CN204195231U - Multi-functional no marking pipe cutting machine - Google Patents

Abstract

Multi-functional no marking pipe cutting machine, relate to a kind of special purpose machine tool, pipe cutting machine tool forms primarily of transmission device, servo feeding device, clamping device, pneumatic facing attachment, servo pipe installation and servo turning device, its feeding chuck realizes the clamping of pipe by cylinder and loosens, when servo feeding device move backward grab pipe time, feeding chuck is relaxed, and feeding chuck is not contacted with tube surface, thus does not cause friction to scratch, make tube surface no marking to tube surface.The axial relative motion between parts can be realized by the connection of free-sliding spline and bearing pin and slip effect, the synchronous revolving of each revolving meber can be realized again.This pipe cutting machine adopts computer PLC to control, and realize long tube turning, chamfering, the processing of Pipe Cutting integrated full-automatic, and do not cause friction to scratch to tube surface, positioning precision is high, good stability, and speed is fast, high efficiency, saves artificial and production cost.

Description

Multi-functional no marking pipe cutting machine

Technical field

The utility model relates to a kind of special purpose machine tool, particularly a kind of multi-functional no marking pipe cutting machine, and product is suitable for the cutting processing of Long Circle steel pipe.

Background technology

China reform and opening-up since, national economy is increased fast, becomes the main flow of the current industrial development of China with " scientific and technical innovation, autonomous innovation ", China's industry progressively to intensive style, energy-saving and emission-reduction, the future development of low-carbon (LC).Pipe cutting machine is widely used in industrial production as pipe cutting equipment.Existing pipe cutting machine generally has two kinds of Pipe Cutting modes: one is steel pipe rotary, and cutter only does feed motion, but due to the length of steel pipe raw material longer, it rotates the vibration that sends and noise is very large, and be difficult to ensure cutting accuracy, cutter is also easy to damage; Another kind of pipe cutting machine is that steel pipe does not rotate, and cutter rotates and feeding, can cut long steel pipe, but its feed motion manually, makes feed uneven, is difficult to ensure cut quality.Along with developing rapidly of mechanization production, the requirement of people to machining product is more and more higher, existing long tube class cutting machine has not reached cash society's high speed development and has produced the needs of processing in enormous quantities, and existing cutting machine all cannot accomplish seamless cutting.In order to meet social development needs, the technical staff of R&D institution and enterprise is constantly exploring, is studying, wish the full-automatic pipe cutting machine developing a kind of superior performance, to overcome the defect that prior art exists, although make some progress, in practice, still there is the technical barrier not yet overcome.

Summary of the invention

The purpose of this utility model is to overcome above deficiency, a kind of multi-functional no marking pipe cutting machine is provided, this pipe cutting machine adopts computer PLC to control, realize long tube turning, chamfering, the processing of Pipe Cutting integrated full-automatic, and do not cause friction to scratch to tube surface, there is positioning precision high, good stability, speed is fast, high efficiency, saves artificial and cost.

