KR102496473B1 - Seismic Resistant Structure Attaching A External PC Wall Panel Having Anchor Through Hole And Construction Method Thereof - Google Patents

Abstract

The present invention relates to a reinforced concrete frame 10 requiring seismic reinforcement on the outer side, anchor bolts fixed to anchor holes 100 'formed at regular intervals in the longitudinal direction in beams and columns, which are structural materials, in the reinforced concrete frame 10 100), an anchor through-hole type external PC wall panel 20 formed in a square shape with an opening, a square shaped H-beam 300 formed inside, and an anchor bolt through hole 200 formed therein, the reinforced concrete frame After passing the anchor bolt through hole 200 of the anchor through hole type external PC wall panel 20 to the anchor bolt 100 fixed at (10), fasten the anchor nut 110 to the angle bolt 100 to penetrate the anchor After combining the hole-type external PC wall panel (20) with the reinforced concrete frame (10), the reinforced concrete is filled between the reinforced concrete frame (10) and the anchor through-hole type external PC wall panel (20) by the cured filling liquid (600). It relates to a seismic structure using an anchor through-hole type external PC wall panel and a construction method thereof, characterized in that the frame 10 and the anchor through-hole type external PC wall panel 20 are integrally formed.

Description

Seismic Resistant Structure Attaching A External PC Wall Panel Having Anchor Through Hole And Construction Method Thereof

The present invention relates to an earthquake-resistant structure using an anchor through-hole type external PC wall panel and a construction method thereof, and more specifically, to an anchor through-hole type in which a square-shaped opening is formed in an anchor bolt fixed to a reinforced concrete frame and an H-beam is embedded. After passing the anchor through-hole of the external PC wall panel, fasten the anchor nut to the anchor bolt to attach the anchor through-hole type external PC wall panel to the reinforced concrete frame, and then fill the gap between the reinforced concrete frame and the anchor through-hole type external PC wall panel. By filling the liquid, a reinforced concrete frame and an anchor through-hole type external PC wall panel are integrally formed to form an earthquake-resistant structure.

In order to reinforce the earthquake resistance of the existing building, remodeling work is carried out to install earthquake resistance reinforcement materials. Seismic stiffeners can be installed inside or outside the building. When seismic reinforcing materials are installed inside a building, there is a risk of having to transport large concrete or steel reinforcing materials up to several tons through a narrow door or window, causing inconvenience that the building cannot be used during the construction period. In addition, due to the nature of internal construction, a lot of cost and construction period are required. In particular, in the case of school facilities that are vulnerable to earthquakes and require the installation of earthquake-resistant reinforcing materials, continuous activities of students inside the building are required.

The external construction-oriented seismic reinforcement method requires a reinforcement method that can more effectively resist lateral force in the event of an earthquake by bonding reinforcing structures to the faces of the columns and beams of the existing concrete structure. Although it is advantageous in that it can solve the disadvantages of installing earthquake-resistant reinforcement inside the building as described above without bringing restrictions on the internal activities of the building structure, the earthquake-resistant reinforcement installed outside the building mainly consists of expensive steel frame members. It is combined with multiple members in various ways, which not only increases the cost and lengthens the construction period, but most of the earthquake-resistant reinforcing materials installed on the windows cover the view of the window by installing diagonal members to cope with the lateral force. has a crucial drawback.

Republic of Korea Patent Registration No. 10-1992186, "Seismic Reinforcement Method for Exterior or In-plane Installation of Columns and Beams Using Steel Frame" is a structurally weak part in an earthquake-resistant reinforcing structure composed of a pair of vertical and horizontal members, respectively. Structural reinforcement is performed by mounting a reinforcing means, and an auxiliary reinforcing member is additionally formed to connect the vertical member in parallel with the horizontal member to the earthquake-resistant reinforcing structure composed of a pair of vertical and horizontal members, respectively, so that the earthquake-resistant It relates to a seismic reinforcement method for external or in-plane installation of columns and beams using a steel frame capable of structurally strengthening a reinforcing structure. In order to do this, not only the number of installation members is large, such as the installation of additional auxiliary reinforcing members, but also the construction is complicated.

In addition, Republic of Korea Patent Registration No. 10-1623848, "Seismic Reinforcement for Openings by Externally Attached Steel Frame and Method for Seismic Reinforcement Using It" discloses the outer wall of a building in an earthquake-resistant reinforcing structure composed of vertical and horizontal members of seismic reinforcement. And by using concrete beams, the left and right reinforcing beams and upper and lower mortar accommodating members are mounted and formed by angles, and high toughness mortar is filled and joined in a state where stud members and welded wire mesh are inserted into the mortar accommodating members, It is intended to improve the seismic performance of building openings and non-bearing walls by using the steel frame mounted on the outer wall and the high-toughness mortar bonded to the concrete beam, but the square frame formed of vertical and horizontal members is also Since torsion occurs when a lateral force due to an earthquake is applied, a bracing member must be installed, resulting in a problem in securing visibility.

