KR102272347B1 - Composite anchor with wire anchor and construction method thereof - Google Patents

Abstract

The present invention relates to a composite anchor with a wire anchor that can be installed to satisfy an anchor function required from the design standard without interfering with upper reinforcement bars while minimizing a concrete crushing amount because the embedded length of an anchor body can be shortened within a covering thickness range of the upper part of a substructure and to a construction method thereof. The present invention provides a composite anchor with the wire anchor, comprising: a cylindrical anchor body; the wire anchor coupled to the outside of the anchor body and radially arranged to be inclined to a downward outer side, while being formed of a wire member that can be freely bent; and a ring shaped fixing ring which is coupled to the outside of the anchor body and to which the wire anchor is fixed, wherein a plurality of through holes communicating with the outside are formed in the fixing ring, and one wire anchor is bent in a pair of adjacent through holes such that both ends of the wire anchor protrude to the outside of the fixing ring or a U-shaped insertion groove having both ends which communicate with the outside of the fixing ring, is formed on the upper surface of the fixing ring and the center of the wire anchor is provided to be forcefully fit-inserted into the insertion groove such that both ends of the wire anchor protrude to the outside of the fixing ring.

Description

Composite anchor with wire anchor and construction method thereof

The present invention is provided with a wire anchor that can be installed to satisfy the anchor function required by the design standard without interfering with the upper reinforcing bars while minimizing the amount of concrete crushing by shortening the embedded length of the anchor body within the covering thickness range of the upper part of the substructure. to a composite anchor and its construction method.

The bridge bearing is provided on the upper part of the bridge's lower structure, such as a pier or abutment, to support the bridge's upper structure, such as a girder or a bridge top plate, and is a device that alleviates the impact applied to the bridge's upper structure.

Such bridge bearings are inevitably deteriorated or damaged during use, so repair or replacement work is essential during use.

In order to fix the sole plate, etc. when replacing the bridge support, anchors are usually embedded in the lower structure by 150mm or more.

However, in order to secure such an embedded length, the amount of crushed concrete in the lower structure increases, and there is a difficulty in removing concrete due to interference with the upper reinforcing bars. Accordingly, in the field, only the upper part of the upper rebar is crushed and removed, the anchor is cut and welded to the upper reinforcing bar, and then the concrete is poured to finish it.

However, in this case, the horizontal force cannot be stably supported due to the lack of embedding length. In addition, there is a risk that the sole plate may be lifted or various types of concrete destruction including shearing or acupressure may occur.

US 10-1230599 B1

In order to solve the above problems, the present invention is to provide a composite anchor equipped with a wire anchor that can satisfy the embedding length within the covering thickness range of the upper part of the lower structure while maintaining the anchor function required by the design standards, and a construction method thereof do.

The present invention according to a preferred embodiment is a cylindrical anchor body; A wire anchor that is coupled to the outside of the anchor body and is radially arranged to be inclined downwardly and outwardly, and is formed of a wire member that can be bent freely; and a ring-shaped fixing ring coupled to the outside of the anchor body to which the wire anchor is fixed. A plurality of through-holes communicating to the outside are formed in the fixing ring, and one wire anchor is bent in a pair of adjacent through-holes so that both ends of the wire anchor protrude to the outside of the fixing ring, or the fixing ring A U-shaped insertion groove in which both ends communicate with the outside of the fixing ring is formed on the upper surface of the wire anchor, and the center of the wire anchor is inserted into the insertion groove by force fitting so that both ends of the wire anchor protrude to the outside of the fixing ring It provides a composite anchor equipped with a wire anchor, characterized in that.

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The present invention according to another preferred embodiment is characterized in that the anchor body is composed of an anchor socket having an open upper part and an anchor bolt inserted into the open upper part of the anchor socket and screwed into the lower part of the anchor socket. It provides a composite anchor equipped with a wire anchor to

The present invention according to another preferred embodiment provides a composite anchor with a wire anchor, characterized in that a spacer for fixing the lower position of the wire anchor is provided outside the anchor body under the fixing ring.

