JPH03121391A - Gas pipe to be imbedded in ground - Google Patents

Abstract

PURPOSE:To prevent corrosion and deterioration of a stainless steel pipe due to entry of moisture in the ground and underground water into a gas pipe by mounting a water-tight layer which is made of synthetic resin and has rubber elasticity on the surface of stainless steel pipe. CONSTITUTION:A stainless steel pipe 1 is made like bellows and spiral corrugation and provided with flexibility. Further, a water-tight layer 2 which is made of synthetic resin and has rubber elasticity is mounted on the stainless steel pipe 1 to prevent entry of moisture in the ground and water on the ground into a gas pipe which is imbedded in the ground and prevent corrosion and deterioration of the stainless steel pipe 1 due to water. Consequently, gas does not leak, and sufficient reliability is obtained even when the gas pipe is used for a long time. Thus formed water-tight layer 2 is covered by a plastic sheath 3 to obtain desired gas pipe.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Field of Application J] This invention relates to a stainless steel gas pipe for underground burial that has excellent corrosion resistance and flexibility.

[Prior Art and Its Problems] Conventionally, hard stainless steel pipes, high-density polyethylene pipes, and the like are buried underground and used as gas pipes for supplying city gas and the like to ordinary households.

However, although these gas pipes are hard and have high mechanical strength, they lack flexibility, so it is necessary to use joint devices of various shapes such as elbows, making the construction extremely complicated. In addition to this problem, when an external force is applied in the direction of bending the gas pipe due to an earthquake, etc., cracks may occur on the surface of the gas pipe, or gaps may appear in the joints connecting the gas pipes, causing gas to leak out from there. There was a problem with leaks.

Furthermore, when metal gas pipes are used for long periods of time, underground moisture and groundwater can corrode the gas pipes, reducing the mechanical strength of the parts and causing gas leaks. there were.

This invention has been made to solve the above problems, and provides an underground gas pipe that has excellent corrosion resistance and flexibility, is easy to construct, and can withstand long-term use with sufficient reliability. The purpose is to

[Means for Solving the Problems] The present invention provides a watertight layer made of synthetic resin having rubber elasticity on the surface of a bellows-shaped or spirally corrugated stainless steel pipe,
The solution was to coat this watertight layer with a plastic layer.

[Function] Since the stainless steel pipe is made into a bellows shape or a spirally corrugated shape, it has flexibility.

In addition, a watertight layer made of synthetic resin with rubber elasticity is provided on the stainless steel pipe, which prevents underground moisture and groundwater from entering the underground gas pipe. Since corrosion and deterioration can be prevented, the corrosion resistance of the gas pipe can be improved.

Therefore, there is no gas leakage, and sufficient reliability can be obtained even for long-term use.

[Example code] The present invention will be explained in detail below.

FIGS. 1 and 2 show an embodiment of the underground gas pipe of the present invention. The underground gas pipe of the present invention is formed by providing a watertight layer 2 made of a synthetic resin having rubber elasticity on the surface of a corrugated stainless steel pipe I having a corrugated shape, and covering this watertight layer 2 with a plastic sheath 3. It is something.

As shown in Fig. 2, the stainless steel pipe l has a bellows shape along its longitudinal direction, and the stainless steel is made to exhibit flexibility against external forces such as bending. The applied external force is absorbed by the deformation of the pitch between the bellows-shaped convex part and the next convex part, which prevents cracks from forming on the gas pipe surface or gaps at the joint part, and also prevents the gas pipe from forming at right angles. The following curved shapes can be provided, and the number of joints required for piping can be drastically reduced compared to conventional gas pipes.

The watertight layer 2 is for improving the corrosion resistance of the underground gas pipe of the present invention, and is made of a synthetic resin formed without any gaps on the bellows surface of the stainless steel pipe 1. The synthetic resin constituting this watertight layer 2 has rubber elasticity so as not to impair the flexibility of the stainless steel tube 1, and has self-adhesiveness so as to have good adhesion to the stainless steel tube 1 and the plastic sheath 3. and has no moisture permeability, such as ethylene vinyl acetate, ethylene vinyl alcohol with a vinyl alcohol content of 10% or more,
Ethylene ethyl acrylate (EEA), ethylene acrylic acid copolymer fil (FAA), ethylene ethyl acrylate (EMMA), ethylene methyl methacrylate (EMMA), etc. can be suitably used. Watertight layer 2 made of such a synthetic resin with no moisture permeability
By providing this, when the underground gas pipe of this invention is buried underground, underground moisture, groundwater, etc. can enter the gas pipe,
Since the stainless steel pipe I is not corroded, the corrosion resistance of the gas pipe can be improved.

