DE3145923C2 - Bracing device for the tension member of an anchor, in particular a rock anchor - Google Patents

Abstract

In mining, for example, the mountain pressures are only held temporarily for the expansion of routes, whereby the mountain continues to deform. On the one hand, these deformations must be allowed so that a new state of equilibrium can be established, on the other hand, the extent of the deformations exceeds the elasticity of the steel anchor rods. According to the invention, the anchoring element (5) for a steel rod (1) provided with force transmission ribs can be elastically deformed in at least one radial direction. As a result of the ring tensile force that occurs when a certain longitudinal tensile force is exceeded, caused by the inclined flanks of the power transmission ribs (2), it expands. As a result, the power transmission ribs (2) disengage from the recesses of the anchoring element (5), which is slid along the steel rod by a certain distance via the power transmission ribs. As a result of the associated reduction in the longitudinal force, the force transmission ribs come into engagement again with the recesses of the anchoring element at another point. In the case of a plurality of such anchors, in relation to a larger rock pressure area, a quasi continuous relief of the surface under the rock pressure arises.

Description

(Short messages from the coal mining association No. 105, December 1979, page 5). At the head of the Anchor rod, shear cams are attached to the Load on the anchor can be pulled in the longitudinal direction through the synthetic resin compound. The ones for machining The force required for the shear deposit is available as an adjustment load, but it is also not exact define.

The invention is based on the object bsi one Bracing device of the type specified at the beginning a way to create sn to make the anchor force more accurate determine and above all to avoid plastic changes in shape on the parts forming the anchorage.

According to the invention, this object is achieved by the features of the characterizing part of the claim 1 solved

Advantageous further developments of the invention emerge from the subclaims.

The advantage of the invention is essentially that the clamping device, after once has become effective, is able to cope with overriding through elastic deformation. This is done in such a way that the anchoring at If a predetermined anchor tensile force is exceeded, offset by a certain distance along the tension member becomes and there again a stable position due to the relieving of the tension member associated with the relocation occupies.

In the case of a steel bar with ribs that form a partial thread and an anchoring element designed as a nut In this case, only an expansion in the direction of the thread ribs is required so that the The thread of the nut is loosened from the toothing with the steel rod. This is done via the sloping Flanks of the thread ribs on which the corresponding surfaces of the internal thread of the anchoring nut slide up with increasing radial force component. However, the invention is also applicable to any configuration Power transmission ribs can be implemented as long as they have tendrils that run obliquely to the rod surface and the anchoring element has correspondingly designed recesses.

Since the distance between the force transmission ribs following one another in the longitudinal direction in such steel rods is generally relatively large, a - »5 Steel rod, in which this release mechanism was triggered, temporarily relieved of the load until it receives load again due to the deformation of the rock. It can also happen that an anchoring element Remains in the expanded position for a certain period of time until it gives way again of the mountainous area is moved further along the anchor rod and again with other power transmission ribs locks in place Since with a dense grid of anchors, the loading of the individual anchors occurs irregularly the relief mechanisms will take effect at different times. On a larger mountain pressure area seen, this creates a kind of continuous relief of the surface beneath the Mountain pressure.

The invention is explained in more detail below with reference to the exemplary embodiments shown in the drawing explained. It shows

F i g. 1 shows a longitudinal section through an anchorage according to the invention, the

F i g. 2a to 2c are various in a schematic representation Phases of relief. g of anchoring and the

Fig. 3 to 7 different embodiments for the anchoring element

In the iii F i g. 1 illustrated embodiment jst an anchor tension member in the form of a steel bar t with hot-rolled, - helically extending Ribs 2, which lie opposite sides of the rod 1, in a borehole 3 in the rock 4 arranged and anchored by means of an anchoring nut 5 against an anchor plate 6, which against the Surface of the mountain 4 is applied

In the Fi g. 2a to 2c is in three different phases the function of the anchoring according to the invention is shown. 2a corresponds that of Fig. 1. The anchoring nut 5, the on the inside with the ribs 2 of the steel rod 1 corresponding recesses 7 is provided, is in engagement with the steel rod 1 and causes it Anchoring opposite the anchor plate 2. As a result of the longitudinal tensile force inherent in the steel rod 1 in the area of the inclined flanks 8 of the ribs radially outwardly directed force components, which in the anchoring nut 5 cause a Ringiwgkraft.

