KR101632285B1 - Easy to re-tensile adjustment - Google Patents

Abstract

A permanently anchored permanent anchor and a method for re-applying the reinforcement are disclosed. According to one aspect of the present invention, there is provided a permanent anchor which is easy to be reinspired, comprising: a platelike pressing plate provided around a perforation hole entrance on a cut-off surface; a grooved hole formed in the perforation hole of the cut- a fixed head for the tensile reinforcing material and are fixed on a first wedge (wedge 1 ^st) to the exposed end of the tensile reinforcing material extending in the hole outside maintain tension in the tensile reinforcing material for the pressure plate extending outside the hole; And the second wedge is installed on the tensile reinforcing material extending through one end of the fixed head over the (2 ^nd wedge) is adapted to base the re-section, including the head is fixed in close contact with the upper fixed head.

Description

Easy to re-tensile adjustment of permanent anchors and permanent anchors that are easily re-

The present invention relates to a permanent anchor provided for reinforcing a ground sole, more specifically, when a permanent anchor is installed, and the ground compressive force of the anchor is weaker than the initial design value due to a change in the ground environment or a tensile force loss, The present invention relates to a permanent anchor and a permanent anchor re-fastening method which can easily recreate a structure capable of restoring a function through a long shaft.

Generally, in case of constructing roads and houses and various civil engineering works including this, there are many slopes such as slopes or slopes due to the geographical characteristics of the slopes, which are more mountainous than flat slopes. In this way, the cut-off surface generated during the civil engineering work is not only very weak at the interface but also the groundwater flowing along the gap and the joint surface causes the cut-off surface to easily collapse or sink.

Therefore, in order to secure the permanent stability of the cut-off surface during civil engineering work, reinforcement work is generally carried out to reinforce the cut-off surface. Permanent anchor method is one of widely used methods to reinforce cut surface. Permanent anchor method is a type of improvement and treatment method of settlement foundation rock. It is a method to pressurize and stabilize slope which is a possibility of collapse.

In the permanent anchor method, generally, a hole is drilled in a cut-away surface requiring slope reinforcement, a stranded wire or the like is inserted as a reinforcing material into the hole, and grouting is performed to fix the anchor in the hole. A pressure plate is installed around the hole entrance, Is pulled out to the outside of the ground and is fixed to the fixed head by using a wedge or a nut outside the hole.

This permanent anchor stabilizes the ground by pressing the surrounding ground through the grout body by the tensile force of the incision surface and slope reinforcement. However, as time elapses, there is a problem that the reinforcing material grouted by the creep deformation of the reinforcing material and the surrounding ground moves to the fixed head side and the tensile force applied to the reinforcing material becomes weak.

Therefore, considering the reduction of the tensile load of the stiffener over time, it is necessary to restore the tensile strength by reinforcement of the stiffener after a certain period of time after the construction. Conventionally, in order to restore the tensile force, a method of restoring a tensile force is used in which a fixing head is re-tensionable and a spacer is inserted between a fixing head and a pressing plate in a state in which the fixing head is stretched by a tensioner.

However, since tensile loss is different for each permanent anchor, the size of the gap between the fixed head and the platen is different when the stiffener is tensioned. Therefore, it is difficult to manufacture a spacer with a thickness corresponding to the gap, There is a problem in that it is difficult to accurately fit the spacer and it is difficult to expect a desired level of restoring force.

As another example of the conventional method for restoring the tensile force, a cylindrical adjusting member having a thread formed on the outer surface of the fixed head and formed with a female screw fastened to the thread is formed on the outer side of the fixed head. When the stiffener is pulled, It is known that the gap is formed by rotating the cylindrical adjusting member toward the pressing plate so that the tensile force can be restored.

However, such a configuration has disadvantages in terms of mass production and economy, such as a cost increase due to the addition of a cylindrical adjusting member accompanied by a complication in forming a thread on the outside of the fixed head, and further, when the strength of the thread is insufficient There is a problem that the screw is not damaged due to the damage of the thread when re-tensioned.

