KR100715207B1 - Anchor Dvice for Ground-reinforcement-construction - Google Patents

Abstract

 In the present invention, by extending the anchor structure with the operator's hand to be mounted in the drilling hole, the mounting process is easier, and can be sufficiently applied throughout the fixing process of the tension member in the soft ground, such as rock bolts as well as soil nailing Ground reinforcement anchor structures are provided.

The present invention for this purpose is a threaded portion 10 is formed on the tip of the deformed reinforcing bar (5), the support ring 12 is installed on both ends of the threaded portion 10, either or both of the support ring 12 is the release It is installed as a support ring that provides a moving force in the pitch movement by the screw rotation according to the rotation of the reinforcing bar 5, the anchor links 14 are provided on the outer periphery of the support ring 12, respectively, one end of which is rotated The other end of the anchor link 14 is rotatably coupled to each other so that the other end of the anchor link 14 is radially expanded by the movement of the support ring 12 and penetrated and pressed into the drilling hole, and the screw portion 10 is one embodiment thereof. As the mounting pipe 16 is provided, the thread is formed on the outer periphery, and the mounting pipe 16 is divided into two longitudinally and is coupled to the support ring, characterized in that it is mounted on the outer periphery of the deformed steel bar 5.

In addition, the anchor link 14 is extended to interfere with the inner wall of the drilling hole (1) during rotation of the deformed steel bar (5) at the end of the pressure penetrating into the drilling hole (1) and the drilling hole (1) It is characterized in that the wedge protrusion 18 is formed to penetrate into).

Description

Anchor Dvice for Ground-reinforcement-construction

1 is a facility name and cross-sectional view showing a conventional anchor structure,

2 is an exploded explanatory view showing an embodiment of an anchor structure according to the present invention;

3 is an exploded explanatory view showing another embodiment of an anchor structure according to the present invention;

4 is a facility name, the operating state of the anchor structure according to the invention,

5 is a cross-sectional view showing an operating state of the anchor structure according to the present invention,

6 is an explanatory cross-sectional view showing an application example for improving the operation of the anchor structure according to the present invention,

Figure 7 is a cross-sectional exploded view cross-sectional view showing another embodiment of the anchor structure according to the present invention.

-Explanation of symbols for the main parts of the drawings-

1-drilled hole, 5-deformed rebar,

10-thread, 12-support ring,

14-anchor link, 16-mounting pipe,

18-wedge, 20-contact,

22-bracket, 24-pin,

26-capping, 28-wedge,

The present invention relates to an anchor structure for ground reinforcement, and more particularly, by expanding the anchor structure with the operator's hand so that it can be mounted in the drilling hole, the mounting process is easier, and not only soil nailing but also lock bolts, etc. The present invention relates to anchor structures for ground reinforcement that are sufficiently applicable throughout the fixing process of tension members in soft ground.

In general, the slope reinforcement method is performed as a stable method to suppress the collapse and sliding of the slope, depending on the purpose of the construction is divided into a number of activities, such as the active force reduction method resistance enhancement method surface protection method, etc. These include rock bolts, lock anchors, small nails and stepped retaining walls.

Soil nailing is a method of installing a nail structure (reinforced concrete structure) on the ground to form a composite reinforcement ground to increase the shear and tensile strength of the ground to suppress displacement and to prevent ground loosening.

In other words, the basic design concept of the ground reinforcement method such as the soil nailing method is stable to any inclined surface that the reinforcement soil wall can assume by the fact that the ingot of the area reinforced by the nail structure acts like an integrated retaining wall. It is in keeping.

However, this small nailing is a combination of rock, which is designed to be useful for soil, and the rock structure of various slopes is different from soil, and the rock has a lot of joints, rock with many joint layers, and heat deterioration under the influence of monolayer. Many slopes, such as rocks separated from the mother rock due to the development of discontinuities due to the blasting, are unstable in structure, so reinforcing the rock slopes using only existing nail structures has a problem that can be followed.

Accordingly, the present applicant is to make the nail tip is fixed to the nevus during the construction by a simple construction method and apparatus to maximize the tensile force on the nail, to improve the slope reinforcement small nail structure and slope reinforcement used for nailing method (patent 448037 Has been filed.

