DE2511706B2 - MOUNTAIN ANCHORS - Google Patents

Description

The invention relates to a rock anchor, which at least with its two ends against the rock is supported and there is firmly connected to this.

There are rock anchors known, which consist of an anchor rod at one end Anchor head is attached, which is designed as an expansion element in the anchor borehole deepest against the borehole wall can be clamped or which can be glued in there, and at the other end at the borehole mouth one Anchor plate is arranged, the z. B. can be braced against the mountains with a nut.

There are also known rock anchors which are glued into the borehole along their entire length. In certain cases, these prevent mountain loosening more reliably than those described above Anchor. However, you are more sensitive to breakage of the anchor rod if you still have relaxation movements occur, as these only have an effect on a comparatively short anchor length Extensibility is naturally correspondingly low.

Rock anchors are used to secure cavities. As a result of the dowel effect and the prestressing effect, they should Support the self-supporting capacity of the mountains and maintain the mountain association in order to prevent mountain movements to avoid if possible. In certain rocks that have low bandage strength and under certain circumstances, e.g. B in mining in the area of influence of mining, larger rock movements can be observed do not avoid. These relaxation movements, which are usually directed radially towards the cavity can often not accommodate the rock anchors used today. They then often tear due to overload when the comparatively low extensibility of the anchor rod is exceeded and the load is not by sliding the anchor head on the borehole wall, by creeping processes in the rock around the anchor around or the like. However, these relieving processes are hardly controllable or predictable.

The invention has the task of developing a rock anchor, the greater relaxation movements of the mountains without its holding and bracing function due to breakage of the anchor rod to lose, and in which the indefinable

Sliding or creeping movements between the anchor and the rock or in the rock around the anchor largely avoided.

This task is performed with a mountain anchor, which is at least with both ends against the mountain supported, solved in that the rock anchor consists of at least two parts, which are against each other under Load are connected to one another in a resiliently displaceable manner by a displacement length. Through the solid Attachment of the rock anchor according to the invention to the rock together with the multi-part displaceable Formation of the anchor parts arranged between the connection points, which yield under load can, a braked relaxation movement of the mountains is allowed, whereby the bandage strength of the mountain / rock anchor system is largely retained.

The resistance to displacement of the flexible connection between the two parts can be achieved by means of load-bearing elements can be achieved, the frictional work, shear work, deformation work or hydraulic work.

The displacement resistance can be adjusted according to height and behavior (constant or path-dependent variable load absorption) is set in order to be able to take different Cebirgsverhälinissen into account.

According to a preferred embodiment, the anchor rod, anchor head, anchor plate and prestressing and retaining element existing rock anchor according to the invention be designed so that the anchor rod consisting of an upper rod with an anchor head that can be fastened in the anchor borehole and a lower rod with Bracing and holding head is formed, the upper rod and the lower rod each have a slider, which are mutually exclusive overlap and wear stops, and between the stops, offset by a displacement length, Connecting rings are arranged around the sliders.

According to a second preferred embodiment, the anchor rod, anchor head, anchor plate and Prestressing and holding element existing rock anchor according to the invention be designed so that the Anchor head consists of a short anchor tube that can be glued into the anchor borehole, in which the with Bracing element equipped anchor rod is guided displaceably by a displacement length.

According to a third more preferred. Embodiment can consist of anchor rod and anchor head Rock anchor according to the invention be designed so that the anchor head from one into the anchor borehole Glue-in long divisible anchor tube, in which the anchor rod equipped with bracing elements is guided displaceably by displacement lengths.

Preferably, the rock anchor according to the second embodiment is designed so that the anchor tube has an anchor rod guide at one end.

The rock anchors according to the invention can be expediently according to the second and third Execution form including the following additional Further training characteristics:

Preferably there is one on the armature tube as a displacement limiter Serving rejuvenation provided. Instead of the taper, a ring with a correspondingly narrow inner diameter can also be provided be.

It is advisable to install the anchor in the rock between the anchor pipe and the anchorage non-rotatable connection arranged, which can be inoperative after the bracing elements have responded.

To achieve different displacement resistances, the armature tube can have a friction lining on the inside or shear layer.

For the purpose of better adhesion to the borehole wall, the anchor pipe is preferably provided on the outside with an adhesion-increasing profile.
The anchor tube is advantageously closed with a cover plate that carries a cutting attachment that facilitates screwing into the adhesive mortar.

The bracing element can be designed as a conical sleeve. But it can also consist of an expanding wedge be formed 'with a slot at the end of the anchor rod

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The third embodiment of the rock anchor according to the invention can have the following additional features be trained:

A predetermined breaking point can be provided in the catch anchor tube, so that the resilience of the Rock anchor according to the invention comes into play only after a certain load acceptance. At the Installation of the anchor in the rock is therefore a non-rotatable connection between the upper and lower part of the anchor tube.

The long anchor tube is expediently surrounded by a separating sleeve in the central area in order to avoid that relaxation movements of the rock become effective point by point on the anchor pipe.

The long anchor tube can be attached to the side associated with the borehole mouth through a cap Attachment part, which is equipped with wrench flats, be closed.

