KR100527389B1 - Rock Anchor - Google Patents

Abstract

The present invention relates to a rock anchor (anchor) for fixing a rock wall that is in danger of collapse in an incision or steep slope, the rock wall, rock, etc. located on the side of the slope or tunnel entrance adjacent to the road is an external impact Or in the construction of a lock anchor to fix the rock wall, etc. in advance to prevent collapse in preparation for weathering collapse,

The wires of the strands constituting the lock anchor are detained and mounted on the upper and lower ends in a single mounting hole, and the mounting holes are fastened to the mounting bolts, and the lower fixing part of the rock anchor has the mounting bolts embedded in the grout. In the upper fixing part of the fastening plate, the male screw is passed through to tighten the nut from the outside, and the nut is pulled to pull the mounting bolt, and by pulling the mounting bolt, the strands of several strands constituting the lock anchor are pulled simultaneously. It is intended to provide a lock anchor that can be pulled so as to sufficiently apply the tensile force calculated at the time of rock anchor design to each steel wire after construction of the lock anchor, thereby enabling a more robust rock anchor construction.

Description

Rock anchors to prevent rock collapse {Rock Anchor}

The present invention relates to a rock anchor for fixing a rock wall which is in danger of collapse in an incision or steep slope.

More specifically, the rock wall, rock, etc., located on the side of the slope or tunnel entrance adjacent to the road, locks the rock wall in advance in order to prevent collapse in preparation for external shock or weathering. In constructing anchors,

The wires of the strands constituting the lock anchor are detained and mounted on the upper and lower ends in a single mounting hole, and the mounting holes are fastened to the mounting bolts, and the lower fixing part of the rock anchor has the mounting bolts embedded in the grout. In the upper fixing part of the fastening plate, the male screw is passed through to tighten the nut from the outside, and the nut is pulled to pull the mounting bolt, and by pulling the mounting bolt, the strands of several strands constituting the lock anchor are pulled simultaneously. It is intended to provide a lock anchor that can be pulled so as to sufficiently apply the tensile force calculated at the time of rock anchor design to each steel wire after construction of the lock anchor, thereby enabling a more robust rock anchor construction.

The related art about a lock anchor is disclosed by Unexamined-Japanese-Patent No. 2000-2706 [The rock anchor left for preventing rock collapse and its installation method].

The conventional lock anchor will be described with reference to FIGS. 1 to 2B as follows.

Lock anchors are largely divided into free-field sites penetrating the rock and anchorage sites that reach ground of a predetermined depth.

 In the anchorage, a plurality of steel wires 4 are inserted into the spacers 5, and then the bands 6 are tied again, and the spacers 5 are inserted again to form the fixing cones 2 at the far end. The inlet pipe 3 is penetrated from the ground surface to the fixing cone 2 in the center of the steel wire 4 and the space 5 and the band 6.

The free field is covered with a PE pipe (synthetic resin pipe 8) on the steel wire 4 to prevent moisture or impurities from entering the steel wire.

The sealing tape 7 is wound around the PE pipe 8 and the steel wire 4 at the boundary between the anchorage part and the free length part so that moisture or impurities do not flow into the PE pipe 8.

As described above, the anchoring field and the free field are inserted into the rock wall, and the ground 13 is formed by drilling a perforation hole 1, and after inserting the fixing field and the free field, grout is introduced through the inlet pipe 3 to fix it. The steel wire 4 and the fixing cone 2 of the intestine in the form of wrapping and harden.

As shown in FIG. 1, the grout 12 inserted into the anchorage and hardened is inserted between the steel wires 4 to fix the steel wires 4 of several strands deep in the drilled hole 1.

After the grout 12 is completely hardened, a sleeve is inserted at the inlet of the perforation hole 1 from the ground surface to block the inlet of the perforation hole 1, and the pressing plate 10 is placed at the inlet of the perforation hole 1, In the state where the steel wire 4 is exposed toward the ground surface, the exposed end of the steel wire 4 is pressed by the hydraulic equipment or the like, and the tensile force is applied to the steel wire 4 by pulling the steel wire 4, and the pulled state ( In the tension applied state) to cover the anchor head 11 to the end of the steel wire (4) and to insert the grout 14 to permanently fix.

