KR100505330B1 - Tension nail of construction - Google Patents

Abstract

The present invention relates to a tension nail for reinforcing the ground, the tension nail is fixed by the grout material inserted into the boring hole of the ground while the outer bolt is a rock bolt reinforcing rod and the outer bolt surface of the rock bolt reinforcement, A clamping plate is formed at the center thereof to fix one end, and a pressure plate having a grout hole into which a grouting hose is inserted at one side of the fastening hole, and a nut which is installed at the rear of the pressure plate and fastened to the tip of the reinforcing bar for the lock bolt. And a cone-shaped cone with a female thread formed in the inner central hole so as to be screwed to the rock bolt reinforcing rod to support bidirectional stress, and a plurality of centerizers installed at a predetermined interval on the outer side of the rock bolt rebar. It is configured to include, by the tension nail for reinforcing the ground can be received vertically the rock bolt reinforcement vertically Force and rock bolt reinforce the vertical stress of the soil by the amount of tension tension stress added together to increase the structural rigidity of the construction site, and strengthen the cut / fill slope through the tension nail inserted into the boring hole of the ground. It is possible to secure stability such as temporary earth wall of construction and buoyancy prevention of underground foundation structure.

Description

Tension nail for ground reinforcement {TENSION NAIL OF CONSTRUCTION}

The present invention relates to a tension nail capable of reinforcing the ground, and in particular, by providing more tension to the reinforcing bar for reinforcing rock bolts fixed to the ground to cope with vertical stresses, the slope of various civil works through its structural rigidity And it relates to a tension nail for reinforcing the ground to ensure the stability of the wall.

In general, anchors are called Earth Anchors or Rock Anchors depending on their function as underground buried parts used in civil works. Anchors buried in the ground are anchored when there is ground deformation. The tensioned steel wire is loosened due to the fatigue of the material, and when the surrounding ground is relaxed, there is a risk of falling out.

That is, as shown in FIG. 1, the small nail using reinforcing bars according to the related art includes reinforcing bars 101 having a predetermined length so as to be inserted into holes in the perforated ground, and one side of the reinforcing bars 101. The front plate 102 having a hole formed at the front end is fixed, and the nut 103 fixing the front end of the reinforcing bar 101 passing through the front plate 102 is inserted and fixed to the front end of the reinforcing bar 101.

Therefore, the state in which the construction method using the reinforcing bar 101 in the ground by using a soy nail method is as shown in Figure 2, perforated the ground, the reinforcement 101 and injection of the structure 104 The tube is inserted into the perforated hole, and the grout material 105 is injected through the injection tube to achieve integration, thereby securing a fixing length, and the front plate 102 of the structure 104 is formed at the perforated hole inlet. In addition to being fixed, the nut 103 for fixing the reinforcement 101 in the center of the front plate 102 is installed, the reinforcement 101 is contained in the center of the injected grout material 105, such reinforcement 101 is as if the building It acts like a slab's rebar.

However, in order for the reinforcement 101 of the structure 104 to resist the active force of the ground, a large number of the structures 104 should be formed at narrow intervals to suppress the active force of the ground.

On the other hand, the anchor using a plurality of PC steel wire of the anchor according to the prior art, as shown in Figure 3, is provided with a plurality of PC steel wire 106 having a predetermined length to be inserted into the hole of the perforated ground, The front plate 102 having a plurality of holes is fixed to one end of the PC steel wire 106, a plurality of anchor heads 109 for fixing the front end of the PC steel wire 106 passed through the front plate 102 The PC steel wire 106 of the PC steel wire 106 is inserted into a fixed end, the spacer 107 is installed in the middle portion of the PC steel wire 106 to support a plurality of PC steel wire 106 and the PC steel wire 106 is perforated To be located in the center of the hole.

Here, the state of constructing the anchor 108 using the PC steel wire 106 in the ground by a rock anchor (Rock Anchor) method, as shown in Figure 4, punctures the ground, the PC steel wire 106 of the anchor And the injection tube is inserted into the perforated hole, the grout material 105 is injected through the injection tube to form an anchor to secure a fixing length, the front plate 102 of the anchor 108 is perforated In addition to being fixed to the hole inlet, the anchor head 109 for fixing a plurality of PC steel wire 106 in the center of the front plate 102 is installed.

