KR20160035919A - Anchorage for ground anchor - Google Patents

Abstract

The present invention relates to an anchorage for a ground anchor, capable of providing a stable and increased tensile force to a strand and completely preventing the separation of the strand from the anchorage when the tensile force is applied to the strand. The anchorage for the ground anchor according to the present invention includes: at least one anchorage body joined to the front end of the strand; a holder arranged to be separated from the anchorage body and having at least one through-hole through which the strand passes; and an extension sleeve with a shank unit joined to the holder and multiple extension fingers extended from the shank unit toward the anchorage body in a longitudinal direction. A tapered surface of the anchorage body presses the inner surface of the extension finger of the extension sleeve as the anchorage body is moved inside the extension sleeve when the strand is pulled, thus the extension finger of the extension sleeve is extended in an outer radial direction.

Description

{ANCHORAGE FOR GROUND ANCHOR}

The present invention relates to a ground anchor, and more particularly, to a fixing anchor for a ground anchor which can reliably prevent a stranded wire from being separated from an anchorage during a strand of a stranded wire, will be.

In general, the anchor method is to fix the civil engineering and constructional structures to the ground. After connecting with a high strength strand such as a stranded wire, a high tensile force is introduced to the stranded strand and a constraining force or a preload stress and so on to protect or stabilize the structure from excessive stress, deformation, displacement, and the like.

The anchor used in such an anchor method has the effect of tying the ground and the structure into one aggregate, which is generally composed of a steel wire and a cement grout. Anchors are used in various fields such as foundation guard walls, permanent anchor walls, transmission tower bases, dam reinforcement, buoyancy anchors of underground structures, and slope reinforcement.

The anchors are classified into a rock anchor and a ground anchor depending on the type of the ground to which the anchor is fixed and are classified into tieback and tiedown depending on the direction in which the anchor is installed, Pressure type anchor and high pressure type anchor according to the pressure of the anchor, and classified into a tensile type and a compression type according to a method in which the anchor is subjected to a tension force in the grout, and the stress concentration type and the stress dispersion The stress concentration type is a method of concentrating stress on the tip side of an anchor. The stress dispersion type is a method of uniformly dispersing stress on the entire anchorage fixing section.

In such an anchor, it is necessary to fix the strand in the pore of the earth with a very high fixation force and to provide an optimal tension force to the strand of the anchor, which is a requirement for enhancing the fixation performance of the anchor.

In view of this, Patent Publication No. 10-0948352 (entitled "Safety Anchor Assembly and Method of Reinforcing Sloped Surface Using the Same") has been disclosed in Japanese Patent Application Laid-Open No. 10-0948352, which discloses an anchor body Wherein the fixed cone is provided with a plurality of anchor pieces extending in the outer diameter direction and the insertion unit of the anchor body is screwed to the female threaded portion of the anchor piece, To extend outwardly. Due to the expansion of the anchor pieces, the anchor body of the strand can be fixed with a very high fixing force in the perforation, so that the tensile force (tension) of the strand can be greatly increased.

In order to expand the anchor piece, the insertion unit of the anchor body must be rotated. However, in order to expand the anchor piece, the insertion unit of the anchor body must be rotated. There is a disadvantage that the entire construction work is very slow and troublesome because the rotating operation of the unit is not easy.

Particularly, in the above-mentioned prior art, when an anchor piece is expanded in a soft ground or a region where strength is weak, the ground around the perforation is broken so that a part of the anchor piece is deeply pinched so that the plurality of anchor pieces can be excessively widened in the outer direction As a result, the insertion unit and the anchor piece are completely disengaged from each other, so that the insertion unit and the strand connected thereto are completely detached from the anchor piece, so that the strand is not fixed or fixed at all.

KR 10-0948352 B1 (Mar. 18, 2010)

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems of the prior art, and it is an object of the present invention to provide a fixing device for a fixing device, And it is an object of the present invention to provide a fixing anchor for a ground anchor in which not only simple but also stable and increased tension can be imparted to the strand.

Further, when the extension piece of the fixation port is expanded in a soft ground or a region where strength is weak, part of the extension piece is buried in the ground so that the fixation body is maintained in the extension piece even if the extension piece is excessively expanded And it is an object of the present invention to provide a fixing anchor for a ground anchor which can reliably prevent a stranded wire from being detached from an anchorage.