Korean Patent Laid-Open Publication No. 2014-0094178 (Publication date 2014. 07. 30)

A problem to be solved by the present invention is to provide a permanent anchor which can solve the troubles involved in reinforcement of a permanent anchor constructed for reinforcement of a cut-away surface, and which is structurally stable and can be easily re- To provide an anchor.

Another problem to be solved by the present invention is to accurately measure the tensile state of the permanent anchor by mounting an electrical part electrically connectable to an external tensile measuring device and thus to restore the tensile force through re- And to provide a permanent anchor of the configuration that can be made.

According to one aspect of the present invention as a means for solving the problems, there is provided a press plate of a plate-like structure provided around a perforation hole entrance on a cut-off surface; A tensile reinforcement which is fixed to the perforation hole of the cut-away surface by grouting and a part of which extends through the central through hole of the pressure plate and outside the perforation hole; A stationary head fixed through a first wedge (1 ^st wedge) to an exposed end of a tensile stiffener extending out of the perforation hole to press the pressure plate and maintain a tensioned state of the tensile stiffener; And a second wedge (2 ^nd wedge) the fixing head which is selectively installed on the tensile reinforcing material extending end passes through the sheet re-secured in close contact with the upper part of the fixed-head head through; Zhang re-containing provide easy permanent anchor .

The permanent anchor according to one aspect of the present invention may further comprise tensile measuring means attached to the tensile stiffener surface within the perforation hole, wherein an electrical cable extending from the tensile measuring means passes through the fixation head And may be configured to be pulled out of the perforation hole.

A wiring hole for withdrawing the electric cable may be formed at a lower end of the fixed head and a connector for connection to an external measuring instrument may be provided at an end of the electric cable drawn out of the perforation hole.

The reinspection head may be formed with a locking protrusion protruding radially outward on the upper surface or side surface and connected to an external tension device.

In addition, a fixing groove may be formed on the upper surface of the fixed head and the reinsensitive head to fix the first and second wedges, respectively.

The permanent anchor according to one aspect of the present invention may further include a protective cap covering the fixed head and the reinspection head.

In this case, at least one bolt hole for fixing the protective cap may be formed on the upper surface or the side surface of the fixed head.

According to another aspect of the present invention, as a means for solving the problem, there is provided a method for re-welding a permanent anchor according to one aspect of the present invention, Disassembling the cap; Installing a tensioner around the perforation hole entrance of the permanent anchor to be tensioned so that the end of the external tensioner is connected to the reinsertion head exposed to the outside after the protective cap is removed; Pulling the tensile stiffener of the permanent anchor to be pulled in the longitudinal direction using the tensioner; Moving the first wedge detached from the fixing groove of the fixing head to the fixing head side due to tension of the tensile reinforcement to fix the fixing wedge to the fixing groove; Disassembling said tensioner connected to said reinforcement head; Moving the reinspection head toward the fixed head side by a distance that the first wedge moves, and tightly fixing the reinspacing head on the fixed head via the second wedge; And filling the space between the protective cap and the heads after the protective cap is installed, filling the filling space with the filler.

Preferably, in the step of installing the tensioner, after a support is provided between the pressure plate and the tensioner, the tensioner and the reinforcement head can be connected to each other. In connecting the tensioner to the reinforcement head, A tensioner may be connected to the reinforcement head by providing a wedge between the ends of the reinforcement.

According to another aspect of the present invention, there is also provided a method of re-stretching, comprising moving the reinspection head toward the fixation head and tightly fixing the fixation head to the upper portion of the fixation head through the second wedge, And cutting the tensile stiffener exposed end.

