KR102464614B1 - Seismic wall to reduce post installed anchor length by retrofit of PC member on RC frame and construction method thereof - Google Patents

Abstract

The present invention relates to an earthquake-resistant wall that reduces the anchoring length of an anchor 30 by reinforcement of a PC member 20 in a reinforced concrete frame 10 and a construction method thereof, and an anchor through hole 21 in a reinforced concrete frame 10 By reinforcing the formed PC member 20 to reduce the anchoring length of the anchor 30, the formwork 70 to the horizontal and vertical reinforcing bars 40 to be reinforced by combining with the anchor 30 fixed to the reinforced concrete frame 10 After installation, a filling material such as non-shrinkable mortar is injected to form an earthquake-resistant wall (C), and the iron plate 80 is attached and fixed in close contact with the PC member 20 and the reinforced concrete frame 10.

Description

Seismic wall to reduce post installed anchor length by retrofit of PC member on RC frame and construction method thereof

The present invention relates to an earthquake-resistant wall for reducing the anchoring length of an anchor by reinforcing a PC member in a reinforced concrete frame and a construction method thereof. It relates to an earthquake-resistant wall that forms an earthquake-resistant wall by injecting a filling material after installing a formwork on horizontal and vertical reinforcement connected to an anchor fixed to a reinforced concrete frame while reducing

In the case of wet construction that forms an earthquake-resistant wall by reinforcing cast-in-place concrete (RC) inside the reinforced concrete frame of an existing building, fill in the reinforced concrete frame with cast-in-place concrete to form an earthquake-resistant wall. To this end, it is difficult to apply this construction method to a building requiring rapid construction because it takes several months or more to cure the reinforcement by pouring reinforcement and concrete inside the reinforced concrete frame. Moreover, since the plurality of anchors installed in the reinforced concrete frame behaves in combination with the reinforcement reinforcement on the earthquake-resistant wall, a drilling hole with a depth of about 500mm or more is required for anchoring in the reinforced concrete frame in order to resist the pull-out force caused by the tension of the reinforcement when an external force occurs. do. In the process of forming the drilling hole for anchor fixing, it not only causes very severe damage to the reinforced concrete frame, but also requires a lot of time to form a large number of drilled holes and install the anchors in the drilled holes formed in this way, so economical construction is expected. difficult to do In order to improve this, recently, with the permission of the responsible structural engineer, part of the concrete to be reinforced is removed, welded to the shear reinforcement inside the concrete, finished with concrete, and the steel reinforcement is inserted into the protruding reinforcement. The biggest problem with the method is that it is difficult to supervise and construct these processes one by one, and there is no clear standard for how much welding size should be made.

In addition, Korean Patent Registration No. 10-1920417 for a reinforced concrete frame seismic reinforcement structure improves seismic performance by dividing the reinforcing frame installed inside the opening into a pair of U-shaped first and second reinforcing frames. However, this is also a seismic reinforcing structure in which the reinforcing frame is composed of steel members, and the cost increases, so it is not economical, and the entire seismic wall cannot be formed inside the reinforced concrete frame.

Republic of Korea Patent Registration No. 10-1920417 (Registered on November 14, 2018)

Accordingly, it was made in consideration of the various problems of the prior art as described above,

The present invention is to greatly reduce the anchorage length at which the anchor is installed in the existing reinforced concrete frame, thereby simplifying the construction without damaging the reinforced concrete frame, and providing economical construction by shortening the period and reducing the construction cost.

In addition, the present invention is to provide that the PC member reinforced in the reinforced concrete frame is divided and assembled, so it is convenient to transport and assembly construction is possible in a narrow space, so that it is convenient to construct inside a building.

In addition, the present invention is to provide that by attaching an iron plate to the reinforced concrete frame and the PC member, the two members are not spaced apart and can respond to the shear force generated by the bending force applied from the outside.

In addition, the present invention provides a solution to the construction error due to the installation of the PC member because the PC member installed on the inner side of the reinforced concrete frame and the PC member are connected by a certain distance apart and constructed by separating the PC member. .

In addition, according to the present invention, when the mold is installed on both sides of the PC member, the insert nut is pre-installed on the PC member to be fastened with the fixing bolt, so that the mold can be quickly installed and removed, and the insert nut is fixed to fix the iron plate. Since it can be used by fastening it with bolts, it is to provide an economical one.