Republic of Korea Patent Registration No. 10-1992186 (registered on June 18, 2019) Republic of Korea Patent Registration No. 10-1623848 (registered on May 18, 2016)

Accordingly, it was made in view of the conventional problems as described above,

The present invention provides that the overall shape of an anchor through-hole type external PC wall panel installed in an existing reinforced concrete frame is formed in a square shape with high resistance to lateral load, and the H-shaped strength embedded therein is formed in a square shape to improve seismic performance. is in

In addition, the present invention has the advantage of seismic performance of the precast reinforced concrete structure and the steel frame structure by placing and curing the concrete after placing the main bars and closed stirrup on the periphery of the H-beam embedded in the anchor through-hole type external PC wall panel. It is to provide that the seismic performance efficiency is improved by synthesizing the advantages of the seismic performance mutually complementing each other.

In addition, the present invention does not use a diagonal brace across the opening, but reinforcing braces are integrally formed at the corners, which are joints where H-beams and H-beams arranged in a square shape inside the anchor through-hole type external PC wall panel meet. By doing so, it is provided to further enhance the seismic performance of the joint together with securing a complete view of the opening.

In addition, the present invention passes the anchor through-hole formed in the anchor through-hole type external PC wall panel through the anchor bolt fixed to the anchor hole of the reinforced concrete frame, and then fastens with an anchor nut, and then between the reinforced concrete frame and the anchor through-hole type external PC wall panel. Since the filling liquid is filled in, it is to provide a simple and quick construction while integrating the joint tightly and integrally.

In addition, the present invention eliminates the need to demolish the existing masonry wall by installing the anchor through-hole type external PC wall panel with openings in the existing reinforced concrete frame, and the outer surface of the anchor through-hole type external PC wall panel is prepared in advance during factory production. Because it is finished, internal and external finishing work is omitted, and since the anchor through-hole type external PC wall panels installed in the existing reinforced concrete frame are all made of concrete, both structures harmonize with each other to provide improved aesthetics.

In addition, since the opening of the anchor through-hole type external PC wall panel can be formed to the same size and position as the window of the masonry wall built into the existing reinforced concrete frame, separate masonry work is not required when installing the anchor through-hole type external PC wall panel. It is in providing what is omitted.

In addition, the present invention provides to absorb construction errors occurring during installation by forming long anchor through-holes formed in the anchor through-hole type external PC wall panel.

The present invention relates to an earthquake-resistant structure using an anchor through-hole type external PC wall panel, comprising: a reinforced concrete frame requiring earthquake-resistant reinforcement on the outer side; Anchor bolts fixed to anchor holes formed at regular intervals in the longitudinal direction of the upper and lower horizontal parts formed of beams, which are structural materials, and the left and right vertical parts formed of pillars in the reinforced concrete frame; It is formed in a square shape as a whole with the opening, and an H-shaped steel is formed inside the H-shaped steel, and anchor bolt penetration is formed at regular intervals in the longitudinal direction so that the anchor bolt passes through the center of the web of the H-shaped steel. Anchor through-hole type external PC wall panel composed of main bars and closed stirrups, which are reinforcing bars around H-beams and around the periphery, so that the composite behavior is entirely composited by the concrete to be formed; After passing the anchor bolt through-hole of the anchor through-hole type external PC wall panel through the anchor bolt fixed to the reinforced concrete frame, fasten the anchor nut to combine the anchor through-hole type external PC wall panel with the reinforced concrete frame, and then connect the reinforced concrete frame and anchor It is characterized in that the reinforced concrete frame and the anchor through-hole type external PC wall panel are integrally formed by filling and curing the filling liquid between the through-hole type external PC wall panels.

In addition, the present invention is a construction method of a seismic structure using an anchor through-hole type external PC wall panel for a reinforced concrete frame requiring earthquake-resistant reinforcement on the outer side, (1) upper and lower horizontal parts and columns formed of beams, which are structural materials, in a reinforced concrete frame Forming anchor holes at regular intervals in the longitudinal direction in the left and right vertical parts formed by; (2) fixing anchor bolts for mounting an anchor through-hole type external PC wall panel to an anchor hole of a reinforced concrete frame; (3) It is formed in a square shape as a whole with the opening, and the inside is also formed in a square shape by H-beams, and anchor bolt through-holes are formed at regular intervals in the longitudinal direction so that anchor bolts can pass through the center of the web of the H-beam. In order to achieve composite behavior as a whole by pouring and curing concrete, the anchor bolts are passed through the anchor bolt through-holes of the anchor through-hole type external PC wall panel composed of main bars and closed stirrup reinforcing bars around the H-beam and its circumference to reinforce the reinforcing bars. Mounting the anchor through-hole type external PC wall panel to the concrete frame; (4) attaching and coupling the anchor through-hole type external PC wall panel to the reinforced concrete frame by fastening an anchor nut to the anchor bolt passing through the anchor bolt through hole of the anchor through-hole type external PC wall panel; (5) Filling and curing a filling solution between the reinforced concrete frame and the anchor through-hole type external PC wall panel to integrally form the reinforced concrete frame and the anchor through-hole type external PC wall panel.

