KR101522390B1 - Method of seismic retrofit for structural wall using wirerope unit - Google Patents

Abstract

The present invention relates to a method of seismic strengthening of a wall using a wire rope for reinforcing the bending and shearing of a wall. The wall rope and the fixing plate are used to constrain the end of the wall, Thereby enhancing the ductility and strength of the wall to improve the seismic performance of the wall.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of reinforcing a wall of a wall using a wire rope,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for reinforcing the warpage and shear of a wall, and more particularly, to a method for reinforcing the warp and shear of a wall by restricting end portions of a wall using a highly flexible wire rope and a fixing plate, And more particularly, to a method of seismic strengthening of a wall using a wire rope capable of increasing ductility and strength.

The wall is subjected to horizontal and vertical vibration due to earthquake, etc., and when bending moment is applied, it easily cracks, which can result in collapse and even a big human accident. Therefore, The shear strength is improved.

As an existing seismic retrofitting method, X-shaped stiffeners are installed on the wall to improve the shear strength against earthquakes. The X-shaped reinforcement is used for drilling work to fix the inside of the wall or boundary elements , It is necessary to work the joint to connect the stiffener to the auxiliary hardware.

1A is a front view showing a masonry wall reinforcement of the prior art, and Figs. 1B and 1C are cross-sectional views of the upper and lower fixture hardware of Fig. 1A. Fig. It is a perspective view with a wire rope installed.

A plurality of lower fixture hardware 40 having a plurality of eye bolt through holes 55 and wire rope through holes 56 formed on the upper surface of the slab of the building located on both sides of the lower wall of the masonry wall are installed so as to protrude upward in the lateral direction of the masonry wall ,

A plurality of upper fixture hardware 50 corresponding to the position of the lower fixture hardware 40 installed on the slab is installed to protrude downward on the slab or beam side formed at the upper end of the rough wall,

The eye bolts 20 are passed through the eye bolt through holes 43 and 55 of the upper fixture hardware 50 and the lower fixture hardware 40 respectively installed on the slab and the beam, (30) so as to confine the barriers in the lateral direction.

The upper fixture hardware 50 includes a vertical plate 53 fixed to a beam or a slab, a horizontal plate 51 extending horizontally below the vertical plate 53, And a vertical reinforcing plate 52 having an eye bolt through hole 55 and a wire rope through hole 56 formed therein and fixed to the beam or the slab by an anchor fastener 54.

The lower fixing fixture 40 includes a horizontal plate 41 fixed to the upper surface of the slab and a vertically extending vertical member 45 extending vertically from the upper surface of the horizontal plate 41 and having an eye bolt through hole 43 and a wire rope through- And a reinforcing plate 42, and is fixed to the slab by the anchor fastener 44.

The wall reinforcement joints are spaced between the reinforcement and the auxiliary reinforcement, which reduces the effect of shear reinforcement and improves the strength of the wall. Therefore, it is necessary to reinforce the reinforcement in ductility, which is an important factor in seismic performance.

On the other hand, the reinforcing material has a lowered workability due to a complicated joint structure, and reinforces not only the shear performance of the wall but also the bending performance directly related to ductility, thereby improving the strength and ductility of the wall simultaneously. Seismic reinforcement methods are required.

The present invention relates to a fixing device for fixing a wire rope to a fixing plate provided at an end of a wall while fixing a wall end portion at a predetermined interval together with a fixing plate by using the flexibility of a wire rope and arranging a wire rope in an X- ,

It is an object of the present invention to provide a method of reinforcing a wall by using a wire rope capable of easily installing a reinforcing means on a wall and removing a gap that may occur between the wall and the reinforcing means to effectively increase ductility and proof strength of the wall .

According to an aspect of the present invention, there is provided a method of reinforcing an earthquake-proof wall, the method comprising: forming a plurality of through holes spaced a predetermined distance inward from both ends of the wall;

Penetrating the first wire rope through the through hole at the wall end, respectively;

Wherein a fixing plate is provided at both ends of the wall at predetermined intervals and both end portions of the first wire rope penetrate through the annular head portion of the eye bolt and are bound together by a pressing member, And fixing the first wire rope to the fixing plate at both ends of the wall by being fastened to the fixing member by a nut.

According to another aspect of the present invention, there is provided an earthquake-proof reinforcement method for a wall, comprising: forming a plurality of through holes spaced a predetermined distance inward from both ends of a wall, ;

A fixing plate is provided at both ends of the wall at predetermined intervals. One end of the first wire rope passes through the annular head portion of the eyebolt and is joined to the fixing plate at the lowermost one of the wall and the other end by the press- The bolt portion of the eye bolt is inserted into one through hole of the fixing plate and fastened by a nut;

The other end of the first wire rope passes through the lowermost through hole and is inclined upwards on the rear face of the wall to pass through the one through groove and the other through groove on the uppermost fixing plate, Repeatedly installed from the lower part of the wall to the upper part in such a manner as to penetrate the through hole at the upper side of the hole;

The other end of the first wire rope passes through the one through-hole and the other through-hole of the uppermost fixing plate, passes through the uppermost through-hole, passes through the annular head portion of the eye bolt, And the bolt portion of the eye bolt is inserted into the other through hole of the uppermost fixing plate and fastened by the nut so that the first wire rope is spirally wound on the fixing plate at both ends of the wall and fixed .

