JP2005007448A - Apparatus and method for machining roll - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a laser beam dull-machining apparatus and a machining method with which a high precise projecting pattern is formed on the surface of a roll for rolling metal. <P>SOLUTION: In the apparatus for machining the roll, with which the fine recessing and projecting pattern is formed on the surface of the rolling roll while shifting a machining head to the rotated rolling roll in the roll axial direction by using a laser beam oscillator, this apparatus for machining the roll and its method are performed, with which after coating paste obtained by melting metal powder on the roll surface with uniform thickness, or while spraying a fixed quantity of metal powder near the machining surface of the roll, the fine projecting shape is formed on the roll surface by irradiating the surface with the pulse laser beam. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

【００２２】
円錐台絞り成形試験は、図５に示すプレス成形を行い、ブランク押さえ圧を変化させてプレス材を観察することで、シワ発生しない最低ＢＨＦと、ワレ発生しない最高ＢＨＦを求めた。なお、プレス前のブランク径は２００ｍｍφ、ダイス径１４０ｍｍφ、ダイス肩Ｒ１０ｍｍ、ポンチ径８０ｍｍφ、ポンチ肩Ｒ１０ｍｍ、潤滑油として出光Ｚ３を塗布し、成形高さは４５ｍｍとした。
円錐台絞り成型試験による成形性の評価結果は表２のとおりである。実施例１〜２は、比較例１〜２に対して成型可能範囲が拡大しており、本発明のロールを使用する事により鋼板の加工特性が向上する事を示している。
【００２３】
【表２】

【００２４】
【発明の効果】
本発明のロール加工装置及び加工方法により、圧延ロール表面に高精度な微小凸テクスチャーを形成する事ができる。該ロールを用いて鋼板を圧延する事で、鋼板表面に微小凹テクスチャーを形成し、プレス成型時のワレやかじりを抑制し、かつ、プレス成型時の板押さえ圧変更の必要性が少ない、成形性良好な金属板を製造する事ができる。
【図面の簡単な説明】
【図１】本発明の加工装置の構成図である。
【図２】本発明請求項１に記載の加工装置の加工点付近の拡大図である。
【図３】本発明請求項３に記載の加工装置の加工点付近の拡大図である。
【図４】本発明請求項５に記載の加工装置の加工点付近の拡大図である。
【図５】実施例２に記載の円錐台絞り成型試験の説明図である。
【符号の説明】
１：レーザ発振器 ２：加工ヘッド
３：塗布装置 ４：噴射ノズル
５：加工テーブル ６：ロール回転装置
７：ロール ８：走査用ミラー
９：ｆθレンズ １０：レーザ伝送ミラー
ＬＢ：レーザ光 ＭＰＰ：金属粉末ペースト
ＭＰ：金属粉末[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a roll processing apparatus that performs a dull process for forming a fine convex pattern on the surface of a metal rolling roll with a laser oscillator, and a roll processing method using the roll processing apparatus.
[0002]
[Prior art]
As a method for improving the press workability of a steel sheet, Patent Document 1 discloses a method for forming a minute concave pattern on a steel sheet at a high density and ensuring slippage of the steel sheet surface during pressing by an oil sump effect by the recess. Has been. As a specific method for imparting a concave pattern to a steel plate, a method of transferring a fine pattern on the surface of a rolling roll to the steel plate surface during rolling is widely used. As a method for forming a fine pattern on the surface of the rolling roll, there are a shot dull method, a discharge dull method, a method using etching, a laser dull method, and the like.
[0003]
The shot dull method and the discharge dull method have poor controllability on the fine pattern formation on the roll surface, and it is impossible to build a roll surface pattern that realizes the concave pattern transfer required to improve the press workability of the steel sheet. is there. Further, the size of the concave pattern is as large as about several hundreds μm, and the transferred concave pattern deteriorates the flatness of the steel sheet surface, and there is a disadvantage that the appearance quality is remarkably impaired. According to the etching method, it is possible to form a fine pattern with high accuracy, but there is a problem that the process is complicated and the processing cost is high.
[0004]
As an invention for forming a fine pattern on the surface of a rolling roll by laser processing, as disclosed in Patent Document 2, there is a method of forming a crater trace in which molten metal is raised in an annular shape in a laser irradiation portion. The present invention aims to improve press workability by forming an oil reservoir by forming an annular concave pattern on the steel sheet by transferring the crater marks formed on the roll surface to the steel sheet. . However, since the concave pattern is formed by the crater, the density of the concave portions is restricted, and a high-density concave pattern necessary for improving press workability cannot be formed. In addition, in order to form a uniform annular crater portion in the laser irradiation portion, complicated processing conditions and a processing optical system are required, resulting in a large apparatus cost.
[0005]
Patent Document 3 discloses a method of forming minute protrusions on the roll surface by combining laser processing and Cr plating. According to the present invention, it is possible to transfer and form a minute concave pattern on the surface of the steel sheet, but once the resin film is formed on the roll surface, Cr plating is applied to the portion where the resin film is locally removed by laser irradiation. After that, it is necessary to remove the remaining resin film, and there is a problem that the process is complicated and a great amount of time and cost are required for roll processing.
