DE3531393C1 - Combined, rigid profiled and expansion roof bolt - Google Patents

Abstract

Roof bolts for securing roadways and spaces in mining and tunnelling are made of extensible steel and can be secured at the back of the borehole by means of an adhesive, in which arrangement the end projecting from the mouth of the borehole can be restrained relative to the rock by means of a bolt plate and a screwed connection. To form a combined, rigid profiled and expansion roof bolt, the encasing tube (5) consists of at least three sections (6, 7, 17) in each case frictionally connected to one another via predetermined breaking points, only the sections (6, 17) arranged in the area of the mouth and the back of the borehole being provided with permanent adhesive profiling (19) (Figure). <IMAGE>

Description

The in a borehole 3 in the rock 4 by means of an adhesive 8 glued-in anchor 1 made of stretchable material is to the bottom of the borehole with a designed as a form-locking element mixing tip 2 or a comparable opposite the cladding tube 5 is provided as an abutment element. Outside the borehole 3 is the anchor 1 and also the cladding tube 5 surrounding it over its entire length an anchor plate 11 and a spherical washer 13 clamped by means of a nut 12, a spacer sleeve 14 being arranged between the nut 12 and the spherical washer 13 is. The end of the anchor 1 outside the borehole 3 has a short thread 15 provided in order to avoid notch stresses in the area of the possible anchor plate deflection to let occur. Furthermore, the anchor 1 has a two-sided 16 for assembly with the help of conventional setting devices. That anchor 1 on the entire length surrounding the cladding tube 5 consists in the illustrated embodiment of three sections 6, 7 and 17. Sections 6 and 7 and 7 and 17 are respectively non-positively connected to one another, for example via spot welds 10, which Represent predetermined breaking points. The section 6 of the directed towards the deepest of the borehole Cladding tube 5 and also the section 17 directed towards the borehole mouth are each provided with an adhesive profile 18, for example in the form of cold rolled Adhesive threads are made. The surface of the or between the sections 6 and 17 arranged sections 7 is opposite to the adhesive material surrounding the cladding tube 8 smooth. To increase the friction of this section against the adhesive material 8 it is possible according to an embodiment not shown in the drawing, to provide this section 7 with a coating of glued-on quartz sand. With a corresponding load on the cladding tube section 7 and the associated Lengthening this coating loosens.

LIST OF REFERENCE NUMERALS 1 anchor 2 mixing tip 3 borehole 4 rock 5 cladding tube 6 Section 7 Section 8 Adhesive material 9 Metal adhesive 10 Weld point 11 Anchor plate 12 nut 13 spherical washer 14 spacer sleeve 15 thread 16 two-sided 17 section 18 Adhesive profiling - blank page -

Claims (3)

Claims: 1. Rock anchor to secure routes and spaces in mining and tunneling, the tension member of which is made of ductile steel at least can be fixed in the deepest part of the borehole by means of an adhesive and that from the mouth of the borehole protruding end by means of an anchor plate and a screw connection opposite the mountain can be braced, the tension member at least on part of it Length has a so-called free play distance, which is through a the tension member surface against the adhesive material that fills the borehole, e.g. B. tubular formed separating layer is formed, and that tension member of the anchor with the exception its designed as a shaped element mixing tip over its entire length of one is surrounded by at least two sections existing cladding tube, the deepest in the borehole arranged section with the anchor tension member and the adjacent cladding tube section each non-positively connected (according to patent 3417252), thereby k e n n z e i c h n e t that the cladding tube (5) consists of at least three each with predetermined breaking points frictionally interconnected sections (6, 7, 17), with only the sections arranged in the area of the borehole mouth and the bottom of the borehole (6, 17) are provided with a permanent adhesive profile (18). 2. Rock anchor according to claim 1, characterized in that at least the section (7) lying between the sections (6, 17) with an adhesive material (8) a shielding separating layer made of glued-on quartz sand is provided. 3. Mountain anchor according to claim 1, characterized in that the Cladding tube (5) made of steel has a lower elongation at break than the tension member of the armature (1). The invention relates to a rock anchor for securing routes and rooms in mining and tunnel construction, the tension member of which is made of ductile steel Can be fixed at least in the deepest of the borehole by means of an adhesive and its from the Borehole mouth protruding end by means of an anchor plate and a screw connection can be braced against the mountains, the tension member on at least one part its length has a so-called free play distance, which is through a the tension member surface against the borehole filling adhesive material shielding, z. B. tubular separating layer is formed, and the tension member of the armature with the exception of its mixing tip, which is designed as a shaped element, via its The entire length is surrounded by a cladding tube consisting of at least two sections is, whose section located in the deepest borehole with the anchor tension member and the adjacent cladding tube section is each positively connected (according to patent 34 17 252). The rock anchor of the type mentioned is a combined one rigid profile and expansion anchor, which is initially considered to be more rigid after the adhesive has hardened An anchor with high tensile strength acts, and only after a predeterminable one is exceeded Load-bearing capacity releasing effect and taking on the function of an expansion anchor. When using such anchors, especially in the layered carbon mountains, one could determine that the cladding tube glued into the borehole over the entire length if the intended load capacity is exceeded, not necessarily at the intended one Predetermined breaking point, but at the point of the mountain opening tears. With the tearing off of the cladding tube at the point of the mountain opening is a drop in force connected to the characteristic curve of the internal steel, which is not is desired. The object of the invention is to improve the subject matter based on the use of a combined rigid profile and expansion anchor, in particular in the stratified carbon mountains to avoid the above-mentioned drop in force and on simple way to ensure that the cladding tube does not break or tear takes place at the rock opening, but at the predetermined breaking point. This object is achieved according to the invention in that the cladding tube of at least three frictionally connected to each other via predetermined breaking points Sections consists, with only those in the area of the borehole mouth and the deepest of the borehole arranged sections are provided with a permanent adhesive profile. Due to the smooth design of the surface of the or between the end sections of the cladding tube located middle section takes place at a corresponding rock opening after the cladding is torn down, another change in length takes place under friction against the adhesive column surrounding the cladding tube and causes a compensation in the characteristic. Advantageously, there can be an increase in friction in such a Section can be made by having this section with an adhesive material shielding separating layer is provided from glued-on quartz sand. This coating dissolves with the corresponding elongation of the cladding tube, with this friction component in turn contributes to the compensation of the characteristic. For the mode of action of the combined rigid Profile and expansion anchor, it is essential that the cladding tube made of steel has a lower elongation at break than the tension member of the anchor. The technical progress of the invention is in particular, as already mentioned to see in it that the mode of action is better than the layered carbon mountains is adapted. An embodiment of the invention is shown in the drawing and is explained in more detail below.