KR100442704B1 - Method and structure for reinforcement of ferroconcrete construction by using of exterior tension member - Google Patents

Abstract

The present invention relates to a method for reinforcing external tension members of reinforced concrete structures and structures thereof, and more particularly, to repair and reinforce concrete structures such as slab bridges or girder bridges that are severely damaged due to sagging and cracking due to an increase in overload or traffic volume. In the technique, for efficient fixation of external tension members, an incision groove is formed at both ends of the bottom of the girder or at both ends of the slab bottom until a predetermined size of reinforcing bar is formed, and a face anchor is vertically welded to the raised bar, and the face anchor After penetrating the fitting groove formed in the fixing plate of the fixing unit in the fixing plate, and joining by welding, inserting the anchor bolt into the hole formed in the outer periphery of the fixing plate and injecting the filling solid fire such as epoxy resin or cement mortar to fix the fixing unit After the tension member such as steel wire or steel rod is installed in the anchorage hole of The present invention relates to a method for reinforcing an external tension member of a reinforced concrete structure that increases a load capacity by fixing with a fixture.

Description

METHOD AND STRUCTURE FOR REINFORCEMENT OF FERROCONCRETE CONSTRUCTION BY USING OF EXTERIOR TENSION MEMBER}

The present invention relates to a method for reinforcing external tension members of reinforced concrete structures and structures thereof, and more particularly, to repair and reinforce concrete structures such as slab bridges or girder bridges that are severely damaged due to sagging and cracking due to an increase in overload or traffic volume. In the technique, for efficient fixation of external tension members, an incision groove is formed at both ends of the bottom of the girder or at both ends of the slab bottom until a predetermined size of reinforcing bar is formed, and a face anchor is vertically welded to the raised bar, and the face anchor Penetrate through the fitting groove formed in the fixing plate of the fixing unit, and then join by welding, insert the anchor bolt into the anchor bolt insertion hole formed at the outer periphery of the fixing plate, and inject the filling solid fire such as epoxy resin or cement mortar into the fixing unit. After fixing, install a tension member such as steel wire or steel bar in the anchorage hole of the anchorage. Outside of structures, which increases the load carrying capacity is fixed to the tension member after the tension clamp relates to a reinforcement method and structure.

In general, in reinforced concrete structures, when the load capacity is insufficient, cracking due to bending or deflection occurs in the slab or girder and, if left unattended, ultimately leads to the collapse of the reinforced concrete structure.

Currently, repair reinforcement technology of reinforced concrete structures is largely classified into adhesive reinforcement technology using reinforcing materials such as steel sheets or carbon fibers and external reinforcing material reinforcement technology to be addressed in the present invention.

However, the adhesive reinforcement technology may cause problems such as dropout of the reinforcement material later if the quality control of materials and construction is not performed thoroughly, and it is used in civil structures because of low fatigue strength and low durability when exposed to outdoor air for a long time. This is a difficult situation.

On the other hand, the conventional reinforcement technology using the external tension material is an active reinforcement technology that increases the load capacity of the reinforced concrete structure, and is a very economical and efficient reinforcement technology. It includes bridges such as slab bridges, girder bridges, and other building structures. In the case of girder bridges, the fixing device is installed on the side of the girder to tension the steel wire, and in the case of the slab bridge, the anchor wire is installed at the bottom of the slab by using anchor bolts to tension the steel wire or steel rod to this fixing device. I'm using a fixed method. The existing external tension reinforcement technology requires a large number of anchor bolts because the anchor bolt resists the shear and pull forces acting on the anchorage against the tension of steel wires or rods. As a result, manufacturing and construction costs are increased, the appearance is unsightly, and the use of a large number of anchor bolts causes damage to the reinforced concrete itself.

The present invention has been made to solve such a conventional problem, the method of reinforcing the external tension member in the technique of repairing and reinforcing reinforced concrete structures, such as slab bridges and girder bridges that are severely damaged due to cracks caused by overload or increased traffic volume It is related to the structure. For efficient fixation of external tension members, concrete is removed by forming concrete cutouts at both ends of the slab or both ends of the girder until the bar is exposed to a certain size. Insert the face anchor into the fitting groove formed inside the fixing plate, and then weld and bond between the surface anchor and the fitting groove. Then, fix the anchor bolt to the insertion hole of the fixing plate outer periphery. After fixing the fixing unit by injecting the filling solids such as cement mortar, Is provided in the hole chakdae a tension member such as a steel wire or steel bar and applying a tensile force to the tensioning means to tension member is reinforced by fixing to the next completed fastener.

