KR20170011513A - Roller arrangement of metal pipes welding parts - Google Patents

Abstract

The present invention relates to a roller arrangement method for a part of a welding equipment for a metal pipe and a method of manufacturing the same, and more particularly, to a method of manufacturing a roller arrangement method for a metal pipe, / Welding for metal tube which improves the product quality by reducing the consumption of materials due to defects by preventing scratches (scratches) as well as cleanly removing beads generated on the outer surface. And a method of manufacturing the same.
In order to achieve the above object, the present invention provides a shim guide roll stand (100) for adjusting an angle of a V-groove on both end faces constituting a seam portion of a metal pipe; A high-frequency welding apparatus 200 for welding a work coil 210 to the outside of the V-groove by applying a high-frequency wave; A welding roll stand (300) for adjusting the level difference of both end faces constituting the core portion of the metal pipe; A welding side roll stand 400 for preventing both ends of the shim portion from welding after being welded; A first outer bead pressing roll stand 510 for forming an elliptical metal pipe as a source of tension by engaging the upper roller 511 and the lower roller 512 in close contact with each other at upper and lower portions of the metal pipe; A first outer bead removing stand 610 for removing the beads formed on the outer surface of the core portion during welding; A second outer bead pressing roll stand 520 which is in close contact with the upper and lower surfaces of the metal pipe finished in the first outer bead removing stand to form the elliptical metal pipe again as a source of rotation; A second outer bead removal stand 620 for removing again the beads formed on the outer surface of the metal pipe through the process of the second outer bead pressurized roll stand; A third outer bead pressing roll stand 530 which is in close contact with the upper and lower portions of the metal pipe through the process of the second outer bead removing stand to form the metal pipe again as a source of rotation; And a side roll stand (700) for preventing the shim portion from being displaced from the center in the first and second outer bead removing stands, and a roller arranging device of a welding equipment part for a metal pipe sequentially provided along the traveling direction do.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a roller arrangement of a welding equipment part for a metal pipe,

The present invention relates to a roller arranging device for a part of a welding equipment part for a metal pipe, and more particularly, to a roller arranging part for a metal pipe part for welding a metal pipe Which is provided with a roller for a part of a welding equipment part for a metal pipe which not only cleans the bead but also prevents scratches from occurring, thereby reducing the consumption of material due to defects, thereby improving the productivity, Array device.

Generally, a molded metal pipe is manufactured by forming a metal pipe base material on a strip into an annular shape by a forming roller, and welding the formed metal pipe base material by a high frequency induction heating method.

The tubular machine for manufacturing such a formed pipe includes a cutter for cutting the plate-shaped coil to a predetermined size, a forming roller for forming the cut-out plate-shaped coil into an annular shape, a welding device for welding the formed pipe base material by high- The cutter is basically equipped with a cutter to cut the pipe to a certain size.

In the manufacturing process of the metal pipe, a strip-shaped steel material cut at a predetermined angle is sequentially passed through a plurality of forming rollers in the pipe making machine so that the metal pipe is manufactured as a metal pipe having a predetermined size. During the course of the roll, the steel seam part must be welded to ensure that the steel is in the form of a pipe while maintaining a complete tube shape.

The roller arranging apparatus of the conventional welding equipment part for performing the welding of the core portion of the pipe having the diameter of the predetermined size while passing through the tubular machine is constituted by pressing the upper surface of the metal tube in the advancing direction (1) which is fixed in such a manner that both end faces constituting the core portion are kept in coincidence with each other, a high-frequency wave welding member (1) which is welded to the V- A welding apparatus (2), a welding roll stand (3) provided with welding rollers arranged on both sides of the metal tube so as to hold the core part of the metal tube apart from each other, A welding side roll stand 4 for preventing the metal tube from spreading, and a cutting device for removing the beads formed on the outside of the metal pipe. And the rollers are provided with outer bead removal stand 5, the upper and lower side-roll stand (6) is provided with a roller engaged with the upper and the lower roller in close contact with said metal tube are sequentially arranged along the traveling direction.

