KR102080389B1 - The method for checking and repairing the cracks in Concrete Structures - Google Patents

Abstract

The present invention relates to a crack check and crack repair method in a concrete structure, comprising the steps of preparing a gauge marked in the longitudinal direction on the outer peripheral surface of the gauge, drilling a hole in the inner direction at the bottom of the concrete structure, wherein the The hole is formed deeper than the reinforcement position in the concrete structure, the step of installing the gauge in the perforated hole, when the deflection occurs at the lower end of the concrete structure due to the cracks occurring in the concrete structure, the change in the scale of the gauge Checking the occurrence of cracks through, connecting the reinforcement liquid injector to the outer end exposed to the outside of the gauge, injecting the reinforcement liquid through the hollow formed in the longitudinal direction inside the gauge and the injected reinforcement liquid is Formed in communication with the hollow under one end of the gauge Even from a single injection hole is injected toward the cracking unit in the concrete structure characterized by comprising the step of repairing a crack in a concrete structure.
According to the present invention, whether or not a crack occurs in a concrete structure can be easily and conveniently checked through a gauge that is exposed to the outside, and cracks of the reinforcement liquid are directly connected to the gauge when the crack is confirmed through the gauge. By injecting into the site of development, cracks in the concrete structure can be repaired immediately.

Description

The method for checking and repairing the cracks in Concrete Structures}

The present invention relates to a crack check and crack repair method in a concrete structure, and more particularly, preparing a gauge marked in the longitudinal direction on the outer circumferential surface of the gauge, drilling a hole in the inner direction at the bottom of the concrete structure, Installing the gauge in the perforated hole; if deflection occurs at the lower end of the concrete structure due to cracks occurring in the concrete structure, checking for crack generation through a change in scale of the gauge; Connecting a reinforcement liquid injector to the exposed outer end, injecting the reinforcement liquid through a hollow formed in the longitudinal direction inside the gauge, and forming the injected reinforcement liquid in communication with the hollow under one end of the gauge; Cracking in the concrete structure through at least one injection hole By providing the crack check and crack repair method in the concrete structure which is injected into the generating part to repair the crack in the concrete structure, it is easy and convenient to check the occurrence of the crack in the concrete structure through the gauge exposed to the outside. When the crack is confirmed through the gauge, the reinforcement liquid injector may be directly connected to the gauge to inject the reinforcement liquid into the crack generation site to immediately repair the crack in the concrete structure.

In general, a crack in a concrete structure is used by a structure or a structural member such as a design error, an external load exceeding a design load, poor construction, poor performance due to physical damage, explosion, impact, steel corrosion, etc. Structural cracks that occur when structural support is not supported, as well as plastic shrinkage cracks, plastic settlement cracks, temperature cracks due to hydration heat, dry shrinkage cracks, cracks by alkali-aggregate reactions, and freeze-thawing There are nonstructural cracks such as cracks, salt cracks, and the like. As the cracks of the concrete structure have problems such as structural defects, deterioration in durability, appearance damage, and poor waterproofing performance, cracks may occur. In the case of), appropriate measures should be taken as soon as possible.

As described above, as a repair method for cracks generated in concrete structures, various methods such as cross-sectional recovery, cross-sectional enlargement, glass fiber adhesion, and carbon fiber adhesion are currently widely applied to concrete structures in which cracks have occurred.

However, even after reinforcement of the concrete structure, the corrosion and expansion of the steel embedded in the concrete structure due to moisture and salinity or internal factors introduced from the top of the structure over time, resulting in the interior of the concrete structure, in particular reinforcement Additional cracks may be generated at and near this buried site. In particular, when oxidation and corrosion progress in reinforcing steel bars embedded in the concrete structure, the volume expands by about 2.6 times, causing cracks in the concrete structure, so that the lower end of the concrete structure sags downward. .

