KR200344385Y1 - structure section treatment method used synthesis polymer inorganic mortar - Google Patents

Abstract

The present invention relates to the reinforcement of deterioration and fracture sites of concrete structures to efficiently repair and reinforce the deterioration and fracture sites of concrete structures.

The reinforcing reinforcement of the present invention is a reinforcing steel rust inhibitor consisting of inorganic ceramics, synthetic polymers and water; Surface strengthening agents comprising inorganic ceramics, synthetic polymers, and water; The construction and reinforcement of the deterioration and fracture sites are carried out by using a mortar made of inorganic ceramics, synthetic polymers, water, and silica sand, and the construction method includes the construction site condition check and the construction area and the state of the structure. ; Deterioration, neutralization of the concrete surface of the structure to be constructed, to remove the concrete fragments of the excitement and fracture site, to remove the latency of the removed concrete site, and to clean and clean the removed concrete site with a high-pressure water cleaner step; A rust preventive coating step of removing rust of the rebar by using a wire brush on the rebar exposed to the deteriorated portion of the concrete, and applying a rust preventive to form a rust preventive film on the surface of the removed rebar; A surface strengthening step of applying a surface strengthening agent to increase the film strength of the concrete cross section; A cross section recovery step of fixing the wire mesh on the surface strengthening agent applied to the concrete section lacking part with concrete nails and at the same time applying a synthetic polymer inorganic mortar to the fixing part to recover the section lacking part; After curing the concrete structure at a predetermined temperature and a suitable period, characterized in that the surface finish step of finishing the surface of the structure.

Description

Deterioration and repair of fractured concrete structures {structure section treatment method used synthesis polymer inorganic mortar}

The present invention relates to deterioration of concrete structures and repairing reinforcement of fracture sites. In particular, synthetic polymer inorganic solution called WGS-Eco.M method is coated on the deterioration site of concrete structures to prevent neutralization of concrete as well as synthetic polymer inorganic materials. It is designed to restore and expand the cross section of concrete degradation and fracture site.

In general, reinforced concrete structures are cracked due to tensile stress in the tension-side concrete of the structure.If the crack width is greater than a certain limit, the reinforced concrete corrodes the reinforcement due to the intrusion of ambient air and moisture. In winter, there is a case of freezing expansion to break concrete.

In addition, the concrete is cracked due to drying shrinkage, temperature change, etc., and the neutralization of concrete at the cracked part and the surface of the structure is promoted, and the deterioration phenomenon occurs at the concrete part of the structure, causing the surface of the structure to peel off and fall off. There is a problem showing the phenomenon.

Thus, the present invention was devised to solve the problems described above, by coating the synthetic polymer inorganic solution on the deterioration and fracture of the concrete structure to prevent the neutralization of the structure as well as to deteriorate the concrete by polymer mortar The purpose is to provide reinforcement materials for deterioration and breakage of concrete structures that can effectively repair and reinforce cross-section recovery and extension of fractured areas.

1 is a process diagram showing the process of repair and reinforcement construction method of the cross-section of the structure using the repair and reinforcement of the fracture site of the concrete structure according to the present invention,

Figure 2 is a construction cross-sectional view showing a construction state to repair and reinforce the cross-section of the structure using the reinforcement of the deterioration and fracture site of the concrete structure according to the present invention.

Explanation of symbols on the main parts of the drawing

10: concrete 20: rebar

30: deterioration and fracture site 40: steel bar rust inhibitor

50: surface hardening agent 60: wire mesh

70: inorganic mortar M: structure

S1: On-site verification step S2: Surface treatment step

S3: Antirust coating step S4: Surface reinforcement step

S5: Section recovery step S6: Surface finish step

Reinforcing reinforcing material according to the present invention for achieving the above object is a reinforcing bar rust made of inorganic ceramics and synthetic polymers and water; A structure surface hardener composed of inorganic ceramics, synthetic polymers, and water; It is composed of inorganic ceramic, synthetic polymer, inorganic mortar composed of water and silica sand.

That is, the deterioration and fracture repairing reinforcement of the concrete structure according to the present invention is composed of a steel rust inhibitor, surface reinforcing agent and inorganic mortar.

Here, the rebar rust inhibitor is applied and used to remove the rust of the rebar exposed to the deteriorated portion of the concrete using a wire brush and at the same time to form a rustproof coating on the surface of the removed rebar, such a rebar rust inhibitor 1: It is mixed by the compounding ratio of 1: synthetic polymer 0.2: water 0.2.