Therefore, the bearing is pushed out by the active force of the ground through the anchor 108 using the PC steel wire 106, the front plate 102 of the anchor 108 in close contact with the ground, the reaction force To prevent the ground from being pushed or collapsed by the active force.

However, since the anchor 108 mainly supports the horizontal stress in the active force of the ground, the vertical stress of the upper lump according to the relaxation of the ground is not received by the PC steel wire 106, and thus there is a problem about the vertical collapse of the ground.

Accordingly, the present invention has been devised in view of the above-described circumstances, and is provided with more tension to rock bolts that are fixed to the ground to be tensioned to cope with vertical stresses, so that the slope of various civil constructions can be achieved through its structural rigidity. And to provide a ground tension tension nail to ensure the stability of the wall is that purpose.

The present invention for achieving the above object, while being fixed by the grout material is inserted into the boring hole of the ground is installed to support the active force (vertical stress) of the upper ingot and the external thread on the outer peripheral surface A pressure plate having a molded rock bolt and a grout hole in which a fastening hole is formed at the center thereof to fix one end of the rock bolt, and a grout hole into which a grouting hose is inserted at one side of the fastening hole, and the rear of the pressure plate. A nut which is installed at the front end of the reinforcing rod for tightening the lock bolt and is tensioned by the rotation of the lock bolt for fixing to the drilling hole by the rotation thereof, and the inner side of the lock bolt for being screwed to the reinforcing rod A cone-shaped cone formed with a female thread in a central hole to support bidirectional stress, and spaced apart from the outer side of the rock bolt reinforcing bar. Installed is configured to include a center position of the analyzer for the rock bolt reinforced prevent rebar rock bolt for processing the heart grout material.

In addition, a plurality of stepped portions are formed on the outer circumferential surface of the fusiform cone to increase the grip between the fusiform cone and the grout material.

Therefore, while the ground reinforcing tension nail having the above structure is inserted into the drilling hole, the primary grout material is injected through the grouting hose to be filled from the tip of the drilling hole, and the primary grout material is cured. As the first grout material is cured, the tension nail is tightened to the back of the pressure plate of the tension nail in the state where the tension nail is fixed to the boring hole of the ground, thereby rotating the nut, thereby tensioning the reinforcing bars for the rock bolt fixed to the boring hole, thereby providing tension. It is constructed through the process of curing after injecting the secondary grout material into the non-grouted free field of the tension nail given tension.

In addition, the fusiform cone is to be able to simultaneously support both stress, such as the vertical stress due to the repulsive force of the reinforcing steel for the bolt bolt and the tension stress due to the reinforcement.

Therefore, the structure of the construction site by supporting the vertical stress of the earth and sand by the amount of the vertical stress that the rock bolts can be purely received by the tension nail for reinforcing the ground and the tension tension of the tension of the rock bolts added together. The rigidity can be increased, and the tension nail inserted into the boring hole of the ground can secure stability such as reinforcement of section / fill slope, temporary earth wall of earthwork construction, and buoyancy prevention of underground foundation structure.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

Figure 5 is a state diagram showing the installation state of the ground reinforcement tension nail according to the invention, Figure 6 is an exploded perspective view showing the structure of the ground reinforcement tension nail according to the invention, Figure 7 is a tension according to the present invention Figure 8 is a cross-sectional view showing a coupling state of the rock bolt reinforcing bar and the cone cone of the nail, Figure 8 is a state diagram showing the reaction force generated through the tension nail method according to the present invention, Figure 9 is a tension nail tension according to the present invention It is a state diagram which shows the state to give.