In the seismic reinforcement method for a wall according to another embodiment of the present invention, one end of a second wire rope is bound to an annular head portion of an eyebolt by a press-fitting member on a fixing plate at an uppermost one end of a wall, The bolt portion of the bolt is inserted into the through hole of the fixing plate and fastened by a nut;

The other end of the second wire rope passes through the annular head portion of the eye bolt and is coupled by the press-fitting member to the fixing plate at the lowermost end of the wall at the other end, and the bolt portion of the eye bolt is inserted into the through hole of the fixing plate Fastening by a nut;

Wherein one end of the second wire rope passes through the annular head portion of the eye bolt and is connected to the fixing plate at the lowermost end of the wall by the press-fitting member, and the bolt portion of the eye bolt is inserted into the through hole of the fixing plate Fastening by a nut;

The other end of the other second wire rope passes through the annular head portion of the eye bolt and is coupled to the fixation plate at the uppermost position at the other end of the wall by the press contact member and the bolt portion of the eye bolt is inserted into the through hole of the fixation plate And fastening the second wire rope in an X-shape on the front and rear surfaces of the wall by being fastened by a nut.

Further, in the seismic reinforcement method for a wall according to another embodiment of the present invention, one end of the second wire rope penetrates through the annular head portion of the eyebolt and is bound to the fixing plate at the lowermost one end of the front surface of the wall by the press- A bolt portion of the eye bolt is inserted into one through hole of the fixing plate and fastened by a nut;

The second wire rope passes through one through hole and the other through hole of the fixing plate at the uppermost position at the other end of the front face of the wall and is wound around the fixing plate at the lowermost end of the rear face of the wall, And the other end of the eye bolt passes through the annular head portion of the eyebolt and is bound by the press-contact member, and the bolt portion of the eye bolt is inserted into the other through hole of the lowermost fixing plate and fastened by a nut;

Wherein one end of the other second wire rope passes through the annular head portion of the eyebolt and is bound by a press-fitting member, and the bolt portion of the eye bolt is fixed to the one through hole of the fixing plate Inserting and fastening by a nut;

The other second wire rope passes through one through-hole and the other through-hole of the fixing plate at the uppermost one end of the front face of the wall, and is wound around the other fixing wire at the other end of the rear wall of the wall, The bolt portion of the eye bolt is inserted into the other through hole of the fixing plate at the lowermost portion and is fastened by the nut so that X and Y are formed on the front and rear surfaces of the wall body, And placing the second wire rope in the shape of a letter.

As described above, according to the present invention, by reinforcing the bending and shearing performance of the wall by using the wire rope and the fixing plate having excellent flexibility at the end and the side of the wall, the proof strength and the ductility of the wall are enhanced to improve the seismic performance of the wall, Thereby facilitating the installation of the wall reinforcing means, thereby improving the workability.

The present invention has the effect of improving ductility at both ends of a wall by restraining both ends of the wall by using a wire rope and a fixing plate excellent in flexibility at both ends of the wall to reinforce the wall.

Further, the present invention has the effect of reinforcing the shear deformation of the wall by reinforcing the front and rear surfaces of the wall in an X-shape by using a wire rope and a fixing plate excellent in flexibility.

FIG. 1A is a front view showing a masonry wall of the prior art reinforced,
Figs. 1B and 1C are perspective views each showing a wire rope installed on the upper and lower fixing hardware of Fig. 1A; Fig.
2 is a front view showing a method of reinforcing an earthquake-proof reinforcement of a wall according to an embodiment of the present invention.
3 is an exploded perspective view showing a first wire rope, an eye bolt, a fixing plate, a nut, etc. of the present invention,
Fig. 4 is a partial perspective view of a part of Fig. 2,
5 is a graph showing the relationship between the load and the lateral displacement in accordance with the volume reinforcement ratio of the first wire rope,
6 is a cross-sectional view showing that a covering layer is formed in a seismic strengthening method of a wall according to the present invention,
7 is a front view showing a seismic strengthening method of a wall according to a second embodiment of the present invention;
FIG. 8 is a partial perspective view of a part of FIG. 7,
9 is a front view showing a seismic strengthening method of a wall according to a third embodiment of the present invention,
Fig. 10 is a partial perspective view of an enlarged portion of Fig.

In order to achieve the object of the present invention, first, a wire rope and a fixing plate excellent in flexibility are used to simplify the construction of the reinforcing means to improve the workability.

Since the reinforcing means fixes the wire rope at the end portion of the wall, a separate work for reducing the spacing from the wall is not required. In addition, fixation which is easily performed by a wire rope and a fixing plate excellent in flexibility can ensure economical efficiency due to shortening of air as well as workability.

