JPH08112693A - Guide ring for working piping and method and device for working piping - Google Patents

Abstract

PURPOSE: To enable working of a piping with high accuracy on site of a piping work. CONSTITUTION: A truck 12 is provided thereon with plural pairs of supporting rollers 18 for supporting a piping 20 to be worked and a driving roller 22. The supporting roller 18a in common use as the driving roller is rotated by a motor 22, by which the piping 20 to be worked is made rotatable around the axis. A profiling unit 40 is so constituted as to be lowered by its own weight along a lifting guide 38. This profiling unit 40 is provided with a profiling roller to be pressed to the guide surface 86 of a guide ring 84 mounted at the piping 20 to be worked and a profiling ball in contact with the peripheral surface of the piping 20 to be worked. A torch mounting section 42 is mounted at the profiling unit 40. This torch mounting section 42 is constituted to be moved in the axial direction of the piping 20 to be worked integrally with the profiling roller and to be vertically moved integrally with the profiling ball.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a pipe processing guide ring and a pipe processing device which are used for cutting and welding pipes in the field of piping work for air conditioning equipment in general buildings.

[0002]

2. Description of the Related Art In air-conditioning equipment piping work for general buildings, etc., carbon steel pipes (SGP) for equipment pipes, carbon steel pipes for pressure pipes (ST), which are generally called white gas pipes or black gas pipes, are used.
PG) is used, and a process called in-situ spooling is performed on these steel pipes. In this spool processing, straight pipes (straight pipes) are cut to a predetermined length at the site, and after the cut surface is groove-processed, the cut straight pipes are further fitted with fittings such as elbows and cheese. This is a process for welding the flange. The process of welding one joint or flange to one straight pipe is called 1-fit process.

Conventionally, when pipes are cut in the field spool processing, the pipes to be processed are placed on a simple roller, and in general, an operator manually rotates the pipes around an axis while cutting with a gas cutting torch held by a hand. ing. Also, when welding, place the pipe to be processed on a simple roller as in the case of cutting, temporarily weld joints and flanges to this pipe, and then manually perform arc welding while rotating the pipe around the axis by hand. Was going on.

As a pipe processing device, a so-called pipe prefab processing device as shown in FIG. 7 is commercially available. In this device, a rotary scroll chuck 162 is provided on the rear end of the base 160, and the end of the pipe 164 to be machined, which is opposite to the machined side, is fixed to the chuck 162. . The scroll chuck 162 is movable along a guide 166 provided on the base 160, and the traveling motor 16
8 so that the axial position of the pipe 164 can be adjusted. Further, the rotary scroll chuck 162 is provided with a rotary motor 170, and by driving the motor 170, the pipe 164 fixed to the chuck 162 can be rotated.

On the other hand, on the upper surface of the front side of the base 160, there is provided a pipe retainer 172 having a rotatable roller on the inner peripheral portion which comes into contact with the pipe 164, and rotatably holds the pipe 164 mounted on the chuck 162. However, the vibration of the tip end side due to the rotation of the pipe 164 is prevented, and the displacement of the pipe 164 in the vertical and horizontal directions is prevented. The pipe retainer 172 is vertically divided into two parts, and the upper retainer is moved up and down by a retainer elevating motor 174, and in cooperation with the lower retainer, the pipe 164 is held so as to be rotatable about its axis.
It can be opened.

Further, at the front end of the base 160, a torch holder 1 for holding a cutting torch 176 on a column (not shown).
78 is provided. The torch holder 178 can be moved up and down by a torch lift motor 179 and can swing the torch 176. The oxygen plasma fusing machine 180 connected to the cutting torch 176 receives a control signal from the sequencer 182. An input device 184 such as a touch panel is connected to the sequencer 180 so that the input device 184 can set cutting conditions and the like.

[0007]

However, in the above-described method for cutting and welding pipes in the field, since the operator manually rotates the pipes around the axis, the pipes move in the axial direction due to the rotation of the pipes, and the pipes are rotated. Due to the manufacturing error within the tolerance, the pipe is distorted and the cutting line or the welding line is spiral, and the cutting surface is inclined with respect to the axis of the pipe or the welding line is misaligned. Also, due to distortion (flatness) of the cross-sectional shape due to manufacturing errors in the pipe, the distance between the processing torch (cutting torch or welding torch) and the pipe fluctuates, and the cut surface becomes uneven. To take. For this reason, the operator must adjust the distance of the machining torch from the pipe surface or move the machining torch to match the cutting line or groove, and in some cases, adjust the rotation speed of the pipe. While it is necessary to cut and weld. Therefore, on-site spool processing requires a considerably skilled technique.

