JPH0579294A - Concrete construction to which waterproof process is applied - Google Patents

Abstract

PURPOSE: To enhance the working efficiency by chiefly bending filaments in the obverse-reverse direction of a mat to form projections and continuously covering the face opposite to the concrete structure of the mat with synthetic resin. CONSTITUTION: Filaments of 0.2-1.5 mm in diameter are bent in thechiefly obverse-reverse direction of a mat 2 of 5-70 mm in thickness of to form a projection and constitute a mat 2 integrally shaped as a whole. In this case, the surface density of the mat 2 is prepared in 100-4,000 g/m<2> . Then, the mat 2 is mechanically fixed onto the inside face of the lining concrete 1 by fixing tools 3. Subsequently, a cloth piece or a sheet, a nonwoven cloth 4 for instance, is laid on the face opposite to the concrete wall 1 of the mat 2 and a continuous cover 5 of synthetic resin is stuck to the nonwoven cloth 4. Two part polyurethane raw material composed of polyol and polyisocyanate is sprayed and cured to form the continuous cover 5.

Description

Detailed Description of the Invention

[0001]

FIELD OF THE INVENTION This invention relates to waterproof concrete structures, such as tunnels.

[0002]

2. Description of the Related Art In a tunnel whose inner wall is solidified with lining concrete or shotcrete, water in the ground penetrates through cracks or joints generated in the concrete, reaches the inner wall of the tunnel, and drops as water drops. It is known to attach a rubber sheet or a vinyl chloride sheet to the inner wall in order to prevent water drops from falling. However, its construction is not easy. The sheet is usually 1 m wide, but it takes a lot of labor to keep the sheet tightly attached to the tunnel ceiling. Also, first apply the adhesive to the inner wall of the tunnel, then
Sheets must be applied quickly while the adhesive dries.

It is also known to spray and solidify a polyurethane raw material onto the concrete inner wall. However, when the polyurethane raw material is sprayed and solidified on concrete that has been wet with water, the isocyanate group may react with water, so that it does not adhere strongly to the concrete surface, and the physical properties of the polyurethane film itself are poor. Therefore, it is necessary to dry the concrete surface in advance, which is a practical disadvantage.

[0004]

[PROBLEMS TO BE SOLVED BY THE INVENTION] A concrete structure such as a waterproofed tunnel which is easy to construct, guarantees reliable waterproofing for a long time, and does not leak even when the osmotic pressure of water is high. The present invention aims to provide a construct.

[0005]

DISCLOSURE OF THE INVENTION The present invention relates to a waterproof concrete construction in which a concrete surface is covered with a waterproof synthetic resin coating, and the filaments melt-spun from the concrete construction and the synthetic polymer are mainly mats. A mat that is bent in the front-back direction to form a protrusion, intersects with each other in some places, and is fused with each other at the intersecting positions, a fixture for mechanically fixing the mat to the surface of a concrete structure, A concrete structure comprising a cloth or sheet disposed on the side opposite to the concrete structure, and a continuous coating of synthetic resin sprayed and solidified on the surface thereof.

That is, in the present invention, the water that permeates is collected in the mat layer instead of stopping the water as in conventional spraying of sealant. Therefore, when the osmotic pressure of water is high, it is not sealed with a high water pressure resistant seal, and therefore waterproofing is easy. The ease of construction will be apparent from the following description.

FIG. 1 is a sectional view of a concrete lined tunnel. In FIG. 1, the mat (2) is fixed to the inner surface of the lining concrete (1) by the fixture (3).
They are mechanically fixed, for example by concrete nails, nails in combination with various discs, bolts or plugs. On the side of the mat (2) opposite to the concrete wall (1) is placed a cloth or sheet, for example a non-woven fabric (4), onto which a continuous coating (5) of spray-solidified synthetic resin is deposited. ing. The mat (2) is preferably an ancestor, so that for example a non-woven fabric (4) is placed between the mat (2) and the continuous coating (5), which supports the sprayed synthetic resin coating.