If this ring tensile force is greater as a result of an increase in the longitudinal tensile force in the steel rod 1, al; the Can accommodate anchoring nut 5 due to its elasticity provided according to the invention, the can Anchoring nut 5 extends in the direction of arrow 9 in F i g. Expand 2b so that the ribs 2 are disengaged with the recesses 7 and the areas 10 of the anchoring body lying between the recesses 7 climb onto the surfaces of the ribs 2. This allows the steel rod 1 to yield and slide a certain distance through the anchoring nut 5.

Depending on the size of the longitudinal tensile force in the steel rod 1 and also depending on the distance of the Ribs 2 or the recesses 7, the anchoring nut 5 engages due to its elasticity aa another point of the steel rod 1 again, so that after the offset of the steel rod 1 again a stable Anchoring is present (Fig. 2c).

In the Fig.3 to 7 are some possibilities for Formation of the anchoring nut shown to give her the elasticity required for radial expansion or to give restoring force.

The nut 5a in Figure 3 is formed in one piece. Starting from the central cavity 10, in the inner wall of which there are threads that with the Corresponding ribs 2 of a steel rod are these widening on opposite sides axial Bohrungeü 11 provided. This will make the the cross-section of the nut required to absorb the ring tensile force is weakened at these points and at the same time the axis of the cross-section is directed outwards. This will be on opposite sides Make soft, joint-like acting places created so that the nut 5a in to The connecting line of these points in the vertical direction can elastically deform if their threads are on climb up the inclined flanks of the threaded ribs 2 indicated by dashed lines.

The in F i g. 4 illustrated nut 5b consists of two parts 12 and 13. Both parts touch each other in a radial joint 14. In the hexagonal lower areas of the two parts 12 and 13 of the nut 5b , cylindrical lugs 15 and 16 are arranged, which are supported by a slotted sleeve 17 made of high-strength steel are enclosed. The expansion of the

Nut 5b takes place along the joint 14 by bending the sleeve 17 open.

The in FIG. The nut 5c shown in FIG. 5 consists of two parts 18 and 19 which are located in a radial joint 14 touch. On opposite sides of the nut 20 are dovetail-like in depressions Arranged projections 21, behind each of which a clamp 22 engages The widening of this nut 5c thus takes place by elastically bending the clamps 22 apart.

The nut 5d , which is shown in FIG. 6 in a top view and a side view, is designed in a similar manner. This nut also consists of two parts 23 and 24. Recesses 25 with bores into which hairpin-like clips 26 are inserted are provided from the top and bottom of the nut.

Finally, it is also possible, as in FIG. 7

shown to provide continuous recesses 27 with projections 28 on the longitudinal sides of a nut Se , around which spring strips 29 designed as closed rings are wrapped.

s Regardless of the illustrated embodiments, there are still other options for Design of such an elastically deformable anchoring element. Also the invention is not on a steel rod tied to the threaded ribs of the

to described and illustrated type is provided. Rather, steel bars can also be used, which are equipped with arbitrarily designed power transmission ribs, provided they have sloping flanks are provided and the recesses of the anchor elements have corresponding inclined surfaces, so that the horizontal force component causing an expansion of the anchoring element is effective can be.

For this purpose 2 sheets of drawings

Claims (8)

