KR101073880B1 - Anchor and Reinforcing Bar mounting device for Concrete Structure Repairing/Reinforcing, Construction Method for Repairing/Reinforcing Concrete Structure - Google Patents

Abstract

The present invention comprises the steps of installing a plurality of anchors on the surface to be repaired and reinforced (for example, ceiling or floor of box-type concrete culvert), installing a reinforcement on the outside of the installed anchor, the finishing material on the outside of the installed reinforcement And providing a filling space between the surface to be repaired and reinforced, and injecting mortar into the provided space.

Description

Anchor and Reinforcing Bar mounting device for Concrete Structure Repairing / Reinforcing, Construction Method for Repairing / Reinforcing Concrete Structure}

The present invention is an anchor and rebar mounting apparatus for repair and reinforcement for structurally stabilizing a culvert (hereinafter referred to as a box culvert), which is formed in a concrete structure, in particular in a rectangular box shape and used as a sewer pipe, a cavity tool, or an electric power tool, and It relates to repair and reinforcement methods.

In general, concrete structures are rapidly shortened over time due to deterioration caused by quality problems, neglected management, mechanical, physical and chemical effects, and the influence of the surrounding environment. That is, according to the deterioration phenomenon, microcracks are generated in the concrete structure, and the microcracks penetrate from the surface of the concrete structure to the inside to promote the peeling and dropping of the concrete, which leads to the reduction of the cross section of the concrete structure. As a result, the concrete structure has a lower load capacity (a force that can withstand the load of the structure).

Concrete structures with reduced load capacity are repaired and reinforced for the purpose of prolonging their service life. In particular, in the case of a concrete structure having a ceiling part such as a box culvert, the reduction of the cross section of the ceiling part may cause the structure to collapse, so it must be repaired and reinforced.

However, if you look at the repair and reinforcement methods of the concrete structure before, the level of the method of increasing the cross-section by filling the mortar in the gap or indented part (object to be repaired and reinforced) or by covering the surface of the object to be repaired and reinforced with a certain thickness. At best, it was not possible to expect an excellent load-bearing effect. Of course, there is a method of attaching an iron plate or a resin impregnated reinforced fiber board to the surface to be repaired or reinforced, but in the case of an iron plate, there is a problem that the strength is sharply lowered due to corrosion and frequent maintenance and repair is required. In the case of the fiberboard, there is a problem in that it is easily detached from the surface to be repaired and reinforced, and the supplementation of the adhesive force is required.

According to an embodiment of the present invention, the anchor body is buried in the front portion to the maintenance and reinforcement object; A rectangular mesh member mounted on a rear portion of the anchor body and buried in a mortar layer overlaid on the surface to be repaired and reinforced, and the mesh member repairs a concrete structure in which a part of the cross member and the longitudinal member are convex. Reinforcement anchors can be provided.

According to an embodiment of the present invention, a mortar that is disposed in the transverse direction of the culvert in the transverse direction of the culvert to the ceiling side of the culvert, which is the surface to be repaired and reinforced, for the repair and reinforcement of the box-shaped culvert which is a concrete structure A mounting apparatus for installing reinforcing bars which are buried in layers and arched at both ends thereof parallel to the center of curvature of the arch, the anchor body being buried in front of each of the left and right side walls of the culvert and facing each other; Rotating members are rotatably coupled to the rear portion of the anchor body, respectively; Provided to the outer periphery of the rotating member is a hole mounted perpendicular to the center of rotation of the rotating member and provided with a reinforcing bar reinforcing device for reinforcing concrete structures including a ring member into which both bent ends of the reinforcing bars are inserted. Can be. At this time, the anchor body and the rotating member may be screwed together.

