KR100994744B1 - repair and reinforcement method of underground a fabric - Google Patents

Abstract

The present invention relates to an electric pressure injection waterproofing method using micro cement and smectite for leaking underground structures of a building. In detail, the present invention is to prevent leakage of underground structures constructed with protective walls for protecting the outer wall of concrete and the internal space of underground structures. It is a repair and reinforcement method of leaks occurring in underground structures and underground joint structures, which repairs the outer walls and bearing walls without dismantling the structures and solves the flooding of underground structures.

In the waterproofing method of leak prevention of underground structures constructed with the structure of concrete outer wall and protective wall, the first hole penetrating the protective wall at the height of 70cm ~ 130cm of the protective wall is formed in the crack part, and the amount of water collected in the water collecting channel and the state of leakage A pre-inspection step of irradiating the water, a discharge step of discharging the water collected in the water collecting passage by forming a second hole penetrating the protection wall at a boundary between the protective wall and the bottom surface, and closing the second hole of the discharge step. Fill the waterway to the top of 10cm to 20cm of the first hole to repair the cracks on the outer wall with the weight load pressure of the watering material, and insert the hole frame matching the first hole to harden the watering material so that one side is blocked. Forming a hole and raising the bottom surface of the water collecting passage; forming a third hole penetrating the protective wall at a height of 20 cm to 40 cm to the upper part of the first hole, and entering the interior of the underground structure. Repair and reinforcement method of leaking underground structure composed of simple collection stage method of installing dove valve.

The method of the present invention increases the natural dry rate by increasing the bottom surface of the collecting channel through the filling process without dismantling the protective wall and the bottom surface of the underground structure due to the problem of submersion of the underground structure caused by the collecting channel and the collecting tank that has lost its function. The repair material is filled into the crack space of the outer wall by the pressure of the weight load according to the filling height of the to prevent leakage of the outer wall, and the repair material is pressed into the entire cross-sectional area of the protective wall into the first hole blocked on one side and contacted with the first hole. It is repaired, and the space between bricks and bricks generated by the aging of the protective wall is repaired with a repair material, and through the simple collection step, water leakage exceeding the natural drying rate can be easily discharged to prevent the collapse of the protective wall and the flooding. have.

Repair method, reinforcement method, underground structure, leak, construction method

Description

Repair and reinforcement method of underground a fabric}

The present invention relates to an electric pressure injection waterproofing method using micro cement and smectite for leaking underground structures of a building. In detail, the present invention is to prevent leakage of underground structures constructed with protective walls for protecting the outer wall of concrete and the internal space of underground structures. It is a repair and reinforcement method of leaks occurring in underground structures and underground joint structures, which repairs the outer walls and bearing walls without dismantling the structures and solves the flooding of underground structures.

First, referring to Figure 3 the structure of the underground structure belonging to the present invention,

The building is constructed with a structure that protects the underground structure below the ground GL from soil by the outer wall and secures the space of the underground structure. Underground structures of buildings constructed with such structures penetrate the outer walls of concrete by groundwater and leak into the building, and inundation into the underground structures may occur depending on the water content of the soil and the waterproofness of the outer walls. In the construction of underground structures, the catchment channel and the sump are constructed at the basement floor of the outer wall, and the water penetrating the outer wall is collected through the catchment channel at the bottom of the underground structure and the water penetrating the outer wall is submerged into the underground structure. It is constructed to prevent it. In addition, it is constructed to reduce humidity by naturally drying the water inside the underground structure by installing a sun window and a fan to remove moisture of the underground structure by the water penetrating the outer wall.

 The leakage occurring in the underground structure of the above-described structure is easy to penetrate the water into the outer wall formed of the material of mortar and frequently leaks due to the crack of the outer wall due to the aging of the outer wall and the pressure of the ground. Water leaked through the outer wall is collected in the water collecting channel of the space between the outer wall and the protective wall due to the leakage of the outer wall and the damage of the collecting tank and the sump due to the pressure of the ground, and the amount of natural drying by the sunshine window and the fan provided in the underground structure. When the above water leaks, it leaks into the interior of the underground structure through the protective wall and the underground structure is flooded. Inundation of such underground structures causes a problem of deepening of submersion of underground structures when the protective wall is cracked. In particular, the protective wall is constructed by combining and stacking bricks and bricks with mortar, and there is also a problem in that the breakage of the mortar occurs due to aging, creating a space between the bricks and the bricks, thereby worsening the leakage.

Hereinafter, the related art and related arts to solve the problem of water leakage due to breakage of the water collecting tank and the water passage and the water leakage caused by the crack of the outer wall and the protective wall will be described.

