CN201940747U - YAG (yttrium aluminum garnet) laser and laser texturing processing device - Google Patents

Abstract

The utility model discloses a laser generating method. A mechanical modulating disk made of shading material is placed in a resonant chamber of a laser, the mechanical modulating disk is provided with at least one laser-passing part for a laser optic axis to pass through, and the rotate speed of the mechanical modulating disk is controlled so that the laser can output in the form of a series of pulses within the time delta t through Q modulation compression in the modulation period T. A YAG (yttrium aluminum garnet) laser and a laser texturing processing device for realizing the method are provided. The YAG laser and the laser texturing processing device have the advantages of high average power, high single pulse energy, high repeat frequency and the like, can process thicker roll-like materials and generate deeper texturing points and surface roughness when being applied to laser texturing so as to obtain higher texturing efficiency and texturing processing efficiency.

Description

A kind of YAG laser instrument and laser roughening processing unit (plant)

Technical field

The utility model belongs to surface of roller laser roughening process field, particularly relates to a kind of high power pulse string group laser generation method, YAG laser instrument and laser roughening processing unit (plant).

Background technology

Textured steel sheet has good punching performance and surperficial coating performance, it is the important raw and processed materials of extensive use in automobile, household electrical appliances, electronics and the production in light industry, the key technology of textured steel sheet production is the roller surface texturing, and laser roller texturing technology is practical and advanced a kind of texturing technology in several texturing technology (comprising shot-peening texturing, electric spark texturing and electron beam texturing) of using now.

Laser roller texturing technology mainly is divided into two big classes at present: a class is to adopt CO ₂The CO of gas laser ₂Laser roughening, another kind of is the YAG laser roughening that adopts the Nd:YAG solid state laser.

At present, the CO that has succeeded in developing and be used to produce ₂The basic principle of laser roughening device is: CO ₂The high energy continuous laser beam that laser instrument is launched is transformed into pulse laser beam through light modulation rotating disk (chopper disk); Pulse laser beam after utilizing condenser lens with conversion focuses on processed roller surface and carries out texturing; In the process, in the time of the roll rotation, laser head and optical emitting modulating system move along the roll length direction, process the small texturing hole of spirality regular distribution at roller surface.For example: the large-scale CO of laser institute of Central China University of Science and Technology development ₂Laser roller texturing process integrated system.But because this system has adopted light modulation rotating disk technology, only some laser output energy can be utilized effectively, thereby its energy utilization efficiency is not high; And complicated in mechanical structure, huge, the relative cost of equipment volume are higher.Above-mentioned CO ₂Laser roughening equipment is because capacity usage ratio is lower, so its working (machining) efficiency has been compared certain gap with electric spark texturing equipment.In recent years, based on this type of laser roughening technology of chopper disk light beam modulation principle, it mainly develops and embodies a concentrated reflection of: by the light modulation rotating disk (chopper disk) of design different structure form, to improve utilization ratio of laser energy.For example: Chinese patent " a kind of rotating disk that is used for Laser Modulation " (patent No. ZL94218749.0) and Chinese patent " beam splitting type laser roughing modulation device " (patent No. ZL200710041118.9).

In order to overcome the deficiency of above-mentioned laser roughening technology, the utility application of application number 200610018261.1 has proposed the roller surface coarsening processing method using multiheaded and device of a kind of high power laser light, and the essential characteristic of its method is: utilize high power continuous wave laser output continuous laser beam; By the polygon prism spectrophotometric device this continuous laser beam is modulated, made it be divided into K (〉=2) road pulse laser beam; Utilize the individual independently focus head of K respectively K road pulse laser beam to be focused on back output, surface of roller is carried out bull (K focus head) texturing process simultaneously, form K bar helical scanning line lattice texturing hole distribution at surface of roller.High-power laser roll class surface bull texturing process device based on the method can be realized bull texturing process, working (machining) efficiency height simultaneously; The laser energy utilizing rate height, and to laser power without limits; But this device then must further increase the quantity of focus head if will further improve working (machining) efficiency, and this can make the device complete machine structure become complicated.

