KR100459911B1 - Fabricating method for flexible double pipe of high strength and controllable weight - Google Patents

Abstract

The present invention relates to a method for producing a high-strength multilayer flexible tube that is easy to adjust the weight to improve the tensile and bending strength, side pressure and pressure resistance and to ensure stability in marine installation.

In order to achieve the above object, the present invention is a high-strength multilayer flexible tube, characterized in that the outer and outer appearance is integrated by the extrusion and molding as the thermoplastic plastic is filled in the outer periphery of the upper surface of the inner tube coupled to the belt and the coil. Its technical configuration features, the manufacturing method is attached to a special material belt in the axial direction on the upper outer periphery of the inner tube of the thermoplastic plastic, winding the steel coil in the circumferential direction on the upper surface to move the electric roller,

The central portion of the inner tube is passed through the cooling water circulation tube for preventing the heat deformation of the inner tube, the inner tube combined with the belt and coil is preheated through a preheater to be integrated with the appearance, and extruded to the outer periphery of the preheated inner tube The present invention relates to a method for manufacturing a high strength multilayer flexible pipe that extrudes a plastic mold for external appearance extruded from a sphere so that the internal tube and the external body are integrated, and the internal and external body is passed through the external cooling device to be completed.

Description

Fabrication method for flexible double pipe of high strength and controllable weight}

The present invention relates to a method for manufacturing a high strength multilayer flexible pipe, and in particular, the present invention is to attach a belt-shaped special material or steel tape in an axial direction (or inclined direction) at regular intervals around an inner tube extruded from thermoplastic plastics. After forming a coil of steel (iron) material at regular intervals on it, extruding the same thermoplastic plastic as the inner tube to form an outer appearance to improve tensile and bending strength, side pressure and pressure resistance, and easily move by waves or tides when installing offshore. The present invention relates to a method of manufacturing a high strength multilayer flexible pipe for transporting fluids such as seawater, water and sewage, crude oil, and gas to facilitate weight control to ensure stability.

The thermoplastic material refers to a material that is easily melted and subjected to secondary processing (reuse and recycling) when the molded material or product is subjected to secondary heat. That is, the equipment is simpler than the thermosetting material, and thus equipment cost is low. Typical examples of these materials include polyvinyl chloride resin (PVC), polyethylene (PE), and polyurethane.

In general, pipelines form a hollow outer area to store fluids or solids or to be transported using natural or artificial power, which are essential materials for land construction and marine development. This is a construction material which is mainly made of a single pipe and transported to the site, then assembled or welded to form a connecting body, or the integrated material is rolled up in a drum or the like to be transported and installed.

Conventional pipes have been mainly used steel pipes, plastic (rubber) coated steel pipes, glass fiber reinforced pipes, HDPE pipes, etc. They are high strength or flexible, but high flexibility, low strength, high strength, low flexibility, design and construction limitations There was a lot that did not satisfy both at the same time.

Recently, as a high-strength multilayer flexible tube that has improved this, as shown in Figure 1, there is a 'flexible line pipe' of Patent No. 1999-14545 (1999.4.22) filed domestically in France, the gist of the invention As regards the heat insulating material, the inner and outer tubes 24 and 25 are corrugated metal materials, and the heat insulating material 29 is filled between the insides thereof, and the FRP cords 27 and 28 are wound around and reinforced with reinforcing materials. The object of the present invention is also a pipe for transporting cryogenic liquefied natural gas (LNG), which is problematic in that productivity and efficiency are inferior due to the production of corrugated metal tubes. There is this.

In addition, there is a 'multilayer plastic tube and its manufacturing method' of Japanese Patent No. 1991-21318 (1991.11.26) filed in Japan as a conventional technology for a multilayer plastic tube, but the object of the present invention is a pipe for duct of automobile parts Thin and light, the composition is formed integrally with the spacer member when forming the inner layer of the inner and outer layers of different plastic components, there is a big problem in weight control, tensile and bending strength in the marine installation.

As another conventional technique, Patent No. 1997-65423 (Dec. 1997, Dec. 2), 'Sewage pipe repairing substrate and its manufacturing method,' which is used to form a new layer on the inner wall of the sewage pipe using water pressure at the inlet of the sewage pipe. It is a thin, flexible tubular plastic substrate that is made by putting a mesh fabric in the middle of two sheets of nonwoven sheets passing through a pair of molding machines and film coating the outermost layer, but this technique is also used for repairing sewage pipes. There is a big problem in bending strength.

