KR101378972B1 - Method for repairing expansion joint part between concrete structures - Google Patents

Abstract

The present invention relates to a method for repairing an expansion joint between concrete structures to prevent a water leakage in a joint part between the concrete structures, which comprises the steps of: cutting, grinding, and cleaning one or both side surfaces corresponding to a joint part between two concrete blocks; installing a backup material in the joint part between the two concrete blocks after cutting and grinding; fixing a perforated drain pipe to the top of the backup material placed in the joint part; inserting and fixing an Evazointe, which is an expansion joint, to the space of the joint part on the top of the perforated drain pipe; applying an underwater hardening epoxy resin to the top of the Evazointe; hardening the applied underwater hardening epoxy resin and applying a hydrophilic sealant to the top of the hardened underwater hardening epoxy resin; applying a high elastic wet caulking material to the top of the hydrophilic sealant with 3-5 mm so as to make the applied surface even with the concrete blocks; applying a wet epoxy primer to the top of the high elastic wet caulking material; impregnating a glass fiber with the underwater hardening epoxy resin on the top of the concrete blocks and the high elastic wet caulking material; applying a butyl elastic rubber sheet to the top of the underwater hardening epoxy resin impregnated glass fiber; and installing a stainless steel plate after applying the butyl elastic rubber sheet. [Reference numerals] (AA) Start; (BB) End; (S11) Cut and grind; (S12) Install a backup material; (S13) Install a perforated drain pipe; (S14) Install an Evazointe; (S15) Apply an underwater hardening epoxy resin; (S16) Apply a hydrophilic sealant; (S17) Apply a high elastic wet caulking material; (S18) Apply a wet epoxy primer; (S19) Impregnate a glass fiber with the underwater hardening epoxy resin; (S20) Apply a butyl elastic rubber sheet; (S21) Install a stainless steel plate

Description

Method for repairing expansion joint part between concrete structures

The present invention relates to the expansion joint repair method of the concrete structure, to prevent the phenomenon that the joint part of the existing concrete structure is leaked by using the induction drainage pipe to lose the function, the deterioration of the index mortar installed in the joints between the concrete blocks or The present invention relates to an expansion joint repair method for a concrete structure to prevent water leakage due to aging.

In general, concrete structures made by connecting U-pipe-shaped concrete blocks are installed in subways, water treatment plants, sewage treatment facilities and waterways or aqueducts, and underpasses of roads.

However, such concrete structures leak due to deterioration and aging due to the lapse of time and due to the temperature difference between the four seasons and corrosion by harmful sediment, or the loss of the function of joints between concrete blocks due to surrounding vibration. This causes water to fall off the joints from the joints and the subway or vehicles passing through it, which causes the appearance of dirty, and in winter, icicles or ice due to the ice caused by water leakage falls Large accidents are caused, and the lumps of concrete are peeled and peeled off under the leaks, which can cause hitting the vehicle and cause a big accident.In severe cases, the steel in the concrete structure can be corroded and permanently damaged. Adversely affect There was a problem that occurs.

Therefore, the applicant of the present invention, in order to solve the above problems, as disclosed in Republic of Korea Patent Publication No. 10-1186104 (September 20, 2012), one side corresponding to the joint of the two concrete blocks Or cutting and grinding both sides; Fixing the perforated tube to a joint between two concrete blocks spaced at a predetermined interval; Filling an Eva joint, which is a beginner, in the joint space of the upper and lower parts of the perforated tube; Applying a water-expandable sealing agent to the upper portion of the eva-joint filled in the upper portion of the perforated tube; Applying an epoxy resin for curing in water between the step of filling the eva-joint and applying the water-expandable sealing agent; Applying a highly elastic wet caulking material 3 to 5 mm on top of the water-expandable sealing agent so that the coated surface is made flat with the concrete blocks; Impregnating glass fibers with epoxy resin for curing water on top of the concrete blocks and the high elastic wet caulking material; And applying a butyl elastic rubber sheet to the epoxy resin for curing in water; and an expansion joint repair method for a concrete structure using an induction drainage pipe consisting of:

However, the present applicant, while using the above-mentioned repair method, the exponential mortar installed in the upper and lower joint spaces of the perforated pipe is applied to the water curing epoxy applied on top of it due to deterioration due to water or aging over time It was found that a problem occurred that the waterproofing was not properly performed because the resin could not re-role.

