CN115922206A - Corrugated pipe compensator flange aligning and processing tool - Google Patents

Abstract

The invention relates to the technical field of pipeline construction, in particular to a corrugated pipe compensator flange aligning and processing tool, which enables the coaxiality of flanges on two sides of a corrugated pipe to be higher, the mounting precision to be high and the reliability to be high; the welding device is fixedly arranged at the upper end of the bottom plate, and the welding gun is arranged on the welding device; still include a platform, electric turntable, three-jaw chuck A, pillar A, three-jaw chuck B, pillar B, mobile device and PLC controller, a platform fixed mounting is in the bottom plate upper end, electric turntable fixed mounting is in a bench end, three-jaw chuck A fixed mounting is at the rotation end on electric turntable upper portion, pillar A fixed mounting is on three-jaw chuck A, three-jaw chuck B is located three-jaw chuck A top, three-jaw chuck B is coaxial with three-jaw chuck A, pillar B fixed mounting is in three-jaw chuck B lower part, three-jaw chuck A is coaxial with electric turntable, pillar B installs on mobile device.

Description

Corrugated pipe compensator flange aligning and processing tool

Technical Field

The invention relates to the technical field of pipeline construction, in particular to a corrugated pipe compensator flange aligning and processing tool.

Background

A corrugated pipe compensator belongs to a compensation element. The effective expansion and contraction deformation of the working main body corrugated pipe is utilized to absorb the size change of the pipeline caused by expansion with heat and contraction with cold, or compensate the axial displacement of the pipeline, a guide pipe, a container and the like, and the corrugated pipe has wide application in the process of pipeline construction.

The existing bellows compensator on the market at present, as shown in fig. 6 of the specification, includes a screw rod, a bellows body, and flanges located at the upper and lower sides of the bellows body, where the flanges at the upper and lower sides are both provided with holes. The corrugated pipe compensator is mainly installed at the connecting part of two pipelines, and in the process of pipeline construction, in order to ensure the smoothness of the pipelines and the stability of medium conveying in the pipelines, the two pipelines to be connected are ensured to be coaxial, and the corrugated pipe compensator is respectively connected with the two pipelines through the flanges at the two sides of the corrugated pipe compensator, so that when the corrugated pipe compensator is produced, the flanges at the two sides of the corrugated pipe compensator are ensured to be coaxially aligned.

In the process of processing and connecting the corrugated pipe compensator, as shown in fig. 7 of the specification, a corrugated pipe is firstly placed on a lower flange, then the lower portion of the corrugated pipe is fixedly welded with the lower flange, then a plurality of screws are respectively inserted into a plurality of holes of the lower flange, then the screws are fixed with the lower flange by using nuts, then the upper flange is placed at the upper end of the corrugated pipe, the upper portions of the screws respectively penetrate through the plurality of holes of the upper flange, then the upper portions of the screws are fixed with the upper flange by using nuts, and then the upper flange is fixedly welded with the upper portion of the corrugated pipe.

The corrugated pipe compensator is found in the process of processing and mounting, the coaxiality of the flanges on the upper side and the lower side of the corrugated pipe compensator is ensured only by inserting a plurality of screws into the holes of the two flanges, the diameter of each hole is larger than that of the screw, so a certain frame amount can exist between the screw and the hole, the coaxiality of the flanges on the upper side and the lower side is unreliable by inserting the screw into the holes on the upper side and the lower side, the coaxiality of the flanges on the upper side and the lower side is low, the mounting precision is poor, and a tool for aligning the flanges on the upper side and the lower side to be coaxial in the process of mounting the corrugated pipe compensator is needed.

Disclosure of Invention

In order to solve the technical problems, the invention provides the corrugated pipe compensator flange alignment processing tool which enables the coaxiality of the flanges at the two sides of the corrugated pipe to be higher, the installation precision to be high and the reliability to be high.

