CN104107979A - Roller surface laser texturing and enhancing integrated machining device - Google Patents

Abstract

The invention discloses a roller surface laser texturing and enhancing integrated machining device. The roller surface laser texturing and enhancing integrated machining device comprises a laser device and a numerical control machine tool. A texturing platform is arranged on a body of the numerical control machine tool, a first reflecting mirror, a second reflecting mirror, a semi-transmitting semi-reflecting mirror, a texturing light splitting mechanism and an enhancing light splitting mechanism are arranged on the texturing platform, wherein the texturing light splitting mechanism and the enhancing light splitting mechanism are aligned with a processed roller surface. 45-degree incident angles are formed between the first reflecting mirror and laser beams emitted by the laser device, the semi-transmitting semi-reflecting mirror is located on a path of laser beams reflected by the first reflecting mirror, the second reflecting mirror is located on a path of laser beams reflected by the semi-transmitting semi-reflecting mirror, the texturing light splitting mechanism is located on a path of laser beams transmitted by the semi-transmitting semi-reflecting mirror, and the enhancing light splitting mechanism is located on a path of light beams reflected by the second reflecting mirror. According to the roller surface laser texturing and enhancing integrated machining device, laser texturing and enhancing treatment can be conducted simultaneously, abrasion resistance of a textured roller is improved, the service life of the textured roller is prolonged, production efficiency is improved, and time for texturing and enhancing the roller is shortened.

Description

Roller surface laser roughening is strengthened integrated processing unit (plant)

Technical field

The present invention relates to roller surface roughening treatment device, refer to that particularly a kind of roller surface laser roughening strengthens integrated processing unit (plant).

Background technology

In order to improve plate shape, percentage elongation, deep drawability and the coating performance of cold rolled sheet steel, need to carry out texturing process to the roll surface of cold roll, leveling roll, make roller surface form one deck salient point, then roll out the cold rolling textured steel sheet that meets the requirement of user's special process.In addition, in order to improve quality and the service life of roll, require the surface of breaker roll to quench, melt cover, the intensive treatment such as alloying so that roller surface forms the alloy-layer of one deck high-strength tenacity and high-wearing feature.

Laser roughening is to utilize the pulse laser beam of high-energy-density high repetition frequency after focusing, to incide roller surface, form small molten bath in focal spot, by side-blown device, small molten bath is imposed the assist gas of setting pressure, flow, direction simultaneously, make the fused mass in molten bath form arc cam by specify requirement to be stacked into melt tank edge as far as possible.Laser reinforcing comprises laser transformation hardening and laser melting alloying process, laser transformation hardening heat treatment is that the intense laser beam of rule is irradiated to surface of the work, within scope more than rapidly workpiece surface temperature being brought up to austenite transformation temperature, below fusing point, by the fast moving of laser beam, heated position and inside workpiece carry out heat exchange fast, make the cooling velocity of surface of the work be exceedingly fast to realize martensitic conversion, obtain superfine martensitic structure tissue.Laser melting is that powdered metallurgical material and metal base surface are become to melting state simultaneously under laser beam irradiation, solidifies rapidly simultaneously, produces new superficial layer.

Roller texturing and roll strengthening device have certain similarity, all under the effect of control system, machining tool drives roll High Rotation Speed, texturing system is along roll axially-movable, and laser beam is acted on to roller surface, but because roller texturing and strengthening require differently to laser power, spot size, process velocity are isoparametric, roller texturing and strengthening are all to complete respectively on independent or integrated equipment at present, long processing time, efficiency are low.

In order to solve respectively independently laser roughening treatment facility and the little problem of laser reinforcing treatment facility utilization rate, Chinese patent " laser strengthening-laser texturing combined machine tool " (publication number: CN201842862U) has proposed a kind of unit equipment that can carry out laser reinforcing processing or texturing processing, but its laser reinforcing is processed and laser roughening processing can not be carried out simultaneously, affects operating efficiency.Therefore, be necessary to provide a kind of equipment that can simultaneously carry out roller texturing-strengthening processing, can not only improve the wearability of texturing roller, extend its service life, thereby shortening roll changing time, enhances productivity, can also reduce the time that roll carries out texturing and strengthens processing.

Summary of the invention

Object of the present invention is exactly to provide a kind of laser roughening and intensive treatment, working (machining) efficiency roller surface laser roughening high and that make full use of laser energy that can simultaneously carry out to strengthen integrated processing unit (plant).