In addition, the present invention is characterized in that the reinforcing bracing is integrally configured with a strong joint at each corner portion where the H-beam and the H-beam meet.

In addition, the present invention is characterized in that grooves are formed at regular intervals at both ends of the H-beam flange so that the closed stirrup passes.

In addition, the present invention is characterized in that the anchor bolt through-hole formed in the anchor through-hole type external PC wall panel is formed long in order to absorb construction errors when the anchor through-hole type external PC wall panel is attached and coupled to the reinforced concrete frame.

The present invention has the effect of increasing the seismic performance by forming the overall shape of the anchor through-hole type external PC wall panel in a square shape with high resistance to lateral load and forming the H-shaped strength buried therein in a square shape.

In addition, the present invention has the effect of increasing the efficiency of seismic performance by arranging main bars and closed stirrups around the periphery of the H-beams embedded in the anchor through-hole type external PC wall panel to synthesize concrete with pouring curing.

In addition, the present invention integrally forms reinforcing braces at the corners, which are joints where H-beams and H-beams arranged in a square shape inside the anchor through-hole type external PC wall panel meet, by strong bonding, thereby securing the complete view of the opening and the junction has the effect of enhancing the seismic performance of

In addition, the present invention is fastened with an anchor nut passing through an anchor through-hole formed in an anchor through-hole type external PC wall panel to an anchor bolt fixed to an anchor hole of a reinforced concrete frame, and then between the reinforced concrete frame and the anchor through-hole type external PC wall panel. Since the filling liquid is filled, there is an effect that the construction can be performed simply and quickly while integrating the joint tightly.

In addition, the present invention eliminates the need to demolish the existing masonry wall by installing the anchor through-hole type external PC wall panel in the existing reinforced concrete frame, and since both the reinforced concrete frame and the anchor through-hole type external PC wall panel are made of concrete, both structures This harmonizes with each other and has an effect of improving aesthetics.

In addition, since the opening of the anchor through-hole type external PC wall panel can be formed to the same size and position as the window of the masonry wall built into the existing reinforced concrete frame, separate masonry work is not required when installing the anchor through-hole type external PC wall panel. It has the effect of omitting it. .

In addition, the present invention has an effect of absorbing construction errors occurring during installation by forming long anchor through-holes formed in the anchor through-hole type external PC wall panel.

Figure 1a is a front view of a reinforced concrete frame in which an anchor through-hole type external PC wall panel is installed in the present invention
Figure 1b is a front view of a reinforced concrete frame with anchor bolts fixed to a part of an anchor hole formed in the reinforced concrete frame of Figure 1a
Figure 2a is a front view of the anchor through-hole type external PC wall panel in the present invention
Figure 2b is a partial perspective view of the anchor through-hole type external PC wall panel in the present invention
Figure 3 is a perspective view of the H-beam installed in the anchor through-hole type external PC wall panel in the present invention
Figure 4a is a front perspective view of an anchor through-hole type external PC wall panel in the present invention, Figure 4b is a (A) partial perspective view of Figure 4a, Figure 4c is a cross-sectional view AA of Figure 4a, Figure 4d is a cross-sectional view BB of Figure 4a
Figure 5a is a cross-sectional view of an anchor through-hole type external PC wall panel installed by attaching to a pillar of a reinforced concrete frame in the present invention, Figure 5b is a cross-sectional view of an anchor through-hole type external PC wall panel installed by attaching to a beam of a reinforced concrete frame in the present invention Cross-section
6a is a front view in which an anchor through-hole type external PC wall panel and an anchor through-hole type external PC wall panel are integrally formed on the left and right sides of the same layer in the present invention, and FIG. 6B is an anchor through-hole type external PC wall panel and an anchor through-hole type external PC wall panel in the present invention. Front view of PC wall panels integrally formed as upper and lower layers
Figure 7a is a front view of a reinforced concrete frame in which anchor holes are formed in a zigzag pattern in the reinforced concrete frame in the present invention
Figure 7b is a front view of an anchor through-hole type external PC wall panel having an anchor through-hole formed corresponding to the anchor hole of the reinforced concrete frame of FIG. 7a in the present invention
8 is a front view of a reinforced concrete frame in which anchor bolts are fixed to a part of an anchor hole of a reinforced concrete frame as another embodiment of the present invention
9a is a front view of a state in which an anchor through-hole type external PC wall panel is mounted on a reinforced concrete frame as another embodiment of the present invention
Figure 9b is a partial perspective view of an anchor through-hole type external PC wall panel as another embodiment of the present invention
10 is a perspective view of an H-beam as another embodiment of the present invention
Figure 11a is a front perspective view of an anchor through-hole type external PC wall panel as another embodiment of the present invention, Figure 11b is a (A) partial perspective view of Figure 11a, Figure 11 4c is a AA cross-sectional view of Figure 11a, Figure 11d is Figure 5a BB section
Figure 12a is a cross-sectional view of an anchor through-hole type external PC wall panel installed by attaching and coupling to a column of a reinforced concrete frame as another embodiment in the present invention, Figure 12b is installed by attaching and coupling to a beam of a reinforced concrete frame as another embodiment of the present invention Cross Section of Anchor Through-Hole Exterior PC Wall Panel
13a is a front view in which an anchor through-hole type external PC wall panel and an anchor through-hole type external PC wall panel are integrally formed on the left and right sides of the same layer as another embodiment in the present invention, and FIG. Front view of PC wall panel and anchor through-hole type external PC wall panel integrally formed as upper and lower layers