The corrugated pipe compensator flange alignment processing tool comprises a bottom plate, a welding device and a welding gun, wherein the welding device is fixedly arranged at the upper end of the bottom plate, and the welding gun is arranged on the welding device; the support platform is fixedly arranged at the upper end of the bottom plate, the electric turntable is fixedly arranged at the upper end of the support platform, the three-jaw chuck A is fixedly arranged at the rotating end of the upper part of the electric turntable, the support column A is fixedly arranged on the three-jaw chuck A, the three-jaw chuck B is positioned above the three-jaw chuck A, the three-jaw chuck B is coaxial with the three-jaw chuck A, the support column B is fixedly arranged at the lower part of the three-jaw chuck B, the three-jaw chuck A is coaxial with the electric turntable, the support column B is arranged on the moving device, the PLC is fixedly arranged on the bottom plate, and the PLC is connected with the moving device; firstly, placing a flange plate on the lower side on a support A on a three-jaw chuck A, clamping and fixing the flange plate on the lower side through the three-jaw chuck A, enabling the flange plate on the lower side to be coaxial with the three-jaw chuck A, then placing the lower end of a corrugated pipe on the flange plate on the lower side, then fixedly welding the corrugated pipe and the flange plate on the lower side, then inserting the lower parts of a plurality of screws into a plurality of holes of the flange plate on the lower side, fixing the lower parts of the plurality of screws and the flange plate on the lower side through nuts, clamping and fixing the flange plate on the upper side through the three-jaw chuck B, enabling the flange plate on the upper side to be coaxial with the three-jaw chuck B through the three-jaw chuck B, enabling the flange plates on the upper side and the lower side to be coaxial at the moment due to the fact that the three-jaw chuck B and the three-jaw chuck A are coaxial with each other, opening the electric turntable, enabling the three-jaw chuck A to drive the flange plate on the lower side to horizontally rotate, aligning the holes on the flange plates on the upper side to be aligned through a moving device, enabling the flange plate on the upper parts of the corrugated pipe to be tightly attached to the upper parts of the welding gun, and welding gun fixing the flange plates; the flange plates on the upper side and the lower side are clamped through the three-jaw chuck B and the three-jaw chuck A, the coaxiality of the two flange plates is guaranteed, the upper flange plate and the lower flange plate are aligned, and compared with an existing installation mode, the coaxiality of the flange plates on the two sides of the corrugated pipe is higher, the installation precision is high, and the reliability is high.

Preferably, the moving device comprises a rotating device and a lifting device, the lifting device comprises a driving device, a connecting plate, a lifting plate and a sliding block, the rotating device is installed on the bottom plate, the driving device is installed on the rotating device, the driving device is used for driving the sliding block to lift, the lifting plate is fixedly installed on the sliding block, and the three-jaw chuck B is fixedly installed at the lower end of the lifting plate through the connecting plate; when the flange plate on the upper side is clamped and fixed through the three-jaw chuck B, the flange plate on the upper side is moved to the position near the bottom plate, the PLC controller is opened firstly, the PLC controller enables the rotating device to rotate, the rotating device enables the sliding block to drive the lifting plate to rotate through the lifting device, the lifting plate enables the three-jaw chuck B to move to the position right above the flange plate on the upper side through the connecting plate, then the sliding block enables the sliding block to descend through the driving device, the connecting plate enables the sliding block to drive the three-jaw chuck B to descend through the lifting plate until the three-jaw chuck B descends to be in contact with the flange plate on the lower side, then the flange plate on the lower side is clamped and fixed through the three-jaw chuck B, and then the three-jaw chuck B is moved to the initial position, and the three-jaw chuck B and the three-jaw chuck A are coaxial; it makes three-jaw chuck B can the automatic movement to the ring flange on and fixed to the ring flange centre gripping through the removal to three-jaw chuck B, has reduced the transport of staff to the ring flange, has reduced intensity of labour, convenient to use.

Preferably, the driving device comprises a disc, a plurality of groups of supporting rods, a fixing plate, a driving motor, a lead screw and a bearing, the disc is mounted on the rotating device, the plurality of groups of supporting rods are fixedly mounted at the upper end of the disc, the fixing plate is fixedly mounted at the upper ends of the plurality of groups of supporting rods, the driving motor is fixedly mounted at the upper end of the fixing plate, the upper part of the lead screw is rotatably mounted on the fixing plate, the upper part of the lead screw is connected with the output end of the driving motor, the lower part of the lead screw is rotatably mounted on the bearing, the bearing is fixedly mounted on the disc, a sliding block is vertically slidably mounted on the plurality of groups of supporting rods, and the sliding block is screwed with the lead screw; open driving motor, driving motor drives the lead screw rotation, and rotatory lead screw passes through the sliding block and makes the lifter plate height-adjusting, the lifter plate pass through the connecting plate make three-jaw chuck B height-adjusting can, through highly adjusting three-jaw chuck B, made things convenient for the lift to the upside ring flange, made things convenient for the installation to the ring flange.

