KR100940937B1 - Concrete structure repairing method - Google Patents

Abstract

PURPOSE: A repair and reinforcement method for a concrete structure is provided to prevent crevice from being generated after construction for repair and reinforcing. CONSTITUTION: A repair and reinforcement method for a concrete structure is constituted as follows. A damaged part(4) of a concrete structure(2) is chipped. The foreign materials on the exposed surface of a reinforcing rod(6) are removed. An anchor body(32) is anchored at the damaged part of the concrete structure. A reinforcing material structure(20) is placed on the damage part of the concrete structure. The height of the reinforcing material structure is adjusted. Repair material is charged in the damaged part of the concrete structure. The repair material is solidified.

Description

Concrete structure repairing method

The present invention relates to a concrete structure repair reinforcement method, and more particularly, because it has high adhesion to the concrete structure part of the construction, so that lifting or cracking does not occur easily after repair reinforcement, and thus is excellent in various deterioration phenomena. The present invention relates to a repair and reinforcement method for concrete structures (eg, concrete water and sewage pipes, bridges, sewage boxes, tunnels, underground roadways, ports, water purification plants, etc.) that can ensure durability and waterproofness.

In general, concrete sewer pipes are buried in the ground by connecting pipes to drain various sewage or sewage, and such concrete sewer pipes are widely used in various forms according to the purpose of use. Due to various deterioration phenomena are partly damaged, there is a need for partial repair work for concrete structures such as concrete sewer pipe.

In the case of such concrete structures, due to aging or subsidence of the ground, partial cracks occur in the concrete structures, which are transferred to larger holes, causing water leakage when supplying or discharging domestic sewage or industrial sewage. In addition, the corrosion reaction of the concrete water and sewage pipe itself due to antioxidant bacteria or the like also causes deterioration and causes partial breakage.

As such, breakage such as cracks in the concrete structure may cause fatal defects such as deterioration of waterproof performance, corrosion of reinforcing steel, degradation of durability, and reduction of strength. Concrete cracks are often caused by various factors such as salt, external environment such as deterioration, design load, material properties such as plastic shrinkage or dry shrinkage, mixing conditions, and construction factors. If a crack occurs in the concrete structure due to such various factors, the concrete structure may not be able to withstand the load and collapse. Therefore, it is necessary to repair the concrete structure in which the crack is generated in order to restore the waterproofness, durability, or the stability, aesthetics, etc. of the structure.

Conventionally, various repair methods have been used to repair damaged parts of concrete structures. In order to repair damaged parts, infiltration type repair materials using injection method are sometimes used. Such a penetration type repairing material is composed of alkali silicates. Even though the silicate silicates are small in surface tension, they rapidly react with calcium ions, the main component of concrete, to form calcium silicates. These calcium silicates are insoluble and chemically very stable oxides to protect the surface of the concrete, but the penetration is only a few millimeters, so they do not penetrate into the concrete, which makes it difficult to recover the performance of concrete structures. .

In addition, there are a variety of existing repair reinforcement methods for repairing or reinforcing concrete structures, depending on the type of reinforcing materials, such as steel sheet reinforcement method, fiber sheet reinforcement method, fiber sheet reinforcement method.

Steel plate reinforcement method is a method for repairing and reinforcing concrete structures using steel plate, such steel plate reinforcement method is difficult to install due to the heavy weight of the steel plate and steel plate is vulnerable to corrosion. In particular, heavy equipment is required due to the heavy weight of the steel plate, and there is a risk of fire due to welding work, and the sealing phenomenon due to lack of breathability is related to durability such as weakening of adhesion force generated at the interface between the target structure and the reinforcement material. There is also a problem.

Fibreboard reinforcement method is a method of repairing and reinforcing concrete structures using fibreboard. The fibreboard reinforcement method is excellent in material properties, but it has no choice but to rely only on epoxy adhesives for adhesion to structures to be reinforced. It has limitations, lack of breathability due to the entire construction, and difficult maintenance.