However, since the angle of the V-groove of the metal tube can not be adjusted because the V-angle of the upper roller disposed in the conventional shim guide roll stand 1 is fixed, the bead is excessively formed on the inner surface and the outer surface, .

In addition, the welding roll stand 3 adjusts the level difference so that both end surfaces constituting the core portion of the metal tube coincide with each other, and the welding rollers 3a, which are in contact with both sides of the metal tube with time, are moved in the left- The metal pipe is rotated to the left and right so that both ends of the metal pipe are not aligned with each other, and the metal pipe is deformed to cause defective products.

The size of the welding side roller 4a provided in the welding side roll stand 4 is equal to the size of the welding roller 3a so that the distance between the welding roller 3a and the welding side roller 4a is long There has been a problem in that the welded portion is rapidly expanded while the metal pipe is moved to the next process.

In addition, the metal tube after the welding process is deformed into an elliptical shape, so that the beads formed on the outer surface of the metal tube can not be removed cleanly, and scratches are generated on the outer surface of the metal tube.

The outer surface bead removing stand 5 is provided with a lower roller 5a which is in close contact with the lower end of the metal pipe and functions as a support when the bead formed on the outer surface of the metal pipe is removed by a bite device (not shown) The bead is not completely removed due to the rotation of the metal tube to the left and right, resulting in a problem of failure.

In addition, when the bead formed on the outer surface of the metal tube is removed by the bite device, the upper rollers and the lower rollers are tightly engaged with the upper and lower ends of the metal tube, respectively. There is a problem that scratches are generated on the outer surface of the metal tube.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the prior art as described above, and it is a first object of the present invention to provide a method of manufacturing a metal tube, The second object of the present invention is to prevent the welding roller from rotating during the adjustment of both end faces constituting the core portion of the metal tube to prevent the generation of defective products. The metal tube is prevented from moving to the left or to the right during the adjustment of the stepped sections of the two parts to make it possible to keep the both end faces at the same position so as to prevent defective products from being generated, And the metal pipe after the process is rapidly expanded to prevent the welded core portion from spreading. The outer surface bead is cleanly removed and the scratches are prevented from being generated on the outer surface. The sixth object is to remove the bead of the outer surface of the metal tube by the bite device The seventh object is that when the bead is removed by the bite device, the metal tube is rotated to the left and right so that the bead is moved from the center of the bite device So that scratches on the outer surface of the metal tube are prevented from being generated.

In order to achieve the above object, the present invention provides a shim guide roll stand for adjusting an angle of a V-groove of both end faces constituting a seam portion of a metal pipe; A high frequency welding apparatus for applying a high frequency to a work coil wrapped around the V groove to weld the workpiece; A welding roll stand for adjusting steps of both end faces constituting the core portion of the metal pipe; A welding side roll stand for preventing both ends constituting the core portion of the metal pipe from welding after being welded; A first outer bead pressing roll stand for forming a elliptically deformed metal pipe as a source of tension by expanding the core portion of the metal pipe by welding heat during welding; A first outer bead removing stand for removing a bead formed on an outer surface of a core portion of the metal tube when welding is performed; A second outer bead pressurizing roll stand for forming a metal pipe having undergone the process of the first outer bead removing stand as a source of rotation; A second outer bead removal stand for removing again the beads formed on the outer surface of the metal pipe that has undergone the process of the second outer bead pressing roll stand; A third outer bead pressurizing roll stand for forming a metal pipe having undergone the process of the second outer bead removing stand as a source of rotation; And a side roll stand for preventing the metal pipe from being rotated to the left or to the right when the beads formed on the outer surface of the metal pipe are removed from the first and second outer bead removing stands. Roller arrangements of welding plant parts.

As described above in detail, the present invention has the effect of increasing the welding efficiency of the core portion by adjusting the angle of the V-grooves of both end faces constituting the seam portion of the metal tube.

In addition, there is an effect of preventing the welding roller from rotating when adjusting both end faces constituting the core portion of the metal tube, thereby preventing defective products from being generated.

In addition, when adjusting the step of both end faces constituting the core portion of the metal pipe, the metal pipe is prevented from rotating to the left and right to prevent it from moving, so that both end faces can be held at positions where they coincide with each other, .

