JP2000283344A - Complex tube - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a complex tube excellent in heat resistance and pressure resistance and ideally usable as a hot water feed tube or the like. SOLUTION: In this complex tube, an intermediate layer 12 formed by spirally winding a drawn polyethylene resin sheet is laminated on the outer peripheral surface of an inner layer 11 tubularly formed of chlorinated vinyl chloride resin, through a compatible layer 14, and an outer layer 13 made of vinyl chloride resin is further laminated on the intermediate layer 12. The compatible layer 14 is compatible with both inner layer 11 and intermediate layer 12.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a composite pipe suitably used for flowing and transporting various substances, and more particularly, to a composite pipe having high pressure resistance and high pressure of a substance flowing inside. The present invention also relates to a composite pipe that is not likely to be damaged even if it is damaged, and that is optimal for a specific application.

[0002]

2. Description of the Related Art Pipes such as pipes and hoses used when flowing and transporting various substances such as liquids and gases are required to have pressure resistance so as not to be damaged by the pressure of the substances flowing inside. . In particular, when a high-pressure fluid is conveyed, such as a hydraulic pipe or a water supply pipe, high pressure resistance is required.
For this purpose, for example, in JP-A-8-11250, a fiber reinforcing layer and a wire reinforcing layer are provided between an inner layer and an outer layer, each of which is formed of a flexible material such as a synthetic resin in a tubular shape. A composite tube is disclosed.

[0003]

In such a composite pipe, the provision of the fiber reinforcing layer and the wire reinforcing layer improves the pressure resistance. However,
Because the fiber reinforcing layer is arranged by braiding fibers having an appropriate thickness or being wound in a spiral shape,
There is a problem that the fiber reinforcement layer itself becomes thick. Further, the fiber reinforcing layer formed by bundling the fibers has a large axial strength along the longitudinal direction of each fiber, and may have a large difference from the circumferential strength. In addition, since the wire reinforcing layer is laminated on the fiber reinforcing layer, the overall thickness is large, and the overall weight is large, handling is not easy, and there is also a problem that economic efficiency is impaired. .

Furthermore, when a substance is transported while flowing, there is a possibility that the substance cannot be used stably for a long time depending on the physical properties of the substance to be transported. For example, when used as a hot water pipe, a steam pipe in a ship, a chemical liquid transport pipe in a chemical factory, or the like, if the inner layer is made of a normal synthetic resin, the inner layer is
It may be melted by hot water, a chemical solution, or the like, or may be deteriorated by a chemical reaction. Also, in the case of piping in a bent state, if the pipe is formed of a normal inner layer and an outer layer, there is a possibility that the pipe may be damaged by bending,
Can not be used. Further, when used for transporting sand, ore, etc., the inner layer made of ordinary synthetic resin may be worn away in a short time and may be damaged.

The present invention has been made to solve such a problem, and an object of the present invention is to provide a composite pipe which is excellent in pressure resistance and which is optimal for various uses.

[0006]

The composite tube has an inner layer formed of a synthetic resin in a tubular shape, an intermediate layer formed by spirally winding a stretched polyolefin resin sheet around the outer surface of the inner layer, and An outer layer made of a synthetic resin laminated on the intermediate layer, and a compatible layer having compatibility with each of the inner layer and the intermediate layer is provided on an outer peripheral surface of the inner layer. .

[0007] The compatible layer is composed of an adhesive polyolefin. The inner layer is made of a chlorinated vinyl chloride resin.

[0008] The inner layer is made of a fluororesin. The inner layer is made of a crosslinked polyethylene resin.

The inner layer is made of a polyurethane resin.

