AU619279B2 - Process and equipment for micro-pattern forming on roll surface - Google Patents

Description

00 0 o 0 KAWASAKI STEEL CORPORATION By their Patent Attorney GRIFFITH HACK CO 19210S/425 oPO N--OM 619279 COMMONWEALTH OF AUSTRALIA PATENTS ACT 1952 Form COMPLETE SPECIFICATION FOR OFFICE USE Short Title: Int. Cl: Application Number: Lodged: Complete Specification-Lodged: Accepted: Lapsed: published: Priority: Related Art: 9 9 0 0 0 TO BE COMPLETED BY APPLICANT f 0 Name of Applicant: Address of Applicant: Actual Inventor: Address for Service: KAWASAKI STEEL CORPORATION 1-1-28 Kitohonmachi-Dori, Chuo-ku, Kobe, HYOGO-KEN 651 JAPAN Takaaki Iguchi; Takanori Tamari; Takaaki Hira; Kunio Isobe; Ikuo Yarita and Hideo Abe GRIFFITH HACK CO.

71 YORK STREET SYDNEY NSW 2000

AUSTRALIA

Complete Specification for the invention entitled: PROCESS AND EQUIPMENT FOR MICRO-PATTERN FORMING ON ROLL SURFACE AW-f'gQS OF REPiAR.INr. f;AME, e following statement is a full description of this invention, Q 0 including the best method of performing it known to me/us:- 0189A:rk 91 i: i TITLE OF THE INVENTION: PROCESS AND EQUIPMENT FOR MICRO-PATTERN FORMING ON ROLL SURFACE .MT H FO P lW©K -g"ftffpr BACKGROUND OF THE INVENTION: Field of the Invention The present invention relates to a process and equipment for micro-pattern forming on the surface of a I' rolling roll in forming a precise pattern having a S*number of projections and indentations in the same surface, metal sheets obtained through the rolling roll which are.to be pressed and painted like outer panels of automobiles for example, and a method of preparing the metal sheets.

Prior Art cj The beautiful appearance of a car body has recently come to be keenly demanded. Actually, a car body indistinctly reflecting a surrounding scene in the S surface thereof is becoming no more appealing to car owners; that is, the car owners demand such a car that sharply reflects a surrounding scene in the body surface. The sharpness of reflection of the scene thus reflected in the body surface is evaluated by a DOI value by measuring the rate of reflection of a slit light that has entered the surface of the car body at a given angle. The larger the value thus obtained, the higher the sharpness of reflection in the car body surface.

Nowadays, there is adopted a method of forming a number of projections and indentations in the surface of a rolling roll by projecting pulses of a laser beam directly to the surface of the roll, and transferring a pattern of the projections and indentations from the o roll surface to the surface of a cold-rolled steel sheet 00 0 by the use of the roll having the projections and So indentations formed therein, in a skin pass rolling process after the annealing of the steel sheet.

A dull-surface skin pass rolling roll with the 0 surface roughened by forming projections and indentations by shot blasting has been popularly used in skin pass rolling, thereby transferring the pattern of projections and indentations to the surface of the steel sheet, and steel sheets thus obtained are used as a material for pressworking.

The pattern with projections and indentations formed in the roll surface by the use of the laser beam -2- ,i differs from that formed through a conventional shot blasting process or an electrical-discharge dulling process. The projections and indentations are formed uniform in size and at a fixed pitch throughout the roll surface. Therefore, steel sheets processed by this process and painted have such an advantage that the surface thereof has higher sharpness of reflection, and has excellent resistance to die galling at the time of pressing.

Prior arts disclosed in Japanese Patent Laid- Open Nos. 55-94790 and 56-119687 and Japanese Patent 4: Publication No. 58-25557 are the processes described above or variations thereof.

r* 1*t I Conventional laser-beam machining technology has the following problems.

Since the laser beam is directly applied to 44,4 the roll surface to make indentations, a laser-beam I oscillator is required to output a high power of 1 kW or more for efficient machining of a work, such as a rolling roll, having a wide surface area. It is, r( ~therefore, natural to adopt a CO 2 laser. This C02 laser, however, is of a large size and needs larger maintenance costs and labour.

-3r~-sl~ a I-re r--i-i-l In a pattern of projections and indentations thus produced by such a laser-beam machining equipment, each indentation is likely to become of a ring-like or similar form with molten metal deposited around it. It is therefore impossible to form a pattern of projections and indentations into a free shape.

The pattern of projections and indentations formed by melting the metal with the laser beam is composed of austenite in the projection-indentation section. A roll having projections and indentations thus formed has a low wear resistance when used in rolling.

0o The diameter of each indentation of the 00 00 o pattern of projection and indentation is determined by 00 00 the diameter of a laser beam converged by a condenser.

This diameter can not physically be decreased below 0 about 100 lm because of a long (10.6 pm) wavelength of the CO 2 laser beam.

0080 To insure efficient machining of a wide surface area, it is necessary to produce a laser beam of a0," very high-frequency pulse wave. In the case of the CO 2 00 0 000.: gas laser, however, this can not be realized by electrical means such as Q switching. Accordingly, a mechanical chopper has been used for this purpose. This -4method, however, also has a problem that a high mechanical chopper and roll speeds and phases do not necessarily match each other and a pattern obtained has projections and indentations irregularly arranged.

As a means to solve the above-mentioned problems, a photo-etching method used in pattern forming on roll surface in a gravure printing machine is adopted.

This photo-etching process is adopted to produce a rolling roll having a roughened surface with a uniform projection and indentation pattern. Steel places manufactured by use of the roll have excellent 4 4 Spressworking anddecorative properties as long known, 4 for example as disclosed in Japanese Patent Publication Nos. 41-14973 and 46-19535. However, this process has not yet been put into fully practical use because of its 0 It low roll processing efficiency and very high cost.

The photo-etching process, as well known, may be broken down into the following steps.

Activation of roll surface Application of resist (photosensitive corrosion-resistant agent) Drying Film affixing Exposure to light Removal of film Development Drying Etching Removal of resist (11) Post-treatment (washing, neutralization, etc.) This photo-etching process can be used to form a pattern of fine projections and indentations on a rolling roll. Particularly in processing a large roll, 0 such as the rolling roll, however, the aforementioned 09 process requires not only many manhours but operation in 00 0 S0 a darkroom, and moreover since it is difficult to adopt 0 Q automatic operations, the process is extremely disadvantageous in manufacturing costs as compared with 00 0* 0 0 the aforesaid shot-blasting process or laser-beam machining process.

Do 04 0.0 Japanese Patent Publication No. 62-11922 discloses a process for covering a sheet surface with an DODD acid corrosion-resistant material, locally destroying D O: the coated surface with a laser beam, and chemically etching the locally uncovered spots. This process, -6however, is still premature to be practically adopted as a substantial process.