An object of the present invention for solving the problems as described above, to prevent the phenomenon caused by leakage of the joint part of the concrete structure established by using the induction drainage pipe, instead of the exponential mortar installed in the joint between the concrete blocks Therefore, it is to provide an expansion joint repairing method for concrete structures to prevent leakage caused by deterioration or aging of exponential mortar by using EVA joint.

According to an embodiment of the present invention for achieving the object as described above, the expansion joint repair method of the concrete structure to prevent the leakage occurring in the concrete structure joint, the work corresponding to the joint of the two concrete blocks Washing after cutting and grinding the side or both sides; After the cutting and grinder processing, installing a backup material at the joint of two concrete blocks; Fixing a hole through the upper portion of the backup material placed on the joint; Inserting and fixing an EVA joint (EVAZOINTE), which is an expansion joint, in a joint space of an upper portion of the perforated tube; Applying an epoxy resin for water curing on top of the eva joint, and applying the water-expandable sealing agent to the upper portion after curing of the applied epoxy resin for water curing; Applying a highly elastic wet caulking material 3 to 5 mm on top of the water-expandable sealing agent so that the coated surface is made flat with the concrete blocks; Applying a wet epoxy primer on top of the high elastic wet caulking material; Impregnating glass fibers with epoxy resin for curing water on top of the concrete blocks and the high elastic wet caulking material; And applying a butyl elastic rubber sheet on the epoxy resin for curing the glass impregnated with water.

According to an embodiment of the present invention, a plurality of grooves are formed on the left and right sides of the EVA joint to fill the epoxy resin 500 for water curing.

According to an embodiment of the present invention, the groove formed in the eva joint is to be formed in the horizontal or vertical direction.

According to an embodiment of the present invention, the eva joint has a thickness larger than 120% or more than the space of the joint to be inserted and installed.

When combining the joints between the concrete blocks using the expansion joint repair method of the concrete structure using the Eva joint according to the embodiment of the present invention,

Due to the shrinkage expansion action of concrete structures and even after a long time, the waterproofing agent such as explosive mortar does not deteriorate due to water and no water leakage occurs at the joint even after a long time. It can be used while maintaining the state, and provides the effect of preventing safety accidents by preventing rockfall of the concrete structure mass due to deterioration.

1 is a flow chart showing the expansion joint repair method of the concrete structure according to an embodiment of the present invention.
Figure 2 is a schematic view showing the expansion joint repair form of the concrete structure according to the embodiment of the invention.
Figure 3 is a perspective view showing the EVA joint used in the expansion joint repair method of the concrete structure according to an embodiment of the present invention.
Figure 4 is a schematic diagram showing the shape of the EVA joint of Figure 3 used to repair the expansion joint of the concrete structure.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of an embodiment of the expansion joint repair method of a concrete structure according to the present invention will be described in detail.

1 is a flow chart showing the expansion joint repair method of the concrete structure according to an embodiment of the present invention, Figure 2 is a schematic view showing the expansion joint repair form of the concrete structure according to an embodiment of the invention, Figure 3 FIG. 4 is a perspective view illustrating an Eva joint used in an expansion joint repair method of a concrete structure according to an embodiment of FIG. 4, and FIG. 4 is a schematic view illustrating a form used in repairing an expansion joint of a concrete structure.

First, in the drawings, it is noted that the same components or parts are denoted by the same reference numerals as possible. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted so as to avoid obscuring the subject matter of the present invention.

In the expansion joint repair method of the concrete structure to prevent leakage occurring at the joints between the blocks of the concrete structure according to an embodiment of the present invention, as shown in Figures 2 to 4, the perforated pipe 100, EVA joint (EVAZOINTE, 200), water-expandable sealing agent (300), high elastic wet caulking material 400, epoxy resin for curing in water (500), butyl elastic rubber sheet (600) and glass fiber (800) It is also possible to join the joint 30 between the blocks 10, 20, further using a backing material 150, a wet epoxy primer 700, and a stainless steel plate 900.