The earthquake-resistant wall that reduces the anchoring length of the anchor 30 by reinforcement of the PC member 20 in the reinforced concrete frame 10 of the present invention is an anchor fixing hole 11 formed in the reinforced concrete frame 10 from which the existing inner wall has been removed; PC member 20 of column type and upper and lower beam type installed on the inner side of the reinforced concrete frame 10; An anchor 30 that penetrates the anchor through hole 21 of the PC member 20 and is fixed in the anchor fixing hole 11 formed in the reinforced concrete frame 10; Horizontal and vertical reinforcement 40 integrally connected with the anchor 30; an inner wall formed by injecting a filler into the formwork 70 fixed to both sides of the PC member 20 of the column type and the upper and lower beam type; It is characterized in that it consists of an iron plate 80 that is attached and fixed in close contact with the PC member 20 and the reinforced concrete frame 10 .

In addition, the construction method of the earthquake-resistant wall that reduces the anchoring length of the anchor 30 by reinforcement of the PC member 20 in the reinforced concrete frame 10 of the present invention is to remove the existing inner wall inside the existing reinforced concrete frame 10 forming an anchor fixing hole 11 for fixing the anchor 30 to the next reinforced concrete frame 10; Installing the PC member 20 of the column type and the upper and lower beam type on the inner side of the reinforced concrete frame 10; fixing the anchor 30 to the anchor fixing holes 11 and 11 formed in the reinforced concrete frame 10 through the anchor through hole 21 of the PC member 20; The step of integrally connecting and reinforcing the horizontal and vertical reinforcing bars 40 to the anchors 30 fixed to the reinforced concrete frame 10 through the PC member 20; Forming an inner wall by fixing the mold 70 on both sides of the PC member 20 and then injecting a filling material therein; It characterized in that it consists of the step of attaching and fixing the iron plate (80) in close contact with the PC member (20) and the reinforced concrete frame (10).

The present invention greatly reduces the anchorage length in which the anchor is installed, thereby simplifying the construction without damaging the reinforced concrete frame, and has the effect of economical construction by shortening the period and reducing the construction cost.

In addition, the present invention has the effect that the PC member installed in the reinforced concrete frame is divided and assembled, so it is easy to transport and convenient to construct inside the building.

In addition, the present invention has an effect of responding to the shear force applied from the outside while firmly fixing the two members by the attachment of the steel plate to the reinforced concrete frame and the PC member.

In addition, the present invention has the effect of solving the construction error since the PC member and the PC member are spaced apart when the PC member is connected.

In addition, the present invention has the effect of quickly installing and removing the form and the iron plate by installing the insert nut for fixing the form and the iron plate on both sides of the PC member.

1 is a front view of an anchor fixing hole for fixing an anchor to a reinforced concrete frame after demolishing a masonry wall inside an existing reinforced concrete frame in the present invention;
2 to 4 are front views of the PC member of the column type, the PC member of the lower beam type, and the PC member of the upper beam type installed on the inside of the reinforced concrete frame in the present invention.
5 is a front view in which the anchor is fixed to the anchor fixing hole through the anchor penetration hole of the PC member installed inside the reinforced concrete frame in the present invention;
Figure 6 is a front view connecting the anchor and the horizontal and vertical reinforcement fixed in the anchor fixing hole in the present invention
7 is an enlarged front view of the connection portion of the upper beam type PC member and the PC member in the present invention;
8 is an enlarged perspective view of the connection part of the PC member and the PC member of the lower beam type in the present invention;
9 is a front view in which the formwork is fixed to the PC member and installed in the present invention. Figure 10 is a front view of the seismic wall formed inside the reinforced concrete frame after removing the formwork;
11 to 13 are front views in which an iron plate is attached and fixed to a reinforced concrete frame and a PC member in the present invention;

Hereinafter, an embodiment of the present invention will be described in detail based on the accompanying drawings.

1 is an anchor fixing hole 11 for fixing the anchor 30 to the reinforced concrete frame 10 after demolishing the existing inner wall formed of a masonry wall, etc. on the inner side of the existing reinforced concrete frame 10 in the present invention. will be. When the inner part of the existing reinforced concrete frame 10 is a masonry wall, the existing masonry wall is demolished to form an earthquake-resistant wall, and then an anchor fixing hole 11 for fixing the anchor 30 to the reinforced concrete frame 10 is formed. . The anchor 30 installed inside the reinforced concrete frame 10 for the composite behavior of the existing reinforced concrete frame 10 and the newly constructed earthquake-resistant wall C is integrated with the horizontal and vertical reinforcement 40 reinforced on the earthquake-resistant wall. The depth of the anchor fixing hole 11 to which the anchor 30 is fixed is reinforced to resist the pull-out force caused by the tensile force by the horizontal and vertical reinforcement 40 connected to the anchor 30. The inside of the concrete frame 10 should be about 500 mm or more. As such, the required depth of the anchor fixing hole 11 is deep, and in the construction process for forming it, it causes very severe damage to the reinforced concrete frame 10 as well as many Since a lot of construction time is required to form the anchor fixing hole 11 of the reinforced concrete frame 10, it is difficult to expect economical construction.