The utility model solves the technical scheme that its technical problem adopts: mainly containing organic frame, motor, servo feeding device, clamping device, transmission device, pneumatic facing attachment, servo pipe installation, servo turning device, servo drive, motor is provided with in rectangular frame casing, motor output shaft is provided with drive pulley, drive pulley is connected with the driven pulley in transmission device by two V-belts, drive pulley and driven pulley are two reducing double flute Combination leather belt wheels, driven pulley is fixed on main shaft, main shaft is located at main spindle box body inside, main spindle box body is arranged on above frame, a taper roll bearing is respectively provided with in the main spindle box body grooves on two sides of main shaft two ends, main shaft is hollow shaft, inside is provided with feed pipe, feeding chuck ejector sleeve and clamping collet ejector sleeve is also provided with between main shaft and feed pipe, feeding chuck ejector sleeve is enclosed within outside feed pipe, clamping collet ejector sleeve is set in outside feeding chuck ejector sleeve, it is main shaft outside clamping collet ejector sleeve, wherein feed pipe, feeding chuck ejector sleeve and clamping collet ejector sleeve are arranged in main shaft with stepped from long to short respectively, the left part of feed pipe is provided with servo feeding device, servo feeding device is primarily of servo drive, feeding table, feed pipe, feeding cylinder cylinder body, feeding cylinder piston, feeding chuck ejector sleeve, feed clamp nose cone cover and feeding chuck are formed, servo drive is arranged on frame left end, feeding table can slide under the driving of servo drive on line slideway, the lower surface of feeding table is connected on the screw mandrel of servo drive, feeding table is provided with feeding cylinder cylinder body, feeding cylinder internal piston in feeding cylinder cylinder body is equipped with feed pipe, the right side of feeding cylinder piston is connected with feeding chuck ejector sleeve, the right side of feeding chuck ejector sleeve is connected with feed clamp nose cone cover, feeding chuck is provided with in feed clamp nose cone cover, feeding chuck is arranged on feed pipe right part, clamping device is slidably connected by free-sliding spline on the right side of servo feeding device, clamping device is fixed on main spindle box body, clamping device is primarily of clamping cylinder cylinder body, clamping cylinder piston, clamping collet ejector sleeve, clamping collet tapered sleeve and clamping collet are formed, the feeding chuck ejector sleeve that clamping cylinder cylinder body and clamping cylinder piston are located in servo feeding device is outside, the right side of clamping cylinder piston is connected with clamping collet ejector sleeve, the right side of clamping collet ejector sleeve is connected with clamping collet tapered sleeve, clamping collet is provided with in clamping collet tapered sleeve, clamping collet is arranged on the right side of feeding chuck outer, clamping collet is located in main shaft by spindle end cap seal, the upper right side of machine tool chief axis casing is provided with pneumatic facing attachment, pneumatic facing attachment mainly contains cylinder A, dovetail guide, rose reamer cutter platform, rose reamer tool rest and rose reamer and forms, rose reamer cutter platform is fixed on main spindle box body upper end, rose reamer cutter platform is provided with dovetail guide, dovetail guide is provided with rose reamer tool rest and slides thereon, be provided with twolip rose reamer below rose reamer tool rest, top is connected with cylinder A, and cylinder A is fixed on rose reamer cutter platform, frame on the right side of main spindle box body is provided with side by side servo pipe installation and servo turning device, servo pipe installation is formed primarily of servo drive, line slideway, cutting knife cutter platform, cutting knife tool rest and cutter, servo drive is arranged in frame, cutting knife cutter platform can slide under the driving of servo drive on line slideway, the lower surface of cutting knife cutter platform is connected on the screw mandrel of servo drive, on a corner of main shaft, be fixed with cutting knife tool rest at cutting knife cutter platform, cutting knife tool rest is provided with cutter, servo turning device is formed primarily of lathe tool, lathe tool tool rest, dovetail guide B, servo drive, lathe tool cutter platform, cylinder B, servo drive is fixed in frame, lathe tool cutter platform can slide at servo drive on line slideway, lathe tool cutter platform upper surface is connected on the screw mandrel of servo drive, lathe tool cutter platform is provided with cylinder B and dovetail guide B, dovetail guide B is provided with lathe tool tool rest, and lathe tool tool rest is fixed with lathe tool.

Above-mentioned servo drive is made up of screw mandrel, shaft coupling and servomotor, and shaft coupling is blossom type shaft coupling, and servomotor is connected by shaft coupling with screw mandrel.

