KR101901435B1 - Seismic rehabilitation method for openings of building of indirect connection method using corrugated steel plates - Google Patents

Abstract

The present invention relates to a seismic reinforcement method for an aperture unit of a building. More specifically, the present invention relates to the seismic reinforcement method for an aperture unit of a building in an indirect connection method using a corrugated steel plate, which allows a connecting material protruding from the front surface of the corrugated steel plate to be bonded with a rear surface of a steel framework by using a welding process or a bolt while a plurality of corrugated steel plates having a width smaller than or equal to that of a column and a beam are attached to the position irrelevant to a reinforcing bar in the longitudinal direction of the column and the beam. Moreover, the reinforcing bar is inserted between the rear surface of the steel framework and the front surface of the corrugated steel plate so as to enable a non-shrink mortar to be charged, thereby integrating with the mortar while enlarging the size of the column or the beam.

Description

Technical Field [0001] The present invention relates to a seismic reinforcement method of an indirect joint type structure using a corrugated steel sheet,

More particularly, the present invention relates to a method for seismic strengthening of openings in buildings, in which a plurality of corrugated steel plates having widths smaller than or equal to the widths of the columns and beams are disposed in the longitudinal direction of the columns and beams In the state of attaching a plurality of the corrugated steel sheets, the connecting material protruding from the front surface of the corrugated steel sheet is joined to the back surface of the steel frame by using welding or bolt, and the reinforcing bars are inserted between the back surface of the steel frame and the corrugated steel sheet, To an integrated structure of an indirect joint method using a corrugated steel sheet which is integrated with the column or beam in an expanded state.

Generally, in buildings, openings such as windows and doors are provided in order to secure visibility and to make the lives of residents more comfortable. In order to secure a space of a certain size or more in such openings, to be.

However, these openings are known to have a higher stress concentration in buildings than other parts, and in particular, it has been found that openings are very weak against lateral loads such as earthquakes.

Furthermore, in the case of reinforced concrete buildings constructed before 1988, when seismic design criteria were established, the seismic performance was not sufficient, and structural damage caused by the openings could cause great damage in case of earthquake.

In order to minimize human and material damage from such earthquakes, a variety of vibration suppression devices are installed in the openings of buildings, structural members such as columns and beams, and seismic reinforcement methods using such vibration suppression devices are widely used in the construction and remodeling of buildings .

The vibration damping device has a structure in which a braced damper in a diagonal direction is installed in an opening frame to dissipate the kinetic energy for reducing the seismic deformation response of the building by the firing hysteresis behavior and the damping during the repeated load caused by the earthquake, Thereby minimizing damage.

However, such a general vibration damping device requires a structural member (for supporting a damper) having a large rigidity such as a column or a beam for installing a damper, so that it is not only difficult to construct between the existing structural member and the damper supporting structural member Second, since it is difficult to secure a separate installation space for a damper, it is difficult to install a vibration suppression device. Especially, in a low-rise building where seismic performance is weak, There is a problem that it is not economically feasible because the cost is excessive. Third, since the brace type damper is installed across the center of the opening, it disturbs the visibility of the occupant so as to deteriorate the living environment, There is a problem of deteriorating the value of a building as a hatch.

To solve these problems, Korean Patent Registration No. 10-1165320 (Open Frame Seismic Retrofit Method for Reinforced Concrete Buildings) and No. 10-1695315 (External Seismic Frame for Building Openings and Seismic Retrofit Method Using the Same) Lt; / RTI >

As shown in FIG. 1, a quadrangular-shaped steel frame 210 is installed inside the opening of the reinforced concrete building, and the lower part of the steel frame is fixed to the lower beam 140 with a fixture 220 And the upper surface of the steel frame 210 is supported by the upper beams. Both ends of the steel frame 210 are supported between the upper and lower columns, An upper steel frame 211 installed to support an upper surface thereof; A pair of vertical steel frames 212 spaced from both pillars and extending downward from the upper steel bottom; A lower steel frame 213 connected to the lower vertical steel frame so as to be connected to each other with a lower portion fixed to the lower frame by fixing members; And a braced steel frame (214) provided on the inner lower portion of the both vertical steel frame and the upper steel frame.