The perforated pipe 100 is fixed to the joints 30 between the concrete blocks 10 and 20 to serve to discharge the water in the joints 30 out of the concrete structure, and is made of a net form.

In addition, the hole tube 100, as shown in Figure 2, it is also possible that a plurality of hoses 101 are bundled in a bundle.

Therefore, the hole pipe 100 serves to discharge the water from the joint portion 30 without distilling it out, thereby preventing ice or icicles from falling off when water leaks through the joint portion 30 in winter. .

The EVA joint (EVAZOINTE, 200) is an elastic joint material, and is a fully waterproof type closed foam having a low density, fully sealed ethylene vinyl acetate polyethylene copolymer (Ethylenevinyl Acetate Polyethylene Copolymer).

Therefore, the EVA joint 200 is used instead of the explosive mortar that causes the applicant to deteriorate or age due to water, so that the joints 30 between the concrete blocks 10 and 20 can be permanently coupled. It was used to make it possible.

In addition, left and right of the EVA joint 200, the plurality of grooves 210 are formed as shown in FIG. 3 so that the epoxy resin 500 for water curing penetrates and binds to sidewalls of the joint part 30.

That is, by forming the grooves 210 on the left and right sides of the EVA joint 200 as described above, the epoxy resin 500 for underwater curing with the grooves 210 is the joint portion 30 between the concrete blocks 10 and 20. By penetrating into the EVA joint, it is possible to strengthen the bonding force with the EVA joint (200), thereby preventing the lifting phenomenon of the epoxy resin (500) for underwater curing generated when using the exponential mortar can greatly increase the waterproof effect. To be able.

In addition, the groove 210 formed in the EVA joint 200 may be formed in the horizontal direction or the vertical direction so that a large amount of the water-curing epoxy resin 500 may be accommodated in the groove 210. ) To further enhance the bond strength.

In addition, the EVA joint 200 is inserted into and installed at a thickness greater than 120% larger than the space of the joint portion 30.

For example, if the space area of the joint portion 30 is 10 cm, the thickness of the EVA joint 200 is 12 cm or more, so that the water tightness is installed when the joint portion 30 is accommodated in the joint portion 30. The effect can be greatly increased.

As shown in FIGS. 2 and 4, the water-expandable sealing agent 300 is disposed between the concrete blocks 10 and 20 at the upper portion of the epoxy resin 500 for water curing applied to the upper portion of the EVA joint 200. It is applied to the joint 30 of the serves to prevent the water leaking out through the joint 30, which is excellent in the water expansion process of the concrete structure, and in the joint 30 When leakage occurs, it can expand up to about several times its volume when in contact with water, and has excellent adhesion with both the concrete blocks 10 and 20 and the epoxy resin 500 for water curing.

In the present invention, the water-expandable sealing agent 300 was used as wet elastic silicone.

The high elastic wet caulking material 400 is a polyurethane resin having good fluidity, adhesion and water resistance, and is bonded to the upper portion of the water-expandable sealing agent 300 to be bonded to the surface of the concrete blocks (10, 20) flat do.

The glass fiber 800 is applied in the state impregnated on the surface of the concrete blocks (10, 20) and the high elastic wet caulking material 400 is watertightness and airtightness to prevent leakage of water generated in the joint portion 30 In order to ensure the, the soft state is maintained even in contact with water there is a property that the curing proceeds quickly.

The butyl elastic rubber sheet 600 used a butyl compound as a main material, which removes the release paper without the need for a separate adhesive and applied to the upper portion of the glass fiber 800 to a predetermined thickness, preferably 2 to 2.5mm It is manufactured in the form of a self-adhesive tape that can be applied and applied.

The wet epoxy primer 700 is used to reinforce the prevention of leakage generated from the joint 30, and is applied between the highly elastic wet caulking material 400 and the epoxy resin 500 for curing in water.

In the present invention, a wet epoxy primer 700 was used.

In addition, the backing material 150 having a thickness equal to the width of the gap of the joint part 30 is installed in the lower portion of the perforated pipe 100 to enhance the prevention of leakage caused through the joint part 30.

In addition, the epoxy resin 500 for curing in water is applied between the air hole 100 and the water-expandable sealing agent 300 to prevent leakage by curing when water leaks.