Therefore, there is a need for a repair method for a concrete structure (that is, a sewer pipe) to ensure excellent durability and waterproofness against various deterioration phenomena. In addition to concrete sewer pipes, repair and reinforcement methods are required to perform efficient repair work on all types of concrete structures such as bridges, sewer boxes, underground roadways, tunnels, ports, and water purification plants.

The present invention is to solve the above problems, an object of the present invention is to provide a concrete structure repair and reinforcement method that can ensure excellent durability and waterproofness against various deterioration of the concrete structure.

In addition, the present invention can uniformly adjust the height of the reinforcement structure itself used to improve the adhesion strength between the repair material and the damage site of the concrete structure, the new concrete structure maintenance reinforcement to further enhance the excellent repair reinforcement construction and durability It aims to provide a public law.

According to the present invention for solving the above problems, the process of chipping the damaged part 4 of the concrete structure 2, and of the reinforcement 6 exposed to the damaged part 4 of the concrete structure 2 A process for removing foreign matters, and a gripper 36 for gripping the reinforcement structure 20 around the anchor body 32 is provided, and the elevating adjuster 34 is screwed at the lower position of the gripper 36. Anchoring the anchor body 32 capable of elevating to the damaged portion 4 of the concrete structure 2, and the gripper 36 to grip the stiffener structure 20 by the gripper 36. The process of arranging at the damaged portion (4) of the structure (2), the step of raising and lowering the elevating control device 34 by screwing the height of the reinforcing material structure 20, and of the concrete structure (2) Filling the damaged portion 4 with a water retaining material 8 and filling the water; Concrete structure repair and reinforcement methods are provided that include the process of hardening.

The present invention is to install a special reinforcement structure on the damaged part of the concrete structure, cement, fastwood, expansion material, pozzolanic, fluidized fire, fiber, strength enhancer, antifoaming agent, polymer resin, thickener, aggregate, waterproofing material and water repellent As a repairing method to pour and harden special repairing materials on the damaged part, it is possible to provide repairing and reinforcing methods for concrete structures (i.e. concrete water and sewage pipe boxes, etc.) that can guarantee excellent durability and waterproofness against various deterioration of concrete structures. have.

In addition, the present invention can uniformly adjust the height of the reinforcement structure itself used to improve the adhesion strength between the repair material and the damage site of the concrete structure, it is possible to further improve excellent repair reinforcement construction and durability.

In addition, by applying a separate resin coating treatment to strengthen the strength of the repair structure, it is possible to further improve the field construction properties, and by attaching particles that increase the bonding strength with the repair material on the surface of the reinforcement structure, the reliability of the repair structure can be further increased. Has the effect.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. 1 is a perspective view of a height adjustment mechanism used in the reinforcement method of the present invention, Figures 2 and 3 is a cross-sectional view showing a conceptual process of partially repairing the concrete structure by the reinforcement method of the present invention. Referring to this, the present invention is a process of chipping the damaged portion 4 of the concrete structure 2, the process of removing foreign matter of the reinforcing bar 6 exposed to the damaged portion 4 of the concrete structure 2, An anchor body having a gripper 36 for gripping the reinforcing material structure 20 at the periphery of the anchor body 32, and a lifting adjustment device 34 screwably liftable at a lower position of the gripper 36. Anchoring the 32 to the damaged part 4 of the concrete structure 2, and the damaged part 4 of the concrete structure 2 in a state in which the gripper 36 is gripped by the gripper 36. The process of arranging in the step, the step of raising and lowering the elevating control device 34 by screwing up and down the height of the reinforcement structure 20, and filling the repair material 8 to the damaged portion 4 of the concrete structure (2) Repair and reinforcement method of concrete structure, including the process of sprinkling and hardening the repairing material (8) . Here, the concrete structure 2 collectively referred to bridges, underground buried water and sewage pipes, sewage boxes, underground driveways, tunnels, ports, water purification plants.

