KR100823603B1 - Casket anchor - Google Patents

Abstract

It can automatically provide re-tensioning force to steel in accordance with the decrease in tensile force of steel wires, and it is possible to accurately predict when to re-tension through tension jig, and the tension jig firmly holds the tension head. The present invention discloses a permanent anchor body that can prevent the cracking of the grout sphere by inserting a cylindrical mesh on the outer periphery of the anchorage of the permanent anchor body. The disclosed permanent anchor body includes a fixed portion; A pressure plate through which the inner injection hose fixed to the steel wire passes through the steel wire and the inner space fixed to the fixed portion; In the permanent anchor body consisting of the anchorage to be delivered to the pressure plate, the anchorage is a plurality of steel wires that pass through the pressure plate is penetrated, the wedge insertion hole is formed is inserted into the wedge is fixed to the steel wire through the male thread is formed on the outer periphery Tension head is formed; A retension head having a female thread engaged with a male screw of the tension head formed at an inner circumference thereof; One end is supported by the pressure plate and the other end is supported by the bottom surface of the tension head, and includes pressure means for providing a pressing force to the tension head side with the pressure plate as a supporting point, and the pressure means is tensioned as the tension force of the steel wire decreases. It is characterized in that it is configured to continuously provide a tensile force to the steel wire by pressing upward.

Tension head, retension head, coil spring, wedge, pressure plate

Description

Permanent anchor body {CASKET ANCHOR}

1 is a cross-sectional view showing a state diagram of a conventional permanent anchor installation;

2 is a cross-sectional view for explaining a retensioning structure of a conventional permanent anchor body;

Figure 3 is a perspective view for explaining the re-tension structure of the permanent anchor body according to the present invention,

4 to 7 are views for explaining the action of the re-tension structure of the permanent anchor body according to the present invention,

8 is a cross-sectional view showing a more preferred embodiment of the permanent anchor body according to the present invention.

Explanation of symbols on the main parts of the drawings

110: tension head 120: re-tension head

130: pressing means, preferably coil spring

200: cylindrical mesh

The present invention relates to a permanent anchor body, more specifically, can follow the reduction in the tensile force of the steel wire can automatically provide re-tensioning force, re-tension work through the tension jig can grasp the decrease in the tensile force of the steel wire The permanent jig can be predicted precisely, and the tension jig can firmly grip and pull the tension head and also prevent the crack of the grout sphere by inserting a cylindrical mesh on the outer periphery of the anchorage of the permanent anchor body. .

The ground created by large-scale land construction, roads, railroads, tunnels, etc., has rainwater or snow melt infiltrated, and the strength of the ground is lowered and weathering progresses, causing local slope collapse or falling rocks, resulting in damage to life and property. Various ground reinforcement methods are known to prevent ground collapse, especially in the case of rock layers, after inserting the steel wire, which is a tensile stress material, into the perforated insertion hole on the slope and grouting the cement milk after tensioning the steel wire. Permanent anchor method to reinforce the slope is mainly applied.

The state in which the conventional permanent anchor method is constructed is shown in FIG. The construction procedure of the angle anchor is briefly described with reference to this.

Conventional permanent anchor method first drills the insertion hole (H) in the slope and then inserts the permanent anchor body in the insertion hole. At this time, the configuration of the permanent anchor body, a plurality of steel wires (S) is firmly fixed to the fixing portion 11 of the tip, the inner injection hose 12 between the steel wires (S) the inner space 13 It is fixed with the steel wires (S) through. In addition, the steel wires (S) are coated with a non-attached (UNBONDED) to the flow hose 14, except for the anchorage so that they can be tensioned in the free field. In addition, the steel wires (S) in the anchorage outside the steel pleated pipe (15) in the free field PE pleated pipe (16) and the waterproof sheath pipe (17) are sequentially connected to the steel wire (S) and the internal injection hose 12 ) Is sealed.