The water that has permeated the inner wall of the tunnel flows down through the gap in the mat and is guided to the drain groove or drain (6).

In the construction, a mat (2) having an appropriate size, for example, a side of 50 cm to 2 m, is applied to the inner surface of the lining concrete (1), and a concrete nail is struck from the top of the mat (2). To fix. The mat has moderate flexibility so that it easily follows the curvature of the tunnel inner wall. The mat is lightweight and it is easy to secure it on the tunnel ceiling. After fixing the mat and the cloth to a predetermined area, the synthetic resin or its raw material is uniformly sprayed on one surface to be solidified. To dispose the non-woven fabric between the mat and the covering, use the one in which the non-woven fabric is bonded to the mat in advance by means of adhesive or fusion, or apply the non-woven fabric onto the mat at the time of construction, and then concrete It can be nailed and fixed together. Alternatively, a mat (2) and a non-woven fabric (4) each having an appropriate size are laminated, a synthetic resin is sprayed and solidified on the non-woven fabric side in advance, the member is laid and fixed on a concrete wall on site, and then the seam is fixed. It can also be made waterproof by spraying a synthetic resin on it.

The mat itself used in the present invention can be manufactured by a known method (Japanese Patent Publication No. 58-91 of the present applicant).
86 and Japanese Patent Publication No. 62-18666 and US Pat. No. 4,252,590). The filaments which make up the mat preferably have a diameter of 0.2 to 1.5 mm and the mat thickness is preferably 5 to 70 mm, in particular 10 to 30 mm. As shown in FIG. 2, the filaments are mainly bent in the front and back directions of the mat to form protrusions, and constitute a mat as a whole as a whole. Preferably, the density of protrusions is 10 to 200 per 10 cm square. Preferably the mat is 10
It has an area weight of 0 to 4,000, especially 200 to 1,000 g / m ² , and is lightweight and flexible. Commercially available mats include Enkamat P32, ST and TP, with filament diameters of 0.54 mm, 0.55 mm, 0.55 mm,
Thickness 17 mm, 22 mm, 10 mm, area weight 640 g / m ² ,
It has 950 g / m ² and 950 g / m ² .

The synthetic polymer forming the mat can be a polyamide, polyester, polyolefin, polyvinyl chloride, polycarbonate, or a mixture or conjugate thereof. Particularly, nylon-6 or polypropylene is preferable. Conventional additives may be mixed.

As the cloth to be arranged on the mat, a non-woven fabric known in the art can be used from the viewpoint of low cost, and preferably made of polyester / nylon-6 core / sheath conjugate yarn. A synthetic resin sheet is used as the sheet. These fabrics or sheets must have good adhesion to the synthetic resin sprayed onto them, or else a treatment to improve adhesion is necessary. It should be noted that a cloth, especially a non-woven fabric, can be arranged on the surface of the mat facing the concrete structure.

The synthetic resin forming the continuous coating may be any one that can be sprayed and solidified, and is preferably polyurethane. Particularly, it is preferable to spray and solidify a two-component polyurethane raw material composed of a polyisocyanate liquid and a polyol (particularly polyether-polyol) liquid. Such 2
Liquid polyurethane raw materials are commercially available as Aldplane-S or Aldroof (both trademarks, Bufa, Germany). Generally, when applying a waterproof layer using polyurethane, it is recommended to apply a primer (for example, epoxide resin) in advance, but this is not particularly necessary in the case of the present invention. The polyurethane coating preferably has a thickness of 2-6 mm. The two-component polyurethane raw material is already solidified to a considerable hardness 10 to 15 seconds after spraying, and finally solidified at 20 ° C. for one week.

The waterproof construction of the tunnel as described above is
This can be done not only for new tunnels but also for renovation of old tunnels. In an old tunnel, not only water penetrates and the surface of the tunnel wall is wet, but dust and mold adhere to it, so even if a waterproof sealant is sprayed on it, it will not adhere. I had to adjust. However, according to the present invention, it is not necessary to perform the construction immediately.

