CN202506985U - Double-station laser micromachining equipment for thin-wall pipe - Google Patents

Abstract

The utility model provides double-station laser micromachining equipment for thin-wall pipes, which comprises two machining stations. The two machining stations are respectively used for independently machining different workpieces. Each machining station is provided with a rotating shaft, a linear shaft, a laser cutting head, an auxiliary high-pressure air supply unit, a Z-axis module, a laser generator, a collimating and beam expanding lens, an illuminating light source, a 45-degree reflecting mirror and a CCD (charge coupled device). The laser cutting head comprises a laser nozzle, a protection lens and a focusing lens. The rotating shaft comprises a motor, a coupling, a worm, a worm gear, a pull rod module, a shell, and end cover and a chuck. The pull rod module comprises a pull rod cover, a piston, a pull rod seat, a rolling bearing, a shaft sleeve and a pull rod, wherein the pull rod is a hollow structure. The double-station laser micromachining equipment for thin-wall pipes provided by the utility model has the advantages that since the equipment has two stations, two workers can be allowed to simultaneously operate on the equipment, the structure of the equipment is compact and the production cost is greatly reduced.

Description

A kind of Laser Micro-Machining equipment of double thin-wall pipes

Technical field

The utility model belongs to thin-wall pipes Laser Micro-Machining field, relates to a kind of laser process equipment, particularly a kind of Laser Micro-Machining equipment of double thin-wall pipes.

Background technology

Laser Micro-Machining is to utilize the energy of light on focus, to reach very high energy density through lens focusing back, processes by photo-thermal effect.Laser Processing does not need instrument, process velocity is fast, areal deformation is little, can process various materials.With laser beam material is carried out various processing, like punching, cutting, scribing, welding, heat treatment etc.Some has the material of metastable energy level; Under the exciting of external photon, can absorb luminous energy; Make number---the population inversion greater than the low-lying level atom of the number that is in the high level atom, if there is a branch of illumination to penetrate, it is corresponding poor that the energy of photon equals these two abilities; At this moment will produce stimulated radiation, export a large amount of luminous energy.

Laser Micro-Machining is high owing to working (machining) efficiency, the cutting residue is few, noncontact is processed, be prone to the characteristics such as automation of realization process, thereby becomes the main method of thin-wall pipes processing.

Existing thin-wall pipes Laser Micro-Machining equipment is generally single station, the form of single operation worker operation, and occupation area of equipment is big, and production efficiency is low, is unfavorable for the control of production cost.

In view of this, nowadays press for the Laser Micro-Machining equipment of the thin-wall pipes that a kind of production efficiency is high, product cost is low.

The utility model content

The purpose of the utility model is intended to solve at least one of above-mentioned technological deficiency, and it is big particularly to solve existing single station thin-wall pipes Laser Micro-Machining occupation area of equipment, and production efficiency is low, the problem that product cost is high.

For achieving the above object, the utility model provides a kind of Laser Micro-Machining equipment of double thin-wall pipes, comprise two processing stations, each processing stations is independently processed different workpiece; Each processing stations is provided with rotating shaft, linear axis, laser cutting head, auxiliary gases at high pressure air supply unit, Z axle module, laser generator, collimator and extender mirror, lighting source, 45 ° of speculums, CCD; Said laser cutting head comprises laser nozzle, protective glass, focus lamp;

Said rotating shaft comprises motor, shaft coupling, worm screw, worm gear, pull bar module, shell, end cap, chuck; Said pull bar module comprises pull bar lid, piston, draw-bar seat, rolling bearing, axle sleeve, pull bar, and pull bar is a hollow structure; One end of said shell is provided with pull bar lid, draw-bar seat, and the other end is provided with end cap; Be provided with piston, axle sleeve, rolling bearing between said pull bar lid, the draw-bar seat; The both sides of piston are respectively equipped with first air cavity, second air cavity, and first air cavity, second air cavity are respectively equipped with the gateway, charge and discharge gas through the gateway, and said gateway connects auxiliary gases at high pressure air supply unit; Said chuck is arranged at an end of pull bar, passes end cap and exposes a part; Chuck is through being screwed into the other end screwed hole of pull bar module from the end of rotating shaft near the pull bar lid; Said shaft coupling is connected the output shaft of motor with worm shaft, worm and wheel cooperates, and said worm gear and pull bar are coaxial, and worm-wheel shaft is pull rod shaft; The rotation of motor finally drives pull rod shaft and rotatablely moves;