The present invention by using a surface anchor having a certain size area has a greater resistance to shear force than the conventional use of a plurality of anchor bolts, so as to increase the resistance to the pulling force by welding to the bridge reinforcement The purpose is to.

In addition, if the surface anchor is attached to the axial reinforcement bar by welding, the tension and then coupled with the anchorage to the prestress is applied directly to the axial reinforcement bar to have the effect of increasing the prestress.

In the method and structure of the reinforcing external tension member for reinforcing the damaged portion of the reinforced concrete structure to achieve the above object,

The bottom concrete of the slab bridge is removed to form a narrow and long incision in a constant length or perpendicular direction until the reinforcing bars appear, and the surface anchor is vertically vertically fixed to the bottom of the slab bridge. Welded to protrude, it has a rectangular plate shape and anchor bolt insertion holes are formed on the outer circumferential surface, and a fitting groove of a certain size is formed in the inside of which a face anchor is fitted, and a steel wire penetrates to a constant size in the middle. The surface anchor penetrates into the fitting groove of the fixing plate to which the fixing plate with holes is formed, and then joins by welding. The anchor bolt is inserted into the anchor bolt insertion hole around the fixing plate to fix and fix the fixing unit firmly to the bottom of the slab bridge. And, except for one side of the main surface of the fixing plate, the remaining part is a sealing material between the fixing plate and the concrete surface After sealing it, it is made by injecting the filling solids such as epoxy or cement mortar to combine the cutting groove, the anchorage and the reinforced concrete structure integrally, thereby significantly reducing the size of the anchorage compared to the prior art. The present invention relates to a reinforcing method and a structure having an effect such that the cost is reduced, the appearance is beautiful, and the number of anchor bolts fixing the anchorage to the slab bridge can be significantly reduced, thereby minimizing damage of the slab bridge itself. .

1 is a structural diagram of a cross-section perpendicular to the axial axis of the slab bridge according to the first embodiment of the present invention

Figure 2 is a perspective view of a state in which the fixing unit is mounted on the bottom of the slab bridge according to the first embodiment of the present invention

3 is a cross-sectional view taken along the line A-A of FIG.

Figure 4 is a structural diagram of the axial cutting groove of the slab bridge according to the second embodiment of the present invention

5 is a perspective view of a state in which the anchorage is mounted on the bottom of the slab bridge according to the second embodiment of the present invention;

Figure 6 is a perspective view of the anchorage used in the girder of the girder bridge according to the third embodiment of the present invention

Figure 7 is a perspective view of the surface anchor used in the present invention

8 is a structural diagram for fixing the reinforcing bars when the reinforcing bar is a fifth embodiment of the present invention

9 is a perspective view of a conventional anchorage

<Description of the symbols for the main parts of the drawings>

(1): slab bridge (2): incision groove

(3): rebar (4): fitting groove

(5): tension member (6): anchorage

(7): Anchor bolt (8): Fixture

(9): fixing plate (10): cotton anchor

(11): fixing hole (12): filling solidified fire

(13): rebar 14: side plate

(15): anchor bolt insertion hole (20): anchorage

(30): Reinforcing bar reinforcement (40): Reinforcing bar in right direction

Referring to the configuration and operation of the present invention in detail with reference to the accompanying drawings as follows.

1 is a structural diagram of the axial right angle incision groove of the slab bridge according to the first embodiment of the present invention,

2 is a perspective view of a state in which a fixing device is mounted on a bottom surface of a slab bridge according to a first embodiment of the present invention;

3 is a cross-sectional view taken along the line A-A of FIG.

4 is a structural diagram of an axial cutting groove of a slab bridge according to a second embodiment of the present invention;

Figure 5 is a perspective view of the anchorage mounted in the axial cutting groove of the slab bridge according to the second embodiment of the present invention,

Figure 6 is a perspective view of the anchorage used in the girder of the girder bridge, the third embodiment of the present invention,

7 is a perspective view of a surface anchor used in the present invention,

8 is a structural diagram for fixing the reinforcing bar when the reinforcing bar is a fifth embodiment of the present invention,

9 is a perspective view of a conventional anchorage.

