KR101508751B1 - Reinforcement apparatus for masonry wall and reinforcement method for masonry wall using that - Google Patents

Abstract

The present invention relates to a reinforcement apparatus for a masonry wall and a reinforcement method for a masonry wall using the same removing both ends of a masonry wall which comes to contact with both columns to reduce a risk of collapse of the masonry wall due to an infilled effect and applying pretension using steel wires in order to maximize a reinforcement effect. According to the present invention, the reinforcement apparatus for a masonry wall to reinforce the masonry wall is formed between the columns and has a space spaced from the columns in an edge near the columns in both end parts of the masonry wall. The reinforcement apparatus for a masonry wall includes: an angle member fixated and installed in the both columns around the center of the masonry wall; and a pretension steel wire unit where both ends are coupled to two angle members where both side columns respectively are installed and including reinforcement steel wires installed to enable predetermined tension to be applied.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a reinforcement apparatus for a masonry wall and a method for reinforcing a masonry wall using the same,

The present invention relates to an apparatus for reinforcing a coarse wall and a method of reinforcing a coarse wall using the coarse wall. More particularly, the present invention relates to a method of reinforcing a coarse wall by removing both ends of the coarse wall contacting the both columns to reduce the risk of collapse of the coarse wall due to the infill effect, To a reinforcing apparatus for reinforcing a masonry wall to maximize a reinforcement effect, and a reinforcing method using the same.

Generally, a method of constructing a wall by using a brick or similar block instead of a reinforced concrete structure is to form a wall by coarsely and horizontally arranging a plurality of bricks or blocks on a concrete floor or foundation.

In the case of such a masonry wall, the shrinkage and expansion action repeatedly occur at the portions where the bricks or blocks are joined due to the change of the surrounding climate, that is, the wind pressure and the temperature, and as the time passes, Partial cracking or dropping occurs in the substrate, which causes damage and causes structural problems.

In addition, such a wall can be cracked easily if the horizontal vibration and the vertical vibration are applied to the wall due to an earthquake or the like and the bending moment is applied, or it can lead to collapse in severe cases.

Therefore, in the prior art, a reinforced block is used to reinforce a masonry wall against an external force such as an earthquake. However, the reinforced block is a technique that can be applied only when a new building is constructed. Since it is impossible to deploy, resistance to lateral loads such as earthquakes is weak. In addition, reinforced concrete construction using bricks is almost impossible.

However, the construction period is long due to various processes and it is uneconomical according to the installation after demolition, and the construction waste is generated and the natural resources are consumed There is a problem in that it is not environmentally friendly.

In addition, the method of attaching the steel plate, carbon fiber and FRP (fiber reinforced polymer), which is one of the conventional method of reinforcing the masonry walls, to the masonry wall using epoxy resin is a method of surface treatment for the masonry wall for adhesion, Therefore, it is not possible to completely cover the wall due to the obstruction of the columns and beams around the wall. Therefore, reinforcing effect is insufficient. Especially, carbon fiber and FRP (fiber reinforced polymer) The method of attaching will incur a great additional cost for maintenance such as peeling of carbon fiber and FRP after construction.

In order to solve such problems, recently, a method of reinforcing a masonry wall using a steel wire has been proposed. However, in the case of the proposed masonry wall reinforcing method, the construction for introducing the tensile force introduced into the steel wire is complicated, There is a problem that it is not easy to judge whether it is introduced or not.

Prior art relating to a method of reinforcing a masonry wall using a wire or a steel wire Korean Patent No. 10-1027393: Two-way and one-way anti-seismic anti-seismic seismic reinforcement method Korean Registered Patent No. 10-0983638: Seismic Retrofit Structure and Method of Existing Buildings

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide an apparatus for reinforcing a masonry wall, which can reinforce a masonry wall against an external force such as an earthquake by applying pre- .

It is another object of the present invention to provide an apparatus for reinforcing a masonry wall by removing both ends of a masonry wall which is in contact with the masonry, thereby eliminating the infilled effect that the masonry walls are completely filled between the masonry, and a method for reinforcing the masonry wall.

In order to achieve the above object, the apparatus for reinforcing a coarse wall according to the present invention is formed between columns to reinforce a coarse wall. At both sides of the coarse wall, spaced spaces are formed at the edges adjacent to the columns, And a reinforcing steel wire which is fastened to two angle members provided at both sides of the column and which is installed so as to apply a predetermined tensile force, Respectively.

Wherein the angle member is an " a " -shaped member extending along the longitudinal direction of the column, the engaging portion being fixed to the column, and a wire extending from the end of the engaging portion to extend along the steel wall, And a plurality of anchor coupling holes extending in a direction orthogonal to the longitudinal direction of the column and spaced apart from each other along the longitudinal direction and having an anchor bolt inserted into the column are formed in the coupling portion, And a loop member to which the reinforcing steel wire is attached is provided at the wire connecting portion.