Therefore, it is necessary to continuously check and manage the occurrence of additional cracks in the reinforced structure even after reinforcing the concrete structure. In particular, it is easy and convenient to check the occurrence of cracks in the concrete structure through a gauge that is exposed to the outside. Then, when the occurrence of deflection of the bottom of the concrete is detected in the gauge, a method for efficiently repairing cracks by simply injecting a reinforcing liquid using such a gauge itself was required.

Accordingly, the present inventors can easily check the occurrence of additional cracks after reinforcement by developing a gauge that can be used for crack check and repair in a concrete structure including reinforcing bars and a crack check and crack repair method using such a gauge. Of course, when the crack is generated by connecting the reinforcing solution injector to the gauge to reinforce the reinforcing solution by injecting the crack generation zone.

An object of the present invention is to solve the conventional problems as described above, it is possible to check easily and conveniently through the gauge that is exposed to the outside of the occurrence of cracks in the concrete structure, furthermore, reinforcement liquid injector The direct connection to the gauge is to inject the reinforcement into the cracking site so that the cracks in the concrete structure can be repaired immediately.

In order to achieve the above object, a crack check and crack repair method in a concrete structure according to the present invention comprises preparing a gauge marked in the longitudinal direction on the outer circumferential surface of the gauge, the hole in the inner direction at the bottom of the concrete structure Drilling, wherein the hole is formed deeper than the reinforcement position in the concrete structure, and installing the gauge in the perforated hole, when deflection occurs at the lower end of the concrete structure due to a crack occurring in the concrete structure, Checking crack generation through a change in scale of the gauge, connecting a reinforcement liquid injector to an outer end exposed to the outside of the gauge, and injecting the reinforcement liquid through a hollow formed in a longitudinal direction in the gauge; The injected reinforcement liquid is placed below one end of the gauge. Is injected toward the cracking unit in the concrete structure via at least one injection hole is formed to be in communication with the hollow fiber characterized in that it comprises the step of repairing a crack in a concrete structure.

Preferably, the injection hole of the gauge is formed corresponding to the vicinity of the reinforcing bar in the concrete structure.

More preferably, one end of the gauge is of a pointed shape, the gauge is fixed to the inner end surface of the hole formed in the concrete structure.

Most preferably, one end of the gauge is located at a point deeper than the reinforcing bar in the concrete, and as a result, if a crack occurs in the concrete structure due to corrosion expansion of the reinforcing bar, deflection occurs at the lower end of the concrete structure, while deeper than the reinforcing bar. The installed gauge is designed to be free from cracks.

According to another embodiment of the present invention, as a gauge used for the crack check and crack repair method in the concrete structure according to the present invention described above, the scale is displayed in the longitudinal direction on the outer peripheral surface, the hollow is formed in the longitudinal direction, Disclosed is a gauge in which at least one injection hole communicating with the hollow is formed in an intermediate portion.

According to the present invention, whether or not a crack occurs in the concrete structure can be easily and conveniently checked through a gauge that is exposed to the outside, and when the crack generation is confirmed through the gauge, the reinforcement liquid is directly connected to the gauge to crack the reinforcement liquid. By injecting into the site of development, cracks in the concrete structure can be repaired immediately.

1 is a perspective view showing a gauge used in the crack check and crack repair method in a concrete structure according to the present invention.
2 is a flow chart showing the process flow of the crack check and crack repair method in the concrete structure according to the present invention.
3 is a view sequentially showing a crack check and crack repair method in a concrete structure according to the present invention.
4 is a view showing a change in gauge scale when the deflection occurs at the lower end of the concrete structure due to cracks occurring in the concrete structure according to the present invention.
5 is a view illustrating a process of connecting a reinforcement liquid injector to the outer end exposed to the outside of the gauge and injecting the reinforcement liquid through the hollow in the gauge to reinforce the crack according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

Referring to Figure 1, the gauge 10 used in the crack check and crack repair method in the concrete structure according to the present invention is marked with a scale 12 in the longitudinal direction on the outer peripheral surface, hollow 14 in the longitudinal direction therein Is formed, at least one injection hole 16 is formed in communication with the hollow 14 in the middle portion. Preferably, one end of the gauge 10 has a pointed shape 18, the gauge 10 can be easily fixed to the inner end surface of the hole formed in the concrete structure.