Preferably, the rotating device comprises a support shaft, a first cone pulley, a second cone pulley, a rotating shaft, a support plate and a servo motor, the support shaft is rotatably mounted on the bottom plate, the disc is fixedly mounted at the upper end of the support shaft, the first cone pulley is fixedly mounted on the support shaft, the first cone pulley is meshed with the second cone pulley, the second cone pulley is fixedly mounted at the right end of the rotating shaft, the rotating shaft is rotatably mounted on the support plate, the left end of the rotating shaft is connected with the output end of the servo motor, the servo motor is fixedly mounted at the upper end of the bottom plate, and the servo motor is connected with the PLC; a servo motor is connected and switched on through a PLC (programmable logic controller), the servo motor enables a second cone pulley to enable a first cone pulley to rotate through a rotating shaft, the first cone pulley enables a disc to rotate through a supporting shaft, the disc enables a sliding block to drive a lifting plate to rotate around the supporting shaft through two groups of supporting rods, the lifting plate enables a three-jaw chuck B to rotate around the supporting shaft through a connecting plate until the three-jaw chuck B moves right above a flange plate to be installed, the three-jaw chuck B descends to be in contact with the flange plate, the flange plate is clamped and fixed, and then the three-jaw chuck B drives the flange plate to return to an initial position; through the movement of the three-jaw chuck B, the three-jaw chuck B can clamp and fix the flange plate at any position near the bottom plate, the carrying of the flange plate is reduced, and the use is convenient.

Preferably, the three-jaw chuck B and the three-jaw chuck A are both provided with rubber cushions; through the arrangement, the clamping injury of the three-jaw chuck B and the three-jaw chuck A to the flange plate is prevented, and the reliability of the three-jaw chuck B and the three-jaw chuck A in the using process is improved.

Preferably, the upper end of the supporting shaft is positioned in the center of the lower end of the disc; through the arrangement, the center of gravity of the disc is located right above the supporting shaft, so that the left part and the right part of the disc are stressed more balanced, and the reliability of the disc in the using process is improved.

Preferably, an angle display is arranged on the servo motor; through the setting, the rotating angle of the rotating shaft can be observed through the servo motor, and convenience is improved.

Preferably, the upper end of the bottom plate is provided with a high-temperature-resistant coating; through the setting, the heat resistance of the upper end of the bottom plate is improved, welding slag can fall onto the bottom plate in the process of welding the flange plate, and the damage of the welding slag with high temperature to the bottom plate is avoided.

Compared with the prior art, the invention has the beneficial effects that: the flange plates on the two sides of the corrugated pipe are higher in coaxiality, high in installation precision and high in reliability.

Drawings

FIG. 1 is a schematic illustration of an explosive structure according to the present invention;

FIG. 2 is a schematic view of an axial structure of the present invention;

FIG. 3 is a schematic view of the structure of the base plate, the servo motor, the welding device, and the like;

FIG. 4 is a schematic view showing the structure of a three-jaw chuck A and a three-jaw chuck B when holding a flange plate;

FIG. 5 is a schematic front view of the present invention;

FIG. 6 is a schematic structural view of a bellow compensator;

FIG. 7 is a schematic view of the bellows compensator when installed;

in the drawings, the reference numbers: 1. a flange plate; 2. a bellows; 3. a screw; 4. a base plate; 5. a welding device; 6. a welding gun; 7. a support platform; 8. an electric turntable; 9. a three-jaw chuck A; 10. a pillar A; 11. a three-jaw chuck B; 12. a pillar B; 13. a connecting plate; 14. a lifting plate; 15. a slider; 16. a disc; 17. a support bar; 18. a fixing plate; 19. a drive motor; 20. a lead screw; 21. a bearing; 22. a support shaft; 23. a first cone pulley; 24. a second cone; 25. a rotating shaft; 26. a support plate; 27. a servo motor.