Therefore, the present invention secures the required anchor anchorage depth that can respond to the pulling force generated by the horizontal and vertical reinforcing bars 40 that are integrally connected with the anchor 30 and anchor anchoring holes formed in the reinforced concrete frame 10 ( 11) In order to significantly reduce the depth, the PC member 20 having the anchor through hole 21 through which the anchor 30 penetrates is installed inside the reinforced concrete frame 10 . The pulling force applied to the anchor 30 to be fixed is generated by the tensile force of the horizontal vertical reinforcing bar 40 due to cracking or deformation mainly generated by external force around the horizontal vertical reinforcing bar 40 that is connected to the anchor 30 and reinforced. The reinforced concrete frame 10 by connecting the anchor 30 and the horizontal and vertical reinforcing bars 40 fixed in the anchor fixing hole 11 of the reinforced concrete frame 10 through the PC member 20 integrally by welding, etc. ) can attenuate a significant portion of the tensile force acting on the anchor 30 fixed to the , which in turn can significantly reduce the insertion depth of the anchor fixing hole 11 of the reinforced concrete frame 10 .

That is, the insertion depth of the anchor anchoring hole 11 formed in the reinforced concrete frame 10 as the anchor 30 secures a predetermined anchoring length in which the anchor 30 penetrates the anchor through hole 21 of the PC member 20 and is anchored. The anchoring length of the anchor 30 is sufficient as long as it can resist only the shear force acting on the anchor 30, and the length does not require more than about 150 mm. Therefore, while installing the anchor 30 in the anchor anchoring hole 11 of a short length in the existing reinforced concrete frame 10, by securing the required anchorage length that can resist the pull-out force caused by the tensile force acting on the horizontal and vertical reinforcing bars 40 It is possible to form an earthquake-resistant wall having a required strength while easily installing a plurality of anchors 30 to the reinforced concrete frame 10 .

2 to 4 show that the PC member 20 of the column type, the PC member 20 of the lower beam type, and the PC member 20 of the upper beam type are installed on the inside of the reinforced concrete frame 10 in the present invention. 2 is to install the PC member 20 erected on both sides of the inner side of the reinforced concrete frame 10 in the form of a column, FIG. 4 shows that the PC member 20 is installed in the upper beam type on the upper lower surface of the reinforced concrete frame 10 in the present invention. The PC member 20 has an anchor through hole 21 through which the anchor 30 passes, and a form 70 and a fixing hole 22 for the iron plate 80 for fixing the mold 70 and the iron plate 80 are formed. and an insert nut 71 fastened with a fixing bolt 72 used to couple and fix the mold 70 and the iron plate 80 is installed in the fixing hole 22 . This makes it possible to quickly install and remove the formwork 70 by pre-installing the insert nut 71 fastened with the fixing bolt 72 for installing the formwork 70 to the PC member 20, as well as the insert nut 71 ) can be used by fastening with the fixing bolts 72 for fixing the iron plate 80, so the economic feasibility is improved. In addition, the iron plate 80 attached to and fixed to the reinforced concrete frame 10 is fixed by inserting the iron plate fixing anchor 81 into the iron plate fixing anchor hole 12 after being in close contact with the reinforced concrete frame 10 .

On the upper surface of the column-type PC member, there is a pedestal 50 for connection with the PC member 20 of the upper beam type, adjustment of the spacing between the PC members 20, and formation of an injection hole for injection of non-shrinkable mortar or epoxy, etc. and the upper beam type PC member 20 and PC member 20 can be supported by a copper bar or the like during installation, but by manufacturing the connection pipe 60 installed in the PC member 20 to have a bending strength above a certain level. When connecting the connecting pipe 60 and the connecting pipe 60 with the fastening pipe 62, while rapidly connecting the PC member 20 and the PC member 20, the connecting pipe 60 itself has a bending rigidity having a certain level or more. Therefore, it is possible to securely install while reducing the number of bars supporting the PC member (20).