Said rotating shaft is used for the clamping thin-wall pipes, and drives the rotation of thin-wall pipes high accuracy, and the base of rotating shaft is installed on the moving plate of linear axis, can be along the linear axis feeding; Linear axis and rotating shaft have been formed the precise 2-D motion platform of laser process equipment;

Two laser cutting heads are installed on the Z axle module separately; Two Z axle modules are installed on the benchmark respectively; Can manually perhaps be implemented in the rectilinear motion up and down of Z axle module automatically; Thereby can adjust the laser nozzle lower edge distance the most surperficial according to different tube diameters, control the Energy distribution of thin-wall pipes focal beam spot to be processed apart from thin-wall pipes, simultaneously can be in process at any time according to the variation adjustment nozzle of laser facula and the distance of processing thin-walled tube surfaces;

The laser beam that said laser generator sent forms horizontal laser beam through the collimator and extender mirror; Then the light with the lighting source emission is incident to 45 ° of speculums simultaneously; 45 ° of speculums are to the horizontal laser beam total reflection, and 45 ° of Mingguang City of contrast are anti-reflection, and laser beam impinges perpendicularly on the focus lamp; The laser beam that sees through focus lamp gathers into a minimum hot spot through protective glass in along; The thin-wall pipes surface of hot spot on processing platform makes the workpiece instant vaporization, and the auxiliary cutting gas that cooperates auxiliary gases at high pressure air supply unit to provide again blows away the metal of vaporizing;

Said CCD receives the light from 45 ° of mirror reflects, and CCD focuses on situation in order to when laser spot position is adjusted, to observe hot spot, in process, checks the processing situation simultaneously at any time, and to the omnidistance video recording of process;

Said little process equipment also comprises the control system; Said control system comprises the motion control unit that is used to control two linear axis, rotating shaft and Z axle modules on the processing stations, and the laser controlling unit that is used to control laser generator; Said control system is connected with linear axis, rotating shaft, Z axle module, laser generator, CCD.

In an embodiment of the utility model, the two-dimension moving platform of two processing stations is installed in respectively on the benchmark that the natural granite material makes; This two-dimension moving platform collector material clamping and material processed adopt high-resolution gration chi and high-precision encoder position feedback to realize the control of full cut-off ring in one; Said two Z axle modules are installed in respectively on the benchmark of natural granite.

In an embodiment of the utility model, said little process equipment comprise the horizontal operation face, with the vertically disposed column of horizontal operation face; The two-dimension moving platform of two processing stations is installed in respectively on the horizontal operation face, and two Z axle modules are installed on the column respectively.

In an embodiment of the utility model, the control of said control system is integrated in one, and perhaps comprises two sub-control systems, controls two linear axis, rotating shaft, Z axle module, laser generators on the processing stations respectively.

In an embodiment of the utility model, said control system is installed in the PC or is installed in the hand-held mobile terminal, and PC or hand-held mobile terminal are connected with linear axis, rotating shaft, Z axle module, laser generator, CCD through the control cable.

In an embodiment of the utility model, said piston comprises cover in piston bush, the piston, is arranged with the sealing of 0 shape sealing ring in piston bush, the piston.

In an embodiment of the utility model, be provided with the end inner cap between said end cap and the enclosing cover; Said shaft device comprises base, and said shell is arranged on this base.

In an embodiment of the utility model, said pull bar is the hollow seamless pipe.

In an embodiment of the utility model, an end of said pull bar is provided with the pull bar knob, manually rotating rod.

In an embodiment of the utility model, said rotating shaft is inflated first air cavity when clamping tubing; High pressure gas is known from experience the pushing drawing rod module and is moved towards first direction, thereby drives shell, end inner cap and end cap together towards the first direction motion, till the outer conical surface of the internal conical surface of end cap and chuck is close to; End cap continues to cause collet to tighten up to the first direction motion, and tubing is embraced; Keep this state, tubing will be held tightly by chuck always;

In the time of need unclamping tubing; Be the inflation of second air cavity, the venting of first air cavity; Thereby gases at high pressure drive the pull bar module and promote shell, hold inner cap and end cap to move towards second direction towards the second direction motion, and then make the outer conical surface of collet and the internal conical surface of end cap be separated, and keep releasing orientation; This moment, collet relied on the elastic-restoring force of self to keep releasing orientation, and tubing is with released.