The utility model solves the know-why that its technical problem adopts: this multi-functional seamless pipe cutting machine adopts a programmable controller PLC to control, and realizes oval steel pipe turning, chamfering, the processing of Pipe Cutting integrated full-automatic.Pipe cutting machine tool forms primarily of transmission device, servo feeding device, clamping device, pneumatic facing attachment, servo pipe installation and servo turning device: the feeding cylinder piston in servo feeding device travels forward under air pressure promotes, feeding cylinder piston promotes feeding chuck ejector sleeve simultaneously and feed clamp nose cone cover travels forward, proal feed clamp nose cone cover makes feeding chuck radial contraction, thus by tube grip.After pipe is clamped, servo drive starts to drive feeding table to drive feeding cylinder cylinder body and long tube to travel forward a distance preset, and realizes the accurate feeding of pipe.After pipe cutting completes, servo feeding device starts rollback under setting program controls, and enters next feed program, circulates with this, until whole pipe is cut automatically.This feeding process feeding precisely and do not need positioner.

Clamping device is after servo feeding device is fed to setpoint distance at every turn, its clamping cylinder piston travels forward under air pressure promotes, and promote clamping collet ejector sleeve and clamping collet tapered sleeve travels forward, proal clamping collet tapered sleeve makes clamping collet radial contraction, and then by tube grip, long tube can be rotated with main shaft in cut process, and can enough clamping forces be kept.Clamping collet is after pipe is cut-off, and continue to keep clamping, until servo feeding device rollback puts in place, after feeding cylinder clamps pipe again, clamping collet just unclamps.

Drive pulley in transmission device and driven pulley are two reducing double flute Combination leather belt wheels, main shaft is driven by two V-belts by motor, driven pulley position on main shaft maintains static, changed the position of drive pulley by the position changing motor, four kinds of speed of main shaft can be realized when motor speed is constant.

Pneumatic facing attachment is arranged on the top of transmission device, start to cut off action at the cutter of servo pipe installation, and after cutting to certain depth, twolip rose reamer at a right angle is under the effect of cylinder A, along dovetail guide downward movement rapidly, realize the Double-side rounding of pipe.Pneumatic facing attachment employing SDAJ is slim, stroke adjustable cylinder, and dovetail guide realizes rectilinear motion, has the features such as overall dimension is little, good stability.

The cutter of servo pipe installation are installed on cutting knife tool rest, cutting knife tool rest is screwed on cutting knife cutter platform, cutting knife cutter platform is fixed on two line slideways, and drive cutting knife cutter platform to seesaw by the driven by servomotor screw mandrel rotation in servo drive, thus realize feed and withdrawing.Servo pipe installation adopts servo-drive to regulate feed velocity, simultaneously can at the uniform velocity feed.

Lathe tool in servo turning device is pressed on lathe tool tool rest by lever method, and lathe tool tool rest is driven by cylinder B and makes horizontal rectilinear motion along the dovetail guide B be fixed on lathe tool cutter platform, realizes crossing feed and withdrawing of lathe tool.Lathe tool cutter platform is fixed on two line slideways, and drives lathe tool cutter platform to seesaw by the driven by servomotor screw mandrel rotation in servo drive, thus realizes length feed and the withdrawing of lathe tool.

The utility model beneficial effect is: the feeding chuck of this pipe cutting machine realizes the clamping of pipe by cylinder and loosens, when servo feeding device move backward grab pipe time, feeding chuck is relaxed, feeding chuck is not contacted with tube surface, thus does not cause friction to scratch, make tube surface no marking to tube surface.The axial relative motion between parts can be realized by the connection of free-sliding spline and bearing pin and slip effect, the synchronous revolving of each revolving meber can be realized again.This pipe cutting machine adopts computer PLC to control, and realize long tube turning, chamfering, the processing of Pipe Cutting integrated full-automatic, and do not cause friction to scratch to tube surface, have positioning precision high, good stability, speed is fast, high efficiency, saves artificial and cost.If this multi-functional seamless pipe cutting machine is equipped with an automatic charging device, the full-automatic Pipe Cutting of continuous print of tens of pipes can be realized.