After inserting the anchor 10 configured as described above into the insertion hole (H), grout the interior of the anchor body through the inner injection hose 12 and at the same time between the anchor body 10 and the ground inner wall through a separate outer injection hose. Grout the insertion hole (H). Thereafter, after installing the pressure plate (G) on the slope, the waterproof sheath tube (17) is adhered to the pressure plate (G), the anchorage plate is mounted on the pressure plate (G), and the steel wires are tensioned to fix the tensioned wires through the anchorage. After finishing the cap 18 to complete the construction. In this permanent anchor method, the tensile force of the steel wire provides a compressive stress on the slope to reinforce the slope. Reference numeral 20 is a tension head, 30 is a retension head, and 19 is a wedge for fixing a steel wire in the tension head.

However, in the initial stage of construction, the tensile force applied to the steel wire is maintained as it is, but the tensile strength of the steel wire decreases over time, so that the slope reinforcement is weakened.

Therefore, when re-tensioning, as shown in Fig. 2, a male screw 21 is formed in the tension head 20 of the anchorage and the female thread 31 engaged with the male screw 21 of the tension head 20 is formed on the inner circumference. After the formed re-tensioning head 30 is engaged with the male thread 21 to the tension head 20, the tension jig (not shown) is fitted to the male screw 21 of the tension head, and then the tension head through the tension jig. After pulling the steel wires (S) fixed to the tension head (20) was tensioned and then down the re-tension head 30 to be in close contact with the pressure plate (G) to maintain the steel wires (S) re-tensioned state .

However, since the re-tensioning structure cannot provide a separate re-tensioning force to the steel until the re-tensioning time through the tension jig, there was a limit to the ground reinforcement until the re-tensioning time, and the re-tensioning time could not be understood There is a problem that can not accurately grasp. In addition, the tension jig formed with the female thread was engaged with the male thread of the tension head to pull the tension head, so that there was a problem that re-tensioning was not easy when the male thread of the tension head was damaged.

In addition, since the cross section of the grout sphere between the insertion hole ground and the anchor body is small, if the compressive force acts on the grout sphere during or after tensioning of the wire, cracks may occur in the grout sphere in the anchorage, thereby reducing the tensile force of the steel wire. However, in the related art, there is a problem in that there is no crack preventing structure of the grout sphere, and thus the tensile force of the steel wire cannot be maintained.

The present invention has been made to solve the above problems, an object of the present invention is to provide a permanent anchor body that can provide a re-tensioning force to the steel wire continuously and automatically following the reduction of the tensile force of the steel wire. Another object of the present invention is to provide a permanent anchor body that can grasp the reduction in the tensile force of the steel wire can accurately predict the re-tensioning operation through the tension jig. Another object of the present invention is to provide a permanent anchor body configured to allow the tension jig to firmly grip and pull the tension head. It is still another object of the present invention to provide a permanent anchor body capable of maintaining tensile strength of steel wires by preventing cracks of grout spheres in the anchorage.

The object of the present invention is fixed; A pressure plate through which the inner injection hose fixed to the steel wire passes through the steel wire and the inner space fixed to the fixed portion; In the permanent anchor body consisting of the anchorage to be delivered to the pressure plate, the anchorage is a plurality of steel wires that pass through the pressure plate is penetrated, the wedge insertion hole is formed is inserted into the wedge is fixed to the steel wire through the male thread is formed on the outer periphery Tension head is formed; A retension head having a female thread engaged with a male screw of the tension head formed at an inner circumference thereof; One end is supported on the pressure plate and the other end is supported on the bottom surface of the tension head comprising a pressing means for providing a pressing force to the tension head side with the pressure plate as a support point, the pressing means is the tension head as the tensile force of the steel wire is reduced It can be achieved by providing a permanent anchor body, characterized in that configured to continuously provide a tensile force to the steel wire by pressing upward.

Here, the pressing means is characterized in that the pressing means is a coil spring, it is preferable that the engaging groove which can pull the tension jig in the radial direction on the outer circumferential surface of the tension head is formed.

The object of the present invention described above will become more apparent from the preferred embodiment of the present invention described below with reference to the accompanying drawings.

Hereinafter, with reference to the accompanying drawings will be described in more detail the permanent anchor body according to the present invention. For convenience, reference numbers used in the prior art are used in the description of the present invention.