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

Figure 1a is a front view of a reinforced concrete frame in which an anchor through-hole type external PC wall panel is installed in the present invention. Right vertical portions 13 and 14 are formed. In the case of buildings, there are buildings that are all open except for the reinforced concrete frame (10), but in the case of school buildings requiring earthquake-resistant reinforcement, bricks are built to a certain height inside the reinforced concrete frame (10), and then the window opening (30) is opened. It is common to form In the present invention, in seismic reinforcement by attaching and combining the anchor through-hole type external PC wall panel 20 to the outer side of the reinforced concrete frame 10, separate masonry work is not required in all parts except for the opening 30, and reinforced concrete The entirety of the anchor through-hole type external PC wall panel 20 attached to the frame 10 is integrally combined with the external force caused by the earthquake, thereby improving the seismic performance.

1B is a front view of a reinforced concrete frame in which anchor bolts are fixed to a part of an anchor hole formed in the reinforced concrete frame of FIG. Anchor holes 100' are formed at regular intervals in the longitudinal direction in the left and right vertical parts 13 and 14 formed as above, and the anchor through-hole type external PC wall panel 20 is attached and coupled prior to the reinforced concrete frame 10 In order to mount once, the anchor bolt 100 is firstly inserted into the anchor hole 100' formed in the left and right ends and part of the central part among the anchor holes 100' formed in the upper horizontal part 11 of the reinforced concrete frame 10. indicates fixed.

Anchor through-hole type external PC wall panel to the reinforced concrete frame 10 by penetrating the anchor bolt through-hole 200 of the anchor through-hole type external PC wall panel 20 described below to the primarily fixed anchor bolt 100. There is a method of mounting (20), and another method is not specifically shown in the drawings, but in the reinforced concrete frame 10, the upper and lower horizontal parts 11 and 12 formed of beams, which are structural materials, and the seat formed of pillars After fixing the anchor bolts 100 to the entire anchor holes 100' formed at regular intervals in the longitudinal direction in the right vertical parts 13 and 14, the anchor bolt through-holes 200 of the anchor through-hole type external PC wall panel 20 ) through which the anchor through-hole type external PC wall panel 20 can be mounted on the reinforced concrete frame 10.

Figure 2a is a front view of the anchor through-hole type external PC wall panel in the present invention, Figure 2b is a partial perspective view of the anchor through-hole type external PC wall panel in the present invention, the anchor through-hole type external PC wall panel 20 is a reinforced concrete frame ( An anchor bolt through hole 200 is formed so that the anchor bolt 100 fixed to the anchor hole 100 'of 10) passes through, and the outer surface of the anchor through hole type external PC wall panel 20 is reinforced concrete frame ( 10), the masonry wall is covered and only the opening 30' is left, and the external finish is applied, so after attaching and combining the anchor through-hole type external PC wall panel 20 to the reinforced concrete frame 10, a separate finishing process is required. Not only is it not necessary, but it is harmonized with the existing reinforced concrete frame 10 and has excellent aesthetics.

Figure 3 is a perspective view of the H-beam installed in the anchor through-hole type external PC wall panel 20 in the present invention, the H-beam 300 is composed of a flange 310 and a web 320, by pouring cured concrete Grooves 311 are formed at regular intervals at both ends of the flange 310 to allow the closed stirrup 520 to pass through, and in the longitudinal direction of the center of the web, at regular intervals so that the anchor bolts 100 can pass through. An anchor bolt through hole 200' is formed, and the anchor bolt through hole 200' has a long hole to absorb construction errors.