When using the flexible rock anchor according to the invention, the bond strength depends on the System mountains / mountain anchors no longer depend on whether the relaxation movements of the mountains through the maximum possible elongation of the anchor material be recorded or whether the rock around the anchor happens to behave appropriately. The extensibility of the The rock anchor according to the invention can rather be over the length of the displacement path of the flexible Connection to the expected, z. B. can be determined through experiments, relaxation movements of the Be adapted to the mountain range. Via the adjustable displacement resistance of the load-bearing elements the efforts to relax in the mountains are countered with the necessary resistance.

In the case of rock anchors, larger relaxation movements in the rock can be carried out as planned be mastered.

In the case of the rock anchor according to the invention, it is possible to reduce the load resistance of the load-bearing element set in a workshop for days, so that when installing at the installation site only the Fastening in the mountains and, if necessary, the pretensioning of the anchor rod against the mountains must be done.

Because of the adjustable, defined size of the displacement resistance in the snap-in element, Under certain circumstances, expensive special steels can be dispensed with as a core material, which are currently due to the demand for high strength and high ductility of the anchor material can be used.

The invention is explained in more detail below with reference to the drawing in an example. It shows

F i g. 1 in a sectional view a

Embodiment of the rock anchor according to the invention,

2 shows a second embodiment of the invention Mountain anchor,

F i g. 3 and 4 bracing elements of the invention-Ben Mountain anchor and

F i g. 5 shows a third embodiment of the rock anchor according to the invention.

1 shows an anchor borehole 1 which is sunk in a rock 10. An anchor rod 2 is anchored in the anchor borehole 1 in that the anchor head 20ö is firmly and immovably embedded in adhesive mortar 8 at the bottom of the borehole. The anchor rod 2 has a bracing and holding head 201 protruding from the anchor borehole 1, over which an anchor plate 11 is inserted, which is supported against the rock 10 in front of the borehole mouth. The anchor plate 11 is held in place via a prestressing and holding element 12, in the example a threaded nut. By tightening the prestressing and holding element 12, a prestressing can be introduced into the anchor rod 2. In the rock anchor according to the invention, the anchor rod 2 consists of the one shown in FIG. 1 of two parts, a lower rod 26 and an upper rod 27. These carry overlapping sliding pieces 28, 29 on which there are stops 33, 34 that serve as abutments for connecting rings 35, 36 that hold the sliding pieces 28, 29 together . In the area of the sliders 28, 29, the anchor rod 2 is flexible by a displacement length b as soon as the load absorption of the anchor rod 2 is a certain, predeterminable and adjustable via the connecting rings 35, 36 in connection with the sliding resistance of the sliding surfaces of the sliders 28, 29 Value exceeds.

In Fig. 2 shows a second embodiment of the rock anchor according to the invention, which in the example has an anchor rod 2 and an anchor head which is designed as a short anchor tube 4. This is immovably glued in the deepest part of the anchor borehole 1 over an adhesive length a with adhesive mortar 8. At the mouth of the anchor borehole 1, as in the example in FIG Mountains 10 supported. With the aid of the prestressing and holding element 12, the anchor rod 2 can also be subjected to prestressing in this example. Wrench flats 13 are provided at one end of the anchor rod 2 in order to be able to screw the rock anchor into the adhesive mortar 8 with the aid of a tool. At its other end, the anchor rod 2 is equipped with a bracing element 3 that connects it to the short anchor tube 4 in a non-positive manner. The bracing element 3 can be designed in any way, for example. as in Fig. 3 is shown as a conical sleeve 18, or, as in FIG. 4 is shown as an expanding wedge 19 which is let into a corresponding slot at the end of the anchor rod 2

A friction lining or shear lining can be used between the short anchor tube 4 and the bracing element 3 5 can be made of a suitable material which helps determine the displacement resistance. The anchor rod 2 and the short anchor tube 4 suitably have the same breaking load that is only slightly above the There needs to be a displacement resistance that can be transmitted through the bracing element 3. Is the Breaking load higher than the displacement resistance of the bracing element 3, there is a deformation reserve for local overstressing of the anchor. The end located in the deepest part of the anchor borehole 1 the short anchor tube 4 is closed in the example by a cover plate 6, which is intended to avoid that Adhesive mortar 8 penetrates into the short anchor tube 4 and affects the displacement resistance. On the lens 6, a cutting attachment 7 is arranged in the example, the screwing in of the invention Mountain anchor in the adhesive mortar 8, which is usually with the help of so-called adhesive cartridges in the Anchor borehole 1 is introduced.

In the example, the short anchor tube 4 has a taper 14 which is used for guidance. It encloses an insulating disk 15 which keeps moisture away from the interior of the anchor tube 4. With the taper 14, a limitation of the displacement path length b is realized at the same time.

Between the short anchor tube 4 and the anchor rod 2 are in the examples of FIG. 2,3 and 4 Arranged at a suitable location driver 161,162, 163 to provide a non-rotatable connection during the To ensure that the rock anchor is screwed in and braced.