In other words, the rock wall, rock, etc. located on the ground surface is to maintain the pulling force of the rock wall always acts as a restoring force applied to the steel wire (4).

As described above, the tensile force applied to the steel wire 4 is applied to a force large enough to support the rock wall, and depending on how firmly the steel wire 4 is fixed, whether or not the poor construction is determined.

Conventionally, the fixing means for fixing the steel wire (4) is a mounting hole in a state in which a single steel wire 4 is wrapped with three split adapters (17a) (17b) (17c) as shown in the accompanying drawings, Figs. 2a and 2b. It is inserted into the tapered mounting hole 16 formed in 15) and fixed.

When the three adapters 17a, 17b and 17c are combined, a tapered tube is formed, and a mounting hole is formed in the center, and the outer diameter is tapered in the upper and lower narrow shapes.

The mounting hole 15 is formed of a single taper mounting hole 16 in a single mounting hole 15, the tapered mounting hole 16 is a tapered shape of the upper and lower narrow shape.

In other words, when the steel wire 4 is attached to the ground surface in the direction in which the tensile force is applied, for example, the tensile force acts in the underground direction. Therefore, the pressing plate 10 is placed at the inlet of the drilling hole 1 and mounted on the pressing plate 10. After placing the ball 15, the steel wire 4 is pulled around the split adapters 17a, 17b and 17c on the outer circumference of the steel wire 4, and the tensile strength required by the design is increased. When the tensile force is removed from the steel wire 4 when applied to (4), the split adapters 17a, 17b, 17c are simultaneously inserted into the tapered mounting holes 16 of the mounting holes 15 with the steel wire 4, The wire 4 is pressed and held.

That is, the steel wire 4 is detained and fixed in a state in which tension force is applied and restoring force is latent. The conventional adapter structure has a weak force for detaining the steel wire 4, so that the steel wire 4 is pushed out, which is required at the time of designing the lock anchor. There was a problem of a safety accident that the tensile force (restoration force) is not latent in the steel wire (4) and cannot sufficiently support rock walls.

In particular, by securing a single steel wire 4 to the single mounting hole 15, the tension force latent in the steel wires is concentrated in the single mounting hole 15, which is a high risk of breakage.

In addition, the assembly of a plurality of split adapters (17a) (17b) and (17c) by combining the plurality of split adapters (17a) (17b) and (17c) is very cumbersome and has a problem that is not easy to carry and store .

In addition, it was cumbersome to pull several strands of steel wires 4 individually to perform a plurality of tensioning operations, and when performing the tensioning of steel wires, a complicated hydraulic equipment was used to pull the steel wires with a strong force. There was a problem that must be mobilized.

In particular, considering that the tensioning work is carried out in the non-ventilated place, there is a problem that various hydraulic equipment, etc. can not be installed stably, which pointed out another risk factor of the safety accident.

In addition, when installation conditions are not available on the site, the conventional construction method causes the distrust of the depth of the initial design standard by cutting off the free field at the top when the hole in the anchorage collapses in case of poor quality. .

In addition, when the pressure of the anchorage is transmitted to the upper fixing part, and there is a problem that the retension of the steel wire cannot be attempted when the strength of the tension decreases due to the movement of the pressure plate.

In addition, the conventional lock anchor method is a manufacturing method by extruding the connection portion between the steel wire and the bolt, the manufacturing cost is expensive, requires a high level of production technology, a minor problem occurs during the production, and fatal defects occur when producing defects can do.

The present invention is to provide a lock anchor that can solve the above problems.