For achieving the above object, the designed roller surface laser roughening of the present invention is strengthened integrated processing unit (plant), comprise laser instrument and Digit Control Machine Tool, on the lathe bed of described Digit Control Machine Tool, be provided with headstock and tailstock seat, roll rotating shaft for supporting and drive processed roller rotational is installed on described headstock, on described tailstock seat, be provided with for holding out against the top of processed roll, on the lathe bed of described Digit Control Machine Tool, be also provided with the translation guide rail of arranging with roll shaft parallel, on described translation guide rail, be provided with the texturing platform being slidably matched with it, its special character is, on described texturing platform, be provided with the first speculum, the second speculum, semi-transparent semi-reflecting lens and aim at processed roller surface texturing spectrophotometric device and strengthening spectrophotometric device, the laser beam that described the first speculum and laser instrument are launched is 45 ° of incidence angles and arranges, described semi-transparent semi-reflecting lens is positioned at the first speculum and reflects on laser beam path, described the second speculum is positioned at semi-transparent semi-reflecting lens and reflects on laser beam path, described texturing spectrophotometric device is positioned on the transmission laser Shu Tonglu of semi-transparent semi-reflecting lens institute, described strengthening spectrophotometric device is positioned at the second speculum and reflects on laser beam path.

Further, described strengthening spectrophotometric device comprises copper reflective mirror, beam uniformity mirror, integral mirror and cylindrical focusing mirror, arrives processed roller surface successively from the laser beam of described the second speculum reflection through copper reflective mirror, beam uniformity mirror, integral mirror and cylindrical focusing mirror.Copper reflective mirror reduces the intensity of laser beam, and be transformed into by beam uniformity mirror the light beam that even intensity distributes, the optical beam transformation that integral mirror distributes even intensity becomes the rectangular light beam of even intensity distribution, fixed aspect ratio, and by even intensity, rectangular light beam that distribute, fixed aspect ratio is transformed into even intensity rectangular light beam that distribute, variable length-width ratio to cylindrical focusing mirror.

Further, described texturing spectrophotometric device comprises rotary driving machine, polygon prism, a k fan-shaped arranged side by side point of shaven head and k parallel focus head arranged side by side, the actuating station of described rotary driving machine drives polygon prism rotation, described polygon prism is positioned on the transmission laser Shu Tonglu of semi-transparent semi-reflecting lens institute, when described k the first correspondence of fan-shaped light splitting arranged side by side is positioned at polygon prism rotation on the reflection laser beam path at place, the individual fan-shaped arranged side by side point of bare headed position of the position of described k parallel focus head arranged side by side and k is corresponding one by one.Texturing spectrophotometric device drives polygon prism rotation that continuous laser beam is divided into k road pulse laser beam by rotary driving machine, and goes out by k fan-shaped light splitting hair arranged side by side, and after k parallel focus head arranged side by side focuses on, breaker roll carries out texturing process.

Further, described texturing spectrophotometric device involving vibrations driving machine, completely reflecting mirror, a k parallel arranged side by side point of shaven head and k parallel focus head arranged side by side, the actuating station of described vibratory drive machine drives completely reflecting mirror to vibrate in the vertical direction, described completely reflecting mirror is positioned on the transmission laser Shu Tonglu of semi-transparent semi-reflecting lens institute, when described k the first correspondence of parallel light splitting arranged side by side is positioned at completely reflecting mirror vibration on the reflection laser beam path at place, the individual parallel arranged side by side point of bare headed position of the position of described k parallel focus head arranged side by side and k is corresponding one by one.Texturing spectrophotometric device drives completely reflecting mirror vertical vibration that continuous laser beam is divided into k road pulse laser beam by vibratory drive machine, and goes out by k parallel light splitting hair arranged side by side, and after k parallel focus head arranged side by side focuses on, breaker roll carries out texturing process.

Further, quantity k=3～9 of described point of shaven head and focus head, preferably the quantity of point shaven head and focus head is 5.

Further, described focus head institute outgoing laser beam is vertical with processed roller surface.Like this, the processed roller surface of laser beam vertical irradiation, laser energy utilizing rate is higher, and processing effect is better.

Further, described laser instrument is detachably arranged on the headstock of Digit Control Machine Tool.Like this, can reduce apparatus arrangement spacing, improve the utilization ratio of laser instrument, also facilitate the replacing of laser instrument.