The present invention according to another preferred embodiment provides a composite anchor provided with a wire anchor, characterized in that the fixing end is provided at the lower end of the wire anchor.

The present invention according to another preferred embodiment provides a composite anchor provided with a wire anchor, characterized in that the wire anchor is arranged in a plurality of stages so as to be spaced up and down.

The present invention according to another preferred embodiment relates to a construction method of a composite anchor provided with the wire anchor, comprising the steps of: (a) removing a part of the concrete of the lower structure to form an insertion hole; (b) installing the anchor body provided with an external wire anchor in the insertion hole so that the upper end of the anchor body protrudes upward, and filling the insertion hole with non-shrink mortar to fix the composite anchor; (c) installing a base plate on the upper part of the lower structure so that the upper end of the anchor body protrudes upward; and (d) fixing the base plate by fastening a fixing nut to the upper end of the anchor body; It provides a construction method of a composite anchor provided with a wire anchor, characterized in that consisting of.

The present invention according to another preferred embodiment relates to a construction method of a composite anchor provided with the wire anchor, comprising the steps of: (a) installing the composite anchor at a location where the lower structure is to be constructed; (b) pouring concrete to form a lower structure so that the upper end of the anchor body protrudes upwardly around the composite anchor; (c) installing a base plate on the upper part of the lower structure so that the upper end of the anchor body protrudes upward; and (d) fixing the base plate by fastening a fixing nut to the upper end of the anchor body; It provides a construction method of a composite anchor provided with a wire anchor, characterized in that consisting of.

The present invention according to another preferred embodiment relates to a construction method of a composite anchor provided with the wire anchor, comprising the steps of: (a) removing a part of the concrete of the lower structure to form an insertion hole; (b) installing the anchor socket provided with a wire anchor to the outside in the insertion hole, filling the insertion hole with non-shrinkage mortar and fixing it; (c) installing a base plate on the upper part of the lower structure; And (d) fixing the base plate by coupling the anchor bolt to the anchor socket through the base plate; It provides a construction method of a composite anchor provided with a wire anchor, characterized in that consisting of.

The present invention according to another preferred embodiment relates to a method of constructing a composite anchor provided with the wire anchor, comprising the steps of: (a) installing the anchor socket provided with a wire anchor to the outside at a location where the lower structure will be constructed; (b) pouring concrete to form a lower structure around the anchor socket; (c) installing a base plate on the upper part of the lower structure; And (d) fixing the base plate by coupling the anchor bolt to the anchor socket through the base plate; It provides a construction method of a composite anchor provided with a wire anchor, characterized in that consisting of.

According to the present invention, it is possible to provide a composite anchor provided with a wire anchor and a construction method thereof, which is configured by disposing a plurality of wire anchors that are arranged to be inclined downwardly and outwardly on the outside of the anchor body.

Therefore, since a plurality of wire anchors, which are wire members having a smaller diameter than the anchor body, are provided, it is possible to maximize the fixing performance by maximizing the contact area with the concrete embedded in the concrete of the lower structure.

As a result, the embedding length of the anchor body can be shortened within the cover thickness of the upper part of the substructure, so the anchor can be installed to satisfy the anchor function required by the design standard without interfering with the upper reinforcing bars while minimizing the amount of crushing concrete in the lower structure. Do.

In addition, since the wire anchor is formed to be inclined radially downward and outward, the anchor stress is dispersed in a wide range, thereby preventing concrete destruction due to stress concentration around the anchor.