In particular, in the case of cutting, it is extremely difficult for a skilled worker to cut the pipe orthogonally to the pipe axis, that is, to provide so-called direct cutting accuracy. Can not be welded to. That is, in terms of construction management, the straight pipe needs to be cut with a precision of ± 1 mm, and the same precision is required for the groove processing. And, the welding has a tensile strength of 30 kg /
Although it is necessary to implement the example so as not to fall below cm ² , these requirements cannot be satisfied by the conventional manual cutting process. Therefore, in the conventional cutting work, after cutting the pipe, the cut surface is usually post-treated with a sander or a file to ensure the perpendicularity of the cut surface with respect to the pipe axial direction, and It is necessary to remove unevenness on the front surface.

Further, the above-mentioned conventional pipe prefabricating apparatus can prevent the pipe 164 from changing due to the tolerance or the eccentricity of the rotating roller when the pipe 164 is rotated. It is intended for processing, and is generally of a stationary type, so it is difficult to bring it to the site of plumbing work. And even if it can be brought to the site, there is a practical problem that it is too large and there is no space to install it.

The present invention has been made to solve the above-mentioned drawbacks of the prior art, and an object of the present invention is to enable highly accurate processing of piping at the site of piping work.

[0011]

In order to achieve the above object, a pipe processing guide ring according to the present invention has a section L having a body portion and a flange portion formed at one end of the body portion.
A plurality of letter-shaped ring pieces are connected to each other so as to be openable and closable, and can be attached and detached in the circumferential direction of the pipe to be processed, and the tip surface of the bulge portion moves the processing torch in the circumferential direction of the pipe to be processed. It is configured to serve as a guide surface for guidance.

The guide ring may be arranged by attaching an elastic material such as rubber to the inner peripheral surface of the body so as to absorb the dimensional error and minute irregularities of the pipe. The elastic body may be provided all around the inner peripheral surface, or may be provided at an appropriate interval. Further, the body portion can be provided with a mark which is detected by the sensor and used to start or stop the rotation of the pipe. This sign can be made of a protrusion, a ferromagnetic material, a good conductor, or the like. And
The marker may be attached to the guide ring by a magnet so that it can be attached and detached at any position.

Further, according to the pipe processing method of the present invention, a pipe to be processed having an L-shaped cross-section guide ring having a guide surface orthogonal to the axis of the pipe to be processed is rotated around the axis to process the pipe. While holding the torch at a predetermined position from the guide surface of the guide ring in the axial direction of the pipe to be processed, cutting or welding the pipe to be processed while holding it at a position at a predetermined distance from the surface of the pipe to be processed. It is configured to do.

The pipe processing apparatus according to the present invention is provided with a plurality of support rollers for supporting the pipe to be processed and rotating about the axis, and mounted on the peripheral surface of the pipe to be processed, in the circumferential direction of the pipe to be processed. A guide ring having a guide surface along the guide pipe, a copying unit that is provided so as to be movable in the axial direction of the pipe to be processed, and has a ring copying portion that comes into contact with the guide surface of the guide ring; The torch mounting portion is movable in the axial direction of the pipe to be processed.

It is desirable that the copying unit is provided with a peripheral surface copying section that descends by its own weight and comes into contact with the peripheral surface of the pipe to be processed so that the torch mounting section can move up and down integrally with the torch mounting section. Further, it is preferable that the copying unit and the torch mounting portion can be swung so as to be retractable from the upper portion of the pipe to be processed. The ring copying portion of the copying unit can be composed of a rotatable roller or a ball. Also, a rotatable roller or ball can be used for the peripheral surface copying portion, but since the contact surface is not a flat surface, it is desirable to use a rotatable ball.

Further, the supporting roller is provided on the carriage. Further, the copying unit, the torch mounting portion, and the like may be attached to a column that is erected on the cart so as to be horizontally rotatable. Further, a pressing roller for pressing the pipe to be processed against the supporting roller is rotatably attached to the column. The scanning unit and the pressing roller may be swung in the vertical direction, but if they are in the horizontal direction, they can be handled easily and the structure can be simplified.

[0017]

The pipe processing guide ring according to the present invention constructed as described above can be easily mounted on a pipe to be processed, and a cutting torch or welding torch can be covered along a guide surface which is a tip end surface of a flange portion. By relatively moving the processing torch in the circumferential direction, these processing torches can be guided in the circumferential direction orthogonal to the axis of the pipe to be processed, and when cutting or welding the pipe, the torch changes in the pipe axial direction. Can be prevented, and in the case of cutting processing, the pipe can be reliably cut in a plane orthogonal to the axis, the cut surface has good orthogonality to the pipe axis and there are few irregularities, and the welding line at the time of welding is misaligned. Can be eliminated.