The present invention is formed by drilling a drilled hole in the ground, by inserting a number of strands of steel wire into the drilling hole to fix the lower side of the steel wire in the construction of the lock anchor,

The multiple strands of steel wire are fixed to a single mounting hole, and the single mounting hole is fastened to the inside of the mounting bolt, and the fixing bolt on the lower fixing side is buried in the grout, and the fixing bolt on the upper fixing side is fastened with the nut. By tightening the nut, it is possible to apply tension to several strands of wire simultaneously, so that the tension force calculated at the time of the design of the lock anchor can be accurately applied after the construction of the lock anchor, and additional tension can be applied to the steel wire during future maintenance. The purpose of the present invention is to improve reliability in the construction of lock anchors and to provide more robust lock anchors.

Another object of the present invention in the adapter for holding the steel wire in the lock anchor, forming a plurality of tapered mounting holes in a single mounting hole, the adapter is inserted into each of the tapered mounting holes, the adapter is a metal piece having an elastic force It is to provide a lock anchor that is bent to form a cut portion on one side, the inner and outer protrusions formed in the inner and outer protrusions in the inner and outer sides to increase the pressing force and the friction force to hold the steel wire more robustly.

Still another object of the present invention is to provide a lock anchor that enables a quicker construction of a lock anchor by inserting a single adapter into a steel wire, rather than combining several split adapters as in the conventional adapter.

It is still another object of the present invention to provide a lock anchor that simplifies the parts used in the construction of the lock anchor to be easily manufactured by the press and hardly generates a defective rate.

Still another object of the present invention is to provide a lock anchor that facilitates the construction of a lock anchor by making it easier to apply a tensile force by pulling individual wires more easily when pulling the bundled wires by dispersing and fixing the wires in multiple strands. It is.

It is still another object of the present invention to provide a lock anchor that enables easier post-maintenance, such as re-tensioning, by tightening the nut when the tension applied to the steel wire is weakened after construction of the lock anchor.

The above objects and features of the present invention will be more clearly understood by the following detailed description based on the accompanying drawings.

3 is a cross-sectional view showing a rock anchor for preventing rock collapse according to the present invention, Figure 4 is a detailed view showing the lower fixing portion in the rock anchor for preventing rock collapse of Figure 3, Figure 5 is a rock anchor for preventing rock collapse of Figure 3 Figure 6 is a detailed view showing the upper fixing portion, Figure 6 is a front view showing the extraction of the main bolt mounting rock in the rock anchor for preventing rock collapse according to the present invention, Figure 7 is the main rock in the rock anchor for preventing rock collapse according to the present invention Here is a front view of the fittings.

As shown in FIG. 3, the rock anchoring lock anchor according to the present invention drills a drilled hole 1 in the ground and inserts several strands of steel wire 4 into the drilled hole 1, and in the lower fixing part 21. The steel wire 4 is fixed, and the upper fixing part 40 is mounted on the mounting bolt 25b so as to apply a tensile force to the steel wire 4.

That is, like a conventional lock anchor, a fixing field for fixing the steel wire 4 and the steel wire 4 are divided into a free field under which a restoring force is applied by a tensile force.

In the anchorage, a plurality of strands of steel wire 4 pass through the anchorage pipe 22 formed by the grout distribution hole 23 in various places, and the anchorage pipe (in the center of the perforation hole 1) is located outside the anchorage pipe 22. 22 is provided with a plurality of spacers 24 to be located, the center is provided with a grout inlet pipe (not shown).

The lower fixing part 21 of the fixing station secures the multiple strands of steel wire 4 to a single mounting hole 28a, as shown in FIG. 4, and the mounting hole 28a is fastened to the mounting bolt 25a. It is.

That is, when the grout 12 is introduced and filled through the grout inlet pipe, the grout 12 is filled into the inside and the outside of the fixing pipe 22 through the grout distribution hole 23 of the fixing pipe 22, and the mounting bolt ( 25a) and the mounting holes 28a are filled to the outside of the mounting bolt 25a in the form of embedding, and after the grout 12 is hardened, the fixing pipe 22 and the mounting bolt 25a and The mounting hole 28a is fixed deep in the drilling hole 1.

In the lock anchor according to the present invention, the free field is covered with a straight pipe 41 made of synthetic resin to the outside of the steel wire 4 of several strands to protect the steel wire 4 and to prevent inflow of moisture and impurities.

The upper fixing part 40 will be described with reference to FIG. 5.