Accordingly, the present invention has been proposed to solve the above-mentioned conventional problems, the present invention improves the tensile and bending strength, side pressure and pressure resistance strength, high-strength multi-layer oil easy to adjust the weight for securing stability in marine installation It relates to a method of making an association.

In particular, the pipes used in the ocean should be safe and flexible to various environments that may occur in the manufacturing, transportation, installation and use process, and should be flexible and high-strength, and secure the necessary design weight so as not to be active on waves or tides.

To this end, the invention has invented a high-strength flexible pipe composite of plastics, special materials and steel, which can be adjusted to meet the required strength and weight. It is characterized by forming special materials and steels to be made in the axial and circumferential seams, and integrating them into environmentally friendly plastics inside and outside to secure structural stability.

In addition, in production facilities and processes, not only the equipment is inexpensive, but also the productivity is high, and the price of the product is inexpensive. The flexible pipe according to the present invention can be manufactured in a factory and transported or can be manufactured by connecting a single pipe in the field. It also has features.

In order to achieve the above object, the high-strength multilayer flexible tube according to the present invention, in a plastic multilayer tube for moving fluids, is specially spaced at regular intervals on the outer circumference of the inner tube for strengthening the tensile and bending strength of the thermoplastic inner tube. The material belt is attached at regular intervals in the axial direction, and a spiral steel coil is wound in the circumferential direction on the upper surface of the belt in order to improve the lateral pressure and the pressure resistance of the inner tube, and the thermoplastic resin is formed on the outer circumference of the upper surface of the inner tube to which the belt and the coil are coupled. The high-strength multilayer flexible tube, characterized in that the inner and outer appearance is integrated by the extrusion and molding as the plastic is filled, the technical configuration features,

The manufacturing method includes the step of attaching the special material belt in the axial direction to the upper outer periphery of the thermoplastic inner tube (S10), winding the steel coil in the circumferential direction on the upper surface to move the electric roller (S20), the Step (S30) to pass through the cooling water circulation tube for preventing the heat deformation of the inner tube in the central portion of the inner tube, the inner tube coupled to the belt and the coil is preheated by passing through a preheater to be integrated with the appearance (S40), the preheated In the outer periphery of the inner tube by extruding the plastic molding for appearance molding extruded from the extruder to integrate the inner tube and the exterior (S50), passing the integrated inner and outer tubes into the exterior cooling device (S60) to be completed It provides a high strength multilayer flexible pipe manufacturing method.

1 is a cross-sectional view of a flexible line pipe of the prior art

Figure 2a, b is a perspective view of the internal incision for the flexible tube of the present invention

3 is a cross-sectional view of FIG.

4 is a manufacturing process schematic diagram of the present invention

5 is a flow chart for the manufacturing process of the present invention.

<Description of Symbols for Main Parts of Drawings>

1: inner tube 2: belt

3: coil 4: appearance

5: cooling water circulation pipe 6: preheater

7: inner tube extruder 8: outer extruder

9: electric roller 10: plastic extrusion port

11: appearance cooling device 24: inner tube

25: outer tube 26: spacing

27,28: Code 29: Insulation

Hereinafter, an embodiment according to the present invention, a high strength multilayer flexible tube and a manufacturing method thereof, which are configured as described above will be described in detail with reference to the accompanying drawings.

Figure 2a is an internal cut perspective view of a flexible tube of an embodiment of the present invention, Figure 2b is an internal cut perspective view of a flexible tube of another embodiment of the present invention. 3 is a cross-sectional view of FIG. 2, FIG. 4 is a schematic view of the manufacturing process of the present invention, and FIG. 5 is a flowchart of the manufacturing process of the present invention.

First, referring to the perspective view and cross-sectional view of the flexible tube shown in Figures 2a, b and 3, the high-strength multilayer flexible tube of the present invention is a special material or steel tape on the outer periphery of the inner tube (1) extruded from thermoplastic plastic The belt 2 is attached at regular intervals in the axial or inclined direction to reinforce the axial tension and bending strength, and the coil 3 made of steel is also wound in the circumferential or inclined direction to wind the side pressure. And to improve the pressure resistance, and to refill the outer periphery of the upper surface of the inner tube 1, to which the belt 2 and the coil 3 are coupled, to extrude and mold the exterior 4 to form a high strength multilayer flexible tube. Here, the inclination direction means a direction inclined at an angle within 30 degrees with respect to the circumferential direction.