Second, to improve the ductility of the wall by effectively restraining the ends of the wall, we used a reinforcement technique using wire rope, fusing plate, and wall drilling.

The wire rope is fastened to the fixing plate provided on the end face of the wall, and at the same time, passes through the perforated portion of the wall and returns to the fixing plate. Such a flexural reinforcement technique using the wire rope and the fixing plate can effectively restrain the end portion of the wall irrespective of the cross-sectional shape of the wall, and in particular, the ductility can be greatly increased because there is no separation of the fixing plate. In addition, tensile steel rope is additionally installed in the reinforced wire rope, which can increase the flexural strength which is insufficient in the existing wall.

Third, high tensile strength wire ropes were used in the X-shaped configuration using the upper and lower fixing plates to effectively control the shear deformation of the wall and to improve the strength of the wall.

Such a shear reinforcement technique can effectively reinforce irrespective of the cross-sectional shape of the wall, since the reinforcement means of a complicated structure is not necessary, and particularly, the shear deformation according to the high tensile force of the wire rope can be effectively controlled.

First Embodiment

3 is an exploded perspective view showing a first wire rope, an eye bolt, a fixing plate, a nut, etc. according to the present invention, and Fig. 4 is an exploded perspective view showing a first wire rope, 2 is an enlarged partial perspective view of part of Fig. 2. Fig.

The method of reinforcing an earthquake-proof reinforcement of a wall according to the first embodiment of the present invention is characterized in that a plurality of through holes 120 penetrating the wall 100 are formed at predetermined intervals from the upper end to the lower end, Process; And one first wire rope 210 is passed through the through hole 120 at the end of the wall 100, respectively.

A fixing plate 300 is installed at both ends of the wall 100 at predetermined intervals and both ends of the first wire rope 210 penetrate the annular head portion 410 of the eye bolt 400, And the bolt portion 420 of the eye bolt 400 is inserted into the through hole 310 of the fixing plate 300 and is fastened to the nut 520, At the end, the first wire rope 210 is fixed to the fusing plate 300.

One end of the second wire rope 220 is passed through the annular head portion 410 of the eye bolt 400 to the fixing plate 300 located at the uppermost end of the wall 100, And the bolt portion 420 of the eye bolt 400 is inserted into the through hole 310 of the fixing plate 300 and is fastened by the nut 520.

The other end of the second wire rope 220 penetrates through the annular head portion 410 of the eye bolt 400 and is connected to the fixing plate 300 at the lowermost position at the other end of the wall 100 by the press- And the bolt portion 420 of the eye bolt 400 is inserted into the through hole 310 of the fixing plate 300 and is fastened by the nut 520.

One end of the second wire rope 220 is passed through the annular head portion 410 of the eye bolt 400 and is pressed by the press fitting member 430 to the fixing plate 300 at the lowermost end of the wall body 100 The bolt portion 420 of the eye bolt 400 is inserted into the through hole 310 of the fixing plate 300 and is fastened by the nut 520,

The other end of the second wire rope 220 penetrates through the annular head portion 410 of the eye bolt 400 and is pressed against the fixing plate 300 at the uppermost position at the other end of the wall 100 by the press- And the bolts 420 of the eye bolts 400 are inserted into the through holes 310 of the fixing plate 300 and are fastened by the nuts 520 so that the X- The second wire rope 220 is installed.

The reinforced concrete structure in which the reinforcing bars 130 are embedded in the reinforced concrete structure is not limited to the steel reinforced concrete structure, but the present invention can be applied to the steel structure, the reinforced concrete structure, the reinforced concrete structure, .

A through hole 120 is formed at a predetermined distance from both ends 110 of the wall 100 to the inside of the wall 100. The through hole 120 is formed so as to completely pass from the front surface of the wall 100 to the rear surface of the wall. do.

A plurality of through holes 120 are formed at predetermined intervals from the top to the bottom of the wall and a through hole 120 formed in the end face of the wall 100 The first wire rope 210 is inserted and penetrated. The diameter of the first wire rope 210 and the second wire rope 220 to be described later is about 6 to 10 mm and the tensile strength is about 1,600 MPa or more.

Such a wire rope is made by twisting a very thin wire and has an advantage that it can be easily carried and installed by an operator because it is very light in weight.

Eye bolts 400 are connected to both ends of the first wire ropes 210 passing through the through holes 120 formed in the wall. The eye bolt 400 is composed of an annular head portion 410 and a bolt portion 420 which are connected to each other by forming an annular portion by joining the overlapped end portions in a state where one end of the wire rope passes through the U-

One end of the wire rope is formed in a U-shape at the annular head portion 410 of the eye bolt 400 so that one end of the wire rope and the wire rope main body form an overlapping portion.

The wire rope is connected to the eye bolt by restraining the overlapping portion. As a means having such a restraining function, both ends of the wire rope can be stably coupled to the eye bolts respectively by using the pressing member 430.