This is an example of the anchor body (3) including the anchor blade (2) which is fixed to the drill hole (1) for slope reinforcement work as shown in Figures 1 and 2 and the anchor blade (2) in the anchor body (3) The tapered body 4, which is expanded and pressed into the punching hole 1, is inserted into a deformed steel bar 5 (nail), which is a tension member, and the tapered body 4 is moved forward by the coupling force when the nail and the anchor body 3 are screwed together. By expanding the anchor blade (2) while the nail tip is fixed to the perforation hole (nevus) through the anchor body (3), and to perform a post-process such as grouting on the nail fixed in the perforation hole (1) will be.

In addition, the anchor body (3) for performing this is formed deformation neck (6), the wedge projection (7) is formed to prevent the rotation of the anchor body (3) during rotation of the deformed bar (5). .

Through such nail anchors, the nail anchors are settled on the birthmark before the grouting construction with simple construction, and the tensile strength is increased by fixing force through the anchor blades, thereby improving the slope reinforcement.

In addition, the slope anchor reinforcement nail anchor (Utility Model Registration No. 0349108), in such a small nail structure, nail anchors treated with a soak processing to compensate for the weakness of the stiffness due to the taper processing of the deformed steel for the advance of the tapered body Is known.

However, in such a nail anchor, a separate rotational force driving device such as an auger drill is required for the development of the anchor blade 2, so that the impact force of the punching machine for forming the drilling hole is used as the development force of the anchor blade. This is known from the slope reinforcement small nail structure and the slope reinforcement small nailing method (Patent No. 448039) filed by the applicant.

However, all of these nail structures have a problem in that the use of the device is necessary to expand the anchor blade 2.

This was due to the lack of sufficient screw force in anchor blade expansion.

In any case, the screw force causes one rotation to cause the movement of one pitch (unit distance between the screw bone and the screw bone), and the ratio of the distance moved is expressed as the ratio of the force.

That is, the pitch movement of the screw is similar to the principle of the lever, and according to the rotational distance for moving one pitch, a large force (moving force) can be exerted even with a small rotational force.

However, the structure for moving the tapered body 4 by the screw force does not sufficiently use the screw force, which means that the screw force of the deformed bar 5 moves the tapered body 4 and the tapered body is anchored again. Because when you expand, much of the force is dispersed.

In addition, as the tapered body 4 is moved, the action point of the rotational force is also moved, and the distance between the deformation induction neck, which is the rotation axis, and the action force of the rotational force is shortened (L1: L2). The rotational force is required, and the distance between the rotational force action point and the strain-induced snack is shorter than the distance between the rotational force action point and the tip of the anchor blade, so it is difficult to expect a lever force, and thus, a force driving device such as an auger drill has to be used. .

On the other hand, in the case of using the punching force of the drill is suitable for the top-down small nail, this also can not avoid the use of a separate device to expand the anchor blade.

For this reason, the existing small nailing structure has made it inconvenient to apply to other soft ground reinforcement structures.

For example, it was difficult to apply the soil nailing structure directly to the rock bolt for reinforcing the inner wall surface of the tunnel.

Here, in the case of tunnel excavation, in the case of tunnel excavation, an excavation hole is formed in the excavation surface to prevent the rock of the excavation surface from falling down and a tension member such as a deformed rebar is inserted, and then the tension member is excavated using a special adhesive. It is used to fix strongly to and fix an excavation surface using a plate etc.

The anchor structure may be applied to the excavation of anchoring holes of the rock bolt, but it is inconvenient to fix the anchoring structure by using a separate device.

Accordingly, the present invention has been made in order to improve the above problems, by expanding the anchor structure by the operator's hand to be mounted in the drilling hole, the mounting process is easier, not only the nailing but also soft ground such as rock bolts The purpose is to provide a ground reinforcement anchor structure that is sufficiently applicable throughout the fixing process of the tension material.

To this end, the present invention provides an anchor structure in which the moving direction is switched by a link so as to immediately expand radially in the vertical direction of the rotation axis by the pitch movement of the screw, and is mounted on the tension member of the nail or rockbolk, so that the operator Even if turned to provide an anchor structure that penetrates and penetrates the inner wall of the hole.

DETAILED DESCRIPTION Hereinafter, the most preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily implement the present invention. . Other objects, features, and operational advantages, including the purpose, working effects, and the like of the present invention will become more apparent from the description of the preferred embodiment.

For reference, the embodiments disclosed herein are only presented by selecting the most preferred examples to help those skilled in the art from the various possible examples, the technical spirit of the present invention is not necessarily limited or limited only by this embodiment, Various changes and modifications are possible within the scope without departing from the technical spirit of the present invention, as well as other equivalent embodiments will be found.