According to an aspect of the present invention, there is provided a fixing anchor for a ground anchor, comprising: at least one fixing body coupled to a leading end of a strand; A holder disposed spaced apart from the fusing body, the holder having at least one through-hole through which the strands pass; And an expansion sleeve having a shank coupled to the holder and a plurality of extension fingers extending longitudinally toward the fusing body at the shank,

The tapered surface of the fixing body presses the inner surface of the extension finger of the expansion sleeve as the fixing body moves linearly in the expansion sleeve due to pulling of the strand, .

And a neck portion having a thickness smaller than that of the extension finger and the shank portion is formed at a portion where the extension finger and the shank portion are connected.

At least one tapered surface is formed on an outer circumferential surface of the fixing body, and an inclined surface contacting the tapered surface of the fixing body is formed in a part of the inner surface of the extended finger.

And the packaging cap is detachably coupled to the free end of the extension fingers.

And an uneven portion is formed on an outer surface of the extended finger.

Wherein the fixing body has an insertion hole into which a leading end of a strand is inserted and a fitting groove into which a grip coupled to a leading end of the strand is inserted, a protective cap detachably coupled to a front end of the fixing body, And the narrow end portion is formed at the rear end of the fixing body so as to face the pulling direction of the strand.

The expansion sleeve includes a first expansion sleeve having a first shank portion coupled to the holder and a plurality of first extension fingers extending longitudinally toward the fusing body at the first shank portion; And a second expansion sleeve having a second shank portion supported on an outer surface of the fusing body and a plurality of second extension fingers extending longitudinally toward the holder from the second shank portion, Wherein the wedge body is formed with at least one through hole through which a strand of the wedge body passes, and an outer surface of the wedge body is connected to the first extension finger, And the outer surface of the fixing body is in contact with the inner surface of the second extension finger, and as the fixing body and the wedge body move in a linear direction by pulling of the strand, the first extension finger and the second extension finger The extension fingers are characterized in that they flare toward each other.

And a spacer is provided between the fusing body and the wedge body so as to maintain a constant gap between the fusing body and the wedge body.

A first neck portion having a thickness smaller than that of the first extension finger and the first shank portion is formed at a portion where the first extension finger and the first shank portion are connected, And a second neck portion having a thickness smaller than that of the second extending finger and the second shank portion is formed.

According to the present invention, as the fusing body is linearly moved inside the expansion sleeve by simply pulling the stranded wire and the tapered surface of the fusing body and the inner surface of the extended finger come into contact with each other, the extension finger can be opened very easily in the outer diameter direction So that the fastening operation of the fastening port by the expansion of the expansion sleeve can be performed very easily and quickly so that the extension finger of the expansion sleeve is stuck to the surrounding ground of the hole where the strand is inserted so that the fastening port can be fixed with a very high fixing force Therefore, there is an advantage that a higher tensile force (tensile force) can be provided to the strand.

In addition, according to the present invention, the stiffness of the fixing body can be maintained constantly in front of the holder by the structure in which the stranded wire passes through the through hole of the holder, and the structure, in which the shank of the expansion sleeve is coupled to the holder, The fixing body and the extension sleeve can be kept connected to the holder even if the extension finger of the extension sleeve is excessively extended in the outer diameter direction in the soft ground or the ground where the strength is weak, There is an advantage that it is possible to reliably prevent the joined strand from being separated from the fixing member.

According to the present invention, when the extension finger is pulled out in the outer diameter direction due to pulling of the strand, the neck portion serves as a pivoting point for the extension of the extension finger, so that expansion of the expansion sleeve (expansion finger flaring) There is an advantage that it can be done.

According to the present invention, since the tapered surface of the fixing body and the inclined surfaces of the extended fingers come into contact with each other when the fixing body linearly moves inside the expansion sleeve due to pulling of the strands, the extension fingers can be more easily opened, There is an advantage that the fixing force of the expansion sleeve can be further strengthened.

According to the present invention, since the packaging cap is detachably coupled to the free end of the extended fingers, it is possible to insert the fastening hole into the perforation very securely and accurately at the time of initial construction. In addition, the packaging cap is made of any one material of a material or a rigid material which is easily broken by the spreading force of the expanding fingers when the expansion sleeve expands, As shown in Fig.