In the pipe processing method of the present invention, since the pipe to be processed is rotated and processed while holding the processing torch constant, the pipe to be processed is rotated by, for example, a roller supporting the pipe to be processed. Since it is possible to simplify the rotating mechanism and to hold the torch at a fixed position from the guide surface of the guide ring and the surface of the pipe to be processed, the cutting dimension error due to the fluctuation of the torch is eliminated, In addition, it is possible to prevent the welding line from being misaligned and to improve the accuracy of cutting and welding.

In the pipe welding apparatus of the present invention, since the torch mounting part is movable in the axial direction of the pipe to be processed integrally with the ring copying part of the copying unit, the ring copying part is formed on the pipe to be processed. By pressing the guide surface of the attached guide ring and rotating the pipe by the support roller, the torch mounting portion can be moved relatively in the pipe circumferential direction while preventing axial fluctuation of the pipe to be processed. Therefore, the pipe to be processed can be cut or welded reliably in the plane orthogonal to the axis of the pipe, and the pipe machining accuracy can be significantly improved. Moreover, in the present invention, since the copying unit is provided with a peripheral surface copying section that descends by its own weight and comes into contact with the peripheral surface of the pipe to be processed, the torch mounting section can be moved up and down together with the peripheral surface copying section. The distance between the torch and the torch can always be kept constant, and irregularities on the cutting surface and fluctuations in the cutting or welding current can be avoided.

Further, when the supporting roller, the copying unit and the like are mounted on the carriage, the processing apparatus can be easily carried in to the work site of piping. By providing a pressing roller and pressing the pipe to be processed against the support roller, the pipe to be processed can be prevented from falling from the trolley and at the time of processing the end portion of the long pipe to be processed. Also,
The pipe can be reliably held on the support roller, and the pipe can be stably rotated around the axis by the support roller. Further, by making the pressing roller, the copying unit, and the torch mounting portion rotatable, by retracting the copying unit, the pressing roller, and the like from above the carriage when the pipe to be processed is carried into or discharged from the carriage, These do not get in the way, and the piping can be easily carried in and out.

[0021]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT A preferred embodiment of a pipe processing guide ring and a pipe processing apparatus according to the present invention will be described in detail with reference to the accompanying drawings. FIG. 1 is a perspective view of an embodiment of a pipe processing apparatus according to the present invention.

In FIG. 1, the pipe processing apparatus 10 has a carriage 12. This dolly 12 has, for example, a length of 150.
It has a width of 65 cm and a width of 65 cm, and a pair of moving casters 14 with stoppers are provided at the front and rear lower portions so that it can be moved to an arbitrary position and stopped. Then, on the upper surface of the bogie 12, a plurality of support plates 16 whose upper portion is cut out in an arc are provided in the front-back direction (longitudinal direction) of the bogie.
A plurality of pairs (at least two pairs) of support rollers 18 are rotatably supported by these support plates 16.

The supporting rollers 18 are arranged at the upper part of the carriage 12 with the rotation axis extending in the longitudinal direction of the carriage 12 and the axes of the supporting rollers 18 forming each pair being laterally offset from each other. The pipe 20 to be processed can be supported. A drive motor 22 is disposed on the carriage 12 adjacent to a central support roller 18a which also serves as a drive roller.
Can be rotationally driven to rotate the pipe 20 to be processed around its axis. Further, a pair of manual jacks 24 used when the pipes 20 to be processed are carried in or out of the carriage 12 are installed at appropriate positions on the carriage 12. Each of these jacks 24 has a pair of rotatable balls on the upper part of the jack 24.
There is provided a pipe receiver 26 arranged in a direction orthogonal to the 0 axis line so that the supported pipe 20 can be easily moved in the axial direction.

On the back side of the carriage 12 (upper left side in FIG. 1),
A pillar 30 having a rectangular cross section is erected. Then, a fitting 32 having a U-shaped cross section is fitted and fixed to the upper portion of the column 30. In this mounting bracket 32,
The swing bracket 36 is attached via the hinge 34.
The swivel bracket 36 is the copying unit 4 whose details will be described later.
0 to support the pipe 20 to be withdrawn from above the pipe 20 to be processed, and it is possible to swivel in the horizontal plane about the hinge 34, and the support 30
The surface on the side of the dolly 12 which is the front side can be closely attached to the attachment fitting 32, and the side opposite to the side attached to the hinge 34 can be screwed to the attachment attachment 30. Further, the swivel bracket 36 has an elevating guide 38 on the front surface so that the copying unit 40 can be guided in the vertical direction. And the copying unit 4
A torch mounting portion 42 to which a processing torch for processing the pipe 20 to be processed can be fixed is attached to the side of 0.
The torch mounting portion 42 includes a cutting torch mounting portion that can be mounted by inclining the cutting torch for cutting the pipe 20 to be processed at a predetermined angle, and a welding torch at the axis of the pipe 20 to be processed during welding. It consists of a welding torch mounting part that can be held orthogonally.