The present invention relates to a method for reinforcing an external tension member for reinforcing a damaged portion of a reinforced concrete structure and a structure thereof, in which the bottom concrete of the slab bridge 1 is removed to have a narrow and long shape in the perpendicular direction or the axial direction until the rebar is exposed. At least one cut groove 2 is formed, and the surface anchor 10 is vertically welded to the reinforcing bar exposed in the cut groove 2 so as to protrude to a predetermined height than the bottom of the slab bridge 1, and The fixing plate 9 of the fixing unit 20 coupled with the protruding surface anchor has anchor bolt insertion holes 15 formed therein, and fitting grooves 4 having a constant size are formed at both inner sides thereof, and at the center thereof. A fixing rod 6 is formed in which a fixing hole 11 in which a tension member 5 such as steel wire or steel rod is installed to a predetermined size is combined.

After coupling the surface anchors 10 to the fitting grooves 4 of the fixing unit 20, the fitting grooves 4 and the surface anchors 10 are welded to each other, and the anchor bolts are inserted into the anchor bolt insertion holes 15. 7) to insert and fix the fixing fixture 20 firmly to the bottom concrete of the slab bridge (1), except for one side of the main surface of the fixing plate (9) the remaining portion of the fixing plate (9) and the sealing material such as silicon After sealing between the concrete surfaces, the filling solidified material 12 such as epoxy resin or cement mortar 12 is injected from the unsealed portion, thereby integrating the incision groove 2, the anchorage 20 and the bridge concrete integrally, and then the anchorage 20 The tension member (5) is installed in the fixing hole (11), and the tension member (5) is tensioned by the tension means at one side of the anchorage (20) and consists of fixing the tension member (5) with the fixture (8).

Hereinafter, the configuration and operation of the present invention in more detail.

At least one narrow and long incision groove 2 of at least one constant size is formed vertically by cutting the concrete surface in the axial orthogonal direction or the axial direction at the bottom of both sides of the slab bridge 1 at the portion where the plurality of anchorages 20 are to be installed. The concrete is removed until the rebar is exposed.

Concrete cutting surface of the cutting groove (2) is good to make the surface anchor 10 to resist the shear force and at the same time to cut vertically to increase the bonding strength of the concrete and the filling solid (12).

The cutaway groove 2 preferably has at least two narrow and long cutaway grooves 2 having a predetermined interval in the direction perpendicular to the throttle or in the direction of the throttle, but a rectangular cutaway groove 2 having a large area. It can also form.

First, referring to Figures 1 to 3 will be described in detail the configuration for welding the two surface anchors 10 in the orthogonal direction of the axial axis of the present invention.

When the bottom concrete of the slab bridge (1) is cut in two places at regular intervals in the direction of the axial axis, and the rebar is exposed in the incision groove (2), a rectangular rectangular face anchor (10) of constant size is vertically abutted and welded. To fix it.

The use of the surface anchor 10 is because the force to resist the shear force than the anchor bolt (7) because the number of anchor bolts (7) can be used less and thereby less damage to the concrete.

Since the reinforcing bars arranged at the bottom of the bridge are arranged in the axial direction as the reinforcing bars, the surface anchors 10 are welded perpendicularly to the reinforcing bars 30 in the axial direction.

Since the surface anchor 10 is welded to the reinforcing bar, the force against the pull force is greater than that of the conventional anchor bolt 7.

In the case where the cutout groove 2 is formed in the perpendicular direction of the throttle, when the face anchor 10 and the axial rebar 30 are welded, one side of the face anchor 10 and a plurality of axial rebar 30 are welded. Is formed.

One side of the surface anchor 10 is welded to the rebar 30 in the axial direction as described above and the other side is projected to a certain height than the height of the bottom of the slab bridge.

