JP4354160B2 - Double pipe manufacturing method and double pipe welding apparatus - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a double pipe in which a double pipe is formed by welding and joining an outer pipe while maintaining a void around the inner pipe by a double pipe coupling member of an inner pipe body having an inner pipe and a double pipe coupling member. The present invention relates to a manufacturing method and a welding apparatus for welding and joining the inner tube main body and the outer tube in order to manufacture such a double tube.
[0002]
[Prior art]
Conventionally, when joining pipes to each other by welding, these pipes are tack-welded, and the pipes are fixed with a chuck or the like, or rotated with a roller and shield gas is put into the pipes. It is considered that reverse wave welding is performed on pipe joints. For such techniques, Japanese Patent Application Laid-Open No. 09-271985 “Welding Method Using Shielding Gas and Shielding Gas Supply Device”, Japanese Patent Application Laid-Open No. 06-320268 “Welding Method and Device for Stainless Steel Pipes”, No. 05-177389, “Pipe Welding Apparatus and Pipe Welding Method”.
[0003]
On the other hand, when liquid nitrogen is circulated through the tube body, a double tube configured by interposing a gap between the outer tube and the inner tube is used to insulate the liquid nitrogen flowing through the tube.
As such a double pipe, as shown in FIG. 2, an inner pipe end portion 4 having a flange portion 4-1 and an end 2-1 joined to one end 4-2 of the inner pipe end portion 4. The inner pipe body is constituted by the heavy pipe coupling member 2 and the inner pipe 3 in which one end 3-1 is welded to the inner pipe joint portion 2-2 of the double pipe coupling member 2, and the inner pipe body is The inner pipe 3 and the outer pipe are inserted into the penetration part 1-1 of the pipe 1 and the outer pipe joining part 2-3 of the double pipe coupling member 2 and the one end 1-2 of the outer pipe 1 are welded. A double pipe having a structure in which a gap portion 5 is provided between the first and second gaps is used.
[0004]
In this double pipe, for example, the outer pipe 1 is made of high-strength steel or the like, and the inner pipe body made up of the inner pipe end 4, the double pipe coupling member 2 and the inner pipe 3 is made of stainless steel or the like. In order to manufacture this double pipe, when the outer pipe joint 2-3 of the double pipe coupling member 2 and the one end 1-2 of the outer pipe 1 are welded, the outer pipe joint 2-3 and the outer pipe When one end 1-2 of 1 is tack-welded with a short bead, welding heat or stress concentration due to tack-welding with a short bead will cause defects in the welded part or the base metal. There was a problem that could not be applied.
Therefore, as shown in FIG. 3A, when performing reverse wave welding or the like in the horizontal orientation, the outer pipe joint 2-3 and the one end 1-2 of the outer pipe 1 are welded without performing tack welding. When joined, as shown in FIG. 3B, there is a problem that welding distortion due to angular deformation occurs due to heat shrinkage due to welding, and it is difficult to maintain the accuracy of the double pipe.
[0005]
[Problems to be solved by the invention]
The present invention maintains a gap around the joint portion of the inner tube main body formed by joining the inner tube to the double tube coupling member, and does not perform temporary welding, but also by welding. A method of manufacturing a double pipe in which the outer pipe is welded and joined to produce a double pipe without causing welding distortion due to heat shrinkage, and the inner pipe body and the outer pipe are combined to manufacture such a double pipe. It is an object of the present invention to provide a welding apparatus for welding and joining.
[0006]
[Means for Solving the Problems]
The present invention provides a method of manufacturing a double pipe that solves the above-mentioned problems . A first joint that is joined to the inner pipe, and a first joint that is joined to the outer pipe while maintaining a gap around the first joint . creating an inner tube body with a double pipe coupling member equipped with second joining portion, the outer tube end the axis of the outer tube fixed to the flange through Ri same flange via a fixed shaft in inserting the inner tube body, the other end of the shaft, a flange within the tube body is fixed by attaching the screw portion and the nut, groove between the end portion of the outer tube and the second junction Provided is a method of manufacturing a double pipe, wherein a mating surface is positioned, a shield gas is fed into the gap between the outer pipe and the inner pipe main body, and the groove is welded.