According to an embodiment of the invention, the step of arranging the surface to be repaired and reinforced the concrete structure; Providing a plurality of anchors on the summarized maintenance and reinforcement surface; Installing a reinforcing material on an outer side of the installed anchor; Providing a finishing material on an outer side of the installed reinforcing material such that a mortar filling space is formed between the surface to be repaired and reinforced; A concrete structure repair and reinforcement method including filling a mortar with a mortar filling space to form a mortar layer may be provided. According to this, the concrete surface (for example, a ceiling, a floor, a side wall, etc.) of various concrete structures, such as a concrete slab, can be repaired and reinforced, and the load capacity of a concrete structure can be improved. At this time, the concrete structure is a box-shaped culvert, the surface to be repaired / reinforced is the ceiling of the culvert, and the reinforcing material is a main muscle arranged in the transverse direction of the culvert; The main power muscles include a back muscles arranged in the longitudinal direction of the culvert, and the main power muscles and the back power muscles are provided in plural numbers, and the reinforcement may have a lattice structure. Alternatively, the surface to be repaired / reinforced is the bottom of the culvert, and the finishing material has a structure in which the left and right bent upwards so that the mortar filling space is formed over the lower ends of the left and right sidewalls of the culvert, and the reinforcement is a wire mesh or lattice type. It can be composed of reinforcing bars.

According to an embodiment of the invention, the step of arranging the surface to be repaired and reinforced the concrete structure; Providing a reinforcing material on the side of the surface to be repaired and reinforced; Providing a finishing material on an outer side of the installed reinforcing bar such that a mortar filling space is formed between the surface to be repaired and reinforced; Filling the formed mortar filling space with a mortar to form a mortar layer, wherein the finish is repairing the concrete structure provided with a concave-convex structure for a firm coupling with the mortar layer on the inner side facing the repair and reinforcement surface ㆍ Reinforcement method can be provided. At this time, the convex convex portion of the concave-convex structure may have a T-shaped cross section.

According to an embodiment of the present invention, a step of arranging the ceiling of the culvert which is the surface to be repaired and reinforced for repairing and reinforcing the box-type culvert which is a concrete structure; Providing a plurality of reinforcing bars in the transverse direction of the culvert as reinforcing materials on the side of the surface to be repaired and reinforced; Providing a finishing material on an outer side of the installed reinforcing bar such that a mortar filling space is formed between the surface to be repaired and reinforced; Filling the formed mortar filling space with a mortar to form a mortar layer, wherein the installed reinforcing bar is the middle of the arch is higher than both ends, the installed finish is configured to have a high arcuate structure than the left and right in the middle The mortar layer may be provided with a repair and reinforcement method for a concrete structure having a curved structure with a concave bottom portion. At this time, the reinforcing bar and the finishing material may have the same curvature and center of curvature of the arch. In addition, the reinforcement work of the reinforcing bar is installed so as to face each other on the left and right side walls of the culvert is coupled to the both ends of the reinforcement, and the mounting device having a rotating unit that rotates about an axis parallel to the transverse direction of the culvert Can be used.

1 is a perspective view showing a concrete structure repaired and reinforced by the method according to the first embodiment of the present invention.
2 is a flowchart showing a repair and reinforcement method according to a first embodiment of the present invention.
3 to 7 are diagrams for each step of the repair and reinforcement method shown in FIG.
3 shows a surface cleaning step for maintenance and reinforcement,
4a and 4b show the anchor installation step,
5a to 5d show the reinforcement installation step,
6a to 6c show the finishing material installation step,
7A and 7B show the mortar filling step.
8 shows an arcuate ratio for the mortar layer formed by the method according to the first embodiment of the present invention.
9 is a perspective view showing a concrete structure repaired and reinforced by the method according to the second embodiment of the present invention.
10 to 14 are diagrams showing step by step repair and reinforcement methods according to a second embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the present invention. For reference, in describing the present invention, the size of the components shown in the accompanying drawings, the thickness of the line, etc. may be somewhat exaggerated for convenience of understanding. In addition, since terms used in the description of the present invention are defined in consideration of functions in the present invention, they may be changed according to intentions of users, operators, and the like. Therefore, the definition of these terms should be based on the contents throughout the specification.