The steel wires 4 are mounted on the mounting holes 28b while being spaced from each other by the steel wire spacers 42, and the mounting holes 28b are fastened to the lower ends of the mounting bolts 25b, and the perforation holes 1 A sleeve 10a is installed at the inlet of the ground surface, and a compression plate 10 is attached to the outside of the sleeve 10a, and the mounting bolt 25b penetrates the compression plate 10 so that the male screw 26 is moved outward. Exposed, the nut 45 is fastened to the mounting bolt 25b, and the cap 46 is placed on the outside of the nut 45 to protect the mounting bolt 25b and the nut 45 from the outside.

The sleeve 10a is a structure such as concrete to increase the inlet strength of the drilled hole 1.

The upper end of the straight pipe 41 is provided with a cylinder 43, the inner side of the cylinder 43 is provided in the form surrounding the mounting bolt 25b to prevent the inflow of moisture and impurities.

Corrugated pipes 44 are provided from the bottom of the pressing plate 10 to the lower side of the mounting bolt 25b to prevent impurities, such as water and sand, from entering the mounting bolt 25b and to tighten the nut 45. Accordingly, when the mounting bolt 25b flows, the mounting bolt 25b is simultaneously contracted or tensioned with the mounting bolt 25b.

The mounting bolts 25a and 25b will be described below with reference to the accompanying drawings.

The mounting bolts 25a and 25b form male threads 26 at outer diameters to be fastened with the nut 45, and female screws 27 are formed at one end to fasten the mounting holes 28b.

The mounting holes 28a and 28b are described below with reference to the accompanying drawings.

The mounting holes 28a and 28b form a male screw 29 corresponding to the female screw 27 of the mounting bolts 25a and 25b at outer diameters, and a plurality of tapered mounting holes 30 penetrate upward and downward. To form, each tapered mounting hole 30 is inserted into the adapter 31 and the adapter 31 is to be inserted into the steel wire (4).

The number of the tapered mounting holes 30 can be formed in various numbers, the design value is different depending on the state of the rock wall and the ground, the number of the steel wire 4 is set according to the allowable tensile stress of the steel wire (4) will be.

That is, when the ground is weak or the rock wall is in a steep inclination position, the strength should be increased, and the number of steel wires 4 increases, and the number of single wires 28a and 28b corresponding to the number of steel wires 4 of the steel wires increases. ) To form a tapered mounting hole (30).

The adapter 31 is formed by bending the metal piece into a cylindrical shape to form a trim 34 on one side to give an extra shrinkage, the inner side and the outer side of the inner projection 32 and the outer side of the serrated blade shape, respectively. The protrusion 33 is formed to protrude.

The inner protrusion 32 is in contact with the steel wire 4 to form a tooth-shaped protrusion toward the direction in which the tensile force acts on the steel wire to further increase the compressive force when the inner protrusion 32 is in close contact with the steel wire 4.

The outer protrusion 33 is in contact with the inner curved surface of the tapered mounting hole 30 to increase the pressing force so that the adapter 31 is not pushed when the adapter 31 is attracted to the steel wire (4) to apply pressure to the mounting holes (28a, 28b) It is for.

The stepped portion 30a is formed in the narrow portion of the tapered mounting hole 30 in the single mounting holes 28a and 28b so that the adapter 31 is not separated in one direction.

When the steel wire 4 is fixed by the grout 12 and pulls the steel wire 4 of the lock anchor (when tensile force is applied to the steel wire), the steel wire 4 is tapered to the adapter 31 and the mounting holes 28a and 28b. Pressed into the ball 30 is to be firmly fixed.

The operation will be described below.

As described above, the anchorage is embedded in the grout 12 so that the mounting pipe 22 is fixed, and the mounting bolt 25a and the mounting hole 28a are fixed to the lower side of the mounting pipe 22, and the mounting hole 28a is fixed. There are several strands of steel wire (4) end is integrally embedded is firmly fixed.