Figure 4a is a front perspective view of an anchor through-hole type external PC wall panel in the present invention, Figure 4b is a (A) partial perspective view of Figure 4a, Figure 4c is a cross-sectional view A-A of Figure 4a, Figure 4d is a cross-sectional view B-B of Figure 4a as,

The anchor through-hole type external PC wall panel 20 is formed in a square shape as a whole together with the opening 30 to secure the view of the window, and the H-shaped steel 300 is integrally coupled to each other in a square shape inside it, and the H-shaped steel The main bar 510 and the reinforcing bar 500, which is a closed stirrup 520, are placed around the (200) and its circumference, so that the concrete that is cast and cured is formed so that it behaves synthetically together against external force as a whole, thereby increasing the seismic performance. In the case of a generally applied steel frame bracing method, the bracing supports the lateral force caused by the earthquake, and the present invention constructs a rectangular steel-frame model that can replace the bracing for the lateral force. 13, 14), the cross section of the H-beam 300 installed as a strong axis and the vertical load of the upper and lower horizontal parts 11 and 12 constituting the beam, the rigidity of each joint where the cross section of the H-beam 300 installed as a strong axis meets In order to maximize the strength of the reinforcement brace 400 made of small H-beams integrally bonded to each corner, the stress against the lateral force generated during earthquakes was increased. In addition, the present invention is a composite structure of a precast reinforced concrete structure and a steel frame, and the bracing method using only the steel frame as in the prior art had limitations in stiffness against rotational deformation at each corner joint. As it is synthesized, the response force against rotational deformation is further increased at the junction to enhance the seismic performance.

In addition, anchor bolt through-holes 200' are formed in the longitudinal direction of the center of the web 320 of the H-beam 300, and the H-beam 300 is installed on the anchor through-hole type external PC wall panel 20 to concrete In order to form the anchor bolt through hole 200 of the anchor through hole type external PC wall panel 20 after pouring, although it is not specifically shown in the drawing, a mold having the shape of the anchor bolt through hole 200 is prepared before concrete is poured. After the installation and curing of the concrete, the formwork is removed. In order to facilitate the removal of the formwork, it is preferable that it is formed of a material having some degree of elasticity.

Figure 5a is a cross-sectional view of an anchor through-hole type external PC wall panel installed by attaching and coupling to a pillar of a reinforced concrete frame in the present invention, and Figure 5b is a cross-sectional view of an anchor through-hole type external PC wall panel installed by attaching and coupling to a beam of a reinforced concrete frame in the present invention. As a cross-sectional view of, after passing the anchor bolt through-hole 200 of the anchor through-hole type external PC wall panel 20 to the anchor bolt 100 fixed to the reinforced concrete frame 10, fasten the anchor nut 110 to anchor After combining the through-hole type external PC wall panel (20) with the reinforced concrete frame (10), filling liquid 600 is filled and cured between the reinforced concrete frame (10) and the anchor through-hole type external PC wall panel (20) to form a reinforced concrete frame. (10) and the anchor through-hole type external PC wall panel (20) are integrated. In order to effectively resist the reinforced concrete frame 10 and the anchor through-hole type external PC wall panel 20 integrally, the anchor bolt 14 is formed by the upper and lower horizontal parts 11 and 12 formed of beams and the left and right It is preferable to be located at the center of the width direction of the right vertical parts 13 and 14.

In addition, although not shown in the drawing, one side of the anchor through-hole type external PC wall panel 20 attached to the reinforced concrete frame 10 has a certain or more Supports that have strength, are relatively thin, and have a small area are sparsely attached and installed at necessary locations. If the plane of the facing reinforced concrete frame 10 is not flat, it is installed in a position where it can be picked flat. If the thickness of the pedestal is too thick, a lot of shear force is added to the anchor bolt 100, so the thickness of the reinforcing bar It is preferable to set the thickness to be less than 20 mm so that the concrete frame 10 and the anchor through-hole type external PC wall panel 20 can be integrally attached and combined to bring about an effect. In the outer rim between the reinforced concrete frame 10 and the anchor through-hole type external PC wall panel 20, a generally used elastic hard sealing material is installed to accommodate the filling liquid to be filled, and the filling material is non-axial mortar or epoxy, etc. Use

6a is a front view in which an anchor through-hole type external PC wall panel and an anchor through-hole type external PC wall panel are integrally formed on the left and right sides of the same layer in the present invention, and FIG. 6B is an anchor through-hole type external PC wall panel and an anchor through-hole type external PC wall panel in the present invention. A front view in which PC wall panels are integrally formed as upper and lower layers,

What has been described above is that one unit anchor through-hole type external PC wall panel 20 is fixed and attached to the upper and lower horizontal parts 11 and 12 formed of structural beams and the left and right vertical parts 13 and 14 formed of pillars. On the other hand, Figure 6a is for attaching and installing a unit anchor through-hole type external PC wall panel 20 having a plurality of openings on the left and right sides of the same floor on the same floor of the reinforced concrete frame 10 in which openings are repeatedly formed, 6B shows that the unit anchor through-hole type external PC wall panel 20 having a plurality of openings formed in the upper and lower layers is formed to be attached to the upper and lower layers of the reinforced concrete frame 10 in which the openings are repeatedly formed up and down. The application of the unit anchor through-hole type external PC wall panel 20 having a plurality of openings enables quicker and simpler construction compared to the application of the top-mounted PC wall panel 20 having one opening, and has seismic performance. It has the advantage of increasing the .