A bracket 44 is fixed to the side surface (the right side surface in FIG. 1) of the mounting pipe 30 on the rear end side of the pipe 20 to be processed, and a swing arm 46 is pivotally attached to the bracket 44 via a pin 48. There is. The swivel arm 44 swivels the pressing roller 50 that presses the pipe 20 to be processed against the supporting roller 18 in a horizontal plane.
A roller holder 54 that rotatably supports 0 is attached via a cylinder 52. Then, two pairs of pressing rollers 50 are attached to the roller holder 54,
When the pressing roller 50 presses the pipe 20 to be processed downward as shown in FIG. 1, the rotation shafts of the pair of pressing rollers 50 are located at one side of the axis of the pipe 20 to be processed, and the other pair of pressing rollers 50. The rotating shaft 50 is located on the other side of the axis of the pipe 20 to be processed.

The cylinder 52 is provided with a pressing roller 50.
For pulling up, the pressing pipe 50 presses the pipe 20 to be processed by a spring. That is, as shown in FIG. 4, a holding spring 58 is arranged around the rod of the cylinder 52, and the holding pipe 58 presses the pipe 20 to be processed against the support roller 18.

As shown in FIG. 2, the copying unit 40 has a box-shaped frame body 60 whose front side on which an operator works is opened, and the torch position adjusting mechanism portion is provided in the frame body 60. 62 and a copying mechanism section 80 are provided. The frame body 60 has a guide portion that fits into the elevating guide 38 of the swivel bracket 36, and can easily descend along the elevating guide 38 by its own weight.

The torch position adjusting mechanism 62 adjusts the position of the torch mounting portion 42 in the axial direction of the pipe to be processed. The torch position adjusting mechanism 62 has a rack bar 64 and a pinion (not shown) as main components, and accommodates the pinion. The rack bar 64 and the guide bar 66 have a box 68 penetrating in the axial direction of the pipe 20 to be processed. The rack bar 64 and the guide bar 66 are formed to be longer than the lateral width of the frame body 60, and both ends of the rack bar 64 and the guide bar 66 can project from the frame body 60 through large slots (not shown) formed in the frame body 60. A torch mounting portion 42 is provided at the tip (the left end in FIG. 2). A handle 70 for rotating the pinion meshed with the rack bar 64 is provided on the front surface of the box 68. Therefore, by rotating the handle 70, the rack bar 64 moves in the left-right direction in FIG. 2, and the pipe to be processed 20 of the processing tote attached to the torch mounting portion 42 is processed.
The axial position of the can be adjusted.

On the other hand, a guide shaft 72 is provided near the inner wall surface of the frame 60. This guide shaft 7
2 is arranged along the axis of the pipe 20 to be processed, one end of which is fixed to the inner wall surface 73 on the tip side of the frame 60, and the other end of which is supported by a bracket 74 which is fixed to the inner wall surface of the frame 60. There is. Then, the guide shaft 72 penetrates the guide bracket 76 provided on the lower portion on the back side of the box 68,
The box 68 is shown in FIG.
It is designed to guide you in the left and right directions. Further, around the guide shaft 72 between the inner wall surface 73 on the front end side of the frame body 60 and the guide bracket 76, the copying mechanism unit 80 is biased rightward in FIG. A pressing spring 83 for pressing the copying roller 82 (ring copying portion) of 80 against the guide surface 86 of the guide ring 84 is mounted.

The copying mechanism 80 includes a guide block 88 arranged below the box 68 and the guide block 8
8 has a copying roller 82 and a copying ball 90 provided below. The guide block 88 is provided in the box 6
The lower part of 8 can be moved up and down along an up and down guide 92 that extends downward, and the relative distance to the box 68 can be adjusted.

That is, a horizontal guide 94 is fitted in the vertical guide 92, and the horizontal guide 94 can move up and down along the vertical guide 92. A guide portion provided on the back surface of the guide block 88 is fitted to the horizontal guide 94, and the guide block 88 is movable in the left-right direction in FIG. Further, the guide block 88 includes the guide block 8
A screw shaft 96 for raising and lowering 8 is screwed. This screw shaft 96 is a box 68
And the lower end of the box 68 is screwed onto the upper portion of the guide block 88. The upper end of the screw shaft 96 projects above the frame 60 through a large slot formed in the ceiling of the frame 60, and a handle 98 for rotating the screw shaft 96 is attached to the upper end. is there.