[0007]
According to this method of manufacturing a double pipe of the present invention, an inner pipe body having a double pipe coupling member is formed, and the inner pipe is inserted into the outer pipe via a shaft passing through the axis of the outer pipe fixed to the flange. The main body is inserted to position the end of the outer tube and the groove joining surface of the second joint, and a shield gas is fed into the gap between the outer tube and the inner tube main body to By welding, the outer pipe is welded and joined to the inner pipe body while holding it by the shaft passing through the flange and the axis of the outer pipe so that welding distortion does not occur due to thermal shrinkage caused by welding. Double pipes can be made as desired.
[0008]
In addition, the present invention provides a double pipe welding apparatus that solves the above-described problems, and a first flange that holds the outer pipe, and an inner pipe having a groove joined to the end of the outer pipe formed on the outer periphery. A second flange for holding the main body; one end fixed to the first flange located on the center axis of the two flanges, and the second flange attached to the other end by a screw portion and a nut; the end of the outer tube A shaft for positioning the joint surface of the groove of the inner portion and the inner tube body, an outer tube held by the flange and a chuck for holding the inner tube body, and an outer tube and an inner tube body held by the chuck are integrated. A double pipe welding apparatus comprising: a rotary drive mechanism for rotating the first pipe; and an introduction pipe for introducing a shielding gas into a gap between the outer pipe and the inner pipe main body.
[0009]
According to this double pipe welding apparatus of the present invention, the outer pipe and the inner pipe main body are held by the first and second flanges, respectively, and the outer pipe and the outer pipe are supported by the shaft positioned on the center axis of both flanges. The inner pipe main body is positioned concentrically, the outer pipe and the inner pipe main body held by the first flange are rotated together by a chuck, and a shielding gas is introduced into the gap between the inner pipe main body and the outer pipe. Once introduced, the outer tube can be welded to the inner tube body to create a double tube as desired.
[0010]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the present invention will be specifically described based on the embodiment shown in FIG.
In this embodiment, as shown in FIG. 2, the inner tube body constituted by the inner tube end portion 4, the double tube coupling member 2, and the inner tube 3 has a gap portion around the inner tube 3. This is a case where the double pipe welding apparatus according to the present invention is applied to manufacture a double pipe by welding the outer pipe 1 while maintaining 5.
[0011]
In this double pipe, the outer pipe 1 is made of high tensile steel or the like, and the double pipe coupling member 2, the inner pipe 3 and the inner pipe end 4 constituting the inner pipe body are made of stainless steel or the like. ing. Further, a gap 5 is formed between the inner tube 3 and the outer tube 1 around it.
[0012]
In this double pipe, the double pipe coupling member 2, the inner pipe 3, and the inner pipe end 4 constituting the inner pipe main body are welded to each end to be joined by appropriately using a known welding technique. And assemble. The outer pipe 1 is welded to the inner pipe main body in the state shown in FIG. 2 using the welding apparatus shown in FIG.
[0013]
Next, a manner of welding and joining the outer pipe 1 to the inner pipe main body will be described with reference to FIG. In FIG. 1, reference numeral 15 denotes a flange, which is provided with a hole 15-1 that holds the shaft 8 by being engaged with a screw at the end of the shaft 8 on the center axis.
Reference numeral 11 denotes a flange, which is located at an end of the flange 15 and has a bolt insertion hole portion 11-1 for inserting a bolt 10 for holding the outer tube 1.
[0014]
A flange 6 has a function of restraining positioning of the outer tube 1. That is, the outer tube 1 is positioned by being fixed to the flange 6 by screwing a bolt 10 penetrating the flanges 6, 11, 15 into a screw part 1-3 provided in the outer tube 1.
Reference numeral 8 denotes a shaft, which has a screw portion 8-1 at one end portion of the shaft 8 and is screwed into a hole portion 15-1 provided on the central axis of the flange 15. The flange 15 corresponds to the first flange according to the present invention.
[0015]
The shaft 8 penetrates the axis of the outer tube 1 and the inner tube main body, and has a screw portion 8-2 at the other end.
Reference numeral 16 denotes a chuck. The chuck 16 grips the double pipe composed of the outer pipe 1 and the inner pipe main body through the flanges 6, 11, and 15, and rotates to the double pipe by power from a drive source (not shown). give.
[0016]
A gas introduction pipe 7 has a function of feeding a shielding gas such as Ar gas into the gap 5 between the inner pipe body of the double pipe and the outer pipe 1.
Reference numeral 9 denotes an adjustment flange. The adjustment flange 9 is screwed into a screw portion 8-2 provided at the other end of the shaft 8 and has a function of holding a root gap. The adjustment flange 9 is restrained by a bolt 12 and a nut 13 on the flange portion 4-1 of the inner tube end 4 constituting the inner tube main body.