According to the present invention, the extended finger can be more firmly fixed by the concave-convex portion when the extended finger is fanned in the outer diameter direction and stuck in the ground around the perforation.

According to the present invention, the leading end of the strand is very firmly coupled through the grip or the like by the insertion hole and the fitting groove of the fixing body, the inside of the fixing body can be safely protected by the protective cap, and the narrow end And is formed at the rear end of the fixing body so as to face the pulling direction of the stranded wire so that the pressing of the inner face of the extended finger is facilitated and the extension of the extending finger can be more effectively guided.

According to the present invention, each of the first expansion sleeve and the second expansion sleeve is extended by the fusing body and the wedge body, so that the fixing sleeve can be fixed to the ground around the perforation with a higher fixing force. Since the widening of the second extension fingers are made to be opposite to each other, the fixing can be more robust.

According to the present invention, the outer surface of the wedge body is brought into contact with the inner surface of the first extension finger by the spacer, and the outer surface of the fixing body is kept in constant contact with the inner surface of the second extension finger, There is an advantage that the opposite opening of the stator can be made very stable.

According to the present invention, when the first and second extension fingers are pulled out in the radial direction due to the pulling of the strand, the first and second neck portions serve as a pivoting point for the widening of the first and second extension fingers So that expansion of the first and second expansion sleeves can be facilitated.

1 is a side view of a fixing anchor for a ground anchor according to an embodiment of the present invention.
2 is a side cross-sectional view illustrating a fixing anchor for a ground anchor according to an embodiment of the present invention.
3 is a cross-sectional view taken along line AA in Fig.
FIG. 4 is a sectional view showing a state in which an expansion sleeve of a fixing anchor for a ground anchor according to the embodiment of FIG. 2 is extended and fixed to the peripheral ground of the perforation. In the case where the packaging cap is a destructible material, And the free ends of the fingers are fully engaged with the peripheries of the perforations as they are fully opened in the outer diameter direction.
FIG. 5 is a sectional view showing a state in which the expansion sleeve of the fixing anchor for a ground anchor according to the embodiment of FIG. 2 is extended and fixed to the peripheral ground of the perforation. When the packaging cap is made of a material having high rigidity, In which the intermediate fingers of the extended fingers are fully extended in the convex outer diameter direction as the free ends of the fingers are not flared, so that they are embedded in the peripheries of the perforations.
6 is a side view illustrating a fixing anchor for a ground anchor according to another embodiment of the present invention.
7 is a side cross-sectional view illustrating a fixing anchor for a ground anchor according to another embodiment of the present invention.
FIG. 8 is a view showing a state in which the expansion sleeve of the fixing anchor for a ground anchor according to another embodiment of the present invention is extended and the extended finger is embedded in the ground around the perforation.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. For reference, the size, line thickness, and the like of the components shown in the drawings referred to in describing the present invention may be somewhat exaggerated for ease of understanding. The terms used in the description of the present invention are defined in consideration of the functions of the present invention, and thus may be changed depending on the user, the intention of the operator, customs, and the like. Therefore, the definition of this term should be based on the contents of this specification as a whole.

1 to 4 are views showing a fixing anchor for a ground anchor according to an embodiment of the present invention.

The fixing anchor 10 for a ground anchor according to the present invention includes at least one fixing body 20 coupled to the front end of a strand 5 and a plurality of stranded wires 5 spaced apart from the fixing body 20 And one or more extension sleeves 40 extending in the outer diameter direction by the fixing body 20. [

The fixing body 20 is formed with a tapered surface 21 on its one outer peripheral surface and a protective cap 22 is detachably coupled to a front end of the fixing body 20 via a screw coupling structure or the like, The tip of the strand 5 and the grip 6 that are joined to the base 20 can be stably protected.

The fixing body 20 has at least one insertion hole 23 into which the distal end of each stranded wire 5 is inserted and a fitting groove 24 is formed in the middle of the insertion hole 23, The diameter of the insertion hole 23 is larger than the diameter of the insertion hole 23. The fixing body 20 is fixed to the distal end of the strand 5 by gripping the grip 6 joined to the tip of the strand 5 through a pressing process or the like into the fitting groove 24. A fixed cone 28 may be fitted on the opposite side of the fitting groove 24 to prevent the strand 5 from coming off.