Wherein the reinforcing steel wire includes a first reinforcing steel wire and a second reinforcing steel wire connected to the one side and the other side of the angle member and the pretension wire wire unit has a resilient force connecting the first and second reinforcing steel wires, It is preferable that a support portion is provided.

Wherein the resilient supporting portion includes a connecting body connected to the first reinforcing steel wire, and a fastening bolt threadedly coupled to the connecting body so as to be drawn in and pulled out and connected to the second reinforcing steel wire,

Wherein the connecting body includes a first connecting member extending along a direction in which the first and second reinforcing steel wires extend, a second connecting member extending downward from one end of the first connecting member and connected to the first reinforcing steel wire, A third connecting member extending downward from the other end of the first connecting member and having a screw hole to which the connecting bolt is screwed, a second connecting member extending from the second connecting member toward the third connecting member, And a support protrusion extending from the third connecting member toward the second connecting member, the support protrusion being disposed on the upper portion or the lower portion of the fourth connecting member so as to be caught by the retaining jaw And a fifth connecting member provided on the fifth connecting member.

The tensile force applied to the first and second reinforcing steel wires reaches a set size in the course of fastening the fastening bolt to the third connecting member such that a tensile force is applied to the first and second reinforcing steel wires, An insertion groove may be formed at a position where the support protrusion can be inserted.

A second body connected to the first body and having a screw hole for screwing a fastening bolt connected to the second reinforcing steel wire; a second body coupled to the first body, The first body includes a first base member, a first engaging member extending from the upper end of the first base member toward the second reinforcing steel wire, and an intermediate member connecting the first and second bodies, And a first stopper member extending from the lower end of the first base member toward the second reinforcing steel wire, wherein the second body includes a second base member having the screw hole formed therein, and a second stopper member extending from the upper end of the second base member, A second stopper member extending from the lower end of the second base member toward the first body so as to be superposed on the first stopper member; Wherein the first stopper member and the second stopper member are formed with protruding projections that engage with the engaging jaws or the insertion grooves formed in the first and second engaging members respectively, May be formed such that both ends of the first and second stopper members and the second stopper member are respectively coupled and deformed when the first and second bodies are mutually stretched by a tensile force.

Wherein the elastic support portion includes a pressing portion provided on the first and second stopper members, a support portion provided on the intermediate member, and a pressing portion provided between the both-side pressing portion and the support portion to press the first and second stopper members 1 and the second latching member, respectively.

The apparatus for reinforcing a coarse wall further comprises a penetrating anchor bolt provided so as to penetrate the rough wall at a position where the reinforcing steel line intersects the steel wire joining member and a steel wire joining member fitted in the through anchor bolt and closely fitting the reinforcing steel wire toward the steel wall, And a fastening nut which is fastened to the through-hole anchor bolt which is fastened with the fastening member to fasten the fastening member in a state pressed against the barrel wall.

Wherein the steel wire connecting member is a cylindrical body having a hollow through which the through-hole anchor bolt can pass, and a coupling groove extending from the circumferential surface toward the hollow and extending along the circumferential direction so that the reinforcing steel wire can be inserted, .

A method of reinforcing a masonry wall using a masonry wall reinforcing apparatus according to the present invention is for reinforcing a masonry wall formed between pillars, wherein a spacing space is formed at both side edges of the masonry wall to separate from the pillar, And a reinforcing steel wire having both ends fixed to an angle member provided on each of the adjacent beams and the pillar, wherein the pre-tensioning steel wire unit is provided with an angle member, And a tensile force setting step of applying a tensile force to the reinforcing steel wire to apply pretension.

Wherein the angle member includes an engaging portion that is fixed to the column and a steel wire connecting portion that extends from the engaging portion along the steel wall, wherein the angle member engaging step includes inserting an anchor bolt into the column, Wherein the anchor bolt is passed through an anchor bolt formed to extend in a direction intersecting the longitudinal direction of the column, and then the fixing nut is coupled to the anchor bolt to fix the angle member to the column, and the pre- tension wire unit includes: A first reinforcing steel wire connected to the first reinforcing steel wire and a second reinforcing steel wire connected to the angle member respectively and a resilient supporting portion connecting the first and second reinforcing steel ribs to each other, As shown in Fig.

Wherein the resilient supporting portion includes a connecting body to be coupled to the first reinforcing steel wire and a fastening bolt that is threadedly coupled to the connecting body so as to be drawn out and drawn and connected to the second reinforcing steel wire, So that tensile force is applied to the first and second reinforcing steel wires.