In addition, by applying a wet epoxy primer 700 between the high-elastic wet caulking material 400 and the glass fiber 800 to strengthen the adhesion even in the wet state.

In addition, it is possible to further strengthen the joint repairability of the joint part 30 by having the stainless steel plate 900 be further installed at both ends of the upper portion of the butyl elastic rubber sheet 600.

The method of repairing through the repair materials of the concrete structure joint portion 30 according to the embodiment of the present invention having the above configuration will be briefly described with reference to FIG. 1.

First, one side surface corresponding to the joints 30 of the two concrete blocks 10 and 20 is cut and ground and then washed (step S11).

The perforated pipe 100 is fixed to a joint 30 between two concrete blocks 10 and 20 spaced at predetermined intervals using a predetermined fixture (not shown) (step S13).

The backup material 150 is installed between the cutting and grinder processing step (S11) and the installation step (S13) of the perforated pipe 100 (step S12).

Next, the EVA joint 200 is filled in the space of the joint portion 30 at the upper portion of the hole tube 100 (step S14).

Thereafter, the water-expandable sealing agent 300 is applied to the top of the EVA joint 200 filled in the upper portion of the perforated tube 100 (S16).

The epoxy resin 500 for curing under water is coated between the step S14 of inserting the EVA joint 200 and the step S16 of applying the water-expandable sealing agent 300 (step S15).

Then, the high elastic wet caulking material 400 is applied to the upper portion of the water-expandable sealing agent 300 to 3 to 5 mm, but the coated surface is made flat with the concrete blocks 10 and 20 (step S17).

The concrete blocks 10 and 20 and the high elastic wet caulking material 400 is applied to the top of the glass fiber 800 (S19 step).

Between the step of applying the high elastic wet caulking material (400) (S17) and the impregnating the glass fiber (800) (S19), a wet epoxy primer (700) on top of the high elastic wet caulking material (400) Apply (step S18).

It is coated with an elastic butyl elastic rubber sheet 600 on the epoxy resin 500 for curing in water (step S20).

Finally, the step of applying the butyl-elastic rubber sheet 600 (S20) and then the stainless steel sheet 900 is installed (S21) is further configured to the joint of the joint 30 for the concrete structure Enhanced conservatism.

Although the present invention has been described in connection with the exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood that various modifications and changes may be made without departing from the scope of the appended claims.

10, 20: concrete block 30: seam
100: merit pipe 101: hose
150: backup material
200: Eva joint 210: Home
300: water-expandable sealing agent 400: high elastic wet caulking material
500: epoxy resin for curing in water 600: butyl elastic rubber sheet
700: wet epoxy primer 800: glass fiber
900: stainless steel sheet

Claims (4)

In repairing expansion joint of concrete structure to prevent water leakage from concrete structure joints,
Cutting and grinding one side or both sides corresponding to the joints 30 of the two concrete blocks 10 and 20 and then washing them (S11); After the cutting and grinder processing step (S11), the step of installing the backup material 150 in the joint portion 30 of the two concrete blocks (10, 20) (S12); Fixing the hole (100) to the upper portion of the backup material (150) placed on the joint (30) (S13); Inserting and fixing the EVA joint (EVAZOINT, 200), which is an expansion joint, in the space of the upper portion 30 of the upper hole 100 (S14); Applying an epoxy resin (500) for curing the water above the EVA joint (200) (S15); Applying the water-curable sealing agent 300 on top of the applied epoxy resin 500 for curing the water (S16); Applying a highly elastic wet caulking material (400) to the upper portion of the water-expandable sealing agent (300) with a thickness of 3 to 5 mm (S17); Applying a wet epoxy primer (700) on top of the highly elastic wet caulking material (S18); Impregnating glass fibers (800) with epoxy resin for curing the water on top of the concrete blocks (10, 20) and the highly elastic wet caulking material (S19); And applying the butyl-elastic rubber sheet 600 on the epoxy resin for curing in water impregnated with the glass fiber 800 (S20);
In the step S13, the perforated pipe 100 is expansion joint repair method of the concrete structure, characterized in that made of a net or a plurality of hoses 101 are bundled in a bundle. delete delete delete

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