KR20050034773A - Repair methods of ferro-concrete construction for reinforcing rod corrosion control - Google Patents

Abstract

The present invention relates to a method for restoring and preventing corrosion of reinforcing bars when the concrete is neutralized or salts progress from the reinforced concrete structures to the reinforcing bars, or when there is a large amount of salt in the concrete and corrosion of the bars does not occur.

The present invention is to explore the position of the reinforcement reinforced in the reinforced concrete structure to drill a plurality of holes around the reinforcement, and the injection of the rust preventive injection into the perforated hole to the rust preventive injection to infiltrate in all directions of the perforated holes Reinforcing the corrosion protection of the reinforcing bar by the step of infiltrating the rust preventive agent to form an overlapping range between the rust preventive agent penetrated in the adjacent hole, each hole is filled with rust preventive mortar, the outer surface of the concrete is covered with a surface coating material By providing a method, the rust preventive agent penetrates directly to the reinforcing bar position and provides an excellent rust preventing environment, thereby effectively preventing corrosion of reinforcing steel due to neutralization or salt damage of the reinforced concrete structure, thereby securing the safety of the structure and the service life of the structure. To minimize the maintenance costs associated with long-term maintenance and maintenance It is characterized.

Description

REPAIR METHODS OF FERRO-CONCRETE CONSTRUCTION FOR REINFORCING ROD CORROSION CONTROL}

The present invention, when the concrete from the reinforced concrete structure to the reinforcement position is neutralized or salt damage or if there is a lot of salt in the concrete, when the corrosion of the reinforcement does not occur by infiltrating the rust inhibitor to the reinforcement position to create an excellent rustproof environment The present invention relates to a method for restraining corrosion of reinforcing bars of reinforced concrete structures to effectively suppress corrosion of reinforcing bars due to neutralization or salt damage of concrete.

In general, reinforced concrete structures are widely used in civil structures, such as bridges and dams, as well as building structures having excellent seismic resistance, fire resistance, and durability by using the advantages of reinforcement and concrete.

However, when the reinforced concrete structure is corroded by the neutralization or salt damage of the concrete due to poor construction or maintenance, it causes a problem of deterioration of the safety of the structure and shortening of life.

Therefore, urgent repair is required at the site where reinforcing corrosion is intensified due to neutralization or salt damage of the reinforced concrete structure as described above.

Up to now, repair methods have been mainly performed by separating the cases where the concrete of the reinforced concrete structure is neutralized or progresses in salt damage but the corrosion of the reinforcing steel is not generated.

In the former case, a rust preventive agent was applied to the outer surface with the damaged concrete surface cleaned up, and surface coating and finishing was performed to prevent the penetration of oxygen, moisture, etc., which causes the concrete to neutralize and chloride.

In the latter case, the coated concrete was removed, the cyan was removed from the reinforcing bars, and the sections were repaired by the rust prevention and repair mortar of the reinforcing bars.

In other words, if the concrete was neutralized or salted up to the reinforcement position of the reinforced concrete structure, but the corrosion of the reinforcing steel did not occur, the repair could be performed by a simple method of applying a rust inhibitor to the outer surface of the concrete structure.

In this case, the rust preventive agent penetrates into the concrete and acts as a function of directly inhibiting corrosion of the rebar.

However, in the method of applying the rust preventive agent on the concrete surface as described above, since the rust preventive agent can only penetrate about 1 ~ 2cm from the surface of the structure, the rust preventive agent can not penetrate to the reinforcing bar which is located more than 4cm from the surface. There was a problem in that the corrosion of the reinforcing bar can not be directly suppressed.

Therefore, the conventional repair method has a problem that can not fundamentally solve the corrosion suppression of the reinforcement of the form embedded in the concrete.

This problem of corrosion of reinforcing steel due to neutralization and salt damage of reinforced concrete structures not only decreases the service life of the structure but also causes various safety problems, and also requires frequent maintenance to solve the problems. There was a problem.

The present invention was created to fundamentally solve the problems of the conventional method for suppressing the corrosion of reinforcement of reinforced concrete structures, so that the rust preventive agent directly penetrates to the reinforcement position, thus providing an excellent rustproof environment to neutralize or salt the reinforced concrete structures. The purpose is to effectively suppress the corrosion of reinforcing steel bars.