Patent claims: 1. Yerspanning device for the tension member of an anchor, in particular a rock anchor, wherein the tension member consists of a one-piece or multi-part steel rod, which is provided with mutually opposite sides of its circumference with power transmission ribs preferably lying on a helix and forming at least one partial thread, and the bracing device an anchor plate that can be braced against an anchor plate surrounding the borehole mouth and can be applied to the air side end of the anchor rod, which has force-transmitting means for engaging the force transmission ribs of the anchor rod which, when a predetermined longitudinal anchor force is exceeded, can be brought out of engagement with the force transmission ribs as a result of deformation until the The predetermined longitudinal tensile force is again undershot, since "* ⁰ " indicates that the ^M anchoring element has a force transmission rib which is provided for engagement with the flanks which run obliquely to the rod surface s (2) of the anchor rod (1) suitable, likewise obliquely extending edges having recesses (7) verse- ^a hen and formed in a radial direction transverse to the longitudinal axis of the anchor rod elastically expandable, such that it is exceeded the predefined anchor longitudinal tensile force via the power transmission rib (2) along the anchor rod (1) is displaceable slidably to a certain distance ^x. 2. Verspannvorrichfung nart claim 1, characterized characterized in that dps anchoring element is designed as a nut (5) and rfr recesses (7) Cewinds are. 3. Bracing device according to claim 1 or 2, characterized in that the anchoring element (5 a) has a reduction in the cross section absorbing the ring tensile force at at least two preferably opposite points 4. Bracing device according to claim 3, characterized in that the cross-sectional reduction is arranged so that the axis of the ring tensile force absorbing cross section at the points of Cross-sectional reduction is directed outwards. 5. Bracing device according to claim 3 or 4, characterized in that the anchoring element (5a) has recesses (11) extending from the central bore on two opposite sides. 6. Bracing device according to claim 1 or 2, characterized in that the anchoring element (5b, Sc) consists of two parts (12, 13 or 1g) which are in contact with one another in a radial joint (14) and which are frictionally held together by spring elements (17 or 22) , 19 and 23.24). 7. retaining device according to claim 6, characterized in that the spring element is a slit sleeve (17) is provided ^w of high-strength steel, which surrounds the parts (12, 13) of the anchoring element (5b) is annular. 8. Bracing device according to claim 6, characterized characterized in that clips (22,26,29) are provided as spring elements, which are attached to the parts (18,19 or 23,24) attack the anchoring element. The invention relates to a bracing device for the tension member of an anchor, in particular a rock anchor, .with the features of the preamble of Claim 1. In mining, rock anchors are used to a large extent as tension members for the expansion of routes These anchors are especially suitable for steel rods with hot-rolled, helically extending ribs are provided, which form a partial thread, can be screwed onto the anchoring body provided with the corresponding mating thread. On the one hand, these steel rods have a good bonding effect in the area of the anchoring section due to the ribs; on the other hand, the anchoring in easily done by screwing on anchoring bodies. Especially in deep reservoirs, the rock pressures are only temporarily held by expansion, whereby the mountains are constantly deforming. The problem is that on the one hand deformations of the Mountains must be admitted so that a new state of equilibrium can be established after the eruption, but that on the other hand the deformations a Reach order of magnitude, which far exceeds the elasticity of the anchor tension members made of steel With a bracing device of the type specified at the outset, an anchorage for pressing mountains has become known, which allows large deformations on the broken surface without failing. This Verspannvorrichujng consists of a steel sleeve penetrated by a steel rod, the tapering hole towards the anchor plate with lumpy filling material, z. B. steel balls, filled and completed (DE-OS 27 51 020). When a force acting on the steel bar tensile load the filling material in the cavity is pressed into the tapered gap space This produces so high at the lumpy filling local pressures that it causes in the / u-coupling parts in addition to elastic also plasti'-che deformation, wherein Relative displacements occur between the parts to be coupled. In a bracing device of this type, it is also known to divide the lumpy filling material into at least two to provide different sizes and to be arranged in such a way that the larger pieces of the filling material in the Area of the tapered end of the interior are arranged (DE-OS 31 28 419). By such Layered structure of the lumpy filling material, the individual layers have different tasks assigned The layer consisting of the smaller individual pieces is supposed to put a pressure load on the layer during the initial shifts in the sleeve Exercise with the larger individual pieces, which in turn are reflected in the material of the rod and / or the sleeve and press in the rod and the power transmission. effect even with large displacements of the rod should. As a result of the position of the lumpy filling material in the cavity, which cannot be influenced, neither the anchor force nor the extent to which the anchorage yields can be precisely determined. In addition, for the effectiveness of the anchoring, in addition to elastic, especially plastic deformations are necessary, which can lead to impairment of the strength of the steel rod to be anchored. Furthermore, a resilient rock anchor has become known in which the anchor rod is in a with Synthetic resin mortar filled steel pipe is glued