A nut 14 is positioned behind the adjustment flange 9 for maintaining the root gap and is screwed with the screw portion 8-2 of the shaft 8. The adjustment flange 9 corresponds to a second flange according to the present invention.
[0017]
As described above, the outer tube 1 is fixed by the bolt 10 that penetrates the flanges 6, 11, 15, and the inner tube end 4 is passed through the shaft 8 to the adjustment flange 9 for maintaining the root gap. 12 and the nut 13, the groove connecting surface between the end 1-2 of the outer pipe 1 and the outer pipe joint 2-3 of the double pipe coupling member 2 constituting the inner pipe main body is used for holding the root gap. The adjustment flange 9 is adjusted and restrained by a nut 14 screwed into the screw portion 8-2 of the shaft 8 positioned behind the adjustment flange 9. The outer tube joint 2-3 corresponds to the second joint according to the present invention, and the inner tube joint 2-2 of FIG. 2 corresponds to the first joint according to the present invention.
[0018]
Shield gas such as Ar gas is fed from the gas introduction pipe 7 into the gap 5 in the double pipe, and the double pipe coupling member is rotated through the chuck 16 with a driving source (not shown) while rotating the double pipe. The groove with the outer pipe joint 2-3 of 2 is welded downward and reverse wave.
[0019]
In this way, a double pipe in which the gap 5 is interposed between the inner pipe 3 and the outer pipe 1 can be manufactured by the welding apparatus of FIG. In the case of circulation, the gap 5 between the inner tube 3 and the outer tube 1 can eliminate problems caused by the thermal influence of a low-temperature fluid such as liquid nitrogen on the outer tube 1.
[0020]
As described above, according to the embodiment shown in FIG. 1, the inner pipe end 4, the double pipe coupling member 2, and the inner pipe 3 are appropriately welded to the outer pipe 1 through the shaft 8. The assembled inner pipe main body is inserted, and the groove connecting surface between the outer pipe 1 fixed to the flange 6 and the double pipe coupling member 2 of the inner pipe main body held by the adjusting flange 9 is positioned and restrained. A double pipe in which a gap portion 5 is formed between the inner pipe 3 and the outer pipe 1 can be manufactured by feeding shield gas into the double pipe without welding and welding the groove. .
[0021]
In the embodiment described above, a double pipe manufacturing method and a double pipe manufacturing apparatus having the following advantages are provided.
1) Without welding the welding surface of the outer pipe 1 and the double pipe coupling member 2, the root gap of the groove surface can be freely set to obtain a sound weld metal and obtain high quality welding. be able to.
2) In the conventional method of welding and joining without performing tack welding, welding distortion occurs due to heat shrinkage and a reworking operation is necessary. However, according to the present embodiment, such a reworking operation is not necessary.
[0022]
Although the present invention has been specifically described above based on the embodiment, the present invention is not limited to this embodiment, and various modifications and changes can be made within the scope of the present invention shown in the claims. Needless to say, it may be added.
[0023]
For example, the method for manufacturing a double pipe according to the present invention may be performed using an appropriate apparatus other than the welding apparatus according to the embodiment shown in FIG.
[0024]
In this embodiment, the bolts 10 and 12 are used to attach the outer tube 1 and the inner tube main body to the flanges 6 and 9. However, instead of using bolts, other appropriate attachment mechanisms such as clamps may be used. .
[0025]
Furthermore, in the illustrated embodiment, the inner tube main body is composed of three members, that is, the inner tube end portion 4, the double tube coupling member 2, and the inner tube 3. It is not essential, but the main point is an inner pipe body having a double pipe coupling member having a joint with the inner pipe and having a joint with the outer pipe while maintaining a gap around the joint with the inner pipe. Any structure may be used as long as the inner pipe and the outer pipe are welded together by forming a gap portion between the inner pipe and the outer pipe by the double pipe coupling member of the inner pipe main body.
[0026]
【The invention's effect】
As described above, the present invention includes a first bonding portion that is bonded to the inner tube, and a second joint portion to be joined to the outer tube while maintaining a gap portion around the same first junction, creating an inner tube body with a double pipe coupling member equipped with, said inner tube body to the outer tube via a shaft whose one end is fixed the axis of the outer tube which is fixed to the flange through Ri in the flange inserting the other end of the shaft, a flange within the tube body is fixed by attaching the screw portion and a nut, positioning the GMA scramble surface of the end portion of the outer tube and the second joint portion, Provided is a method of manufacturing a double pipe in which a shield gas is fed into the gap between the outer pipe and the inner pipe main body and the groove is welded.