The press-fitting member 430 is made of a piece having both side holes through which the wire rope passes. One end of the wire rope passes through the one hole of the press-fitting member 430 and passes through the annular head portion 410 of the eye bolt 400 in a U-shape and extends through the other hole of the press-fitting member 430 , One end of the wire rope can be connected to the eye bolt 400 by pressing the press-fitting member 430 with the pressure contactor.

A fixing plate 300 is installed at an end 110 of the wall 100 and a fixing plate 300 is a steel flat plate fixed to the end 110 of the wall 100. The fusing plate 300 allows the first wire rope 210 or the second wire rope 220 to be fastened at the end 110 of the wall 100 to secure the position of the rope and to prevent it from escaping.

The fixing plate 300 is formed with at least one pair of through holes 310 so that the bolt portion 420 of the eye bolt 400 can be inserted. In the first embodiment of the present invention, the eye bolts 400 coupled to both ends of the first wire rope 210 at the same height or different height as the fixing plate 300 located at the end 110 of the wall 100 The eye bolt 400 is fixed to the fixing plate 300 by passing the bolt part 420 through the through hole 310 of the fixing plate 300 and tightening them.

3, the bolt portion 420 of the eye bolt 400 is inserted into the through-hole 310 of the fixing plate 300, and the washer 510 is inserted into the end portion of the bolt portion 420, The first wire rope 210 and the eye bolt 400 are fixed to the fixing plate 300 by fastening the first wire rope 210 and the nut 520 together.

Although a single first wire rope 210 is illustrated as being mounted to one fusing plate 300, more than one first wire rope may be installed, The number of through holes 310 required can be adjusted according to the diameter of the wire rope.

Also, a plurality of fixing plates may be integrally formed or assembled into one assembly and installed at both ends 110 of the wall 100.

A first wire rope 210 is inserted through the through hole 120 formed at a predetermined distance from both ends 110 of the wall 100 and a fixing plate 300 is attached to both ends of the wall 100 And are installed at predetermined intervals.

If the nut 520 is tightened by a torque wrench, the first wire rope 210 will be strained and the gap between the fusing plate 300 or the first wire rope 210 and the wall 100 and the distance between the first wire rope 210, .

The first wire rope 210 applies an external force to the end portion of the wall body 100 in the flexural reinforcement direction by the tightening force of the nut 520 to reinforce the wall body 100.

In order to further reinforce the bending proof strength, the cast iron rope 140 may be additionally disposed at the end portion of the wall body 100. As shown in FIGS. 2, 4 and 6, a cast iron 140 is disposed between the both ends 110 of the wall 100 and the through holes 120 at predetermined intervals in the longitudinal direction of the wall 100, , And the cast iron 140 is disposed between the side of the wall 100 and the first wire rope 210.

The volume reinforcement ratio constrained by the first wire rope 210 is 0.001 to 0.008, and the interval of the first wire ropes 210 is 60 to 600 mm by the volume reinforcement ratio. FIG. 5 is a graph showing the relationship between the load and the lateral displacement according to the volume reinforcement ratio by the first wire rope.

Here, the volume reinforcement ratio by the first wire rope is a value obtained by dividing one first wire rope volume by the unit volume, and the unit body is a value obtained by multiplying the interval of the first wire rope by the wall thickness and the length from the wall end portion to the through- to be.

In the seismic strengthening method of a wall according to the first embodiment of the present invention, a second wire rope 220 is formed in an X-shape on one side of the wall 100 to effectively control the shear deformation of the wall, .

One end of the second wire rope 220 is fastened to the fixing plate 300 at the uppermost one end of the wall 100 on the one side of the wall 100 and the lowermost one of the other ends of the wall 100 And the other end of the second wire rope 220 is fastened to the fixing plate 300 in the second fixing member 300. [

One end of another second wire rope 220 is fastened to the fixing plate 300 at the lowermost one of the side ends of the wall 100 and the fixing plate 300 at the uppermost one of the other ends of the wall 100 300, the other end of the second wire rope 220 is fastened.

The configuration in which the eye bolt 400 is coupled to both ends of the second wire rope 220 to fasten both ends of the second wire rope 220 to the fixing plates 300 is similar to that of the first wire rope 210 are coupled to both ends of the eye bolt 400. [

That is, one end of the wire rope is passed through the annular head portion 410 of the eye bolt 400, and one end of the wire rope and the overlapping portion of the wire rope are stably fixed using the press-fitting member 430.

The through holes 310 formed in the uppermost or lowermost fusing plate 300 located at both ends 110 of the wall 100 are provided with bolts (not shown) of the eye bolts 400 coupled to both ends of the second wire rope 220 The second wire rope 220 is fixed to the fixing plate 300 by fastening the washer 510 and the nut 520 to the end of the bolt portion 420 protruded from the fixing plate 300 Is settled.

If the first wire rope 210 or the second wire rope 220 can be fastened to the fixing plate 300, the fastening means for fastening both ends of the wire rope is not limited to the bolt portion and the nut, Appropriate equipment can also be used.

