CN203031137U - Round tube shaped tracking-mode laser cutting machine - Google Patents

Round tube shaped tracking-mode laser cutting machine Download PDF

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Publication number
CN203031137U
CN203031137U CN 201220735871 CN201220735871U CN203031137U CN 203031137 U CN203031137 U CN 203031137U CN 201220735871 CN201220735871 CN 201220735871 CN 201220735871 U CN201220735871 U CN 201220735871U CN 203031137 U CN203031137 U CN 203031137U
Authority
CN
China
Prior art keywords
supporting plate
along
gripper shoe
pipe
cutting head
Prior art date
Application number
CN 201220735871
Other languages
Chinese (zh)
Inventor
王瑞延
许广军
Original Assignee
苏州领创激光科技有限公司
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Filing date
Publication date
Application filed by 苏州领创激光科技有限公司 filed Critical 苏州领创激光科技有限公司
Priority to CN 201220735871 priority Critical patent/CN203031137U/en
Application granted granted Critical
Publication of CN203031137U publication Critical patent/CN203031137U/en

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Abstract

The utility model discloses a round tube shaped tracking-mode laser cutting machine. Two tube fitting supports are arranged on two sides of an X direction of a base, a first driving device drives a transverse beam which is arranged on the base and can linearly slide along the X direction, a first bearing plate can freely linearly slide along a Y direction and is positioned on the transverse beam, a second bearing support can linearly slide along the Y direction and is positioned on the first bearing plate, a second driving device drives the second bearing plate to move, a cutting head can linearly slide along a Z direction and is positioned on the second bearing plate, a third driving device drives the cutting head to move, a support plate can freely linearly slide along the Z direction and is distantly arranged on the first bearing plate, a positioning hole is reserved along the X direction on the support plate, a sensing device on the cutting head can sense the distance between a nozzle of the cutting head and a workpiece to be processed and transmits the distance to a controller, and the controller controls the first driving device, the second driving device and the third driving device to act. The round tube shaped tracking-mode laser cutting machine has the advantages that processing of the cutting head is free of influence from workpiece deformation and swinging, processing accuracy is guaranteed, processing precision and production efficiency are improved, and rejection rate is lowered.