The surface of the watertight layer 2 is covered with a plastic sheath 3. This plastic sheath 3 is intended to prevent damage to the surface of the underground gas pipe, so it is made of hard synthetic resin, such as high-density polyethylene, medium-density polyethylene, low-density polyethylene,
Vinyl chloride, nylon, etc. can be suitably used.

To manufacture such underground gas pipes, first prepare a stainless steel pipe with a desired diameter, for example, by forming a temporary circular shape and continuously welding the butt portions, and then cold-roll the surface of this stainless steel pipe. Processed into a bellows shape or a spiral wave shape.

The surface of the bellows-shaped stainless steel pipe 1 is coated with synthetic resin having rubber elasticity, such as EVA (Evaflex 150).
, Evaflex 250, Evaflex 450, etc.) is extruded and then cooled to form a watertight layer 2, and then a plastic sheath 3 made of polyethylene or the like mentioned above is extruded and coated. This extrusion coating may be coated by coextrusion with the watertight layer 2 described above. In this case, the adhesion between the watertight layer 2 and the plastic sheath 3 becomes better.

The underground gas pipe obtained in this way is composed of the stainless steel pipe 1 that exhibits a bellows shape along the longitudinal direction, so even if external stress such as bending is applied to the stainless steel pipe 1, By changing the pitch between the convex parts that make up the bellows, it is possible to absorb and relieve stress, so there is no possibility that the gas pipe will burst due to bending stress or that gaps will form at the joint part. It can be used safely for a long period of time.

Furthermore, since it is possible to give a curved shape that is less than a right angle, it is possible to connect a pipe with a straight gas pipe instead of using a joint in a conventional gas pipe.
Piping work is much easier than with conventional gas pipes.

In addition, since the watertight layer 2 made of synthetic resin with rubber elasticity is provided on the surface of the stainless steel pipe l, its corrosion resistance can be improved, and the stainless steel pipe l can be corroded by moisture in the ground or underground water entering the gas pipe. This prevents gas from leaking, resulting in a highly reliable product that can withstand long-term use.

Furthermore, a plastic sheath 3 formed on the surface of the watertight layer 2
Since the surface of the gas pipe is protected by this, there will be no damage to the watertight layer 2 and the surface of the stainless steel pipe 1.
It becomes even more reliable.

[Effects of the Invention] As explained above, the underground gas pipe of the present invention has the following advantages:
A watertight layer made of synthetic resin with rubber elasticity is provided on the surface of a bellows-shaped or spirally corrugated stainless steel funnel, and this watertight layer is covered with a plastic sheath.
The bellows shape of the stainless steel pipe 1 can absorb external stress, and it has excellent flexibility that allows it to be curved at a right angle or less, making piping easier than conventional gas pipes.

Furthermore, even if the pipe is buried underground for a long period of time and external force is applied to the pipe due to an earthquake, etc., its flexibility allows it to absorb the external stress, so it will not come off or break at the joint. Since there is no gas leakage, the reliability is high.

In addition, by providing a watertight layer, the corrosion resistance of the stainless steel pipe 1 is improved, and it is possible to prevent underground moisture and groundwater from entering the gas pipe and causing corrosion and deterioration of the stainless steel pipe 1. Even if it is buried and used, there is no gas leakage and it can be used safely.

[Brief explanation of drawings]

Figures 1 and 2 both show an embodiment of the underground gas pipe of the present invention, with Figure 1 being a schematic cross-sectional view thereof, and Figure 2 being a schematic longitudinal cross-sectional view thereof. . ■...Stainless steel pipe, 2...Watertight layer, 3...Plastic sheath.

Claims (1)

[Claims] A gas pipe for underground burial, in which a watertight layer made of rubber-elastic synthetic resin is provided on the surface of a bellows or spirally corrugated stainless steel pipe, and this watertight layer is covered with a plastic sheath.