KR101082790B1 - Leakage crack repair method on the slab steel-concrete structure - Google Patents

Abstract

PURPOSE: A slab water leakage repair method of a steel reinforcement-concrete building is provided to prevent the leakage recurrence without repair of cracked area. CONSTITUTION: A slab water leakage repair method of a steel reinforcement-concrete building is composed like next. A water leakage spot is detected on the upper part of the reinforced concrete slab(1). Multiple injection holes(22) are formed around the detected water leakage point. The upper side of protective mortar is downward drilled. A filler is injected between the protective mortar and a waterproof sheet(10) through each injection hole in uniform pressure. Each injection hole is tightly closed by a cover.

Description

Leakage crack repair method on the slab steel-concrete structure}

The present invention relates to a method for repairing a leak of a slab of a reinforced concrete building, and in particular, a waterproof sheet and a protective mortar are sequentially stacked on the upper surface of a reinforced concrete slab to repair a leak of a slab of a reinforced concrete building, which forms a waterproof structure. A method comprising the steps of: detecting a point where a leak occurs in a top surface of a reinforced concrete slab; Forming a plurality of injection holes spaced apart at regular intervals from each other around the detected leak point, and drilling downwards from the upper surface of the protective mortar; Injecting a filler material between the protective mortar and the waterproof sheet at a predetermined pressure through each injection hole to push water accumulated between the waterproof sheet and the reinforced-slab upper surface to the filling pressure of the filler; Sealing each injection hole as a cover; The present invention relates to a slab leak repair method for a reinforced concrete building.

Generally, in a building made of reinforcement-concrete, cracks are inevitably generated by aging phenomena such as dry shrinkage, overload, or neutralization of concrete, and it is necessary to repair them early due to leakage. If the maintenance is delayed, not only mold is generated, but also fatal problems such as deterioration of structural strength and durability of the entire building and dropping of finishing materials are caused.

For this reason, in case of leakage due to cracking, the related industry is a filler having a suitable material even in an underwater environment, such as water-soluble epoxy, water-foamable urethane, or cement, which has cement having almost the same physical properties as concrete of a building. The method of repairing a reinforced-concrete building is mainly used by injecting at any pressure through the crack surface of a building using any one of an inorganic chemical injection agent.

However, in the case of reinforcement-concrete buildings using a combination of reinforcing bars and concrete bearing compressive forces, tensile stress is generated by aging such as dry shrinkage, overload, and neutralization of concrete, as described above. . This tensile stress is reduced by the adhesion between the reinforcing bar and the concrete closer to the reinforcement inside the concrete, and eventually the crack width increases toward the outside from the reinforcing bar surface. Therefore, in the conventional method of pressurizing the crack repair agent from the cracked surface, it is usually injected only to the rebar surface and not injected any more, so that a water leakage phenomenon occurs, or rather, a problem in which the water leakage range expands frequently occurs.

This problem is fundamentally due to the conventional repair method using a method of directly filling the cracked portion of the reinforced-concrete building as a repair agent. That is, in the conventional repair method, when a leak occurs due to a crack in a reinforcement-concrete building, a plurality of perforations are formed at the cracks vertically, horizontally, or at an angle to be inclined. A method of filling out the crack is used, and Korean Patent Publication No. 1992-0009134, Korean Registered Patent No. 0718649, and Korean Registered Patent No. 0878485 show examples.

However, all of these techniques reveal only the cracks identified by the naked eye by revealing them on a specific surface of a reinforcement-concrete building such as a ceiling or a wall, and then fill each crack directly, but most of the actual leaks are waterproof reinforcing bars. -Due to the cracks occurring on the upper surface of the slab of the concrete building, there is a problem that these methods can not prevent the leakage fundamentally.

Republic of Korea Patent No. 1992-0009134, Republic of Korea Patent No. 0718649, Republic of Korea Patent No. 0878485

The present invention has been proposed to solve the above problems, and an object of the present invention is to provide a method for conveniently repairing a leak occurring on the upper surface of the slab of the reinforced concrete building.

It is another object of the present invention to provide a method for removing a leak and preventing future leaks from occurring without repairing the cracked portion of the reinforced concrete building that causes the leak.