In addition, the inner boundary line 700 of the beam and the column shown in the unit anchor through-hole type external PC wall panel 20 indicates the inner boundary of the column and the beam in contact with the reinforced concrete frame 10, stress against external force In order for this to work efficiently, it is most efficient that the longitudinal center of the column and beam of the reinforced concrete frame 10 and the longitudinal center of the H-beam 200 embedded in the unit anchor through-hole type external PC wall panel 20 coincide. As a result, the anchor bolt 100 is installed at the center of the longitudinal direction of the column and beam of the reinforced concrete frame 10, and after passing through the anchor bolt through hole 200 of the anchor through-hole type external PC wall panel 20, the anchor nut It is preferable to attach and combine the anchor through-hole type external PC wall panel 20 to the reinforced concrete frame 10 by fastening with.

Figure 7a is a front view of an embodiment in which the position of an anchor hole formed in a reinforced concrete frame is changed to a zigzag in the present invention, and Figure 7b is an anchor through-hole type external PC wall panel in which anchor through-holes are formed corresponding to the position of the anchor hole of FIG. 7a. As a front view of, the anchor hole 100 'formed in the reinforced concrete frame 10 is the center length of the upper and lower horizontal parts 11 and 12 formed of beams and the left and right vertical parts 13 and 14 formed of pillars. The anchor bolt through-hole 200 formed in the anchor through-hole type external PC wall panel 20 is formed in a zigzag pattern to intersect at regular intervals on the left and right sides of the direction, and the anchor bolt through-hole 200 is fixed to the anchor hole 100 'formed in the zigzag form. 100) was formed in a zigzag pattern to cross at regular intervals to penetrate, thereby increasing the effect of resisting external force.

8 to 13b relate to another embodiment of the present invention, which relates to the upper and lower horizontal parts 11 and 12 formed of beams, which are structural materials, and the left and right sides formed of pillars in the reinforced concrete frame 10. Anchor bolts 100 are fixed to anchor holes 100' formed in plurality at regular intervals on the left and right sides of the right vertical parts 13 and 14 in the longitudinal direction of the center, and the anchor bolts 100 are fixed in the longitudinal direction of the web 320 of the H-beam 300 There is a difference from FIGS. 1 to 7 in that a plurality of anchor bolt through-holes 200' are formed at regular intervals on the left and right sides, and other configurations and construction methods are the same as those of one embodiment of the present invention described above.

In another embodiment of the present invention, anchor bolts 100 are fixed to a plurality of anchor holes 100 'formed in the reinforced concrete frame 10, and a plurality of anchor bolts are also applied to the anchor through-hole type external PC wall panel 20 corresponding thereto. By forming the through hole 200, the anchor nut 110 is passed through the anchor bolt through hole 200 of the anchor through hole type external PC wall panel 20 to the plurality of anchor bolts 100 fixed to the reinforced concrete frame 10. ), the seismic performance was further improved.

The construction method of the earthquake-resistant structure using the anchor through-hole type external PC wall panel of the present invention will be described as follows.

As described above, the construction method of the earthquake-resistant structure using the anchor through-hole type external PC wall panel in the reinforced concrete frame requiring earthquake-resistant reinforcement on the outer side,

(1) In the reinforced concrete frame 10, anchor holes 100' are spaced at regular intervals in the longitudinal direction in the upper and lower horizontal parts 11 and 12 formed of beams and the left and right vertical parts 13 and 14 formed of pillars. ) forming;

(2) fixing the anchor bolt 100 for mounting the through-hole type external PC wall panel 20 to the anchor hole 100 'of the reinforced concrete frame 10;

(3) It is formed in a square shape as a whole with the opening, and the inside is also formed in a square shape by the H-beam 300, and the anchor bolt 100 passes through the center of the web 320 of the H-beam 300. Anchor bolt through-holes 200 are formed at regular intervals in the longitudinal direction, and the main bars 510 and the closed stirrup 520 are reinforced around the H-beam 300 and around the circumference so that the overall composite behavior is achieved by the concrete being poured and cured. Anchor through-hole type external PC wall panel ( 20);

(4) The anchor through-hole type external PC wall panel 20 is formed by fastening the anchor nut 110 to the anchor bolt 100 passing through the anchor bolt through-hole 200 of the anchor through-hole type external PC wall panel 20. Attaching and coupling to the reinforced concrete frame 10;

(5) Filling liquid 600 is filled between the reinforced concrete frame 10 and the anchor through-hole type external PC wall panel 20 so that the reinforced concrete frame 10 and the anchor through-hole type external PC wall panel 20 are integrated. The step of forming; consists of.