A second wire rope 220 is arranged in an X shape on one side of the wall 100 and a second wire rope 220 is arranged in an X shape on the other side of the wall 100 in the same manner.

By tightening the nut 520 fastened to the bolt portion 420 of the eye bolt 400 passing through the lowermost fixing plate 300, the second wire rope 220 is taut, And the second wire rope 220 are brought into close contact with each other, thereby reinforcing the front end of the wall body 100.

The uppermost or lowermost fusing plate 300 located at both ends 110 of the wall 100 is provided with a first wire rope 210 for restricting the end portion of the wall 100 during the bending reinforcement, And serves to fix the position of the second wire rope 220 which is arranged in the X shape.

The inclination reinforcement ratio of the second wire rope 220 is 0.001 to 0.005, and the number of the wire ropes to be routed can be varied according to the inclined reinforcement ratio. Here, the inclined reinforcement ratio is a value obtained by dividing the total cross-sectional area of the second wire rope by the wall cross-sectional area in the web.

6 is a cross-sectional view showing a coating layer formed in the method of reinforcing an earthquake-proof wall according to the present invention. The fixing plate 300, the eye bolt 400, and the first wire rope 210, The same coating layer 600 may be formed to have a predetermined thickness and the cast iron 140 may be buried in the coating layer 600. [

Such a coating layer 600 prevents deterioration of durability due to corrosion after the wire rope or the like is installed on the surface of the wall 100, thereby preventing the appearance of the wall 100 from being complicated and improving appearance.

Second Embodiment

FIG. 7 is a front view showing a method of reinforcing a wall seismic reinforcement according to a second embodiment of the present invention, and FIG. 8 is a partially enlarged perspective view of part of FIG.

A method of reinforcing an earthquake-proof reinforcement of a wall according to a second embodiment of the present invention includes forming a plurality of through-holes 120 penetrating through a wall 100 at predetermined intervals from the upper end to the lower end at both ends of the wall 100 And one first wire rope 210 is passed through the through-hole 120 at the end of the wall 100, respectively.

A fixing plate 300 is installed at both ends of the wall 100 at predetermined intervals and both ends of the first wire rope 210 penetrate the annular head portion 410 of the eye bolt 400, And the bolt portion 420 of the eye bolt 400 is inserted into the through hole 310 of the fixing plate 300 and is fastened to the nut 520, At the end, the first wire rope 210 is fixed to the fusing plate 300.

One end of the second wire rope 230 penetrates through the annular head portion 410 of the eye bolt 400 and is connected to the fixing plate 300 at the lowermost one end of the front surface of the wall 100 by the press- And the bolt portion 420 of the eye bolt 400 is inserted into the uniaxial through hole 310 of the fixing plate 300 and is fastened by the nut 520.

The second wire rope 230 passes through the one through hole 310 and the other through hole 310 of the fixing plate 300 at the uppermost position at the other end of the front surface of the wall 100, The other end of the second wire rope 230 passes through the annular head portion 410 of the eye bolt 400 and is coupled by the press fitting member 430 to the fixing plate 300 at the lowermost end at one end, 400 is inserted into the other through hole 310 of the fixing plate 300 located at the lowermost position and is fastened by the nut 520.

One end of another second wire rope 230 is passed through the annular head portion 410 of the eye bolt 400 to the pressing member 430 at the lowermost portion of the fixing plate 300 at the other end of the front surface of the wall 100 And the bolt portion 420 of the eye bolt 400 is inserted into one through hole 310 of the fixing plate 300 and is fastened by the nut 520,

The other second wire rope 230 passes through the one through hole 310 and the other through hole 310 of the fixing plate 300 at the uppermost position at one side end of the front face of the wall 100, The other end of the second wire rope 230 penetrates the annular head portion 410 of the eye bolt 400 and is bound by the press fitting member 430 to the fixing plate 300 at the other end of the eye bolt 400, The bolt portion 420 of the bolt 400 is inserted into the other through hole 310 of the fixing plate 300 at the lowermost portion and is fastened by the nut 520 to form X- The second wire ropes 230 are installed.

The method of reinforcing seismic reinforcement of a wall according to the second embodiment of the present invention relates to an example of arranging the second wire rope 230 in an X shape simultaneously on the front and rear surfaces of the wall 100, Are provided around the fixing plate 300 at the uppermost position at both ends of the wall body 100, the structure and operation of the seismic strengthening method are the same as those of the first embodiment described above.

Therefore, in explaining the seismic reinforcement method of the wall according to the second embodiment of the present invention, the same components used in the seismic reinforcement method according to the first embodiment are denoted by the same reference numerals, and detailed description of the structure and function thereof is omitted .

The eye bolts 400 are connected to both ends of the first wire rope 210 passing through the through hole 120 of the wall 100 as shown in FIG. Particularly, both ends of the wire rope can be stably coupled to the eyebolts using the press-fitting member 430, respectively.