At the bottom of the guide block 88, the frame 60
A leg 100 protruding downward from the frame 60 is fixed through a large slot provided at the bottom of the frame. Further, at the lower end of the leg 100, the roller bracket 1 is arranged in the axial direction of the pipe 20 to be processed.
02 is provided, and the copying roller 82 and the copying ball 90 are attached to the lower surface of the roller bracket 102. The copying roller 82 has a rotation axis in the vertical direction, is attached so that a part thereof protrudes from the rear end (right end in FIG. 2) of the roller bracket 102, and the peripheral surface is the outer periphery of the pipe 20 to be processed. The guide ring 86 fixed to the surface can come into contact with the guide surface 86. The copying ball 90 is rotatably held by a holding leg 104 fixed to the lower surface of the roller bracket 102 and is positioned below the copying roller 82. The copying ball 90 is lowered by its own weight to be processed. It is designed to come into contact with the peripheral surface of the pipe 20.

As shown in FIG. 3, the guide ring 84 has a body portion 106 and a flange portion 108, has an L-shaped cross section, and the end surface of the flange portion 108 on the copying unit 40 side is The guide surface 86 is in contact with the copying roller 82. The guide ring 84 is composed of three ring pieces 110a to 110c equally divided in the circumferential direction, and these are connected to each other by a hinge 111. The flanges of the connecting portion between the ring piece 110a and the ring piece 110b and the connecting portion between the ring piece 110b and the ring piece 110c are notched obliquely so that the guide ring 84 can be opened to the outside. The ring piece 110a and the ring piece 110c are connected by a spring-type fastener 112 so that the dimensional error of the pipe 20 to be processed can be absorbed by the expansion and contraction of the spring 114.

The body portion 106 preferably has a width of 50 mm or more in order to prevent the body pipe 20 from being inclined with respect to the axis of the pipe 20 to be processed. A sign 116 for starting is attached. This sign 116 has a magnet on the bottom surface,
The guide ring 84 can be easily attracted and set at any position. The limit switch 118, which is a sensor for detecting the marker 116, is attached to the roller holder 54 to which the pressing roller 50 is attached or the revolving arm 46, and inputs a detection signal of the marker 116 to a controller (not shown). The controller controls the drive motor 22 and the processing torch according to the output signal of the roller limit switch 116.

Reference numeral 120 shown in FIG. 3 is a current collector for taking a ground terminal on the side of the pipe 20 to be processed at the time of cutting or groove processing by air plasma or oxygen plasma or self-shield welding. The terminal is shown and is attached to the roller bracket 54 so as to move up and down in conjunction with the pressing roller 50. The current collector terminal 120 has an elastic body 121 that holds the flange portion 108 therebetween, so that the flange portion 108 is surely contacted. Further, reference numeral 1 shown in FIG.
Reference numeral 22 is a drop prevention bar for preventing the pipe 20 to be processed from falling to the front side where the worker is.

The processing of the pipe according to the embodiment constructed as described above is as follows. First, when the pipe 20 to be processed is supported by the support roller 18, the copying unit 40
The swing bracket 36 is retracted from above the dolly 12 and is positioned on the side of the column 30. Further, the pressing roller 50 is also positioned on the side of the column 30 by the turning arm 46. Then, the pair of jacks 24 is raised, and when the jacks 24 are provided, the pipe receiver 26 is raised above the support roller 18. After that, the pipe 20 to be processed is carried into the pipe receiver 26 from the front side of the carriage 12 (left side in FIG. 4), the axial position is adjusted, and then the guide ring 84 is attached to the peripheral surface.

Next, after the jack 24 is lowered to support the pipe 20 to be processed by the support roller 18, the swivel arm 46 is swung while the pressing roller 50 is raised by the cylinder 52, and the pressing roller 50 is covered. It is moved onto the processing pipe 20. Then, when the operation of the cylinder 52 is stopped, the roller holder 54 presses the pressing spring 58.
And the pressing roller 50 presses the pipe 20 to be processed against the supporting roller 18, as shown in FIG. 1 or 4. After that, the swivel bracket 36 is swung to move the copying unit 40 above the pipe 20 to be processed, and the swivel bracket 36 is fixed to the fitting 32 by a bolt or the like not shown.

At this time, the copying unit 40 descends by its own weight along the elevating guide 38 provided on the turning bracket 36, and the copying ball 90 comes into contact with the peripheral surface of the pipe 20 to be processed. Further, in the copying roller 82, the spring force of the pressing spring 82 causes the guide bracket 76, the box 68, and the vertical guide 9 to move.
2, horizontal guide 94, guide block 88, legs 100,
It is transmitted through the roller bracket 102 and is pressed against the guide surface 86 of the guide ring 84. Then, the handle 70 moves the rack bar 64 to move the cutting torch 130 in the axial direction of the pipe 20 to be processed to adjust the cutting position, and the handle 98 moves the guide block 88 up and down to move the cutting torch 130 and the cut torch 130 together. The distance to the processing pipe 20 is adjusted.