The Laser Micro-Machining equipment of the double thin-wall pipes that proposes through the utility model can allow on the equipment that two workmans operate simultaneously, and compact equipment greatly reduces production cost.Simultaneously, the utility model apparatus processing speed is fast, machining accuracy is high; And each function block design, compact conformation, interchangeability is strong, updates easily.

Aspect that the utility model is additional and advantage part in the following description provide, and part will become obviously from the following description, or recognize through the practice of the utility model.

Description of drawings

Above-mentioned and/or additional aspect of the utility model and advantage are from obviously with easily understanding becoming the description of embodiment below in conjunction with accompanying drawing, wherein:

Fig. 1 is the vertical view of the Laser Micro-Machining equipment of double thin-wall pipes;

Fig. 2 is the workbench sketch map of the Laser Micro-Machining equipment of double thin-wall pipes;

Fig. 3 is the stereogram of rotating shaft;

Fig. 4 is the cutaway view of rotating shaft critical piece.

The specific embodiment

Describe the embodiment of the utility model below in detail, the example of said embodiment is shown in the drawings, and wherein identical from start to finish or similar label is represented identical or similar elements or the element with identical or similar functions.Be exemplary through the embodiment that is described with reference to the drawings below, only be used to explain the utility model, and can not be interpreted as restriction the utility model.

In the description of the utility model; It will be appreciated that; Term " on ", the orientation of indications such as D score, " interior " or position relation be for based on orientation shown in the drawings or position relation; Only be to describe with simplifying for the ease of describing the utility model, rather than the device or the element of indication or hint indication must have specific orientation, with specific azimuth configuration and operation, therefore can not be interpreted as restriction to the utility model.

In the description of the utility model, need to prove that only if clear and definite regulation and qualification are arranged in addition, term " installation ", " connection " should be done broad understanding, for example, can be to be fixedly connected, connect integratedly, also can be to removably connect; It can be the connection of two element internals; Can be directly to link to each other, also can link to each other indirectly, for those of ordinary skill in the art, can concrete condition understand the concrete implication of above-mentioned term in the utility model through intermediary.

The main innovation part of the utility model is, has proposed to the utility model innovation a kind of Laser Micro-Machining equipment of double thin-wall pipes, and an equipment is provided with two stations, and compact equipment effectively reduces production cost.

See also Fig. 1, the Laser Micro-Machining equipment of the utility model double thin-wall pipes comprises two processing stations, and each processing stations is independently processed different workpiece; Each processing stations is provided with rotating shaft, linear axis, laser cutting head, auxiliary gases at high pressure air supply unit, Z axle module, laser generator, collimator and extender mirror, lighting source, 45 ° of speculums, CCD; Said laser cutting head comprises laser nozzle, protective glass, focus lamp.

See also Fig. 2, the utility model Laser Micro-Machining equipment also comprises horizontal table 1, is vertically installed in the column 2 on the horizontal table 1; The below of horizontal table 1 is provided with some square steel tubes 3, and square steel tube 3 belows are provided with adjusting pad pin 4, can adjust height.In the present embodiment, the two-dimension moving platform of two processing stations is installed in respectively on the horizontal operation face, and two Z axle modules are installed in respectively on the column 2.Particularly, the two-dimension moving platform with two processing stations is installed in respectively on the benchmark of natural granite material making; This two-dimension moving platform collector material clamping and material processed adopt high-resolution gration chi and high-precision encoder position feedback to realize the control of full cut-off ring in one; Said two Z axle modules are installed in respectively on the benchmark of natural granite.