Accompanying drawing explanation

Here further describes the utility model in conjunction with the accompanying drawings and embodiments:

Fig. 1 is the front view of multi-functional no marking pipe cutting machine;

Fig. 2 is the top view of multi-functional no marking pipe cutting machine;

Fig. 3 is the cut-away view of multi-functional no marking pipe cutting machine;

Fig. 4 is the partial top view of multi-functional no marking pipe cutting machine;

At Fig. 1, Fig. 2, Fig. 3, in Fig. 4: 1. frame, 2. motor, 3. drive pulley, 4. servo feeding device, 5. clamping device, 6. transmission device, 7. pneumatic facing attachment, 8. servo pipe installation, 9. servo turning device, 10. servo drive, 11 feeding tables, 12. feed pipes, 13. feeding cylinder cylinder bodies, 14. feeding cylinder pistons, 15. free-sliding splines, 16. feeding chuck ejector sleeves, 17. clamping cylinder cylinder bodies, 18. clamping cylinder pistons, 19. clamping collet ejector sleeves, 20. main spindle box bodies, 21. main shafts, 22. driven pulleies, 23. feed clamp nose cone covers, 24. feeding chucks, 25. clamping collet tapered sleeves, 26. clamping collets, 27. cylinder A, 28. dovetail guides, 29. rose reamer cutter platforms, 30. rose reamer tool rests, 31. rose reamers, 32. cutter, 33. cutting knife tool rests, 34. cutting knife cutter platforms, 35. screw mandrels, 36. shaft couplings, 37. servomotors, 38. line slideways, 39. lathe tools, 40. lathe tool tool rests, 41. dovetail guide B, 42. lathe tool cutter platforms, 43. cylinder B.

Detailed description of the invention

Below in conjunction with accompanying drawing, implementation column of the present utility model is described in detail.