Permanent anchor body according to the present invention and the fixed portion (11); A pressure plate (G) through which the inner injection hose (12) fixed to the steel wire (S) passes through the steel wire (S) and the inner space (13) fixed to the fixing portion (11); In the permanent anchor body consisting of a fixing device that is addressed to the pressure plate (G), the fixing device is characterized in that it comprises a tension head 110, re-tension head 120 and the pressing means (130).

As shown in FIG. 3, the tension head 110 is formed with a wedge insertion hole 111 through which a plurality of steel wires S passing through the installation holes of the pressure plate G are inserted and the wedge 140 is inserted. Specifically, the wedge insertion hole 111 is formed in a shape in which the diameter becomes wider toward the opening so that a plurality of wedges tapered at the front thereof may be assembled and inserted. In addition, the male thread 112 is formed on the outer circumference of the tension head, which is to be engaged with the female screw 121 formed on the inner circumference of the re-tension head 120 to be described later.

More preferably, a plurality of engaging grooves 113 are formed on the outer circumference of the tension head 110 to which a tension jig not shown may be pulled. Conventionally, the tension jig is engaged with the male thread formed on the outer periphery of the tension head to pull the tension head, but in this case, since the re-tensioning operation is not easy when the male thread is damaged, the present invention has a large number of hooks on the outer periphery of the tension head. By forming the groove, the tension jig formed with the engaging projection is to facilitate the re-tensioning operation by hooking the engaging groove 113.

The re-tensioning head 120 has a female thread 121 engaged with the male thread 112 of the tension head 110 is formed on the inner circumference. Therefore, when the tension head 110 is inserted into the retraction head 120, the male thread 112 of the tension head 110 and the female thread 121 of the retraction head 120 are engaged with each other, thereby causing the retraction head 120 to be engaged. It moves on the outer circumferential edge of the tension head 110.

The pressing means 130 is interposed between the pressure plate (G) and the tension head 110, specifically, one end of the pressing means 130 is supported by the pressure plate (G) and the other end is the bottom surface of the tension head (110) It is supported on the pressure plate (G) to provide a pressing force toward the tension head 110 with the support point. Preferred example of the pressing means is a large diameter strong coil spring 130, when the tensile force of the steel wire (S) is reduced, the coil spring 130 presses the tension head 110 upwards and thus the tension head 110 A plurality of steel wires (S) fixed through the wedge 140 is tensioned to provide a continuous tensile force to the steel wire.

The operation and effects of the permanent anchor body according to the present invention configured as described above will be described with reference to FIGS. Figure 4 is a cross-sectional view showing the initial state of the re-tension structure of the permanent anchor body according to the present invention, Figures 5 and 6 follow the reduction in the tensile force of the steel wire over time to follow the reduction in the tensile force of the steel wire pressing means This is a cross-sectional view showing a state of continuously and automatically providing a re-tension to the steel wire, Figure 7 is a cross-sectional view showing a state of providing a re-tension to the steel wire using a tension jig.

First, as shown in FIG. 4, in the initial state in which the permanent anchor body is installed, the tensile force of the steel wire S decreases with time. Then, as shown in FIGS. 5 and 6, the coil spring S in the compressed state is tensioned as the tensile force of the steel wire decreases, and the tension head 110 is pressed to one side with the pressure plate G as a supporting point to the tension head 110. To raise the, the steel wire (S) fixed to the wedge 140 inserted in the tension head 110 is also tensioned to provide a continuous compressive force on the slope. That is, according to the present invention, the coil spring S continuously and automatically follows the decrease in the tensile force of the steel wire S, thereby re-tensioning the steel wire S and continuously compressing the slope according to the re-tension of the steel wire. This has the advantage of being excellent.

On the other hand, the tension head 110 and the re-tension head 120 engaged with each other rises and is separated from the pressure plate (G), the separated interval, that is, the advantage of being able to grasp the amount of reduction in tensile strength of the steel wire at the interval in which the coil spring is tensioned There is an advantage that the re-tensioning time can be estimated from the tension jig 150 from this, and the re-tensioning can be performed at an appropriate time.