According to the embodiment of the present invention, a simple structure in which the tensioned state is maintained by moving the wedge moved by the tensioned distance again to the fixed head side while the tensile stiffener is stretched through the reinforcement head, is simple, , It is advantageous in that it is economical and structurally stable because the construction is simple, and the manufacturing cost is low.

In addition, by constructing an electrical part electrically connected to an external tensile measuring device, it is possible to accurately measure the tensile state of the permanent anchor buried in the ground through a tensile measuring device, if necessary, It is possible to reduce the cost of human resources and the accompanying costs for determining the timing of the reintegration.

1 is a perspective view of a permanent anchor according to an embodiment of the present invention,
FIG. 2 is an exploded perspective view of a permanent anchor according to an embodiment of the present invention. FIG.
3 is a cross-sectional view of a permanent anchor according to an embodiment of the present invention, which is easily reinspired;
4 is a perspective view showing an enlarged view of a fixed head and a reinspection head of a permanent anchor which can easily be reinspected according to an embodiment of the present invention;
FIG. 5 is a schematic view showing a construction process of a permanent anchor easily re-stretchable according to an embodiment of the present invention; FIG.
FIGS. 6A to 6G are views showing a process of re-enrollment of a permanent anchor easily re-injectable according to an embodiment of the present invention;

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the description of the present invention, a detailed description of known configurations will be omitted, and a detailed description of configurations that may unnecessarily obscure the gist of the present invention will be omitted.

FIG. 1 is a perspective view of a permanent anchor easily re-stretchable according to an embodiment of the present invention, and FIG. 2 is an exploded perspective view of a permanent anchor easily re-stretchable according to an embodiment of the present invention. FIG. 4 is a perspective view showing an enlarged view of a fixed head and a reinforcement head of a permanent anchor according to an embodiment of the present invention. FIG. 4 is a perspective view of a permanent anchor according to an embodiment of the present invention. to be.

1 to 4, a permanent anchor which can easily be reinspected according to an embodiment of the present invention includes a pressure plate 2, at least two tensile stiffeners 3, a fixed head 4 and a reinforcement head 6, And a conical first and second wedge (7) connecting the tensile stiffener (3) to the fixed head (4) and the reinspection head (6), the tensile stiffener (3) located in the perforation hole (1) And tensile measuring means 8 mounted on the support member.

The pressure plate 2 is a plate-like structure that is provided around the inlet of the perforation hole 1 having a cut-off surface at a predetermined depth for installing the anchor and supports the stationary head 4. The pressing plate 2 can apply a compressive force transmitted through the fixed head 4 to the cut surface or the grid block around the perforation hole 1 by a force to return to the original state in the state that the tensile stiffener 3 is pulled It serves to disperse and deliver.

The pressure plate 2 may be formed of a rectangular plate as shown in the figure, but its shape is not specified because it can be varied depending on the state of the ground or the surrounding environment of the part to be constructed, The flatness of the cut surface, the size of the fixed head 4 depending on the diameter of the tensile stiffener 3, and the like, and is not limited to a specific value.

A through hole (20) is formed at the center of the pressure plate (2). The through hole 20 is passed through the tensile stiffener 3 and is fixed to the perforation hole 1 through grouting and a portion thereof is exposed to the outside of the perforation hole 1. The tensile stiffener 3 substantially reinforces the ground. The tensile stiffener 3 is fixed in a tensioned state through the fixing head 4 which is coupled to the exposed end exposed out of the perforation hole 1 at the top of the pressure plate 2. [

Fixing head 4 is fixed on a first wedge (1 ^st wedge, 5) to the exposed end of the tensile reinforcing material (3) extends in the outer perforations (1) transfer the compressive force to the pressure plate (2) and a tensile And serves as a fixture for maintaining the tensile state of the reinforcing member 3. [ The number of the through holes 40 corresponding to the number of the tensile stiffeners 3 is formed in the fixed head 4 and the through holes 40 are formed in the fixed head 4 through the tensile stiffeners 3, .