At this time, the repair material 8 to be filled in the damaged part 4 of the concrete structure 2 is 30 to 42 parts by weight of cement, 1.8 to 5 parts by weight of hardwood, 0.45 to 3.5 parts by weight of expansion material, 0.2 to 5.5 parts by weight of pozzolan , 0.12 to 1.4 parts by weight of fluid fire, 0.04 to 4 parts by weight of fiber, 0.03 to 8 parts by weight of strength enhancer, 0.015 to 0.2 part by weight of antifoaming agent, 0.028 to 1 part by weight of polymer resin, 0.005 to 0.09 part by weight of thickener, aggregates 29 to 67 A weight part, 0.004-0.3 weight part of waterproofing materials, and 0.002-0.5 weight part of water-repellent materials are mixed and formed.

As the cement, conventional cements such as portland cement and micro cement may be used. 30 to 42 parts by weight of the cement is mixed to form a composition.

The fast economy is CSA (calcium sulfo aluminate) series or CA (calcium aluminate) series, and the fast economy is mixed in the range of 1.8 to 5 parts by weight. If the rapid economy is 1.8 parts by weight or less, the deformation state is severe when the composition for repair is pressed with a finger, and when 5 parts by weight or more is rapidly cured, it is not preferable in terms of workability.

The expanding agent is to prevent the cracks are reduced by the volume of the cement, 0.45 to 3.5 parts by weight of the expanding material is mixed. In the case of cement, the volume is reduced while reacting with water (that is, hydration), which causes cracks even when the water-repellent composition is cured. In order to prevent such a phenomenon, the expansion agent is mixed to reduce shrinkage or to provide expansion.

That is, when the expansion agent is mixed with cement and water, it functions as a mixed material that expands the cement constituting the repair composition, and the expander expands the cement during the curing of the repair composition to fill the concrete structure 2. Compensation for dry shrinkage of the repaired composition is to prevent the occurrence of cracks.

Pozzolan is a mineral powder containing silica material (SiO2) as a main component and having no hydraulic property. The pozzolan is a fine particle having a particle size of about 1 micron to 30 microns. When the pozzolanic encounters moisture, chemical reaction with calcium hydroxide occurs at room temperature to form a compound having cement properties, thereby increasing the strength of the repair composition. Such pozzolans have a secondary function of increasing the strength of the repair composition together with the strength enhancer. 0.2 to 5.5 parts by weight of such pozzolan is mixed.

The fluidizing agent may also be referred to as a water reducing agent, and may be selected from melamine resin and naphthalene series. In order to impart fluidity and material separation resistance of the repair composition, a fluidizing agent is used, and the fluidizing material is mixed in a range of 0.12 to 1.4 parts by weight. In other words, the fluidizing agent exhibits a cement dispersing action, thereby greatly improving the fluidity and strength of the repairing composition, so that the casting composition can be easily poured, and since there is no air entrainment, a high strength repairing composition can be obtained.

The fiber uses glass fiber, carbon fiber, or the like, and has a function of preventing the phenomenon of cracking after curing of the repair composition by increasing the connection between the materials. In the present invention, the fibers are mixed in the range of 0.04 to 4 parts by weight. When the amount is less than 0.04 parts by weight, the connection between the materials is weak, so that the desired strength of the repair composition itself is not obtained. When the fiber is mixed by more than 4 parts by weight, the strength is high, but the workability is somewhat decreased.

The strength enhancer is mixed in the range of 0.03 to 8 parts by weight. In the present invention, the strength enhancer preferably uses a fly ash, but is not limited thereto. Various materials may be used as the strength enhancer to enhance the strength of the repair composition.

The antifoaming agent serves to remove bubbles generated in the repair composition. When naphthylene fluidizing agent is used, bubbles are generated in the repair composition itself, and the antifoaming agent serves to remove bubbles generated in the repair composition. It is preferable to mix such an antifoamer in the range of 0.015-0.2 weight part.