And a steel wire coupling member fitted to the through-hole anchor bolt so as to closely contact a reinforcing steel wire crossing the front surface of the masonry wall toward the masonry wall is provided on the masonry wall, And a wall through reinforcing unit mounting step of fastening the fastening nut to the through-hole anchor bolt to bring the fastening nut into close contact with the through-hole reinforcing unit.

Further comprising an extension portion extending in a direction orthogonal to the angle member so as to be parallel to an upper side beam or a lower side beam of the structure from one side end portion of the angle member and provided with a loop member to which the reinforcing steel wire can be caught, Is provided at one side corner where the column and the upper side beam intersect each other and in the adjacent area adjacent to the other side corner where the column and the lower side beam meet, the one end of the pre-tension line unit is fastened to one angle member, And a plurality of reinforcing steel wires fastened to the other side angle member located in a diagonal direction, wherein the reinforcing steel wires are installed in parallel with each other.

The apparatus for reinforcing a masonry wall according to the present invention and the method for reinforcing a masonry wall using the masonry wall reinforce the masonry wall in a state in which the impact of the masonry wall is removed, thereby increasing the structural strength of the structure by effectively raising the support strength against external factors such as earthquake There is an advantage.

1 is a perspective view showing a state in which a masonry wall reinforcing apparatus according to the present invention is installed,
Fig. 2 is a partially cutaway perspective view showing the masonry wall reinforcing apparatus of Fig. 1,
3 is a partial cutaway perspective view showing the installation state of the steel wire and the angle,
4 is a partially cutaway perspective view showing another embodiment of an angle member provided with a reinforcing stiffener,
FIG. 5 is a cross-sectional view showing a masonry wall on which the pretension wall reinforcing apparatus of FIG. 1 is installed,
FIG. 6 is a perspective view showing the pretension wire unit of the embodiment of FIG. 1,
Figs. 7 and 8 are a front view of the pretension wire unit of Fig. 6,
9 is a front view showing a second embodiment of the pretension wire unit,
10 is a perspective view showing a third embodiment of the pretension wire unit,
11 is a front view showing a fourth embodiment of the pretension wire unit,
Fig. 12 is a partially cutaway perspective view showing the elastic support portion of the pretension wire unit of Fig. 11,
13 is an exploded perspective view showing the wall penetrating reinforcing unit,
14 is a cross-sectional view of the wall having the wall penetration enhancing unit of Fig. 13 installed.
Fig. 15 is a front view showing another example of installation of the pretension wire unit of Fig. 1. Fig.
16 is a front view showing still another example of installation of the pretension wire unit of Fig. 1;

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features and advantages of the present invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG.

 1 to 8 show a first embodiment of an apparatus for reinforcing a masonry wall according to the present invention.

Referring to the drawings, the apparatus for reinforcing a coarse wall of the present invention is installed in front of and behind a masonry wall provided between a column and a beam, and includes an angle member fixed to both columns with reference to a masonry wall, And a trance tension wire unit for applying pretension.

The angle member is formed so as to have a coupling portion that is coupled to the column and is coupled to the anchor bolt provided on the column, and a steel wire connection portion that extends from the coupling portion along the front surface of the barrel wall.

Particularly, the masonry wall to which the masonry wall reinforcing apparatus of the present invention is applied is formed such that both side ends adjacent to the masonry are separated from the masonry walls by about 5 to 10 cm. At the time of new construction of the building, both ends of the masonry walls should be spaced from the columns, or removal of both ends of the masonry walls in contact with the columns should be carried out.

By forming a space between the masonry wall and the column, it is possible to eliminate the infilled effect due to an external force acting on the structure like an earthquake.

The joining portion is provided to enter into the spacing space between the cast wall and the column, and the steel wire connecting portion is formed to extend from the outer end of the engaging portion.

The coupling portion extends upward and downward so as to be installed on the column and has an anchor coupling hole spaced apart from each other by a predetermined distance along the longitudinal direction. The anchor engagement holes are formed in the shape of a slot extending along a direction intersecting with the longitudinal direction of the engaging portion. The forming of the anchor coupling hole in the shape of the elongated hole is for joining the rear surface of the steel wire connecting portion of the angle member as closely as possible to the entire surface of the steel wall.

After the anchor bolt is inserted into the pillar, the angle member is fastened to the pillar through the anchor bolt, and the fastening nut is fastened to the anchor bolt passing through the fastening part.

In this embodiment, the plate member having the loop member 121 integrally formed with the wire connecting portion 120 is referred to as an alphabet U (U) ), And the ring member 121 is shown as being integrally formed with the steel wire connecting portion 120. Alternatively, the ring member 121 may be integrally formed with the steel wire connecting portion 120 by welding or bolting or riveting Or may be coupled to the wire connecting portion 120 through various connecting means.

