DE936204C - Anchor for the pit lining - Google Patents

Description

Anchor for the pit lining The invention relates to an anchor for the pit lining, the routes to secure the hanging wall, the lying and the Joints and mainly used in the dismantling of the hanging wall.

Known are anchors made of steel, wood and concrete with reinforcement iron. Steel anchors are expensive and difficult when they are bent by rock movement are. Wood has too little strength. Anchor off; Concrete are proportionate cumbersome to install, require a longer setting and hardening time and are short-brittle.

According to the invention, the shafts of anchors are made in cross section made of two different building materials, one of which has high elasticity and the others have high tensile strength. The building material ensures higher elasticity a sufficient concern for the mountains, the building material with the higher tensile strength essentially takes up the mountain movements. By using it lighter and cheaper elastic building materials, the weight of the anchor is reduced and the production costs are reduced degraded.

In a preferred embodiment of the anchor according to the invention the shaft body is tubular. It consists e.g. B. made of elastic building materials, wood, Mild steel, light metal, rubber or fabric. Inside are one send or one Ropes made of steel wire or textile materials or a round steel rod to accommodate the Tensile forces arranged.

In this embodiment, when using ropes, the tubular , Sichaftkörper in its longitudinal direction in a known per se from a variety by sections that sit on top of each other during installation. This achieves that also anchor installed vertically whose length z: B. exceeds the seam thickness. At the same time, the individual sections can be of the shaft body, unevenness of the borehole wall and also curvatures of the borehole better adjust.

In another embodiment, the building material forms with great elasticity likewise the shaft of the anchor, the building material with high tensile strength, eats in a continuous longitudinal groove or in a twist groove in the jacket of the former shaft ax arranged.

When using a steel.runds: tabes as a shaft part with high tensile strength the anchor can be anchored in the usual way: a slot wedge can be attached to the head end or an expanding sleeve that is tightly arranged by tightening the shaft. the Mountains are pressed. The free end of the anchor can. by means of a suit! lsi, if necessary, tightened on a support plate. To @Sitelle individual Underlay plates, beams made of flat steel or steel plates can be used, connect the rows of anchors together.

When using ropes as reinforcements, their head ends can be braced in simple white according to the invention. The head end of the rope is bent outwards and stored in a short longitudinal groove in the jacket of the shaft part made of elastic building material when the rope is arranged inside the shaft. The end of the rope can be fixed to the shaft by a staple or the like. Conversely, the head end of the rope is bent inwards and stored in a short central hole in the shaft, if the rope is arranged in a longitudinal or twisted groove in the jacket of the shaft. In both cases, a round wedge is braced by means of a longitudinal wedge, which in the initial position s-be; ect in the shaft and protrudes over it and is driven by driving the screw into the shaft and spreads its head apart. The free end of the rope is tensioned by means of rope tensioners of a known design, if necessary again with the interposition of an overlay plate or a girder. Ropes can be attached to; be stretched in a known manner for the purpose of earlier load pick-up.

Two tie rods according to the invention are shown schematically in the drawing shown in a graphical representation.

Fig. I shows an anchor with a rope, which is arranged in the shaft is, Fig. z an anchor with an arrangement of the rope in a continuous longitudinal groove and Fig. 3 shows a round wedge for bracing on an enlarged scale. The shaft of the Anchor consists in Fig: i of the tubular shaft body i and the one arranged in it Rope 2. The head end of the rope 2 is bent outwards and in the short longitudinal groove 3 stored in the jacket of the shaft ice. In Fig. 2 the rope 2 is in; the continuous Longitudinal groove q, arranged and bent into the short central hole 5. The same The hole is in the free end of the adhesive. She picks up the end wedge. The round wedge 6 is used for clamping.

Claims (3)

PATENT CLAIMS: i. Anchors for pit lining, characterized in that that be. The cross-section of the shaft consists of two different building materials! those. one has high elasticity and the other has high tensile strength. 2. Anchor according to .Anspruch i, characterized in that in a tubular shaft body (i.) Made of elastic building material, e.g. B-. Wood, mild steel, light metal, rubber or Fabric, a rope (2) or ropes made of steel wire or of textile, e.g. B. made of nylon, or a round steel bar are arranged. 3. An anchor according to claims i and 2 using ropes, characterized in that the = tubular shaft body (i) consists of a plurality of sections in its longitudinal direction. q .. anchor according to claim i, characterized in that in a continuous. Longitudinal groove (4) or twist groove in the jacket of the shaft part made of elastic building material, e.g. B. made of wood, mild steel, rubber or fabric, a rope (2) or ropes made of steel wire or fabric, e.g. B. made of nylon, are arranged. 5. Anchor according to claims i to 3 using! Steile, characterized in that the head end of the .Seils (2) bent outwards, stored in a short longitudinal groove (3) in the jacket of the shaft and supported by a longitudinal wedge, preferably one Round wedge (6), braced; is. 6. Anchor according to claims i and q. using ropes, characterized in that the head end of the rope (,, i) is bent inwards, stored in a short central bore (5) in the shaft and braced by a longitudinal wedge, preferably a round wedge (6). 7. Anchor according to claims i to 6 using ropes, characterized in that the ropes (2) are pre-stretched.