In the upper fixing part 40, when the nut 45 is tightened, the mounting bolt 25b fastened to the nut 45 is pulled and fastened to the mounting bolt 25b as the mounting bolt 25b is pulled toward the ground surface. The mounting hole 28b is to transfer the tensile force to the steel wire (4).

When the mounting bolt 25b is pulled outward, the corrugated pipe 44 contracts at the same time, and the inflow of impurities such as water and sand is blocked by the corrugated pipe 44 and the cylinder 43.

The straight pipe 41 is located at the center of the drilled hole 1 so that the grout 14 is filled and hardened between the straight pipe 41 and the drilled hole 1 so that the steel wire 4 contracts freely inside the straight pipe 41. Or tensioned.

When the nut 45 is tightened to tension the steel wire 4 by the tension value at the time of designing the lock anchor, the tightening stops, the nut is prevented from being taken, and the cap 46 is put on.

The nut loosening prevention measures are to use a conventional means, for example, to loosen the lower nut by fastening two nuts or to insert a pin or the like in the fastening hole by drilling the fastening hole to penetrate the mounting bolt 25b and the nut 45. .

As a result, the steel wire 4 has a tensile force designed at the time of construction design of the lock anchor to fix the rock wall more firmly, and the steel wire 4 contains impurities such as water and sand in the free pipe 41 which is a free field. By shrinking or tensioning in a non-state state, it is to delay the aging of the steel wire 4 as much as possible.

Although specific embodiments have been described in the present invention, it will be apparent to those skilled in the art that various changes and modifications can be made within the technical scope of the present invention, and such modifications and modifications belong to the appended claims.

Therefore, the lock anchor according to the present invention is to tighten the nut 45 in a single operation in applying a tensile force to the steel wire, but the same tension is applied to the wires of several strands at the same time by tightening the nut to concentrate the load on a specific steel wire It can reduce the fatigue load of the steel wire and eventually increase the life of the steel wire as a whole, thereby improving the reliability of the lock anchor.

In addition, by tightening the nut in applying tension to the steel wire, it does not have to be equipped with complicated wire tensioning hydraulic equipment necessary for tensioning the steel wire. It is possible to reduce the risk factors for the safety accident of the contractor.

In addition, the lock anchor according to the present invention has a smaller number of parts and is easier to install than an adapter structure of a conventional anchor. In the related art, a lock anchor according to the present invention has a plurality of split adapters in a single mounting hole in order to fix a steel wire. Although cumbersome, the anchor according to the present invention forms a plurality of tapered mounting holes in a single mounting hole, passes a steel wire through each of the tapered mounting holes, and inserts a cylindrical adapter having one side open to the steel wire, thereby providing the components of the lock anchor. The number of phosphor parts can be significantly reduced.

In addition, in the related art, since a tensile force is applied to the bundle-type steel wire to a single mounting hole, a large force is required, and the equipment for applying the tensile force is increased, but the present invention is easier by tightening the nut on the mounting bolt. It can be easily tensioned to simplify the equipment put into the tension can be very convenient construction of the lock anchor.

In addition, when the pressure of the fixing station is transmitted to the upper fixing part, and the strength of the tension decreases due to the movement of the pressure plate, the anchor of the upper fixing part can be re-tensioned by tightening the nut of the upper fixing part so that the lock anchor can be constructed in an optimal state.

In addition, by distributing the force to the strands of multiple strands it is possible to reduce the risk of breakage of the crimp plate, including the mounting holes.

In addition, by forming a saw tooth-shaped projection on the inner and outer sides of the adapter, the adapter and the rigidity can be strongly pressed to push each other can be more firmly fixed to the wire.

In addition, the core part of the lock anchor according to the present invention is to use a conventional bolt production equipment does not require a special high technology, it is possible to manufacture high quality parts at a lower cost to improve the reliability of the lock anchor will be.

1 is a cross-sectional view showing a conventional rock anchor for preventing rock collapse.

Figure 2a and Figure 2b is an exploded perspective view showing the adapter structure of the conventional lock anchor

      And detailed cross section.

Figure 3 is a cross-sectional view showing a rock anchor for preventing rock collapse in accordance with the present invention.