The fixing head 4 is provided with a wiring hole 42 for forming a path so that the electric cable 82 extending from the tension measuring means 8 can be pulled out of the perforation hole 1 through the fixing head 4 May be formed. A connector 84 for electrical connection with an external measuring instrument such as a tensile measuring instrument is provided on the end of the electric cable 82 drawn out of the perforation hole 1 to be exposed to the outside of the protective cap 9 .

Re chapter head 6 has a second wedge (2 ^nd wedge, 7) it is optionally installed to the tensile reinforcing material (3) extending end which passes through the fixing head 4 is fixed in close contact with the upper fixed head 4 through the . The reinspection head 6 is for connection with an external tensioner 15 (see FIG. 6) during reinspection and restrains the tensile stiffener 3 by restraining the reinspection head 6 with a second wedge 7, The tensile reinforcement 3 can be pulled by pulling the reinforcement head 6 with a tensioner.

A number of through holes 60 corresponding to the number of tensile stiffeners 3 are formed on the reinspection head 6 in the same manner as the fixation head 4 and on the upper surface of the fixation head 4 and the reinspection head 6, Fixing grooves 45 and 65 are formed respectively so that the first and second wedges 5 and 7 are stably fixed and the tensile stiffener 3 is restrained. At this time, the fixing grooves 45 and 65 may be V-shape, but are not limited thereto.

The first and second wedges 5 and 7 are fixed to the fixing grooves 45 and 65 of the fixing head 4 and the reinspection head 6 to fix the tensioned stiffener 3 to the fixing head 4) and the reinspection head (6). The first wedge 5 and the second wedge 7 are formed in a conical shape as shown in the figure and are fixed to the fixing grooves 45 and 65 respectively so as to allow the tensile stiffener 3 to extend out of the ground, Shrinkage to the inside is blocked.

A thread is formed on the exposed end of the tensile stiffener 3 extending over the reinspection head 6 and a nut is tightened to fix the exposed end of the tensile stiffener 3 to the reinspection head 6 The second wedge 7 can be replaced with a configuration. But are not limited to, any shape capable of restraining the exposed end of the tensile stiffener on the reinsertion head.

The reinspection head 6 may have a locking step 67 for connection to the tensioner on the upper surface or side surface. The engaging jaw 67 may be formed as a protruding portion by projecting the upper surface or the side surface of the head outwardly in the radial direction as shown in the drawing, but the present invention is not limited thereto. But it does not matter in any form whatsoever that it is possible to implement a solid connection of

The tensile stiffener 3 is preferably a stranded wire made by twisting a plurality of strands of steel wire. However, a steel rod having a long bar structure made of a metal is also applicable. The tensile stiffener 3 is protruded outside the perforation hole 1, A protective cap 9 is placed on the exposed end portion confined in the fixed head 4 and the reinforcement head 6 so as to cover the fixed head 4 and the reinforcement head 6 including such exposed end portions .

The protective cap 9 may be connected to and fixed to the fixing head 4 via a bolt and one or more bolt holes for fixing the protective cap 9 may be formed on the upper surface or the side surface of the fixing head 4 . The filler 12 is filled in the inner space of the protective cap 9 to cover the fixing head 4 and the reinforcement head 6 and tensile stiffener 3 in a state where the protective cap 9 is covered .

The tensile measuring means 8 is attached to the surface of the tensile stiffener 3 in the perforation hole 1 and detects to what extent the tensile stiffener 3 has undergone plastic deformation in the longitudinal direction over time. The tensile measuring means 8 may be a sensor including a flexible electronic device that is stretchable and contractible in response to a change in length of the tensile stiffener 3 or may be a distance detection sensor that detects a strain rate from a change in distance to the pressure plate 2. [

Referring to FIG. 5, a process of constructing a permanent anchor according to an embodiment of the present invention on a cut surface will be briefly described.