At the end 110 of the wall 100, the fixing plate 300 is positioned. At least one pair of through holes 310 are formed in the fixing plate 300 so that the bolt portion 420 of the eye bolt 400 can be inserted.

A second embodiment of the present invention includes an eye bolt 400 coupled to both ends of a first wire rope 210 at the same height or different height as the fusing plate 300 located at the end 110 of the wall 100. [ The first wire rope 210 is fixed to the fixing plate 300 by passing the bolts 420 of the first wire rope 210 through the through holes 310 of the fixing plate 300.

3, the bolt portion 420 of the eye bolt 400 is inserted through the through hole 310 of the fixing plate 300 and is inserted into the washer 510 at the end portion of the bolt portion 420 protruding therethrough, And the first wire rope 210 are fixed to the fixing plate 300 by fastening the nut 520 and the eye bolt 400. [

In the figure, one first wire rope 210 is provided for one fusing plate 300, however, two or more first wire ropes may be provided, which may be a through hole 310 formed in the fusing plate 300 And the number of through holes 310 required can be adjusted according to the diameter of the wire rope.

When two or more first wire ropes 210 are installed, except for the first wire ropes 210 at the top and bottom, some of the first wire ropes are fastened to a fixing plate at a higher position, The one wire rope can be fastened to a fixing plate in a lower position.

Also, a plurality of fixing plates may be integrally formed or assembled into one assembly and installed at both ends 110 of the wall 100.

The first wire rope 210 and the fusing plate 300 are provided in the through holes 120 formed at predetermined intervals in the opposite ends 110 of the wall 100 so that a plurality of first A wire rope 210 and a plurality of fixing plates 300 are installed at predetermined intervals.

When the nut 520 is tightened by the torque wrench, the first wire rope 210 applies an external force to the end portion of the wall body 100 in the direction of flexural reinforcement, so that the reinforcement of the wall body 100 becomes possible.

In the seismic strengthening method of the wall according to the second embodiment of the present invention, in order to effectively control the shear deformation of the wall to improve the proof strength of the wall, the second wire rope 230 ).

First, one end of the second wire rope 230 is fastened to the fixing plate 300 at the lowermost one end of the front surface of the wall 100, and the fixing plate 300 at the top of the other end of the front surface of the wall 100 The other end of the second wire rope 230 is inserted into the through hole 310 of the wall 100 and then inserted into another through hole 310 adjacent to the rear surface of the wall 100 to be wound around the through hole 310.

The fixing plate 300 installed at both ends of the wall 100 may form a pair of through grooves (not shown) with one side opened on both sides. In this case, The second wire rope 230 may be installed in the through hole opened at one side of the fixing plate 300, thereby improving the workability of the work.

The second wire rope 230 wound around the fusing plate 300 at the uppermost position at the other end of the wall 100 has a second through-hole 230 formed at one end of the rear surface of the wall 100, And is fastened by a nut.

The other second wire rope 230 to which one end is fastened to one side of the fixing plate 300 at the lowermost position at the other end of the front face of the wall 100 is connected to the fixing plate 300 And is inserted into another through hole 310 adjacent to the rear surface of the wall 100 so as to be wound around the wall 100 so as to penetrate through the other side of the fixing plate 300 at the other end of the rear surface of the wall 100, And the other end of the two-wire rope 230 is fastened to form the second wire rope 230 in an X-shape on the front and rear sides of the wall 100. [

An eye bolt 400 is attached to both ends of the second wire rope 230 to fasten both ends of the second wire rope 230 to the fixing plate 300 at the lowermost end of the wall 100 at both ends The construction of coupling is the same as the construction in which the eye bolt 400 is coupled to both ends of the first wire rope 210 described above.

That is, one end of the wire rope is passed through the annular head portion 410 of the eye bolt 400, and one end of the wire rope and the overlapping portion of the wire rope are stably fixed using the press-fitting member 430.

The bolt portion 420 of the eye bolt 400 coupled to both ends of the second wire rope 230 is inserted into the through hole 310 formed in the lowermost fusing plate 300 located at both ends 110 of the wall 100, And the second wire rope 230 is fixed to the fixing plate 300 by inserting the washer 510 and the nut 520 into the end portion of the bolt portion 420 projecting from the fixing plate 300 .

If the first wire rope 210 or the second wire rope 230 can be fastened to the fixing plate 300, the fastening means for fastening both ends of the wire rope is not limited to the bolt portion and the nut, Appropriate instruments can be used.

By tightening the nut 520 fastened to the bolt portion 420 of the eye bolt 400 passing through the lowermost fusing plate 300, the second wire rope 230 is taut, And the second wire rope 230 are brought into close contact with each other, so that the wall 100 can be reinforced at the front end.

The uppermost or lowermost fusing plate 300 located at both ends 110 of the wall 100 fixes the first wire rope 210 for restraining the end of the wall 100 during the bending reinforcement, And serves to fix the position of the second wire rope 230 arranged in the X-shape.