On the other hand, when the coil spring is fully tensioned as shown in Figure 7 to re-tension the steel wire through the tension jig 150. Specifically, when the tension jig 150 is pulled by the hook groove 113 formed on the outer peripheral edge of the tension head, the steel wire is re-tensioned, and the re-tension head 120 is lowered on the tension head 110 to pull the pressure plate G. When in close contact with the tension jig 150 to complete the re-tensioning operation. At this time, according to the present invention, since the tension jig 150 is pulled by the engaging groove 113 formed on the outer periphery of the tension head 110, the tension head can be easily pulled even if the male thread of the tension head is damaged. There is an advantage.

On the other hand, Figure 8 is a more preferred embodiment of the permanent anchor body according to the present invention, referring to this as a steel corrugated pipe 15 in the anchorage, PE corrugated pipe 16 and the waterproof sheath tube 17 in the free field sequentially The cylindrical mesh 200 is inserted into the outer periphery of the steel corrugated pipe 15 in the fixing station with respect to the permanent anchor body connected to and sealing the steel wire S and the inner injection hose 12. Since the cross section of the grout sphere between the inner wall of the insertion hole (H) and the anchor body is small, if a compressive force is applied to the grout sphere at the time of tensioning or tensioning of the steel wire, a crack occurs in the grout sphere in the anchorage where the steel wire is fixed. The tensile force can be reduced, in the present invention is to prevent the crack of the grout sphere by inserting the cylindrical mesh 200 on the outer periphery of the steel wrinkle pipe.

That is, the cylindrical mesh 200 is grouted together in cement milk to prevent cracking of the grout sphere so that the steel wire is continuously maintained in tensile force. Here, the cylindrical mesh 200 is preferably both ends are welded and fixed to the steel pipe (15).

As described above, the permanent anchor body according to the present invention has the effect of providing a re-tension force to the steel wire continuously and automatically following the reduction in the tensile force of the steel wire. Therefore, there is an excellent effect of reducing costs because no additional manpower and equipment is input until the re-tensioning time through the tension jig. In addition, since it is possible to grasp the decrease in the tensile force of the steel wire can accurately predict the re-tensioning operation through the tension jig, there is an effect that the tension jig can be easily and firmly grip the tension head to pull. In addition, the cylindrical mesh inserted in the outer periphery of the steel corrugated pipe prevents the grout sphere cracking in the anchorage, thereby eliminating the phenomenon of reducing the tensile force of the steel wire due to the conventional crack.

Claims (5)

A fixed part; A pressure plate through which the inner injection hose fixed to the steel wire passes through the steel wire and the inner space fixed to the fixed portion; In the permanent anchor body consisting of a fixing device that is addressed to the pressure plate, The anchorage is formed with a wedge insertion hole into which a plurality of steel wires passing through the pressure plate are inserted, into which a wedge for fixing the steel wires is inserted, and a tension head having a male thread formed at an outer circumference thereof; A retension head having a female thread engaged with a male screw of the tension head formed at an inner circumference thereof; One end is supported on the pressure plate and the other end is supported on the bottom surface of the tension head including a coil spring to provide a pressing force to the tension head side with the support plate as a support point, the coil spring is tension head as the tension force of the steel wire is reduced Permanent anchor body, characterized in that configured to continuously provide a tensile force to the steel wire by pressing upward. delete The method of claim 1, Permanent anchor body, characterized in that the outer peripheral surface of the tension head is formed with a plurality of engaging grooves that can be pulled by the tension jig. The method of claim 1, wherein the permanent anchor body Permanent anchor body, characterized in that the steel corrugated pipe in the anchorage, PE corrugated pipe and the waterproof sheath pipe is connected in sequence to seal the steel wire and the inner injection hose, the cylindrical mesh is inserted in the outer periphery of the steel corrugated pipe in the anchorage . The method of claim 4, wherein The cylindrical mesh is a permanent anchor body, characterized in that both ends are fixed by welding with a steel pleated pipe.

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