As shown in FIG. 2, the externally mounted type earthquake-resistant frame and the seismic retrofitting method using the same with respect to the building openings are provided with the left and right columns 101 and 101 'forming the opening 100 of the building, Quot; H "-shaped end face steel frame (10, 10 ') which is tightly fixed in correspondence with the angle bars (10, 10' (10, 10 ') fixed to the outer wall of the building, steel frame frames (20, 20') fixed to the angle bars (10, 10 '), and angle bars Is fixed to the beams 102 and 102 'in an externally mounted seismic frame for water openings, in which the tough mortar 30 is filled between the steel frames 10 and 10' and the steel frame 20 and 20 ' Both ends of the angle bars 10 and 10 'and the steel frame 20 and 20' are configured to be closely fixed to the side surfaces of the steel frame 20 and 20 'fixed to the columns 101 and 101' (101, 101 ') A finishing plate 40 is fixed to both ends of the steel frame frames 20 and 20 'so that the toughness mortar 30 between the angle bars 10 and 10' and the steel frame frames 20 and 20 ' And an injection hole 25 is formed in the web 24 of the steel frame 20 or 20 'along the longitudinal direction so that the angle bars 10 and 10' ') And the steel frame 20, 20'.

However, in the seismic retrofitting method, it is necessary to fix the steel frame, that is, the frame, to the column and the beam with a plurality of anchor bolts vertically spaced apart from each other in order to directly fix the frame without moving. There is a problem in that the anchor bolt can not be fixed due to interference between the column and the reinforcing bars installed inside the beam.

In addition, there is a problem that such an earthquake-proofing method has a limitation in expanding the size of a column or a beam.

Korean Patent Registration No. 10-1165320 Korean Patent Registration No. 10-1695315

SUMMARY OF THE INVENTION The present invention has been accomplished in order to solve the above problems, and it is an object of the present invention to provide a steel plate having a plurality of corrugated steel plates each having a width smaller than or equal to the width of the column and the beam, The reinforcing bars are inserted between the back surface of the steel frame and the front surface of the corrugated steel plate, and then the non-shrinking mortar is filled to form a pillar Or an open joint type earthquake-proof reinforcement method using a corrugated steel plate for integrating a beam in an expanded state.

The present invention also relates to a corrugated steel sheet which serves as a structural body in a vertical direction by filling a non-shrinkable mortar or epoxy with a reinforcing net inserted in a protruding portion of a corrugated steel sheet and serving as a shear key in a lateral direction Another object is to provide a seismic strengthening method of an opening structure of an indirect joint type.

In addition, the present invention provides an indirect joint type building opening seismic reinforcement method using a corrugated steel plate that forms a shear connection member on the front surface of a corrugated steel plate, both side surfaces of a joint member, and a rear surface of a steel frame, There is another purpose.

According to an aspect of the present invention,

A method of reinforcing a column and an opening of a building using a steel frame structure, the method comprising: a drilling process for drilling an anchor hole by selecting a position of a corrugated steel plate having a coupling member protruding from a front surface thereof; A corrugated steel plate fixing step of fixing the corrugated steel plate to the anchor holes using an anchor; A reinforcing bar installing step of installing a reinforcing bar on a front surface of the corrugated steel plate; A joining step of joining the back surface of the steel frame with the joining material of the corrugated steel plate using welding or bolts while the steel frame is positioned on the column or the beam; A mold setting step of fixing a mold to both sides of the space between the corrugated steel plate and the column or beam where the reinforcing bars are located and the steel frame; Placing a non-shrinkable mortar or epoxy in the mold; And a step of disposing the mold when the curing is completed and a step of enclosing the mold in a finish material.

Here, the corrugated steel plate is formed so as to be less than or equal to the width of the column and the beam so as to adjust the position of the corrugated steel plate laterally when interfering with the reinforcing bars of the column and the beam.