In the present embodiment; The laser cutting head of two stations is installed on the Z axle module separately; Two Z axle modules are installed in respectively on the benchmark, can manually perhaps be implemented in the rectilinear motion up and down of Z axle module automatically, thereby can adjust the laser nozzle lower edge distance the most surperficial apart from thin-wall pipes according to different tube diameters; Control the Energy distribution of thin-wall pipes focal beam spot to be processed, simultaneously can be in process at any time according to the variation adjustment nozzle of laser facula and the distance of processing thin-walled tube surfaces.

The laser beam that said laser generator sent forms horizontal laser beam through the collimator and extender mirror; Then the light with the lighting source emission is incident to 45 ° of speculums simultaneously; 45 ° of speculums are to the horizontal laser beam total reflection, and 45 ° of Mingguang City of contrast are anti-reflection, and laser beam impinges perpendicularly on the focus lamp; The laser beam that sees through focus lamp gathers into a minimum hot spot through protective glass in along; The thin-wall pipes surface of hot spot on processing platform makes the workpiece instant vaporization, and the auxiliary cutting gas that cooperates auxiliary gases at high pressure air supply unit to provide again blows away the metal of vaporizing.

Said CCD receives the light from 45 ° of mirror reflects, and CCD focuses on situation in order to when laser spot position is adjusted, to observe hot spot, in process, checks the processing situation simultaneously at any time, and to the omnidistance video recording of process.

Said little process equipment also comprises the control system; Said control system comprises the motion control unit that is used to control two linear axis, rotating shaft and Z axle modules on the processing stations, and the laser controlling unit that is used to control laser generator; Said control system is connected with linear axis, rotating shaft, Z axle module, laser generator, CCD.In an embodiment of the utility model, the control of said control system is integrated in one, and perhaps comprises two sub-control systems, controls two linear axis, rotating shaft, Z axle module, laser generators on the processing stations respectively.In addition, said control system is installed in the PC or is installed in the hand-held mobile terminal, and PC or hand-held mobile terminal are connected with linear axis, rotating shaft, Z axle module, laser generator, CCD through the control cable.

See also Fig. 3, Fig. 4, below introduce the structure of rotating shaft in the present embodiment, certainly, rotating shaft can also be other shapes.Rotating shaft comprises servomotor 114, shaft coupling 116, worm screw 117, worm gear 109, pull bar module, shell 108, end inner cap 111, end cap 112, chuck 113.Said shaft device comprises base 115, and said shell 108 is arranged on this base 115.Thus, rotating shaft integral body can be fixed on the linear axis platform very easily, and integral body is convenient to (being installed on the linear axis platform) is installed, and utilizes alignment pin, can realize coarse positioning.

As shown in Figure 4; Said pull bar module comprises that pull bar lid 102, piston (comprise cover 104 in piston bush 103, the piston; Cover 104 is provided with the sealing of 0 shape sealing ring in the piston bush 103, piston), draw-bar seat 105, rolling bearing 107, axle sleeve 106, pull bar 110, pull bar 110 is the hollow jointless structure.In the present embodiment, rotating shaft is a hollow structure inside, can let pull bar 110 pass through from the centre, and the rotating shaft of hollow can be realized tubing conveying function and wet cutting operation function simultaneously.Pull bar 110 is the thin-wall seamless pipe of a hollow, adds man-hour when wetting to cut, and adopts rearmounted water guide mode: whole tubing immerses in the aqueduct, in case aqueduct is revealed, current also are in the hollow sealing chamber of pull bar, can not influence the operate as normal of motor 114.

One end of said pull bar is provided with pull bar knob 101, and manually rotating rod 110.One end of said shell 108 is provided with pull bar lid 102, draw-bar seat 105, and the other end is provided with end cap 112; Be provided with piston, axle sleeve 106, rolling bearing 107 between said pull bar lid 102, the draw-bar seat 105.The both sides of piston are respectively equipped with first air cavity 118, second air cavity, 119, the first air cavitys 118, second air cavity 119 and are respectively equipped with the gateway, charge and discharge gas through the gateway; Said chuck 113 is arranged at an end of pull bar 110, passes end cap 112 and exposes a part; Chuck 113 is through being screwed into the other end screwed hole of pull bar module from the end of rotating shaft near pull bar lid 102.Said shaft coupling 116 is connected the output shaft of motor 114 and the axle of worm screw 117, and worm screw 117 cooperates with worm gear 109, and said worm gear 109 is coaxial with pull bar 110, and worm-wheel shaft is pull rod shaft.The rotation of motor 114 finally drives pull rod shaft and rotatablely moves.