With domestic and international electric spark and CO ₂The laser roughening technology is compared, and YAG laser roller texturing technology has advantages such as texturing point distribution two dimension is controlled, equipment integrated level height, good stability, particularly equips the cost performance height, is particularly suitable for medium and small steel mill and generally is suitable for.

At present the basic principle of YAG laser roughening device is: adopt the Nd:YAG laser instrument of acousto-optic Q modulation as pulse laser the source to take place, the pulse laser beam of being launched by laser instrument directly acts on processed roller surface and carries out texturing after light path system focuses on; By the rotating speed of control q-frequency and roll, realize that desired surface roughness and texturing hole distributes.For example: Inst. of Mechanics, CAS is at " laser processing device with controlled distribution texturing point that is used for the surface of roller texturing " (patent No. ZL00264774.5) of the nineties research and development, and the Nd:YAG laser instrument that adopts acousto-optic Q modulation is as light source for processing.

The advantage of this laser roughening device of YAG is: laser instrument is directly exported pulse laser, does not need outer optical path modulation, the utilization ratio of laser energy height; Laser wave length (1.06 μ m), roller surface laser absorption rate height brings high utilization ratio of laser energy equally.But its shortcoming is: though employed A-O Q-switch device has higher pulse frequency, its diffraction efficiency is limited; Therefore, when laser gain was very high, A-O Q-switch device can't provide sufficiently high loss that the vibration of laser instrument is effectively turn-offed.The above-mentioned restriction of A-O Q-switch device makes the acousto-optic Q modulation Pulse Nd: the single pulse energy of YAG laser instrument is lower, mean power is also low, thereby causes the texturing roughness limited, and production efficiency is low, particularly production efficiency is lower under higher roughness requires, and is difficult to satisfy the production needs of heavy steel rolling mill.

Another shortcoming of YAG laser roughening is acousto-optic Q modulation pulse pulsewidth very narrow (general standard acousto-optic Q modulation pulse width is 100-300ns), peak power very high (megawatt magnitude), so laser pulse reaches very high peak power density (10 after focusing on ⁷W/cm ²More than), roller surface directly is vaporized under high like this power density irradiation.Because pulse width is very narrow, so the result of laser pulses irradiate forms very shallow pit, facts have proved such bowl configurations and the roughness that is not suitable for when cold rolling shifts.

Desirable roller texturing pulse width should be in tens microsecond magnitudes, and the peak power of pulse is in a kilowatt magnitude.When shining roller surface after such pulse concentration, roller surface is melted, and the surface metal of fusing is blown the texturing hole by side-blown gas, forms a boss when result forms a pit.The hardness of this boss is very high, is particularly suitable for forming pit in surface of cold-rolled steel plate, and such pit is highly beneficial for lubricated oil storage.

The utility model proposes a kind of technical method and device, be fit to utilize YAG laser to form above-mentioned more satisfactory laser roughening pulse, and propose corresponding laser roughening device.

The utility model content

The utility model purpose provides a kind of YAG laser instrument and laser roughening processing unit (plant), obtain the more laser pulse of high-average power and single pulse energy, be used for to produce darker texturing point and surface roughness when the surface of roller laser roughening is handled, obtain higher texturing frequency and texturing process efficient.

The technical solution of the utility model is:

A kind of YAG laser instrument, comprise the resonator that constitutes by output saturating anti-mirror and total reflective mirror and place continuous pump unit in the described resonator, Nd:YAG excitable media and by the mechanical chopper of high-speed electric expreess locomotive driven rotary, described mechanical chopper is made and is placed between the mirror of chamber by light screening material, which is provided with the logical light position that at least one passes for laser beam axis simultaneously, thereby the rotating speed of control mechanical chopper make modulation period the T inner laser be compressed in the time Δ t with the output of consecutive impulse form by Q modulation, Δ t＜＜T.