[0006]
[Patent Document 1]
JP-A-5-69006 [Patent Document 2]
Japanese Patent Publication No. 3-27313 [Patent Document 3]
Japanese Examined Patent Publication No. 6-35676 [0007]
[Problems to be solved by the invention]
An object of the present invention is to solve the above-mentioned problems of the prior art and to provide a laser dull processing apparatus and a processing method for forming a highly accurate convex pattern on the surface of a rolling roll. By rolling the steel sheet using the roll processed by the apparatus of the present invention, it is possible to transfer a fine and high-density concave pattern on the steel sheet surface and improve the press workability of the rolled steel sheet.
[0008]
[Means for Solving the Problems]
The gist of the present invention is that
The laser beam output from the laser oscillator is transmitted to the machining head, the laser beam is collected by the machining head, the laser beam is irradiated onto the surface of the rotating metal rolling roll, and the machining head is moved in the roll axis direction. In a roll processing apparatus that moves and forms a fine uneven pattern on the surface of the metal rolling roll, the roll processing apparatus includes a coating apparatus that applies a paste in which metal powder is dissolved on the surface of the metal roll, and is irradiated with laser light. A roll processing apparatus characterized by melting a metal powder applied to the surface of the roll and welding and forming a minute convex pattern on the surface of the metal roll, or
The laser beam output from the laser oscillator is transmitted to the machining head, condensed and irradiated on the surface of the metal rolling roll rotated by the machining head, and the machining head is moved in the roll axis direction, and the metal rolling roll In the roll processing apparatus for forming a fine uneven pattern on the surface of the metal roll, the metal roll is provided with a metal powder jet nozzle for spraying a certain amount of metal powder from the tip to the surface of the metal roll, and the surface of the metal roll is irradiated with laser light. A roll processing device characterized by melting the sprayed metal powder to weld and form a fine convex pattern on the surface of the metal roll;
In the above roll processing apparatus, the condensing optical system for condensing the laser beam on the surface of the metal rolling roll is a roll processing apparatus characterized by comprising a beam operation mirror and an fθ lens,
After applying the metal powder paste on the surface of the metal rolling roll in advance using the roll processing apparatus, the surface of the metal rolling roll is irradiated with laser light on the surface of the metal rolling roll. A roll processing method characterized by forming a minute convex pattern on the surface of the metal rolling roll,
Using the roll processing apparatus, the metal rolling is performed by irradiating the metal powder blown by the injection nozzle onto the surface of the metal rolling roll and welding the metal powder to the surface of the metal rolling roll. A roll processing method characterized by forming a minute convex pattern on the surface of the roll;
It is a roll processing method characterized in that the metal powder is a chromium powder, and is a metal rolling roll having a fine convex pattern on the surface processed using any one of the roll processing methods described above.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is a schematic view of the apparatus of the present invention. The rolling roll processing apparatus includes a laser oscillator 1, a laser condensing processing head 2, a coating apparatus 3 for applying a metal powder paste to the roll surface, or an injection nozzle 4 for injecting metal powder onto the roll surface shown in FIG. , The processing table 5 equipped with the processing head and the coating device or the metal powder injection nozzle, and the roll rotating device 6. The processing table 5 includes transverse tables TX and TY and an upper and lower table TZ for focus adjustment.
[0010]
Laser processing is performed over the entire roll surface by irradiating the roll surface with the laser beam LB while rotating the rolling roll 7 by the roll rotating device 6 and moving the processing head 2 in the roll axis direction by the traverse table TX. The processing head 2 is installed on the upper and lower table TZ. The position of the upper and lower tables TZ is automatically controlled based on the measured value of a sensor (not shown) that measures the distance from the roll surface, and the optimum focal length is always maintained during roll processing.
[0011]
FIG. 2 is an enlarged view of the vicinity of the roll processing portion of FIG. The metal powder paste application device 3 is installed at a position preceding the processing head 2 and applies a metal powder paste layer MPP having a certain thickness to the roll surface (A region in the figure). The coating device 3 includes a nozzle 31 that feeds the paste from the tip at a constant speed, and a scraper plate 32 that extends the fed paste so as to have a uniform thickness on the surface of the rolling roll. The metal powder may be mixed in a volatile solvent and sprayed onto the roll surface in a mist state. The paste film thickness can be changed by adjusting the gap between the scraper plate and the roll surface. Thereafter, the metal powder in the paste is melted and adhered to the roll surface by the pulse laser beam LB irradiated from the processing head 2 to form a fine convex pattern. By applying the paste to the surface of the rolling roll with a uniform thickness, a melt-convex pattern with a uniform height is formed during laser irradiation, and the depth of the concave pattern transferred to the steel sheet during steel plate rolling is uniform, resulting in workability. It is possible to produce a steel sheet with excellent appearance quality such as sharpness.
A region B in FIG. 2 is a laser irradiation completion portion. C in FIG. 2 is an enlarged view of the roll surface. In FIG. 2, the metal powder paste and the laser irradiation are configured to be performed at the same time. However, the metal powder paste may be applied to the roll surface in a separate process, and then the laser irradiation process may be performed.