In addition, since the PC member 20 of the lower beam type is installed on the lower upper surface of the reinforced concrete frame 10, the connection pipe 60 and the fastening pipe 62 are omitted, unlike the PC member 20 of the upper beam type, and Only the connecting reinforcing bars 61 formed on the PC member 20 are used to connect them. In the present invention, since the PC member 20 reinforced in the reinforced concrete frame 10 is divided and assembled as described above, it is convenient to transport and assembly construction is possible in a narrow space, so it is convenient to construct inside the building, and the PC member ( 20) in the reinforced concrete frame 10, it has the advantage of solving the construction error due to the installation of the PC member 20 because the construction is performed vertically and horizontally and spaced apart from the internal junction by a certain distance.

5 shows that the anchor 30 in the present invention penetrates the anchor penetration hole 21 of the PC member 20 installed inside the reinforced concrete frame 10 and is fixed in the anchor fixing hole 11, and the horizontal and vertical reinforcement ( The anchor 30 connected to 40) is fixed in the anchor fixing hole 11 formed in the reinforced concrete frame 10 through the anchor through hole of the PC member 20 of the column type and the PC member 20 of the upper and lower beam type. do. As described above, the present invention greatly reduces the depth of the anchor fixing hole 11 formed in the reinforced concrete frame 10 and secures the required anchoring length for the anchor 30 to resist the pulling force, thereby securing the reinforced concrete frame. (10) It is easy to construct without damaging it, and economical construction can be done by shortening the period and reducing the construction cost.

6 is a connection between the anchor 30 and the horizontal and vertical reinforcing bars 40 fixed in the anchor fixing hole 11 through the PC member 20 in the present invention by welding, etc., and the anchor is fixed and installed in the anchor hole. (30) is a formwork fixedly installed after the reinforced concrete frame 10, the PC member 20 and the horizontal vertical reinforcing bar 40, which is a frame to which the anchor 30 is fixed, by being integrally connected with the horizontal vertical reinforcing bar 40 The seismic performance is further strengthened by the composite behavior with the seismic wall (C) formed by the filling material injected into (70).

7 is an enlarged view of the connection portion between the PC member 20 and the PC member 20 of the upper beam type in the present invention, and FIG. 8 is a connection portion between the PC member 20 and the PC member 20 of the lower beam type. will be enlarged 7, the upper beam type PC member 20 and the PC member 20 are installed on the upper lower surface of the reinforced concrete frame 10 using the connecting reinforcing bar 61 and the connecting pipe 60, the upper beam type The connection of the PC member 20 and the connecting pipe 60 installed on the PC member 20 of Since it reduces the gravity acting on the PC member 20 when the PC member 20 is installed by the bending rigidity of the connecting pipe 60 while connecting, it can be quickly and easily constructed while reducing the number of installations.

8 is a PC member of the lower beam type because the PC member 20 of the lower beam type is installed on the upper surface of the lower end of the reinforced concrete frame 10 in the present invention. Unlike the member 20, the connection pipe 60 is not needed and only the connection reinforcing bar 61 is connected. 8 shows that the anchor 30 penetrates the anchor through hole 21 of the PC member 20 and is fixed to the reinforced concrete frame 10 and the iron plate 80 is fixed and attached to the PC member 20. An iron plate fixing anchor hole 12 formed so that the hole 22 and the iron plate 80 are fixed to the reinforced concrete frame 10 is shown.

9 shows that the formwork 70 is installed on both sides of the PC member 20 to form the earthquake-resistant wall C by injecting a filling material such as non-shrinkable mortar or epoxy in the present invention, which penetrates the PC member 20. After completing the reinforcement by connecting the anchor 30 and the horizontal and vertical reinforcing bars 40 fixed to the reinforced concrete frame 10 by welding, etc. A seismic wall (C) is formed. The formwork 70 fixed to both sides of the PC member 20 can be quickly fixed using the fixing bolt 72 to the insert nut 71 inserted and installed in the fixing hole 22 of the PC member 20 and fixed. The insert nut 71 in which the hole 22 is installed is not specifically illustrated in the drawings as it is sufficient to apply a generally used one. In addition, the insert nut 71 installed in the fixing hole 22 of the PC member 20 is a fixing bolt for fixing the iron plate 80 when the iron plate 80 is installed even after the fixing bolt 72 for the formwork 70 is removed. (82) has the advantage that can be used to be fastened with.