The concrete structure of the present invention is
It can be a slope such as a pond, a dam, and a river, and water is not confined but drained to the mat layer, so that the slope is less likely to collapse, which is preferable.

Hereinafter, the present invention will be further described with reference to examples, but the present invention is not limited thereto.

[0017]

[Example] Construction was performed on a tunnel-shaped concrete wall made as a model.

As the mat, a commercially available product as Enkamat P32 was used. It consists of nylon-6 filament (diameter 0.54mm), thickness 17mm,
The areal density is 640 g / m ² and the width is 1 m. A non-woven fabric made of polyester / nylon-6 conjugate yarn is adhered to one side of the mat. Bonding was performed by pressing the nonwoven fabric while the mat was soft.

The mat was applied to the arch wall of the tunnel ceiling and fixed to the wall with 6 concrete nails / m ² . Next, while sequentially moving toward the side wall, a large number of mats were brought into contact with each other and fixed to the wall without any gap. The work was easy.

Next, the old plane-S (Buf
When a two-component polyurethane raw material consisting of a modified polyether-polyol and a polyisocyanate curing agent manufactured by Company a) was sprayed with a two-liquid spraying machine, it solidified quickly without dripping. Later, when the film was broken down and examined, the film thickness was about 4 mm on average, and about 2 mm even in the thin place.

One week after spraying, a hole was made in one of the mats on the tunnel ceiling, a pipe was passed through the hole, and water was poured. That is, the tunnel was artificially leaked and the waterproofness was tested. There was no water leakage from the polyurethane layer during the test which lasted 10 hours.

[0022]

EFFECTS OF THE INVENTION The waterproof concrete structure of the present invention can be constructed without pretreatment even if the construction surface is wet, dusty or moldy. Further, it can be made by an extremely easy work as compared with the conventional waterproof construction. It does not stop the water that permeates the concrete, so even if the water's osmotic pressure is high, it can be reliably waterproofed and even drained.

[Brief description of drawings]

FIG. 1 is a cross-sectional view of a waterproof concrete structure of the present invention.

FIG. 2 is a cross-sectional view of a mat.

[Simple explanation of symbols]

 1: Lining concrete 2: Mat 3: Fixture 4: Nonwoven fabric 5: Synthetic resin coating 6: Drain

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor ▲ Sakaki ▼ Shigeki 4-11-10 Nishi Tsutsujigaoka, Chofu City, Tokyo (72) Inventor Weilhelm Helfelling Germany 5600 Butspatal 1 Wald Strasse 3 (72) Inventor See. M. Boydecker The Netherlands 6681 ExxGee Bemel Doctor. Double. R. Bow Dake Bastien Ernest Straat 7

Claims (4)

[Claims] 1. In a waterproof concrete construction comprising a concrete surface covered with a waterproof synthetic resin coating, filaments melt-spun from the concrete construction and the synthetic polymer are mainly bent in the front and back directions of the mat. A mat that forms protrusions, intersects with each other in some places, and is fused to each other at the intersecting positions, a fixture for mechanically fixing the mat to the surface of the concrete structure, and a mat on the opposite side of the mat from the concrete structure. Cloth or sheet placed on the surface,
And a concrete construction further comprising a continuous coating of synthetic resin sprayed and solidified on its surface. 2. The filaments forming the mat have a diameter of 0.2 to
The concrete structure according to claim 1, wherein the concrete structure has a thickness of 1.5 mm, a mat thickness of 5 to 70 mm, and an areal density of 100 to 4,000 g / m ² . 3. The concrete structure according to claim 1, wherein the continuous coating of the synthetic resin is a two-component polyurethane raw material composed of a polyol and a polyisocyanate sprayed and solidified. 4. The concrete structure is tunnel lining concrete or shotcrete.
The concrete structure according to any one of 1.