Next, steel sheets provided with projections and indentations will be described.

In Japanese Patent Publication No. 62-11922 and Japanese Patent Laid-Open No. 62-168602 is disclosed a laser-beam dulling process wherein pulses of a laser beam are projected to the surface of a roll to form projections and indentations at a fixed pitch in the surface of the roll. According to the process, since regular projections and indentations can be formed at an eo a arbitrary spacing on a bright roll, steel sheets a 0 skinpass rolled by the use of this roll are provided 0 a o 0 ith level sections and projections and indented sections alternately and regularly. It is known that, in the level sections, no irregular reflection takes 0: place; and higher sharpness of reflection is obtained rather in the skinpass-rolled sheets than in sheets rolled with the aforementioned shot-blasted roll.

The sharpness of reflection of a steel sheet #oat 04, surface before painting has been explained above. Next, the sharpness of reflection after painting will be described.

-7i -~ai r 1-- After chemical conversion treatment and electrodeposition painting, the sheets undergo painting by dip coating or spray washing. Generally, the painting process provides level projections and indentations on the steel sheet surface, thereby improving DOI as compared with the sheet before painting.

In vertical painting, such as the dip coating, a paint liquid applied to the sheet flows down on the sheet surface with the gravity thereof. In this case, when there exist fixed paths along which the paint flows 4 I 4 down, the paint can flow uniformly; if, however, there is any separated independent indentation, the flow of 4 ar the paint will stop thereat, resulting in an uneven film thickness of the coating.

As stated above, a steel sheet with projections and indentations having a large ratio of flat area in the surface thereof and having fixed paths that allow fl the uniform flow of the paint liquid is suitable for use because of the sharpness of reflection. A steel sheet "2 manufactured by the laser-dulled roll satisfies at least ,i the former, while a steel sheet manufactured by the shot-blasted roll can not satisfy both, resulting in a low DOI value.

-8p ^Ill 111 Next the press workability will be described.

Press working is done by first holding edges of a sheet between a die and a blank holder, applying a specific blank hold-down pressure to the sheet, and then punching the sheet at the center into a predetermined shape.

Commonly, a material flows from the blank holding position into the die section immediately after pressing. This becomes an inflow characteristic, which is used as an index indicating the difficulty or easiness of press working. For example, a material having a great frictional resistance flows little from 44 41 the die, resulting in a fracture thereof.

4 1 The surface of the steel sheet, when pressed, is v commonly coated with a lubricating oil. It is important 4 to obtain a substantial effect of this lubricating oil to prevent the fracture of the sheet, In the meantime, there is a problem of galling that a part of the steel sheet surface is galled by the die and coheres on a tool in case of a high frictional resistance when the steel material is in contact with, or slides on, the tool.

t A steel sheet with a large level surface area has superior sharpness of reflection, but not necessarily has satisfactory press working function.

SUNHARY~

r. i OF THE INVENTION: 1K It is an object of the preferred embodiment of the present invention to provide a micro-pattern forming process on roll surface and an industrial equipment that can positively realize such rolls that have regularly or arbitrarily arranged projections and indentations.

It is a further object of the preferred embodiment of the present invention to provide steel sheets having high sharpness of reflection which are provided with flat areas on the steel sheet surface and with paint paths for uniform flow of the paint liquid.

It is a further object of the preferred embodiment of the present invention to provide metal sheets which can secure a lubricating S oil fed at the time of pressing and efficiently supply the lubricating oil to their boundary surface in contact with the tool, and also have a projection-indentation structure having indentations in which a chafed stock of the sheet can be trapped so as not to cohere on the tool.

It is still another object of the preferred embodiment of the present invention to provide a roll of such a surface structure that can manufacture steel sheets having complicated

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L- projections and indentations on the surface as described above.

The process disclosed in the present invention is a process of a micro-pattern forming on a rolling roll surface, which comprises of the following steps: Forming a film of acid corrosion-resistant resin on the rolling roll surface by applying a mixture t, rr of an acid corrosion-resistant resin solution and a light-absorbing agent; Marking off a desired pattern continuously 4 ,on this film of resin, using a Q-switch and a YAG laser having an output of 5 to 100 W on an average; and 4 0 Thereafter, performing etching to form the desired pattern on the roll surface.

In the above-mentioned process, the acid corrosion-resistant resin liquid is mixed with optical absorbing material composed of carbon black or pigment.

If a thickness of resin film to be formed on the surface of the roll is 1 to 10 pm, the resin is evaporated into an accurate pattern with a laser of low output and at the same time the resin may be endured against an -11- 3) An equipment for forming a micro-pattern on the surface of a rolling roll comprising; a roll rotating device for supporting the roll and rotating the same; ./2 etching process, resulting in that the process is quite preferable.

The apparatus of the present invention for preferentially carrying out the above-mentioned process is an apparatus for use in making a roughened surface of the rolling roll provided with devices having the V following functions.

1 j(a) a roll rotating device for supporting a roll of workpiece and rotating it; 4(b) a coating device which is similar to a spray Olow device or its similar device installed at a side I~ part of the above-mentioned roll rotating device so as to apply resin substance to the surface of 0 a roll while being in its li;quiLd state; a laser plotter comprising in combination with an oscillator having an output of 5 to 100 W and generating a pulse-like laser in response to an electtical signal and a series of devices including a lens for use in guiding the laser to the surface of the roll and focussing it on a 00 mirror; an etching device comprised of a ipray or the like for use in blowing etching liquid to the -12- I JuIPi i. i i.ll surface of the roll processed with the abovementioned laser plotter; a moving device for use in moving in an axial direction of a roll each of the above-mentioned coating device, a laser plotter and an etching.

device independently or simultaneously; an image processing device for making a desired pattern to be formed on the surface of the roll, dividing the pattern into some dots to make a binary encoded value and then for producing a series of plot data; and a control device including a detector device for use in detecting a rotational angle of the roll and instructing a pulse generating timing of the above-mentioned laser plotter on the basis of a signal sent from the detector and the plotted data.

S, The apparatus of the present invention may also comprise K the followingc-onstitutions in addition to the above arrangement.

That is to say, the laser oscillator of the laser plotter is an YAG laser, a first optical modulator is placed within the laser oscillator to make a Q switch oscillator, a second optical modulator is placed -13-

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1 h AN OF Lhe following statement is a full description of this invention, T including the best method of performing it known to me/us:- 0189A:rk midway in the path of a laser optical path ranging from the oscilaltor to the machining part out of the laser oscillator, and a series of optical units composed of a mirror and a lens for guiding the laser beam to the surface of the roll and collecting the laser beam, wherein the detector for detecting a rotational angle of the machined roll is a rotary encoder connected to a rotating shaft of the roll rotating device, and the control device is comprised of an optical modulator driver for driving the above-mentioned first optical modulator in response to a clock signal of a rotary encoder and an optical modulator driver for driving the above-mentioned second optical modulator in response to I a signal taking out a clock of a part corresponding to a t dot required for forming the above-mentioned image from 4 7 the clock signal in reference to the plotted data.