Referring to the tension nail according to the present invention by the above drawings, while being fixed by the grout material (7) inserted and inserted into the boring hole (1) of the ground and installed to support the active force of the upper ingot On the outer circumferential surface thereof, a lock bolt reinforcing bar 2 formed with a male screw 2a and a fastening hole 3a are formed at the center thereof to fix one end of the lock bolt reinforcing bar 2, and a fastening hole ( 3a) the acupressure plate 3 formed with a grout hole 3b into which the grouting hose 6 is inserted at one side thereof, and installed at the rear of the acupressure plate 3 and fastened to the distal end of the reinforcing bar 2 for the lock bolt, thereby rotating. A nut (8) which is able to tension the rock bolts (2) fixed to the drilling hole (1) by the tension and the inner center to be screwed to the lock bolts (2) A spindle shape in which the female thread 4b is formed in the hole 4a to support bidirectional stress. (4) and the rock bolt reinforcing bar (2) in the center of the grout material (7) so that a plurality of the lock bolt reinforcing bar (2) is provided at regular intervals so as not to sag the rock bolt rebar (2) It is a structure composed of a centerizer (9) for positioning.

Here, the tension nail made of the above structure is, as shown in Figure 5 and 6, having a predetermined length in the drilling hole (1) and the reinforcing bar (2) for the rock bolts the male screw (2a) is formed on the outer peripheral surface and The grout hole 3b into which the fastening hole 3a is formed at the center thereof and the grouting hose 6 is inserted into one side of the fastening hole 3a to fix one end of the lock bolt rebar 2 is provided. It can be screwed to the formed pressure plate (3), a nut (8) installed at the rear of the pressure plate (3) to fix one end of the reinforcing bar (2) for the lock bolt, and the reinforcing bar (2) for the lock bolt. As a structure consisting of a spindle-shaped cone (4) formed with a female screw (4b) in the inner central hole (4a) so as to support the vertical stress of the upper soil foundation through the rock bolt reinforcing bar (2), the pressure plate (3) Of the structure forming the tension nail (5) by applying tension to the tensioned rock bolts (2) through the cone and (4) To the so as to increase the structural stiffness.

In addition, a plurality of center risers 9 are installed at predetermined intervals on the outer side of the rock bolt reinforcing bars 2 fixed to the drilling holes 1, and the center risers 9 are reinforcing bars for rock bolts 2. It is a member that serves to position the reinforcing bar (2) for the rock bolt in the center of the grout material (7) so as not to sag.

In addition, in the case of the spindle cone (4) constituting the tension nail (5), as shown in Figure 7, a plurality of step (4c) is formed on the outer circumferential surface of the spindle cone 4, the spindle cone 4 and the grout Will be able to increase the grip with the ash (7).

On the other hand, when the ground reinforcement work using the tension nail (5) the reaction force generated through the tension nail method is shown in Figure 8, the tension nail (5) is inserted into the drilling hole (1) In the state, the primary grout material 7a is injected through the grouting hose 6 so as to be filled from the front end of the punching hole 1, and the thus injected primary grout material 7a is cured so that the inside of the punching hole 1 The first grout zone (a) is formed, and the tension nail (5) is not grouted in the state in which tension is applied by tensioning the reinforcing bar (2) of the tension nail (5) fixed to the drilling hole (1). The secondary grout material 7b is injected into the free field portion, and the secondary grout material 7b thus injected is cured to form the secondary grout zone b.

In addition, in the case of the cone-shaped cone (4) to be installed in the reinforcing bar (2) for the bolt bolt is provided at the inlet side of the drilling hole (1) and the inside of the drilling hole (1), the drilling hole (1) The upper spindle cone 4 'installed at the entrance of the tension cone is a spindle cone 4 in case the nut 8 is loosened after construction of the tension nail 5, even if the nut 8 is loosened. It acts as a nut 8 to pull the reinforcing bar 2 inward so that its tension is not reduced, and the lower fusiform cone 4 "installed at the inner tip side of the drilling hole 1 is a reinforcing bar for rock bolts 2). It is to support the stress during tension.

Therefore, the fusiform cone 4 is capable of simultaneously supporting both stresses such as the vertical stress due to the repulsive force of the rock bolt rebar 2 and the tension stress due to the tension of the rock bolt rebar 2.

On the other hand, the tension nail (5) constructed in the drilling hole (1) as described above supports the ground by the reaction force generated by the tension at the inlet and the inside of the drilling hole (1), the center of the reinforcing bar for the rock bolt (2) The reaction is to support vertical stresses.