Exemplary drawings Figure 2 is an exploded explanatory view showing an anchor structure according to the present invention, Exemplary drawings Figure 3 is an exploded explanatory view showing another embodiment of the anchor structure according to the present invention, Figures 4a and 4b is the present invention According to the operation state of the anchor structure according to the facility name.

And, Figure 5 is an explanatory cross-sectional view showing the operating state of the anchor structure according to the present invention, Figure 6 and Figure 7 is a cross-sectional explanatory view showing a modification and another embodiment of the anchor structure according to the present invention. to be.

In the present invention, the reinforcing bar 5 is inserted into the punching hole 1 formed in the birthmark as a nail or tension member, and the anchor body which provides the tensile resistance to the point of the birthmark which is the punching hole 1 at the tip of the deforming bar is coupled. In anchor structure for ground reinforcement,

A threaded portion 10 is formed at the front end of the deformed reinforcing bar 5, and support rings 12 are provided at both ends of the threaded part 10, and either or both support rings 12 are deformed reinforcing bars 5. And a support ring for providing movement force by pitch movement by screw rotation according to the rotation of the screw unit 10, and anchor links 14 are provided on the outer circumferences of the support rings 12, respectively, one end thereof. It is installed to be rotatable, the other end of the anchor link 14 is a ground reinforcement anchor structure, characterized in that it is rotatably coupled to each other so as to radially expand by the movement of the support ring 12 to penetrate the punched hole.

Here, the threaded portion 10 is provided with a mounting pipe 16 as an embodiment thereof is formed with a screw thread on the outer circumference thereof is divided into two in the longitudinal direction of the mounting pipe 16 is coupled to the support ring and the outer circumference of the deformed reinforcement (5) It is characterized in that the pressure is mounted on.

In addition, the screw portion 10 as another embodiment is characterized in that integrally molded to the tip of the deformed reinforcing bar (5).

On the other hand, the anchor link 14 is extended and the interference with the inner wall of the drilling hole (1) during the rotation of the deformed steel bar (5) at the end of the pressure penetrating into the drilling hole (1) and the drilling hole (1) It is characterized in that the wedge protrusion 18 is formed to penetrate into).

In addition, at the end of the deformed steel bar 5 which is in contact with the end of the drilled hole 1, the contact protrusion 20 for reducing the contact surface in order to reduce the frictional resistance between the deformed steel 5 and the drilled hole 1 Characterized in that formed.

On the other hand, when the deformed reinforcing bar 5 is coupled to the idle position to the fixed position of the support ring 12 of the tip, the end of the support hole 12 is pressed into the end of the support ring 12 to the end of the support ring 12 It is characterized in that the wedge 28 is formed to prevent rotation.

 As described above, the present invention converts the rotational force of the screw force directly to the expansion force of the anchor structure, and provides an anchor structure for the ground reinforcement engineer for pressing and penetrating the anchor structure into the drilling hole even without manual rotational force driving device. Accordingly, an anchor structure that can be sufficiently applied to not only soil nailing but also rock bolt is provided.

The present invention for this purpose is to form a threaded portion (10) in the deformed rebar (5), which is a tension member, and the moving force provided according to the rotation of the threaded portion 10 directly through the support ring 12 to the expansion force of the anchor link 14 It was to be converted.

The anchor structure is divided into two types according to the mounting method of the screw portion 10, it is divided again according to the expansion method of the anchor link (14).

First, Figures 2 and 3 are shown according to the mounting method of the screw portion, Figure 2 is provided with a separate mounting pipe 16 to form a screw thread therein, the mounting pipe 16 is a longitudinal direction Divided into two.

The mounting pipe 16 is in contact with the outer periphery of the deformed steel bar 5, and then the support ring is mounted on both ends thereof, while being coupled to the deformed steel bar 5 by the outer circumferential pressure by screwing, separate welding processing No mounting step is required.

On the other hand, Figure 3 shows that the threaded portion is integrally machined at the end of the deformed steel bar 5, the threaded portion 10 is formed, which is molded through the soaking process.

However, if the screw thread is formed opposite to the center border to move both support rings 12, the support ring having a screw formed in either direction can not pass through the center border, for this purpose, the upper support ring is half It needs to be disassembled and then assembled and mounted.

The division of the embodiment according to this screw portion 10 will vary depending on the field work assembly of the anchor structure.