The present invention, in order to achieve the above object, as a method for repairing the leak of the slab of the reinforced-concrete building structure of the waterproof structure, the protective mortar is sequentially laminated on the upper surface of the reinforced concrete slab, the reinforced concrete slab Detecting a point of leakage in the upper surface; Forming a plurality of injection holes spaced apart at regular intervals from each other by surrounding the detected leak points, and drilling downwards from the upper surface of the protective mortar; Filling the filler with water filled between the waterproof sheet and the reinforced concrete slab top surface by forming a closed loop connected between the fillers by injecting a filler at a predetermined pressure between the protective mortar and the waterproof sheet through each injection hole. Evacuating through the leak point with pressure; Sealing each injection hole as a cover; What is included is made into the technical feature.

Another technical feature of the present invention is a method for repairing a leak of a slab of a reinforced concrete structure in which a waterproof sheet, a buffer, and a protective mortar are sequentially stacked on an upper surface of a reinforced concrete slab to form a waterproof structure, and an upper portion of a reinforced concrete slab. Detecting a point of leakage in the plane; Forming a plurality of injection holes spaced apart at regular intervals from each other by surrounding the detected leak points, and drilling downwards from the upper surface of the protective mortar; Filling material is injected between the protective mortar and the buffer at a predetermined pressure through each injection hole, or between the protective mortar and the waterproof sheet to form a closed loop connected to each other, thereby forming the waterproof sheet and the reinforced concrete slab. Discharging water accumulated between upper surfaces through a leak point at the filling pressure of the filler; Sealing each injection hole as a cover; It is inclusive.

After the closing step, a reclosing step using mortar may be added.

The injection hole may be formed to the upper surface of the waterproof sheet.

In addition, the injection hole may be formed to the upper surface of the buffer or to the upper surface of the waterproof sheet.

The present invention is not only convenient and quick to perform the work in that the leak prevention work in the upper slab of the reinforcement-concrete building, as well as the advantages of minimizing the violation of the existing living space in the repair work There is this.

In addition, the present invention is not a method of preventing the leakage by repairing the crack itself as in the prior art, the rain water is approaching the cracked portion even after the accumulated water is removed by selecting a method of continuously pressing the waterproof sheet with a constant force. It allows you to block what you do.

1A to 1D are schematic step views showing a method for repairing a leak as an embodiment according to the present invention.
2A to 2D are schematic step views showing a method of repairing a leak on a roof of a reinforced concrete building according to another embodiment of the present invention.
Figure 3 is a schematic configuration diagram for drilling the injection hole in performing a repair method for leaks as another embodiment according to the present invention.
4a to 4b each show a plan view of a schematic slab outer surface of a reinforcement-concrete structure in which cracks have occurred.

Preferred embodiments according to the present invention will be described in detail with reference to the accompanying drawings, in which embodiments of the present invention are not directly related to the technical features of the present invention, or in the art to which the present invention pertains. The detailed description of the matters apparent to those skilled in the art will be omitted.

Figures 1a to 1d is a schematic step diagram showing a repair method for the slab leak of the reinforced-concrete building according to the present invention, Figures 4a and 4b is a schematic slab outer surface of the reinforcement-concrete building cracked As a planar configuration diagram for the present invention, the present invention has a technical feature including a leak point detection step, an injection hole drilling step, and a filler injection step and a sealing step.

First, the point where the leak occurred in the slab outer surface (5) of the reinforced reinforced concrete building is found. Since the leak is fundamentally due to the cracking of the reinforced-concrete building slab (1), this step is to find the slab crack point (3) of the reinforced-concrete building that provides the cause of the leak (the cracks may be found on walls other than the slab). May occur, in which case water may move along the cracks of the walls to the cracked site of the slab). FIG. 1A discloses a structure in which a waterproof sheet 10 and a protective mortar 20 are sequentially stacked on a reinforced concrete slab upper surface 2 of a slab waterproof structure of a conventional reinforced concrete structure.

In such a structure, rainwater flowing through the cracked portion of the protective mortar or the cracked portion of the slab edge wall, etc., leaks between the upper surface 2 of the reinforced concrete slab and the waterproof sheet 10, which are not flat and have a predetermined gradient. For example, the accumulated water 8 flows down to the ceiling along the cracked portion 3 and leaks. The leak point detection in the slab outer surface 5 of the reinforced concrete building is preferably made in consideration of the position of the ceiling where the leak is occurring. The slab outer surface 5 may be rooftop. Unexplained reference numeral 6 is a drain pipe, and when the slab outer surface is a roof, an end of the drain pipe may be exposed to the outside.