FIG. 5 is a schematic view showing a construction process of a permanent anchor easily re-stretchable according to an embodiment of the present invention.

Referring to FIG. 5, a hole 1 is formed by perforating the slope where the slope reinforcement is required, and at least one tensile stiffener 3 composed of a strand or the like is inserted into the perforation hole 1. Then, grouting is performed in the perforation hole 1 to fix a part of the tensile stiffener 3 in the perforation hole 1. When the grouted grout material 10 is sufficiently cured, the pressure plate 2 ).

Next, the fixing head 4 is installed at the exposed end of the tensile stiffener 3 extending through the pressure plate 2 and extending outside the perforation hole 1, and the first wedge 5 is fixed to the fixing head 4 Thereby fixing the exposed end to the fixing head 4. [ The reinspection head 6 is then placed on the fixation head 4 and the second wedge 7 is fixed to the reinspection head 6 to fix the exposed end back to the reinspection head 6.

Finally, a protective cap 9 is placed on the platen 2 so as to cover the exposed end of the fixing head 4, the reinforcement head 6 and the tensile stiffener 3, Construction is completed by filling the filler 12 in the inner space of the protective cap 9 so that the exposed ends of the fixing head 4, the reinspection head 6 and the tensile stiffener 3 are not corroded.

In this case, the reinspection head 6 is fixed to the stationary head 4 only at the time of insertion of the permanent anchor material, which will be described later, And may function to tension the tensile stiffener by being connected to the tensioner.

When the reinspection head 6 is connected to the upper portion of the fixing head 4 only when the reinspection is necessary, the reinspection head 6 is extended upward by the fixing head 4 for further installation of the reinspection head 6 It is natural that the exposed end of the tensile stiffener 5 should be extended to such an extent that the reinforcement head 6 can be additionally installed.

The tensile strength is inevitably decreased with the lapse of time in the permanent anchor thus constructed. At this time, how much the tensile force is reduced can be grasped accurately by connecting the tensile measuring device to the connector 84 exposed to the outside of the protective cap 9. As a result, when it is determined that the reinforcement is necessary, the tensile reinforcement 3 is re- It is necessary to restore the tensile force.

A process of re-typing a permanent anchor according to an embodiment of the present invention will be described in detail with reference to FIGS. 6A to 6G.

The protective cap 9 covering the fixing head 4 and the reinspection head 6 is firstly disassembled (Fig. 6A), and the protective cap 9 is removed, Tensioner 15 is installed around the inlet of the perforation hole 1 of the permanent anchor to be tensioned so that the end of the external tensioner 15 is connected to the support plate 6 The tensioner 15 and the reinspection head 6 are connected.

Next, the tensioner 15 connected to the reinforcement head 6 is operated to pull the tensile stiffener 3 of the permanent anchor to be pulled out of the perforation hole 1 (FIG. 6C). The first wedge 5 detached from the fixing groove 45 of the fixing head 4 together with the tension of the tensile stiffener 3 is moved to the fixing head 4 side and fixed to the fixing groove (Fig. 6D) The tensioner connected to the reinforcement head 6 is disassembled (Fig. 6E).

Subsequently, the reinspection head 6 is moved to the fixed head 4 side by the distance at which the first wedge 5 is moved (the distance at which the tensile reinforcement is stretched), and then, The reinforcement of the permanent anchor is completed by providing the protective cap 9 and filling the space between the protective cap 9 and the heads with the filler 12 6g).

Here, the reinspection head 6 is moved toward the fixed head 4 and is tightly fixed to the upper portion of the fixed head 4 via the second wedge 7, that is, the reinspection head 6 is moved toward the fixed head 4 side The tensile stiffener 3 cuts the exposed end of the tensile stiffener 3 extending to the end of the reinforcement head 6 by the distance that the tensile stiffener 3 has been stretched before covering the protective cap 9, .