The outer surface of the strand 5 may be covered with a synthetic resin sheath 5a and the strands 5 may be protected from moisture or moisture by the sheaths 11a and 12a .

The fixing body 25 is detachably coupled to the front end of the fixing body 20 through a fastener or the like so as to press the grip 6 of the strand 5 in the axial direction. The fixing body 20 can be fixed to the tip of the strand 5 very firmly by pressing the grip 6 on both sides by the fixing body 25 and the fitting groove 24. [

The holder 30 has a plurality of through holes 31 through which the stranded wire 5 passes and the holder 30 is disposed at a predetermined distance on the rear side of the fixing body 20. Thus, after the fixing body 20 is engaged with the leading end of the strand 5, the strand 5 passes through the holder 30, and when the strand 5 is pulled (see arrow K in Fig. 2) The fixing body 20 is formed to be larger than the through hole 31 even when the fixing body 20 moves through the through hole 31 of the holder 30, The position can be maintained constantly.

The outer circumferential surface of the holder 30 on the front side is formed with a coupling portion 32 to which the shank portion 41 of the expansion sleeve 40 is detachably coupled. A screw portion is formed on the outer circumferential surface of the coupling portion 32, The inner circumferential surface of the shank portion 41 of the shaft 40 can be removably screwed. A mounting portion 33 on which an anchor structure for supporting the strand 5, such as an inner bottom body, a spacer, etc., is mounted, may be formed on the outer peripheral surface of the rear portion of the holder 30.

The expansion sleeve 40 has a shank portion 41 coupled to the holder 30 and a plurality of extension fingers 42 extending in the longitudinal direction toward the fusing body 20 from the shank portion 41.

The extension sleeve 40 is formed of a hollow hollow body having a hollow interior. A shank portion 41 is formed at one end of the expansion sleeve 40, that is, at a rear end thereof.

The inner circumferential surface of the shank portion 41 is screwed to the engaging portion 32 of the holder 30 so that the expansion sleeve 40 is engaged with the outer peripheral surface of the holder 30 The position can be maintained constant.

The plurality of extension fingers 42 are formed by one or more slits 43 formed in the side wall of the expansion sleeve 40, as shown in Figs. One end of the slit 43 is opened at the front end of the expansion sleeve 40 and the other end of the slit 43 is connected to the other end of the shank 43 The enlarged portion 44 is formed. Since the enlarged portion 44 is formed to have a width larger than the width of the slit 43 like a circular shape, a plurality of the extended fingers 42 can be smoothly spread outwardly.

2, the fixing body 20 is moved along the pulling direction (see arrow K in Fig. 2) of the strand 5 to the inside of the extension sleeve 40 The plurality of extension fingers 42 move in the radial direction with respect to the fingers 41 as the tapered surface 21 of the fixing body 20 presses the inner surfaces of the plurality of extension fingers 42, And the plurality of extension fingers 42 are stuck into the perimeter ground of the perforation 1 as shown in Fig. 4, so that the fixing port 10 can be fixed with high fixing force at the perforation 1.

In particular, the tapered surface 21 of the fixing body 20 can be formed at the rear end of the fixing body 20 such that the narrow end portion 21a thereof faces the pulling direction of the strand. Since the narrow end portion 21a of the tapered surface 21 is formed at the rear end of the fixing body 20 so as to face the pulling direction of the strand 5, the pressing of the inner side of the enlarging finger 42 is facilitated There is an advantage that the fingers 42 can be guided more effectively in the outer diameter direction.

An inclined surface 46 contacting the tapered surface 21 of the fixing body 20 may be formed on the inner surface of the extended finger 42, particularly, on the inner surface of the free end of the extended finger 42. The tapered surface 21 of the fixing body 20 and the inclined surface 46 of the extended finger 42 are mutually engaged with each other when the fixing body 20 linearly moves inside the expansion sleeve 40 by pulling the strand 5. The extension fingers 42 can be more easily extended as they are brought into contact with each other, so that the fixing force of the expansion sleeve 40 can be further strengthened.

