screw carving.

Description

The technical solution relates to mining, namely, the fastening of rock outcrops during the construction of mine workings, tunnels and other industrial facilities.

Known tubular friction type anchor, consisting of an outer tubular rod with a longitudinal slot along the entire length and stop for the base plate. After placing it in the hole, the tubular spacer rod is pressed (or driven in) also with a longitudinal slot along the entire length, the outer diameter of which is slightly larger than the inner diameter of the outer tubular rod. In the process of pushing the tubular spacer rod, its walls tend to shrink and due to this the pressure is transmitted to the walls of the outer tubular rod, under which its walls expand in diameter and are pressed against the walls of the hole, ensuring the tubular anchor is unfastened in the hole (patent for utility model RU 124310 ^{( 13)} U1. Publish. January 20, 2013. Bull. No. 2).

A disadvantage of the known design of the tubular friction anchor is that it is held in the hole due to the friction forces of its walls against the rock walls of the hole. And since the outer surface of the walls of the tubular rod is smooth, its coefficient of friction against the rock is not high enough. In underground conditions, the walls of the holes are always moistened and covered with clay dusty particles, which almost halves the coefficient of friction of the metal on the rock. Due to this, the bearing capacity of the anchor is reduced, and in some conditions it cannot be used at all.

The technical result of the proposed technical solution is to increase the efficiency and quality of fixing rock outcrops by increasing the bearing capacity of the anchor and the possibility of using it in any mining conditions.

The specified technical result is achieved by the fact that the tubular anchor includes an outer tubular rod with a longitudinal slot along the entire length, an emphasis for the base plate and an inwardly pressed tubular spacer rod with a longitudinal slot along the entire length, according to a utility model, the outer surface of the outer tubular rod is made with a screw carving.

The inventive utility model is illustrated by drawings, where in FIG. 1 shows an outer tubular rod; FIG. 2 - the position of the tubular anchor in the hole in working condition, and in FIG. 3 - the position of the tubular spacer rod inside the outer tubular rod.

The inventive tubular anchor consists of an outer tubular rod 1 (Fig. 1 and 2), on the outer surface of which a screw thread 2 is made, and along the entire length of the tubular rod 1 there is a longitudinal slot 3, an abutment 8 for the base plate 7 and a tubular spacer rod pressed into the inside 5 with a longitudinal slit 6 along the entire length.

When installing the tubular anchor in the hole 4, first the outer tubular rod 1 is inserted to its entire length (Fig. 2), then inside the outer tubular rod 1 is placed by pressing (or clogging) a tubular spacer rod 5 having a longitudinal slit 6 along the entire length.

In this case, the tubular spacer rod 5 is compressed due to the presence of a longitudinal slot 6 and at the same time extends the walls of the outer tubular rod 1, due to which the screw thread 2 is embedded in the rock walls of the hole 4.

The tubular spacer rod 5 should be located inside the outer tubular rod 1 (Fig. 3) so that its longitudinal slit 6 is on the opposite side from the longitudinal gap 3 of the outer tubular rod 1.

After the expansion of the tubular anchor in the hole, a base plate 7 with an annular stop 8 is installed on its end.

An advantage of the claimed tubular anchor is that on the outer surface of the outer tubular rod there is a screw thread that is embedded in the rock walls of the hole when its walls expand while the tubular spacer rod is pressed into it and due to this, the tubular anchor is securely fixed in the hole regardless of moisture and contamination of the walls of the hole.

The parameters of the screw thread on the outer surface of the outer tubular rod may vary depending on the geological and mining conditions of the use of the tubular anchor.

The effectiveness of the proposed technical solution is evaluated by:

- reliable and durable fixing of the tubular anchor in the hole;

- increase the bearing capacity of the tubular anchor;

- applicability in conditions of watering rocks;

- improving the quality of fastening of rock outcrops during the excavation of mine workings, tunnels and other industrial facilities.

Claims (1)

A tubular anchor comprising an outer tubular rod with a longitudinal slot along the entire length, an abutment for the base plate and an inwardly pressed tubular spacer rod with a longitudinal slot along the entire length, characterized in that the outer surface of the outer tubular rod is made with a screw thread.

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