A kind of YAG laser roughening processing unit (plant) comprises Optical Maser System and Digit Control Machine Tool, the workbench that drives by the translation guide rail is housed on the lathe bed of Digit Control Machine Tool and is used to install the roll workpiece and the roll rotating shaft parallel with the translation guide rail and top; Optical Maser System is housed on the workbench, and wherein Optical Maser System comprises the above-mentioned YAG laser instrument of employing, light-guiding mechanism, beam-expanding collimation system and laser roughening focus head; The mechanical chopper of described YAG laser instrument is fixed in high-speed electric expreess locomotive, and Digit Control Machine Tool is by the rotating speed of Electric Machine Control machinery chopper wheel, make modulation period the T inner laser be compressed in the time Δ t with a succession of impulse form output by the Q modulation, Δ t＜＜T; The laser beam of output focuses on roller surface through the laser roughening focus head again and carries out texturing process through light-guiding mechanism, beam-expanding collimation system.

The utility model also has following additional technical feature:

Described pulse frequency is 100Hz～100kHz

Logical light position on the described mechanical chopper specifically can be to be opened in the logical light circular hole that has tapering on the mechanical chopper; Perhaps, described logical light position also can have the otch of tapering or how much through holes of other shapes; Its tapering generally requires greater than 1: 20.

The utility model can obtain high repetition frequency by following two aspects: one, the rotary speed of mechanical chopper should be enough high, adopts the thousands of rotating speeds to tens thousand of commentaries on classics of per minute usually, and its rotating speed is controlled by Digit Control Machine Tool; Two, the light hole in the mechanical chopper is many as much as possible, has 5-100 usually.

The Modulation of YAG of burst blocks described in the utility model laser instrument mainly adopts a mechanical chopper that rotates at a high speed to realize the Q modulation of YAG laser instrument, its main operation principle is as follows: in the process of mechanical chopper rotation, when the non-logical light position on it rotates on the laser beam axis, be equivalent on laser beam axis, insert the object of an obstructed light, thereby cause laser instrument to vibrate; If provide energy by continuous pump unit this moment, so will be in the Nd:YAG excitable media accumulation energy gradually; Rotation along with mechanical chopper, when logical light position rotates on the laser beam axis, the obstructed smooth object that is equivalent to insert on the laser beam axis shifts out fast, form vibration under the gain effect of laser instrument institute's stored energy correspondence in the Nd:YAG excitable media fast, and realize the output of high-peak power short pulse.In the process of mechanical chopper rotation, non-logical light position and logical light position are alternately blocked and are passed through laser beam axis, so laser instrument is by periodic switching; If provide continuous laser energy by continuous pump unit this moment, laser instrument will be exported high repetition frequency, high-octane laser pulse so.

The Q modulation system of laser instrument adopts mechanical Q modulation in the utility model, also promptly controls the switch of laser resonant cavity vibration by high-speed electric expreess locomotive driving device chopper wheel.Under the rotating speed of chopper wheel was not very high situation, this Q-switch belonged to slow switch.The rotating speed of Digit Control Machine Tool (3) control high-speed electric expreess locomotive (105) and control the string group output of laser Q modulating frequency, Q modulation depth and pulse; Described burst blocks form for the laser in modulation period T by the Q modulation be compressed in output in the time Δ t (Δ t＜＜T), output time Δ t inner laser forms output with a succession of small-pulse effect.Δ t depends primarily on the linear velocity size and the spot diameter at mechanical chopper light hole place; As a rule, linear velocity is big more, and spot diameter is more little, and Δ t is also just more little.Therefore, can control the linear velocity of light hole or choose the ideal value that the different spot diameters that close breakpoint are obtained Δ t according to actual needs.

The Q modulator approach that the utility model proposes is particularly suitable for laser roughening.This method can be turn-offed any high-power laser generation on the one hand, therefore can be fit to the high-average power laser pulse; The speed of opening by control laser is exported thereby obtain burst blocks laser on the other hand, forms the desirable laser pulse that is suitable for laser roughening, and the pulsewidth of typical laser pulse string group is a few to tens of microsecond magnitudes, and peak power is a kilowatt magnitude.

When the logical light position on the described mechanical chopper during greater than one, these logical light positions can be circumference and be equally distributed on the mechanical chopper, this moment is when the invariablenes turning speed of mechanical chopper, the time interval of adjacent laser pulse is on all four, and the repetition rate of laser instrument output pulse is constant.When described logical light position is greater than one certainly, also can be the circumference non-equidistance is distributed on the mechanical chopper, even this moment mechanical chopper invariablenes turning speed, the pulse spacing of the adjacent pulse of laser instrument output also is inconsistent so, repetition rate is not constant.