[First Embodiment]

1 is a perspective view showing a concrete structure repaired and reinforced by the method according to the first embodiment of the present invention, wherein the concrete structure shown here is a box culvert 5. As shown in Fig. 1, the method according to the first embodiment makes the ceiling 5c of the box culvert 5 a surface to be repaired and reinforced. The repair and reinforcement structure constructed by the construction method according to the first embodiment includes the anchor 10 and the first target surface 5c installed on the ceiling (hereinafter referred to as the first target surface) 5c of the box culvert 5. And a finishing material 40 to provide a mortar filling space (hereinafter referred to as a first space) (see reference numeral S1 in FIGS. 6A to 6C), a reinforcing material 20 installed in the first space S1, and It includes a mortar layer 70 filled in the first space (S1).

2 is a flowchart showing a repair and reinforcement method according to the first embodiment of the present invention, and FIGS. 3 to 7 are views showing in detail each step of the repair and reinforcement method shown in FIG. The repair and reinforcement method according to the first embodiment proceeds as follows.

1. Surface cleaning step for repair and reinforcement (see Fig. 3)

A section requiring repair and reinforcement is selected from the ceiling 5c of the box culvert 5, and this is the first target surface 5c. Accordingly, the first target surface 5c may be the whole or part of the ceiling 5c of the box culvert 5.

Next, the foreign matter on the first target surface 5c is removed with a grinder or a brush. In addition, when there is a deterioration site | part on the 1st target surface 5c, this deterioration site is removed by concrete chipping operation until good concrete appears. In addition, the rust preventive work can be performed if necessary. Finally, the first target surface 5c is cleaned by using an air gun or the like to remove dust from the first target surface 5c.

2. Anchor (10) installation step (see Figure 4a, 4b)

Figure 4a is a front sectional view showing the anchor 10 installation step, Figure 4b is a perspective view showing the anchor 10.

An anchor 10 made of stainless steel or brass is installed on the arranged first target surface 5c. At this time, preferably at least two per m 2 are installed at uniform intervals.

The anchor 10 includes an anchor body 12 and a reticular member 14. The anchor body 12 is buried in the front portion (leading end portion) on the first target surface 5c, and the rear portion is exposed. The reticular member 14 is formed in a flat rectangular plate shape and is mounted on the rear end side of the exposed portion of the anchor body 12 so as to be perpendicular to the anchor body 12, and the anchor 10 is generally formed in a T shape when viewed as a whole. . The reticular member 14 is also composed of a plurality of cross members 15 and vertical members 16 and has a reticulated structure by the cross members 15 and the vertical members 16, each of which has a mesh member 15. The vertical member 16 is processed so that a portion thereof is convex upward. At this time, the convex portions 15p and 16p of the horizontal member 15 and the vertical member 16 are formed in an arc shape.

3. Reinforcing material 20 installation step (see Fig. 5a to 5d)

5a and 5b are front cross-sectional views showing the installation step of the reinforcement 20, Figure 5c is a perspective view showing a mounting apparatus 30 used for the installation of the reinforcement 20, Figure 5d is a portion B of Figure 5 It is an enlarged view.

In this step, the reinforcing bar (preferably, deformed reinforcing bar) is installed as the reinforcing material 20 under the anchor 10 installed in the anchor 10 installation step. A back muscle 24 is included.

The main roots 22 are installed in the transverse direction of the box culvert 5 and are provided in plurality, and are arranged at regular intervals (preferably equal intervals) to be spaced apart from each other along the longitudinal direction of the box culvert 5. The main root 22 is bent in a curved shape has a high arcuate structure compared to the left and right (both ends).

The mounting apparatus 30 is used for the reinforcement of the main muscle 22 as described above. The mounting device 30 has an anchor body 32 in which the front part, which is a tip part, is buried in the side wall 5s of the box culvert 5 and is fixed while the rear part is exposed to the outside, the anchor body of the mounting device 30. Rotating member 34 rotatably coupled to the rear portion, which is an exposed portion of (32), and a ring member 36 mounted on the outer circumference of the rotating member 34.

Here, the rear part of the anchor body 32 is composed of a screw rod 32s to have a male screw. The rotating member 34 is comprised of the nut which is screwed with this screw rod 32s, rotates about the center of the screw rod 32s, and moves along the longitudinal direction of this screw rod 32s in a rotational direction. The end of the main muscle 22 is inserted into the ring member 36 is coupled. The ring member 36 is disposed such that the hole into which the main muscle 22 is inserted is perpendicular to the center of rotation of the rotating member 34.