When the surface anchor 10 is welded and attached to the axial reinforcing bar 30 as the tensile reinforcing bar, the tension member is coupled to the anchorage 20 to tension the tension member, thereby applying prestress directly to the axial reinforcing bar 30, thereby increasing the prestress. Will have

In the case of a slab bridge in which prestress is introduced into the axial reinforcing bar 30, the face anchor 10 may be welded to the lifting reinforcing bar which is the perpendicular to the axial reinforcing bar so as not to damage the axial reinforcing bar in which the prestress is introduced.

In this case, a plurality of grooves through which the rebar 30 may pass may be formed at one side of the surface anchor 10.

When the process of welding the surface anchor 10 to the reinforcing bar is completed, the fixing fixture 20 is coupled to the surface anchor 10 welded to the rebar.

The fixing plate 9, which is a lower plate of the fixing unit 20, is wider than the incision groove, and a plurality of anchor bolt insertion holes 15 are formed around the fixing plate 9.

In addition, the inside of the fixing plate 9 has a certain size and has a fitting groove 4 corresponding to the surface anchor 10.

In addition, in the middle of the fixing plate (9) is a fixing table (6) having a fixing hole (11) in which a tension member (5), such as steel wire or steel bar, is installed and fixed at a constant size in the center thereof.

Triangular reinforcement plates are welded to both sides of the fixing table 6.

When the fixing member 5 is fixed to the fixing table 6, the fixing member 5 is fixed to the fixing member 6 so as not to be separated from the fixing table 6 using a fixing tool 8 such as a nut or a steel wire fixing tool. Fixing fixture 20 having the structure as described above is in close contact with the incision groove (2) to couple the surface anchor 10 to the fitting groove (4) and then coupled between the surface anchor 10 and the fitting groove (4) by welding. By combining the surface anchor 10 and the fixing unit 20 integrally.

After combining the surface anchor 10 and the fixing unit 20 as described above, the anchor bolt 7 is inserted into the anchor bolt insertion hole 15 formed around the fixing plate 9 to fix the fixing unit 20 to the slab bridge (1). It is more firmly fixed to the bottom of the).

After fixing the fixing unit 20 to the bottom of the slab bridge 1 as described above, only one side of the main surface of the fixing plate 9 is left, and the remaining part is sealed between the fixing plate 9 and the concrete surface with a sealing material such as silicon. Then, the filling solidified material such as epoxy resin or cement mortar 12 is injected between the fixing plate 9 and the concrete surface through an unsealed side space, so that the cutting groove 2 and the fixing plate 9 and the bridge It is to integrate the concrete surface.

If there is no space between the fixing plate (9) and the concrete surface may be filled by inserting a filling solid fire injector by digging a little bit of concrete surface.

Install a plurality of anchorages 20 having the structure as described above at regular intervals on both sides of the bridge, and then install tension members 5 such as steel wires or steel rods in the anchoring holes 11 of the anchoring rods 6 as tensioning means. By tensioning and fixing, it is possible to reinforce the sag slab bridge.

In addition, an embodiment in which two incision grooves 2 are formed at a predetermined interval in the axial direction, which is the second embodiment of the present invention, is identical to the configuration of the first embodiment except for the following points.

That is, referring to FIGS. 4 and 5, the second embodiment forms the incision grooves 2 in the axial direction at regular intervals on the bottom of the bridge, and then reinforces the axial direction in the incision grooves 2. When the 30 and the surface anchors 10 are welded together, the incision grooves 2 are formed in the axial direction, so that the entire surface of one side of each of the surface anchors 10 and each of the axial rebars 30 are welded to each other. Is formed long, and two fitting grooves (4) in the fixing plate (9) of the fixing unit (20) coupled to correspond to the axial direction reinforcement (30) and the two surface anchors (10) welded together There is only a difference in that it is formed in the remaining configuration is the same as the configuration of the first embodiment.

In the third embodiment of the present invention, in the girder bridge, the concrete of the bottom of the girder is removed to form an incision groove 2, and the surface anchor is welded to the axial reinforcing bars, and the fixing plate of the fixing unit 20 is attached to the surface anchor 10. When fixing (9) when fixing the anchor bolt to the fixing plate (9) has a small area, the fixing unit (20) can not withstand the tension and can be separated from the girder, so both ends of the fixing plate (9) of the fixing unit (20) The extension plate is integrally formed with the side plate 14 having the anchor bolt insertion hole 15 formed therein, and then the anchor bolt is inserted into the anchor bolt insertion hole 15 of the side plate 14 so as to reinforce and fix the anchoring hole 20. It is to be firmly fixed to.