Detailed Description

To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. The present invention may be embodied in many different forms and is not limited to the embodiments described herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

As shown in fig. 1 to 5, the corrugated pipe compensator flange alignment processing tool of the present invention includes a bottom plate 4, a welding device 5, a welding gun 6, a support table 7, an electric rotary table 8, a three-jaw chuck A9, a support column a10, a three-jaw chuck B11, a support column B12, a PLC controller, a lifting device, a connecting plate 13, a lifting plate 14, a sliding block 15, a support shaft 22, a first cone pulley 23, a second cone pulley 24, a rotating shaft 25, a support plate 26, and a servo motor 27;

welding set 5 fixed mounting is in bottom plate 4 upper end, be provided with welder 6 on welding set 5, a platform 7 fixed mounting is in bottom plate 4 upper end, electric turntable 8 fixed mounting is in a platform 7 upper end, three-jaw chuck A9 fixed mounting is in the rotation end on electric turntable 8 upper portion, pillar A10 fixed mounting is on three-jaw chuck A9, three-jaw chuck B11 is located three-jaw chuck A9 top, three-jaw chuck B11 is coaxial with three-jaw chuck A9, pillar B12 fixed mounting is in three-jaw chuck B11 lower part, three-jaw chuck A9 is coaxial with electric turntable 8, PLC controller fixed mounting is on bottom plate 4, three-jaw chuck B11 is installed on elevating gear, elevating gear installs on back shaft 22, back shaft 22 rotates and installs on bottom plate 4, first cone pulley 23 fixed mounting is on back shaft 22, first cone pulley 23 meshes with second cone pulley 24, second cone pulley 24 fixed mounting is at rotation shaft 25 right-hand member, rotation shaft 25 rotates and installs on backup pad 26, the left end of rotation shaft 25 is connected with servo motor 27's output, servo motor 27 fixed mounting is in bottom plate 4 upper end, servo motor 27 is connected with the PLC controller.

As shown in fig. 5 and fig. 2 of the specification, the lifting device includes a connecting plate 13, a lifting plate 14, a sliding block 15, a disc 16, a plurality of sets of support rods 17, a fixing plate 18, a driving motor 19, a lead screw 20 and a bearing 21, the disc 16 is fixedly mounted on the upper end of a support shaft 22, the lifting plate 14 is fixedly mounted on the sliding block 15, a three-jaw chuck B11 is fixedly mounted on the lower end of the lifting plate 14 through the connecting plate 13, the plurality of sets of support rods 17 are all fixedly mounted on the upper end of the disc 16, the fixing plate 18 is fixedly mounted on the upper end of the plurality of sets of support rods 17, the driving motor 19 is fixedly mounted on the upper end of the fixing plate 18, the upper portion of the lead screw 20 is rotatably mounted on the fixing plate 18, the upper portion of the lead screw 20 is connected with the output end of the driving motor 19, the lower portion of the lead screw 20 is rotatably mounted on the bearing 21, the bearing 21 is fixedly mounted on the disc 16, the sliding block 15 is slidably mounted on the plurality of sets of support rods 17 up and down, and the sliding block 15 is screwed with the lead screw 20.

The corrugated pipe compensator flange aligning processing tool of the invention is characterized in that when in work, firstly, a lower flange is arranged on a support A10 on a three-jaw chuck A9, then the lower flange is clamped and fixed by the three-jaw chuck A9, the lower flange is coaxial with the three-jaw chuck A9 by the three-jaw chuck A9, then the lower end of a corrugated pipe is arranged on the lower flange, then the corrugated pipe is fixedly welded with the lower flange, then the lower parts of a plurality of screws are inserted into a plurality of holes of the lower flange, then the lower parts of the screws are fixed with the lower flange by nuts, then the upper flange is moved to the vicinity of a bottom plate 4, firstly, a PLC controller is opened, the PLC controller rotates a servo motor 27, the servo motor 27 rotates a second cone wheel 24 through a rotating shaft 25 to rotate a first cone wheel 23, the first cone wheel 23 rotates a lifting device around a supporting shaft 22 through the supporting shaft 22, the lifting device enables the three-jaw chuck B11 to rotate around the supporting shaft 22 until the three-jaw chuck B11 moves to be right above a flange plate to be installed, then the three-jaw chuck B11 descends to be in contact with the flange plate, then the three-jaw chuck B11 clamps and fixes the flange plate, then the lifting device enables the three-jaw chuck B11 to drive the flange plate to ascend, then the PLC controller enables the servo motor 27 to drive the rotating shaft 25 to rotate, the rotating shaft 25 enables the supporting shaft 22 to drive the supporting shaft 22 to rotate to an initial angle through the second cone pulley 24, the supporting shaft 22 enables the three-jaw chuck B11 to return to an initial position coaxial with the three-jaw chuck A9 through the lifting device, as the three-jaw chuck B11 is coaxial with the three-jaw chuck A9 and the electric turntable 8, the flange plates on the upper side and the lower side are coaxial at the moment, the electric turntable 8 is opened, and the three-jaw chuck A9 drives the flange plate on the lower side to rotate horizontally, aligning holes on the upper flange and the lower flange, driving the flange on the upper side to descend by the three-jaw chuck B11 through the lifting device, attaching the flange on the upper side to the upper part of the corrugated pipe, respectively inserting the upper parts of the plurality of screws into the holes of the flange on the upper side, fixing the upper parts of the plurality of screws with the flange on the upper side by using nuts, and fixedly welding the upper part of the corrugated pipe with the flange on the upper side by using a welding gun 6; the flange plates on the upper side and the lower side are clamped through the three-jaw chuck B11 and the three-jaw chuck A9, the coaxiality of the two flange plates is guaranteed, the upper flange plate and the lower flange plate are aligned, and compared with an existing installation mode, the coaxiality of the flange plates on the two sides of the corrugated pipe is higher, the installation precision is high, and the reliability is high.