In addition, there is an effect that the metal pipe subjected to the welding process is rapidly expanded and the welded core portion is prevented from spreading.

In addition, a metal pipe which is heated by welding and protrudes convexly and deformed into an elliptical shape is made as a source of tension, so that the outer bead is cleanly removed, and scratches are prevented from being generated on the outer surface.

In addition, when the bead of the outer surface of the metal pipe is removed by the bite device, the metal pipe is prevented from rotating to the left and right, thereby completely removing the bead, thereby improving the quality.

In addition, when the bead is removed by the bite device, the metal pipe is rotated to the left and right, so that the bead is separated from the center of the bite device, thereby preventing scratches on the outer surface of the metal pipe.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view for explaining a conventional roller arranging apparatus for a part for a welding equipment for a metal pipe; FIG.
2 is a view schematically showing a state in which a conventional welding roller and a welding side roller are arranged.
Figure 3 schematically shows a side view of a roller arrangement of a welding installation part according to the invention;
Figure 4 schematically shows the plane of the roller arrangement of the welding installation part according to the invention;
5 is a schematic view of a shim guide roll stand according to an embodiment of the present invention.
6 is a view schematically showing a state in which a shim guide roll, a work coil and a welding roller are arranged according to an embodiment of the present invention.
7 is a schematic view of a welding roll stand according to one embodiment of the present invention.
8 is a view schematically showing a state in which a welding roller and a welding side roller are arranged according to an embodiment of the present invention;
9 is a view schematically showing a state in which upper rollers and lower rollers of first and second bead pressing roll stands are arranged according to an embodiment of the present invention;
10 is a view schematically showing a state in which the clamp rollers of the first and second bead removal stands according to the embodiment of the present invention are disposed.
11 is a view schematically showing a state in which a side roller of a side roll stand according to an embodiment of the present invention is disposed.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings.

In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed.

As shown in FIGS. 2 to 4, the present invention includes a shim guide roll stand 100 for adjusting the angle of a V-groove on both end faces constituting a seam portion of a metal pipe; A high frequency welding apparatus 200 for applying a high frequency to the work coil 210 wrapped around the V groove to weld the work coil 210; A welding roll stand (300) for adjusting the level difference of both end faces constituting the core portion of the metal pipe; A welding side roll stand 400 for preventing both end faces of the metal pipe from welding after being welded; A first outer bead pressing roll stand (510) for forming a metal tube which is expanded by the welding heat and deformed into an elliptical shape as a centering source when welding the core portion of the metal tube; A first outer bead removing stand 610 for removing beads formed on an outer surface of the core portion of the metal pipe when welding is performed; A second outer bead pressing roll stand 520 for forming a metal pipe having undergone the process of the first outer bead removing stand again as a source of displacement; A second outer bead removal stand 620 for removing again the beads formed on the outer surface of the metal pipe through the process of the second outer bead pressurized roll stand; A third outer bead pressing roll stand 530 for forming a metal pipe having undergone the process of the second outer bead removing stand as a turning source; And a side roll stand (700) for preventing the metal pipe from being rotated to the left or to the right when the beads formed on the outer surface of the metal pipe are removed from the first and second outer bead removing stands.

As shown in FIG. 5, the shim roll guide stand 100 is provided with a spool 110 inserted into the V-grooves of both end faces constituting the core portion of the metal tube. On both sides of the shim portion, guide rollers 120 are provided.

6, the guide roller 120 closely contacts a metal tube to the card holder 110, the card holder 110 horizontally moves left and right, adjusts the left and right center of the V groove, So that the outer diameter of the metal tube is finely brought close to the inner diameter of the work coil 210. [

That is, the angle of the V-groove is maximized to maximize the outer surface of the metal tube to the inner diameter of the workpiece 210, thereby increasing the efficiency of the weldability.

As shown in FIG. 7, the welding roll stand 300 is equipped with a welding roller 310, which is closely attached to both sides of the metal tube and moves up and down so as to adjust the difference in level between both end faces constituting the core portion of the metal pipe And a support roller 320 provided between the welding rollers disposed on both sides of the metal pipe and in contact with the lower end of the metal pipe.