Therefore, the plastic inner pipe 1 is composed of environmentally friendly thermoplastic pipes to prevent the deterioration of the transport fluid, and the belt (2) of special material (carbon fiber, metal fiber, glass fiber, etc.) or steel tape on the upper outer circumference thereof. Is attached in the axial direction or the inclined direction to strengthen the tensile strength and the bending strength, and the steel coil (3) surrounding it to be wound to increase the internal pressure as well as the side pressure strength, The weight can be adjusted by adjusting the diameter or spacing of the coil 3 in order to secure stability against algae. Here, the special material is carbon fiber or metal fiber which is not deformed at around 190 to 230 ° C., which is a molding temperature of thermoplastics. The main component is one selected from among glass fiber and aramid fiber.

In addition, the outer appearance (4) is to be made of the same thermoplastic plastic as the inner tube so that the inner tube and the outer body is integrated to complement the structural stability and overall strength.

When described in detail with reference to Figures 4 and 5 attached to the manufacturing method according to the present invention configured as described above are as follows.

In order to manufacture the high-strength multilayer flexible pipe of the present invention, first, the special material belt (carbon fiber, metal fiber, etc.) or the special material belt 2 of steel tape is axially or inclinedly on the upper outer periphery of the thermoplastic inner tube 1. Step (S10), winding the steel coil (3) in the circumferential direction on the upper surface thereof and the electric roller (9) is moved thereon so that the coil is in close contact on the inner tube (1) (S20), the In the central portion of the plastic inner pipe (1) to pass through the cooling water circulation pipe (5) in order to prevent the thermal deformation of the inner pipe (1) by the high temperature of the extrusion plastic for molding (S30), the belt (2) The inner tube 1 coupled to the coil 3 is preheated by passing through the preheater 6 so that the inner tube 1 is integrally molded with the outer tube 4 (S40). 10) and the inner tube (1) by extrusion molding the plastic for appearance molding that is extruded from Step (S50-based) to integrate the appearance (4), passing the integrated inner and outer tubes (1,4) into the exterior cooling device 11 (S60) is a high-strength multilayer flexible tube is completed.

In addition, the present invention after connecting the inner pipe (1), which is a plastic short pipe in the field for ease of on-site manufacturing, and reinforces the axial direction with a special material belt (2) and the unit steel or steel coil (3) for a certain period If they are connected in an overlapping manner and extruded from the same plastic material as the inner tube, the plastic may be fused between the fiber belt and the steel (iron) coil at regular intervals to allow the inner and outer tubes (1, 4) to be integrated. As a work system for integrating the outer tube (1,4), the tube is inserted into the inner tube slightly smaller than the inner diameter, and is preheated while moving at a constant speed through the electric roller outside the composite tube assembly while circulating the cooling water of the cooling water circulation tube through the inner tube. At the same time, the thermoplastic can be extruded.

Although the preferred embodiment of the present invention has been described above, the present invention may use various changes, modifications, and equivalents. It is clear that the present invention can be applied in the same manner by appropriately modifying the above embodiments. Accordingly, the above description does not limit the scope of the invention as defined by the limitations of the following claims.

As described above, the manufacturing method of the high strength multilayer flexible pipe according to the present invention is to enable the production of high strength flexible pipe which is essential for marine development and land construction. It can be used for various marine development and land use as material. In addition, since it can be manufactured at a cost of less than half compared to the conventional high-strength flexible pipe has the effect that can be activated by spreading the effect to various civil and marine development as well as various peripheral industries.

Claims (8)

(delete) (delete) (delete) (delete) Attaching the special material belt (2) in the axial direction to the upper outer periphery of the thermoplastic inner pipe (1) (S10), Winding the steel coil (3) in the circumferential direction on the upper surface to move the electric roller (9) (S20), A step of allowing the cooling water circulation pipe (5) to penetrate the central portion of the inner tube (1) to prevent thermal deformation of the inner tube (S30), Passing the preheater 6 so that the inner tube 1 to which the belt 2 and the coil 3 are coupled is integrated with the exterior 4 to be preheated (S40), At the outer periphery of the preheated inner tube (1) by extruding the molding plastic for extrusion from the extrusion port 10 to the inner tube (1) and the exterior (4) to be integrated (S50), Method for producing a high-strength multilayer flexible tube is completed by the step (S60) of passing the integrated inner and outer tubes (1,4) into the exterior cooling device (11). delete delete delete