The polymer resin may be adopted among acrylic, SBR, and EVA-based resins, and the polymer resin is mixed in a range of 0.028 to 1 parts by weight.

The thickener is mixed in an amount of 0.005 to 0.09 parts by weight. Such thickeners improve the viscosity, flocculation, and the like of the repairing composition, thereby facilitating the separation of the repairing and repairing composition, and at the same time, preventing the materials from sticking together.

The waterproofing agent can be selectively used according to the use, in the present invention, the waterproofing agent is mixed in the range of 0.004 to 0.3 parts by weight. These waterproofing agents increase the waterproofing watertightness as a mixture of the repair composition. That is, the waterproofing agent may be regarded as forming a hydrophobic film in the minute voids in the repairing composition to increase the waterproof moisture-proofing property after curing of the repairing composition.

In addition, 0.002 to 0.5 parts by weight of a water repellent may be further mixed and used in the repair composition. Such a water repellent is to facilitate the discharge of the water inside the repair composition, thereby extending the life of the repair composition itself. In other words, the water repellent acts as a coating agent capable of ensuring air permeability inside the repair composition.

The aggregate is one of the main components of the repair composition, preferably using an aggregate of 50 to 400 mesh size.

Hereinafter, the repair and reinforcement method of the concrete structure of the present invention using the repair material (8) will be described.

First, the damaged portion (4) surface deterioration (corrosion) of the concrete structure 2 is removed through a chipping process. Next, the foreign matter of the reinforcing bar 6 exposed to the breakage site 4 of the concrete structure 2 is removed. At this time, rust and the like on the surface of the rebar 6 are removed using a brush or the like. Preferably, a rust preventive agent is applied to the surface of the steel bar 6 from which rust has been removed.

After the chipping process and removing foreign matters on the surface of the reinforcing bar 6, the reinforcement structure 20 is installed at the damaged part 4 of the concrete structure 2 using the height adjusting mechanism 30. As shown in FIG. 1, the height adjusting mechanism 30 is provided with a gripper 36 fitted to the reinforcement structure 20 at the periphery of the anchor body 32, and is lifted at a lower position of the gripper 36. The adjuster 34 is screwed up and down structure is coupled.

In addition, the reinforcement structure 20 is composed of a frame shape in which a plurality of livers are arranged in a horizontal and / or longitudinal direction in a substantially rectangular outer frame, such a reinforcement structure 20 is carbon fiber, PP (polypropylene), PV (Polyvinyl), PVA (polyvinyl alcohol), wire rope, glass fiber may be adopted by adopting any one, the surface of the reinforcement structure 20, in particular, the surface of the reinforcement structure 20 composed of PVA Separate resin coating for reinforcement. Then, the particles are attached to the reinforcement structure 20 to increase the adhesion strength. Such particles are particulate matter, such as silica sand or diamond, and allow the particles to be attached together upon the resin coating process on the surface of the reinforcement structure 20. That is, the particle is attached to the particle by the resin coated on the surface of the reinforcing structure 20.

When the reinforcing material structure 20 is installed at the breakage site 4, the anchor body 32 of the height adjusting mechanism 30 is anchored to the breakage site 4 of the concrete structure 2 and at the same time by the gripper 36. Gripping the reinforcement structure 20. Reference numeral 5 denotes a mortar for fixing the set anchor 37 to which the anchor body 30 is bolted.

On the other hand, as shown in Fig. 4, it is also possible to employ a method of injecting the anchor body 30 to the damaged portion 4 in a takapin type by a taka device or the like. In this case, the anchoring operation of the anchor body 30 can be made more quickly. In the case of Figure 4 by forming a screw portion on a portion of the anchor body 30 by elevating the elevating adjustment mechanism 34 by screw rotation can be uniformly matched the height of the reinforcement structure (20).