When rotating shaft clamped tubing, to 118 inflations of first air cavity, high pressure gas was known from experience the pushing drawing rod module and is moved towards first direction (like the right among Fig. 4); Thereby drive shell 108, end inner cap 111 and end cap 112 together towards the first direction motion, till the internal conical surface and the outer conical surface of chuck 113 of end cap 112 were close to, end cap 112 continuation were moved to first direction; Cause collet 113 to tighten up; Tubing is embraced, kept this state, tubing will be held tightly by chuck 113 always.In the time of need unclamping tubing; Be 119 inflations of second air cavity, 118 venting of first air cavity; Thereby gases at high pressure drive the pull bar module and promote shell 108, end inner cap 111 and end cap 112 towards second direction (like the left side among Fig. 4) motion towards the second direction motion, and then make the outer conical surface of collet 113 and the internal conical surface of end cap 112 be separated, and keep releasing orientation; This moment, the elastic-restoring force of collet 113 dependence self kept releasing orientation, and tubing is with released.In addition, adopt the sealing of 0 shape sealing ring between the air-tightness various piece in order to guarantee.

In addition, the utility model process equipment can also be provided with plural station, and promptly equipment can be operated for 3 or 3 above workmans simultaneously.

Although illustrated and described the embodiment of the utility model; For those of ordinary skill in the art; Be appreciated that under the situation of principle that does not break away from the utility model and spirit and can carry out multiple variation, modification, replacement and modification that the scope of the utility model is accompanying claims and be equal to and limit to these embodiment.

Claims (10)

1. the Laser Micro-Machining equipment of a double thin-wall pipes is characterized in that, comprises two processing stations, and each processing stations is independently processed different workpiece;

Each processing stations is provided with rotating shaft, linear axis, laser cutting head, auxiliary gases at high pressure air supply unit, Z axle module, laser generator, collimator and extender mirror, lighting source, 45 ° of speculums, CCD; Said laser cutting head comprises laser nozzle, protective glass, focus lamp;

Said rotating shaft comprises motor, shaft coupling, worm screw, worm gear, pull bar module, shell, end cap, chuck; Said pull bar module comprises pull bar lid, piston, draw-bar seat, rolling bearing, axle sleeve, pull bar, and pull bar is a hollow structure; One end of said shell is provided with pull bar lid, draw-bar seat, and the other end is provided with end cap; Be provided with piston, axle sleeve, rolling bearing between said pull bar lid, the draw-bar seat; The both sides of piston are respectively equipped with first air cavity, second air cavity, and first air cavity, second air cavity are respectively equipped with the gateway, charge and discharge gas through the gateway, and said gateway connects auxiliary gases at high pressure air supply unit; Said chuck is arranged at an end of pull bar, passes end cap and exposes a part; Chuck is through being screwed into the other end screwed hole of pull bar module from the end of rotating shaft near the pull bar lid; Said shaft coupling is connected the output shaft of motor with worm shaft, worm and wheel cooperates, and said worm gear and pull bar are coaxial, and worm-wheel shaft is pull rod shaft; The rotation of motor finally drives pull rod shaft and rotatablely moves;

Said rotating shaft is used for the clamping thin-wall pipes, and drives the rotation of thin-wall pipes high accuracy, and the base of rotating shaft is installed on the moving plate of linear axis, can be along the linear axis feeding; Linear axis and rotating shaft have been formed the precise 2-D motion platform of laser process equipment;

Two laser cutting heads are installed on the Z axle module separately; Two Z axle modules are installed on the benchmark respectively; Can manually perhaps be implemented in the rectilinear motion up and down of Z axle module automatically; Thereby can adjust the laser nozzle lower edge distance the most surperficial according to different tube diameters, control the Energy distribution of thin-wall pipes focal beam spot to be processed apart from thin-wall pipes, simultaneously can be in process at any time according to the variation adjustment nozzle of laser facula and the distance of processing thin-walled tube surfaces;