A neck portion 45 is formed at a portion where the extended finger 42 and the shank portion 41 are connected to each other and the neck portion 45 is formed to have a thinner thickness than the extended finger 42 and the shank portion 41 . As the fixing body 20 is pulled by the pulling of the strand 5, when the extended finger 42 is extended in the outer diameter direction, the neck portion 45 is pivoting about the extension of the extended finger 42 point (extension) of the extension sleeve (extension finger spread) can be easier.

On the other hand, the packaging cap 47 may be detachably coupled to the free ends of the extended fingers 42. [ As the package cap 47 is coupled to the free ends of the extended fingers 42, the insertion of the expansion sleeve 40 can be made simpler and more precise when the fixture 10 is inserted into the perforation 1 during the initial construction have.

According to one embodiment of Fig. 4, the packaging cap 47 is made of a material such as plastic, aluminum alloy or the like that can be easily broken when the extension finger 42 is opened. 4, the packaging cap 47 is easily broken by the expanding force of the expanding fingers 42, so that the free ends of the expanding fingers 42 are separated from each other in the radial direction And the expansion sleeve 40 is fixed to the peripheral ground of the perforation 1 by being stuck to the peripheral ground of the perforation 1. [ Here, the free ends of the extended fingers 42 are smoothly expanded in the outer diameter direction by the breaking of the packaging cap 47, so that the expansion sleeve 40 can be firmly fixed. 4, it is preferable that the embodiment of FIG. 4 is applied to a case where the extended fingers 42 are to be fixed to the peripheral ground of the perforation 1 in a weak ground as the free ends of the extended fingers 42 expand outwardly Do.

According to an alternative embodiment of FIG. 5, the packaging cap 47 may be made of a material that is high in rigidity, such as mild steel, carbon steel, etc., and is not easily broken when the extension finger 42 is opened. 5, since the packaging cap 47 is not broken by the opening force of the extension finger 42 at the time of expanding the expansion sleeve 40, the shape of the package at the free end of the extension finger 42 So that the free ends of the extension fingers 42 are prevented from spreading in the radial direction so that each of the extension fingers 42 is deformed convexly toward the peripheral ground of the perforation 1, 42 are stuck to the peripheral ground of the perforation 1, so that the expansion sleeve 40 can be firmly fixed. 5 is applied to the case where the extension finger 42 is to be fixed to the peripheral ground of the perforation 1 in the relatively high strength ground as the middle portion of the extension fingers 42 is deformed convexly desirable.

The extended finger 42 is formed on the outer surface of the extended finger 42. When the extended finger 42 is extended in the outer diameter direction as shown in FIG. 4 and is stuck in the peripheral ground of the perforation 1, So that it can be more firmly fixed by the concave and convex portions 48.

The fixing body 20 is linearly moved inside the expansion sleeve 40 by the operation of pulling the strand 5 so that the tapered surface 21 of the fixing body 20 is moved to the extended finger 42, The fixing finger 42 can be opened easily in the outer diameter direction by pressing the inner surface of the fixing sleeve 40. Therefore, the fixing operation of the fixing port 10 due to the expansion of the expansion sleeve 40 can be made very simple and quick, The extension fingers 42 of the expansion sleeve 40 can be fixed to the peripheral ground of the perforation 1 in which the strand 5 is inserted so that the fixture 10 can be fixed with a very high fixing force, There is an advantage that a high tensile force (tensile force) can be provided.

Further, in the present invention, the structure in which the stranded wire 5 passes through the through hole 31 of the holder 30 allows the fixing body 20 to be maintained in a fixed position in front of the holder 30, The position of the expansion sleeve 40 on the outer peripheral surface of the holder 30 is kept constant by the structure in which the shank portion 41 of the expansion sleeve 40 is coupled to the engagement portion 32 of the holder 30, The fixing body 20 and the extension sleeve 40 can be maintained connected to the holder 30 even if the extension finger 41 of the expansion sleeve 40 is excessively expanded in the outer diameter direction in the ground or the ground where the strength is weak There is an advantage that the strand 5 coupled to the fixing body 20 can be surely prevented from being detached from the fixing port 10 of the present invention.

5 to 7 illustrate a fixing anchor for a ground anchor according to another embodiment of the present invention.