At this time, the elevating adjustment mechanism 34 is not lifted by screw rotation, and the elevating adjustment mechanism 34 is coupled to be raised and lowered just around the periphery of the anchor body 30, corresponding to the height of the damage part 4 up and down. The lifting control device 30 having a different length may be used. In this case, when the anchoring body 30 is anchored to the breakage site 4, the lifting control device 20 of the reinforcing material structure 20 is moved by the lifting control device 30 having a different vertical height. The height of every point can be automatically adjusted to a uniform height.

The gripper 36 is formed in a substantially cross-sectional channel shape, and the gripper 36 is applied to the grate of the reinforcement structure 20 or to the outer frame so that the reinforcement structure 20 is applied to the damaged portion 4. Install firmly.

On the other hand, since the depth of the breakage portion 4 of the concrete structure 2 is different depending on the point, when the elevating control device 34 is raised and lowered by the anchor body 32, the height of the reinforcement structure 20 is increased. Adjust it evenly.

After adjusting the height of the reinforcing material structure 20 uniformly, filling the above-mentioned repair material 8 to the damaged part 4 of the concrete structure 2, and filling it, and after the repairing material 8 thus filled is cured, Finally, the plastering process completes the repair work.

The present invention described above is not limited to the above-described embodiment and the accompanying drawings, and various permutations, modifications, and changes can be made without departing from the spirit of the present invention. It will be apparent to those who have it.

1 is a perspective view of a height adjustment mechanism used in the repair method of the present invention

2 and 3 is a cross-sectional view conceptually showing the process of repairing and strengthening a concrete structure by the repair method of the present invention

Figure 4 is a cross-sectional view showing an embodiment employing an anchor body of another structure in the present invention

Claims (6)

The process of chipping the damaged part 4 of the concrete structure 2, the process of removing foreign substances on the surface of the reinforcing bar 6 exposed to the damaged part 4 of the concrete structure 2, and the anchor body 32 A gripper 36 for gripping the reinforcement structure 20 having a frame shape in which a plurality of livers are arranged in a horizontal or vertical direction of the outer frame is provided at a circumference of the gripper, and a lift adjusting device is provided at a lower position of the gripper 36. Anchoring the anchor body 32 to which the 34 is screwed up and down to the damaged portion 4 of the concrete structure 2, and the reinforcing material structure 20 by the gripper 36. Arranging the damaged portion 4 of the concrete structure 2 in a gripped state; and raising and lowering the elevating adjustment mechanism 34 with a screw type to adjust the height of the reinforcement structure 20; Filling the repair material (8) to the damaged part (4) of the concrete structure (2) The concrete repair reinforcement method comprising the process and the process of curing the repair material (8) to spicy. According to claim 1, wherein the repair material (8) filled in the damaged portion (4) of the concrete structure (2) is 30 to 42 parts by weight of cement, 1.8 to 5 parts by weight of hard material, 0.45 to 3.5 parts by weight of expansion material, pozzolane 0.2 to 5.5 parts by weight, fluid fire 0.12 to 1.4 parts by weight, fibers 0.04 to 4 parts by weight, strength enhancer 0.03 to 8 parts by weight, defoamer 0.015 to 0.2 parts by weight, polymer resin 0.028 to 1 part by weight, thickener 0.005 to 0.09 part by weight , 29-67 parts by weight of aggregates, 0.004 to 0.3 parts by weight of waterproofing materials, 0.002 to 0.5 parts by weight of water repellents, concrete structure repair reinforcement method characterized in that the composition. 3. The method according to claim 2, wherein the repairing material (8) is mixed by a mixer and filled into the damaged part (4) of the concrete structure (2) by shotcrete work, and finishing the plastering work after curing the repairing material (8). Concrete structure repair reinforcement method characterized in that. delete The method of claim 1, wherein the outer surface of the reinforcing material structure 20 is a separate resin coating treatment, characterized in that the reinforcement method of concrete structures. The method according to any one of claims 1 to 3, wherein the reinforcement method of the concrete structure, characterized in that produced by attaching particles to the reinforcement structure (20).

Images