In addition, the present invention is to effectively suppress the corrosion of the reinforcing steel due to neutralization or salt damage of the concrete is to ensure the safety and long life of the structure, as well as to minimize the maintenance costs of maintenance and maintenance.

The object of the present invention is to investigate the location of the reinforced reinforcement when the reinforcement concrete structure contains a lot of salt in the concrete or when the neutralization or salting of the concrete proceeds to the reinforcement position but the corrosion of the reinforcement does not occur. Perforating a plurality of holes and injecting the anti-corrosive agent into the perforated hole to inject the anti-corrosive agent to penetrate in all directions of the perforated hole, but to infiltrate the anti-corrosive agent to form a range in which the anti-rust agent penetrated from the adjacent hole overlap each other Afterwards, each hole is filled with rust preventive mortar, and the outer surface of the concrete is achieved by a method of restraining corrosion suppression of reinforcing steel which is coated and finished with a surface coating material.

Hereinafter, a repair method for achieving the above object of the present invention will be described in detail.

Reinforcing steel corrosion suppression repair method of the present invention in the reinforcement concrete structure in which the reinforcement is reinforced in the salinity is mixed in the concrete or in the repair to prevent corrosion of the reinforcing steel due to the neutralization or salt progress of the concrete to the reinforcement position,

Cleaning process to clean up damaged concrete surface of reinforced concrete structure,

An exploration process for exploring the position of the reinforcement of the reinforced concrete structure;

A drilling process for drilling a plurality of holes to a peripheral position of the reinforcement bar;

A rust inhibitor injection step of injecting and scanning the rust inhibitor into each of the perforated holes to allow the rust preventive agent to penetrate in all directions of the holes;

It provides a repair method consisting of a hole filling step of filling the rust preventive mortar with each hole in which the rust preventive body is injected, and a finishing process of coating and finishing the outer surface of the concrete with a conventional surface coating material.

At this time, the location of the reinforcing bar reinforcement in the exploration process is performed with a general reinforcing bar probe.

In addition, the size of the hole in the drilling process is preferably formed to a size that can be injected by injection of the rust preventive agent is preferably formed not to exceed at least 10mm. This is because the strength of the structure may be weak when the size of the hole exceeds 10 mm.

In addition, the spacing between the adjacent holes in the drilling process is preferably formed so that the penetration areas overlap each other in consideration of the area penetrated by the injection of a rust inhibitor into the hole.

In addition, the injection of the rust inhibitor in the rust inhibitor injection step is provided with a nozzle tube for forming a plurality of nozzle holes along the outer periphery and inserted into each hole to supply the rust inhibitor by the compressor to the four sides of the hole through the nozzle hole This will allow the rust preventive injection. Of course, it is also possible to directly inject the injection of the rust preventive agent to the hole in the state that the nozzle tube is excluded.

In this case, the anti-corrosive agent press-injected into the hole is superior to the conventional method of applying the rust preventive agent to the concrete surface, and the method of applying the rust preventive agent to the conventional concrete surface, the penetration of the rust inhibitor proceeds only on one side of the concrete On the contrary, since the present invention is permeated in all directions of the hole, it is natural to form the penetration range at least 5 to 10 times wider. In general, when the anti-corrosive agent is injected into the hole, a penetration of about 5 to 10 cm is achieved depending on the injection pressure of the anti-corrosive agent.

Therefore, in consideration of the penetration range of the rust preventive agent, it is preferable to form adjacent distances between the holes.

The repair method of the present invention will be described in more detail with reference to FIGS. 1 and 2.

First, when the concrete 3 is neutralized or salted from the reinforced concrete structure 2 to the reinforcing bar 4 position, but the corrosion of the reinforcing bar 4 does not occur, the concrete surface of the repair site is cleaned up.

This removes the peeling and peeling of the concrete surface, and cleans the foreign matter by cleaning and drying.

In this state, since the location of the reinforcing bar 4 arranged in the reinforced concrete structure 2 of the repaired part is explored using a conventional reinforcing bar probe, the location thereof is determined.