The process that the present invention carries out roller texturing processing is as follows: processed roll is placed in the roll rotating shaft of Digit Control Machine Tool, starts Digit Control Machine Tool, make processed roll by the rotating speed rotation of setting; Digit Control Machine Tool makes the texturing platform slippage on translation guide rail by driving mechanism simultaneously, drives texturing spectrophotometric device, strengthening spectrophotometric device and Laser Focusing mechanism along processed roll axial translation.The continuous laser beam of laser instrument output enters semi-transparent semi-reflecting lens through the first speculum, the second speculum, the part laser beam incident that enters semi-transparent semi-reflecting lens carries out texturing process to texturing spectrophotometric device breaker roll, and another laser beam incident strengthening spectrophotometric device breaker roll is strengthened processing.

The invention has the advantages that: the present invention is compared with existing texturing, strengthening device, breaker roll carries out laser roughening-strengthening processing simultaneously, improve the wearability of texturing roller, extend its service life, thereby shortening roll changing time, enhance productivity, can also shorten the time that roll carries out texturing and strengthens processing.

Brief description of the drawings

Fig. 1 is the perspective view that roller surface laser roughening of the present invention is strengthened integrated processing unit (plant);

Fig. 2 is texturing platform structure schematic diagram in first embodiment of the invention.

Fig. 3 is texturing platform structure schematic diagram in second embodiment of the invention.

In figure: laser instrument 1, Digit Control Machine Tool 2, processed roll 3, roll rotating shaft 4, top 5, translation guide rail 6, texturing platform 7, the first speculums 701, semi-transparent semi-reflecting lens 702, the second speculums 703, strengthening spectrophotometric device 71, copper reflective mirror 711, beam uniformity mirror 712, integral mirror 713, cylindrical focusing mirror 714, texturing spectrophotometric device 72, rotary driving machine 721, polygon prism 722, point shaven head 723, focus head 724, completely reflecting mirror 725, vibratory drive machine 726, headstock 10, tailstock seat 11.

Detailed description of the invention

Below in conjunction with the drawings and specific embodiments, the present invention is described in further detail.

Roller surface laser roughening is as shown in Figure 1 strengthened integrated processing unit (plant), comprises laser instrument 1 and Digit Control Machine Tool 2, is provided with headstock 10 and tailstock seat 11 on the lathe bed of Digit Control Machine Tool 2, and laser instrument 1 is arranged on the headstock 10 of Digit Control Machine Tool 2.Roll rotating shaft 4 for supporting and driving processed roll 3 to rotate is installed on headstock 10, on tailstock seat 11, be provided with for holding out against top 5 of processed roll 3, on the lathe bed of Digit Control Machine Tool 2, be also provided with the translation guide rail 6 being arranged in parallel with roll rotating shaft 4, on translation guide rail 6, be provided with the texturing platform 7 being slidably matched with it, on texturing platform 7, be provided with the first speculum 701, the second speculum 703, semi-transparent semi-reflecting lens 702 and aim at texturing spectrophotometric device 72 and the strengthening spectrophotometric device 71 on processed roll 3 surfaces, the first speculum 701 is 45 ° of incidence angles layouts with the laser beam that laser instrument 1 is launched, semi-transparent semi-reflecting lens 702 is positioned at the first speculum 701 and reflects on laser beam path, the second speculum 703 is positioned at semi-transparent semi-reflecting lens 702 and reflects on laser beam path, texturing spectrophotometric device 72 is positioned on 702 transmission laser Shu Tonglu of semi-transparent semi-reflecting lens, strengthening spectrophotometric device 71 is positioned at the second speculum 703 and reflects on laser beam path.

Strengthening spectrophotometric device 71 comprises copper reflective mirror 711, beam uniformity mirror 712, integral mirror 713 and cylindrical focusing mirror 714, and the laser beam reflecting from the second speculum 703 arrives processed roll 3 surfaces through copper reflective mirror 711, beam uniformity mirror 712, integral mirror 713 and cylindrical focusing mirror 714 successively.

Embodiment 1:

As shown in Figure 2, the texturing spectrophotometric device 72 in embodiment 1 comprises rotary driving machine 721, polygon prism 722, a k fan-shaped arranged side by side point of shaven head 723 and k parallel focus head 724 arranged side by side.The actuating station of rotary driving machine 721 drives polygon prism 722 to rotate, polygon prism 722 is positioned on 702 transmission laser Shu Tonglu of semi-transparent semi-reflecting lens, k fan-shaped arranged side by side point of shaven head 723 is corresponding when being positioned at polygon prism 722 and rotating on the reflection laser beam path at place one by one, and the position of k parallel focus head 724 arranged side by side is corresponding one by one with the position of the individual fan-shaped arranged side by side point of shaven head 723 of k.Rotary driving machine 721 is fixedly mounted on texturing platform 7, can drive polygon prism 722 to rotate, polygon prism 722 is positioned on 702 transmission laser Shu Tonglu of semi-transparent semi-reflecting lens, the laser beam that incides texturing spectrophotometric device 72 is divided into pulse laser by the polygon prism 722 of rotation, inswept k point of shaven head 723, finally enters k focus head 724 successively.