5 to 7, the expansion sleeves 40 and 50 of the fixing anchor 10 for ground anchor according to another embodiment of the present invention include a first expansion sleeve 40 and a second expansion sleeve 40, A wedge body 60 is disposed between the fixing body 20 and the holder 30 and the outer surface of the wedge body 60 is in contact with the inner surface of the first extension finger 42, The outer surface of the fixing body 20 is in contact with the inner surface of the second extension finger 52.

The first expansion sleeve 40 includes a first shank portion 41 coupled to the holder 30 and a plurality of first extension fingers 41 extending longitudinally toward the fusing body 20 from the first shank portion 41 42).

The first shank portion 41 is formed at the rear end of the first expansion sleeve 40 and has a female screw portion formed on the inner circumferential surface of the first shank portion 41. The inner circumferential surface of the first shank portion 41 is supported by the holder 30 The first expansion sleeve 40 can be held at a constant position on the outer circumferential surface of the holder 30 by screwing into the engagement portion 32 of the holder 30.

The plurality of first extending fingers 42 are formed by at least one first slit 43 formed on the side wall of the first expansion sleeve 40. The first slit 43 is elongated in the longitudinal direction on the side wall of the first expansion sleeve 40. One end of the first slit 43 is opened at the front end of the first expansion sleeve 40, The first enlarged portion 44 is formed at the other end of the first shank portion 43 adjacent to the first shank portion 41. [ The first enlarged portion 44 is formed to have a width larger than the width of the first slit 43, such as a circular shape, so that the plurality of first extended fingers 42 can be smoothly spread outwardly.

A first inclined surface 46 contacting the tapered surface 61 of the wedge body 60 may be formed on the inner surface of the free end of the first extended finger 42. The tapered surface 21 of the fusing body 20 and the inclined surface 46 of the extended finger 42 when the fusing body 20 linearly moves inside the extension sleeve 40 due to the pulling of the strand 5, The extension fingers 42 can be easily opened, so that the fixing force of the expansion sleeve 40 can be further strengthened.

A first neck portion 45 is formed at a portion where the first extension finger 42 and the first shank portion 41 are connected to each other and the first neck portion 45 is connected to the first extension finger 42 And the first shank portion 41, as shown in Fig. 6, when the wedge body 60 is pulled by pulling the strand 5, when the first extension finger 42 is extended in the outer diameter direction, the first neck portion 45 is engaged with the first extension finger The extension of the extension sleeve (extension of the extended finger) can be facilitated by acting as a pivoting point for the widening of the extension sleeve.

The first extended finger 42 is formed on the outer surface of the first extended finger 42. When the first extended finger 42 flares in the outer diameter direction and is stuck in the peripheral ground of the perforation, The first concavo-convex portion 48 can be more firmly fixed.

The second expansion sleeve 50 includes a second shank portion 51 supported on the outer surface of the fusing body 20 and a plurality of second shanks 51 extending in the longitudinal direction from the second shank portion 51 toward the holder 30. [ And has a finger 52.

The second shank portion 51 is formed at a front end of the second expansion sleeve 50. An inclined surface 56 is formed on the inner circumferential surface of the second shank portion 51. The inclined surface 56 of the second shank portion 51 56 are held in contact with the tapered surface 21 of the fixing body 20.

The plurality of second extending fingers 52 are formed by one or more second slits 53 formed on the side wall of the second expansion sleeve 50. The second slit 53 is elongated in the longitudinal direction on the side wall of the second expansion sleeve 50. One end of the second slit 53 is opened at the rear end of the second expansion sleeve 50, And the second enlarged portion 54 is formed at the other end of the second shank portion 53 adjacent to the second shank portion 51. The second enlarged portion 54 is formed to have a width larger than the width of the second slit 53 like a circular shape, so that the plurality of second extending fingers 52 can be more smoothly spread outwardly.

A neck portion 55 is formed at a portion where the second extension finger 52 and the second shank portion 51 are connected to each other and a second neck portion 55 is formed at a portion where the second extension finger 52 And the second shank portion 51, respectively. 7, when the fixing body 20 is pulled by pulling the strand 5, when the second extending finger 52 is opened in the outer diameter direction, the second neck portion 55 is pulled out from the second extending finger The extension of the extension sleeve can be facilitated by acting as a pivoting point for the widening of the extension sleeve (52).