In this way, in the state where the reinforcement position of the reinforcing bar 4 is confirmed, a plurality of holes 5 are drilled to the peripheral position of the reinforcing bar 4.

At this time, the interval with the adjacent hole of the perforated hole (5) is formed so that the penetration area is formed to overlap each other in consideration of the infiltration area by the injection of the rust inhibitor in the hole, the rust inhibitor is pressed in all directions of the hole It is determined in consideration of being injected and penetrated, and the pressure to inject and inject the rust inhibitor.

For example, in the case where the penetration area of the rust preventive agent is 5 cm, the gaps between the holes must be formed within at least 10 cm so that the penetration areas overlap each other.

In this way, the nozzle tube 10 of FIG. 3 is inserted into each of the holes 5 in a state in which a plurality of holes 5 are drilled to the repair portion of the concrete structure 2.

In this state, when the compressor 15 is operated to press-suppress and supply the rust preventive agent to the nozzle tube 10, the press-supplied rust preventive agent is formed through each of the plurality of nozzle holes 12 having the outer circumference of the nozzle tube 10. It is press-injected in four directions of (5).

In this way, the anti-corrosive agent injected from each hole 5 formed around the reinforcing bar 4 penetrates directly to the position of the reinforcing bar 4, thereby effectively suppressing corrosion of the reinforcing bar 4, as well as neutralizing the concrete 3. It will provide the action of restoring the progress of chloride to alkali.

In this way, when the injection of the rust inhibitor is completed, the rust preventive mortar (7) containing the rust inhibitor is filled into the holes (5), and the neutralization of concrete or the penetration of urea that causes the chloride to the outer surface of the repair part concrete (3). It will be finished by coating the surface coating material to prevent.

As described in detail above, the method of the present invention perforates the periphery of the reinforcing bar to infiltrate and infiltrate the anti-corrosive agent, so that the anti-corrosive agent penetrates directly to the reinforcing bar position and provides an excellent rust-preventing environment, thereby neutralizing or reinforcing the reinforced concrete structure. It effectively suppresses the corrosion of reinforcing bars, thereby securing the safety of the structure, prolonging the service life of the structure, and minimizing the maintenance costs associated with repair and maintenance.

1 is a plan sectional view of a structure repaired by the method of the present invention.

2 is a side cross-sectional view of FIG.

Figure 3 is a block diagram showing a nozzle for rust preventive injection in the present invention.

* Description of the symbols for the main parts of the drawings *

2: reinforced concrete structure 3: concrete

4: rebar 5: hole 7: antirust mortar

10: nozzle tube 12: nozzle hole

Claims (3)

In the reinforcement concrete structure in which the reinforcement is reinforced, the salinity is mixed in the reinforcement concrete or the reinforcement does not corrode due to the neutralization or salt damage of the concrete to the reinforcement position. Cleaning process to clean up damaged concrete surface of reinforced concrete structure, An exploration process for exploring the position of the reinforcement of the reinforced concrete structure; A drilling process for drilling a plurality of holes to a peripheral position of the reinforcement bar; A rust inhibitor injection step of injecting and scanning the rust inhibitor into each of the perforated holes to allow the rust preventive agent to penetrate in all directions of the holes; Reinforcing the corrosion protection of the reinforced concrete structure, characterized in that the hole filling step of filling the rust preventive mortar filled with each hole in which the rust-prevented body is injected, and the finishing process to finish by coating the outer surface of the concrete with a normal surface coating material. The method of claim 1, The perforation process is a method of restraining corrosion protection of the reinforced concrete structure of the reinforced concrete structure, characterized in that the interval between the adjacent holes formed by the injection of a rust preventive agent in the holes at intervals overlapping each other. The method of claim 1, The anti-corrosive agent injection process is characterized in that by inserting a nozzle tube for forming a plurality of nozzle holes along the outer periphery in each hole to supply the anti-corrosive agent by the compressor, the anti-corrosive agent is press-injected in all directions of the hole through the nozzle hole Reinforced corrosion inhibiting and repairing method of reinforced concrete structures.