Next, the drive motor 22 is driven to rotate the support roller 18a and rotate the pipe 20 to be processed around its axis. When the pipe 20 to be processed rotates, the guide ring 84
Rotates integrally with the pipe 20 to be processed, the mark 116 attached to the guide ring 84 comes into contact with the limit switch 118, the detection signal of the limit switch 118 is sent to a controller (not shown), and the controller receives the signal and the motor 22 receives the signal. To stop the rotation of the pipe 20 to be processed. Then, the controller starts an air plasma cutting machine (not shown) and punches a hole in the pipe 20 to be processed by the cutting torch 130 held obliquely by the torch mounting portion 42 in accordance with the groove angle. Further, when a predetermined time required for drilling has elapsed, the controller drives the drive motor 22 again to rotate the pipe 20 to be processed, and cuts the pipe 20 to be processed by the cutting torch 130.

At this time, the copying roller 82 has the pressing spring 8
The state of being constantly pressed against the guide surface 86 of the guide ring 84 by 2 is maintained. In addition, the copying ball 90
Since it is desired that the copying unit 40 descend by its own weight, the copying unit 40 is always in contact with the peripheral surface of the pipe 20 to be processed. Therefore, the cutting torch 130 moves relative to the pipe 20 to be processed in a plane orthogonal to the axis of the pipe 20 to be processed, and the distance to the pipe 20 to be processed is kept constant, resulting in unevenness of the cut surface. The cutting surface does not incline with respect to the axis, and high-precision cutting and groove processing are performed at the same time. Then, the pipe 20 to be processed makes one rotation, the limit switch 118 detects the marker 116 again, and when the detection signal is input to the controller, the controller turns off the power of the air plasma and stops the drive motor 22. As a result, the automatic cutting and the automatic groove processing of the pipe 20 to be processed are completed.

FIG. 5 shows a state in which the elbow 132 is welded to the pipe 20 to be processed according to the embodiment by self-shielding arc welding. Elbow 13 on the work pipe 20
When welding No. 2, first, the pipe 20 to be processed, which has been cut and grooved, is placed on the support roller 18, and the elbow 132 is temporarily welded to the pipe 20 to be processed. After that, the welding torch 134
The welding process is performed in the same manner as the cutting process described above. The same applies when welding joints such as cheese or flanges. In the welding process of the embodiment, at the first rotation of the pipe 20 to be processed, the rotation speed is decreased to slowly build up the first layer, and the pipes 20 to be processed 2 to 3 are processed.
At the time of the rotation, the control is performed to increase the rotation speed, increase the welding current, and increase the supply speed of the welding rod to perform solid buildup.

As described above, in the embodiment, the detachable guide ring 84 is attached to the pipe 20 to be processed, and the processing torch attached to the torch attachment portion 42 is used as the guide ring 8.
The tracing roller 82 brought into contact with the guide surface 86 of No. 4 and the tracing ball 90 brought into contact with the peripheral surface of the pipe 20 to be processed are made to follow each other, so that the pipe 2 to be processed of the processing torch 2
It is possible to eliminate the axial deviation of 0 and to keep the distance between the torch and the pipe 20 to be processed constant, and the tolerance of the pipe 20 to be processed (eccentricity, cross-section distortion, etc.) and local dents on the surface. Even if there is such a problem, since the torch interlocks with the copying ball 90, the cutting dimension error can be reduced. As a result, the orthogonality of the cut surface to the pipe axis is improved, and the unevenness of the cut surface can be reduced. Moreover, since the cutting torch 130 can be held constant according to the groove angle, not only can the cutting process and the groove process be performed at the same time, but also the groove shape can be made constant and additional machining is required. Not. Further, during welding, the fluctuation of the welding current is small and a clean weld bead can be formed. Further, in the embodiment, since the marker 116 provided on the guide ring 84 is detected by the limit switch 118 and input to the controller, and the machining is automatically started and ended by the controller, the machining efficiency of the pipe is significantly increased. Can be improved.

For example, S of 200A which is used in a relatively large amount
Taking GP piping as an example, in the case of the conventional (manual cutting) + (finishing with sander, groove processing), it was 10 to 20 minutes / piece, but in the case of the piping processing apparatus 10 of the example, air was used. When the plasma cutting machine was used, it was 1-2 minutes / piece, and the working time could be reduced to about 1/10. In addition, conventional manual work (elbow temporary welding (temporary attachment)) +
In the case of (whole circumference welding), it was 20 to 40 minutes / line, but in the case of the pipe processing apparatus 10 of the example, it was 10 to 20 minutes / when using the self-shielding arc welding machine.
It became a book, and we were able to greatly speed up the work. Moreover, since the pipe 20 to be processed can be automatically processed, highly accurate cutting / grooving and welding can be performed regardless of the skill of the worker.