In addition, the construction method of the earthquake-resistant structure using the anchor through-hole type external PC wall panel in the reinforced concrete frame requiring earthquake-resistant reinforcement on the outer side,

(1) In the reinforced concrete frame 10, the upper and lower horizontal parts 11 and 12 formed of beams, which are structural materials, and the left and right vertical parts 13 and 14 formed of pillars have anchor holes 100 at regular intervals in the longitudinal direction. ') to form;

(2) An anchor through-hole type external PC wall panel ( 20) primarily fixing the anchor bolt 100 for mounting;

(3) It is formed in a square shape as a whole with the opening, and the inside is also formed in a square shape by the H-beam 300, and the center of the web 320 of the H-beam 300 is formed in the anchor hole 100'. Correspondingly, anchor bolt through-holes 200 are formed at regular intervals in the longitudinal direction so that the anchor bolt 100 penetrates, and the reinforcement around the H-beam 300 and its circumference so that the overall composite behavior is achieved by the concrete being poured and cured Reinforced concrete frame (10) ) Mounting the anchor through-hole type external PC wall panel 20;

(4) Reinforced concrete frame (10) by passing anchor bolts (100) through the remaining anchor bolt through holes (200) through which the anchor bolts (100) are not penetrated in the mounted anchor through hole type external PC wall panel (20) secondly fixing to the upper and lower horizontal parts 11 and 12 and the left and right vertical parts 13 and 14 of the;

(5) The anchor through-hole type external PC wall panel 20 is formed by fastening the anchor nut 110 to the anchor bolt 100 passing through the anchor bolt through-hole 200 of the anchor through-hole type external PC wall panel 20. Attaching and coupling to the reinforced concrete frame 10;

(6) Filling liquid 600 is filled between the reinforced concrete frame 10 and the anchor through-hole type external PC wall panel 20 so that the reinforced concrete frame 10 and the anchor through-hole type external PC wall panel 20 are integrated. It is characterized in that it consists of;

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

Therefore, the embodiments described in this specification and the configurations shown in the drawings are only one embodiment of the present invention, and do not represent all of the technical spirit of the present invention, so that various It should be understood that there may be equivalents and variations.

10: reinforced concrete frame 11: upper horizontal part
12: lower horizontal part 13: left vertical part
14: Right vertical part 20: Anchor through-hole type external PC wall panel
30, 30 ': opening 100: anchor bolt
110: anchor nut 200, 200 ', 200": anchor through hole
300: H-beam 310: Flange
311: groove 320: web
400; Reinforcing brace 500: reinforcement
510: main root 520: closed stirrup
600: filling liquid
700: Inner boundary line of beams and columns

Claims (12)