The mounting apparatus 30 faces the front left and right side walls 5s of the box culvert 5 at the same time, and is installed at regular intervals along the longitudinal direction of the box culvert 5. Of course, the interval at which the mounting apparatus 30 is disposed along the longitudinal direction of the box culvert 5 is the same as the interval at which the main muscle 22 is disposed. Both ends of the main root 22 are respectively inserted into the ring members 36 of the two mounting apparatus 30 facing each other, and both ends of the main root 22 are curvature of the arch portion of the main root 22 so that this is possible. It is bent parallel to the center.

In the case of the main muscle (22), when the bent end portion is inserted into the ring member 36, the work is performed in a state of upside down to reverse, and then rotated about 180 degrees (rotating member and the ring member together with The center of the arch portion is directed upward (see FIG. 5B). In this process, the two mounting apparatuses 30 facing each other rotate the rotating member 34 between the ring members 36. The interval of the bar is changed to be spaced or approached, it is possible to appropriately adjust the interval between the two ring member (36).

The back muscles 24 are arranged in the longitudinal direction of the box culvert 5 on the upper side of the main root 22, and are provided in plurality, and have a predetermined interval (preferably the same interval) along the transverse direction of the box culvert 5. Spaced apart from one another. The reinforcement muscles 24 thus arranged intersect with the main muscles 22 to form a lattice structure with the main muscles 22, and are bound to the main muscles 22 by the binding wires in this state.

On the other hand, it is described here that after the anchor 10 installation step, proceed to the installation step of the reinforcing material 20, these two steps may be performed in parallel.

4. Finishing step 40 installation step (see Fig. 6a to 6c)

FIG. 6A is a front sectional view showing the finishing material 40 installation step, FIG. 6B is a sectional view taken along the line C-C of FIG. 6A, and FIG. 6C is an enlarged view of part D of FIG. 6A.

In the finishing material 40 installation step, a finishing material 40 serving as a formwork is installed below the reinforcing bars 22 and 24 arranged in a lattice shape, between the finishing material 40 and the first target surface 5c. The first space S1 is provided.

Finishing material 40 is made of a hard vinyl chloride resin. Finishing material 40 has a left and right width similar to the box culvert 5 and the center is formed in a high arch shape compared to the left and right. At this time, the finishing material 40 is preferably formed such that the curvature of the arch and its center are the same as that of the main muscle 22.

The arcuate finishing material 40 is provided with a concave-convex structure on the inner side facing the first target surface 5c, the concave concave portion 42 and the convex convex portion 44 of the concave-convex structure. Is formed in the circumferential direction of the finishing material 40 (the transverse direction of the box culvert). At this time, the convex portion 44 has a T-shaped cross section, and thus, in the case of the recessed portion 42, the concave portion 42 is formed in two stages so that the width of the groove is extended compared to the entrance.

Finishing material 40 includes a reinforcing steel 46 coupled with the uneven structure, the reinforcing steel 46 is formed in a U-shaped cross section, the middle portion covers the convex portion 44 and both parts are The insert 44 is inserted into the convex portion 44 and the neighboring recessed portion 42, respectively.

A plurality of hangers 50 are used for the installation of the finishing material 40, and the hangers 50 are installed to be suspended from the rebars 22 and 24 by the hangers 50. The hanger 50 is preferably connected at its upper end to the power muscle 24. The lower end of the hanger 50 is provided with a hook 52, the hook 52 is fitted to the recessed portion 42 of the finishing material 40 is coupled.

When the setting of the finish 40 is completed, the sealing material 60 is injected between the finish 40 and the left and right side walls 5s of the box culvert 5 to fill the gap. In addition, the space (first space) between the first target surface 5c and the finishing material 40 also shields the opened front and back with a sealing material (not shown). At this time, mortar is used as the sealing material. And although not shown, one of the sealing portion is embedded with a mortar injection tube.