In addition, the angle member may further include a reinforcing stiffener having one side and the other side coupled to the joint portion and the steel wire connection portion, as shown in FIG. 4, to enhance the structural strength.

The pretensioning wire unit 200 is for reinforcing the proof strength of the masonry wall 3 against an external force such as an earthquake by applying appropriate tensile forces to both ends of the angle.

As shown in FIG. 1, the pre-tension line unit 200 is connected to one of the two angle members 100 mounted on the two side columns 1, thereby connecting the two side columns 1 to each other As shown in the figure, the pretension wire unit 200 is installed to extend in the inclined direction by connecting the upper end of the one-side angle member 100 and the lower end of the other-side angle member 100.

The pretension wire unit 200 includes first and second reinforcing steel wires 210 and 220 connected to the angle member 100 and first and second reinforcing steel wires 210 and 220, And a resilient supporting portion 230 for tensioning the reinforcing steel wires 210 and 220.

The first reinforcing steel wire 210 and the second reinforcing steel wire 220 are formed in the shape of a ring at their ends so that they can be caught by the loop member 121.

The elastic supporting portion 230 includes a connecting body 231 having one side connected to the first reinforcing steel wire 210 and a second reinforcing steel wire 220 connected to the other side of the connecting body 231 so as to be drawn out, And a fastening bolt 239 connected to the fastening bolt 239.

The connecting body 231 includes first to fifth connecting members 236. The first connecting member 232 extends a predetermined length along the connecting direction of the both side angle members 100, The second connecting member 233 extends downward from one end of the first connecting member 232 toward the first reinforcing steel wire 210 while the third connecting member 234 extends downward from the other end of the first connecting member 232 toward the first connecting wire 232, And extends downward from the other end of the member 232. The second connecting member 233 is connected to the first reinforcing steel wire 210 and the third connecting member 234 is formed with a screw hole 249 for screwing the fastening bolt 239 . And the second connecting member 233 is formed longer than the third connecting member 234.

The fourth connecting member 235 extends from the end of the second connecting member 233 toward the third connecting member 234 and the fifth connecting member 236 extends from the lower end of the third connecting member 234 toward the second connecting member 234, And extends a predetermined length toward the connecting member 233.

The fourth connecting member 235 and the fifth connecting member 236 are arranged in such a manner that the fifth connecting member 236 is connected to the fourth connecting member 234 because of the length difference between the second connecting member 233 and the third connecting member 234, And an end of the fourth connecting member 235 is provided with a latching protrusion 235a protruding toward the fifth connecting member 236. [ A support protrusion 237 is formed on the end of the fifth connecting member 236 to protrude toward the fourth connecting member 235 so that the support protrusion 237 can be caught by the retaining protrusion 235a.

The head bolt 239 is connected to the second reinforcing steel wire 220 and the tensile force applied to the first and second reinforcing steel wires 210 and 220 as the insertion length inserted into the third connecting member 234 becomes longer, As shown in FIG.

Three insertion grooves 238 through which the support protrusions 237 can be inserted are formed on the inner surface of the fourth connecting member 235 such that the insertion grooves 238 are spaced apart from each other along the longitudinal direction. Are formed at positions where the magnitude of the tensile force can be measured when tensile force is applied to the first and second reinforcing steel wires 210 and 220. More specifically, for example, in a state where tensile force to be applied to the first and second reinforcing steel wires 210 and 220 is set to three, the first reinforcing steel wire 210 and the second reinforcing steel wire 210 are connected through a fastening bolt 239 When the support protrusion 237 is inserted into the first insertion groove 238 when the tensile force is increased to the second reinforcement wire 220, the set tensile force is applied to the first reinforcement wire 210 and the second reinforcement wire 220, It can be recognized by the operator. Similarly, when three tension forces are applied to the second and third insertion grooves 238 by inserting the support protrusions 237 into the first and second reinforcement ribs 210 and 220, Tensile force can be applied. Since the operator can easily determine whether the first and second reinforcing steel wires 210 and 220 have a predetermined tensile force without the need for a separate measuring device, And the accuracy of the construction can be increased.

Although the elastic supporting portion 230 of this embodiment is shown as having three insertion grooves 238 formed in the fourth connecting member 235, it is also possible that only one insertion groove 238 is formed In this case, the tensile force applied to the first and second reinforcing steel wires 210 and 220 is limited to one size.

Fig. 10 shows a third embodiment of the resilient support 240. Fig.

The elastic supporting portion 240 of the present embodiment includes first and second bodies 241 and 245 connected to the first reinforcing steel wire 210 and the second reinforcing steel wire 220, respectively.