Reinforced concrete frame 10 requiring earthquake-resistant reinforcement on the outer side;
Anchor holes 100' formed at regular intervals in the longitudinal direction in the upper and lower horizontal parts 11 and 12 formed of beams, which are structural materials, and the left and right vertical parts 13 and 14 formed of pillars in the reinforced concrete frame 10 An anchor bolt 100 fixed to;
It is formed in a square shape as a whole along with the opening, and an H-shaped steel 300 is formed in a square shape inside the H-shaped steel 300, and the center of the web 320 of the H-shaped steel 300 extends in the longitudinal direction so that the anchor bolt 100 penetrates. Anchor bolt through-holes 200 are formed at regular intervals, and the main bar 510, which is a reinforcing bar 500 that is reinforced around the H-beam 300 and around its circumference, and closed stirrup ( 520), an anchor through-hole type external PC wall panel 20 composed of;
After passing the anchor bolt through-hole 200 of the anchor through-hole type external PC wall panel 20 to the anchor bolt 100 fixed to the reinforced concrete frame 10, and then fastening the anchor nut 110, the anchor through-hole type external After combining the PC wall panel (20) with the reinforced concrete frame (10), the filler solution (600) is filled and cured between the reinforced concrete frame (10) and the anchor through-hole type external PC wall panel (20) to form a reinforced concrete frame (10) And the anchor through-hole type external PC wall panel 20 is integrally formed,
The anchor hole 100' formed in the reinforced concrete frame 10 is constant in the longitudinal direction of the center of the upper and lower horizontal parts 11 and 12 formed of beams and the left and right vertical parts 13 and 14 formed of pillars, which are structural materials. formed at intervals
The anchor bolt through hole 200 formed in the anchor through hole type external PC wall panel 20 is formed so that the anchor bolt 100 fixed to the anchor hole 100' passes through,
The reinforcing brace 400 integrally formed by strong jointing at each corner where the H-beam 300 and the H-beam 300 meet is inside the anchor through-hole type external PC wall panel 20 in which the opening 30' is formed. is located,
The outer surface of the anchor through-hole type external PC wall panel 20 covers the masonry wall of the reinforced concrete frame 10 and has an external finish leaving only the opening 30 ', so that the anchor through-hole type external PC wall panel 20 is reinforced Seismic structure using an anchor through-hole type external PC wall panel, characterized in that it does not require a separate finishing process after being attached and installed to the concrete frame (10) and is harmonized with the existing reinforced concrete frame (10).
delete delete delete The method of claim 1,
An earthquake-resistant structure using an anchor through-hole type external PC wall panel, characterized in that grooves 311 are formed at regular intervals so that the closed stirrup 520 passes through both ends of the H-beam 300 flange 310.
The method of claim 1,
In order to absorb construction errors when the anchor through-hole type external PC wall panel 20 is attached to the reinforced concrete frame 10, the anchor bolt through-hole 200 formed in the anchor through-hole type external PC wall panel 20 is lengthened. Seismic structure using an anchor through-hole type external PC wall panel, characterized in that formed.
The method of claim 1,
The anchor hole 100 'formed in the reinforced concrete frame 10 is formed on the left and right sides of the central longitudinal direction of the upper and lower horizontal parts 11 and 12 formed of beams and the left and right vertical parts 13 and 14 formed of columns. Seismic structure using an anchor through-hole type external PC wall panel, characterized in that formed in a zigzag to cross at regular intervals.
The method of claim 7,
The anchor bolt through hole 200 formed in the anchor through hole type external PC wall panel 20 is formed in a zigzag pattern to cross at regular intervals so that the anchor bolt 100 fixed to the anchor hole 100' passes through. Seismic structure using anchor through-hole type external PC wall panel.
Reinforced concrete frame 10 requiring earthquake-resistant reinforcement on the outer side;
In the reinforced concrete frame 10, a plurality of anchor holes formed at regular intervals on the left and right of the central longitudinal direction of the upper and lower horizontal parts 11 and 12 formed of beams as structural materials and the left and right vertical parts 13 and 14 formed of pillars Anchor bolt 100 fixed to (100 ');
It is formed in a square shape as a whole along with the opening, and the H-shaped steel 300 is also formed in a square shape inside, and a plurality of anchor bolt through-holes are formed at regular intervals on the left and right sides of the center of the web 320 of the H-shaped steel 300 in the longitudinal direction. 200 is formed, and the anchor through-hole type consists of the main bar 510, which is the reinforcing bar 500, and the closed stirrup 520, which are reinforced around the H-beam 300 and around the circumference so that the overall composite behavior is achieved by the concrete being poured and cured. External PC wall panel (20);
After passing the anchor bolt through-hole 200 of the anchor through-hole type external PC wall panel 20 to the anchor bolt 100 fixed to the reinforced concrete frame 10, and then fastening the anchor nut 110, the anchor through-hole type external After combining the PC wall panel (20) with the reinforced concrete frame (10), the filler solution (600) is filled and cured between the reinforced concrete frame (10) and the anchor through-hole type external PC wall panel (20) to form a reinforced concrete frame (10) And the anchor through-hole type external PC wall panel 20 is integrally formed,
The anchor hole 100' formed in the reinforced concrete frame 10 is constant in the longitudinal direction of the center of the upper and lower horizontal parts 11 and 12 formed of beams and the left and right vertical parts 13 and 14 formed of pillars, which are structural materials. formed at intervals
The anchor bolt through hole 200 formed in the anchor through hole type external PC wall panel 20 is formed so that the anchor bolt 100 fixed to the anchor hole 100' passes through,
The reinforcing brace 400 integrally formed by strong jointing at each corner where the H-beam 300 and the H-beam 300 meet is inside the anchor through-hole type external PC wall panel 20 in which the opening 30' is formed. is located,
The outer surface of the anchor through-hole type external PC wall panel 20 covers the masonry wall of the reinforced concrete frame 10 and has an external finish leaving only the opening 30 ', so that the anchor through-hole type external PC wall panel 20 is reinforced Seismic structure using an anchor through-hole type external PC wall panel, characterized in that it does not require a separate finishing process after being attached and installed to the concrete frame (10) and is harmonized with the existing reinforced concrete frame (10).
The method according to any one of claims 1 or 9,
The anchor through-hole type external PC wall panel and the anchor through-hole type external PC wall panel are integrally formed on the left and right sides of the same floor or integrally formed in the upper and lower layers and attached to the reinforced concrete frame to be integrally formed. Seismic structure using PC wall panel.





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