The laser beam that said laser generator sent forms horizontal laser beam through the collimator and extender mirror; Then the light with the lighting source emission is incident to 45 ° of speculums simultaneously; 45 ° of speculums are to the horizontal laser beam total reflection, and 45 ° of Mingguang City of contrast are anti-reflection, and laser beam impinges perpendicularly on the focus lamp; The laser beam that sees through focus lamp gathers into a minimum hot spot through protective glass in along; The thin-wall pipes surface of hot spot on processing platform makes the workpiece instant vaporization, and the auxiliary cutting gas that cooperates auxiliary gases at high pressure air supply unit to provide again blows away the metal of vaporizing;

Said CCD receives the light from 45 ° of mirror reflects, and CCD focuses on situation in order to when laser spot position is adjusted, to observe hot spot, in process, checks the processing situation simultaneously at any time, and to the omnidistance video recording of process;

Said little process equipment also comprises the control system; Said control system comprises the motion control unit that is used to control two linear axis, rotating shaft and Z axle modules on the processing stations, and the laser controlling unit that is used to control laser generator; Said control system is connected with linear axis, rotating shaft, Z axle module, laser generator, CCD.

2. the Laser Micro-Machining equipment of double thin-wall pipes as claimed in claim 1 is characterized in that, the two-dimension moving platform of two processing stations is installed in respectively on the benchmark that the natural granite material makes; This two-dimension moving platform collector material clamping and material processed adopt high-resolution gration chi and high-precision encoder position feedback to realize the control of full cut-off ring in one; Said two Z axle modules are installed in respectively on the benchmark of natural granite.

3. the Laser Micro-Machining equipment of double thin-wall pipes as claimed in claim 2 is characterized in that, said little process equipment comprise the horizontal operation face, with the vertically disposed column of horizontal operation face; The two-dimension moving platform of two processing stations is installed in respectively on the horizontal operation face, and two Z axle modules are installed on the column respectively.

4. the Laser Micro-Machining equipment of double thin-wall pipes as claimed in claim 1; The control of said control system is integrated in one; Perhaps comprise two sub-control systems, control two linear axis, rotating shaft, Z axle module, laser generators on the processing stations respectively.

5. like the Laser Micro-Machining equipment of the described double thin-wall pipes of one of claim 1 to 4; It is characterized in that; Said control system is installed in the PC or is installed in the hand-held mobile terminal, and PC or hand-held mobile terminal are connected with linear axis, rotating shaft, Z axle module, laser generator, CCD through the control cable.

6. like the Laser Micro-Machining equipment of the described double thin-wall pipes of one of claim 1 to 4, it is characterized in that said piston comprises cover in piston bush, the piston, wherein be arranged with the sealing of 0 shape sealing ring in piston bush, the piston.

7. like the Laser Micro-Machining equipment of the described double thin-wall pipes of one of claim 1 to 4, it is characterized in that, be provided with the end inner cap between said end cap and the enclosing cover; Said shaft device comprises base, and said shell is arranged on this base.

8. like the Laser Micro-Machining equipment of the described double thin-wall pipes of one of claim 1 to 4, it is characterized in that said pull bar is the hollow seamless pipe.

9. like the Laser Micro-Machining equipment of the described double thin-wall pipes of one of claim 1 to 4, it is characterized in that an end of said pull bar is provided with the pull bar knob, manually rotating rod.

10. like the Laser Micro-Machining equipment of the described double thin-wall pipes of one of claim 1 to 4, it is characterized in that said rotating shaft is when clamping tubing; To the inflation of first air cavity, high pressure gas cognition pushing drawing rod module is moved towards first direction, moves towards first direction together thereby drive shell, end inner cap and end cap; Till the outer conical surface of the internal conical surface of end cap and chuck is close to; End cap continues to cause collet to tighten up to the first direction motion, and tubing is embraced; Keep this state, tubing will be held tightly by chuck always;

In the time of need unclamping tubing; Be the inflation of second air cavity, the venting of first air cavity; Thereby gases at high pressure drive the pull bar module and promote shell, hold inner cap and end cap to move towards second direction towards the second direction motion, and then make the outer conical surface of collet and the internal conical surface of end cap be separated, and keep releasing orientation; This moment, collet relied on the elastic-restoring force of self to keep releasing orientation, and tubing is with released.

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