When the leak occurs, the plurality of injection holes are drilled a certain distance away from the leak. It is preferable that the perforation is made of the lower side where the waterproof sheet is located on the upper surface of the protective mortar, and the depth thereof is not particularly limited, but is preferably within a range of 2 / 3-1 based on the thickness of the protective mortar. The meaning of 1 in the above means that the perforation is made up to the upper surface of the waterproof sheet, which is to be considered that the filler to be described later should be injected between the protective mortar and the waterproof sheet. However, even if the protective mortar is not completely removed, since the crack occurs in the protective mortar remaining in the drilling process, the filler to be described later may be appropriately filled along the crack. 1A discloses an example in which the injection hole 22 is formed to the upper surface of the waterproof sheet 10. The figure shows a case in which the injection hole is formed vertically, otherwise, the injection hole may be formed to be inclined at an angle.

On the other hand, in forming a plurality of injection holes in accordance with the present invention, each injection hole may be made in a manner surrounding the crack point located in the center. When the injection hole is made of this configuration, the fillers injected through the respective injection holes are connected to each other to easily form a closed loop. 4A discloses a case where a plurality of injection holes 22 are formed so as to surround the crack portion 3.

Next, the filler is injected at a predetermined pressure through each injection hole so that the filler is filled with a certain amount between the protective mortar and the waterproof sheet. When the filler is filled between the protective mortar and the waterproof sheet at a certain pressure, the filling pressure pushes out the accumulated water between the waterproof sheet and the upper surface of the reinforced-concrete slab. Water travels between the upper surface of the reinforced concrete slab and the lower surface of the waterproof sheet and is discharged to the outside through a drain pipe installed in the reinforced concrete slab, and some may flow to the ceiling through the cracked portion. The pressure of the filling material that presses the upper surface of the waterproof sheet is continuously acting thereafter, so that rainwater or the like no longer enters the cracked portion from the outside. In order to guide the accumulated water to the drain pipe, it is preferable to form a separate drain groove.

The filler is a water-swellable urethane, acrylic, or bentonite-based and asphalt-based injection material, epoxy-based, or adhesive rubber such as acrylic, EVA, SBC, SBR, which can react within a few minutes to form a gel-like elastomer. Or it may be made of any one material widely used in the related industry, such as organic or inorganic water-based repair materials made by mixing them.

1B discloses a configuration in which the filler 24 is injected at a predetermined pressure through the injection hole. The filler 24 injected is penetrated between the lower surface of the protective mortar 20 and the upper surface of the waterproof sheet 10 by a predetermined pressure, and the pressure of the filler 24 is transmitted to the waterproof sheet 10. This pressure causes water 8 that has accumulated in the crack 3 between the upper surface of the reinforced concrete slab 2 and the lower surface of the waterproof sheet 10 to be pushed out of its original position.

If the injection holes are formed in such a manner as to surround the cracking point, the fillers injected through adjacent injection holes meet each other, and thus the fillers injected between the protective mortar lower surface and the waterproof sheet upper surface are connected to each other and closed. Will form a ring. FIG. 4B shows a case in which the fillers 24 injected through the plurality of injection holes 22 are connected to each other to surround the crack 3.

When the filling of the filling is completed, the sealing according to the present invention is completed by closing each injection hole using a cover. The cover may be arbitrarily selected from various materials such as wood, synthetic resin, rubber, and the like, and the present invention does not limit the type of the material if proper sealing of the injection hole is made. 1C discloses a configuration in which the space above the filler 24 is sealed as the lid 26.

On the other hand, the present invention does not exclude the case where each injection hole sealed as a cover is resealed using mortar. This is to prevent foreign substances such as dust and rainwater from entering the injection hole, and the mortar is preferably made of the same material as the protective mortar. FIG. 1D shows a case where the reclosing treatment by mortar 28 is performed on the upper surface of the cover 26.

Unlike the above-described embodiment, the waterproof structure of a conventional reinforced concrete slab 1 has a waterproof sheet 10, a buffer 30, and a protective mortar 20 on the upper surface of the reinforced concrete slab. It may be laminated sequentially. In this case the present invention proposes to apply a repair method as disclosed in each of FIGS. 2A-2D. The example disclosed in FIG. 3 is some modification of this embodiment.

