KR20060083957A - Multi-layer pipe - Google Patents

Abstract

The present invention relates to a multi-layer hollow tube, in particular, the inner member is bent in a circular shape and both ends are spaced apart and the outer member bent inward to restrain both ends of the inner member spaced around the inner member In a multi-layer hollow tube welded and molded at a joint of a member, an end of an outer member which is bent to rest both ends of the inner member is folded so that the outer member is doubled to abut on an end of the inner member. By welding the member at the joint portion, the welded joint is far from the inner member is an invention that has the effect of solving the problem of rust generated by oxidizing to the inner member due to the damage of the outer member that can be generated during welding.

Multi-layered, hollow tube, steel, stainless, welded, rusted

Description

Multi-layer pipe

1 is a cross-sectional view of a multilayer hollow tube according to the prior art.

2 is a cross-sectional view of a multi-layer hollow tube according to the present invention.

3 is a process chart showing a manufacturing process of a multilayer hollow tube according to the present invention.

<Description of Major Symbols Used in Drawings>

100: inner member 200: outer member

250: junction

The present invention relates to a multi-layer hollow tube having an empty circular cross section molded into a plate member made of different materials.

There are various methods for producing the hollow tube as a known technique, and a hollow tube having a multilayer is already known. That is, the inside of a metal tube is coat | covered with synthetic resin.

In the case of manufacturing a general hollow tube, there is a method using a Mannesmann rolling mill, and can also be manufactured by extrusion, and a method of welding both ends while gradually deforming the plate material in a circular shape is also used.

In particular, the present invention relates to forming a hollow tube by overlapping sheets of different metals or nonferrous metals.

As a related art related to such a hollow tube, a press forming apparatus for a composite double pipe and a composite double pipe of Korean Patent Application No. 10-2001-0007750 has been known.

This is made of a double pipe by forming a stainless plate round the outer surface of the iron bar. However, the double pipes according to the cited invention have a problem that the manufacturing cost is expensive and the stainless steel plate can be twisted in place during the forming process by completing the double pipe by preparing the iron rod and wrapping the stainless steel plate on it. There was this.

As another prior art, a multilayer hollow tube, a bending device, and a molding device of Utility Model Application No. 20-2004-0025330, filed by the inventor, have been known.

1 is a cross-sectional view of a multi-layer hollow tube filed by the present inventors, and referring to the drawing, an inner member 10 and an outer member 20 surrounding the inner member are bent to constrain both ends of the inner member to be welded. Has a configuration.

The welding process is performed at the junction of the outer member. In FIG. 1, the separation distance between both ends of the inner member has a separation distance of about 2t, which is twice the thickness t of the outer member. And the purpose of the multi-layer hollow tube is to produce a hollow tube that does not occur rust cheaply for this purpose, the outer member (mainly stainless steel) is used that is thinner than the inner member (steel). This is because stainless steel is more expensive than ordinary steel.

In this relationship, when the joint of the outer member is welded, there is a problem that damage occurs due to welding and rust due to oxidation of the inner member occurs to the surface as time passes. This problem is understood to be due to the fact that as the outer member is thin, the outer member and the inner member are partially melted together during welding.

Therefore, the present invention for solving the above problems, in forming a multi-layer hollow tube using two materials having different materials to form a wide joint of the outer member to be welded so that the inner member is not affected by welding Its purpose is to be able to manufacture multi-layer hollow pipes.

The present invention for achieving the above object, the outer member is formed of an inner member bent in a circular shape and both ends are spaced apart and the outer member bent inward to constrain both ends of the inner member spaced around the inner member In a multi-layer hollow tube welded and molded at a joint portion of an inner side of the inner member, the end of the outer member bent to rest both ends of the inner member is folded so that the outer member is doubled so as to contact the end of the inner member and the outer member. Welded at the joint, and

The outer member relates to a multi-layer hollow tube characterized in that the ends thereof are first folded into two layers and then bent again to come into contact with the inner surface of the inner member.

2 is a sectional view showing one embodiment of the multi-layer hollow tube according to the present invention, and the inner member 100 and the outer member 200 are largely formed to form a hollow hollow tube.

In this embodiment, the inner member 100 is made of general steel, the outer member 200 is made of stainless steel plate and the outer member is used that is relatively thin in thickness than the inner member. Of course, the thickness of the inner and outer members can be changed appropriately,

In terms of use, it can be changed according to the purpose of use.

The inner member 100 is roundly formed, and both ends thereof are spaced apart, and the outer member 200 is wrapped around the outer side of the inner member, and the end of the outer member is bent inward to restrain the inner member.

More specifically, as shown in FIG. 2, each end of the outer member 200 is bent so that the outer member has two layers, and the two ends of the inner member come into contact with and support the two ends.

By joining the ends of the outer member 200 in two layers, the joint portion 25 where welding is made is widely formed. Thus, by forming a multi-layer hollow tube in such a structure, the inner member is not affected by welding even when final welding is performed. You can do it.

And, as shown in Figure 2, after overlapping the end of the outer member 200 in two layers, the remaining portion of the outer member can be placed in a straight line, such as a dashed line, or may be inclined obliquely.

More preferably, the ends of the outer member 200 are formed to be primarily doubled, and then have a structure in which the ends of the outer member 200 are bent to contact the inner surface of the inner member. By bending the end of the outer member in two stages in this way it is possible to more firmly restrain the inner member.

In a more specific comparison with the prior art, as shown in Fig. 1, the distance between both ends of the inner member is about 2t, which is twice the thickness t of the outer member, but in the case of the present invention, it is 2t + 2x. Damage can be significantly reduced.

Hereinafter, a process of forming a multilayer hollow tube having the configuration as described above will be described schematically, and FIG. 3 is a process chart showing a process of forming a multilayer hollow tube according to the present invention.

A steel plate and a stainless plate are prepared, and the width of the stainless plate to be the outer member 200 is wider than that of the inner plate 100, and both ends of the outer member are formed by using a molding apparatus in which a plurality of rolls are continuously provided. Is bent upwards and then the primary bend

The overlapped ends are overlapped in two layers. The remaining portion of the outer member protruding from the inner member is bent again to be in contact with the upper surface of the inner member. After forming the two plates as described above, the plate-shaped is gradually changed to form a hollow tube having a circular cross section by using a forming machine. The forming machine is widely used, so a detailed description thereof will be omitted.

After forming in a circular shape as shown in Figure 2 by using the forming machine is welded on the outer surface of the joint formed by the contact of the outer member to produce an integrated multi-layer hollow tube.

The multi-layer hollow tube according to the present invention has the effect of solving the problem that the inner part is melted together by welding and the rust is generated at the welded part even if the welding is performed because the joint of the outer member to be welded is wide.

That is, the present invention can provide a hollow tube with a beautiful appearance at a low cost, and can completely solve problems such as rust that may be caused by welding, thereby providing a multilayer hollow tube having better quality. As a result, product competitiveness can be secured.

Claims (2)

The inner member 100 which is bent in a circular shape and both ends are spaced apart and the outer member 200 which wraps the inner member and bends inward to restrain both ends of the spaced inner member are welded at the joint of the outer member. In the multilayer hollow tube to be processed and molded, An end of the outer member 200 which is bent to constrain both ends of the inner member 100 is folded so that the outer member is two-ply and abuts the end of the inner member and welded at the outer member junction 250 Multi-layer hollow tube, characterized in that. The method of claim 1, wherein the outer member 200, The end of the multi-layer hollow tube, characterized in that the first folded in two layers, and then bent again to contact the inner surface of the inner member.

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