In addition, a method of applying tension to the tension nail 5 may be performed by injecting a primary grout material 7a in a state in which the tension nail 5 is inserted into the drilling hole 1. The primary grout zone (a) is formed at the tip of the lock bolt (2) of the tension nail (5), and in this state, the lock bolt (2) is fastened to the acupressure plate (3) with the nut (8). Afterwards, the nut 8 is rotated with a torque wrench to tension the reinforcing bar 2 of the lock bolt. As the number of rotations of the nut 8 increases, the reinforcing bar 2 of the lock bolt becomes more strained and gives more tension. Will be done.

Here, the tension nail (5) is to support the vertical stress and the stress of the earth and sand using the rock bolt reinforcing bar (2) and the spindle cone (4), the rock bolt reinforcing bar (2) is purely received It is possible to support the vertical stress of the earth and sand by combining the tension of the rock bolts (2) tensioned by the action of the spindle cone (4) and the nut (8).

Therefore, the ground tension tension nail 5 according to the present invention by simultaneously solving the reduction of the active force to slide down with the existing rock anchor method and the increase of the resistance to the active force to be lowered from the principle of the small nail method, at the same time, The synergistic effect of the safety factor ensures a much greater stability than the calculated value for the entire slope.

As described above, according to the tension nail for reinforcing the ground according to the present invention, the construction is carried out by supporting the vertical stress of the earth and sand by the amount of the vertical stress that the rock bolts can receive purely and the tension tension of the rock bolts. The structural stiffness of the site is increased, and the tension nail inserted into the boring hole of the ground can secure stability such as reinforcement of cut and fill slope, temporary earth wall of earthwork, and buoyancy prevention of underground foundation structure. will be.

1 is a state diagram showing a rebar according to the prior art,

Figure 2 is a state diagram showing a small nail method using the reinforcing bar of Figure 1,

Figure 3 is a state diagram showing an anchor using a PC steel wire according to the prior art,

4 is a state diagram showing a lock anchor method using the anchor of FIG.

Figure 5 is a state diagram showing the installation state of the ground reinforcement tension nail according to the invention,

Figure 6 is an exploded perspective view showing the structure of the ground nail for reinforcement according to the present invention,

Figure 7 is a cross-sectional view showing a coupling state of the rock bolt reinforcing rod and spindle cone of the tension nail according to the invention,

Figure 8 is a state diagram showing the reaction force generated through the tension nail method according to the invention,

9 is a state diagram illustrating a state in which tension is applied to a tension nail according to the present invention.

Explanation of symbols on the main parts of the drawings

1: Drilling hole 2: Reinforcing bar for rock bolt

2a: external thread 3: pressure plate

3a: fastening hole 3b: grout hole

4: spindle cone 4 ': upper spindle cone

4 ": Lower spindle cone 4a: Central hole

4b: Female thread 4c: Stepped

5: tension nail 6: grouting hose

7 grout material 7a primary grout material

7b: secondary grout material 8: nut

9: Centerizer a: 1st grout zone

b: secondary grout zone

Claims (2)

(delete) (correction) It is fixed by the grout material inserted into the boring hole of the ground and installed to support the active force of the upper lump, and the rock bolt reinforcing bar with the external thread is formed on the outer circumference and the one end of the rock bolt reinforcing bar. A clamping plate is formed at the center thereof so that it can be fixed and a grout plate having a grout hole into which a grouting hose is inserted at one side of the coupling hole, and is installed at the rear of the bearing plate and fastened to the tip of the reinforcing rod for the lock bolt. Nuts to tension the rock bolts fixed in the drilling holes to give tension, and a plurality of installed at a predetermined interval on the outer side of the rock bolts reinforcing the rock bolts reinforcing the rock bolts to prevent sagging In the tension reinforcement nail for the ground comprising a center riser positioned in the center, Further comprising a spindle cone formed in the inner central hole to be screwed to the lock bolt reinforcement to support bidirectional stress, a plurality of stepped on the outer circumferential surface of the cone cone and the spindle cone and Ground tension tension nail, characterized in that it is possible to increase the grip with the grout material to ensure the stability of the slope and wall.