The first body 241 and the second body 245 have first and second base members 242 and 246 and first and second stopper members 242 and 244 extending from both ends of the first and second base members 242 and 246, The first and second stopper members 244 and 248 and the first and second latching members 243 and 247 extend in parallel to each other so that the first and second latching members 243 and 247 are connected to the first and second latching members 243 and 247, The first body 241 and the second body 245 are each a U-shaped member having one side opened.

The first body 241 has a first engaging member 243 at the upper end of the first base member 242 and a first stopper member 244 at the lower end extending toward the second body 245, The second body 245 is installed so that the second stopper member 248 is disposed on the upper end of the second base member 246 and the second retaining member 247 is extended toward the first body 241, A second stopper member 248 is coupled to a lower portion of the first latching member 243 and a first stopper member 244 is coupled to an upper portion of the second latching member 247. And one end and the other end are interconnected through an intermediate member 253 connecting the first engaging member 243 and the second engaging member 247, respectively. When the first and second reinforcing steel wires 210 and 220 are subjected to a tensile force, the intermediate member 253 is provided with protrusion protrusions 251 formed on the first and second locking members 243 and 247, The first and second bodies 241 and 245 are formed in a curved shape that can be deformed so as to be pulled apart from each other so that the first and second bodies 241 and 245 can be inserted into the insertion groove 252 formed in the first and second bodies 244 and 248, respectively. Of course, the intermediate member 253 may be formed to connect the first stopper member 244 and the second stopper member 248, unlike the present embodiment.

A first reinforcing steel wire 210 is connected to the first body 241 and a threaded hole 249 is formed in which a fastening bolt 239 is screwed to the second base member 246 of the second body 245 The magnitude of the tensile force applied to the first and second reinforcing steel wires 210 and 220 can be adjusted through the insertion length into which the fastening bolt 239 is inserted as in the first embodiment, It is possible to confirm whether or not the tensile force applied to the first and second reinforcing steel wires 210 and 220 is applied.

Figs. 11 and 12 show a fourth embodiment of the elastic support portion 240. Fig.

In this embodiment, the elastic supporting member 240 of the third embodiment is further provided with an elastic member 256. The same members as those of the third embodiment are denoted by the same reference numerals and the detailed description is omitted.

Both ends of the elastic member 256 are supported by the first and second stopper members 244 and 248 of the first body 241 and the second body 245 to support the first and second stopper members 244 and 248, And is urged to be urged toward the second engaging members 243 and 247 side.

The elastic member 256 includes two pushing portions 254 which are in contact with the first and second stopper members 244 and 248 and a support portion 254 which is provided in the intermediate member 253 so as to be positioned between the pushing portions 254 And a spring provided between the support portion 255 and the side pressing portions 254 to bias the pressing portion 254 outwardly. The first and second stopper members 244 and 248 are urged toward the second engaging member 247 and the first engaging member 243 by the elastic member 256 so that the fastening force of the first and second bodies 241 and 245 Can be further increased.

Figs. 13 and 14 show a wall penetration enhancing unit 300. Fig.

The wall penetration augmenting unit 300 is provided so as to penetrate through the masonry walls 3 and to closely contact the first and second reinforcing steel wires 210 and 220 to the side of the masonry wall 3.

A plurality of wall penetration reinforcing units 300 may be formed at a portion of the masonry wall 3 and may include a penetrating anchor bolt 310 passing through the masonry wall 3, Member 320 and a fastening nut 330 screwed to the through-hole anchor bolt 310.

The penetrating anchor bolts 310 are inserted into the through holes at the cement installation position for bonding the bricks to each other in the course of the construction of the wall 3. The installation position of the through- At intersections where they intersect.

After inserting the through-hole anchor bolts 310, the above-mentioned steel wire connecting member 320 is inserted into the through-hole anchor bolts 310 projecting from the masonry wall 3, And the steel wire connecting member 320 is fixed between the clamping nut 330 and the bar wall 3.

The steel wire connecting member 320 is a cylindrical body provided with a hollow 321 through which the through-hole anchor bolts 310 pass, and an engaging groove 322 extending toward the hollow 321 is formed on the outer circumferential surface of the steel wire connecting member 320 in the circumferential direction As shown in Fig. And the other side of the other side is provided with a separating plate 324 spaced apart from the pressing plate 323 so that the coupling groove 322 is formed on the other side of the separating plate 323, A rim 325 protruding toward the tightening plate 323 is formed at the edge of the plate to block the separation of the reinforcing steel lines entering the engaging groove 322.