Here, the corrugated steel plate may have a protruding portion of a rectangular, trapezoidal, or curved shape at its center, a horizontal portion may be formed at both ends of the protruding portion, and anchor through holes may be formed in the horizontal portion in a line- do.

Here, the linking material is welded or bolted in the longitudinal direction at the protruding portion, and is installed in multiple stages.

Here, the front end of the corrugated steel sheet, both side surfaces of the joint member, and the rear surface of the steel frame are provided with shear connectors so as to be integrated with non-shrinkable mortar or epoxy.

Here, the anchor is a chemical anchor.

Here, in the corrugated steel plate fixing step, the protruding portion of the corrugated steel sheet acts as a structural body in the vertical direction and inserts the first reinforcing net into the protruding portion of the corrugated steel sheet so as to act as a shear key in the lateral direction, Shrink mortar or epoxy.

Here, the reinforcing bar is a spiral reinforcing bar whose spacing is adjusted by an external force so as not to interfere with the connecting material.

Here, the reinforcing bar is a second reinforcing bar fabricated in a corresponding manner so as to be located in a space between the connecting material of the corrugated steel sheet and the formwork.

According to the indirect joint type building opening seismic reinforcement method using the corrugated steel sheet of the present invention having the above structure, a plurality of corrugated steel plates having widths smaller than or equal to the widths of the columns and the beams are disposed at positions A plurality of reinforcing bars are attached to the front surface of the corrugated steel sheet and the rear surface of the steel frame is welded or bolted to the front surface of the corrugated steel sheet, After inserting, the non-shrinkage mortar can be filled to enlarge the size of the column or beam and be integrated.

In addition, according to the present invention, a non-shrinkable mortar or epoxy can be filled in the reinforcing net in the protruding portion of the corrugated steel sheet to serve as a structure in a vertical direction and serve as a shear key in a lateral direction.

According to the present invention, a shear connection member may be formed on the front surface of the corrugated steel plate, the both side surfaces of the joint member, and the rear surface of the steel frame to integrate with the shrinkage mortar.

1 is a view for explaining a seismic strengthening method of an opening of a conventional reinforced concrete building.
2 is a view for explaining an externally mounted type earthquake-resistant frame for a building opening and a seismic reinforcement method using the same.
3 is a perspective view showing the construction of a corrugated steel sheet applied to an opening joint seam reinforcement method of an indirect joint type using a corrugated steel sheet according to the present invention.
4 is a process diagram for explaining an open joint seismic strengthening method of an indirect joint method using a corrugated steel sheet according to the present invention.
5A to 5H are process explanatory views for explaining an operation method of an opening joint seam of an indirect joint type using a corrugated steel sheet according to the present invention.
6 to 8 are process explanatory views for explaining an operation method of an indirect joint type building opening seismic strengthening method using a corrugated steel sheet according to another embodiment of the present invention.
9 is a front sectional view showing an inner side of an opening of a building reinforced by an indirect joint type building opening seismic strengthening method using a corrugated steel sheet according to the present invention.
10 is a front view showing a reinforcement of an outer side of an opening of a building according to an indirect joint type building opening seismic reinforcement method using a corrugated steel sheet according to the present invention.

Hereinafter, the structure of a corrugated steel sheet applied to an open joint seam reinforcement method of an indirect joining method using a corrugated steel sheet according to the present invention will be described in detail with reference to the accompanying drawings.

In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The following terms are defined in consideration of the functions of the present invention, and these may be changed according to the intention of the user, the operator, or the like. Therefore, the definition should be based on the contents throughout this specification.

First, the corrugated steel sheet 10 applied to the present invention is formed so as to be smaller or equal to the width of the column and the beam so as to adjust the position of the column and the beam in the left and right direction when interfering with the reinforcing bars of the column and the beam, and has a rectangular, trapezoidal, A horizontal portion 13 is formed on both sides of the end of the protrusion 11 and an anchor through hole 15 is formed in a zigzag shape in the horizontal portion 13. The protrusion 11 is formed in the horizontal portion 13, In the drawings of the present invention, the projections 11 are shown in a trapezoidal shape.