When the lifting device is used, the driving motor 19 is turned on, the driving motor 19 drives the screw rod 20 to rotate, the rotating screw rod 20 enables the lifting plate 14 to be adjusted in height through the sliding block 15, the lifting plate 14 enables the three-jaw chuck B11 to be adjusted in height through the connecting plate 13, the height of the three-jaw chuck B11 is adjusted, lifting of the flange plate on the upper side is facilitated, and mounting of the flange plate is facilitated. And through the removal of upside three-jaw chuck B11, can make three-jaw chuck B11 move automatically and carry out centre gripping fixed on the ring flange near bottom plate 4, reduced the transport to the ring flange, reduced intensity of labour.

When fixing welding is carried out to the ring flange of upside and bellows, at first make the ring flange of upside coaxial with the ring flange of downside, later make the ring flange of upside fixed with the screw rod, later open the three-jaw chuck B11 of upside, later the workman holds welder 6 and welds the ring flange, can open electric turntable 8 simultaneously, electric turntable 8 makes the ring flange rotatory through three-jaw chuck A9, when welding the position of ring flange difference, make the ring flange rotatory to make things convenient for workman welded angle can, the welding of staff to the ring flange has been made things convenient for, the convenience is improved.

The main functions realized by the invention are as follows:

1. the coaxiality of the flange plates on the two sides of the corrugated pipe is higher, the mounting precision is high, and the reliability is high.

2. The flange plate on the upper side can be automatically moved onto the corrugated pipe, so that the flange plate is not carried by workers, and the labor intensity is reduced.

3. When welding the ring flange, make three-jaw chuck A9 drive the ring flange rotatory through electric turntable 8, make the ring flange rotatory to make things convenient for workman welded angle can, made things convenient for the welding of staff to the ring flange, improved the convenience, electric turntable 8 can make three-jaw chuck A9 drive the ring flange of downside rotatory simultaneously, the punchhole of both sides ring flange aligns about making, and a thing is multi-purpose, has improved the utilization ratio of equipment.

According to the corrugated pipe compensator flange alignment processing tool, the installation mode, the connection mode or the arrangement mode are common mechanical modes, and the tool can be implemented as long as the beneficial effects of the tool can be achieved; the welding device 5, the welding gun 6, the electric turntable 8, the three-jaw chuck A9, the three-jaw chuck B11, the driving motor 19 and the servo motor 27 of the corrugated pipe compensator flange alignment processing tool are purchased from the market, and technical personnel in the industry only need to install and operate according to the attached application specifications, and do not need to pay creative labor of the technical personnel in the field.

All technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. In the description of the present invention, unless otherwise expressly specified or limited, the terms "disposed," "mounted," "connected," and "secured" are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integral to; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the present invention are understood as specific cases by those of ordinary skill in the art.

The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The above description is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, it is possible to make various improvements and modifications without departing from the technical principle of the present invention, and those improvements and modifications should be also considered as the protection scope of the present invention.