At Fig. 1, Fig. 2, Fig. 3, in Fig. 4, motor 2 is provided with in rectangular frame 1 casing, motor 2 output shaft is provided with drive pulley 3, drive pulley 3 is two reducing double flute Combination leather belt wheels, drive pulley 3 is connected with the driven pulley 22 in transmission device by two V-belts, four kinds of velocity transformations are realized by the position moving left and right motor 2, driven pulley 22 is identical with drive pulley 3, but installation direction is contrary, driven pulley 22 is fixed on main shaft 21, it is inner that main shaft 21 is located at main spindle box body 20, main spindle box body 20 is arranged on above frame 1, a taper roll bearing is respectively provided with in main spindle box body 20 grooves on two sides of main shaft 21 two ends, main shaft 21 is hollow shaft, inside is provided with feed pipe 12, feeding chuck ejector sleeve 16 and clamping collet ejector sleeve 19 is also provided with between main shaft 20 and feed pipe 12, feeding chuck ejector sleeve 16 is set in outside feed pipe 12, clamping collet ejector sleeve 19 is set in outside feeding chuck ejector sleeve 16, it is main shaft 21 outside clamping collet ejector sleeve 19, wherein feed pipe 12, feeding chuck ejector sleeve 16 and clamping collet ejector sleeve 19 are arranged in main shaft 21 with stepped from long to short respectively, the left part of feed pipe 12 is provided with servo feeding device 4, servo feeding device 4 is primarily of servo drive 10, feeding table 11, feed pipe 12, feeding cylinder cylinder body 13, feeding cylinder piston 14, feeding chuck ejector sleeve 16, feed clamp nose cone cover 23 and feeding chuck 24 are formed, servo drive 10 is arranged on frame 1 left end, servo drive 10 drives feeding table to slide on line slideway, the lower surface of feeding table 11 is connected on the screw mandrel 35 of servo drive 10, feeding table 11 is provided with feeding cylinder cylinder body 13, feeding cylinder piston 14 inside in feeding cylinder cylinder body 13 is equipped with feed pipe 12, the right side of feeding cylinder piston 14 is connected with feeding chuck ejector sleeve 16, the right side of feeding chuck ejector sleeve 16 is connected with feed clamp nose cone cover 23, feeding chuck 24 is provided with in feed clamp nose cone cover 23, feeding chuck 24 is arranged on feed pipe 12 right part, clamping device 5 is slidably connected by free-sliding spline 15 on the right side of servo feeding device 4, ensure all pipe synchronous axial system, clamping device 5 is fixed on main shaft 21 casing, clamping device 5 is primarily of clamping cylinder cylinder body 17, clamping cylinder piston 18, clamping collet ejector sleeve 19, clamping collet tapered sleeve 25 and clamping collet 26 are formed, the feeding chuck ejector sleeve 16 that clamping cylinder cylinder body 17 and clamping cylinder piston 18 are located in servo feeding device 4 is outside, the right side of clamping cylinder piston 18 is connected with clamping collet ejector sleeve 19, the right side of clamping collet ejector sleeve 19 is connected with clamping collet tapered sleeve 23, clamping collet 26 is provided with in clamping collet tapered sleeve 23, clamping collet 26 is arranged on the right side of feeding chuck 24 outer, clamping collet 24 is located in main shaft 21 by spindle end cap seal, the upper right side of machine tool chief axis casing 20 is provided with pneumatic facing attachment 7, pneumatic facing attachment 7 mainly contains cylinder A27, dovetail guide 28, rose reamer cutter platform 29, rose reamer tool rest 30 and rose reamer 31 and forms, rose reamer cutter platform 29 is fixed on main spindle box body 20 upper end, rose reamer cutter platform 29 is provided with dovetail guide 28, dovetail guide 28 is provided with rose reamer tool rest 30 and slides thereon, twolip rose reamer 31 (Double-side rounding to pipe can be completed) is provided with below rose reamer tool rest 30, top is connected with cylinder A27, and cylinder A27 is fixed on rose reamer cutter platform 29, frame 1 on the right side of main spindle box body 20 is provided with side by side servo pipe installation 8 and servo turning device 9, servo pipe installation 8 is primarily of servo drive 10, line slideway 38, cutting knife cutter platform 34, cutting knife tool rest 33 and cutter 32 are formed, servo drive 10 is arranged in frame 1, cutting knife cutter platform 34 can slide under the driving of servo drive 10 on line slideway 38, the lower surface of cutting knife cutter platform 34 is connected on the screw mandrel 35 of servo drive 10, on a corner of main shaft 21, cutting knife tool rest 33 is fixed with at cutting knife cutter platform 34, cutting knife tool rest 33 is provided with cutter 32, servo turning device 9 is formed primarily of lathe tool 39, lathe tool tool rest 40, dovetail guide B 41, servo drive 10, lathe tool cutter platform 42, cylinder B 43, servo drive 10 is fixed in frame 1, lathe tool cutter platform 42 can slide under the driving of servo drive 10 on line slideway, lathe tool cutter platform 42 upper surface is connected on the screw mandrel 35 of servo drive 10, lathe tool cutter platform 42 is provided with cylinder B 43 and dovetail guide B 41, dovetail guide B 41 is provided with lathe tool tool rest 40, lathe tool tool rest 40 is fixed with lathe tool 39.

Above-mentioned servo drive 10 is made up of screw mandrel 35, shaft coupling 36 and servomotor 37, and shaft coupling 36 is blossom type shaft coupling, and servomotor 37 is connected by shaft coupling 36 with screw mandrel 35.

This multi-functional seamless pipe cutting machine adopts programmable controller PLC to control, and realizes oval steel pipe turning, chamfering, the processing of Pipe Cutting integrated full-automatic.Pipe cutting machine tool forms primarily of servo feeding device 4, clamping device 5, transmission device 6, pneumatic facing attachment 7, servo pipe installation 8 and servo turning device 9: the feeding cylinder piston 14 in servo feeding device 4 travels forward under air pressure promotes, feeding cylinder piston 14 promotes feeding chuck ejector sleeve 16 simultaneously and feed clamp nose cone cover 23 travels forward, proal feed clamp nose cone cover 23 makes feeding chuck 24 radial contraction, thus by tube grip.After pipe is clamped, servo drive 10 starts to drive feeding table 11 to drive feeding cylinder cylinder body 13 and long tube to travel forward a distance preset, and realizes the accurate feeding of pipe.After pipe cutting completes, servo feeding device 4 starts rollback under setting program controls, and enters next feed program, circulates with this, until whole pipe is cut automatically.This feeding process feeding precisely and do not need positioner.