As preferred version, the quantity of getting k is 5.Five points of shaven heads 723 are fan-shaped and are evenly distributed in polygon prism 722 reflected range, can guarantee that the energy distribution of laser beam is more balanced.Five focus heads 724 are corresponding one by one with the position of five points of shaven heads 723, and the laser beam that such five points of shaven heads 723 penetrate enters respectively five focus heads 724.

Use this device breaker roll workpiece to carry out the process of texturing strengthening processing as follows: processed roll 3 to be placed in the roll rotating shaft 4 of Digit Control Machine Tool 2, to start Digit Control Machine Tool 2, make processed roll 3 by the rotating speed rotation of setting; Digit Control Machine Tool 2 drives texturing platform 7 along processed roll 3 axial translations by translation guide rail 6 simultaneously.The laser beam that laser instrument 1 is exported is incident semi-transparent semi-reflecting lens 702 after speculum 701 reflections, and a part of light transmission semi-transparent semi-reflecting lens 702 enters texturing beam-splitting structure 72, and another part light enters strengthening spectrophotometric device 71 after speculum 703 reflections.

The laser beam that incides texturing spectrophotometric device 72 from semi-transparent semi-reflecting lens 702 is driven in rotation machine 721 and drives the polygon prism 722 of its rotations to be divided into pulse laser, pulse laser is inswept five points of shaven heads 723 successively, finally enter five focus heads 724 and focus on, focus drops on roll workpiece 3 surfaces to be processed and carries out texturing process.

The laser beam that incides strengthening spectrophotometric device 71 from semi-transparent semi-reflecting lens 702 is after copper reflective mirror 711 reflections, strength retrogression, become the laser beam of even intensity through beam uniformity mirror 712, then incide integral mirror 713, become even intensity rectangular laser bundle that distribute, fixed aspect ratio, after 714 reflections of cylindrical focusing mirror, become even intensity rectangular laser bundle that distribute, variable length-width ratio, be finally radiated at roll workpiece 3 surfaces and strengthen processing.

Laser beam is strengthened integrated processing unit (plant) through laser roughening and is focused on roller surface and form small molten bath and carry out texturing process, the roll surface rapid heating and quenching of processed roll 3 is strengthened to processing simultaneously.

Embodiment 2:

Embodiment 2 is identical with the basic structure of embodiment 1, and operation principle too.The just structure difference of its texturing spectrophotometric device 72.

As shown in Figure 3, texturing spectrophotometric device 72 involving vibrations driving machines 726, completely reflecting mirror 725, a k parallel arranged side by side point of shaven head 723 and k parallel focus head 724 arranged side by side in embodiment 2, the actuating station of vibratory drive machine 726 drives completely reflecting mirror 725 to vibrate in the vertical direction, completely reflecting mirror 725 is positioned on 702 transmission laser Shu Tonglu of semi-transparent semi-reflecting lens, k parallel arranged side by side point of shaven head 723 is corresponding when being positioned at completely reflecting mirror 725 and vibrating on the reflection laser beam path at place one by one, and the position of k parallel focus head 724 arranged side by side is corresponding one by one with the position of the individual parallel arranged side by side point of shaven head 723 of k.

As preferred version, the quantity of getting k is 5.Five points of shaven heads 723 are evenly distributed in polygon prism 722 reflected range, can guarantee that the energy distribution of laser beam is more balanced.Five focus heads 724 are corresponding one by one with the position of five points of shaven heads 723, and the laser beam that such five points of shaven heads 723 penetrate enters respectively five focus heads 724.

In embodiment 2, use this device breaker roll workpiece to carry out the process of texturing strengthening processing substantially the same manner as Example 1, it is different that just laser beam enters in texturing spectrophotometric device 72 laser beam path.

The laser beam that incides texturing spectrophotometric device 72 from semi-transparent semi-reflecting lens 702 is driven its completely reflecting mirror 725 vibrating to be in the vertical direction divided into pulse laser by vibratory drive machine 726, pulse laser is inswept five points of shaven heads 723 successively, finally enter five focus heads 724 and focus on, focus drops on roll workpiece 3 surfaces to be processed and carries out texturing process.While adopting the roll rolled plate of this texturing processing, its good effect of producing is with embodiment 1.