Claims (8)

1. A corrugated pipe compensator flange aligning and processing tool comprises a bottom plate (4), a welding device (5) and a welding gun (6), wherein the welding device (5) is fixedly arranged at the upper end of the bottom plate (4), and the welding gun (6) is arranged on the welding device (5); the device is characterized by further comprising a supporting platform (7), an electric rotating disc (8), a three-jaw chuck A (9), a support column A (10), a three-jaw chuck B (11), a support column B (12), a moving device and a PLC (programmable logic controller), wherein the supporting platform (7) is fixedly arranged at the upper end of the bottom plate (4), the electric rotating disc (8) is fixedly arranged at the upper end of the supporting platform (7), the three-jaw chuck A (9) is fixedly arranged at the rotating end of the upper part of the electric rotating disc (8), the support column A (10) is fixedly arranged on the three-jaw chuck A (9), the three-jaw chuck B (11) is positioned above the three-jaw chuck A (9), the three-jaw chuck B (11) is coaxial with the three-jaw chuck A (9), the support column B (12) is fixedly arranged at the lower part of the three-jaw chuck B (11), the three-jaw chuck A (9) is coaxial with the electric rotating disc (8), the support column B (12) is arranged on the moving device, the PLC is fixedly arranged on the bottom plate (4), and the PLC is connected with the moving device.

2. A corrugated pipe compensator flange aligning machining tool according to claim 1, wherein the moving device comprises a rotating device and a lifting device, the lifting device comprises a driving device, a connecting plate (13), a lifting plate (14) and a sliding block (15), the rotating device is installed on the bottom plate (4), the driving device is installed on the rotating device, the driving device is used for driving the sliding block (15) to lift, the lifting plate (14) is fixedly installed on the sliding block (15), and the three-jaw chuck B (11) is fixedly installed at the lower end of the lifting plate (14) through the connecting plate (13).

3. The corrugated pipe compensator flange aligning machining tool as claimed in claim 2, wherein the driving device comprises a disc (16), a plurality of sets of support rods (17), a fixing plate (18), a driving motor (19), a lead screw (20) and a bearing (21), the disc (16) is mounted on the rotating device, the plurality of sets of support rods (17) are fixedly mounted at the upper end of the disc (16), the fixing plate (18) is fixedly mounted at the upper end of the plurality of sets of support rods (17), the driving motor (19) is fixedly mounted at the upper end of the fixing plate (18), the upper portion of the lead screw (20) is rotatably mounted on the fixing plate (18), the upper portion of the lead screw (20) is connected with the output end of the driving motor (19), the lower portion of the lead screw (20) is rotatably mounted on the bearing (21), the bearing (21) is fixedly mounted on the disc (16), the sliding block (15) is vertically slidably mounted on the plurality of sets of support rods (17), and the sliding block (15) is screwed with the lead screw (20).

4. The corrugated pipe compensator flange aligning machining tool as claimed in claim 2, wherein the rotating device comprises a supporting shaft (22), a first cone pulley (23), a second cone pulley (24), a rotating shaft (25), a supporting plate (26) and a servo motor (27), the supporting shaft (22) is rotatably installed on the bottom plate (4), a disc (16) is fixedly installed at the upper end of the supporting shaft (22), the first cone pulley (23) is fixedly installed on the supporting shaft (22), the first cone pulley (23) is meshed with the second cone pulley (24), the second cone pulley (24) is fixedly installed at the right end of the rotating shaft (25), the rotating shaft (25) is rotatably installed on the supporting plate (26), the left end of the rotating shaft (25) is connected with the output end of the servo motor (27), the servo motor (27) is fixedly installed at the upper end of the bottom plate (4), and the servo motor (27) is connected with a PLC.

5. The corrugated pipe compensator flange alignment machining tool as claimed in claim 1, wherein rubber cushions are arranged on the three-jaw chuck B (11) and the three-jaw chuck A (9).

6. A bellows compensator flange alignment tooling as set forth in claim 4 wherein the upper end of the support shaft (22) is centered on the lower end of the disc (16).

7. A corrugated pipe compensator flange alignment machining tool as claimed in claim 4, characterized in that an angle display is arranged on the servo motor (27).

8. The corrugated pipe compensator flange alignment machining tool as set forth in claim 1, wherein the upper end of the bottom plate (4) is provided with a high temperature resistant coating.

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