Description

Pipe form tracking mode laser cutting machine
Technical field
The utility model relates to a kind of pipe laser cutting machine, particularly a kind of pipe form tracking mode laser cutting machine.
Background technology
Cutting is during pipe, require cutting head to be in the top of pipe, and the extended line at its center is by the center of pipe.In the cutting process, cutting head along the tubing axis direction move, pipe then rotates around its axis.The rotary drive mechanism of pipe is positioned at an end of pipe.Because the temperature distortion in the irregular and process of tubing self, tubing far-end is when rotated swung, and can not guarantee that the cutting head center line overlaps with the pipe center.The cutting head of traditional pipe laser cutting machine can not be followed distortion and the swing of tubing, causes cutting position skew, entanglement, even product rejection.
The utility model content
In order to overcome above-mentioned defective, the utility model provides a kind of pipe form tracking mode laser cutting machine, and this pipe form tracking mode laser cutting machine can guarantee constantly that cutting head and pipe fitting to be processed are servo-actuated, guarantees machining accuracy.
The utility model for the technical scheme that solves its technical problem and adopt is: a kind of pipe form tracking mode laser cutting machine, comprise at least two pipe fitting supporters, base, crossbeam, first supporting plate, second supporting plate, cutting head, gripper shoe, controller and first, two, three drive units, if orthogonal three directions are respectively directions X, Y-direction and Z direction, and the Z direction is vertical direction, described two pipe fitting supporters that are used for support pipe fitting to be processed are fixed positioned in base along the both sides of directions X, base is provided with can be along the crossbeam of directions X linear reciprocation slip, first drive unit is fixed on the base, first drive unit drives crossbeam and moves along directions X, first supporting plate can slide along the free linear reciprocation of Y-direction and be positioned on the crossbeam, second supporting plate can slide along the Y-direction linear reciprocation and be positioned on first supporting plate, second drive unit is fixed on first supporting plate, and second drive unit drives second supporting plate in the first supporting plate upper edge Y-direction motion, cutting head can slide along Z direction linear reciprocation and be positioned on second supporting plate, the 3rd drive unit is fixed on second supporting plate, and the 3rd drive unit drives cutting head in the second supporting plate upper edge Z direction motion, gripper shoe can be free to slide setpoint distance along the Z direction and be positioned on first supporting plate, described gripper shoe is provided with the locating hole that wears the location along the confession of directions X pipe fitting to be processed, described cutting head is positioned at directly over the gripper shoe, described cutting head is provided with an induction installation, this induction installation can be responded between the nozzle of cutting head and the pipe fitting to be processed distance and be messaging in controller, described controller control first, two, the action of three drive units.
As further improvement of the utility model, gripper shoe be provided with extend in the locating hole along the support push rod of Z direction with along first and second localization handspike of Y-direction, described first and second localization handspike respectively can be flexible along its axial elasticity, the support push rod extend into the interior length of locating hole and can regulate, and the axis that supports push rod and first and second localization handspike respectively with gripper shoe on the locating hole intersect vertical axis, first and second localization handspike is symmetrically distributed in the locating hole both sides along Y-direction.
As further improvement of the utility model, the end that described first and second localization handspike and support push rod are positioned at locating hole is respectively equipped with multi-directional ball.
As further improvement of the utility model, described first and second localization handspike can be respectively along the flexible structure of its axial elasticity: first and second backstay is bolted in respectively on the gripper shoe, and its end in locating hole is respectively equipped with elastic component; The support push rod extend into the structure that length can be regulated in the locating hole: support push rod and gripper shoe screw thread active link.
As further improvement of the utility model, described gripper shoe can be free to slide the structure that setpoint distance is positioned on first supporting plate along the Z direction and be: be positioned at the block that is provided with under the gripper shoe for the backstop gripper shoe on first supporting plate.
As further improvement of the utility model, described pipe fitting gripper shoe top is provided with the roller that rolls along directions X.
As further improvement of the utility model, described crossbeam slides along directions X by the 3rd guideway and is positioned on the base, first supporting plate slides along Y-direction by the 4th guideway and is positioned on the crossbeam, second supporting plate slides along Y-direction by the 5th guideway and is positioned on first supporting plate, cutting head slides along Z-direction by second guideway and is positioned on second supporting plate, and gripper shoe is slided along Z-direction by first guideway and is positioned on first supporting plate.