A connecting member 17 is protruded from the front surface of the protruding portion 11. The connecting member 17 is joined to the protruding portion 11 by welding or bolt in the longitudinal direction. In the drawings of the present invention, the connecting member 17 is shown as a plate.

Hereinafter, an indirect seam type building opening seismic strengthening method using a corrugated steel sheet according to the present invention will be described in detail with reference to the accompanying drawings.

4 is a process diagram for explaining an open joint seismic reinforcement method of an indirect joint method using a corrugated steel sheet according to the present invention, and Figs. 5A to 5H are views for explaining an indirect seam seismic strengthening method using a corrugated steel sheet according to the present invention 6 to 8 are process explanatory views for explaining an operation method of an opening joint seam of an indirect joint type using a corrugated steel sheet according to another embodiment of the present invention, 10 is a cross-sectional view showing a structure of an indirect joint method using a corrugated steel plate according to the present invention. Fig. 10 is a cross-sectional view showing an indirect joint type open- Fig. 2 is a front view showing a state in which the outside of the opening of the building is reinforced.

Referring to FIGS. 4 to 10, the open joint seam reinforcement method of the indirect joining method using the corrugated steel sheet according to the present invention includes a perforating step (S10), a corrugated steel sheet fixing step (S20), a reinforcing bar installing step , A joining step (S40), a molding step (S50), a placing step (S60) and a finishing material mounting step (S70).

"Perforation process-S10"

5A, the corrugated steel plate 10 is positioned at a column or a beam 1, and anchor holes H are formed at positions corresponding to the anchor through holes 15 of the corrugated steel plate 10 It punches. At this time, the corrugated steel plate 10 is installed in the column or the beam 1 in two or more longitudinal directions.

"Corrugated steel plate fixing process-S20"

When the drilling of the anchor hole H is completed, the corrugated steel plate 10 is fixed to the anchor hole H using the anchor A as shown in FIG. 5B. At this time, it is preferable that a chemical anchor is applied to the anchor (A). At this time, the protruding portion 11 of the corrugated steel plate 10 serves as a structure body in the vertical direction and is pre-assembled in the protruding portion 11 of the corrugated steel plate 10 as shown in Fig. Shrinkable mortar or epoxy may be filled in the first reinforcing net R1 and the taping or partition may be installed under the protruding portion 11 to prevent the flow of the shrinkage mortar or epoxy. have.

When the non-shrinkable mortar or epoxy is filled in the protruding portion 11, the adhesive force can be increased by flowing to the horizontal portion 13 side.

The non-shrinkable mortar or epoxy may be unfilled in the protruding portion 11 to be filled into the protruding portion 11 when the non-shrinkable mortar or epoxy is poured in the following placing step S50.

"Rebar Installation Process-S30"

When the fixing of each corrugated steel sheet 10 is completed, the reinforcing bars 20 are installed on the front surface of the corrugated steel sheet 10 as shown in Fig. 5C. At this time, it is preferable that a helical reinforcing bar (spiral reinforcing bar) whose gap is adjusted by an external force is applied so as not to interfere with the connecting material 17 of the corrugated steel plate 10.

In addition, as shown in FIG. 7, a pre-assembled second reinforcing bar R2 may be installed instead of a spiral reinforcing bar.

&Quot; Bonding process-S40 "

When the installation of the reinforcing bars 20 is completed, the rear surface of the steel frame frame 30 is welded or bolted to the connecting member 17 of the corrugated steel plate 10 with the steel frame frame 30 positioned on the column or the beam 1. [ . At this time, it is recommended to use the H-shaped steel frame 30, and the steel frame 30 is installed as shown in FIG. 5D when installed inside the building and installed as shown in FIG. 5E when installed outside the building, Provide sufficient resistance. Further, in the drawing, the back surface of the steel frame frame 30 is shown to be joined to the connecting member 17 of the corrugated steel plate 10 by welding.