In addition, the present invention relates to a ,t metallic sheet for use in press forming which has a minute pattern composed of independent pond-like indentations and a minute pattern composed of continuous groove-like concave portions at its surface. The independent pond-like indentations are of a large number of arranged indentations, they may have a surface pattern in which a continuous net-like indentation SIr. 4 -14- i U I, I I encloses a circumference of each of the indentations, and the portion where the pond-like indentations are arranged and another portion where a net-like indentation is arranged may be placed at separate positions. The roll for use in press forming such a metallic sheet as described above has independently or commonly a surface pattern composed of independent trapezoid projections with a flat top surface and a surface pattern composed of continuous net-like projections with a top flat surface.

It is possible to manufacture the above- 04 00 mentioned metallic sheet for use in press forming by 0 06 using a roll having an independent trapezoid projection and another roll having a continuous net-like projection 4 0 of these rolls as above and skin pass rolling each of the metallic sheets once.

BRIEF DESCRIPTION OF THE DRAWINGS: 4 a *ea Fig. 1 is an entire perspective view taken from a front side of a preferred embodiment of the device of r the present invention.

oro Fig. 2 is a perspective view taken from a rear surface of Fig. 1.

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-2- Fig. 3 is an illustrative view for showing operation of the device of the present invention.

Fig. 4 is an enlarged front elevational view for showing an example of a pattern of the present invention.

Fig. 5 is a three-dimensional roughness chart for showing a shape of the surface of the roll actually manufactured by the method of the present invention.

Fig. 6 is a block diagram for showing the device of the present invention.

H Fig. 7 is a view for comparing and illustrating actions between the present invention and the prior art.

o Fig. 8 is a block diagram for showing another example of the device of the present invention.

Fig. 9 is a pattern of irregular projections and indentations.

M a 4 Fig. 10 is a pattern of regular projections and indentations.

Fig. ii is a schematic perspective view for showing a surface of a metallic steel sheet for press 4• machining work of the present invention.

Fig. 12 is a graph for showing influence of a skin pass rolling rate against a transferring rate.

-16i Fig. 13 is a graph for showing influence of a skin pass rolling rate against a mechanical property.

Fig. 14 is a schematic view for schematically showing a press machining operation.

Fig. 15 is a view for showing projections and indentations at the surface in the preferred embodiment of the present invention.

Fig. 16 is a view of patterns for showing surfaces of rolls trially formed and condition of projections and indentations in the surface of material made by the trially formed rolls.

Fig. 17 is a diagram of steps for showing a roll manufacturing process.

Fig. 18 is an illustrative view for showing a testing method for evaluating a press machining a, operation.

I Fig. 19 is a graph for showing a result of a sliding test.

j Fig. 20 is a graph for showing a result of S, sharpness of reflection.

Figs. 21 and 22 are a partial section for Sshowing a steel sheet and a roll for indicating a double skin pass.

-17- I -4- '4: rr I I I DESCRIPTION OF THE PREFERRED EMBODIMENTS: It is an important feature in the present invention how to make an efficient evaporation and removal of a resin film formed'on a surface of a rolling roll. That is to say, the resin film where a laser beam is radiated is evaporated and removed without having any remained molten film and further a surplus heat must be prevented from being spreaded over and around the formed fine holes (dots) to form a thermally influenced part and to make a vague contour of each of the dots.

14 In view of the fact described above, the present 4 k invention has a feature that as a laser, a Q switched la SYAG laser and an optical absorbing agent is mixed with I the resin used in order to increase a rate of absorption of the laser beam. The Q switch is means for making a pulse in which a radiation time per one pulse is made quite short and a peak power is increased by a value 0 corresponding to the shortened time in case of making SA pulsation of the laser. With this arrangement, a heating time of the irradiation part is quite short and its thermal conducting time is short, resulting in that 1404 a fed optical energy is not dispensed through a thermal conduction, but locally concentrated. As a result, it is possible to make an efficient evaporation of the -18i resin and further to reduce an expansion of the thermally influenced part around it. In general, since a quite high frequency of pulse is required in view of an efficiency of forming operation, the laser is required to provide a certain high output. So, the laser to be used in this case is most preferably an YAG laser of a so-called continuous exciting Q-switch type. The abovementioned laser has an advantage that a high frequency pulse of several 10 kHz at a high output of 5 to 100 W can be attained and further the pulse is easily made as a short pulse through a Q switch. In addition, a wave length of the YAG laser is 1.06 pm which is 1/10 of a 0 0wave length of CO 2 laser and a minimum spot diameter which can be metered by a condenser can be reduced to 00 P0 about 10 pm, resulting in that it has an effect thac a fine pattern of projections and indentations can be ~freely formed. Provided that this wave length is near that of a visible light and its absorbing rate in a Snormal resin is low, resulting in that the resin may not be machined. In view of this fact, a desired object can "Ur °be easily attained by mixing the resin with optical absorbing material and applying them. In this case, as the optical absorbing material, either a carbon black or a pigment is preferable.

-19- L I -6- According to the experiments performed by the inventors of the present invention, in case that the resin mixed with the above-mentioned optical absorbing material is used, it is preferable to have a film thickness of about 1 to 10 jm when the YAG laser of 100 W or so is used. This is due to the fact that a through-pass hole in a resin film is formed in a reverse conical shape through laser, resulting in that a too thick film thickness may not cause a hole (dot) having a evifficient diameter to be formed and in turn if a ,4 spraying method is applied, a film thickness less than 1 .1 r pm is hardly formed in a uniform thickness.

It is preferable to use a coating of normal temperature drying type due to the fact that a drying and baking step in case of performing a coating operation is eliminated.

In the method of the present invention, either a carbon black or a pigment is added as an absorbing material is added to the anti-oydization corrosionresistant resin film, so that it is possible to evaporate this reins film with the YAG laser beam having a low output and further it is also possible to expose the surface of the roll strictly in accordance with the i 00a00 0 0 Too oD o 0 a 0 o 0 00 CO o 0, 0' 0 oa 00 Oa 90000 0 0~ pattern. So, it is also possible to form a pattern quite easily and accurately.

Referring now to Fig. 3, the method of the present invention will be described. This method is composed of the following three steps.

At first, a first step will be described.