In addition, the pipe processing apparatus 10 of the embodiment is compact and lightweight because the whole apparatus is mounted on the small carriage 12 and can be carried into a work site with a small working space.
Highly accurate processing is possible with an extremely simple structure in which cutting and welding are performed while the pipe 20 to be processed is rotated by the support roller. Further, in the embodiment, a current collecting terminal 120 for grounding such as plasma cutting or arc welding is used.
Since it is configured to move up and down in conjunction with the pressing roller 50, the pressing roller 50 can be set on the pipe 20 to be processed and cutting or welding grounding can be performed at the same time, and it is possible to avoid forgetting to attach the grounding. . Moreover,
In the embodiment, since the current collecting terminal 120 is held at a fixed position and the pipe 20 to be processed is rotated, twisting of the ground cable can be eliminated, and stable grounding can be performed to improve the processing stability. Can be improved.

FIG. 6 shows another embodiment.
In this embodiment, since the pipe 20 to be processed is long, the trolley 1
2 shows a method of supporting the pipe 20 to be processed when it becomes unstable if the pipe 20 to be processed is supported only by the support roller 18 provided in FIG. That is, when the pipe 20 to be processed is long, the auxiliary carriages 140a and 140b are provided in front of and behind the carriage 12.
Are arranged, and both ends of the pipe 20 to be processed are supported by these auxiliary carriages 140a and 140b.

Each of the auxiliary carriages 140a and 140b has the same structure, and each has a plurality of moving casters 142.
And has a plurality of legs 144 for stopping. Each of the auxiliary carriages 140a and 140b has a pair of support rollers 146 for rotatably supporting the pipe 20 to be processed and a manual jack 148 installed therein. These jacks 1
Reference numeral 48 has the same structure as the jack 24 provided on the carriage 12 of the pipe processing apparatus 10, and has a pipe receiver 15 similar to the pipe receiver 26 provided on the jack 24. Also,
The support rollers 146 of each pair are offset so that their respective rotation axes are located on the opposite sides of the axis of the pipe 20 to be processed. As described above, by using the auxiliary carts 140a and 140b, the long pipe 20 to be processed can be stably held, and danger can be prevented and highly accurate processing can be performed. It should be noted that each leg 144 may be configured to be expandable and contractable, or the leg 144 may be omitted by using a caster with a stopper.

In the above embodiment, the guide ring 84
In the above description, the case where the three ring pieces 110a to 110c are used has been described. However, the two ring pieces may be used, or four or more ring pieces may be used. Further, an elastic body such as rubber is attached to the inner peripheral surface of the guide ring 84 to absorb a dimensional error of the pipe 20 to be processed and improve the mountability. In the above embodiment, the case where the limit switch 118 detects the marker 116 has been described. However, the marker is made of a ferromagnetic material such as a permanent magnet or a good conductor such as aluminum, and this is magnetically or electrostatically charged. Alternatively, it may be detected electrically.

[0048]

As described above, according to the pipe processing guide ring of the present invention, it is easy to mount the pipe on the pipe to be processed, and the cutting torch is provided along the guide surface which is the front end surface of the flange portion. Alternatively, by moving the welding torch relatively in the circumferential direction of the pipe to be processed, these machining torches can be guided in the circumferential direction orthogonal to the axis of the pipe to be processed, and when cutting or welding the pipe, the torch piping It is possible to prevent fluctuations in the axial direction, and in the case of cutting processing, it is possible to reliably cut the pipe in a plane orthogonal to the axis, the cut surface has good orthogonality to the pipe axis, and there are few irregularities. It is possible to eliminate the deviation of the weld line.

In the pipe processing method of the present invention, since the pipe to be processed is rotated and processed while holding the processing torch constant, for example, the pipe to be processed is rotated by the roller supporting the pipe to be processed. Since it is possible to simplify the rotating mechanism and to hold the torch at a fixed position from the guide surface of the guide ring and the surface of the pipe to be processed, the cutting dimension error due to the fluctuation of the torch is eliminated, In addition, it is possible to prevent the welding line from being misaligned and to improve the accuracy of cutting and welding.

Further, in the pipe welding apparatus of the present invention,
Since the torch mounting part can move in the axial direction of the pipe together with the ring copying part of the copying unit, by pressing the ring copying part against the guide surface of the guide ring attached to the pipe to be processed and rotating the pipe. , It is possible to move the torch mounting part relatively in the pipe circumferential direction while preventing the pipe to be processed from changing in the axial direction, and to reliably cut or weld the pipe to be processed in the plane orthogonal to the axis of the pipe. It is possible to significantly improve the processing accuracy of the pipe. Moreover, in the present invention, since the torch mounting portion moves down by its own weight and interlocks with the peripheral surface copying portion that comes into contact with the peripheral surface of the pipe to be processed, the distance between the pipe to be processed and the torch can always be kept constant. This makes it possible to avoid irregularities on the cutting surface and fluctuations in the cutting or welding current.

