KR200262694Y1 - Concrete structure using perforated pipe - Google Patents

Abstract

The present invention relates to a concrete structure using a perforated pipe, the purpose of which is to bury the perforated pipe (10) that can discharge the water in the construction joints 31 during the concrete pouring to drain the water and air in the unconsolidated concrete Construction joints 31 during hardening Improve the quality of concrete, and after the concrete is hardened, the concrete interior joints are completely removed by completely removing voids in the concrete by injecting the filler material 14 into the perforated pipe 10 embedded therein. The purpose of the present invention is to provide a concrete structure exponential method using perforated pipes that can completely prevent leakage.

The present invention and the formwork 20 is constructed in the shape of the structure to be built on the existing cast concrete layer (30); A perforated pipe 10 installed on the existing concrete layer 30 in the formwork 20; Concrete poured in the formwork 20 including the hole tube 10; Characterized in that it consists of; water filler 14 to fill in the perforated pipe 10 after curing of the poured concrete.

The perforated pipe 10 is characterized in that a plurality of holes (13a) is formed on the outer surface of the mesh-like hose 12 coated with a nonwoven fabric 11 or the synthetic resin pipe 13 coated with a nonwoven fabric (11).

The present design as described above can completely prevent the leakage occurring in the construction joints, so it is greatly convenient to use and extend the life of the underground concrete structure, and can save a lot of time and cost required for leakage and repair Is there.

Description

Concrete structure using perforated pipes

The present invention relates to a concrete structure using a perforated pipe, in particular, by embedding a perforated pipe having a drainage function in the construction joint of the concrete structure to be built underground to discharge the surplus water to obtain dense concrete during curing, after the concrete hardening Filling the inside of the perforated tube to fill the voids completely to achieve the waterproof and water effect.

In general, an underground concrete structure is usually formed with a waterproof layer on the outer surface of the structure to prevent water from penetrating into the interior after the completion of the structure or to prevent the internal water from entering the outside underground.

However, such a waterproof layer has not been fully provided until now, and leaks of many underground structures such as subways remain an unavoidable problem, and there is a high risk of large accidents due to cracks and corrosion of concrete due to leakage. will be.

By the way, the leak occurs at this point, especially the construction joints are always connected to the concrete joint, the construction of the joint or the water leakage prevention method is more urgently needed.

5 and 6 is a view of the conventional means for preventing the leakage of concrete joints, as shown in the concrete construction joints 31 is also provided with an index plate consisting of PVC plate 50, and recently, water-expandable rubber The installation of the 60 is to prevent the leakage caused by not being in close contact with the concrete space of the construction joint 31.

However, such a method was not able to completely block the water leakage phenomenon because the concrete is not dense, leaking occurs in almost all sites, and is repairing with a lot of time and money.

Looking at the causes as described above, the construction joint 31 is the concrete is not formed in a honeycomb form due to the aggregate separation phenomenon during the concrete placing, the PVC index pipe (50) or water-expandable rubber (60), etc. This phenomenon occurs because it is not possible to completely close the voids between the concrete.

The present invention has been devised to solve the conventional problems as described above, and its purpose is to bury the perforated pipe 10 that can discharge the water in the construction joints 31 during the concrete pouring and the water in the concrete not hardened When the air is drained and hardened, the construction joints 31 improve the quality of the concrete, and after the concrete is hardened, the concrete is injected by inserting the filler 14 such as epoxy resin or cement slurry at a predetermined pressure into the perforated pipe 10. It is to provide a concrete structure using a perforated tube that can completely prevent the leakage phenomenon of the concrete construction joint part 31 by completely removing the internal voids.

Figure 1 is a perspective view showing an embodiment of the perforated tube according to the present invention

Figure 2 is a cross-sectional view showing another embodiment of the perforated tube according to the present invention

3 is a side cross-sectional view of a state in which a hole pipe according to the present invention is installed;

Figure 4 is a plan view of the state installing the hole pipe according to the present invention

5 and 6 are views of the means for preventing the leakage of conventional concrete joints

<Description of Signs of Major Parts of Drawings>

10. Merit Hall

11.Nonwoven

12. Reticulated Hose

13. Pipe

14. Filling

20. Formwork

30. Existing Concrete Floor

Concrete structure using the perforated tube provided in the present invention, the formwork to be constructed in the shape of the structure to be built on the existing cast concrete layer; A perforated tube installed on the existing concrete layer in the formwork; Concrete to be poured into the formwork including the hole; Characterized in that it consists of; filler for filling in the hole pipe after curing of the poured concrete.

In addition, the perforated pipe is characterized in that it is made of a reticulated hose coated with a nonwoven fabric.

In addition, the perforated pipe is characterized in that a plurality of holes are formed on the outer surface of the synthetic resin pipe coated with a nonwoven fabric.