As further improvement of the utility model, described first drive unit comprises first motor and rack-and-pinion transmission, and described first motor is fixed on the crossbeam, and first motor-driven gear rotates, the wheel and rack engagement, and tooth bar is fixed on the base along directions X; Second drive unit comprises second motor, the first screw mandrel spiral shell and first screw, and described second motor is fixed on first supporting plate, first screw mandrel can rotational positioning on first supporting plate, first screw mandrel and first screw are spirally connected, first screw and second supporting plate are connected; The 3rd drive unit comprises the 3rd motor, second screw mandrel and second screw, and described the 3rd motor is fixed on second supporting plate, second screw mandrel can rotational positioning on second supporting plate, second screw mandrel and second screw are spirally connected, second screw and cutting head are connected.
As further improvement of the utility model, described first supporting plate is provided with a location mechanism, and this detent mechanism can make gripper shoe be connected with the first supporting plate stop.
As further improvement of the utility model, described detent mechanism is cylinder, and the cylinder body of described cylinder and first supporting plate are connected, and the piston rod of cylinder can be tight against the gripper shoe lower end.
The beneficial effects of the utility model are: the utility model is servo-actuated by cutting head and support plate and pipe fitting, guaranteed that cutting head keeps inactive state with pipe fitting all the time in the plane of vertical its axis direction, cutting head processing is not influenced by pipe fitting distortion and swing, guarantee that processing accurately, improve machining accuracy and produced efficient down, reduced scrappage.
Description of drawings
Fig. 1 is front view of the present utility model;
Fig. 2 is right view of the present utility model;
Fig. 3 is stereogram of the present utility model.
The specific embodiment
Embodiment: a kind of pipe form tracking mode laser cutting machine, comprise at least two pipe fitting supporters 15, base 1, crossbeam 2, first supporting plate 3, second supporting plate 17, cutting head 9, gripper shoe 6, controller and first, two, three drive units, if orthogonal three directions are respectively directions X, Y-direction and Z direction, and the Z direction is vertical direction, described two pipe fitting supporters 15 that are used for support pipe fitting 16 to be processed are fixed positioned in base 1 along the both sides of directions X, base 1 is provided with can be along the crossbeam 2 of directions X linear reciprocation slip, first drive unit is fixed on the base 1, first drive unit drives crossbeam 2 and moves along directions X, first supporting plate 3 can slide along the free linear reciprocation of Y-direction and be positioned on the crossbeam 2, second supporting plate 17 can slide along the Y-direction linear reciprocation and be positioned on first supporting plate 3, second drive unit is fixed on first supporting plate 3, and second drive unit drives second supporting plate 17 in the 3 upper edge Y-direction motions of first supporting plate, cutting head 9 can slide along Z direction linear reciprocation and be positioned on second supporting plate 17, the 3rd drive unit is fixed on second supporting plate 17, and the 3rd drive unit drives cutting head 9 in the 17 upper edge Z direction motions of second supporting plate, gripper shoe 6 can be free to slide setpoint distance along the Z direction and be positioned on first supporting plate 3, described gripper shoe 6 is provided with the locating hole that wears the location along the confession of directions X pipe fitting 16 to be processed, described cutting head 9 is positioned at directly over the gripper shoe 6, described cutting head 9 is provided with an induction installation, this induction installation can be responded between the nozzle of cutting head 9 and the pipe fitting to be processed 16 distance and be messaging in controller, described controller control first, two, the action of three drive units, by first supporting plate 3 being free to slide along Y direction, realized that gripper shoe 6 and cutting head 9 constantly follow pipe and move along Y-direction, guarantee that cutting head 9 and tube axis remain corresponding states along Y-direction, simultaneously because they follow the pipe motion, gripper shoe 6 has realized that along being free to slide of Z direction the gripper shoe 6 of positioning tube constantly follows pipe and move, at cutting head 9 induction installation is set and responds to itself and pipe way distance, can be by adjusting the displacement of cutting head 9Z direction position compensation pipe Z direction, so just realized that cutting head 9 follows the pipe action constantly, at Y, the Z direction keeps relative static conditions, has guaranteed precision machining.