When the power output of YAG laser instrument is very high, the thermal lensing effect of laser instrument can show particularly outstandingly, in the to a certain degree raising of meeting limit laser power down, therefore when guaranteeing laser power and stability, the chamber that should dwindle laser instrument as much as possible is long.In order to improve the mean power of laser instrument, then require the machinery dish very short from the time that shutoff carries out the transition to unlatching, therefore generally require chopper wheel to be positioned over the smaller position of hot spot in the cavity, and the rotating speed of high-speed electric expreess locomotive can not be too low.

The material of mechanical chopper described in the utility model is the light screening material with enough high mechanical properties, for example various metals, consider to reduce the rotary inertia of mechanical chopper in rotary course as far as possible the material that preferred specific gravity is little, for example aluminium or alloy aluminium.

Continuous pump unit adopts the semiconductor pumped unit of output continuously described in the utility model.The output laser beam of the Q of burst blocks described in the utility model Modulation of YAG laser instrument focuses on the roll surface of the work through light-guiding mechanism, beam-expanding collimation system and the effect of laser roughening focus head; Thereby obtain sufficiently high power density at roller surface.The focal length of described laser roughening focus head is 10～100mm.

The high power pulse string group Modulation of YAG laser roughening processing unit (plant) that the utility model provides is when concrete texturing process, the same with prior art, roll workpiece to be processed is by roll rotating shaft on the Digit Control Machine Tool and top clamping, and by roll rotating shaft driven rotary, its rotating speed is controlled by Digit Control Machine Tool.Workbench on the Digit Control Machine Tool can be done three-dimensional motion, and its point-to-point speed is controlled by Digit Control Machine Tool.Described Digit Control Machine Tool adopts existing equipment.Focus on the roll surface of the work behind the pulse laser beam process laser roughening focus head that burst blocks Q Modulation of YAG laser instrument sends and implement texturing process.Under the centralized Control of Digit Control Machine Tool breaker roll workpiece rotational frequency, mechanical chopper rotating speed and workbench point-to-point speed, described focal spot is processed to form helical scanning line lattice texturing hole at the roll surface of the work and distributes.The utility model texturing process device also can further expand, and a laser instrument is expanded to multi-station laser cooperating simultaneously, and the texturing hole that processing needing to obtain distributes.

The utility model has the advantages that:

1. the shutoff of the burst blocks Modulation of YAG laser instrument that adopts in the utility model is owing to be to realize by the non-logical light position of mechanical chopper, in fact just be equal to when laser is turned off and directly inserted a mechanical switch in laser instrument, therefore corresponding turn-off capacity almost is unlimited.This shutoff mode without any restriction, goes for superpower laser to laser power, thereby forms sufficiently high laser pulse power and laser pulse frequency.

2. the burst blocks Q Modulation of YAG laser instrument that adopts in the utility model not only has the high repetitive frequency pulsed output the same with the acousto-optic pulse tuning Q laser, and can produce simultaneously with tilting mirror and transfer Q, electric-optically Q-switched and high-peak power giant-pulse output that dye Q isopulse laser instrument is the same.Moreover, this burst blocks Q modulated laser has solved the intrinsic difficulty of present acousto-optic Q-switched pulse laser when realizing that high stable, high repetition frequency, high-peak power and high impulse energy laser pulse are exported.In sum, the utility model is high by the stability that burst blocks Q modulated laser provides, repetition rate is high, peak power is high and pulse energy is high and the short pulse laser output of pulsewidth, can process the more roller class material of deep thickness, darker texturing point and surface roughness be can produce when being applied to laser roughening, higher texturing frequency and texturing process efficient obtained.

3. the Q-switch of laser instrument belongs to slow switch in the utility model, its output Q comprises the burst blocks of being made up of a succession of small-pulse effect in modulation period, therefore laser output pulse energy height and peak power is not high especially, therefore be very beneficial for forming some small molten baths, thereby overcome acousto-optic Q modulation and electric-optically Q-switched too high and the shortcoming that roller surface is gasified of laser output pulse peak power that waits at roller surface.