1 is a perspective view showing a composite anchor provided with the present invention wire anchor.
Figure 2 is a cross-sectional view showing the present invention composite anchor and the existing anchor.
Figure 3 is a perspective view showing an embodiment of the fixing ring.
Figure 4 is a perspective view showing another embodiment of the fixing ring.
Figure 5 is a perspective view showing a wire anchor coupled to the fixing ring of Figure 4;
Figure 6 is a perspective view showing another embodiment of the fixing ring.
Figure 7 is a perspective view showing a wire anchor coupled to the fixing ring of Figure 6;
8 is a perspective view of a composite anchor including an anchor body composed of an anchor socket and an anchor bolt;
9 is an exploded perspective view showing the coupling relationship of the composite anchor shown in FIG.
Fig. 10 is a perspective view showing an embodiment of a spacer;
11 is a perspective view showing a composite anchor provided with a spacer.
12 is a front view showing a composite anchor provided with an anchoring end.
13 is a perspective view showing a composite anchor provided in multiple stages with wire anchors.
Figure 14 is a view showing an embodiment of the construction method of the bolt-type composite anchor.
Figure 15 is a view showing another embodiment of the construction method of the bolt-type composite anchor.
Figure 16 is a view showing an embodiment of the construction method of the socket-type composite anchor.
17 is a view showing another embodiment of the construction method of the socket-type composite anchor.

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

Figure 1 is a perspective view showing a composite anchor provided with the present invention wire anchor, Figure 2 is a cross-sectional view showing the present invention composite anchor and the existing anchor.

As shown in Figures 1, 2, etc., the present invention wire anchor is provided with a composite anchor is a cylindrical anchor body (4); and a wire anchor 5 coupled to the outside of the anchor body 4 and disposed in a radially inclined downward direction, which is formed of a wire member that can be bent freely; It is characterized in that it is composed of

An object of the present invention is to provide a composite anchor equipped with a wire anchor that can be installed at an embedded length within the covering thickness range of the upper part of the lower structure while satisfying the anchor function required by the design standards, and a construction method thereof.

The present invention is applicable not only to the bridge support, but also to other structures for fixing anchors to the base plate 2, such as bridge inspection passages, sound barrier posts, street lights, and traffic signs.

The composite anchor (3) is composed of an anchor body (4) and a wire anchor (5).

The anchor body 4 is configured in a cylindrical shape.

The anchor body 4 may use an anchor bolt, an L-shaped anchor, etc. having a fixing head 41 having an enlarged diameter at the bottom.

The anchor body (4) is embedded in the concrete of the lower structure (1), the upper end protrudes to the upper portion of the lower structure (1) by a certain length.

After the base plate 2 is installed on the upper part of the lower structure 1, the anchor body 4 penetrates the base plate 2 and the fixing nut 8 is fastened to the part protruding to the upper part of the lower structure 1 To fix the base plate (2).

A plurality of the wire anchors 5 are coupled to the outside of the anchor body 4 , and are radially inclined outwardly downward.

That is, a plurality of wire anchors 5 provided to be inclined downwardly and outwardly are radially disposed on the outside of the anchor body 4 and are embedded in the concrete of the lower structure 1 .

Since a plurality of wire anchors 5, which are wire members having a diameter smaller than that of the anchor body 4, are provided, it is possible to maximize the fixing performance by maximizing the contact area with concrete.

In addition, since the wire anchor 5 together with the anchor body 4 exerts fixing power, the embedding length of the anchor body 4 can be shortened by up to 50%.

That is, as shown in Figure 2, the present invention composite anchor (3) can significantly shorten the anchorage length compared to the existing anchor (30). In Figure 2, L _d1 and L _d2 represent the anchorage length of the present invention composite anchor (3) and the existing anchor (30), respectively.

In addition, the wire anchor 5 is radially downwardly inclined outwardly and embedded in a wide range of concrete. Therefore, the stress of the anchor is dispersed, and the concrete destruction caused by the stress concentration around the anchor can be prevented.

Since the wire anchor 5 is a wire member, coupling with the anchor body 4 and slanting arrangement are easy, and the embedding length can be freely extended by bending in the horizontal direction.

In addition, it is possible to install anchors after removing concrete without interfering with upper reinforcing bars while minimizing the amount of crushing concrete in the lower structure.

The wire anchor 5 may use a stranded wire or carbon fiber rope produced by twisting several lines of steel wire. Alternatively, a strand of a strand produced by twisting a plurality of strands may be used.

Since the surface of the wire anchor 5 is uneven, it can exhibit excellent anchoring power in concrete.

If necessary, carbon fiber or steel fiber may be mixed into the strand to increase the anchoring force of the wire anchor 5 so that the residual fibers of the fiber protrude.