Resin coating mixed with optical absorbing material is at first sprayed by a spray gun 6 onto a surface of a roll, the resin shows evaporation of its solvent agent at the surface of the roll and is solidified there, resulting in forming a thin film 28 of resin at the roll surface. If the roll 1 is rotated and the spray gun is moved in an axial direction of the roll, the thin film 28 is formed over an entire circumference of the roll 1 as the spray gun 6 is moved.

A second step of the operation will be described then.

Also in this case, the roll is kept rotating and a laser radiating head 10 is moved in an axial direction of the roll and a pulse laser beam 29 is concentrated through a lens 30 onto a predetermined location on the roll surface having the thin film 28 formed thereon and then radiated. The thin film 28 at a portion where the beam is radiated through this energy is evaporated to -21i i -8expose the surface of the roll i. A row of minute holes is formed helically around a circumference of the roll 1 under rotation of the roll 1 and movement of the laser radiation head A third step of the operation of the present invention will be described.

As etching liquid 31 is sprayed through a moving spray gun 11, a portion not covered by the thin film 28, i.e. only the portion radiated by a laser beam is corroded and then a crater 32 is formed.

i f ro In Fig. 3 is illustrated a continuous operation from the first step to the third step as described above. However, it is optional to make an independent S operation unless an order of each of the operations is varied.

One example of the device for practically realizing the method of the present invention will be described in reference to Figs. 1 and 2. Fig. 1 is a perspective view taken from a front side of the device of the preferred embodiment and Fig. 2 is also a Ii perspective view taken from a rear surface of the same.

Figs. 1 and 2 are schematic views for illustrating a technical concept of the device of the present invention. Accompanying devices which are installed -22- -9- -t i- actually but of which description is not required are eliminated in the illustrations.

A roll rotating device is comprised of roll supporting blocks 2 and 3, a chuck 4 and a spindle and a rotating motor is provided in the supporting block 3. Both ends of the rolling roll of a workpiece are supported respectively by the chuck 4 and the spindle The roll is rotated by a motor (not shown).

Then, as shown in Fig. 2, as a coating device, a spray gun 6 for spraying resin coating mixed with optical absorbing material against a surface of the roll is arranged at a side part of the roll i. To this spray gun 6 is supplied resin coating from a resin tank 7 Sthrough a tub 8.

As shown in fig. 1, a laser plotter 9 is "o arranged at a side opposite to the spray gun 6. This laser plotter 9 is composed of a Q switch for producing a pulse beam in response to an electric singal sent from a control device 24 to be described rater, an YAG laser an optical unit such as a mirror for guiding a laser beam to a surface of the roll and a lens for focusing the laser beam to thesurface of the roll and the like.

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Ii The conventional type of the system uses a mechanical chopper. However, the number of rotation and a phase of the mechanical chopper rotated at a high speed and those of the roll are not necessarily the same and the produced pattern of A projections and indentations is irregularly arranged as shown in Fig. 9.

In Fig. 9, a direction indicated by an arrow shows a rotational direction of the roll and another direction perpendicular to the former direction indicates an axial direction of the roll. The steel sheet produced through this rolling with this pattern shows a stripe pattern in a rotating direction of the roll and this is not preferable. In order to resolve this problem, it is necessary to make a regular pattern as shown in Fig. 10. In case of a method using the mechanical chopper, a quite accuracy is required in a mechanical control such as a motor and the like, 1 resulting in that there are many hard technical problems.

Then, as shown in Fig. 2, in this example, there is provided a spray gun 11 of an etching device for use in spraying etching liquid adjacent to the coating device. The etching liquid is supplied from the tank 12 -24iL r -ii- 6-IIthrough the tube 13. A spray gun 6, a laser plotter 9 and a spray gun 11 are mounted on XY tables 14, 15 and 16, respectively. The XY tables 14, 15 and 16 have a similar structure to each other. For example, the XY table 14 can be moved in an axial direction of the roll and a direction perpendicular to the axial direction under rotations of the ball screws 19 and 20 caused by rotations of motors 21 and 22 along the guide rails 17 and 18. This table can be moved longitudinally in particular in an axial direction of the roll and the device on the XY table can act on an entire barrel of the roll i. Example shown in Figs. 1 and 2 is constructed such that the laser plotter is mounted on one side of the roll and each of the coating device and the etching device is mounted at the opposite side on each of the independent XY tables. This arrangement may 1I4 *K4 be optional and any XY table can be used in common.

However, it is preferable to mount the spray gun 6 at a side opposite to the laser plotter 9 in order to protect the laser plotter 9 having an optical equipment therein \j against mist of etching liquid. The coating and etching liquid sprayed from the spray guns 6 and 11 and dropped are recovered into a waste liquid tank 47. An image processing device 23 may produce a pattern to be etched -12on the surface of the roll i, make a binary coding from it and then generate a series of plot data. A control device 24 may receive a pulse signal from a detector of a rotational angle through a cable 25 which is conmposed of a rotary encoder (not shown) assembled in the roll supporting block 3, transmit a signal to said laser resonator 9a through a cable 26 and a cable bare 27 in order to radiate a laser onto a predetermined one point on the surface of the roll 1 specified by the abovementioned plot data in response to the received pulse signal and then form a predetermined pattern.

Since the present invention is constructed as 1 4 Sabove, it has less number of steps than that of the above-mentioned photo-etching process and further a manufacturing cost can be substantially reduced. In addition, it is a feature of the present invention to 4 4 enable the above-mentioned series of operations to be oil easily and automatically carried out.

fkA.

Since the thin film 28 upon completion of the etching process is not needed, it is possible to remove 11' it easily with a treatment such as washing with solvent.

However, this removing step may easily be carried out continuously by mounting it on the XY table in the same manner as described above.

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Referring now to Figs. 4 and 5, a process for forming a pattern of projections and indentations to be formed on the surface of the roll 1 will be described.

Fig. 4 shows one example of an enlarged front elevational view of a pattern of minute projections and indentations constructed on the surface of the roll, wherein a white background is a part not radiated with laser, i.e. a part not etched. The part indicated by hatched lines corresponds to a part irradiated with laser, i.e. a part to be etched. In Fig.4, vertical and L horizontal lines are drawn only for a sake of convenience and so they are not actually present.

In Fig. 4, a rotational direction of the roll 1 S is set in a vertical arrow direction 32 and a moving direction of the XY table 15 toward the axial direction of the roll is set in a lateral arrow direction 34. As described above, since a punching hole in the thin film through a laser plotter is helically formed on a circumference of the roll, regions indicated by hatched lines in Fig. 4 are formed in sequence from a left vertical row to a right vertical row.