4. the utility model overall structure is simple, and volume is little, can be positioned over the three-dimensional mobile working platform of Digit Control Machine Tool easily, so Optical Maser System is simplified largely.

5. in a word, the utility model overall structure is simple, and cost is low, long service life, and working stability is produced and is safeguarded easily, is highly suitable for industrial production and uses.

Description of drawings

Below in conjunction with drawings and Examples the utility model is further described:

Fig. 1 is an integral outer structural representation of the present utility model;

Fig. 2 is fixed in the schematic diagram of workbench for Optical Maser System in the utility model;

Fig. 3 is the structure principle chart of burst blocks Modulation of YAG laser instrument in the utility model;

Fig. 4 is a mechanical chopper structural representation in the utility model, and Fig. 4 (a) is a profile, and Fig. 4 (b) is a front view;

Fig. 5 is the burst blocks output map of laser instrument in the utility model;

Fig. 6 is that the utility model is cheated distribution schematic diagram in the texturing that the roll surface of the work produces;

Fig. 7 is two laser instrument parallel forms of the utility model structural representation;

Fig. 8 is Fig. 7 exemplary process effect schematic diagram.

The specific embodiment

Embodiment 1: a kind of specific embodiment that is illustrated in figure 1 as the utility model high power pulse string group Modulation of YAG laser roughening processing unit (plant), it comprises Optical Maser System and Digit Control Machine Tool 3, and workbench 303 that drives by the translation guide rail and the roll rotating shaft 301 and top 302 that is used to install roll workpiece 2 are housed on the lathe bed of described Digit Control Machine Tool 3; Described Optical Maser System is installed on workbench 303, and wherein Optical Maser System comprises burst blocks Modulation of YAG laser instrument 1, light-guiding mechanism 4, beam-expanding collimation system 5 and laser roughening focus head 6, and its structure chart that is installed on workbench as shown in Figure 2.In conjunction with shown in Figure 3, the Q of burst blocks described in present embodiment modulated laser 1 composed as follows: the resonator that constitutes by saturating anti-mirror 102 of output and total reflective mirror 103, place continuous pump unit 101 and Nd:YAG excitable media in the described resonator, and place mechanical chopper 104 and high-speed electric expreess locomotive 105 in the described resonator.Described in the present embodiment continuously pump unit 101 adopt the optical semiconductor pump unit, described mechanical chopper 104 is made by aluminum, and places continuous pump unit 101 and export between the anti-mirror 102.The rotating shaft of mechanical chopper 104 is positioned at the laser beam axis top of continuous pump unit 101 outputs, and links to each other with the output shaft of high-speed electric expreess locomotive 105, thereby can rotation at a high speed under the drive of high-speed electric expreess locomotive 105.And on mechanical chopper 104, offer two logical light cone shape circular holes that are circle distribution, and its tapering is 1: 2, these two logical optical taper holes can replace by the rotation of mechanical chopper 104 for laser beam axis and pass through.The pulse laser of burst blocks Q modulated laser 1 output collimates through beam-expanding collimation system 5 behind light-conducting system 4 again in the utility model, finally focuses on the processing roll surface by laser roughening focus head 6 and carries out texturing process.The axle center of light hole and light shaft coaxle on the described mechanical chopper, and its bore is greater than spot diameter.As shown in Figure 4,8 circular holes on the mechanical chopper evenly distribute on chopper wheel, and the tapering of each circular cone is 1: 2.

Shown in Figure 5 is Q modulated laser burst blocks output map in the utility model, the rotating speed of Digit Control Machine Tool (3) control high-speed electric expreess locomotive (105) and control the string group output of laser Q modulating frequency, Q modulation depth and pulse; Described burst blocks form for the laser in modulation period T by the Q modulation be compressed in output in the time Δ t (Δ t＜＜T), output time Δ t inner laser forms output with a succession of small-pulse effect.What given among the figure is the laser output map that each burst blocks comprises 3 small-pulse effects.The shape of the interior different small-pulse effects of described burst blocks and power is the rotary speed and the concrete control of curve high-speed electric expreess locomotive (105) control mechanical chopper (104) in time.Mainly by the linear velocity size and the decision of spot diameter size at chopper wheel light hole place, Δ t is that 2～100us is adjustable to Δ t, and for example working as chopper wheel light hole place linear velocity is 60m/s, and when spot diameter was 3mm, Δ t was approximately 50us; And work as chopper wheel light hole place linear velocity is 120m/s, and during spot diameter 3mm, Δ t is approximately 25us.Usually the scope of Q T modulation period is 50-1000us.