As a repair method to solve the inundation caused by the damage of the water tank and the catchment, it is necessary to dismantle the bottom surface and the protective wall of the underground structure where the catchment is constructed to check the damaged part of the catchment and the sump and repair the damaged part. In order to solve the problem of water leakage, the construction consists of the repair phase, the dismantled floor, or the construction phase of rebuilding the protective wall.

As a repair method to solve the leak caused by the crack of the concrete structure, various waterproofing methods are being implemented, and concrete structures such as coating waterproofing, repair waterproofing, plastering waterproofing, sheet waterproofing, injection waterproofing, Grout waterproofing, etc. The problem is solved by water-tightening itself to block water infiltration and leakage of cracks.

The methods are classified into two types and look into the filling method of FIG. 4 to form a hole in the crack space of the concrete structure, insert an injection machine, and inject a water-repellent agent and micro mortar, urethane, epoxy, etc. The situation is carried out by the waterproof layer forming method of forming a waterproof layer on the outer surface of the concrete structure.

The conventional repair method for solving the inundation caused by the damage of the sump and the sump has to dismantle and reconstruct the floor and the protective wall of the existing underground structure, and the air is long, and a lot of repair costs such as material costs required for the construction are required. There is a problem with

In the filling method and the waterproofing layer forming method, there is still a problem of dismantling the protective wall in order to repair the outer wall, and as a result, a repair for waterproofing only the protective wall may be performed. However, when only the protective wall is repaired, the damage of the catchment channel and the collection tank causes water to be collected more than the natural drying rate of the water by the fan and the solar window, and the water is continuously collected into the space between the outer wall and the protective wall, causing the collapse of the protective wall. There is a problem of danger.

In addition, the waterproofing by the filling method is a method of injecting the cracks of the structure by the force of the pressure in which the repairing material is injected to repair only the crack (1) in contact with the hole of the structure is not a complete repair.

In the waterproofing method of leak prevention of underground structures constructed with the structure of concrete outer wall and protective wall, the first hole penetrating the protective wall at the height of 70cm ~ 130cm of the protective wall is formed in the crack part, and the amount of water collected in the water collecting channel and the state of leakage A pre-inspection step of irradiating the water, a discharge step of discharging the water collected in the water collecting passage by forming a second hole penetrating the protection wall at a boundary between the protective wall and the bottom surface, and closing the second hole of the discharge step. Fill the waterway to the top of 10cm to 20cm of the first hole to repair the cracks on the outer wall with the weight load pressure of the watering material, and insert the hole frame matching the first hole to harden the watering material so that one side is blocked. Forming a hole and raising the bottom surface of the water collecting passage; and forming a third hole penetrating the protective wall at a height of 20 cm to 40 cm to the upper part of the first hole. FIG repair reinforcement method for underground structures leakage water collecting step method consisting of a simple to install the valve.

The bottom surface of the water collecting channel 30 through the filling process without dismantling the protective wall 20 and the bottom surface of the underground structure due to the problem of the submerged waterway 30 and the underground structure caused by the water collection tank lost the function of the present invention. As a result, the natural drying rate is increased and the repair material 80 is filled into the crack space of the outer wall 10 by the pressure of the weight load according to the filling height of the repair material 80 to suppress the leakage of the outer wall 10 and the one side is blocked. The repair material 80 is press-fitted into the entire cross-sectional area of the protective wall 20 through the first hole 40 to repair the cracks in contact with the first hole 40, and the bricks and bricks generated by the aging of the protective wall 20 are removed. The space is repaired with a repair material, and through the simple collection step (S5) can easily discharge the water leakage exceeding the natural drying rate to prevent the collapse and flooding of the protective wall (20).

The present invention relates to a repair and reinforcement method for leaking underground structures of a building. In detail, an underground structure in which an outer wall 10 of concrete in contact with an underground soil and a protective wall 20 for protecting an inner space of an underground structure is constructed is used. In order to solve the leak of the structure, it is characterized in that the leak is solved without dismantling the protective wall and the basement floor.

The water-retaining material 80 used in the present invention is agitated with microcement and water, smectite, butadiene rubber, and improves the same durability, excellent water resistance, abrasion resistance, and crack resistance as the concrete structure, thereby simultaneously forming an integral part with the structure. repair. Reinforcement is made.