For reference, the finishing material 40 is configured to be coupled in series with each other along the longitudinal direction of the other finishing material 40 and the box culvert (5).

5. Mortar filling step (see FIGS. 7A and 7B)

7A is a front sectional view showing a mortar filling step, and FIG. 7B is a sectional view taken along the line E-E of FIG. 7A.

Mortar is injected into the first space S1 between the first target surface 5c and the finish material 40, that is, the first space S1, using the mortar injection tube installed in the finishing material 40 installation step. Charge the mortar. According to this, a mortar layer 70 having a curved concave bottom is formed between the first target surface 5c and the finish 40. That is, the mortar layer 70 having an arch structure is formed.

In the repair / reinforcement structure constructed by the method according to the first embodiment as described above, the mortar layer 70 having an arch structure distributes various loads from the upper side to the left and right side walls 5s of the box culvert 5. It delivers structurally improved stability. At this time, the structure in which the arch curvature and the center of curvature of the mortar layer 70 are the same as the main root 22 and the finish 40 ensures the uniformity of stress transmission.

The anchor 10 increases the adhesion between the box culvert 5 and the mortar layer 70 to help integrate between the two. The reinforcing bars 22 and 24 of the lattice structure reinforce the mortar layer 70 and prevent deformation of the finish 40 due to the mortar injection pressure when the mortar is injected into the first space S1. The finishing material 40 is firmly coupled to the mortar layer 70 because the mortar injected into the mortar in the first space S1 is filled in the recess 42. Since the finishing material 40 corresponds to the surface in the repair and reinforcement structure, the finish 40 is protected from the external harmful environment (gas and various pollutants, etc.) and the repair and reinforcement structure such as the mortar layer 70.

8 shows a preferred arcuate ratio of mortar layer 70. The arcuate structure has a different ratio of axial force and moment generated in the structural member according to the ratio of span (L) to rise (H). Accordingly, the mortar layer 70 preferably has a horizontal (L) -vertical (H) ratio of the arch of 12: 1 or less so that the axial force is dominant in the member force generated in the structure.

[Second Embodiment]

9 is a perspective view showing a concrete structure repaired and reinforced by the method according to the second embodiment of the present invention, Figures 10 to 14 is a step showing the repair and reinforcement method according to a second embodiment of the present invention. As shown in the drawing, the construction method according to the second embodiment has the same structure and other functions as compared with the first embodiment, and the bottom 5b of the box culvert 5 is to be repaired and reinforced. The only difference is that the reinforcement 20A and the finish 40A are configured differently.

To explain this, the construction method according to the second embodiment also includes the surface cleanup step (see FIG. 10), anchor 10A installation step (see FIG. 11), reinforcement 20A installation step (see FIG. 12), The finishing material 40A installation step (see Fig. 13) and the mortar filling step (see Fig. 14), first, concrete for the bottom (hereinafter referred to as the second target surface) 5b of the box culvert 5 The second object surface 5b is arranged by chipping and washing, and an anchor 10A is provided on the arranged second object surface 5b.

Next, after installing a grid-shaped wire mesh as the reinforcing material 20A on the second target surface 5b so as to be located above the anchor 10A, the mortar filling space (hereinafter, referred to as the reinforcing material 20A) is disposed between the second target surface 5b. In order to form the second space (S2) (S2), the finishing material 40A is installed on the upper side of the reinforcing material 20A, and the gap is sealed by the sealing material 60A as in the first embodiment.

Here, the finishing material 40A is not arcuate in comparison with that in the first embodiment, but is formed in a U-shape that is flat in the middle and both left and right bent upwards, so that the second space S2 is the second target surface. On 5b, it is provided over the lower end part of the left side wall 5s of the box culvert which is right and left. Also in the case of the reinforcing material 20A, it is preferably formed to have the same shape as the finishing material 40A. In the installation of the reinforcing material 20A, a support for separating the reinforcing material 20A from the second target surface 5b by a predetermined distance may be used.