Figure 3 is a perspective view showing an embodiment of the fixing ring.

1 and 3 , a ring-shaped fixing ring 6 is coupled to the outside of the anchor body 4 , and the wire anchor 5 may be coupled to the fixing ring 6 .

The wire anchor (5) can be directly fixed to the anchor body (4).

However, in this case, the fixing operation of the wire anchor 5 is cumbersome and it may be difficult to secure a strong fixing force.

Therefore, it is possible to couple the fixing ring 6 to the outside of the anchor body 4 , and connect the wire anchor 5 to the fixing ring 6 .

The fixing ring 6 may be fixed to the outside of the anchor body 4, and by adjusting the installation height of the fixing ring 6 by screwing to the outside of the anchor body 4 as shown in FIG. 1, the wire anchor 5 It is possible to adjust the installation position of

A screw thread is formed on the outer peripheral surface of the anchor body 4 , and a female thread is formed on the inner peripheral surface of the fixing ring 6 , so that the fixing ring 6 can be screwed to the outside of the anchor body 4 .

Therefore, the installation of the fixing ring 6 is easy, and the height of the fixing ring 6 can be easily adjusted, which is convenient.

1 and 3, a plurality of through-holes 61 communicating with the outside are formed in the fixing ring 6, and the wire anchor 5 is penetrated through the through-holes 61 and both ends It may be provided to protrude to the outside of the fixing ring (6).

The wire anchor 5 can be fixed to the fixing ring 6 by welding. However, the welding process is cumbersome, and there is a risk of plastic deformation of the member due to the heat of welding.

Therefore, a plurality of through-holes 61 communicating with the outside of the fixing ring 6 may be formed in the fixing ring 6 , and the wire anchors 5 may be penetrated through each of the through-holes 61 to be coupled.

The through hole 61 may be formed to be inclined at an angle corresponding to the installation angle of the wire anchor 5 .

One end of the wire anchor 5 is caught on one side of the through hole 61 , and the other end protrudes through the through hole 61 and is fixed to the outside.

Figure 4 is a perspective view showing another embodiment of the fixing ring, Figure 5 is a perspective view showing a wire anchor coupled to the fixing ring of FIG.

4 and 5, one wire anchor 5 may be bent and inserted into a pair of adjacent through-holes 61.

One wire anchor 5 is bent into a U-shape in two adjacent through-holes 61 , and both ends are inserted into the through-holes 61 to protrude to the outside. That is, it is possible to form two feet with one wire anchor (5).

The adjacent through-holes 61 are formed so that the inner ends communicate with each other and open to the upper portion of the fixing ring 6 .

Depending on the position of the through hole 61, the angle as well as the installation position of the wire anchor 5 can be fixed.

The through hole 61 may be formed in the side or lower surface of the fixing ring 6 .

Figure 6 is a perspective view showing another embodiment of the fixing ring, Figure 7 is a perspective view showing a wire anchor coupled to the fixing ring of FIG.

6 and 7, on the upper surface of the fixing ring 6, a U-shaped insertion groove 62 in which both ends communicate with the outside of the fixing ring 6 is formed, and the wire anchor 5 ) may be provided so that both ends protrude to the outside of the fixing ring 6 by being inserted into the insertion groove 62 by force fitting.

An insertion groove 62 is formed on the upper surface of the fixing ring 6 to a predetermined depth, and the wire anchor 5 is inserted into the insertion groove 62 to be fixed.

The insertion groove 62 may form a narrow C-shaped cross-section at the entrance, and fix the wire anchor 5 to the insertion groove 62 by force fitting.

At this time, the insertion groove 62 is formed in a U-shape whose end communicates with the outside of the fixing ring 6 , and the wire anchor 5 is bent in a U shape to easily fit the bent part into the insertion groove 62 . can be combined

8 is a perspective view of a composite anchor including an anchor body composed of an anchor socket and an anchor bolt, and FIG. 9 is an exploded perspective view illustrating the coupling relationship of the composite anchor shown in FIG.