This embodiment differs from the above-described embodiment in that the buffer 30 is further added. Accordingly, in forming the injection hole 23, the injection hole is drilled to the upper surface of the buffer 30. 2 (a) and the case where the injection hole is drilled through the buffer body 30 to the upper surface of the waterproof sheet 10 (FIG. 3), and a repair procedure for leakage is performed according to each case.

When the injection hole 23 is formed to the upper surface of the buffer body 30, the filler 25 is injected at a predetermined pressure, as shown in FIG. 2B, between the lower surface of the protective mortar 20 and the upper surface of the buffer body 30. As a result, the water 8 accumulated in the crack 3 is pushed out due to the pressure of the filler 25 to be filled. When the filling of the filling material is completed, the upper portion of the injection hole 23 is sealed using the lid 27 as shown in FIG. 2C, and in some cases, the mortar 29 is further added to the upper surface of the lid 27 as shown in FIG. 2D. It could be. The buffer 30 may be made of conventional styrofoam.

If the injection hole 32 is formed through the buffer 30 to the upper surface of the waterproof sheet 10 as shown in FIG. 3, the injection hole 32 may be fixed through the injection hole 32 although not explicitly disclosed in the drawing. The filler injected under pressure is filled between the lower surface of the buffer body 30 and the upper surface of the waterproof sheet 10, and water 8 accumulated in the crack portion 3 is pushed out by the pressure.

The parts described in the above embodiments, such as how far the depth of the injection hole is to be made, how the formation of the injection hole is to be made, and the material of the filler, are equally applicable to this embodiment or the situation. Of course, some changes may be applied.

In the above description, but limited to the preferred embodiments of the present invention, but this is only an example, the present invention is not limited to this may be modified and carried out in various ways, and further technical features based on the technical spirit disclosed It will be apparent that it can be implemented in addition.

1: slab 2: slab upper surface
3: crack 5: slab outer surface
6: drain pipe 10: waterproof sheet
20: protection mortar 30: buffer

Claims (6)

As a method of repairing a slab leak in a reinforced concrete building, where a waterproof sheet and a protective mortar are sequentially stacked on the upper surface of the reinforced concrete slab, forming a waterproof structure,
Detecting a point where a leak occurs in the upper surface of the reinforced concrete slab;
Forming a plurality of injection holes spaced apart at regular intervals from each other by surrounding the detected leak points, and drilling downwards from the upper surface of the protective mortar;
Filling the filler with water filled between the waterproof sheet and the reinforced concrete slab top surface by forming a closed loop connected between the fillers by injecting a filler at a predetermined pressure between the protective mortar and the waterproof sheet through each injection hole. Evacuating through the leak point with pressure;
Sealing each injection hole as a cover;
Slab leak repair method of reinforced-concrete building, comprising the. As a method of repairing a slab leak in a reinforced concrete building, where a waterproof sheet, a buffer, and a protective mortar are sequentially stacked on the upper surface of the reinforced concrete slab, forming a waterproof structure,
Detecting a point where a leak occurs in the upper surface of the reinforced concrete slab;
Forming a plurality of injection holes spaced apart at regular intervals from each other by surrounding the detected leak points, and drilling downwards from the upper surface of the protective mortar;
Filling material is injected between the protective mortar and the buffer at a predetermined pressure through each injection hole, or between the protective mortar and the waterproof sheet to form a closed loop connected to each other, thereby forming the waterproof sheet and the reinforced concrete slab. Discharging water accumulated between upper surfaces through a leak point at the filling pressure of the filler;
Sealing each injection hole as a cover;
Slab leak repair method of reinforced-concrete building, comprising the. The method according to claim 1 or 2,
Slab leakage repair method of a reinforced concrete building, characterized in that after the sealing step is a reclosing step using a mortar. The method of claim 1,
The injection hole is a slab leak repair method of the reinforced concrete building, characterized in that formed to the upper surface of the waterproof sheet. The method of claim 2,
The injection hole is formed to the upper surface of the buffer, or the slab leakage repair method of the reinforced concrete building, characterized in that formed to the upper surface of the waterproof sheet. delete

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