Looking at the rough construction of the five-step method and the repair material 80,

Investigate the crack state of the protective wall 20 and form the first hole 40 penetrating the protective wall 20 within the crack portion existing within 70cm ~ 130cm from the bottom surface and at the same time the outer wall 10 and the collecting passage ( It consists of a pre-irradiation step (S1) to check the water level of the water collected in 30), the second hole 50 toward the water collecting passage 30 in the lower portion of the protective wall 20 to form the first hole 40 or less Discharge step (S2) for discharging the collected water to the end, the second hole 50 is closed and the injection hole 41 is inserted into the first hole 40 to the space between the outer wall 10 and the protective wall 20 The repair material 80 is press-fitted into the water collecting passage 30 and the repair material 80 is filled into the crack space of the outer wall 10 by the pressure of the weight load of the repair material 80 to repair the crack of the outer wall 10 and at the same time to collect the water. Filling step (S3) of raising the bottom surface of the furnace 30 above the first hole (40) and inserting a hole frame to cure the water retaining material (80), the first hole 4 of which one side is blocked by the water retaining material (80). Re-injecting the repair material 80 with 0) to fill the repair material 80 to the crack space of the protective wall 20 to finish the repair step (S4), the protective wall 20 to the top of the 20cm ~ 40cm of the first hole 40 Repair and reinforcement method of the underground structure leakage consisting of a simple collection step (S5) to form a third hole (60) penetrating through) and to install the water valve 61 toward the interior of the underground structure.

The repair material 80 used in the present method is a mixture of microcement, water, smectite and butadiene rubber, which improves the same durability, excellent water resistance, abrasion resistance, and crack resistance as the concrete structure, thereby simultaneously repairing it by forming an integral part with the structure. . It is characterized by the reinforcement is made

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

1 is a view showing a process diagram of the present invention, Figure 2 is a cross-sectional view of the basement layer carried out by the method of the present invention, Figure 3 is a partially enlarged view of Figure 2, Figure 4 relates to the filling method of the background art Partial magnification.

1 and 2, the construction of the present invention is a preliminary irradiation step (S1) and the discharge step (S2), filling step (S3), maintenance step (S4), simple collection It consists of five steps of step S5.

In the pre-irradiation step S1, the crack state of the protective wall 20 is examined, and the first hole 40 penetrating the protective wall 20 is formed in the crack portion existing within 50 cm to 150 cm from the bottom surface, and at the same time, the outer wall is first. 10 and check the water level of the water collected in the water collecting passage (30).

This irradiates the cracks on the entire protective wall 20 and forms a first hole 40 penetrating the protective wall 20 in the crack existing within the height of 70 cm to 130 cm based on the bottom of the underground structure. The amount of water discharged by the first hole 40 consists of checking the damage and leakage of the outer wall 10.

The discharging step S2 is a step of discharging water collected below the first hole 40 by forming a second hole 50 facing the water collecting passage 30 on the bottom surface of the protective wall 20.

This is formed by removing the water collected in the water collecting passage 30 by forming a second through hole 50 facing the water collecting passage 30 at the corner of the bottom surface and the protective wall 20.

Filling step (S3) is the water-reserving material 30 is the space between the outer wall 10 and the protective wall 20 by closing the second hole 50 and inserting the injection machine 41 into the first hole 40 Filling the (80) and filling the crack space of the outer wall 10 by the weight load pressure of the repair material 80 to repair the crack of the outer wall 10 and at the same time raising the bottom surface of the water collecting passage (30).

This is after the water collected in the discharge step (S2) is removed, the injection hole 41 is inserted into the first hole 40 to be fixed to the protective wall 20 and the water retainer 80 is the outer wall provided with the collecting channel 30 It fills in the space between (10) and the protective wall (20). When the water filling material 80 is filled in this way, when the water filling material 80 is not press-fitted, the filling material is stopped and the hole frame is inserted into the first hole 40 to harden the water filling material 80. The water retaining material 80 is filled up to 10cm to 20cm upper portion of the first hole 40 and the water collecting tank and the water collecting passage 30 which lost their function and at the same time, the outer wall 10 by the weight load pressure of the water retaining material 80 according to the height. The repairing material 80 penetrates into the crack space of the outer wall 10 to repair and reinforce the crack of the outer wall 10. In addition, the minimum bottom surface of the water collecting passage 30 is increased by 50cm to 170cm due to the hardening of the water-retaining material 80 filled with 10cm to 20cm upper portion of the first hole 40, so that the distance between the fan and the sunlight 70 is narrowed. It is characterized by increasing the natural drying rate of the furnace (30).

The water retaining material 80 uses microcement and water as the main materials, and coincides with the concrete structure when combined with the concrete structure by the load pressure and the pressure of the indenter, and easily penetrates into the crack space of the protective wall 20, and quickly hardens. In order to shorten the air, waterproof and durability, the microcement and water, smectite and butadiene rubber is characterized in that the mixture is configured.