IC

In case of forming this pattern, it is necessary to make a highly accurate coincidence with a rotational speed of the roll and an ejecting timing of the pulse -27- -14laser in order to eliminate a displacement in position of plotted point in the adjoining rows. In the apparatus of the present invention, a rotational angle of the roll is detected by a rotary encoder and a pulse beam ejecting timing is defined by an electrical means in correspondence with the de-ection, so that the present invention can be realized without requiring a 09 00 o0 60 substantial accuracy in a motor for the roll rotating 00 P a device.

o0 6o s 0 In the present invention, it is constructed as a o o system in Which a power of the laser oscillator does not directly melt a metal on the surface of the roll, but evaporate only a resin of low melting point formed on o00a6000 C the surface of the roll, so that the present invention 00oo0 0 06 does not require any high power laser such as a CO 2 a" laser. In view of this fact, the present invention is based upon that a laser capable of oscillating a quite o0 high frequency pulse beam through electric means under a P 60, superior dependability, i.e. a Q switch YAG laser in this case can be used.

-I Fig.5 is a three-dimensional roughness chart for showing one example of a profile of a roughened surface roll formed by the method and apparatus of the present invention. Of course, in accordance with the present C T_ -28invention, it is not restricted to a pattern shown in fig. 5, but it is possible to etch a universal~pattern, wherein its figure is automatically formed by the image processing device 23 and then it can be copied to the surface of the roll automatically by the laser plotter.

An important advantage of the present invention consists in the fact that steps such as development, drying and the like are eliminated and made in an automatic operation as compared with that of the conventional type of photo-etching process, so that an ctrtr¢ operation of the prior art requiring eight hours per one roll is finished approximately in sixty minutes. It has I lC a superior feature in mass production and a labor saving. In addition, in accordance with the method of the present invention, it is one of the features that a iQo work in a dark room which was required in the abovementioned photo-etching process can be eliminated.

Then, a practical configuration of the above- 1 CCI mentioned laser plotter and its control device will be I described. As already described above, the method of the present invention is carried out such that short light pulses through a Q switch are struck onto the roll in side by side to form a pattern. In this case, it is necessary to make a high accurate coincidence between a -29- 6_.

-16r: i .I rotational speed of the roll and the ejection timing of the pulse laser.

Further, the above-mentioned process has a problem that a power value shows an irregular one in respect to a certain pulse. As apparent from an arrangement of dots in each of the rows in Fig. 4, it is due to the fact that a portion having a dot in one row and a portion having no dot are mixed to each other.

Since a scanning speed is kept constant, an irregular time interval is generated between the dots. Since an energy per pulse in case of a continuous energization Q switch is dependent upon a time interval of the pulse, resulting in that a pulse energy just after the portion having no dot becomes quite high and the sizes of the dots become irregular one and so an accuracy of the Io o formed pattern is decreased.

a oReferring now to Fig. 6, an example of a practical apparatus of the present invention will be 4 described.

A laser oscillator 35 is an YAG rod in case of a Nd-YAG laser. The laser oscillator 35 is energized by a light from a discharging lamp not shown. A well-known laser resonator is composed of these elements, a full reflection mirror 36 and a half-mirror 36a. A first -17i optical modulator 37 is arranged between the resonator mirrors 36 and 36a and an acoustic optical element or the like is normally used as this modulator. A Q switch oscillation is carried out by turning ON or OFF of the first optical modulator 37. A second optical modulator 37a is arranged on an optical path of a laser beam out of the resonator and this is similar to the abovementioned first optical modulator 37. The laser beam passed through the second optical modulator 37a is properly changed in its optical path by a mirror 38 and 00 00 othe like, focused by a condenser 39 and then radiated onto the roll 1 which is a workpiece.

Then, a controlling method of the optical O o modulators 37 and 37a will be described. A high 00 0 frequency pulse signal acting as a reference signal for o o o getting a timing when a pulse is generated is produced by a rotary encoder 40 connected to a rotating shaft of the roll i. Since this pulse is produced not by a rotational speed of the roll, but generated in response to a rotational angle of the roll, this is a signal which is accurately followed by a rotation of the roll.

This reference signal is reduced by a counter 41, for example, to a fraction an integer as required and then converted into the number of dots for every i ~-31i -18c a ai aard-rrP -arraRan~-I rrr*ol--c a i CI r* circumference of the roll i. At this time, the higher a high frequency of a signal from the rotary encoder the higher a degree of freedom of a frequency of a signal reduced by the counter 41, resulting in that it is preferable to provide the rotary encoder 40 having a resolution as high as possible. A drive 42 for driving the optical modulator 37 is controlled directly by using a signal produced from the counter 41.

The driver 42 may generate a high frequency voltage in case the optical modulator 37 is an acoustic optical element, this signal is turned ON or OFF in response to the signal from the counter 41 to turn ON or OFF the optical modulator. Since the driver 42 is controlled by using an input signal from the Scounter 41, the optical modulator 37 may act to turn ON a laser at all dot positions in the surface of the workpiece i. Then, the driver 42a for use.in driving the optical modulator 37a may drive the optical t: t modulator 37a in response to a timing signal sent from the counter 41 on the basis of data (a binary encoding data) which is arranged as a form of presence or nonpresence of dots for making an image stored in the image memory 43 and formed. That is to say, the optical modulator 37a is constructed such that the laser is -32- /VT

O,

J-

-19turned ON only at the position of picture element at such a dot position as one required for forming an image of some images in the surface of the workpiece 1.

Practically, the data is read out from the image memory 43 in response to a signal from a frequency converter 41 and then an optical modulator driver 42a is controlled by a signal having a product of the read-out data and the former data itself.

An action of the apparatus of the present invention will be described in reference to Fig. 7.

For a sake of convenience of description, a A Ar fl A, modulating process in the prior art and a wave-form of laser pulse in the prior art modulation process are q indicated in Figs. 7(a) and In Fig. 7(c) is illustrated a process of the present invention and a wave-form got through the process of the present 'invention.

4. Fig. 7(a) illustrates a case in which the optical modulator 37 is arranged between the resonator mirrors 36 and 36a which is a so-called Q switch type oscillation method. In this case, there is a certain d picture element which does not require any dots for the sake of convenience of picture element itself. If the time interval of the pulse becomes an irregular one, a -33- V- 4 pulse just after the above-mentioned long interval show a high peak power as shown in Fig. resulting in producing irregularity.

As shown in Fig. in case that an optical modulator 37a is placed outside the resonant mirrors 36 and 36a, a value of each of pulses is regularly arranged even if there is an irregular pulse spacing. However, the peak power value is quite low, resulting in that its radiation time is extended to generate irregularity as described above.