At this time, each of the welding rollers 310 is rotated in the left and right direction, and the support roller 320 is rotated in the horizontal direction so as to prevent the metal pipe from rotating.

In addition, since the gap C is formed in the inside of each of the welding rollers 310 with a semicircular shape having a different size from each other and centered on both end points where the support roller 320 is closely contacted, A part of the metal tube is inserted into the gap when adjusting the step of the both end faces constituting the core portion of the metal tube, thereby preventing the metal tube from being crushed or scratched.

For example, when the right end face of the metal pipe rises, the welding roller 310 provided on the right side of the metal pipe is lowered to adjust the stepped portion, so that the right end face is lowered and the gap (C) When the outer end face is raised, the welding roller 310 provided on the left side of the metal pipe is lowered to adjust the stepped portion, so that the left end face is lowered and the gap (C) A part of the metal pipe is inserted.

That is, the welding roller 310 prevents the metal tube from being rotated right and left when adjusting the stepped section of both ends constituting the core portion of the metal pipe, and also prevents the metal pipe from being distorted or scratched. So as to prevent the occurrence of such a problem.

8, the welding side roll stand 400 is provided with a plurality of welding side rollers 410 of the same size on both sides of the metal tube.

At this time, the welding side roller 410 is formed to be smaller than the size of the welding roller 310, so that a distance between the welding roller and the welding roller can be narrowed and the core portion can be maintained in a close contact state.

It is preferable that the plurality of welding side rollers 410 can be installed in one to n stages according to the length of the metal pipe.

That is, both end faces constituting the core portion of the metal pipe are welded to prevent the heated core portion from expanding rapidly while cooling.

As shown in FIG. 9, the first, second and third outer bead pressing roll stands 510, 520, and 530 are closely attached to the upper and lower outer surfaces of the metal pipe so as to form an elliptical metal pipe An upper roller 540 and a lower roller 550 which are engaged with each other are provided.

At this time, a groove 541 is formed at the center of the inner circumference of the upper roller 540 so that a bead formed on the outer surface of the metal pipe is inserted and moved.

That is, the core portion of the metal tube is heated by welding, the core portion is expanded, and the tube is formed into an elliptical shape by swelling, so that the bead of the outer surface of the metal tube can be cleanly removed.

10, the first and second outer bead removal stands 610 and 620 are provided with a bite device 630 for removing beads formed on the outer surface of the metal pipe, respectively, and the bite device 630 Clamp rollers 640 are disposed on both sides of the metal pipe to prevent the metal pipe from moving to the left and right when the beads are removed.

That is, both sides of the metal tube are closely attached to the clamp roller 640, thereby preventing the metal tube from rotating to the left and right and preventing the bead 630 from being welded to the metal tube. So as to improve the quality of the product.

As shown in FIG. 11, the side roll stand 700 is provided with a plurality of side rollers 710 disposed on both sides of the metal pipe to prevent the metal pipe from moving left and right.

That is, the side rollers 710 are disposed on both sides of the metal pipe so as to prevent the metal pipe from moving to the left and right, respectively, and the bite devices 630 provided in the first and second outer bead removing stands 610 and 620 When the bead is removed, the metal tube is rotated to the left and right so that the bead is separated from the center of the bite device to prevent scratches on the outer surface of the metal tube.

The technical idea of the roller arranging device of the part for welding metal parts for a metal pipe of the present invention is that the same result can be repeatedly practically practiced. Especially, by implementing the present invention as described above, it is possible to contribute to industrial development by promoting technological development, .