In addition, the filler is characterized in that it is used any one selected from epoxy resin, cement slurry, SBR latex, acrylic resin, water-soluble polyurethane resin, ethylene vinyl acetate resin.

The present invention as described above is to install a hole in the construction joint when pouring concrete to drain the air and surplus water of unconsolidated concrete, and after the concrete is hardened to completely seal the voids in the construction joint by injecting filler through the hole pipe It is. Therefore, the waterproofing of the underground concrete structure is achieved, and in particular, leaks generated at the construction joints can be completely prevented.

Hereinafter, a specific embodiment of the present invention will be described in detail with reference to the drawings.

Figure 1 shows a perspective view showing an embodiment of the perforated tube according to the present invention.

The perforated tube 10 of the present invention as described above is made of a mesh-shaped hose 12 having a network of numerous holes 12a in the periphery of a monofilament composed of a blade and a seed line in a pipe-shaped circular tube. The silver is coated with a dense cloth or nonwoven fabric 11 to prevent cement mortar from entering. Therefore, when the concrete is poured, the cement paste does not penetrate into the reticular hose 12, and only surplus water and air, which are unnecessary for hardening, are penetrated into the reticulated hose 12 and discharged to the outside, thereby further densifying and excellent quality after curing of concrete. It can form a concrete layer.

As another embodiment, the perforated pipe 10 may have a plurality of holes 13a formed on the outer surface of the flexible synthetic resin pipe 13 coated with the nonwoven fabric 11 as shown in FIG. 2.

The process of waterproofing and indexing the construction joint part 31 of the concrete structure with the perforated tube 10 as described above is as follows.

First, to form the formwork 20 in the shape of the structure to be built on the existing concrete layer 30, the step of installing the perforated pipe 10 on the existing concrete layer 30 in the formwork 20, Placing concrete in the formwork 20 including the perforated pipe 10, and filling the water-filled filler 14 for water in the perforated pipe 10 after curing of the poured concrete.

As shown in Figures 3 and 4, the present invention is installed in advance in the existing concrete layer (30) construction joints (31) after the installation of concrete, air and water in the concrete during the curing process of the air pipes 10 The quality of concrete is precisely improved by being discharged through it, and there is no flow of surplus water, so that the bleeding phenomenon is improved and the durability of the entire concrete is also improved.

Reference numeral 40 denotes a new concrete layer and is not described.

After the concrete is cured, filling the filling part with a constant pressure in the inner part of the construction joint 31, that is, the inner passage of the perforated pipe 10, and filling the voids is completely sealed between the voids, thus preventing the movement of water. To achieve a perfect index goal.

The filler is any one selected from epoxy resin, cement slurry, SBR latex, acrylic resin, water-soluble polyurethane resin, ethylene vinyl acetate resin, and in particular, as shown in Tables 1 and 2 below, epoxy resin or cement It is preferable to use Lari.

[Table 1] Reference Value of Epoxy Resin Injection

TABLE 1 Criteria for Cement Slarley Injection

Meanwhile, in the detailed description of the present invention, specific embodiments have been described, but it will be apparent to those skilled in the art that various modifications are possible without departing from the scope of the present invention. It is natural that it belongs to the scope of the present invention.

Concrete structure indexing method using the perforated pipe according to the present invention is to install a special hose of the predetermined standard, that is, the perforated pipe in the construction joint to drain the air and surplus water of the unconsolidated concrete, and after the concrete is hardened to fill the filler through the perforated pipe By injection, the voids in the construction joints are completely sealed.

Therefore, the waterproofing of the underground concrete structure is made completely. Especially, the leakage occurring in the construction joint can be completely prevented, so it is very convenient to use and extend the life of the underground concrete structure, and it takes a lot of time and cost to leak and repair. There is an advantage to save money.

Claims (4)

Establishing the formwork 20 in the shape of the structure to be built on the existing cast concrete layer; Installing a perforated tube (10) on the existing concrete layer (30) in the formwork (20); Placing concrete in the formwork (20) including the perforated pipe (10); Filling the water supply filler 14 in the water hole pipe 10 after curing of the poured concrete; Concrete structure index method using a hole pipe, characterized in that consisting of. The method of claim 1, wherein the perforated pipe (10) is a concrete structure exponent method using a perforated pipe, characterized in that made of a mesh type hose (12) coated with a nonwoven fabric (11). The method of claim 1, wherein the perforated pipe (10) is a concrete structure index method using a perforated pipe, characterized in that a plurality of holes (13a) is formed on the outer surface of the synthetic resin pipe (13) coated with a nonwoven fabric (11). 4. The filler according to any one of claims 1 to 3, wherein the filler 14 is any one selected from epoxy resin, cement slurry, SBR latex, acrylic resin, water-soluble polyurethane resin, and ethylene vinyl acetate resin. Concrete structure indexing method using perforated pipes.