KR19980020732U - Composite pipe - Google Patents

Abstract

The present invention is superimposed by providing independent reinforcing members 13a which are folded and crimped together by forming independent joints 13a at both ends in the longitudinal direction of the reinforcing member 13 inserted between the outer pipe 11 and the inner pipe 12. Since the seam is opened by the pressure of the fluid to which the inserted reinforcement is delivered, the separation of the reinforcement is prevented, so that the composite pipe 10 can strengthen the pressure resistance to the fluid, thereby increasing the rigidity of the composite pipe 10. In addition, it prevents corrosion and reduces heat conduction, thereby preventing the loss of the transferred fluid. It is easier to maintain airtightness than the reinforcement inserted by welding. It is intended to save.

Description

Composite pipe

The present invention relates to a composite pipe, and in particular, by inserting a reinforcement formed with a joint inside the pipe for inducing and transferring the flow of fluid, not only increases the rigidity of the composite pipe, but also lowers the thermal conductivity and withstands internal pressure. It's about a composite pipe that's easy to work with.

A composite pipe generally used is formed of an outer pipe and an inner pipe whose material is synthetic resin, and a reinforcement material made of metal is inserted between the outer pipe and the inner pipe.

The reinforcement inserted between the outer pipe and the inner pipe of the composite pipe configured as described above is to be attached by applying an adhesive.

Conventionally, the composite pipe formed as FIG. 1 (a) and (b) is used.

FIG. 1A is a view in which the reinforcing material 4 inserted between the outer pipe 2 and the inner pipe 3 is stacked.

However, when the fluid of high temperature and high pressure is transferred using the composite pipe 1 configured as described above, the softened inner pipe 3 primarily cracks and ruptures, and then the reinforcement material inserted into the outer circumference of the inner pipe 3 ( 4) withstands a certain temperature and pressure and transfers the fluid, while the moisture resistance is weaker than that of the synthetic resin material, so that the corrosion is easily progressed. Therefore, there was a problem in that the rigidity and pressure resistance of the composite pipe 1 were lowered.

1 (b) is a diagram in which a reinforcing material 4 formed by joining one end and the other end by mutual welding p is inserted between the outer pipe 2 and the inner pipe 3.

However, since the reinforcement material 4 formed as described above is made of a thin metal material such as aluminum and stainless steel, it is difficult to maintain airtightness at both ends of the reinforcement material 4 during welding (p), and must be carefully considered. There was a problem in that the production cost is increased by the fall.

The technical problem to be achieved by the present invention is to provide a reinforcing material which is folded and crimped together by forming independent joints at both ends of the longitudinal direction of the reinforcing material inserted between the outer pipe and the inner pipe, thereby enhancing the pressure resistance of the fluid delivered in the composite pipe. This can not only increase the rigidity of the composite pipe, but also prevent corrosion, reduce heat conduction, prevent the loss of the transferred fluid, and facilitate the operation, reducing the defective rate and production cost. It was made to be possible.

Technical problem of the present invention, in the composite pipe configured to insert the reinforcement in the outer pipe and the inner pipe to guide and transfer the flow of the fluid, the reinforcement between the outer pipe and the inner pipe is a joint portion independent at both ends in the longitudinal direction Is formed and achieved by folding and inserting the joints.

1 (a), (b) is a perspective view of a conventional pipe,

2 is a perspective view showing a pipe of the present invention,

3 is a cross-sectional view of the coupling state of the present invention,

* Description of the symbols for the main parts of the drawings *

10: composite pipe 11: outer pipe

12: internal pipe 13: reinforcing material

13a: junction

Referring to the preferred embodiment of the present invention in detail based on the accompanying drawings as follows.

2 is a perspective view of the present invention in the composite pipe 10 is configured to insert the reinforcement 13 in the outer pipe 11 and the inner pipe 12 to guide and transfer the flow of the fluid, the outer The reinforcing material 13 between the pipe 11 and the inner pipe 12 is formed with independent joints 13a at both ends, and the external joints 11 and the internal pipes 2 are folded and crimped together. It is configured to be inserted between.

The reinforcing material 13 is inserted between the outer pipe 11 and the inner pipe 12, the reinforcing material 13 itself is to increase the heat resistance and pressure resistance of the composite pipe 10 to increase the rigidity, The joints of 13) are formed in an independent joint portion 13a in the longitudinal direction and are folded and pressed strongly to each other, thereby improving internal pressure and preventing voids in the joint of the reinforcing material 13, thereby preventing the outflow of fluid, and independent joint 13a. ) Can be easily combined to reduce the defective rate, thereby reducing the production cost.

3 is a cross-sectional view of the present invention, after applying the adhesive 14 to the outer peripheral surface of the reinforcing material 13, the reinforcing material 13 is inserted into the outer pipe 11, the reinforcing material 13 Inwardly, the inner pipe 12 having the adhesive 14 applied to the outer circumferential surface is inserted to form a close coupling with each other.

The present invention is superimposed by providing independent reinforcing members (13a) in the longitudinal direction both ends of the reinforcing member (13) inserted between the outer pipe (11) and the inner pipe (12) to be folded and crimped together. Since the seam is opened by the pressure of the fluid to which the inserted reinforcement is delivered, the separation of the reinforcement is prevented, so that the composite pipe 10 can strengthen the pressure resistance to the fluid, thereby increasing the rigidity of the composite pipe 10. In addition, it prevents corrosion and reduces heat conduction, thereby preventing the loss of the transferred fluid, making it easier to maintain airtightness compared to the reinforcement inserted by welding, and making the reinforcement 13 easy to produce a defective rate and a production cost. There is an effect that can be reduced.

Claims (1)

In the composite pipe 10 configured by inserting a reinforcement 13 into the outer pipe 11 and the inner pipe 12 to guide and transmit the flow of the fluid, the composite pipe 10 of the outer pipe 11 and the inner pipe 12 The reinforcing material between the composite pipes, characterized in that the junction portion (13a) is formed at both ends in the longitudinal direction, the junction portion (13a) is folded and inserted into each other.