[0010]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a schematic configuration diagram showing an example of an embodiment of the composite pipe of the present invention. This composite pipe 10
Is preferably used to convey a high-temperature fluid, such as a hot water supply pipe, and has an inner layer 11 formed of a chlorinated vinyl chloride resin in a tubular shape, and an outer peripheral surface of the inner layer 11, An intermediate layer 12 formed by spirally winding an oriented polyethylene resin sheet, which is an oriented polyolefin resin sheet, via a compatible layer 14, and an outer layer 13 made of a vinyl chloride resin laminated on the intermediate layer 12. And

The intermediate layer 12 laminated on the inner layer 11 with the compatible layer 14 interposed therebetween is formed by stretching a strip-shaped stretched polyethylene resin sheet having an appropriate width dimension by 30 to 9 with respect to the axial direction of the inner layer 11.
Spirally wound so as to have a tilt angle of 0 °,
On top of that, a stretched polyethylene resin sheet is formed in a two-layer structure in which it is spirally wound so that the inclined direction is opposite.

The compatible layer 14 provided between the inner layer 11 and the intermediate layer 12 is provided for each of the chlorinated vinyl chloride resin forming the inner layer 11 and the stretched polyethylene resin sheet forming the intermediate layer 12. Adhesive polyolefins having compatibility are used. As such an adhesive polyolefin, a trade name "Aquatex" (manufactured by Chuo Rika Kogyo Co., Ltd.), a trade name "Admer" (manufactured by Mitsui Chemicals, Inc.) and the like are used.

The composite pipe 10 having such a configuration is manufactured as follows. First, the chlorinated vinyl chloride resin is extruded by a short screw extruder to form the inner layer 11. Then, an adhesive polyolefin is applied to the outer peripheral surface of the molded inner layer 11 to form a compatible layer 14 in a molten state.

After that, by a spiral winder,
A stretched polyethylene resin sheet configured in a belt shape having a predetermined width is spirally wound at a predetermined inclination angle on the outer peripheral surface of the inner layer 11 coated with the adhesive polyolefin serving as the compatible layer 14 in a molten state, Further, a stretched polyethylene resin sheet is spirally wound thereon so that the inclination direction is opposite to form an intermediate layer 12. The stretched polyethylene sheet is crosslinked after stretching the high-density polyethylene sheet at a stretch rate of about 30 times while heating.

As described above, when the intermediate layer 12 made of a stretched polyethylene resin sheet is laminated on the inner layer 11 made of chlorinated vinyl chloride resin with the compatible layer 14 composed of adhesive polyolefin sandwiched therebetween, The body is introduced into the extrusion coating mold and while passing through the extrusion coating mold,
The outer layer 13 covering the intermediate layer 12 is formed by the vinyl chloride resin extruded into the extrusion coating mold. Then, the composite body 10 shown in FIG. 1 is obtained by cooling the laminate having passed through the extrusion coating mold by the cooling water tank.

The obtained composite pipe 10 is formed by spirally winding a stretched polyethylene resin sheet having excellent tensile strength around an inner layer 11 made of chlorinated vinyl chloride resin.
Are laminated by the compatible layer 14 in a state where they are in close contact with each other. Therefore, the inner layer 11 is in a state of being strongly reinforced by the intermediate layer 12 integrated by the compatible layer 14. When forming the inner layer 11, the compatible layer 14 may be applied to the outer peripheral surface of the inner layer 11 in a molten state, and the intermediate layer 12 may be laminated in the molten state.
1 and the intermediate layer 12 can be provided very easily.

Further, since the inner layer 11 is made of a chlorinated vinyl chloride resin having excellent heat resistance, there is no danger of melting even if the fluid to be conveyed is at a high temperature. It can be used stably over a long period of time as a hot water supply pipe used for transport, a steam pipe of a ship used for transporting high-temperature steam, and the like.

Since the intermediate layer 12 formed by spirally winding the stretched polyethylene resin sheet is covered and protected by the outer layer 13 made of a vinyl chloride resin, the intermediate layer 12 made of the stretched polyethylene sheet is damaged. There is no danger that the inner layer 11 is reinforced by the intermediate layer 12 for a long period of time.

As the intermediate layer 12 of the composite tube 10, a stretched polyethylene resin sheet obtained by stretching a sheet made of polyethylene resin such as high-density polyethylene or linear low-density polyethylene at least 10 times in the longitudinal direction is preferably used. However, not only stretched polyethylene resin sheets, but also stretched and used various polyolefin resin sheets such as homopolypropylene, propylene random copolymer, propylene block copolymer, poly (4-methyl-1-) pentene, etc. can do. The polyolefin-based resin sheet is blended with a nucleating agent, a crosslinking agent, a crosslinking aid, a filler, a pigment, a different kind of polyolefin, a low molecular weight polyolefin wax, and the like, as necessary. In addition, crosslinking may be performed by electron beam irradiation, ultraviolet irradiation, or the like without using a crosslinking agent.