Clamping device 5 is after servo feeding device 4 is fed to setpoint distance at every turn, its clamping cylinder piston 18 travels forward under air pressure promotes, and promote clamping collet ejector sleeve 19 and clamping collet tapered sleeve 25 travels forward, proal clamping collet tapered sleeve 25 makes clamping collet 26 radial contraction, and then by tube grip, long tube can be rotated with main shaft 21 in cut process, and can enough clamping forces be kept.Clamping collet 26 is after pipe is cut-off, and continue to keep clamping, until servo feeding device 4 rollback puts in place, after feeding cylinder clamps pipe again, clamping collet 26 just unclamps.

Drive pulley 3 in transmission device 6 and driven pulley 22 are two reducing double flute Combination leather belt wheels, main shaft 21 is driven by two V-belts by motor 2, driven pulley 3 position on main shaft 21 maintains static, changed the position of drive pulley 3 by the position changing motor 2, four kinds of speed of main shaft can be realized when motor 2 speed is constant.

Pneumatic facing attachment 7 is arranged on the top of transmission device 6, start to cut off action at the cutter 32 of servo pipe installation 8, and after cutting to certain depth, twolip rose reamer 31 at a right angle is under the effect of cylinder A 27, along dovetail guide 28 downward movement rapidly, realize the Double-side rounding of pipe.Pneumatic facing attachment 7 adopts that SDAJ is slim, stroke adjustable cylinder, and dovetail guide realizes rectilinear motion, has the features such as overall dimension is little, good stability.

The cutter 32 of servo pipe installation 8 are installed on cutting knife tool rest 33, cutting knife tool rest 33 is screwed on cutting knife cutter platform 34, cutting knife cutter platform 34 is fixed on two line slideways 38, and drive screw mandrel 35 rotation to drive cutting knife cutter platform 34 to seesaw by the servomotor 37 in servo drive 10, thus realize feed and withdrawing.Servo pipe installation 8 adopts servo-drive to regulate feed velocity, simultaneously can at the uniform velocity feed.

Lathe tool 39 in servo turning device 9 is pressed on lathe tool tool rest 40 by lever method, lathe tool tool rest 40 is driven by cylinder B 43 and makes horizontal rectilinear motion along the dovetail guide B 41 be fixed on lathe tool cutter platform 42, realizes crossing feed and withdrawing of lathe tool 39.Lathe tool cutter platform 42 is fixed on two line slideways, and drives screw mandrel 35 rotation to drive lathe tool cutter platform 42 to seesaw by the servomotor 37 in servo drive 10, thus realizes length feed and the withdrawing of lathe tool 39 cutter.

When a long tube is loaded into feed pipe 12, and after arriving an appropriate location through feeding chuck 24 and clamping collet 26, press and manually cut button, cut away tube end burr, then press surface trimming button, enter automatic pipe cutting circulation, until whole pipe is cut automatically.

Claims (2)