8, the front end of the corrugated steel sheet 10, both side surfaces of the joint 17 and the rear surface of the steel frame 30 may be provided with a shear connection material SC to be integrated with a non-shrinkable mortar or epoxy have.

"Formwork installation process-S50"

When the installation of the steel frame 30 is completed, the corrugated steel plate 10 and the pillar or beam 1 where the reinforcing bars 20 are located and the frame 30 on both sides of the space between the steel frame 30, as shown in Fig. 40 are fixedly installed. At this time, the formwork 40 can be made of a wood plate, a steel plate, a synthetic resin plate, a Euroform, or the like.

&Quot; Casting process-S60 "

When the installation of the mold 40 is completed, non-shrinkable mortar or epoxy is poured into the mold 40 as shown in FIG. 5G.

"Finishing Material Installation Process-S70"

When the non-shrinkage mortar or epoxy curing is completed, the mold 40 is demolded as shown in FIG. 5H, and is wrapped with the finishing material 50 to complete the installation. At this time, gypsum board, color steel plate, plywood or the like may be attached to the finishing material 50, or bricks or the like may be attached.

Therefore, according to the present invention, it is possible to reinforce the inside or outside of the opening of the building as shown in Figs.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It is to be understood, however, that the invention is not to be limited to the specific forms thereof, which are to be considered as being limited to the specific embodiments, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims. .

1: column or beam 10: corrugated steel plate
11: protruding portion 13: horizontal portion
15: Anchor through hole 17: Connecting material
20: Rebar 30: Steel frame
40: Form 50: Finishing material
A: Anchor H: Anchor hole
SC: Shear connector

Claims (9)

In an earthquake-proof reinforcement method for an opening of a building reinforcing a column and a beam using a steel frame structure,
A connecting member protruding from the front surface and being formed so as to be less than or equal to the width of the column and the beam so as to adjust the position of the column and the beam in the left and right direction when interfering with the reinforcing bars of the beam and having protrusions of a rectangular, A drilling process for drilling the anchor holes by locating the corrugated steel plate having the horizontally formed portions on both sides of the end portions of the protrusions and having the anchor holes formed in a row or in an array of the cores in the horizontal portion;
The first reinforcing bar is inserted into the projecting portion of the corrugated steel plate so that the protruding portion of the corrugated steel plate serves as a structure body in a vertical direction and serves as a shear key in a lateral direction, while the corrugated steel plate is fixed to the anchor hole by using an anchor And a taping or partition is provided at the lower portion of the protruding portion so as to fill non-shrinkable mortar or epoxy therein to prevent the non-shrinkable mortar or epoxy from flowing down to the lower portion, A fixing process;
A reinforcing bar installing step of installing a helical reinforcing bar on the front surface of the corrugated steel plate, the reinforcing bar being spaced by an external force so as not to interfere with the connecting material;
A joining step of joining the back surface of the steel frame with the joining material of the corrugated steel plate using welding or bolts while the steel frame is positioned on the column or the beam;
A mold setting step of fixing a mold to both sides of the space between the corrugated steel plate and the column or beam where the reinforcing bars are located and the steel frame;
Placing a non-shrinkable mortar or epoxy in the mold; And
And a step of disposing the mold when the curing is completed and a step of installing a finishing material for enclosing the mold in the finishing material. delete delete The method according to claim 1,
The connecting member
Wherein the projections are welded in the longitudinal direction using welding or bolts, and are installed in multiple stages, and the seam reinforcement method of the openings of the indirect joint system using the corrugated steel sheet. The method according to claim 1,
On the front face of the corrugated steel plate, both side faces of the connecting member and the rear face of the steel frame,
Wherein the shear connection member is integrated with the non-shrinkage mortar or epoxy. The method according to claim 1,
The anchor
A method of seismic strengthening of openings of buildings with indirect joining method using corrugated steel plates characterized by chemical anchors. delete delete The method according to claim 1,
The reinforcing bars are fixedly installed,
And a second reinforcing bar fabricated in a shape corresponding to the spiral reinforcing bar is disposed in a space between the connecting material and the formwork of the corrugated steel sheet. .

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