8 and 9, the anchor body 4 is inserted into the open upper part of the anchor socket 42 and the anchor socket 42 of the cylindrical shape having an open upper part, so that the lower part is the anchor socket 42. ) may be composed of an anchor bolt 43 screwed to the inside.

In general, the bridge bearing is often constructed integrally by first fixing the anchor to the base plate (2), which is a sole plate.

To this end, the anchor body 4 may be separated into an anchor socket 42 and an anchor bolt 43 .

After installing the anchor socket 42 of a cylindrical shape with an open top, the base plate 2 is installed on the top of the anchor socket 42 . Then, the anchor body 4 and the base plate 2 can be integrated by screwing the anchor bolt 43 into the anchor socket 42 through the base plate 2 (FIG. 2).

Before assembly of the base plate (2), the fixing ring (6) and the wire anchor (5) are pre-assembled on the outside of the anchor socket (42).

10 is a perspective view illustrating an embodiment of a spacer, and FIG. 11 is a perspective view illustrating a composite anchor provided with a spacer.

As shown in FIGS. 10 and 11 , a spacer 7 for fixing the lower position of the wire anchor 5 may be provided outside the anchor body 4 under the fixing ring 6 .

Even if the position and inclination angle of the wire anchor 5 are fixed by the fixing ring 6, the lower end of the wire anchor 5 is a free end, so the angle of the wire anchor 5 may be changed during concrete pouring.

Therefore, a spacer 7 may be provided on the outside of the anchor body 4 at the lower position of the fixing ring 6 so as to fix the lower end of the wire anchor 5, which is the free end.

As shown in FIG. 10 , the spacer 7 includes an inner ring 71 , an outer ring 72 provided to be spaced apart from the inner ring 71 , and a connecting bar 73 connecting the inner and outer rings 71 and 72 . ) can be composed of

The inner ring 71 is coupled to the outside of the anchor body 4 .

The lower end of the wire anchor 5 is fixed to the outer ring 72 .

The inner ring 71 may be fixed by screwing to the anchor body 4 or simply mounted on the fixing head 41 under the anchor body 4 .

However, since the outer ring 72 is fixed to the lower end of the wire anchor 5 to fix the vertical position of the spacer 7 , it is not necessary to separately fix the inner ring 71 to the outside of the anchor body 4 . Do.

The wire anchor 5 may be fixed by knotting the outer ring 72 by loosening the lower end of the steel wire.

The spacer 7 may be made of a synthetic resin material.

12 is a front view showing a composite anchor provided with an anchoring end.

As shown in FIG. 12 , a fixing end 51 may be provided at the lower end of the wire anchor 5 .

In order to maximize the anchoring force of the wire anchor 5, a fixing end 51 may be formed at the lower end of the wire anchor 5 to increase the attachment area.

The fixing end 51 may be formed by tying the lower end of the wire anchor 5 to enlarge the lower end.

Alternatively, it is also possible to form the anchoring end 51 by forming the lower end of the wire anchor 5 in a ring shape, or by loosening the end strands to increase the attachment area with the concrete.

13 is a perspective view showing a composite anchor provided in multiple stages with wire anchors.

13, the wire anchors 5 may be arranged in a plurality of stages so as to be vertically spaced apart.

The wire anchor 5 can be formed in a plurality of stages spaced up and down according to the size of the required fixing force.

The wire anchor 5 at each end can be arranged by freely adjusting the inclination angle according to the embedding depth.

Figure 14 is a view showing an embodiment of the construction method of the bolt-type composite anchor.

14 (a) to (d), the construction method of the composite anchor provided with the wire anchor of the present invention described above with reference to FIGS. 1 and 2 is shown.

The method of constructing a composite anchor provided with a wire anchor of the present invention includes the steps of (a) removing a part of the concrete of the lower structure 1 to form an insertion hole 11; (b) the anchor body 4 provided with a wire anchor 5 on the outside is installed in the insertion hole 11 so that the upper end of the anchor body 4 protrudes upward, and the inside of the insertion hole 11 Filling the non-shrinkable mortar 12 to fix the composite anchor (3); (c) installing the base plate (2) on the upper part of the lower structure (1) so that the upper end of the anchor body (4) protrudes upward; And (d) fixing the base plate (2) by fastening the fixing nut (8) to the upper end of the anchor body (4); It is characterized in that it is composed of

This is about a method of constructing a bolt-type composite anchor to replace the bridge support of the existing bridge superstructure.