The outer layer 13 of the composite pipe 10 is not limited to the vinyl chloride resin, and various synthetic resins are used. By using the same kind of vinyl chloride resin, chlorinated vinyl chloride resin, etc. as the inner layer 11, the composite pipe At the time of bonding between the ten, it is possible to perform adhesive bonding, which is preferable.

When the composite pipe 10 is used for transporting a chemical substance such as a chemical, the inner layer 11 is made of a fluorine resin having excellent chemical resistance. Thereby, the composite pipe 10
Can be suitably used as a pipe for transporting a chemical solution in a chemical factory.

In this case, the outer layer 13 may be made of the same kind of fluororesin as the inner layer 11, or may be made of vinyl chloride resin or the like.

Furthermore, in a sheath pipe header type piping system in which a hot water supply pipe or a water supply pipe is inserted into a sheath pipe connected to a header and piped in a bent state, for example, in a house, When used as a hot water supply pipe or a water supply pipe inserted through the inside, the inner layer 11 is made of a crosslinked polyethylene resin having excellent heat resistance and flexibility. Thereby, the composite pipe 10 can be inserted through the sheath tube in the bent state along the sheath tube.

In this case, if the outer layer 13 is made of the same kind of cross-linked polyethylene resin as the inner layer 11, it can be more smoothly inserted through the sheath tube in the bent state.

When the composite pipe 10 is used for transporting solids such as sand, gravel, and coal, the inner layer 11 is made of a polyurethane resin having excellent wear resistance. As described above, by forming the inner layer 11 from a polyurethane resin having excellent abrasion resistance, the composite pipe 10 can be made of sand,
For transporting solids such as gravel and coal, it can be used stably for a long time.

In this case, a relatively high rigidity vinyl chloride resin or the like is used for the outer layer 13.

[0027]

As described above, the composite pipe of the present invention has an intermediate layer formed by spirally winding a stretched polyolefin resin sheet around the outer peripheral surface of an inner layer made of synthetic resin. Is provided via a compatible layer having compatibility with, the intermediate layer is covered with an outer layer made of synthetic resin, and the inner layer is made of synthetic resin of a material suitable for transporting various objects, Since each is configured, it is suitably used for transporting various objects.

[Brief description of the drawings]

FIG. 1 is a schematic configuration diagram showing an example of an embodiment of a composite pipe of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 10 Composite pipe 11 Inner layer 12 Intermediate layer 13 Outer layer 14 Compatible layer

 ──────────────────────────────────────────────────続 き Continued on the front page F term (reference) 3H111 AA01 AA02 BA15 CB05 CB14 DA07 DB02 DB11 4F100 AK01A AK01C AK03B AK03D AK04A AK15A AK17A AK51A BA04 BA07 BA10A BA10C DD31 EH23 EH46 EH51 EJ90 EJ03

Claims (6)

[Claims] 1. An inner layer formed of a synthetic resin in a tubular shape, an intermediate layer formed by spirally winding a stretched polyolefin-based resin sheet around an outer peripheral surface of the inner layer, and a synthetic resin laminated on the intermediate layer. A composite tube comprising: an outer layer made of a resin; and a compatible layer having compatibility with each of the inner layer and the intermediate layer is provided on an outer peripheral surface of the inner layer. 2. The composite pipe according to claim 1, wherein the compatible layer is made of an adhesive polyolefin. 3. The composite pipe according to claim 1, wherein the inner layer is made of a chlorinated vinyl chloride resin. 4. The composite pipe according to claim 1, wherein the inner layer is made of a fluororesin. 5. The composite pipe according to claim 1, wherein the inner layer is made of a crosslinked polyethylene resin. 6. The composite pipe according to claim 1, wherein the inner layer is made of a polyurethane resin.