U D To the contrary, the process of the present 0 0 invention shown in Fig. 7(c) is performed such that the optical modulator 37 turns ON the laser for all picture 0 elements, resulting in that the laser pulse wave-form just after the mirror 36a becomes a wave-form having a o linear line of Fig. 7(c) added with a dotted line, i.e.

Oro a wave-form having an equal spacing and then the peak oo power values are equal to each other at all pulses. In addition, non-required pulses are shielded by the optical modulator 37a, thereby a series of pulse waves 0000 II B, having irregular spacing and equal peak power values as indicated by a solid line of Fig. 7(c) can be attained.

Fig. 7(d) illustrates schematically a row of dots 44 formed by this laser pulse. In the process shown in -34- -21- Fig. dots 45 have different sizes after a certain spacing is left in respect to a size of each of dots 44.

However, in accordance with the process of the present invention, dots 46 which are equal in size to other dots 44 are formed.

With the above-mentioned arrangement, it is possible to make an accurate control of a dot position during a process for machining a surface of the roll with a Q switch and a pulse of YAG laser, to eliminate an irregular size of dots and so on accurate pattern forming can be attained.

As an alternative process of the present invention, as shown in Fig.8, it can be considered to L provide such an arrangement as one in which a laser beam outputted from a resonator 9a is divided into a plurality of beams through the spectroscopic mirrors o, 47a, 47b and 47c, each of the divided laser beams is turned ON-OFF independently through optical modulators I4 37a, 37b and 37c and at the same time the beam is radiated onto the surface of the roll i. According to Ill I

I

$tit this process, each of the optical modulators 37a, 37b *6 '1 and 37c is controlled through separate data. This process is effective as means for improving the machining speed.

-22- I The apparatus of the present invention may generate the following operations.

Since the laser oscillator may evaporate a thin resin film only, it is possible to apply a high frequency pulse beam of a low output with a short wave-length and further a more fine pattern can be formed and in addition no mechanical chopper is used, resulting in that ON-OFF of the laser pulse can freely be controlled and a free pattern can be formed.

Since a roll rotation and a pulse beam ejecting timing are electrically coupled, it is possible Ito make an accurate pattern of projections and 4 4 indentations without having any pattern displacement not depending upon an accuracy of 4o speed control of a motor or the like.

11 Since a pattern of projections and indentations is formed by an etching process, there is no austenite layer through melting at the formed projections and indentations of the roll and so the rolling roll having projections and Sindentations has a superior anti-wear characteristic.

-36- -23- It has a simple step, requires no dark room work such as a photo-etching or the like, and an automatic operation can be realized and its manufacturing cost is less expensive due to its labor saving.

According to the present invention, a rolling roll having various fine projections and indentations pattern which could not be manufactured by the conventional type of shot-blasting process or a laser processing can be manufactured effieicnetly and less expensive by a photo-etching process. In this case, an accurate and more fine pattern forming can be performed with the Q switch and YAG laser. Accordingly, it is possible to provide a less-expensive large amount of steel sheets which have a superior surface characteristic in press forming or ornamental 1% characteristic by using this rolling roll.

Mext, the steel sheets provided with a surface pattern by applying the above-mentioned roll and its manufacturing method will be described.

As described above, the conventional roll for use in manufacturing a steel sheet having micro-patterns on its surface is given a rough surface through a shot blasting or a laser beam. The conventional type of roll -37- -24j may not accomplish the desired object of the present invention. In view of this fact, an etching work is applied in order to adopt it to the above-mentioned object and this etching process is applied to the rolling roll.

That is, as shown in a process figure of Fig.

17, a resist is applied to the roll surface and coated thereon, a film having a desired pattern, for example, is applied to cover the surface, and then the roll is exposed to light and developed, thereafter an etching process is applied or a laser beam is radiated against o a o g the resist in a desired pattern to remove the resist, 6 and then an etching work is performed to apply a pattern 06 of projections and indentations on the roll as shown in Fig. 16. This roll is used to perform skin pass rolling ao for a cold rolled steel sheet. The pattern of 0o projections and indentations thus obtained on the steel o sheet is also shown in Fig. 16.

cpo Checking of these shapes of projections and indentations of the roll surface apparently shows that a i quite superior accurate motif' with flat top projections 606 ois formed notwithstanding of a comparison with Fig. 5 of Japanese Patent Publication No.62-11922 and Fig. 1 of Japanese Patent Laid-Open No.62-168602.

-38- L I- 'L-i I Lubricant oil was applieO to the surfaces of these steel sheets and a press machining characteristic was evaluated. The evaluation method was carried out such that as shown in Fig. 18, 100 kgf of a pushing force was added to a tool 61 having a spherical surface with an extremity end of 20 mmR from both sides of a test piece 60 in advance, and then a sliding resistance was measured by a sliding test method for pulling out the test piece in a direction 63 perpendicular to the pushing force 62. Of course, as described above, such a o. test piece as one having a low resistance is superior in 4 I a press forming characteristic.

In Fig. 19 is shown a result of experiment of the sliding resistance. As shown in Fig. 19, it is a feature of the present invention that a sliding resistance of the steel sheet having pond-like T indentations is low and further a substantial constant till sliding resistance appears without having any relation with a surface roughness Ra. In turn, in case of a pattern having groove-like indentations, a sliding resistance is quite high and this sliding resistance is increased as Ra is increased. The steel sheet manufactured by the conventional type of shot blast or a roll provided with projections and indentations through -39- -26- Lubricant oil was applied to the surfaces of these steel sheets and a press machining characteristic was evaluated. The evaluation method was carried out such that as shown in Fig. 18, 100 kgf of a pushing force was added to a tool 61 having a spherical surface with an extreiity end of 20 mmR from both sides of a test piece 60 in advance, and then a sliding resistance was measured by a sliding test method for pulling out the test piece in a direction 63 perpendicular to the pushing force 62. Of course, as described above, such a S test piece as one having a low resistance is superior in a i a press forming characteristic.

44, 4 1 In Fig. 19 is shown a result of experiment of a" 'r the sliding resistance. As shown in Fig. 19, it is a feature of the present invention that a sliding I o°o resistance of the steel sheet having pond-like Sindentations is low and further a substantial constant aaa sliding resistance appears without having any relation with a surface roughness Ra. In turn, in case of a pattern having groove-like indentations, a sliding resistance is quite high and this sliding resistance is increased as Ra is increased. The steel sheet manufactured by the conventional type of shot blast or a roll provided with projections and indentations through -39- -27i' oe O 0 0 o 003 o a 00, 0, 0o 0 a a 0) 02 a C' aac o oC' a laser dulling process is illustrated in the figure as an example of comparison (the material processed by the prior art). These are positioned .i intermediate part of the steel.sheet having surface indentations such as the abovementioned pond-like or groove like ones.