Figure 4 is a detailed view showing the lower fixing part in the rock anchor for preventing rock collapse of Figure 3;

Figure 5 is a detailed view showing the upper fixing part in the rock anchor for preventing rock collapse of Figure 3;

Figure 6 is a front view showing the extraction of the main bolt mounting bolt in the rock anchoring prevention rock anchor according to the present invention.

Figure 7 is a front view showing the excerpts of the main mounting portion in the rock anchoring prevention rock anchor according to the present invention.

Explanation of symbols on main parts of drawing

1: drilling hole 2: fixing cone 3: inlet pipe

4: steel wire 5: spacer 6: band

7: sealing tape 8: PE pipe 9: PE band

10: crimp plate 11: anchor head 12, 14: grout

13: ground 15: mounting hole 16: tapered mounting hole

17a, 17b, 17c: engraving adapter

21: Lower High Government 22: Settler 23: Grout distributor

24: Space 25a, 25b: Mounting bolt 26: Male thread

27: Female thread 28: Mounting hole 29: Male thread

30: taper mounting hole 30a: stepped

31: adapter 32: inner projection 33: outer projection

34: trimming

40: upper fixing part 41: intuition 42: steel wire spacer

43: cylinder 44: corrugated pipe 45: nut

46: cap

Claims (4)

Formed by drilling holes in the ground, and inserting a lock anchor that divides several strands of steel wire into the anchorage and free field into the drilled hole, the anchorage of the lock anchor is filled with grout and fixed in the depth of the drilled hole, lock on the ground In a lock anchor that is fixed in the state of applying the tensile force to the steel wire of the anchor so that the restoring force is latent in the steel wire of the free field portion to fix rock rocks on the ground surface, The anchorage is formed by drilling a plurality of grout distribution holes 23 formed in the form of surrounding the steel wire 4 and the fixing pipe 22, A spacer 24 mounted on an outer diameter of the fixing tube 22 and maintaining a gap so as to be positioned at the center of the drilling hole 1; In the lower side of the fixing pipe 22, the steel wire 4 is detained and fixed to the mounting hole 28a, the mounting hole 28a is fastened to the mounting bolt 25a, and the lower fixing part embedded in the grout 12 is embedded. With 21 In the free field, a straight pipe 41 is inserted into the drill hole 1 in a form surrounding the steel wire 4, and the grout 14 is filled outward, On the upper side of the free field, the upper end of the steel wire 4 is detained and fixed to the mounting hole 28b, and the mounting hole 28b is fastened to the mounting bolt 25b, and the pressing plate 10 is connected to the inlet of the drilling hole 1. And a mounting bolt (25b) is a rock anchor for preventing rock collapse, characterized in that consisting of an upper fixing part (40) through which the nut (45) is fastened from the outside through the pressing plate (10). The method of claim 1, wherein the upper fixing part 40, The upper end of the straight pipe 41 is fitted with a cylinder 43 to surround the mounting bolt 25b, the outer side of the cylinder 43 to wrap from the bottom of the pressing plate 10 to the bottom of the mounting bolt 25b A rock anchor for preventing rock collapse, characterized in that the corrugated pipe (44) is mounted. The method of claim 1, wherein the mounting bolts 25a, 25b, A male screw 26 is formed at an outer diameter to be fastened to the nut 45, and a female screw 27 is formed at one end thereof. The mounting holes 28a and 28b are fastened to the female screw 27, and the mounting holes 28a and 28b correspond to the external threads 29 of the mounting screws 25a and 25b of the mounting bolts 25a and 25b. And a plurality of tapered mounting holes 30 are formed so as to penetrate upward and downward, inserting the adapter 31 into each of the tapered mounting holes 30 and inserting the steel wire 4 into the adapter 31. Rock anchor for preventing rock collapse. The method of claim 3, wherein the adapter 31, Rock formation for preventing rock collapse, characterized in that the metal piece is formed in a cylindrical shape, one side is formed with a trimming part 34, and the inner and outer sides are formed with an inner projection 32 and an outer projection 33 in the form of a saw blade. anchor.