On the other hand, the application of the wire mesh as the reinforcing material (20A) here is because it does not require the load capacity reinforcement of the box culvert 5, on the contrary, when the load capacity reinforcement is required on the contrary, the reinforcing bar reinforcement in the grid shape as the reinforcing material (20A) can be used Can be. Of course, the support can also be used in the reinforcement reinforcement as in the wire mesh installation.

Finally, when mortar is inject | poured into the 2nd space S2 and the mortar layer 70 is formed, repair and reinforcement with respect to the bottom 5b of the box culvert 5 will be completed.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention.

5: box culvert 5b: bottom of the box culvert
5c: ceiling of box culvert 5s: side wall of box culvert
10, 10A: anchor 20, 20A: reinforcement
22: the main muscle 24: large muscle
30: mounting device 32: anchor body
34: rotating member 36: ring member
40, 40A: Finish 50: Hanger
50A: support 60, 60A: sealing material
70, 70A: Mortar layer S1, S2: Mortar filling space

Claims (9)

An anchor body in which the front part is buried in the repair and reinforcement object;
A reticular member mounted to a rear portion of the anchor body and buried in a mortar layer overlaid on the surface to be repaired and reinforced,
The reticular member is an anchor for repairing and reinforcing concrete structures in which part of the cross member and the longitudinal member are convexly processed. For repair and reinforcement of box-type culverts, which are concrete structures, arched and placed on the ceiling side of the culvert, which is the surface to be repaired and reinforced, in the transverse direction of the culvert and buried in the mortar layer that is overlaid on the surface to be repaired and reinforced. Mounting device for installing rebar bent so that the end is parallel to the center of curvature of the arch,
An anchor body in which front portions are buried in the left and right sidewalls of the culvert, and oppose each other;
Rotating members rotatably coupled to rear portions of the anchor body, respectively;
Reinforcing and mounting reinforcement for the concrete structure including a ring member which is mounted around the rotating member so as to be perpendicular to the center of rotation of the rotating member, respectively, and each of the bent ends of the reinforcing bar is inserted. The method according to claim 2,
The anchor body and the rotating member is screwed to each other concrete structure repairing and reinforcing reinforcing bar mounting device. Arranging the repair and reinforcement surface of the concrete structure;
Providing a reinforcing material on the side of the surface to be repaired and reinforced;
Providing a finishing material on an outer side of the installed reinforcing bar such that a mortar filling space is formed between the surface to be repaired and reinforced;
Filling the mortar with the formed mortar filling space to form a mortar layer,
The finishing material is a repair and reinforcement method for a concrete structure provided with an uneven structure on the inner side facing the repair and reinforcement surface. The method according to claim 4,
The convex convex portions of the concave-convex structure have a T-shaped cross section. Arranging the ceiling of the culvert, which is the surface to be repaired and reinforced, for repairing and reinforcing the box-type culvert which is a concrete structure;
Providing a plurality of reinforcing bars in the transverse direction of the culvert as reinforcing materials on the side of the surface to be repaired and reinforced;
Providing a finishing material on an outer side of the installed reinforcing bar such that a mortar filling space is formed between the surface to be repaired and reinforced;
Filling the mortar with the formed mortar filling space to form a mortar layer,
The installed reinforcing bar has a high arch shape at both ends thereof,
The installed finishing material is configured to have a high arcuate structure in the center of the left and right, and the mortar layer has a concave curved structure of the lower concave. The method of claim 6,
The reinforcing bar and the finishing material is a concrete structure repair and reinforcement method of the same curvature and center of curvature of the arch. The method of claim 6,
The reinforcing work of the reinforcing bar is installed so as to face each other on the left and right side walls of the culvert is coupled to both ends of the reinforcement, and a mounting device having a rotating unit that rotates about an axis parallel to the transverse direction of the culvert is used Repair and reinforcement of concrete structures. The method according to claim 4 or 6,
The concrete structure repair and reinforcement method further includes the step of installing a plurality of anchors on the surface of the repair and reinforcement to be arranged before the finishing material installation step,
The reinforcement is a concrete structure repair and reinforcement method is provided on the outside of the anchor provided.

Images