A third embodiment of the rock anchor according to the invention is shown in FIG. In this case, a long anchor tube 40 is connected to the rock 10 at least at its ends by gluing. Instead of an anchor plate 11 arranged in front of the borehole mouth, a second bracing element 30 is provided in the vicinity of the borehole mouth in addition to the bracing element 31 in the deepest part of the borehole as a second fixed point of the anchor rod 2 so that the rock anchor is firmly attached to the rock K only in the area of the adhesive points c and d.

The long anchor tube 40 has in the middle a Schiit / or a notch 20, so that the rock anchor in the Adhesive mortar 8 can be driven in without torque being applied to the bracing elements 30, 31 be transmitted; on the other hand, however, the armature tube 40 has a predetermined breaking point at this point, ar the demolition can take place as soon as the relaxation movements in the mountains 10 a certain vorgege should exceed this value and the rock anchor should give way.

In the central area of the long anchor tube 40 sin (tapering 21 provided, which de Anchor rod 2 and serve as end stops for the bracing elements 30, 31 after this was done Load bearing the displacement e, / have covered, so the full flexibility is exhausted.

This is the langi in the area of the mouth of the borehole Anchor tube 40 closed by a cap 23 on the one attachment! 24 with wrench flats inc Attachment of a tool is attached, with dessei The rock anchor according to the invention can be screwed into the adhesive mortar layer 8.

The non-rotatable connection between the long anchor tube 40 and anchor rod 2 is provided by drivers 164 165 causes.

For this purpose 2 sheets of drawings

Claims (17)

Patent claims: 1. rock anchor, which is supported at least with its two ends against the mountains and there is firmly connected to this, characterized in that the rock anchor consists of at least two parts (26, 27; 2, 4) which are against each other under load by one Displacement length (b; e, f) are connected to one another in a resiliently displaceable manner. 2. Rock anchor according to claim 1, characterized in that that the displacement resistance of the flexible connection of the two parts (26,27; 2, 4) can be achieved via load-bearing elements (3; 18; 19; 28,29,35, 36), the friction work, shear work, Perform deformation work or hydraulic work. Ä. Rock anchor according to claims 1 and 2, characterized in that the displacement resistance via the load-bearing elements (3; 18; 19; 28, 29,35,36) adjustable according to height and behavior (constant or path-dependent variable load absorption) is 4. Rock anchor according to claims 1 to 3, consisting of anchor rod, anchor head, anchor plate and prestressing and holding element, characterized in that the anchor rod (2) consists of an upper rod (27) with an anchor head (200) which can be fastened in the anchor borehole and a lower rod ( 26) is formed with a bracing and holding head (201), the upper rod (27) and lower rod (26) each have a slider (28 and 29) which overlap each other and bear stops (33 and 34), and between the stops (33,34) offset by a displacement length (b) , connecting rings (35,36) are arranged around the sliding pieces (28,29). 5. Rock anchor according to claims 1 to 3, consisting of anchor rod, anchor head, anchor plate and prestressing and holding element, characterized in that the anchor head consists of a Anchor borehole glued-in short anchor tube (4) is formed in which the bracing element (3; 18; 19) equipped anchor rod (2) is guided so that it can be displaced by a displacement length (ty. 6. Rock anchor according to claims 1 to 3, consisting of anchor rod and anchor head, characterized in that the anchor head is formed from a long divisible anchor tube (40) which can be glued into the anchor borehole and in which the anchor rod (31, 30) equipped with bracing elements (31, 30) is formed. 2) is guided displaceably by displacement lengths (e, / J. 7. rock anchor according to claim 5, characterized in that the anchor tube (4) one end Has anchor rod guide (15). 8. rock anchor according to claim 5 or 6, characterized in that the anchor tube (4, 40) as a Has the displacement path limitation serving taper (14; 21). 9. rock anchor according to claim 5 or 6, characterized in that between the anchor tube (4,40) and An anchor rod (2) a non-rotatable connection (161, 162,163,164,165) is provided. 10. Rock anchor according to claim 5 or 6, characterized characterized in that the armature tube (4,40) is equipped on the inside with a friction lining or shear lining (5) 11. Rock anchor according to claim 5 or 6, characterized characterized in that the anchor tube (4,40) is provided on the outside with an adhesion-increasing profile. 12. Rock anchor according to claim 5 or C, characterized characterized that the anchor tube (4,40) with a Closing disk (6) is closed, which carries a cutting attachment (7) 13. Rock anchor according to claim 5 or 6, characterized characterized in that the bracing element is designed as a conical sleeve (18) 14. Rock anchor according to claim 5 or 6, characterized characterized in that the bracing element is designed as an expanding wedge (9) and the anchor rod (2) is slotted 15. A rock anchor according to claim 6, characterized in that the long anchor tube (40) has a Predetermined breaking point (20) is provided. 16. Rock anchor according to claims, characterized characterized in that the long anchor tube (40) in the middle area of a separating sleeve (22) is surrounded 17. Rock anchor according to claim 6, characterized characterized in that the long anchor tube (40) is closed by a cap (23) with attachment part (24), which is provided with wrench flats.