Gripper shoe 6 be provided with extend in the locating hole along the support push rod 8 of Z direction with along first of Y-direction, two localization handspikes 71,72, described first, two localization handspikes 71,72 respectively can be flexible along its axial elasticity, support push rod 8 extend into the interior length of locating hole and can regulate, and support push rod 8 and first, two localization handspikes 71,72 axis respectively with gripper shoe 6 on the locating hole intersect vertical axis, first, two localization handspikes 71,72 are symmetrically distributed in the locating hole both sides along Y-direction, described first, two localization handspikes 71,72 and support push rod 8 end portion supports in pipe fitting 16 peripheries to be processed, cutting head 9 axis and first, two localization handspikes 71,72 axis is in same plane, adjust first, two localization handspikes 71,72 position makes cutting head 9 axis through the axis of pipe fitting 16 to be processed, adjust and support the position that push rod 8 can be adjusted pipe fitting 16 relative gripper shoes 6 to be processed, like this when pipe fitting 16 to be processed deforms swing, gripper shoe 6 moves freely with first supporting plate 3 along first guide rail and compensates pipe fitting 16 to be processed respectively along the distortion oscillating quantity of Z direction and Y-direction along moving freely of the 4th guide rail, makes cutting head 9 axis keep relative static with pipe fitting 16 central axis to be processed all the time; When pipe fitting 16 to be processed in the horizontal plane introversion athwart during gripper shoe 6 locating holes, first and second localization handspike 71,72 strains compensate the variable in distance amount between them, avoid first and second push rod to be subjected to huge stress damage.
Described first and second localization handspike 71,72 and support the end that push rod 8 is positioned at locating hole and be respectively equipped with multi-directional ball 14 contacts with pipe by multi-directional ball 14, and frictional force is little, and it is smooth and easy to guarantee that pipe moves, and avoids damaging tube surface.
Described first and second localization handspike 71,72 can be respectively along the flexible structure of its axial elasticity: first and second backstay is bolted in respectively on the gripper shoe 6, and its end in locating hole is respectively equipped with elastic component 13; Support push rod 8 extend into the structure that length can be regulated in the locating hole: support push rod 8 and gripper shoe 6 screw thread active links, first and second localization handspike 71,72 and to support push rod 8 also can be hydraulic cylinder or cylinder is realized the axial stretching location equally and is stretched into the function of length adjustment in the locating hole.
Described gripper shoe 6 can be free to slide the structure that setpoint distance is positioned on first supporting plate 3 along the Z direction: be positioned at the block 5 that is provided with under the gripper shoe 6 for backstop gripper shoe 6 on first supporting plate 3, limit gripper shoe 6 along Z axle move distance by block 5 backstops, prevent that it from falling down, be positioned at the block 5 that also can be provided with directly over the gripper shoe 6 for backstop gripper shoe 6 on first supporting plate 3, guarantee that upper and lower is all limited, except block 5 can also be by flexible connecting structure, as pullings such as cable wires.
Described pipe fitting gripper shoe 6 tops are provided with the roller that rolls along directions X, and itself and pipe fitting to be processed 16 support by rolling, and reduce friction.
Described crossbeam 2 slides along directions X by the 3rd guideway 101 and is positioned on the base 1; first supporting plate 3 slides along Y-direction by the 4th guideway 201 and is positioned on the crossbeam 2; second supporting plate 17 slides along Y-direction by the 5th guideway 20 and is positioned on first supporting plate 3; cutting head 9 slides along Z-direction by second guideway 10 and is positioned on second supporting plate 17; gripper shoe 6 is slided along Z-direction by first guideway 4 and is positioned on first supporting plate 3; realize the linear reciprocation slip by guide rail, guarantee that glide direction is accurate.
Described first drive unit comprises first motor and rack-and-pinion transmission, and described first motor is fixed on the crossbeam 2, and first motor-driven gear rotates, the wheel and rack engagement, and tooth bar is fixed on the base 1 along directions X; Second drive unit comprises second motor 18, first screw mandrel 19 and first screw, described second motor 18 is fixed on first supporting plate 3, first screw mandrel 19 can rotational positioning on first supporting plate 3, first screw mandrel 19 and first screw are spirally connected, first screw and second supporting plate 17 are connected; The 3rd drive unit comprises the 3rd motor 12, second screw mandrel 11 and second screw, described the 3rd motor 12 is fixed on second supporting plate 17, second screw mandrel 11 can rotational positioning on second supporting plate 17, second screw mandrel 11 and second screw are spirally connected, second screw and cutting head 9 are connected, and first, second and third drive unit all is by motor-driven herein, in addition can also be other structures, as hydraulic oil cylinder driving etc., it all is technical scheme well known to those skilled in the art.
Described first supporting plate 3 is provided with a location mechanism, and this detent mechanism can make gripper shoe 6 be connected with 3 stop of first supporting plate, and it can make gripper shoe 6 be positioned at desired location when tubing is installed, freely-movable during gripper shoe 6 work.
Described detent mechanism is cylinder, the cylinder body of described cylinder and first supporting plate 3 are connected, the piston rod of cylinder can be tight against gripper shoe 6 lower ends, certainly can also be feed screw nut pair, drive nut by screw mandrel and move along the Z direction and be tight against gripper shoe 6 lower ends, also or other holding device can realize this function.