1. multi-functional no marking pipe cutting machine, main containing organic frame, motor, servo feeding device, clamping device, transmission device, pneumatic facing attachment, servo pipe installation, servo turning device, servo drive, it is characterized in that: in rectangular frame casing, be provided with motor, motor output shaft is provided with drive pulley, drive pulley is connected with the driven pulley in transmission device by two V-belts, drive pulley and driven pulley are two reducing double flute Combination leather belt wheels, driven pulley is fixed on main shaft, main shaft is located at main spindle box body inside, main spindle box body is arranged on above frame, a taper roll bearing is respectively provided with in the main spindle box body grooves on two sides of main shaft two ends, main shaft is hollow shaft, inside is provided with feed pipe, feeding chuck ejector sleeve and clamping collet ejector sleeve is also provided with between main shaft and feed pipe, feeding chuck ejector sleeve is enclosed within outside feed pipe, clamping collet ejector sleeve is set in outside feeding chuck ejector sleeve, it is main shaft outside clamping collet ejector sleeve, wherein feed pipe, feeding chuck ejector sleeve and clamping collet ejector sleeve are arranged in main shaft with stepped from long to short respectively, the left part of feed pipe is provided with servo feeding device, servo feeding device is primarily of servo drive, feeding table, feed pipe, feeding cylinder cylinder body, feeding cylinder piston, feeding chuck ejector sleeve, feed clamp nose cone cover and feeding chuck are formed, servo drive is arranged on frame left end, feeding table can slide under the driving of servo drive on line slideway, the lower surface of feeding table is connected on the screw mandrel of servo drive, feeding table is provided with feeding cylinder cylinder body, feeding cylinder internal piston in feeding cylinder cylinder body is equipped with feed pipe, the right side of feeding cylinder piston is connected with feeding chuck ejector sleeve, the right side of feeding chuck ejector sleeve is connected with feed clamp nose cone cover, feeding chuck is provided with in feed clamp nose cone cover, feeding chuck is arranged on feed pipe right part, clamping device is slidably connected by free-sliding spline on the right side of servo feeding device, clamping device is fixed on main spindle box body, clamping device is primarily of clamping cylinder cylinder body, clamping cylinder piston, clamping collet ejector sleeve, clamping collet tapered sleeve and clamping collet are formed, the feeding chuck ejector sleeve that clamping cylinder cylinder body and clamping cylinder piston are located in servo feeding device is outside, the right side of clamping cylinder piston is connected with clamping collet ejector sleeve, the right side of clamping collet ejector sleeve is connected with clamping collet tapered sleeve, clamping collet is provided with in clamping collet tapered sleeve, clamping collet is arranged on the right side of feeding chuck outer, clamping collet is located in main shaft by spindle end cap seal, the upper right side of machine tool chief axis casing is provided with pneumatic facing attachment, pneumatic facing attachment mainly contains cylinder A, dovetail guide, rose reamer cutter platform, rose reamer tool rest and rose reamer and forms, rose reamer cutter platform is fixed on main spindle box body upper end, rose reamer cutter platform is provided with dovetail guide, dovetail guide is provided with rose reamer tool rest and slides thereon, be provided with twolip rose reamer below rose reamer tool rest, top is connected with cylinder A, and cylinder A is fixed on rose reamer cutter platform, frame on the right side of main spindle box body is provided with side by side servo pipe installation and servo turning device, servo pipe installation is formed primarily of servo drive, line slideway, cutting knife cutter platform, cutting knife tool rest and cutter, servo drive is arranged in frame, cutting knife cutter platform can slide under the driving of servo drive on line slideway, the lower surface of cutting knife cutter platform is connected on the screw mandrel of servo drive, on a corner of main shaft, be fixed with cutting knife tool rest at cutting knife cutter platform, cutting knife tool rest is provided with cutter, servo turning device is formed primarily of lathe tool, lathe tool tool rest, dovetail guide B, servo drive, lathe tool cutter platform, cylinder B, servo drive is fixed in frame, lathe tool cutter platform can slide at servo drive on line slideway, lathe tool cutter platform upper surface is connected on the screw mandrel of servo drive, lathe tool cutter platform is provided with cylinder B and dovetail guide B, dovetail guide B is provided with lathe tool tool rest, and lathe tool tool rest is fixed with lathe tool.

2. multi-functional no marking pipe cutting machine according to claim 1, it is characterized in that: described servo drive is made up of screw mandrel, shaft coupling and servomotor, shaft coupling is blossom type shaft coupling, and servomotor is connected by shaft coupling with screw mandrel.