In addition, the surface strengthening agent is used for the purpose of increasing the film strength on the insufficient concrete cross-section due to the deterioration of the concrete, the surface strengthening agent is composed of a mixture ratio of inorganic ceramic 1: synthetic polymer 0.2: water 0.2. .

In addition, the inorganic mortar is used as a filler for reinforcing the lack of cross-section on the concrete section lacking, the inorganic mortar is composed of a mixture ratio of inorganic ceramic 1: silica sand 3: synthetic polymer 0.5: water 0.5. .

Hereinafter, with reference to the accompanying drawings for the deterioration of the concrete structure according to the present invention made of the configuration as described above and repairing the fracture site will be described in detail.

Figure 1 is a process diagram showing the process of the reinforcement construction method for repairing and reinforcing the cross-section of the structure using the deterioration and fracture site repair reinforcement of the concrete structure according to the present invention, Figure 2 is a deterioration and fracture site repair reinforcement of the concrete structure according to the present invention It is a construction sectional view showing the state of construction to repair and reinforce the structure cross section using.

As shown in these drawings, the reinforcement construction method of the cross-section of the structure using the reinforcement of the deteriorated and fractured parts of the concrete structure according to the present invention is to check the construction site conditions and the construction area and the state of the structure (M) Confirmation step S1;

Deterioration, neutralization, and excitement of the surface of the concrete 10 of the construction target structure (M) and to remove the fragments of the concrete (10) of these areas, to remove the latency of the removed concrete (10) site, the removed concrete (10) a surface treatment step (S2) for cleaning the site with a high pressure water cleaner;

Anti-corrosive agent for removing the rust of the reinforcing bar 20 by using a wire brush to the rebar 20 exposed to the deteriorated portion 30 of the concrete 10, and to form a rust-proof film on the surface of the removed rebar 20 ( Rust preventive coating step (S3) for applying a 40);

Surface strengthening step (S4) of applying a surface strengthening agent (50) to increase the film strength of the section lacking in the concrete (10);

The wire mesh 60 is fixed on the surface reinforcing agent 50 applied to the section of the cross section of the concrete 10 fixed with concrete nails, and at the same time, the synthetic polymer inorganic mortar 70 is coated on the fixing site. A section recovery step S5 for recovering a section lacking section; After curing the concrete structure (M) at a predetermined temperature and a suitable period, through the surface finishing step (S6) for finishing the surface of the structure (M) easily deterioration of the concrete (10) of the structure (M) And repairing and reinforcing the fracture site 30.

In other words, the repair and reinforcement construction method of the structural section to be carried out using the deterioration of the concrete structure and the fracture site repair reinforcement according to the present invention is largely on-site verification step (S1), surface treatment step (S2), rust inhibitor coating step (S3), Surface reinforcement step (S4), cross-sectional recovery step (S5) and the surface finishing step (S6) is carried out in order to repair and reinforce the concrete 10 deterioration and fracture site 30 of the structure (M).

Hereinafter, concrete deterioration and fracture site cross-sectional treatment using the deterioration and fracture site repairing reinforcement of the concrete structure according to the present invention consisting of the steps as described above will be described in detail in each step.

First, the site check step (S1) is a step of checking the conditions of the construction site, the construction area and the deterioration and fracture state of the structure as a whole.

Subsequently, the surface treatment step (S2) completely removes (chips) the neutralized portion, the deteriorated portion 30, the excited portion and the fragments of the concrete 10 of the portion of the concrete 10 surface of the construction target structure, and removes them. Remove the latent and the like of the concrete 10, the step of cleaning the surface of the concrete 10 to clean the surface of the concrete (10) using a high pressure water washer (high pressure pump) and the like.

In this case, the reason for removing the latency is that after the concrete 10 is poured, the fine material inside the concrete 10 rises according to the curing of the concrete 10, and then the concrete 10 is cured. As a thin white film formed on the surface of (10), these latencies must be removed because most of the components are fine particles of cement, but not only the adhesion of these parts is weak but also the watertightness is inferior.

Then, the rust preventive coating step (S3) is embedded in the reinforcing bar 20 in the concrete 10, the surface of the concrete 10 surrounding the deterioration, the reinforcing bar 20 is deteriorated portion of the concrete 10 Bar 30 is exposed, such a reinforcing bar 20 is mostly due to the ingress of air and moisture around the deterioration site 30 of the concrete 10, the reinforcing bar 20 is rusted, corroded.

Thus, the rust of the reinforcing bar 20 is completely removed using a wire brush and other tools, and at the same time, the antirust agent 40 is applied to the surface of the bar 20 so that the rebar 20 may be deteriorated and cracked. An antirust film is formed to prevent this from being rusted.