Figure 10 shows that the seismic wall (C) is formed inside the reinforced concrete frame (10) after the filling is cured and the formwork (70) is removed in the present invention. By making the PC member 20 have the same surface as the surface, the iron plate 80 is attached to and fixed in close contact with the reinforced concrete frame 10 , the PC member 20 and the earthquake-resistant wall.

11 to 13 show that the steel plate 80 is reinforced on the reinforced concrete frame 10 and the PC member 20 in the present invention. It functions to firmly connect and fix the frame 10 . To this end, one side of the iron plate 80 is attached and fixed to the PC member 20 by fastening the insert nut 71 and the fixing bolt 82 of the PC member 20, and the other side of the iron plate 80 is a reinforced concrete frame ( The iron plate fixing anchor 81 is fixed in the iron plate fixing anchor hole 12 of 10) and firmly attached and fixed to the reinforced concrete frame 10, so that the reinforced concrete frame 10 and the PC member 20 are not spaced apart and applied from the outside. It can further respond to the shear force generated by the bending force, which further strengthens the seismic performance of the seismic wall.

The construction method of the earthquake-resistant wall reducing the anchorage length of the anchor 30 by reinforcement of the PC member 20 in the reinforced concrete frame 10 of the present invention will be described as follows.

First, forming an anchor fixing hole 11 for fixing the anchor 30 to the reinforced concrete frame 10 after removing the existing inner wall inside the existing reinforced concrete frame 10 as shown in FIG. 1 ; Next, installing the PC member 20 of the column type and the upper and lower beam types on the inner side of the reinforced concrete frame 10 as shown in FIGS. 2 to 4 ; Then, as shown in FIG. 5, penetrating the anchor through hole 21 of the PC member 20 and fixing the anchor 30 to the anchor fixing hole 11 formed in the reinforced concrete frame 10; Next, as shown in FIG. 6, the step of integrally connecting the horizontal and vertical reinforcing bars 40 to the anchors 30 fixed to the reinforced concrete frame 10 through the PC member 20; Next, as shown in FIGS. 9 and 10, after fixing the formwork 70 on both sides of the PC member 20, a filling material is injected therein to form an inner wall, and further strengthening the seismic performance of the seismic wall For this, a step of attaching and fixing the iron plate 80 in close contact with the PC member 20 and the reinforced concrete frame 10 is added as shown in FIGS. 11 to 13 .

As described above, although the present invention has been described with reference to limited embodiments and drawings, the terms or words used in the present specification and claims should not be construed as being limited to conventional or dictionary meanings, and the technical spirit of the present invention It must be interpreted with a corresponding meaning and concept.

Therefore, the configuration shown in the embodiments and drawings described in the present specification is only one embodiment of the present invention, and does not represent all the technical spirit of the present invention, so within the limit that does not depart from the scope of the claims of the present invention, various It should be understood that there may be equivalents and variations.

10: Reinforced concrete frame 11: Anchor fixing hole
12: iron plate fixing anchor hole 20: PC member
21: anchor through hole 22: fixing hole
30: anchor 40: horizontal vertical reinforcing bar
50: pedestal 60: connecting pipe
61: connecting reinforcing bar 62: fastening pipe
70: formwork 71: insert nut
72, 82: fixing bolt 80: iron plate
81: iron plate fixed anchor C: seismic wall

Claims (12)