This mechanism can be construed as follows.

When the tool and the steel sheet are slid to each other, the lubricant oil held in the indentations is applied with a pressure through the tool and then discharged to the sliding surface by that pressure so as to realize an effect of lubrication.

In turn, in case of groove-like indentations, the oil is not enclosed in them, so that the lubricant is simply discharged together with the tool along the groove-like indentations, resulting in that no supplying of oil to the most important part is carried out.

Accordingly, the sliding resistance is high and it is not suitable for the press forming work.

As regards influence of the steel sheet manufactured by the shot blast roll in the conventional type of system against the sliding resistance, it can be explained if the projections and indentations in the surface are random in shape and the structure of the projections and indentations is considered as one in L-*1 2.ndentations are mixedly present to each other. In case of a steel sheet manufactured by the laser dulling roll, its indentation shape is sharp and an edge of the indentation is cut and raised, so that the lubricant is hardly discharged if any pressure occurs. Accordingly, the conventional type of material shows a sliding resistance at the intermediate part of the steel sheet having groove-like indentations and pond-like indentations.

Then, a sharpness of reflection characteristic will be described. DOI before and after the coating of these steel sheets is indicated in Fig. 20. A coating condition is set such that after a background part is processed, then an electro-deposition is applied to S perform a vertical coating once. As shown in Fig. Jthe material having a high DOI before coating operation shows a high DOI value also after coating operation is carried out. The material having a high DOI value before coating operation has a high rate of flat areas and has a low surface roughness.

In Fig. 20, a checking of an improved margin of DOI after coating from the same DOI before coating shows that an improved margin of the steel sheet having -41vj I 1 coditon s se suh tat fte a bckgoun pat i J prcesed, henan eecto-dposiionis aplid t -29groove-like indentations is high and the projections and indentations in the surface are easily made uniform. In case of a steel sheet made by a shot blast roll, DOI values before and after coating operations are low and its sharpness of reflection characteristic is deteriorated. In case of the steel sheet got through a laser dulling process, an improved margin of DOI value through a coating process is low.

In view of the knowledge got through the basic experiment as described above, it is made apparent that the pattern having the pond-like indentations and the 4 lt I, continuous groove-like indentations arranged on the t ,surface of the steel sheet is the most superior one as t the steel sheet satisfying both press machining characteristic and sharpness of reflection.

As the arranging form of this pattern, two cases q 1 4 I can be provided. One of them (a case 1) is a pattern in which pond-like indentations 51 ar2 groove-like indentations 52 are alternatively arranged as shown schematically in Fig. 11. In case of performing a press Smachining operation, the lubricant held within the pondlike indentations 51 in Fig. 11 receives pressure from the tool, discharged to a flat part 53 where the tool is contacted with the material so as to realize an -42l li! effective lubricating characteristic. In turn, during a coating operation, the groove-like indentations 52 may become a coating flow path, resulting in making a uniform coating and a sharpness of reflection is improved.

Another case (a case No. 2) is made such that the pond-like indentations and groove-like indentations are formed on the separate positions in the steel sheet in response to a shape of the press formed product.

In case that the steel sheet 54 is press formed, 1 the most important location is a part 54a of the steel 4 sheet contacting with the die 57 shown in Fig. 14 and in turn a location where a sharpness of reflection characteristic is required is a part 54b of the steel sheet corresponding to a punch surface 55. Accordingly, in case that the shape of the formed product is well- I 2 known one, pond-like pattern is formed at the steel sheet 54a and the groove-like pattern is formed at the part 54b.

These steel sheets are got through a skin pass rolling by rolls having projections and identations ,4 oppesite to those of the steel sheets. In this case, a desired steel sheet can be manufactured through a skin pass rolling shown in Fig. 16 by rolls having both -43- -31- 'AJ T OS indentations of pond-like and groove-like. Otherwise, the skin pass rolling is applied with one roll formed with either the pond-like indentations or groove-like indentations and then with another roll formed with either indentations opposite to the former.

A method for applying a preferable pattern to the steel sheet during a reskin pass rolling will be described as follows. For example, a steel sheet skin pass rolled once with a roll having a rectangular indentation with one side length is transferred with groove-like indentations so as to enclose the projections with one side Under this condition, 4although the sharpness reflection characteristic is 4 superior, a press rolling workability is not always superior. Accordingly, it is necessary to form only the pond-like indentations separated through the second skin 4.144 pass at the projections with one side Due to this fact, during second skin pass operation, the roll formed 44 with the groove-like indentations (in other words, the projections with one side is applied, it is necessary to fulfill the following equation In this equation, e denotes a pitch of the projection and indentation in the second skin pass roll.

e b (1) -44- 1s 11 -32- 6-_6 !i :i r In Fig. 21 is illustrated schematically a positional relationship of these elements. In Fig.21, a reference numeral 73. denotes a sectional surface of a surface part of the steel sheet got through the first skin pass rolling in which a projection 73 with a side length is formed together with the groove-like indentations 72. That is, the first time skin pass roll is used with a roll formed with a rectangular indentation with a side length In case that this steel sheet is provided with pond-like indentations 76 with a pitch e and a width (b) spaced apart by using a second skin pass roll 75 having the groove-like projections 74 with a pitch e and a width the above-mentioned equation must be fulfilled.

Fig. 22 indicates a case in which the steel t~I sheet 71 got through the first skin pass rolling has pond-like indentations 76 spaced apart with a pitch e and a width As shown in Fig. 22, the spaced-apart pond-like indentations 76 with a pitch e and a side (b) til are applied to the steel sheet 71 through a first skin 4 pass rolling and then a roll having spaced-apart pondlike indentations 77 with a side so as to fulfill -33- ~~i the above-mentioned equation through the second skin pass rolling may also be used.

Then, an appropriate size of these minimum surface pattern will be described.

In order to prevent a trouble such as cracks i during a press forming work, it is necessary to keep lubricant in the pond-like indentations. In order to prevent a galling of die as described above, it is necessary to provide indentations to trap the worn powders generated during press working operation. The lubricant oil stored in the pond-like indentations 51 shown in Fig. 11 flows out to the flat part 53 so as to prevent a metallic contact between the flat part 53 and the tool. During this operation, it is assumed that a minimum film thickness of the lubricant oil required at its crontacting surface is about 1 pm, and further it is assumed that surface areas of the pond-like indentations 51 and the flat part 53 are defined as Sa and Sb, a depth d (pm) of the pond-like indentations 1 can be expressed as follows, d a (Sb/Sa) 1* That is to say, when the area of the flat portion 53 is larger than that of the pond-like indentations 51, a depth of the pond-like indentations is deep and in turn -46- -34i i in case that the former is opposite to the latter one, it may be shallow. Provided that if a value of Sb/Sa is too high, as described above in reference to the laser dulling roll process, it is apt to have a situation that a sufficient amount of lubricant oil is not supplied to the flat part 53 and in this case it may be expressed as (Sb/Sa) 5 A decreasing of the value (Sb/Sa) may result in an increasing of space for keeping lubricant oil in the pond-like indentations and this is effective in performing a press forming work. However, in turn the area of the flat surface 53 is decreased and the sharpness of reflection is deteriorated. Provided that I if the work passes through the coating process, the sharpness of reflection after coating is improved more under an effect of side grooves.