[0027]
According to the method for manufacturing a double pipe of the present invention, an inner pipe body having a double pipe coupling member is appropriately assembled and formed in the outer pipe via a shaft passing through the axis of the outer pipe fixed to the flange. The inner pipe body is inserted, the end of the outer pipe and the groove joint surface of the second joint portion of the double pipe coupling member are positioned, and a shielding gas is put into the gap between the outer pipe and the inner pipe body. By feeding and welding the groove, it is possible to make a double pipe as desired by welding the outer pipe to the inner pipe main body without performing tack welding.
[0028]
Further, the present invention includes a second flange for holding the first flange to hold the outer tube, the inner tube body GMA to be joined to the end portion of the outer tube is formed on the outer periphery, said flanges One end of the first flange is fixed to the first flange and the second flange is attached to the other end with a screw portion and a nut, and an end face of the outer tube and a joint surface of the groove of the inner tube main body are attached. A shaft for positioning, a chuck for holding the outer tube and the inner tube main body held by the flange, a rotation driving mechanism for integrally rotating the outer tube and the inner tube main body held by the chuck, and the outer tube and the inner tube Provided is a double pipe welding device having an introduction pipe for introducing a shielding gas into a gap between the pipe body.
[0029]
According to the double pipe welding apparatus of the present invention, the outer pipe and the inner pipe main body are held by the first and second flanges, respectively, and the outer pipe and the inner pipe are supported by the shaft positioned on the center axis of both flanges. The tube body is positioned concentrically, the outer tube and the inner tube body held by the first flange are rotated together by a chuck, and a shielding gas is introduced into the gap between the inner tube body and the outer tube. Then, the outer pipe can be welded to the inner pipe main body to make a double pipe as desired.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view showing a state in which a double pipe is manufactured by welding and joining an inner pipe main body and an outer pipe using a double pipe welding apparatus according to an embodiment of the present invention.
FIG. 2 is a cross-sectional view showing an example of a double pipe manufactured by welding and joining an inner pipe main body and an outer pipe by applying the present invention.
FIG. 3 is a cross-sectional view for explaining a conventional method of manufacturing a double pipe by welding and joining an inner pipe body and an outer pipe as shown in FIG. The case where wave welding is performed is shown, and (b) shows a state in which angular deformation is caused by heat shrinkage due to welding.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Outer pipe 1-1 Outer pipe penetration part 1-2 One end of outer pipe 1-3 Screw part 2 of outer pipe Double pipe coupling member 2-1 One end 2-2 of double pipe coupling member Inner pipe joint ( First joint)
2-3 Outer pipe joint (second joint)
3 Inner tube 3-1 One end of inner tube 4 Inner tube end 4-1 Flange 4-2 One end of inner tube end 5 Gap 6 Flange 7 Gas introduction tube 8 Shaft 8-1 Screw portion of shaft 8-2 Shaft Screw part 9 flange (second flange)
10 bolt 11 flange 11-1 bolt insertion hole 12 bolt 13 nut 14 nut 15 flange (first flange)
15-1 Hole 16 Chuck

Claims (2)

A double pipe coupling member comprising a first joint joined to the inner pipe and a second joint joined to the outer pipe while maintaining a gap around the first joint. An inner pipe body is made, and the inner pipe body is inserted into the outer pipe through a shaft having one end fixed to the flange passing through the axis of the outer pipe fixed to the flange and the other end having a screw portion. , the other end of the shaft, a flange within the tube body is fixed attached by screwing said screw portion and the nut, GMA scramble the end of the outer tube and the second junction A method of manufacturing a double pipe, wherein a surface is positioned, a shield gas is fed into the gap between the outer pipe and the inner pipe main body, and the groove is welded. A first flange for holding an outer pipe, a second flange for holding an inner pipe body in which a groove joined to an end of the outer pipe is formed on the outer periphery, and a position on the central axis of the two flanges to one end to the first flange screw portion is provided at the other end is fixed, the inner tube body and the end portion of the attachment the outer tube by causing said second flange screwed with the screw portion and the nut A shaft for positioning the joint surface of the groove, a chuck for gripping the outer tube and the inner tube body held by the flange, and a rotation drive mechanism for integrally rotating the outer tube and the inner tube body held by the chuck And an introduction pipe for introducing a shielding gas into a gap between the outer pipe and the inner pipe main body.

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