The joining groove 322 is formed so that the intersecting reinforcing steel wire can be fitted therein and the joining groove 322 is formed in a state where the reinforcing steel wires fastened between the angle members 100 are spaced apart from the barrel wall 3 by a predetermined distance. The steel wire connecting member 320 is closely attached to the wall 3 by the fastening nut 330 in a state of being inserted into the wall 3 so that the steel wires are closely attached to the wall 3. [ Accordingly, the tensile force of the reinforcing steel wire is increased, and the reinforcing steel wires are connected to the masonry wall 3, so that the masonry walls 3 are reinforced by the entire masonry wall reinforcing apparatus 100 more firmly.

Hereinafter, a method of reinforcing a masonry wall using the masonry wall reinforcing apparatus 100 and a construction procedure of the masonry wall reinforcing apparatus 100 will be described.

First, in the case of the expansion and contraction structure, a spacing space is formed such that both side edges of the masonry wall 3 are separated from the column 1 by a predetermined distance when the masonry wall 3 is installed. In the case of reinforced works of existing buildings where the mooring wall 3 is completed, precede the work of forming a spacing space between the mire 1 and the mooring wall 3 by removing both edges of the mooring wall prior to construction.

When this preliminary work is completed, the construction of the full-scale masonry wall reinforcing apparatus 100 starts. The first step is to join the angle member 100 to the column 1 (angle member joining step).

In this step, the anchor bolts 130 are inserted into the column 1 at intervals corresponding to the anchor coupling holes 111 of the angle member 100 and the anchor bolts 130 are inserted into the anchor coupling holes 111 The angle member 100 is fastened to the column 1 so as to pass therethrough. At this time, the joining part 110 is attached to the column 1 so that the steel wire connecting part 120 is also adjacent to the barrel wall 3 as much as possible and the fixing nut 140 is fastened to the anchor bolt 130, 100 are fixed to the column 1.

The second step is to install the pre-tensioning wire unit 200 (pre-tensioning wire unit installation step).

In this step, the first reinforcing steel wire 210 and the second reinforcing steel wire 220 are respectively engaged with the ring member 121 of the angle member 100 provided on both the columns 1 to install the pre-tension wire unit 200 do.

After the pre-tension line unit 200 is installed, tension is applied to the first and second reinforcing steel wires 210 and 220 (tension setting step).

Tension is applied to the first and second reinforcing steel wires 210 and 220 using the elastic supporting part 230 included in the pre-tension wire unit 200. The second reinforcing steel wire 220 and the second reinforcing steel wire 220 are connected to the connecting body 231, The tensile force is applied to the first reinforcing steel wire 210 and the second reinforcing steel wire 220 by adjusting the insertion length of the connecting bolt 239 to be connected. When a fastening bolt 239 is fastened in a direction to be inserted into the connecting body 231 until the fastening protrusion 237 formed on the connecting body 231 is inserted into the fastening hole 238, Since the first reinforcing steel wire 210 and the second reinforcing steel wire 220 are fastened to each other, an operator can easily apply a correct tensile force.

Next, the wall penetrating reinforcing unit 300 is installed (the wall penetrating reinforcing unit 300 is installed).

The penetrating anchor bolts 310 are passed through the barriers 3 and then the steel wire connecting members 320 are inserted into the through holes 33 of the penetrating anchor bolts 310 so as to correspond to the crossing positions at which the reinforcing steel wires intersect. And fastened with a fastening nut 330. [ At this time, the reinforcing steel wires are drawn into the coupling grooves 322 formed on the outer circumferential surface of the steel wire connecting member 320 so that the reinforcing steel wires are brought into close contact with the barrel wall 3 by the steel wire connecting member 320, So that the reinforcement by the unit 200 becomes more rigid.

On the other hand, Fig. 15 shows another example of the installation of the pretension wire unit. 15, the angle member 100 is provided with a reinforcing steel wire 250 extending in a direction perpendicular to the angle member 100 so as to be parallel to the upper side beam 2 or the lower side beam 2 of the structure from one side end, And an extension part (150) provided with a ring member formed so as to be able to receive the ring member.

The extension part 150 is formed integrally with the angle member 100. The angle member 150 is formed by a corner where the column 1 and the upper side beam 2 meet and a corner where the column 1 and the lower side beam 2 Respectively.

One end of the pretension wire unit is fastened to one side of the angle member 100 or the extension 150 and the other end of the pretension wire is connected to the other side of the angle member 100 or the extension 150 in a diagonal direction. A plurality of reinforcing steel wires 250 to which the side angle member 100 or the extending portion 150 is coupled and which are connected to the angle members 100 or the extending portions 150 positioned in mutually diagonal directions, 250 are installed in a direction parallel to the installation direction of the reinforcing steel wires 210, 220 shown in FIG.