In this case, it is assumed that this problem is understood as a wide one and even if the coating is not o applied, a better sharpness of reflection is assured.

According to this technical concept, a relation of (Sb/Sa) 0 is appropriate. So, the following relation of (Sb/Sa) 5 -47- 4 4 is appropriate. As regards the depth as described above, a relation of d (Sb/Sa) can be'applied.

However, if it is assumed that a trap function for iron powder caused by the galling of die is considered, a relation of d >2.0 (pm) is preferable.

Provided that the above foregoing is a mere example, and in case that an excessive drawing work is applied for a bath tub, for example, or when a part of which die galling becomes a quite problem, a relation of d >10.0 (pm) is also generated and in case of a low amount of formation, the value is low and a case that a relation of (Sb/Sa) Sis generated.

As regards a shape of the pond--like indentations, a pattern shown in Fig. 11 is naturally one example of it and so it is not necessary to restrict it to a rectangular shape. Although the plane surface as described above can be accomplished by using the roll manufactured by an etching process of which one example is illustrated in Fig. 17, its depth is necessarily i varied in response to a skin pass rolling condition.

Then, an influence of the skin pass rolling rate will be described. As the skin pass reduction rate is -48- 3 -36ii increased, as shown in Fig. 12, the projections and indentations of the roll are deeply transferred to the steel sheet, resulting in that a predetermined shape of projections and indentations of the steel sheet can easily be attained. If the rate of rolling is low, a rate of transfer is low and a predetermined shape may not be attained. Accordingly, it is preferable to have a rate more than 0.3 Provided that if the rate of reduction is increased, as shown in Fig.13, a mechanical characteristic of the steel sheet itself (a yield stress Ys and an elongation Ef) is deteriorated and a press workability is deteriorated. That is, Ys is increased and Ee is decreased. With foregoing reasons, it is preferable to perform the skin pass rolling within a S range of reduction rate shown in Fig. 12, i.e. within a reduction rate of 2.0 tat I Then, a characteristic of the steel sheet of the preferred embodiment of the present invention will be Icr described in reference to its example.

One example of a result of the present invention titi in which a structure of projections and indentations of 4 the present invention are applied to a low carbon aluminum killed steel sheet with a thickness of 0.6 mm is illustrated in Fig. 15. The roll at this time is one -49-

L:I

-37- ,-ne in whicn a cold rolling breight roll Cr steel) is provided with projections and indentations opposite to those of Fig. 15 through the above-mentioned etching.

Rz of this roll (a maximum difference in steps of projections and indentations) is 20 pm. As a result of rolling with a reduction rate of 0.6 to 1.5 a value of Rz of the steel sheet is 4 to 10 pm. A deterioration of the mechanical characteristic was also a level having no problem at all.

Each of the test results of a sliding test and a coating test by using this steel sheet is indicated in t Figs. 19 and 20, respectively. A sliding resistance for showing a performance of the press forming characteristic is the same level as that of the pondlike indentations showing a quite low sliding resistance under a preliminary experiment. Also as regards a sharpness of reflection, a result of the same level as that of the groove-like indentations could be attained.

The thin steel sheet of the present invention has a structure of projections and indentations which is superior in sharpness of reflection after coating and it may easily be manufactured by using the rolling roll transferring the pattern of projections and indentations through a skin pass rolling process.

L

Claims (4)

1. THE CLAIMS DEFINING THE INVENTION ARE AS FOLLOWS: 1) A process of forming a micro-pattern on the surface of a rolling roll comprising the steps of: Forming a film of acid corrosion-resistant resin on the rolling roll surface by applyir. a mixture of an acid corrosion-resistant resin solution and a light-absorbing agent; o tt Marking off a desired pattern on this film o o of resin, using a Q-switched and a YAG laser having an Soutput of 5 to 100 W on an average; and 0 0 44 Thereafter, performing etching to form the desired pattern on the roll surface. o

2) A process of forming a micro-pattern on the S, surface of a rolling roll according to claim 1) in which a resin film thickness formed on the roll surface is 1 to 10 pm.

3) An equipment for forming a micro-pattern on the surface of a rolling roll comprising; a roll rotating device for supporting the roll and rotating the same; -51- LS L 1 -39- a coating device for coating resin-like substance to said roll surface; a laser plotter comprised of a laser oscillator for generating a pulse-like laser in response to an electrical signal and a device for guiding said laser to the roll surface and focusing the laser; an etching device for etching a roll surface processed by said laser plotter; a moving device for moving independently or simultaneously each of said coating device, laser plotter and etching device in an axial direction of the roll; an image processing device for making a pattern to be formed on a roll surface, dividing the S' pattern into some dots to make a binary encoding ~and to make a series of plot data; and a control device for instructing a pulse ejecting timing of sai**7 laser plotter in response to a signal sent from a device for detecting a rotational angle of the roll and said plot data. -52- I 1 ^OJ^ :i

4) An equipment for forming a micro-pattern on the surface of a rolling roll according to claim 3) in which; the laser plotter is provided with YAG laser oscillator, a first optical modulator arranged between two resonant mirrors in said laser oscillator, and a second optical modulator arranged in the midway of a laser beam path out of the laser oscillator; t f the roll rotating device is provided with a I device for detecting a rotational angle of the roll composed of a rotary encoder; and the control device is provided with an optical modulator driver for driving said first optical modulator in response to a clock signal of said rotary ex:coder, and with an optical modulator driver for I driving said second optical modulator in response to a signal representing the image, which signal is produced in response to the clock signal. An equipment for forming a micro-pattern on the surface of a rolling roll according to claim 3) or 4) in which the laser plotter is provided with a spectroscope for dividing a laser beam into a plurality of lines -53- -41- Ii between the laser oscillator and the second optical modulator and further with a pluraritY of second optical modulators in correspondence with the number of divided laser beams. Dated this 22nd day of May 1991 KAWASAKI STIEBL COPOATION By their Patent Attorney GRIFFITH HACK CO. 0 0 0 00 04 00 0 0 0 04 0 0 0 0 0E~. 00 09 00 0 0 0 *0 0- 00 0 0 0 0 0 t -54-