The operation principle of the Modulation of YAG of burst blocks described in present embodiment laser instrument 1 is as follows: in the process of mechanical chopper 104 rotations, when the non-logical light position on it rotates on the laser beam axis, be equivalent on laser beam axis, insert the object of an obstructed light, thereby cause laser instrument to vibrate; If provide energy by continuous pump unit 101 this moment, so will be in the Nd:YAG excitable media accumulation energy gradually; Rotation along with mechanical chopper 104, when logical light incision Rotating is to laser beam axis, the obstructed smooth object that is equivalent to insert on the laser beam axis shifts out fast, form vibration under the gain effect of laser instrument institute's stored energy correspondence in the Nd:YAG excitable media fast, and realize the output of high-peak power short pulse.In the process of mechanical chopper 104 rotations, non-logical light position and logical light otch alternately block and pass through laser beam axis, so laser instrument is by periodic switching; Because continuous pump unit 101 constantly provides continuous laser energy, laser instrument just will be exported constant high repetition frequency, high-octane laser pulse so simultaneously.In conjunction with Fig. 2 as can be known, behind the pulse laser beam process light-conducting system (4) of YAG laser instrument output in the present embodiment, the beam-expanding collimation system (5), focus on roller surface through laser roughening focus head (6) again, thereby can obtain very high laser energy density at roller surface.

As shown in Figure 1, present embodiment is when concrete texturing process, and the same with prior art, roll workpiece 2 to be processed is by roll rotating shaft 301 on the Digit Control Machine Tool 3 and top 302 clampings, and by roll rotating shaft 301 driven rotary, its rotating speed is by Digit Control Machine Tool 3 controls.Workbench 303 on the Digit Control Machine Tool 3 can be made two-dimensional motion, and its point-to-point speed is by Digit Control Machine Tool 3 controls; Thereby the rotating speed of mechanical chopper 104 is also controlled the Q modulating frequency of YAG laser instrument 1 by Digit Control Machine Tool control simultaneously.Described Digit Control Machine Tool 3 adopts existing equipment, for example numerically controlled lathe.The pulse laser beam that burst blocks Modulation of YAG laser instrument 1 sends is after light-guiding mechanism 4, beam-expanding collimation system 5 effects, form 1 very little focal spot by 6 focusing of laser roughening focus head and at the roll surface of the work again, texturing process is implemented on the surface of last breaker roll workpiece 2.Under the centralized Control of Digit Control Machine Tool 3 breaker roll workpiece 2 rotating speeds, mechanical chopper 104 rotating speeds and workbench 303 positions and point-to-point speed, described focal spot forms 1 helical scanning line lattice texturing hole in roll workpiece 2 Surface Machining and distributes, specifically in conjunction with shown in Figure 6, vertical dot spacing of this helical scanning line lattice requires to be made as b=50～500 μ m according to roll workpiece 2 surface roughnesses, crosswise spots separation delta X requires also to be made as 50～500 μ m according to roll workpiece 2 surface roughnesses, and helical scanning line pitch is Δ X.

The Optical Maser System structure also can further expand in the above-mentioned texturing process device, also is about to many of laser instrument expansions, and correspondingly is each laser configurations light-guiding mechanism, beam-expanding collimation system and laser roughening focus head.Wherein, the laser output power of different YAG laser instruments, Q modulating frequency and burst blocks form both can be identical, also can be different.When many high power pulse string group laser instruments are worked simultaneously, not only can require power output, Q modulating frequency and the burst blocks output form of every laser instrument of control, and can make focal spot process needed texturing dot matrix distribution shape by well-designed light path system at roller surface according to reality.When many burst blocks modulated lasers are worked with identical laser output-parallel, the efficient of its breaker roll Surface Machining is many times that the laser instrument of the equal laser output of separate unit adds man-hour, so the multi-station laser parallel operation can make working (machining) efficiency be significantly improved.