The microcement is made of the same material as the concrete structure and does not cause soil or groundwater contamination, and has excellent chemical resistance, and has a tight structure. In addition, it is easy to disperse in water, there is no sedimentation separation, it is chemically activated by fine powder, expresses high strength rapidly, and the strength is increased in the long term, the repair material 80, the outer wall 10 and the protective wall 20 are integrated and the ocher component Smectite, one of them, neutralizes the cement lime and has a characteristic that the viscosity is increased when water is added and does not break. In addition, it has a unique tubular structure as one of the clay minerals, so moisture is absorbed and pollutants are absorbed due to gaps between organic layers. Therefore, microcement and smectite are the same minerals, and have excellent binding force, which is effective in improving breathability, excellent waterproofness, and durability when combined with concrete. Butadien rubber is a nonionic stabilized copolymer containing antifoaming agent and antioxidant. It improves the resistance to cracking and improves compressive strength, wear resistance and crack resistance. In addition, since the adhesive strength is excellent, it improves the waterproof surface of the concrete itself. Easily penetrates the repair material 80, the outer wall 10 and the protective wall 20, and at the same time excellent adhesion to the repair material 80, the outer wall 10 and the protective wall 20 is made easy adhesion.

The repair step (S4) is a step of refilling the repair material 80 and filling the repair material 80 with the crack space of the protective wall 20 to finish.

This is to insert the repair material 80 by inserting the injection molding machine 41 into the first hole 40 in which the hole frame of the filling step (S3) has been removed, and is generated between the crack part and the brick and the brick by the injection pressure of the injection machine. When the repair material 80 penetrates into the repaired space and is repaired by the repair material, when the repair material 80 is not administered or when the repair material leaks due to a crack in the upper portion of the protective wall 20, the press-fit of the repair material 80 is stopped. The first hole 40 is closed to repair the crack space of the protective wall 20.

In the simple water collecting step S5, a third hole 60 penetrating the protective wall 20 is formed in the upper portion of the first hole 40 between 20 cm and 40 cm, and the water valve 61 is installed toward the inside of the underground structure. Step.

This is to easily discharge the water collected to the bottom surface of the elevated water collecting channel 30 by the filling step (S3) to solve the inundation and collapse of the protective wall 20 by the water collected in the water collecting passage (30) By forming a third hole 60 spaced 20 cm to 40 cm above the first hole 40 of the protective wall 20 to provide a water valve 61 and to install a simple collection tank to couple with the water valve 61. It is a repair and reinforcement method of leaking underground structures that solves the problem of leaking underground structures.

In the method of the present invention, if there is no crack in the protective wall 20, it is obvious that it can be easily carried out by the repair and strengthening method of leaking underground structure that does not include the repair step (S4).

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Such a method of the present invention, as shown in Figure 5, the geological weakness can be easily carried out even in the terminal and subway structure in which the protective wall 10 is formed separately.

1 is a process diagram of the present invention.

Figure 2 is a cross-sectional view of the basement layer carried out by the method of the present invention.

3 is a partially enlarged view of FIG. 2.

Figure 4 is an enlarged partial view of the filling method of the background art.

5 is a cross-sectional view showing a tunnel that is another basement structure.

Claims (3)

In the leakproof waterproofing method of the underground structure constructed in the structure of the concrete outer wall 10 and the protective wall 20, A preliminary irradiation step of investigating the amount of water collected in the water collecting passage 30 and the state of leakage by forming a first hole 40 penetrating the protective wall 20 to a height of 70 cm to 130 cm of the protective wall 20 ( S1); A discharge step (S2) of discharging the water collected in the water collecting passage 30 by forming a second hole 50 penetrating the protective wall 20 at a boundary between the protective wall 20 and the bottom surface; Closing the second hole 50 of the discharge step (S2) and filling the water receptacle 30 to the upper portion of the first hole 40 to 10cm ~ 20cm of the first hole 40 to repair the crack of the outer wall 10 ( At the same time as the weight load pressure of 80), the hole frame coinciding with the first hole 40 is inserted to harden the water retaining material 80 to form the first hole 40 with one side blocked, and the water collecting passage 30 is formed. Filling step (S3) to raise the bottom surface of the; Simple collection step (S5) of forming a third hole (60) penetrating the protective wall 20 at a height of 20cm ~ 40cm in the upper portion of the first hole 40 and installing the water valve 61 in the interior of the underground structure (S5) Repair and reinforcement method of leaking underground structure composed of construction method. The method of claim 1; In order to repair the crack of the protective wall 20, the repairing material 80 is cured and the repairing step (S4) for adding and finishing the repairing material 80 into the first hole 40, one side is blocked, characterized in that it is added. Repair and reinforcement method for leaking underground structures. delete

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