An angle member 100 provided at a corner where the left column 1 and the upper beam 2 meet and an angle member 100 provided at a corner where the right column 1 and the lower side beam 2 meet, A first reinforcing steel line (first reinforcing line group) is arranged between the right column 1 and the upper column 2, and an angle member 100 provided at a corner where the left column 1 and the lower beam 2 meet, A plurality of reinforcement lines (a second reinforcement line group) are arranged side by side between the angle members 100 provided at the corners where the beams 2 meet, and the first reinforcement line groups and the second reinforcement line groups cross each other.

The angle member 100 on one side corresponds to 1/3 of the total length of the upper beam 2 or the lower beam 2 from the corner corresponding to 1/3 of the entire length of the column 1 from the corner of the structure To a corresponding point.

On the other hand, Fig. 16 shows another example of the installation of the pretension wire unit. 16, the pretension wire unit includes an angle member 100 provided at a corner where the column 1 and the upper beam 2 meet, and an angle member 100 provided at a corner located in a diagonal direction thereof. And is composed of a plurality of reinforcing steel wires 250 fastened to each other.

One of the reinforcing steel wires 250 has one end fixed to the center of one side corner where the left column 1 and the upper side beam 2 meet and the other side corner positioned in the diagonal direction (The corner where the lower beam 2 meets the lower beam 2)) is fixed at the point corresponding to 1/3 of the entire length of the lower beam 2. [ And the other is fixed at one end to a point corresponding to 1/3 of the total length of the upper beam 1 from one corner, and the other end is fixed at the center of the other corner located in the diagonal direction. The other reinforcing steel wires 250 are arranged side by side between the above-mentioned reinforcing steel wires. Further, reinforcing steel wires are installed so as to intersect with the above-described reinforcing steel wires 250, and the installation structure is installed in the same manner as the above-described reinforcing steel wires.

The apparatus 100 for reinforcing a masonry wall according to the present invention and the masonry wall reinforcing method using the masonry wall reinforcing apparatus 100 according to the present invention can be applied to repairing existing buildings or newly constructed buildings and quickly setting an appropriate level of tensile force It is possible to construct quickly and accurately.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

One; Column 2; Bo
3; Masonry wall 4; Spacing space
10; Masonry Wall Reinforcement
100; Angle member
110; A coupling portion 111; Anchor coupling hole
120; A wire connecting portion 121; Ring member
122; Reinforcing stiffeners 130; Anchor bolt
140; Fixed nut
200; Pretensioned steel wire unit
210; A first reinforcing steel wire 220; Second reinforcing steel wire
230; Elastic support portion 231; Connecting body
232; A first connecting member 233; The second connecting member
234; A third connecting member 235; The fourth connecting member
236; A fifth connecting member 237; Support projection
238; An insertion groove 239; Fastening bolt
240; A resilient supporting portion 241; The first body
242; A first base member 243; The first latching member
244; A first stopper member 245; Second body
246; A second base member 247; The second engaging member
248; A second stopper member 249; Screw hole
251 protrusion projection 252; Insert groove
253; Intermediate member 254; The pressing portion
255; A support unit 256; Elastic member
300; Wall penetration reinforcement unit
310; Through anchor bolts 320; The steel wire-
321; Hollow 322; Joining groove
330; Fastening nut

Claims (14)