Claims (10)

1. pipe form tracking mode laser cutting machine, it is characterized in that: comprise at least two pipe fitting supporters (15), base (1), crossbeam (2), first supporting plate (3), second supporting plate (17), cutting head (9), gripper shoe (6), controller and first, two, three drive units, if orthogonal three directions are respectively directions X, Y-direction and Z direction, and the Z direction is vertical direction, described two pipe fitting supporters (15) that are used for support pipe fitting to be processed (16) are fixed positioned in base (1) along the both sides of directions X, base (1) is provided with can be along the crossbeam (2) of directions X linear reciprocation slip, first drive unit is fixed on the base (1), first drive unit drives crossbeam (2) and moves along directions X, first supporting plate (3) can slide along the free linear reciprocation of Y-direction and be positioned on the crossbeam (2), second supporting plate (17) can slide along the Y-direction linear reciprocation and be positioned on first supporting plate (3), second drive unit is fixed on first supporting plate (3), and second drive unit drives second supporting plate (17) and moves in first supporting plate (3) upper edge Y-direction, cutting head (9) can slide along Z direction linear reciprocation and be positioned on second supporting plate (17), the 3rd drive unit is fixed on second supporting plate (17), and the 3rd drive unit drives cutting head (9) and moves in second supporting plate (17) upper edge Z direction, gripper shoe (6) can be free to slide setpoint distance along the Z direction and be positioned on first supporting plate (3), described gripper shoe (6) is provided with the locating hole that wears the location along the confession of directions X pipe fitting to be processed (16), described cutting head (9) is positioned at directly over the gripper shoe (6), described cutting head (9) is provided with an induction installation, this induction installation can be responded between the nozzle of cutting head (9) and the pipe fitting to be processed (16) distance and be messaging in controller, described controller control first, two, the action of three drive units.
2. pipe form tracking mode laser cutting machine according to claim 1, it is characterized in that: gripper shoe (6) be provided with extend in the locating hole along the support push rod (8) of Z direction with along first of Y-direction, two localization handspikes (71,72), described first, two localization handspikes (71,72) respectively can be flexible along its axial elasticity, support push rod (8) extend into the interior length of locating hole and can regulate, and support push rod (8) and first, two localization handspikes (71,72) axis is gone up locating hole intersect vertical axis, first with gripper shoe (6) respectively, two localization handspikes (71,72) be symmetrically distributed in the locating hole both sides along Y-direction.
3. pipe form tracking mode laser cutting machine according to claim 2 is characterized in that: described first and second localization handspike (71,72) and support the end that push rod (8) is positioned at locating hole and be respectively equipped with multi-directional ball (14).
4. according to claim 2 or 3 described pipe form tracking mode laser cutting machines, it is characterized in that: described first and second localization handspike (71,72) can be respectively along the flexible structure of its axial elasticity: first and second backstay is bolted in respectively on the gripper shoe (6), and its end in locating hole is respectively equipped with elastic component (13); Support push rod (8) extend into the structure that length can be regulated in the locating hole: support push rod (8) and gripper shoe (6) screw thread active link.
5. pipe form tracking mode laser cutting machine according to claim 1 is characterized in that: described gripper shoe (6) can be free to slide the structure that setpoint distance is positioned on first supporting plate (3) along the Z direction and be: be positioned at the block (5) that is provided with under the gripper shoe (6) for backstop gripper shoe (6) on first supporting plate (3).
6. pipe form tracking mode laser cutting machine according to claim 1 is characterized in that: be provided with the roller that rolls along directions X above the described pipe fitting gripper shoe (6).
7. pipe form tracking mode laser cutting machine according to claim 1, it is characterized in that: described crossbeam (2) slides along directions X by the 3rd guideway (101) and is positioned on the base (1), first supporting plate (3) slides along Y-direction by the 4th guideway (201) and is positioned on the crossbeam (2), second supporting plate (17) slides along Y-direction by the 5th guideway (20) and is positioned on first supporting plate (3), cutting head (9) slides along Z-direction by second guideway (10) and is positioned on second supporting plate (17), and gripper shoe (6) is slided along Z-direction by first guideway (4) and is positioned on first supporting plate (3).
8. according to claim 1 or 7 described pipe form tracking mode laser cutting machines, it is characterized in that: described first drive unit comprises first motor and rack-and-pinion transmission, described first motor is fixed on the crossbeam (2), first motor-driven gear rotates, the wheel and rack engagement, tooth bar is fixed on the base (1) along directions X; Second drive unit comprises second motor (18), first screw mandrel (19) and first screw, described second motor (18) is fixed on first supporting plate (3), first screw mandrel (19) can rotational positioning on first supporting plate (3), first screw mandrel (19) is spirally connected with first screw, and first screw and second supporting plate (17) are connected; The 3rd drive unit comprises the 3rd motor (12), second screw mandrel (11) and second screw, described the 3rd motor (12) is fixed on second supporting plate (17), second screw mandrel (11) can rotational positioning on second supporting plate (17), second screw mandrel (11) is spirally connected with second screw, and second screw and cutting head (9) are connected.
9. pipe form tracking mode laser cutting machine according to claim 1 is characterized in that: described first supporting plate (3) is provided with a location mechanism, and this detent mechanism can make gripper shoe (6) be connected with first supporting plate (3) stop.
10. pipe form tracking mode laser cutting machine according to claim 9, it is characterized in that: described detent mechanism is cylinder, and the cylinder body of described cylinder and first supporting plate (3) are connected, and the piston rod of cylinder can be tight against gripper shoe (6) lower end.
CN 201220735871 2012-12-27 2012-12-27 Round tube shaped tracking-mode laser cutting machine CN203031137U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN 201220735871 CN203031137U (en) 2012-12-27 2012-12-27 Round tube shaped tracking-mode laser cutting machine