For example, in the case of the work by the mounting pipe 16, the assembling work in the field is easy, which cuts the standardized deformed bar 5 and mounts the mounting pipe 16 and the support ring 12 and the anchor link 14. ) Can be directly put into the assembly, when the screw unit 10 is formed integrally, it takes a separate workshop and process for the processing and it is difficult to work directly on the site.

However, when the threaded portion 10 is formed integrally, it can be provided as a more compact and simplified structure, and in particular, when only one support ring described later by FIG. 7 is adopted, the structure is simpler. It becomes

Therefore, it can be flexibly adopted depending on the working situation of the site.

On the other hand, the opposite formation of the thread is to move both support rings in the opposite direction, through which it is possible to more quickly expand the anchor link 14 according to the rotation of the deformed steel bar (5).

The support ring 12 generates a moving force by the pitch movement according to the rotation, and the anchor link 14 rotatably connected to the support ring 12 converts the moving force into an expansion force of the anchor structure.

Anchor link 14 for this purpose is pivotally coupled to the outer peripheral portion of the support ring 12, the bracket 22 is integrally formed on the support ring 12 is coupled to the pin 24 to provide a rotation axis to achieve In addition, the anchor link 14 is also coupled to the pin 24 is rotatably coupled.

Therefore, when the deformed bar 5 is rotated as shown in FIG. 4, the support ring 12 is moved in a direction close to each other, and the compression according to the movement extends the anchor link 14 radially. It has been confirmed that there is no dispersion or loss of force due to the transmission of the various members, so that the operator's hand can fully expand the anchor structure and penetrate the hole.

Referring to the working process through the expansion of such an anchor link in more detail based on Figure 5, first coupling the support ring 12 and the anchor link 14 to the screw portion 10, and then anchor hole 14 to the drilling hole The diameter is expanded to a diameter close to (1), and rotated by a worker's hand as described above.

The diameter of the anchor link 14 close to the hole of the anchor link 14 is to interfere with the end of the anchor link 14 on the inner wall of the hole 1, which is the case when the anchor link 14 is not supported against rotation. Rotating the deformed reinforcing bar (5) is because both the anchor link 14 and the deformed reinforcing bar (5) is turned away.

Therefore, when the deformed reinforcing bar 5 equipped with the somewhat enlarged anchor link 14 is inserted into the drilling hole 1 and the deformed reinforcing bar 5 is turned, some of the ends of the anchor link 14 are drilled. Interfering with the hole 1, the support ring 12 is moved in the direction that is compressed with each other.

As the anchor link 14 is further expanded by the pitch shifting force of the support ring 12, all anchor links 14 begin to be pressed into the drilling holes 1, and the bearing force for rotation of the anchor link 14 is more firm. In addition, the central position of the deformed steel bar 5 is further settled.

Subsequently, when the deformed rebar 5 is continuously rotated, the anchor link 14 penetrates the inner wall of the perforated hole 1 and is settled in the perforated hole 1 together with the deformed reinforcing bar, and grouting injection, which is the next process, is performed. will be.

On the other hand, such an anchor structure can be applied more progressively according to the rotation of the deformed bar and the operation of the anchor link, the application example is shown in FIG.

First, the rake-shaped wedge 18 is formed at the end of the anchor link 14, through which interference and penetration with the drill hole 1 can be more effectively performed.

That is, as described above, the anchor link 14 is inserted in a state in which it is enlarged to some extent so as to interfere with the drilling hole 1 in order to prevent it from falling in the drilling hole.

At this time, the wedge protrusion 18 is formed at the end of the anchor link so as to facilitate insertion with the punching hole 1 and to provide a support point by being stamped on the inner wall of the punching hole 1 when the insertion is completed.

And, the wedge 18 serves as a sharp end that is more easily penetrated into the inner wall of the drill hole as the anchor link 14 is expanded.

Next, at the end of the deformed steel bar 5 which is in contact with the end of the drill hole 1, a contact protrusion 20 for reducing the contact surface in order to reduce the rotational resistance of the deformed steel bar is formed, which is the time of rotation of the deformed steel bar. The waste of force due to frictional resistance between the end portion and the end of the drilling hole is reduced.

On the other hand, Figure 7 shows another embodiment of the anchor structure according to the present invention, which is to support the end of the support ring 12 is to be idle when the deformed rebar (5) is rotated to secure a fixed position.

This is to form the screw thread of the threaded portion 10 in different directions with respect to the center can increase the fixing work speed of the anchor structure according to the movement of both support rings.