In the girder bridge, when the prestress is introduced to the girder, in order not to damage the axial reinforcing bars in which the prestress is introduced, the surface anchors may be welded to the stirrup reinforcement of the girder, and then the anchorage 20 may be used in combination. In this case, only the resistance to shear and pull is increased.

Further, another embodiment of the surface anchor 10, which is the fourth embodiment of the present invention, extends and bends one end or both ends of the surface anchor 10 in the straight surface anchor 10 attached in the axial direction, and then welds it to the rebar. In this case, the fitting groove 4 of the fixing plate 9 should be formed so as to correspond to the bent shape of the surface anchor. When configured in this way, the force that resists shear force is more than that of the flat surface anchor 10 attached in the axial direction. This is further increased.

In addition, according to the fifth embodiment of the present invention, when the incision is formed in the slab bridge, the existing steel is corroded and the surface anchor cannot be attached to the existing steel. After forming holes of a certain size, insert both ends of the reinforcing bars 13, both ends of which are bent at right angles, into the formed holes, and then firmly fix them with epoxy resin, and then join the surface anchors 10 by welding on the reinforcing bars. Since the method is the same as described above, the method of reinforcing by combining the anchorage 20 to the surface anchor 10 is a detailed description thereof will be omitted.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

Since the present invention uses a face anchor, the anchor bolt can be used less because it is more resistant to shear force than the anchor bolt, and thus less damage to concrete can be caused. The force that resists the pulling force is higher than that of the bolt, and the pre-stress is directly applied to the reinforcing bars by fixing the surface anchors by welding and tensioning the reinforcing bars.

Claims (10)

Removing at least one concrete of the bottom of the reinforced concrete structure to form at least one cutaway groove to expose the reinforcing bars; Vertically attaching at least one face anchor to the reinforcing bar exposed in the incision groove; Attaching the fitting grooves formed in the fixing plate of the fixing unit to the surface anchors and then attaching the welding grooves; Fixing the anchorage to the bottom of the bridge by inserting the anchor bolt into the anchor bolt insertion groove formed around the anchoring plate of the anchorage; Injecting a packed solid fire between the fixing plate and the cutout groove of the fixing unit; The method of reinforcing the external tension member of the reinforced concrete structure comprising the step of installing a tension member in the anchorage hole of the anchorage, and tensioned by the tension means and then fixed with a fixture. At least one cutout groove formed at both sides of the bottom surface of the reinforced concrete structure; At least one surface anchor welded vertically to the reinforcing bar exposed in the incision groove; A fixing unit having a fixing plate having a fitting groove coupled to the surface anchor; Filling solidified material is injected between the fixing plate and the cutting groove of the anchorage; An anchor bolt inserted into the anchor bolt insertion hole formed around the fixing plate of the fixing unit; External reinforcing member reinforcement structure of the reinforced concrete structure consisting of a tension member is installed in the anchorage hole of the anchorage. The method of claim 2, The cutting groove is an external tension reinforcement structure of the reinforced concrete structure is formed in the direction perpendicular to the axial axis. The method of claim 2, The cutting groove is a reinforcement structure of the external tension member of the reinforced concrete structure is formed in the axial direction. The method of claim 2, The surface anchor is a reinforcement structure of the external tension member of the reinforced concrete structure is welded to the axial rebar. The method of claim 2, The face anchor is a reinforcement structure of the external tension member of the reinforced concrete structure is welded to the axial orthogonal rebar. The method of claim 2, The surface anchor is an external tension reinforcing member reinforcement structure of the reinforced concrete structure is one end is extended bending. The method of claim 2, The surface anchor is an external tension reinforcement structure of the reinforced concrete structure is formed by extending both ends. The method of claim 2, When the fixing plate of the anchorage is used in the girder of the girder bridge, the outer tension member reinforcement structure of the reinforced concrete structure is further provided with a side plate bent to extend both sides. The method of claim 2, When the reinforcing steel in the cut groove is corroded reinforcement structure of the external tension member of the reinforced concrete structure made by further fixing the reinforcing steel bent both ends in the side hole of the corroded steel.