Steps (a) to (d) can be confirmed in (a) to (d) of FIG. 14 , respectively.

15 is a view showing another embodiment of the construction method of the bolt-type composite anchor.

15 (a) to (d) shows the construction method of the composite anchor provided with the wire anchor of the present invention described above with reference to FIGS. 1 and 2 .

The embodiment of Figure 15 is for a method of newly constructing a bolt-type composite anchor, unlike the embodiment of Figure 14.

The method of construction of a composite anchor equipped with a wire anchor of the present invention includes the steps of (a) installing the composite anchor (3) at a location where the lower structure (1) is to be constructed; (b) pouring concrete to form a lower structure (1) so that the upper end of the anchor body (4) protrudes upwardly around the composite anchor (3); (c) installing the base plate (2) on the upper part of the lower structure (1) so that the upper end of the anchor body (4) protrudes upward; And (d) fixing the base plate (2) by fastening the fixing nut (8) to the upper end of the anchor body (4); It is characterized in that it is composed of

Likewise, steps (a) to (d) can be confirmed in (a) to (d) of FIG. 15 , respectively.

16 is a view showing an embodiment of the construction method of the socket-type composite anchor.

16 (a) to (d) shows the construction method of the composite anchor provided with the wire anchor of the present invention described above with reference to FIGS. 8 and 9 .

The method of constructing a composite anchor provided with a wire anchor of the present invention includes the steps of (a) removing a part of the concrete of the lower structure 1 to form an insertion hole 11; (b) installing the anchor socket 42 provided with a wire anchor 5 on the outside in the insertion hole 11, and filling and fixing the non-shrinkable mortar 12 in the insertion hole 11 step; (c) installing a base plate (2) on the upper portion of the lower structure (1); And (d) fixing the base plate (2) by coupling the anchor bolt to the anchor socket through the base plate (2); It is characterized in that it is composed of

This relates to a method of constructing a socket-type composite anchor in which the anchor body 4 is screwed between the anchor socket 42 and the anchor bolt 43 for replacement of the bridge support of the existing bridge upper structure.

Steps (a) to (d) can be confirmed in (a) to (d) of FIG. 16 , respectively.

17 is a view showing another embodiment of the construction method of the socket-type composite anchor.

17 (a) to (d) shows the construction method of the composite anchor provided with the wire anchor of the present invention described above with reference to FIGS. 8 and 9 .

The embodiment of Figure 17 is for a method of newly constructing a socket-type composite anchor, unlike the embodiment of Figure 16.

The method of constructing a composite anchor with a wire anchor of the present invention comprises the steps of (a) installing the anchor socket 42 provided with a wire anchor 5 on the outside at a location where the lower structure 1 is to be constructed; (b) pouring concrete to form a lower structure (1) around the anchor socket; (c) installing a base plate (2) on the upper portion of the lower structure (1); And (d) fixing the base plate (2) by coupling the anchor bolt to the anchor socket through the base plate (2); It is characterized in that it is composed of

Steps (a) to (d) can be confirmed in (a) to (d) of FIG. 17 , respectively.

1: Substructure 11: Insertion hole
12: non-shrink mortar 2: base plate
3: Composite Anchor 30: Conventional Anchor
4: anchor body 41: fixing head
42: anchor socket 43: anchor bolt
5: wire anchor 51: anchoring end
6: Retaining ring 61: Through hole
62: insertion groove 7: spacer
71: inner ring 72: outer ring
73: connecting bar 8: fixing nut

Claims (13)