The second extension finger 52 is formed on the outer surface of the second extension finger 52. When the second extension finger 52 flares in the outer diameter direction and is stuck in the peripheral ground of the hole, The second concavo-convex part 58 can be more firmly fixed.

The wedge body 60 has at least one tapered surface 61 formed on the outer peripheral surface thereof and a pair of tapered surfaces 61 are formed on the front and rear outer peripheral surfaces of the wedge body 60, As shown in FIG. The wedge body (60) has at least one through hole (62) through which the strand (5) passes.

6, when the fixing body 20 and the wedge body 60 are pulled in the direction of pulling the stranded wire 5 (see arrow K direction in FIG. 6) As shown in FIG. 7, the wedge body 60 is expanded in the outer diameter direction by pressing the inner surface of the first extension finger 42, and the fixing body 20 presses the inner surface of the second extension finger 52 And is opened in the outer diameter direction. At this time, the first extension finger 42 and the second extension finger 52 are opened in directions opposite to each other.

The first expansion sleeve 40 and the second expansion sleeve 50 are each extended by the fusing body 20 and the wedge body 60 so that they are fixed to the peripheral ground of the perforation 5 with a higher fixing force In particular, since the widening of the first extension finger 42 and the second extension finger 52 are made to be opposite to each other, there is an advantage that the fixing can be more firmly performed.

6, the front end of the first expansion sleeve 40 is inserted and connected to the inside of the rear end of the second expansion sleeve 50 before the expansion of the first and second expansion sleeves 40 and 50, When the first and second expansion sleeves 40 and 50 are extended, the first and second expansion sleeves 40 and 50 are extended in the mutually opposing directions as shown in FIG. 7, And the rear ends of the first and second expansion sleeves 50 are spaced from each other.

A spacer 70 is interposed between the fixing body 20 and the wedge body 60 and at least one through hole 71 through which the stranded wire 5 passes is formed in the spacer 70.

 The gap between the fixing body 20 and the wedge body 60 is kept constant by the spacer 70 so that the outer surface of the wedge body 60 contacts the inner surface of the first extension finger 42, The outer surface of the second extension finger 20 can maintain a constant contact with the inner surface of the second extension finger 52, thereby allowing the opposite extension of the first and second extension fingers 42 and 52 to be made very stable There are advantages.

The rest of the configuration and operation are the same as or similar to those of the preceding embodiment, and a detailed description thereof will be omitted.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. .

10: Fixing hole for ground anchor 20: Fixing body
30: holder 40, 50: expansion sleeve
41, 51: shank portion 42, 52: extension finger
60: wedge body 70: spacer

Claims (3)

At least one fusing body coupled to the leading edge of the strand;
A holder disposed spaced apart from the fusing body, the holder having at least one through-hole through which the strands pass; And
An extension sleeve having a shank coupled to the holder and a plurality of extension fingers extending longitudinally toward the fusing body in the shank,
The tapered surface of the fixing body presses the inner surface of the extension finger of the expansion sleeve as the fixing body moves linearly in the expansion sleeve due to pulling of the strand of the extension sleeve, Wherein the fixing anchor for the ground anchor is extended. The method according to claim 1,
And a neck portion having a thickness smaller than that of the extension finger and the shank portion is formed at a portion where the extension finger and the shank portion are connected. The method according to claim 1,
The expansion sleeve including a first expansion sleeve having a first shank portion coupled to the holder and a plurality of first extension fingers extending longitudinally toward the fusing body at the first shank portion; And
And a second extension sleeve having a second shank portion supported on the outer surface of the fusing body and a plurality of second extension fingers extending in the longitudinal direction toward the holder from the second shank portion,
Wherein the wedge body is disposed between the fixing body and the holder and the wedge body is formed with at least one through hole through which a strand of the wedge body passes,
Wherein an outer surface of the wedge body is in contact with an inner surface of the first extension finger and an outer surface of the fixing body is in contact with an inner surface of the second extension finger and the fixation body and the wedge body are moved in a linear direction Wherein the first extension finger and the second extension finger are flared with respect to each other as the first and second extension fingers move.

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