Referring to Figure 2, the crack check and crack repair method in the concrete structure according to the present invention to prepare a gauge marked in the longitudinal direction on the outer peripheral surface of the gauge (S1), the hole in the inner direction at the bottom of the concrete structure Step (S2), installing the gauge in the perforated hole (S3); If deflection occurs at the lower end of the concrete structure due to cracks occurring in the concrete structure, checking the occurrence of cracks by changing the scale of the gauge (S4); Connecting a reinforcing liquid injector to the outer end exposed to the outside of the gauge, injecting the reinforcing liquid through a hollow formed in the longitudinal direction inside the gauge (S5) and the injected reinforcing liquid is one end of the gauge It is configured to include a step (S6) to be injected into the crack generating portion in the concrete structure through at least one injection hole 16 formed in communication with the hollow 14 below.

The step S1 is a step of preparing a gauge, in which the gauge 10 described above with reference to FIG. 1 is prepared in advance before construction.

The step S2 is a step of drilling the hole in the inner direction at the bottom of the concrete structure, the hole in the vertical direction to the bottom surface of the existing concrete structure or reinforced concrete structure to which the repair reinforcement method is applied by the primary crack generation It's a step. In this case, the hole should be drilled deeper than the reinforcement position in the concrete, which is fixedly installed at the end of the hole drilled deeper than the reinforcement position even when the crack in the reinforcement in the concrete structure expands due to corrosion / oxidation or the like. This is to prevent the gauge from being affected by the generated crack.

That is, one end of the gauge is located at a point deeper than the reinforcing bar in the concrete structure, so that if a crack occurs in the concrete structure due to corrosion expansion of the reinforcing bar, deflection occurs at the lower end of the concrete structure, whereas a gauge installed deeper than the reinforcing bar is Will not be affected.

The step S3 is a step of installing the gauge prepared in the step S1 into the hole drilled in the step S2, preferably one end of the gauge has a pointed shape 18, the gauge of the hole drilled in the concrete structure It can be firmly fixed to the inner end surface.

The step S4 is a step that can check the occurrence of cracks through the change in the scale of the gauge when the deflection occurs at the lower end of the concrete structure due to the cracks in the concrete structure, even if the deflection occurs at the lower end of the concrete structure, While the deeply installed gauge remains the same, the lower end of the concrete structure sags in a relatively downward direction, causing a scale change in the gauge installed in the hole, and as a result, the concrete is only confirmed by checking the scale change of the gauge exposed to the outside of the concrete structure. The occurrence of cracks in the structure can be checked.

Figure 3 (a) is a view showing the graduation position of the gauge 10 before the crack occurs in the concrete structure, Figure 3 (b) is a crack occurs in the concrete structure to cause the deflection in the lower portion of the concrete structure Therefore, it is a figure which shows the state in which the scale position of the gauge 10 was changed position upward rather than FIG. 3 (a). That is, when the crack does not occur in the concrete structure, the scale is partially exposed to the outside of the hole as shown in FIG. 3 (a). However, when the crack occurs in the concrete structure and the deflection occurs in the lower part of the structure, the scale is formed in the perforated hole. Will be located. Therefore, it is possible to simply and conveniently check the occurrence of cracking in the concrete structure only by checking the scale position of the gauge.

In the step S5, when the occurrence of cracking in the concrete structure is confirmed through the graduation position of the gauge, the reinforcement liquid injector is connected to the outer end exposed to the outside of the gauge through a connecting member, and the length of the gauge is in the longitudinal direction. Injecting the reinforcing liquid through the formed hollow.

5 is a view illustrating a process of connecting a reinforcement liquid injector to the outer end exposed to the outside of the gauge and injecting the reinforcement liquid through the hollow in the gauge to reinforce the crack according to the present invention. Referring to FIG. 5, after connecting the injection tube 22 of the reinforcement liquid injector using the connecting member 20 to the outer end exposed to the outside of the gauge, the reinforcement liquid is injected through the hollow 14 inside the gauge. Done. As described above, according to the present invention, when the crack generation is confirmed through the gauge, the reinforcement liquid injector may be directly connected to the gauge to inject the reinforcement liquid into the crack generation site to immediately repair the crack in the concrete structure.