100: Shim guide roll stand 200: High frequency welding device
300: Welding roll stand 400: Welding side roll stand
510: First outer bead press roll stand 520: Second outer bead press roll stand
530: Third outer bead pressurized roll stand 610: First outer bead removal stand
620: second outer bead removing stand 700: side roll stand

Claims (8)

A shim guide roll stand (100) for adjusting an angle of a V-groove on both end faces constituting a seam portion of a metal pipe;
A high frequency welding apparatus 200 for applying a high frequency to the work coil 210 wrapped around the V groove to weld the work coil 210;
A welding roll stand (300) for adjusting the level difference of both end faces constituting the core portion of the metal pipe;
A welding side roll stand 400 for preventing both end faces of the metal pipe from welding after being welded;
A first outer bead pressing roll stand (510) for forming a metal tube which is expanded by the welding heat and deformed into an elliptical shape as a centering source when welding the core portion of the metal tube;
A first outer bead removing stand 610 for removing beads formed on an outer surface of the core portion of the metal pipe when welding is performed;
A second outer bead pressing roll stand 520 for forming a metal pipe having undergone the process of the first outer bead removing stand again as a source of displacement;
A second outer bead removal stand 620 for removing again the beads formed on the outer surface of the metal pipe through the process of the second outer bead pressurized roll stand;
A third outer bead pressing roll stand 530 for forming a metal pipe having undergone the process of the second outer bead removing stand as a turning source; And
And a side roll stand (700) for preventing the metal pipe from being rotated left and right when the beads formed on the outer surface of the metal pipe are removed from the first and second outer bead removing stands. Roller arrangements for welding equipment parts for metal pipes.
The method according to claim 1,
The shim roll guide stand 100 is provided with a card roll 110 inserted into the V-grooves of both end faces constituting the core portion of the metal pipe, and guide rollers 120 are provided on both sides of the shim portion,
The guide rollers 120 adhere the metal tube to the card holder 110 and the card holder 110 horizontally moves left and right to adjust the left and right center of the V groove and vertically moves up and down to open the angle of the V groove And the outer diameter of the main metal tube is made to be slightly closer to the inner diameter of the work coil (210).
The method according to claim 1,
The welding roll stand (300) is provided with a welding roller (310) which is closely attached to both sides of the metal tube so as to adjust the level difference of both end faces constituting the core portion of the metal tube and is vertically moved up and down. A support roller 320 provided between the welding rollers and in contact with the lower end of the metal pipe,
Each of the welding rollers is rotated in a horizontal direction, and the support roller is rotated in the horizontal direction in accordance with the advancing direction to serve as a brake for preventing the metal tube from rotating when adjusting the step of the both end faces constituting the core portion Wherein the roller arrangement arrangement of the welding equipment part for a metal pipe is characterized in that the roller arrangement arrangement of the welding equipment part for a metal pipe.
The method of claim 3,
Inside each of the welding rollers 310, a gap C is formed around the both end points where the support roller 320 is closely contacted. The gap C is formed in the semi- Wherein a portion of the metal tube is inserted into a gap when the stepped section of each of the metal tube is adjusted so that the metal tube is prevented from being distorted or scratched.
The method according to claim 1,
The welding side roll stand 400 is provided with a plurality of welding side rollers 410 having the same size on both sides of the metal pipe,
The welding side roller 410 is formed to be smaller than the welding roller 310 so that the distance between the welding roller 310 and the welding roller is narrowed so that both ends of the metal tube are welded, So that it is prevented from spreading rapidly and spreading.
The method according to claim 1,
The upper roller 540 and the lower roller 540 are fixed to the first, second and third outer bead pressing roll stands 510, 520 and 530 in such a manner as to form an elliptical metal tube as a source of tension, Rollers 550, respectively,
And a groove (541) is formed in the center of the inner circumference of the upper roller (540) so that a bead formed on the outer surface of the metal pipe is inserted and moved.
The method according to claim 1,
The first and second outer bead removing stands 610 and 620 are provided with a bite device 630 for removing beads formed on the outer surface of the metal pipe,
And a clamping roller (640) disposed on both sides of the metal pipe to prevent the metal pipe from moving to the left and right when the bead is removed by the cutting device (630).
The method according to claim 1,
When the bead is removed from the side roll stand 700 by the bite device 630 disposed on both sides of the metal pipe and provided on the first and second outer bead removing stands 610 and 620, Wherein a plurality of side rollers (710) are provided to prevent the beads formed on the outside of the metal pipe from being separated from the center of the bite device.

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