Claims (9)

1. a roller surface laser roughening is strengthened integrated processing unit (plant), comprise laser instrument (1) and Digit Control Machine Tool (2), on the lathe bed of described Digit Control Machine Tool (2), be provided with headstock (10) and tailstock seat (11), roll rotating shaft (4) for supporting and drive processed roll (3) rotation is installed on described headstock (10), top (5) for holding out against processed roll (3) are installed on described tailstock seat (11), on the lathe bed of described Digit Control Machine Tool (2), be also provided with the translation guide rail (6) being arranged in parallel with roll rotating shaft (4), on described translation guide rail (6), be provided with the texturing platform (7) being slidably matched with it, it is characterized in that: on described texturing platform (7), be provided with the first speculum (701), the second speculum (703), semi-transparent semi-reflecting lens (702) and aim at the texturing spectrophotometric device (72) on processed roll (3) surface and strengthen spectrophotometric device (71), described the first speculum (701) is 45 ° of incidence angles layouts with the laser beam that laser instrument (1) is launched, described semi-transparent semi-reflecting lens (702) is positioned at the first speculum (701) and reflects on laser beam path, described the second speculum (703) is positioned at semi-transparent semi-reflecting lens (702) and reflects on laser beam path, described texturing spectrophotometric device (72) is positioned on semi-transparent semi-reflecting lens (702) the transmission laser Shu Tonglu of institute, described strengthening spectrophotometric device (71) is positioned at the second speculum (703) and reflects on laser beam path.

2. roller surface laser roughening according to claim 1 is strengthened integrated processing unit (plant), it is characterized in that: described strengthening spectrophotometric device (71) comprises copper reflective mirror (711), beam uniformity mirror (712), integral mirror (713) and cylindrical focusing mirror (714), pass through successively copper reflective mirror (711), beam uniformity mirror (712), integral mirror (713) and cylindrical focusing mirror (714) from the laser beam of described the second speculum (703) reflection and arrive processed roll (3) surface.

3. roller surface laser roughening according to claim 1 and 2 is strengthened integrated processing unit (plant), it is characterized in that: described texturing spectrophotometric device (72) comprises rotary driving machine (721), polygon prism (722), the individual fan-shaped arranged side by side point of shaven head (723) of k and k parallel focus head arranged side by side (724), the actuating station of described rotary driving machine (721) drives polygon prism (722) rotation, described polygon prism (722) is positioned on semi-transparent semi-reflecting lens (702) the transmission laser Shu Tonglu of institute, on the reflection laser beam path at described k fan-shaped arranged side by side point of shaven head (723) place when correspondence is positioned at polygon prism (722) rotation one by one, the position of described k parallel focus head arranged side by side (724) is corresponding one by one with the position of k fan-shaped arranged side by side point of shaven head (723).

4. roller surface laser roughening according to claim 1 and 2 is strengthened integrated processing unit (plant), it is characterized in that: described texturing spectrophotometric device (72) involving vibrations driving machine (726), completely reflecting mirror (725), the individual parallel arranged side by side point of shaven head (723) of k and k parallel focus head arranged side by side (724), the actuating station of described vibratory drive machine (726) drives completely reflecting mirror (725) to vibrate in the vertical direction, described completely reflecting mirror (725) is positioned on semi-transparent semi-reflecting lens (702) the transmission laser Shu Tonglu of institute, on the reflection laser beam path at described k parallel arranged side by side point of shaven head (723) place when correspondence is positioned at completely reflecting mirror (725) vibration one by one, the position of described k parallel focus head arranged side by side (724) is corresponding one by one with the position of k parallel arranged side by side point of shaven head (723).

5. roller surface laser roughening according to claim 3 is strengthened integrated processing unit (plant), it is characterized in that: quantity k=3～9 of described point of shaven head (723) and focus head (724).

6. roller surface laser roughening according to claim 4 is strengthened integrated processing unit (plant), it is characterized in that: quantity k=3～9 of described point of shaven head (723) and focus head (724).

7. roller surface laser roughening according to claim 3 is strengthened integrated processing unit (plant), it is characterized in that: described focus head (724) institute outgoing laser beam is vertical with processed roll (3) surface.

8. roller surface laser roughening according to claim 4 is strengthened integrated processing unit (plant), it is characterized in that: described focus head (724) institute outgoing laser beam is vertical with processed roll (3) surface.

9. roller surface laser roughening according to claim 1 and 2 is strengthened integrated processing unit (plant), it is characterized in that: described laser instrument (1) is detachably arranged on the headstock (10) of Digit Control Machine Tool (2).