Anchor body (4) in the form of a cylinder;
A wire anchor (5) coupled to the outside of the anchor body (4) and disposed in a radially inclined downward direction, which is formed of a wire member that can be bent freely; and
A ring-shaped fixing ring (6) coupled to the outside of the anchor body (4) to which the wire anchor (5) is fixed; is composed of
A plurality of through-holes 61 communicating with the outside are formed in the fixing ring 6 , and one wire anchor 5 is bent in a pair of adjacent through-holes 61 , so that both ends of the wire anchor 5 are bent. It protrudes to the outside of the fixing ring (6), or
A U-shaped insertion groove 62 in which both ends communicate with the outside of the fixing ring 6 is formed on the upper surface of the fixing ring 6 , and the center of the wire anchor 5 is in the insertion groove 62 . Composite anchor provided with a wire anchor, characterized in that it is inserted by interference fit and provided so that both ends of the wire anchor (5) protrude to the outside of the fixing ring (6).
delete delete delete delete In claim 1,
The anchor body 4 includes an anchor socket 42 of a cylindrical shape with an open upper portion and an anchor bolt 43 inserted into the open upper portion of the anchor socket 42 and screwed into the anchor socket 42 at the lower portion. ) A composite anchor with a wire anchor, characterized in that it consists of.
In claim 1,
A composite anchor with a wire anchor, characterized in that a spacer (7) for fixing the lower position of the wire anchor (5) is provided on the outside of the anchor body (4) under the fixing ring (6).
In claim 1,
A composite anchor provided with a wire anchor, characterized in that a fixing end (51) is provided at the lower end of the wire anchor (5).
In claim 1,
The wire anchor (5) is a composite anchor provided with a wire anchor, characterized in that arranged in a plurality of stages so as to be spaced up and down.
It relates to a construction method of a composite anchor equipped with a wire anchor according to claim 1,
(a) removing a part of the concrete of the lower structure (1) to form an insertion hole (11);
(b) the anchor body 4 provided with a wire anchor 5 on the outside is installed in the insertion hole 11 so that the upper end of the anchor body 4 protrudes upward, and the inside of the insertion hole 11 Filling the non-shrinkable mortar 12 to fix the composite anchor (3);
(c) installing the base plate (2) on the upper part of the lower structure (1) so that the upper end of the anchor body (4) protrudes upward; and
(d) fixing the base plate (2) by fastening the fixing nut (8) to the upper end of the anchor body (4); Construction method of a composite anchor provided with a wire anchor, characterized in that consisting of.
It relates to a construction method of a composite anchor equipped with a wire anchor according to claim 1,
(a) installing the composite anchor (3) at a location where the lower structure (1) is to be constructed;
(b) pouring concrete to form a lower structure (1) so that the upper end of the anchor body (4) protrudes upwardly around the composite anchor (3);
(c) installing the base plate (2) on the upper part of the lower structure (1) so that the upper end of the anchor body (4) protrudes upward; and
(d) fixing the base plate (2) by fastening the fixing nut (8) to the upper end of the anchor body (4); Construction method of a composite anchor provided with a wire anchor, characterized in that consisting of.
It relates to a construction method of a composite anchor equipped with a wire anchor according to claim 6,
(a) removing a part of the concrete of the lower structure (1) to form an insertion hole (11);
(b) the anchor socket 42 provided with a wire anchor 5 on the outside is installed in the insertion hole 11, and the non-shrinkable mortar 12 is filled in the insertion hole 11 to fix it step;
(c) installing a base plate (2) on the upper portion of the lower structure (1); and
(d) fixing the base plate (2) by coupling the anchor bolt to the anchor socket through the base plate (2); Construction method of a composite anchor provided with a wire anchor, characterized in that consisting of.
It relates to a construction method of a composite anchor equipped with a wire anchor according to claim 6,
(a) installing the anchor socket 42 provided with a wire anchor 5 on the outside at a position where the lower structure 1 is to be constructed;
(b) pouring concrete to form a lower structure (1) around the anchor socket;
(c) installing a base plate (2) on the upper portion of the lower structure (1); and
(d) fixing the base plate (2) by coupling the anchor bolt to the anchor socket through the base plate (2); Construction method of a composite anchor provided with a wire anchor, characterized in that consisting of.

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