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN 201220735871 CN203031137U (en) 2012-12-27 2012-12-27 Round tube shaped tracking-mode laser cutting machine

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Publication Number Publication Date
CN203031137U true CN203031137U (en) 2013-07-03

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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103231174A (en) * 2012-12-27 2013-08-07 苏州领创激光科技有限公司 Circular tube form tracking laser cutting machine
CN103495808A (en) * 2013-10-10 2014-01-08 天津华今集团有限公司 Automatic laser cutting device of circular weaving tail pipe
CN107052591A (en) * 2017-04-19 2017-08-18 江苏尤尼特激光智能装备有限公司 A kind of brand-new metal pipe material laser cutting device
CN108838557A (en) * 2018-06-27 2018-11-20 伯纳激光科技有限公司 The cutting process method at CNC controlling party tube edge angle
CN110253139A (en) * 2019-06-28 2019-09-20 南京德荣包装制品有限公司 A kind of abnormity cutting machine and cutting method

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103231174A (en) * 2012-12-27 2013-08-07 苏州领创激光科技有限公司 Circular tube form tracking laser cutting machine
CN103231174B (en) * 2012-12-27 2015-04-22 苏州领创激光科技有限公司 Circular tube form tracking laser cutting machine
CN103495808A (en) * 2013-10-10 2014-01-08 天津华今集团有限公司 Automatic laser cutting device of circular weaving tail pipe
CN107052591A (en) * 2017-04-19 2017-08-18 江苏尤尼特激光智能装备有限公司 A kind of brand-new metal pipe material laser cutting device
CN108838557A (en) * 2018-06-27 2018-11-20 伯纳激光科技有限公司 The cutting process method at CNC controlling party tube edge angle
CN110253139A (en) * 2019-06-28 2019-09-20 南京德荣包装制品有限公司 A kind of abnormity cutting machine and cutting method

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Granted publication date: 20130703

Effective date of abandoning: 20150422