On the other hand, the support ring 12 of the tip is idle even when the deformed bar 5 is rotated to secure a fixed position, when only one support ring is moved, the working speed is that both support rings are rotated It is slower, but it can take advantage of the force, so it can be more penetrating force, and less power to rotate the operator can take advantage.

And, since the screw thread is formed in one direction, the upper support ring shown in FIG. 3 can be mounted without being divided, and the structure thereof is more simply implemented.

On the other hand, in addition to idling the support ring of the end, in order to prevent the detachment is achieved by a separate cap ring 26 is installed, the cap ring is enough to the mounting force to prevent the separation, it is easy to pin coupling It can be mounted.

Furthermore, when the wedge 28 is formed in the support ring 12 of the tip portion having a fixed position, the wedge 28 is embedded in the end of the drilling hole 1 to prevent rotation of the support ring 12. Further, the expansion of the anchor structure becomes easier, and in this case, there is no need for a contact protrusion for reducing the frictional resistance.

Here, since the wedge 28 should be formed to protrude outward to avoid interference with the cap ring 26, in detail, the wedge 28 protrudes from the bracket 22 of the support ring 12 toward the drilling hole 1 side. Is formed.

As described above, according to the present invention, by converting the pitch movement force according to the rotation of the deformed reinforcing bar is a tension member to the expansion force of the anchor structure through the link, the tension member is easily settled in the drilling hole even by manual operation of the operator so that the nailing or There is an effect that the operation is easier in the anchor structure for fixing the tension member to the birthmark like the rock bolt.

Claims (8)

 Ground reinforcement with a reinforcing bar (5) inserted into the drill hole (1) formed in the birthmark as a nail or tension member, and an anchor body providing tensile resistance to the nevus, which is the punching hole (1), at the tip of the reinforcing bar (1). In the anchor structure for construction, A threaded portion 10 is formed at the front end of the deformed reinforcing bar 5, and a support ring 12 is installed at both ends of the threaded portion 10 to be approached by the rotation of the threaded portion 10. The ring 12 is installed as a support ring that provides a moving force by the pitch movement by the screw rotation according to the rotation of the deformed bar (5) and the screw portion 10, and radially on the outer circumference of the support ring (12) Each anchor link 14 is provided so that one end thereof is rotatably installed, and the other end of the anchor link 14 is radially expanded by an access movement between the support rings 12 so as to penetrate and compress the penetration hole 1. Anchor structure for ground reinforcement, characterized in that coupled to each other rotatably. According to claim 1, The threaded portion 10 is provided with a mounting pipe 16 has a screw thread formed on the outer periphery thereof, divided into two in the longitudinal direction of the mounting pipe 16 is coupled to the support ring and pressed to the outer periphery of the deformed steel bar 5 Anchor structure for ground reinforcement, characterized in that the mounting. The anchor structure for ground reinforcement work according to claim 1, characterized in that the screw portion (10) is integrally molded at the tip of the deformed rebar (5). According to claim 1, The support ring 12 is formed in the threaded portion having opposite pitch movements with respect to the center of the threaded portion 10 with respect to the center thereof so as to approach each other by the rotation of the threaded portion 10 is mounted on both ends thereof Anchor structure for ground reinforcement, characterized in that. The method of claim 1, wherein the support ring 12 is formed of a screw thread in one direction so that any one support ring 12 is approached to the other support ring 12 to the threaded portion 10, wherein any one of the Support ring (12) is coupled, the other support ring (12) is ground anchor reinforcement structure for the reinforcement, characterized in that it is mounted to the idle reinforcing bar (5) that is the tip of the screw portion (10). The method of claim 1, wherein the anchor link (14) is expanded to interfere with the inner wall of the drilling hole (1) during the rotation of the deformed reinforcing bar (5) at the end of the pressure penetrating into the drilling hole (1) Ground reinforcement anchor structure characterized in that the wedge protrusion (18) is formed for penetration into the hole (1). According to claim 1, wherein the end of the deformed bar (5) in contact with the end of the drilling hole (1) the contact projection for reducing the contact surface to reduce the frictional resistance between the deformed bar (5) and the drill hole ( Anchor structure for ground reinforcement, characterized in that formed 20). According to claim 5, When the support ring 12 is coupled to the deformed reinforcement bar 5 in a fixed position to the front end, the end of the support ring 12 is pressed against the end of the drilling hole (1) is supported Ground reinforcement anchor structure characterized in that the wedge 28 is formed to hinder the rotation of the ring (12).

Images