Embodiment 2: with two laser instrument parallel operations is that example illustrates it, as shown in Figure 7, the pulse laser beam that burst blocks Modulation of YAG laser instrument 111,112 sends is respectively through light-guiding mechanism 411,412, after beam-expanding collimation system 511,512 effects, form 2 very little focal spots through 611,612 focusing of laser roughening focus head and at the roll surface of the work again, texturing process is implemented on the surface of last breaker roll workpiece 2.At Digit Control Machine Tool 3 breaker roll workpiece 2 rotating speeds, mechanical chopper 1114, under the centralized Control of 1124 rotating speeds and workbench 303 positions and point-to-point speed, described focal spot forms 2 helical scanning line lattice texturing holes in roll workpiece 2 Surface Machining and distributes, specifically in conjunction with shown in Figure 6, laser instrument 111, the 112 vertical dot spacings at the helical scanning line lattice of roller surface are respectively b1, b2, mainly be to control the roll speed of mainshaft and laser instrument 111 respectively according to the requirement of roll workpiece 2 surface roughnesses, 112 q-frequency can get, and has generally speaking: b1, b2=50～500 μ m; It is a that the pulse laser beam that laser instrument 111,112 sends focuses on two helix horizontal spacings that roller surface produces through laser roughening focus head 611,612 respectively, and helical scanning line pitch is Δ X, a and Δ X can control according to the requirement of actual roll surface roughness in the real system, a=50～500 μ m generally, Δ X=100～1000 μ m.Fig. 8 is Fig. 7 exemplary process effect schematic diagram.

Certainly the foregoing description only is explanation technical conceive of the present utility model and characteristics, and its purpose is to allow the people who is familiar with this technology can understand content of the present utility model and enforcement according to this, can not limit protection domain of the present utility model with this.All equivalent transformation or modifications of doing according to the spiritual essence of the utility model main technical schemes all should be encompassed within the protection domain of the present utility model.

Claims (6)

1. YAG laser instrument, comprise the resonator that constitutes by output saturating anti-mirror and total reflective mirror and place continuous pump unit in the described resonator, Nd:YAG excitable media and by the mechanical chopper of high-speed electric expreess locomotive driven rotary, described mechanical chopper is made and is placed between the mirror of chamber by light screening material, which is provided with the logical light position that at least one passes for laser beam axis simultaneously, thereby the rotating speed of control mechanical chopper make modulation period the T inner laser be compressed in the time Δ t with the output of consecutive impulse form by Q modulation, Δ t＜＜T.

2. YAG laser instrument according to claim 1 is characterized in that, described pulse frequency is 100Hz～100kHz.

3. YAG laser instrument according to claim 1 and 2 is characterized in that, has on the described mechanical chopper more than 1 be circularly and evenly distributed and have the light hole of tapering, and its tapering was greater than 1: 20.

4. a YAG laser roughening processing unit (plant) comprises Optical Maser System and Digit Control Machine Tool, the workbench that drives by the translation guide rail is housed on the lathe bed of Digit Control Machine Tool and is used to install the roll workpiece and the roll rotating shaft parallel with the translation guide rail and top; Optical Maser System is housed on the workbench, and wherein Optical Maser System comprises the described YAG laser instrument of employing claim 1, light-guiding mechanism, beam-expanding collimation system and laser roughening focus head; The mechanical chopper of described YAG laser instrument is fixed in high-speed electric expreess locomotive, and Digit Control Machine Tool is by the rotating speed of Electric Machine Control machinery chopper wheel, make modulation period the T inner laser be compressed in the time Δ t with a succession of impulse form output by the Q modulation, Δ t＜＜T; The laser beam of output focuses on roller surface through the laser roughening focus head again and carries out texturing process through light-guiding mechanism, beam-expanding collimation system.

5. high power pulse string group Modulation of YAG laser roughening processing unit (plant) according to claim 4 is characterized in that the focal length of described laser roughening focus head is 10～100mm.

6. according to claim 4 or 5 described high power pulse string group Modulation of YAG laser roughening processing unit (plant)s, it is characterized in that described laser instrument is more than one or one.

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