According to the embodiment of the present invention, the tensile stiffener is stretched through the reinsensitive head, and the wedge moved by the stretched distance is moved to the fixed head side again to maintain the tension state. Therefore, Since the structure is simple, the manufacturing cost is low, and it is economical and structurally stable.

In addition, by constructing an electrical part electrically connected to an external tensile measuring device, it is possible to accurately measure the tensile state of the permanent anchor buried in the ground through a tensile measuring device, if necessary, It is possible to reduce the number of manpower consumed and the costs associated with the reappraisal.

In the foregoing detailed description of the present invention, only specific embodiments thereof have been described. It is to be understood, however, that the invention is not to be limited to the specific forms thereof, which are to be considered as being limited to the specific embodiments, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims. .

1: Perforation hole 2: Platen
3: tensile stiffener 4: fixed head
5: first wedge 6: reinforcement head
7: second wedge 8: tensile measuring means
9: Protective cap 10: Grout material
12: Filler 20: Through hole
40, 60: through hole 42: wiring hole
45, 65: Fixing groove 67:
84: Connector

Claims (11)

A pressure plate installed around the perforation hole entrance on the cut surface;
A tensile reinforcement which is fixed to the perforation hole of the cut-away surface by grouting and a part of which extends through the central through hole of the pressure plate and outside the perforation hole;
A stationary head fixed through a first wedge (1 ^st wedge) to an exposed end of a tensile stiffener extending out of the perforation hole to press the pressure plate and maintain a tensioned state of the tensile stiffener;
A second wedge (2 ^nd wedge) re chapter head is installed on the tensile reinforcing material extending through one end of the fixed head is fixed in close contact with the upper part of the fixed head through; And
A protective cap covering the fixing head and the reinspection head from outside the perforation hole; And
And tensile measuring means attached to the tensile stiffener surface located in the perforation hole,
A wiring hole is formed in the fixing head and the protective cap and a connector is provided so as to be exposed to the outside of the protective cap so that the electric cable can electrically connect the connector and the tension measuring means through the wiring hole of the fixing head and the protective cap And a permanent anchor that is easy to reinspire.
delete delete The method according to claim 1,
And an engaging jaw is formed on an upper surface or side surface of the reinspection head for connection with a tensioner.
The method according to claim 1,
And a fixing groove on which the first and second wedges are fixed, respectively, are formed on the upper surface of the fixed head and the reinforcement head.
delete delete As a method for reinforcement of permanent anchors installed to reinforce sections,
Connecting a tension meter to the connector exposed to the outside of the protective cap to measure the tensile stiffness of the tensile stiffener;
Disassembling the fixation head installed at the end of the tensile stiffener and the protective cap covering the reinforcement head if it is determined that reinforcement is necessary;
Installing a tensioner around the perforation hole entrance of the permanent anchor to be tensioned so that the end of the external tensioner is connected to the reinsertion head exposed to the outside after the protective cap is removed;
Pulling the tensile stiffener of the permanent anchor to be pulled in the longitudinal direction using the tensioner;
Moving the first wedge detached from the fixing groove of the fixing head to the fixing head side due to tension of the tensile reinforcement to fix the fixing wedge to the fixing groove;
Disassembling said tensioner connected to said reinforcement head;
Moving the reinspection head toward the fixed head side by a distance that the first wedge moves, and tightly fixing the reinspacing head on the fixed head via the second wedge;
Cutting a tensile stiffener exposed end of the tensile stiffener extending to the reinspread head end by a stretched distance; And
And filling the inside of the protective cap with a filler after the protective cap is installed.
9. The method of claim 8,
Wherein the step of installing the tensioner comprises providing a support between the pressure plate and the tensioner, and then connecting the tensioner and the reinforcement head to each other.
10. The method of claim 9,
Wherein a wedge is provided between the periphery of the reinforcement head and the end of the tensioner in connecting the tensioner to the reinforcement head to connect the tensioner to the reinforcement head.
delete

Images