delete delete delete And is formed between the columns to reinforce the masonry wall,
Wherein at both side ends of the barrel wall are formed spaced apart from the column at the edge adjacent to the column,
An angle member fixedly installed on both side columns around the barrel wall;
And a pre-tensioning steel wire unit including a reinforcing steel wire fastened to two angle members provided at both ends of the pillar at both ends thereof and installed to apply a predetermined tensile force,
The angle member is an " a " -shaped member extending along the longitudinal direction of the column,
And a steel wire connecting part formed to extend from the end of the engaging part along the steel wall and connected to the reinforcing steel wire,
Wherein the anchor bolt is inserted into the column and is formed with a plurality of anchor coupling holes extending in a direction perpendicular to the longitudinal direction of the column and spaced apart from each other along the longitudinal direction,
And a loop member to which the reinforcing steel wire is attached is provided on the steel wire connecting portion,
Wherein the reinforcing steel wire includes a first reinforcing steel wire and a second reinforcing steel wire connected to one side and the other side of the angle member,
Wherein the pretension wire unit includes a resilient supporting portion for mutually connecting the first and second reinforcing steel wires so as to apply a tensile force thereto,
Wherein the resilient supporting portion includes a connecting body connected to the first reinforcing steel wire, and a fastening bolt threadedly coupled to the connecting body so as to be drawn in and pulled out and connected to the second reinforcing steel wire,
Wherein the connecting body includes a first connecting member extending along a direction in which the first and second reinforcing steel wires extend, a second connecting member extending downward from one end of the first connecting member and connected to the first reinforcing steel wire, A third connecting member extending downward from the other end of the first connecting member and having a screw hole to which the connecting bolt is screwed, a second connecting member extending from the second connecting member toward the third connecting member, And a support protrusion extending from the third connecting member toward the second connecting member, the support protrusion being disposed on the upper portion or the lower portion of the fourth connecting member so as to be caught by the retaining jaw And a fifth connecting member provided on the fifth connecting member. 5. The method of claim 4,
The tensile force applied to the first and second reinforcing steel wires reaches a set size in the course of fastening the fastening bolt to the third connecting member such that a tensile force is applied to the first and second reinforcing steel wires, Wherein the insertion groove is formed at a position where the support protrusion can be inserted. And is formed between the columns to reinforce the masonry wall,
Wherein at both side ends of the barrel wall are formed spaced apart from the column at the edge adjacent to the column,
An angle member fixedly installed on both side columns around the barrel wall;
And a pre-tensioning steel wire unit including a reinforcing steel wire fastened to two angle members provided at both ends of the pillar at both ends thereof and installed to apply a predetermined tensile force,
The angle member is an " a " -shaped member extending along the longitudinal direction of the column,
And a steel wire connecting part formed to extend from the end of the engaging part along the steel wall and connected to the reinforcing steel wire,
Wherein the anchor bolt is inserted into the column and is formed with a plurality of anchor coupling holes extending in a direction perpendicular to the longitudinal direction of the column and spaced apart from each other along the longitudinal direction,
And a loop member to which the reinforcing steel wire is attached is provided on the steel wire connecting portion,
Wherein the reinforcing steel wire includes a first reinforcing steel wire and a second reinforcing steel wire connected to one side and the other side of the angle member,
Wherein the pretension wire unit includes a resilient supporting portion for mutually connecting the first and second reinforcing steel wires so as to apply a tensile force thereto,
A second body connected to the first body and having a screw hole for screwing a fastening bolt connected to the second reinforcing steel wire; a second body coupled to the first body, And an intermediate member interconnecting the first and second bodies,
The first body includes a first base member, a first engaging member extending from an upper end of the first base member toward the second reinforcing steel wire, and a second engaging member extending from the lower end of the first base member toward the second reinforcing steel wire, And a stopper member,
The second body includes a second base member having the screw hole formed thereon, a second stopper member extending from the upper end of the second base member to the first body so as to overlap with the first engaging member, And a second latching member extending from the lower end of the member toward the first body so as to be superposed on the first stopper member,
Wherein the first stopper member and the second stopper member are provided with projecting projections which engage with the engaging jaws or the insertion grooves formed in the first engaging member and the second engaging member, respectively,
Wherein the intermediate member is formed such that both ends thereof are fastened to the first stopper member and the second stopper member, respectively, and when the first and second bodies are mutually stretched by a tensile force, Wall reinforcement. The method according to claim 6,
Wherein the elastic support portion includes a pressing portion provided on the first and second stopper members, a support portion provided on the intermediate member, and a pressing portion provided between the both-side pressing portion and the support portion to press the first and second stopper members 1, and an elastic member adapted to elastically bias the second engaging member toward the second engaging member. delete delete delete To reinforce the masonry wall formed between the columns,
Spaced apart from the column is formed at both side edges of the barrel wall,
An angle member coupling step of installing an angle member on both pillars with reference to the barrel wall;
A pre-tension steel wire unit installation step of installing a pre-tension steel wire unit including reinforcing steel wires each having both ends fixed to an angle member provided on adjacent beams and columns;
And a tensile force setting step of applying a tensile force to the reinforcing steel wire to apply pretension,
Wherein the angle member includes an engaging portion fixed to the column and a steel wire connecting portion extending from the engaging portion along the steel wall,
Wherein the anchor bolt is inserted into the column and the anchor bolt is passed through the anchor coupling hole formed to extend in the direction intersecting with the longitudinal direction of the column, To fix the angle member to the column,
The pretension wire unit may include first and second reinforcing steel wires connected to one side and the other side of the angle member, and a resilient supporting part connecting the first and second reinforcing steel wires to each other,
Wherein the elastic supporting portion is formed so as to be able to pull the first and second reinforcing steel wires in a direction approaching each other. 12. The method of claim 11,
Wherein the resilient supporting portion includes a connecting body which is fastened to the first reinforcing steel wire and a fastening bolt which is threadedly coupled to the connecting body so as to be able to be drawn out and pulled in and connected to the second reinforcing steel wire,
Wherein the tensile force setting step comprises applying a tensile force to the first and second reinforcing steel wires while fastening the fastening bolt to be inserted into the connecting body. delete delete

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