The step S6 is a step of repairing the cracks in the concrete structure is injected into the crack generating portion in the concrete structure through the at least one injection hole 16 formed in communication with the hollow 14 below the one end of the gauge to be. That is, the reinforcing liquid injected at a predetermined pressure through the reinforcing liquid injector rises along the hollow 14 of the gauge 10, and then at least one injection hole formed to communicate with the hollow 14 in the middle of the gauge ( 16, the reinforcing liquid 24 is injected into the crack generating part to repair the crack. Preferably, the injection hole 16 of the gauge 10 is formed at a position corresponding to near the rebar in the concrete structure. Most of the cracks generated in the concrete structure including the reinforcing bars are expanded around the reinforcing bar by expansion of moisture or salinity introduced by the reinforcing bars embedded in the concrete structure, and reinforcement injected through the hollow 14 of the gauge 10. This is to allow the liquid to be injected more smoothly into the crack generating part that occurs mainly near the rebar.

3 (a) shows a concrete structure (1) in which the reinforcing bar 2 is embedded, and (b) shows a reinforcement (4) or the like when a crack occurs in the concrete structure (1) of FIG. The concrete structure which constructed the reinforcement method using is shown. Figure 3 (c) shows that the gauge 10 is installed by drilling in the bottom surface of the concrete structure to check the occurrence of additional cracking after the above reinforcement method is applied. FIG. 3 (d) shows that additional cracks can be checked through the installed gauge 10 when additional cracks occur near the reinforcing bar 2.

Although the present invention has been described in detail with reference to the accompanying drawings, the present invention is not limited to such a specific structure. Those skilled in the art will be able to variously modify or modify the present invention without departing from the spirit and scope of the invention as set forth in the claims below.

1: concrete structure 2: rebar embedded in concrete structure
10: gauge 12: scale
14: hollow 16: injection hole
20: injector connecting member 22: injection tube
24: reinforcing liquid

Claims (5)

In the crack check and crack repair method in a concrete structure containing a reinforcing bar,
Preparing a gauge marked in the longitudinal direction on an outer circumferential surface of the gauge;
Drilling a hole in an inward direction at the bottom of the concrete structure, wherein the hole is formed deeper than the reinforcement position in the concrete structure;
Installing the gauge into the perforated hole;
If the deflection occurs at the lower end of the concrete structure due to the cracks occurring in the concrete structure, checking the occurrence of cracks by changing the scale of the gauge;
Connecting a reinforcement liquid injector to the outer end exposed to the outside of the gauge, and injecting the reinforcement liquid through a hollow formed in the longitudinal direction inside the gauge; And
The injected reinforcing liquid is injected into the crack generation part in the concrete structure through at least one injection hole formed in communication with the hollow under one end of the gauge to repair the crack in the concrete structure;
Crack check and crack repair method in a concrete structure comprising a. The method of claim 1, wherein the injection hole of the gauge is formed to correspond to the vicinity of the reinforcing bar in the concrete structure. The method of claim 1, wherein one end of the gauge has a pointed shape, and the gauge is fixed to an inner end surface of a hole formed in the concrete structure. The method of claim 1, wherein one end of the gauge is located at a point deeper than the reinforcing bar in the concrete, and as a result, sagging occurs at the lower end of the concrete structure when cracking occurs in the concrete structure due to corrosion expansion of the reinforcing bar, Deeply installed gauges are crack check and crack repair method in a concrete structure, characterized in that not designed to be affected by cracks. A gauge used in the crack check and crack repair method according to any one of claims 1 to 4, wherein a scale is indicated on the outer circumferential surface in a length direction, a hollow is formed in the length direction, and the hollow is formed in an intermediate portion. Gauge formed with at least one injection hole in communication with.

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