In the second embodiment of the present invention, as shown in FIG. 6, a coating layer 600 such as mortar is installed so that the fixing plate 300, the eye bolt 400, and the first wire rope 210, And is formed to have a predetermined thickness.

In order to further reinforce the flexural strength, the cast iron 140 may be additionally disposed at the end of the wall 100 as shown in FIGS. 7 and 8, and the cast iron 140 is embedded in the coating layer 600.

Third Embodiment

FIG. 9 is a front view showing a method of reinforcing a wall seismic reinforcement according to a third embodiment of the present invention, and FIG. 10 is a partially enlarged partial perspective view of FIG.

As shown in these figures, the wall seismic reinforcement method according to the third embodiment of the present invention is characterized in that the wall seismic reinforcement method of the present invention comprises a wall 100, Through holes 120 are formed.

A fixing plate 300 is disposed at both ends of the wall 100 at predetermined intervals. One end of the first wire rope 210 'is fixed to the fixing plate at the lowermost one of the wall and the other end of the wall by an eye bolt 400, The bolt portion 420 of the eye bolt is inserted into the one through hole 310 of the fixing plate 300 and is inserted into the through hole 310 of the fixing plate 300 by the nut 520 Respectively.

The other end of the first wire rope 210 'at one side and the other end of the wall 100 penetrates through the lowermost through hole 120 and is disposed on the rear surface of the wall so as to be inclined upward to one side of the fixing plate above the lowermost fixing plate 300 Through the through hole 120 on the lowermost through hole 120 while passing through the through hole 320 and the other through hole 320 through the through hole 120.

The other end of the first wire rope 210 'is passed through the one through hole 320 and the other through hole 320 of the uppermost fusing plate 300 through the uppermost fusing plate 300 at one side and the other end of the wall 100, Passes through the uppermost through hole 120 and passes through the annular head portion 410 of the eye bolt 400 and is bound by the pressing member 430. The bolt portion 420 of the eye bolt 400 is engaged with the uppermost through hole 120, The first wire rope 210 'at both ends of the wall 100 is inserted into the other through hole 310 of the fixing plate 300 and fastened by the nut 520 to the fixing plate 300, And is settled.

The first wire rope 210 'has one side opened when the first wire rope 210' is installed on the fixing plate 300. The first wire rope 210 ' And the workability of the work can be improved.

In the third embodiment of the present invention, a coating layer such as mortar may be formed to have a predetermined thickness around the end portion of the wall so that the fixing plate 300, the eye bolt 400 and the first wire rope 210 ' In order to reinforce the flexural strength, a cast iron muscle 140 may be disposed at the end of the wall body 100, and the cast iron muscle 140 is embedded in the cover layer.

The method of reinforcing an earthquake-proof wall according to the third embodiment of the present invention is characterized in that one first wire rope 210 'at each end portion 110 of the wall 100 is divided into a plurality of through holes 120 and a plurality of fixing plates The process of installing the second wire rope in the X-shape on the front and rear surfaces of the wall body is the same as that of the first and second embodiments as described below, except that the second wire rope is spirally wound around the wire rope 300.

One end of the second wire rope 230 is passed through the annular head portion 410 of the eye bolt 400 to the fixing plate 300 located at the lowermost one end of the front face of the wall body 100, And the bolt portion 420 of the eye bolt 400 is inserted into one through hole 310 of the fixing plate 300 and is fastened by the nut 520.

The second wire rope 230 passes through the one through hole 310 and the other through hole 310 of the fixing plate 300 at the uppermost position at the other end of the front surface of the wall 100, The other end of the second wire rope 230 passes through the annular head portion 410 of the eye bolt 400 and is coupled by the press fitting member 430 to the fixing plate 300 at the lowermost end at one end, 400 is inserted into the other through hole 310 of the fixing plate 300 located at the lowermost position and is fastened by the nut 520.

One end of another second wire rope 230 is passed through the annular head portion 410 of the eye bolt 400 to the pressing member 430 at the lowermost portion of the fixing plate 300 at the other end of the front surface of the wall 100 And the bolt part 420 of the eye bolt 400 is inserted into one through hole 310 of the fixing plate 300 and is fastened by the nut 520.

The other second wire rope 230 passes through the one through hole 310 and the other through hole 310 of the fixing plate 300 at the uppermost position at one side end of the front surface of the wall 100, The other end of the second wire rope 230 penetrates through the annular head portion 410 of the eye bolt 400 to be fixed to the fixing plate 300 at the lowermost end of the side surface by the press fitting member 430, The bolt portion 420 of the eye bolt 400 is inserted into the other through hole 310 of the fixing plate 300 located at the lowermost portion and is fastened by the nut 520 so that the X- The second wire rope 230 is installed.

The foregoing description is merely illustrative of the technical idea of the present invention and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention.

Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

100: wall 110: section
120: Through hole 140: Cast iron rods
210, 210 ': first wire rope 220, 230: second wire rope
300: Fixing plate 310: Through hole
320: through groove 400: eye bolt
410: annular head part 420: bolt part
430: pressing member 520: nut
600: coating layer

Claims (9)

Forming a plurality of through holes spaced a predetermined distance inward from both ends of the wall and passing through the wall at predetermined intervals from the top to the bottom;
Penetrating the first wire rope through the through hole at the wall end, respectively;
Wherein a fixing plate is provided at both ends of the wall at predetermined intervals and both end portions of the first wire rope penetrate through the annular head portion of the eye bolt and are bound together by a pressing member, And fixing the first wire rope to the fixing plate at both ends of the wall by fastening the wire rope to the nut. Forming a plurality of through holes spaced a predetermined distance inward from both ends of the wall and passing through the wall at predetermined intervals from the top to the bottom;
A fixing plate is provided at both ends of the wall at predetermined intervals. One end of the first wire rope passes through the annular head portion of the eyebolt and is joined to the fixing plate at the lowermost one of the wall and the other end by the press- The bolt portion of the eye bolt is inserted into one through hole of the fixing plate and fastened by a nut;
The other end of the first wire rope passes through the lowermost through hole and is inclined upwards on the rear face of the wall to pass through the one through groove and the other through groove on the uppermost fixing plate, Repeatedly installed from the lower part of the wall to the upper part in such a manner as to penetrate the through hole at the upper side of the hole;
The other end of the first wire rope passes through the one through-hole and the other through-hole of the uppermost fixing plate, passes through the uppermost through-hole, passes through the annular head portion of the eye bolt, And the bolt portion of the eye bolt is inserted into the other through hole of the uppermost fixing plate and fastened by the nut so that the first wire rope is spirally wound on the fixing plate at both ends of the wall and fixed Wherein the reinforcing member is made of a wire rope. 3. The method according to claim 1 or 2,
Wherein one end of the second wire rope penetrates through the annular head portion of the eye bolt and is connected to the fixation plate at the uppermost one end of the wall by the press contact member and the bolt portion of the eye bolt is inserted into the through hole of the fixation plate, ; ≪ / RTI >
The other end of the second wire rope passes through the annular head portion of the eye bolt and is coupled by the press-fitting member to the fixing plate at the lowermost end of the wall at the other end, and the bolt portion of the eye bolt is inserted into the through hole of the fixing plate Fastening by a nut;
Wherein one end of the second wire rope passes through the annular head portion of the eye bolt and is connected to the fixing plate at the lowermost end of the wall by the press-fitting member, and the bolt portion of the eye bolt is inserted into the through hole of the fixing plate Fastening by a nut;
The other end of the other second wire rope passes through the annular head portion of the eye bolt and is coupled to the fixation plate at the uppermost position at the other end of the wall by the press contact member and the bolt portion of the eye bolt is inserted into the through hole of the fixation plate And a step of joining the second wire rope in an X-shape on the front and rear surfaces of the wall by being fastened by a nut to the wall rope, thereby reinforcing the seismic reinforcement of the wall using the wire rope. 3. The method according to claim 1 or 2,
Wherein one end of the second wire rope passes through the annular head portion of the eye bolt and is bound by a press-fitting member, and the bolt portion of the eye bolt is inserted into the one through hole of the fixing plate at one end of the front surface of the wall, And fastened by a nut;
The second wire rope passes through one through hole and the other through hole of the fixing plate at the uppermost position at the other end of the front face of the wall and is wound around the fixing plate at the lowermost end of the rear face of the wall, And the other end of the eye bolt passes through the annular head portion of the eyebolt and is bound by the press-contact member, and the bolt portion of the eye bolt is inserted into the other through hole of the lowermost fixing plate and fastened by a nut;
Wherein one end of the other second wire rope passes through the annular head portion of the eyebolt and is bound by a press-fitting member, and the bolt portion of the eye bolt is fixed to the one through hole of the fixing plate Inserting and fastening by a nut;
The other second wire rope passes through one through-hole and the other through-hole of the fixing plate at the uppermost one end of the front face of the wall, and is wound around the other fixing wire at the other end of the rear wall of the wall, The bolt portion of the eye bolt is inserted into the other through hole of the fixing plate at the lowermost portion and is fastened by the nut so that X and Y are formed on the front and rear surfaces of the wall body, And a step of arranging a second wire rope in a shape of a wire. The method of claim 1 or 2, wherein the through hole passing through the end surface of the wall is formed at the same height as or different from the position of the fixing plate. 3. The method according to claim 1 or 2,
Wherein the volume reinforcement ratio constrained by the first wire rope is 0.001 to 0.008. 3. The method according to claim 1 or 2,
Wherein the reinforcing steel reinforcing bars are arranged between the front or rear surface of the wall and the first wire rope at a predetermined interval in the longitudinal direction of the wall. 8. The method of claim 7,
Further comprising the step of forming a coating layer having a predetermined thickness around the end portion of the wall so that the first wire rope, the fixing plate, and the main iron core are embedded. 4. The method according to claim 3, wherein the second wire rope has an inclined reinforcement ratio of 0.001 to 0.005.

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