An anchor fixing hole 11 formed in the reinforced concrete frame 10 from which the existing inner wall has been removed;
PC member 20 of column type and upper and lower beam type installed on the inner side of the reinforced concrete frame 10;
An anchor 30 that penetrates the anchor through hole 21 of the PC member 20 and is fixed in the anchor fixing hole 11 formed in the reinforced concrete frame 10;
Horizontal and vertical reinforcement 40 integrally connected with the anchor 30;
An inner wall is formed by injecting a filler into the mold 70 fixed to both sides of the PC member 20 of the column type and the upper and lower beam type,
The connection of the PC member 20 of the upper beam type is by the connection of the connection pipe 60 of the PC member 20 to the fastening pipe 62 and the connection reinforcing bar 61 of the PC member 20,
Reinforcement, characterized in that the pedestal 50 is installed on the upper surface of the PC member of the column type for connection with the PC member 20 of the upper beam type, adjustment of the interval between the PC members 20, and the formation of an inlet for injection of the filler. An earthquake-resistant wall that reduces the anchoring length by reinforcing PC members in a concrete frame.
An anchor fixing hole 11 formed in the reinforced concrete frame 10 from which the existing inner wall has been removed;
PC member 20 of column type and upper and lower beam type installed on the inner side of the reinforced concrete frame 10;
An anchor 30 that penetrates the anchor through hole 21 of the PC member 20 and is fixed in the anchor fixing hole 11 formed in the reinforced concrete frame 10;
Horizontal and vertical reinforcement 40 integrally connected with the anchor 30;
an inner wall formed by injecting a filler into the mold 70 fixed to both sides of the PC member 20 of the column type and the upper and lower beam type;
It consists of an iron plate 80 that is attached and fixed in close contact with the PC member 20 and the reinforced concrete frame 10,
The connection of the PC member 20 of the upper beam type is by the connection of the connection pipe 60 of the PC member 20 to the fastening pipe 62 and the connection reinforcing bar 61 of the PC member 20,
Reinforcement, characterized in that the pedestal 50 is installed on the upper surface of the PC member of the column type for connection with the PC member 20 of the upper beam type, adjustment of the interval between the PC members 20, and the formation of an inlet for injection of the filler. An earthquake-resistant wall that reduces the anchoring length by reinforcing PC members in a concrete frame.
delete 3. The method according to any one of claims 1 or 2,
An earthquake-resistant wall that reduces the anchoring length by reinforcing PC members in a reinforced concrete frame, characterized in that the filling is either non-shrinkable mortar or epoxy.
3. The method according to any one of claims 1 or 2,
An earthquake-resistant wall that reduces the anchoring length of an anchor by reinforcing the PC member in a reinforced concrete frame, characterized in that the PC member 20 has a fixing hole 22 formed therein.
6. The method of claim 5
Reinforcement of the PC member in the reinforced concrete frame, characterized in that the formwork 70 is fixed and installed by fastening the insert nut 71 and the fixing bolt 72 installed in the fixing hole 22 of the PC member 20 Seismic wall that reduces anchor anchorage length.
3. The method according to claim 2,
One side of the iron plate 80 is attached and fixed to the PC member 20 by fastening the insert nut 71 and the fixing bolt 82 installed on the PC member 20, and the other side of the iron plate 80 is a reinforced concrete frame ( An earthquake-resistant wall that reduces the anchoring length of the anchor by reinforcement of the PC member in the reinforced concrete frame, characterized in that the iron plate fixing anchor 81 is fixed in the iron plate fixing anchor hole of 10) and fixed to the reinforced concrete frame 10.
delete 3. The method according to any one of claims 1 or 2,
The connection between the PC member 20 and the PC member 20 of the lower beam type is by the connection reinforcing bar 61 of the PC member 20, which reduces the anchoring length by reinforcement of the PC member in the reinforced concrete frame. seismic wall.
delete Forming an anchor fixing hole 11 for fixing the anchor 30 to the reinforced concrete frame 10 after removing the existing inner wall inside the existing reinforced concrete frame 10;
Installing the PC member 20 of the column type and the upper and lower beam type on the inner side of the reinforced concrete frame 10;
fixing the anchor 30 to the anchor fixing holes 11 and 11 formed in the reinforced concrete frame 10 through the anchor through hole 21 of the PC member 20;
The step of integrally connecting and reinforcing the horizontal and vertical reinforcing bars 40 to the anchors 30 fixed to the reinforced concrete frame 10 through the PC member 20;
Forming an inner wall by fixing the mold 70 on both sides of the PC member 20 and then injecting a filling material therein;
It consists of a step of attaching and fixing the iron plate 80 in close contact with the PC member 20 and the reinforced concrete frame 10,
The connection of the PC member 20 of the upper beam type is by the connection of the connection pipe 60 of the PC member 20 to the fastening pipe 62 and the connection reinforcing bar 61 of the PC member 20,
Reinforcement, characterized in that the pedestal 50 is installed on the upper surface of the PC member of the column type for connection with the PC member 20 of the upper beam type, adjustment of the interval between the PC members 20, and the formation of an inlet for injection of the filler. A construction method for earthquake-resistant walls that reduces anchor anchorage length by reinforcing PC members in a concrete frame.
12. The method of claim 11,
The seismic wall C has the same surface as the surface of the PC member 20 and the reinforced concrete frame 10 so that the iron plate 80 is attached in close contact with the PC member 20 and the reinforced concrete frame 10 A method of constructing an earthquake-resistant wall that reduces the anchoring length by reinforcing PC members in a reinforced concrete frame characterized by its features.

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