Further, in the present invention, since the supporting roller, the drive motor, the copying unit and the like are mounted on the carriage, the processing apparatus can be easily carried in to the work site of the piping. Since the pressing roller presses the pipe against the support roller, the pipe can be prevented from falling off the trolley, and the pipe can be securely supported even when processing the end of a long pipe to be processed. It can be held on the roller, and the supporting roller can rotate the pipe stably around the axis. Further, since the pressing roller, the copying unit, and the torch mounting portion can be swung, by retracting them from above the cart when loading or unloading the pipes, these do not become an obstacle and the loading and unloading of the pipes is facilitated. You can do it.

[Brief description of drawings]

FIG. 1 is a perspective view of a pipe processing apparatus according to an embodiment of the present invention.

FIG. 2 is a detailed explanatory diagram of a copying unit according to the embodiment.

FIG. 3 is a perspective view of a guide ring according to an embodiment.

FIG. 4 is a diagram showing a state of cutting processing of a pipe to be processed according to an embodiment.

FIG. 5 is a diagram showing a state of welding processing of the pipe to be processed according to the embodiment.

FIG. 6 is an explanatory diagram of another embodiment.

FIG. 7 is an explanatory diagram of a conventional pipe spool processing device.

[Explanation of symbols]

 10 Pipe processing device 18, 18a Support roller 20 Worked pipe 22 Drive motor 34 Hinge 36 Swiveling bracket 38 Elevating guide 40 Copying unit 42 Torch mounting part 46 Swing arm 50 Holding roller 62 Torch position adjusting mechanism 64 Rack bar 80 Copying mechanism part 82 Ring Copying part (copying roller) 84 Guide ring 86 Guide surface 90 Peripheral surface Copying part (copying ball) 92 Vertical guide 94 Horizontal guide 106 Body 108 Flange 110a-110c Ring piece 111 Hinge 112 Fastener 116 Mark 118 Limit switch

Continuation of the front page (51) Int.Cl. ⁶ Identification code Internal reference number FI Technical display area F24F 13/02 E

Claims (6)

[Claims] 1. A plurality of ring pieces each having an L-shaped cross section, each of which has a body and a flange formed at one end of the body, are openably and closably connected to each other, and can be attached and detached in the circumferential direction of a pipe to be processed. The pipe processing guide ring is characterized in that the front end surface of the flange portion is a guide surface for guiding the processing torch in the circumferential direction of the pipe to be processed. 2. A pipe to be processed in which a guide ring having an L-shaped cross section having a guide surface orthogonal to the axis of the pipe to be processed is mounted around the shaft to rotate the pipe to be processed, and the processing torch is moved to the axis of the pipe to be processed. A pipe for cutting or welding the pipe to be processed while holding the pipe in a predetermined position with respect to the guide surface of the guide ring and holding the pipe at a predetermined distance from the surface of the pipe to be processed. Processing method. 3. A guide ring provided with a plurality of support rollers for supporting the pipe to be processed and rotating about an axis, and a guide surface mounted on the peripheral surface of the pipe to be processed, the guide surface being along the circumferential direction of the pipe to be processed. And a copying unit that is provided so as to be movable in the axial direction of the pipe to be processed and has a ring copying portion that contacts the guide surface of the guide ring, and is movable in the axial direction of the pipe to be processed integrally with the ring copying portion. And a torch attachment section. 4. The copying unit has a peripheral surface copying portion that descends by its own weight and contacts the peripheral surface of the pipe to be processed,
The pipe processing apparatus according to claim 3, wherein the torch mounting portion is vertically movable integrally with the peripheral surface copying portion. 5. The pipe processing apparatus according to claim 3, wherein the copying unit and the torch mounting portion are pivotable so as to be retractable from above the pipe to be processed. 6. A plurality of support rollers provided on a carriage for supporting the pipe to be processed, and a drive motor for rotationally driving at least one of the support rollers to rotate the pipe to be processed around an axis. Attached to the peripheral surface of the pipe to be processed,
A guide ring having a guide surface along the circumferential direction of the pipe to be processed, a bracket rotatably attached to a column provided on the carriage, and a bracket supported by the bracket so as to be movable in the axial direction of the pipe to be processed. A copying unit having a ring copying section that is abutted against the guide surface of the guide ring, and a peripheral copying section that is provided in the copying unit and that descends by its own weight and contacts the peripheral surface of the pipe to be processed; A torch mounting part that is attached to the unit, is movable in the axial direction of the pipe to be processed integrally with the ring copying part, and is vertically movable integrally with the peripheral surface copying part; And a pressing roller that presses the pipe to be processed against the support roller.