The reinforcing bar rust preventive agent 40 is applied by mixing in a mixing ratio of inorganic ceramic 1: synthetic polymer 0.2: water 0.2, in particular, when the rust preventive agent 40 is once applied to the reinforcing bar 20, the surface of the reinforcing bar 20 The film of black iron which can maintain the component of the rebar 20 semi-permanently is formed.

Here, the reinforcing bar rust preventive agent 40 is preferably applied to the reinforcing bar 20 at the time of assembly of the reinforcing bar 20 to form an antirust coating.

Since the anti-corrosive agent 40 may be applied to the surface of the rebar 20 exposed even when the deteriorated portion 30 of the concrete 10 is repaired as in the present invention, the concrete 10 may be prevented due to the rust prevention of the rebar 20. ) Can prevent rust of the rebar 20 by the displacement and leakage.

In addition, the surface strengthening step (S4) is to increase the film strength of the surface of the concrete 10 by applying the surface strengthening agent 50 to the lack of the cross-section of the concrete 10.

The surface strengthening agent 50 is mixed in a mixing ratio of inorganic ceramic 1: synthetic polymer 0.2: water 0.2 to apply the surface of the concrete 10.

On the other hand, the cross-sectional recovery step (S5) is fixed to the high-strength wire mesh 60 in the section lacking of the concrete 10 with a concrete nail and at the same time by applying a synthetic polymer inorganic mortar 70 to the fixing portion to the adhesive force. Use to reinforce.

Here, the synthetic polymer inorganic mortar 70 is applied by mixing in a mixing ratio of inorganic ceramic 1: silica sand 3: synthetic polymer 0.5: water 0.5, in particular, the synthetic polymer inorganic mortar 70 is applied once Usually, it should be 10 ~ 30㎜ and applied several times depending on the repaired part.

In addition, by installing the wire mesh 60 by fixing the wire mesh 60 with a concrete nail or the like, the synthetic polymer inorganic mortar 70 is applied to the fixed portion two to three times. 10) In addition to restoring the cross section of the deterioration site 30, it is possible to increase the cross section of the deterioration site 30.

Finally, the surface finishing step (S6) is cured at a predetermined temperature and period, that is, 24 hours before the structure is cured, the surface of the concrete 10 of the structure (M) to prevent the external surface from being exposed to water by rain, etc. The concrete 10 structure is cured in the state in which the wrapping is taken, and when curing of the structure is completed as described above, the surface of the structure M is then coated by applying paint of various colors to finish the treatment.

As described above, the structural section reinforcement construction method using the deterioration and fracture site repair reinforcement of the concrete structure according to the present invention is a series of steps (S1 ~ S6) according to the construction method of the present invention using the inorganic mortar (70) Through the effect of the cross-sectional recovery and the section expansion of the deterioration site and the fracture site 30 of the concrete 10 can be easily performed.

As described above, the repair and reinforcement of the concrete structure according to the present invention deterioration and fracture site according to the present invention is water-soluble hardened by water without using an organic solvent can be safely installed to shorten the air, drying It is possible to reinforce perfect deterioration part in the structure of water and water, and also has strong adhesive strength between the structure and the inorganic ceramic mortar, and can greatly extend the life of the structure, thereby reducing resource consumption and saving for new facilities. In addition, the cost of technology replacement can be reduced, and the cost of refurbishment can be reduced due to the semi-permanent use of the deterioration and fracture sites according to the deterioration of concrete and the reinforcement of fracture sites.

Claims (4)

Reinforcing rust inhibitors made of inorganic ceramics, synthetic polymers, and water; Surface strengthening agents comprising inorganic ceramics, synthetic polymers, and water; Reinforcement materials for deterioration and fracture of concrete structures, characterized by inorganic ceramics, synthetic polymers, and mortars made of water and silica sand. The method of claim 1, The anti-corrosive agent reinforcement for deterioration and breakage of the concrete structure, characterized in that the composition consisting of inorganic ceramics 1: synthetic polymer 0.2: water 0.2. The method of claim 1, The surface reinforcing agent is a deterioration and fracture site repair reinforcement of the concrete structure, characterized in that the composition consisting of inorganic ceramics 1: synthetic polymer 0.2: water 0.2. The method of claim 1, The mortar is composed of inorganic ceramics 1: silica sand 3: synthetic polymer 0.5: water 0.5 of the mixing ratio of the concrete structure, characterized in that the deterioration and fracture site repair reinforcement.