[0012]
FIG. 3 is a diagram illustrating the vicinity of a laser processing portion of a processing apparatus of the type for injecting metal powder of the present invention. From the metal powder injection nozzle 4, the metal powder MP is injected at a constant speed (constant weight g / sec) near the laser irradiation part on the roll surface. The ejected metal powder is melted by the laser beam LB irradiated from the processing head 2 and adheres to the roll surface to form a fine convex pattern D on the roll surface.
[0013]
FIG. 4 shows the vicinity of the laser beam scanning optical system of the present invention. The laser beam LB is reflected by the scanning mirror 8 and then condensed on the roll surface by the fθ lens 9. The metal powder injection device 4 injects the metal powder MP at a constant speed (constant weight g / sec) in a range covering the entire laser scanning region on the roll surface. The jetted metal powder is melted by the laser beam LB irradiated from the processing head, adheres to the roll surface, and forms a fine convex pattern D on the roll surface. As the scanning mirror 8, a galvanometer mirror or a polygon mirror can be used. By performing roll processing while scanning the beam with this configuration, the roll processing speed can be improved. Further, it is desirable to use an fθ lens as a condensing lens in order to suppress a focal position change that occurs during laser beam scanning.
The reason why the metal powder is sprayed at a constant speed is to make the density of the convex patterns formed on the roll surface uniform. Thereby, the density of the concave pattern transferred and formed on the surface of the rolled steel plate becomes uniform, and a good steel plate free from variations in appearance quality and processing characteristics can be manufactured.
[0014]
The size of the metal powder used in the present invention is preferably a particle size of 200 μm or less, and desirably a metal powder having a uniform diameter. Moreover, when apply | coating to the roll surface in paste form or a mist form, it is desirable to make a coating film thickness into about 5 micrometers-200 micrometers. The coating thickness of the metal powder film is set to 5 μm or more because the height of the convex shape formed by welding the metal powder to the roll surface by laser irradiation is 3 μm or more, and is transferred to the rolled steel plate. This is because the depth of the sheet becomes shallow and the effect of improving the press working characteristics cannot be obtained. In addition, the metal powder particle size and the coating thickness of the metal powder film were set to 200 μm or less because when the size of the metal powder is increased or the coating thickness is too thick, it takes time to melt by the laser and roll processing This is because, as time increases, the size of the convex shape formed on the roll surface becomes large, which adversely affects the appearance characteristics such as the sharpness of the rolled steel sheet rolled with this roll. Further, if the diameter of the metal powder is different, it becomes difficult to control the amount of the metal powder ejected from the nozzle, and the variation of the minute convex pattern shape (height and diameter) formed on the surface of the rolling roll. When the steel sheet is rolled, the concave pattern transferred and formed on the surface of the steel sheet deteriorates quality such as variation, appearance and processing characteristics.
Further, when chromium powder is used as the metal powder, the wear resistance during rolling is improved, the rolling life is extended, and the effect of reducing the roll cost is obtained.
[0015]
The fine convex shape formed on the roll surface is transferred to the surface of the steel sheet rolled by the roll processed by the apparatus of the present invention, and discrete depressions (concave shapes) are formed in the flat surface. The steel sheet thus obtained has a characteristic of storing lubricating oil in the recess during press forming, exhibits a high friction reducing effect, and exhibits excellent press characteristics.
[0016]
【Example】
[Example 1]
In the roll processing apparatus of the present invention illustrated in FIG. 1, a paste film was applied to the roll surface with a coating thickness of 30 μm by a metal powder paste coating apparatus. A 50% (weight ratio) mixture of chromium powder having a particle size of 20 μm was used.
The roll surface coated with the metal powder paste was irradiated with a pulsed YAG laser from the processing head to process the entire surface of the rolling roll. The pulse laser was made to have a repetition frequency of 5 kHz, a pulse energy of 10 mJ / p, and a condensing diameter of 30 μm. As a result, an island-shaped convex pattern having an average diameter of 25 μm, an average height of 10 μm, and an interval of 80 μm was formed on the roll surface by welding of the chromium powder. After the laser irradiation, the unmelted metal powder paste remaining on the roll surface was removed with a washing brush.
Using this roll, skin pass rolling was performed on a hot-dip galvanized steel sheet having a thickness of 0.8 mm at a reduction ratio of 1%. Concave textures were formed at an interval of 80 μm.
[0017]
[Example 2]
In the roll processing apparatus of the present invention illustrated in FIG. 4, the entire roll surface was processed while spraying chromium powder having a particle size of 20 μm near the laser irradiation portion from a metal powder injection nozzle. The pulse laser was made to have a repetition frequency of 5 kHz, a pulse energy of 10 mJ / p, and a condensing diameter of 30 μm. As a result, an island-shaped convex pattern having an average diameter of 25 μm, an average height of 10 μm, and an interval of 80 μm was formed on the roll surface by welding of the chromium powder. Unmelted metal powder remaining on the roll surface was removed by a brush and air jet. Using this roll, skin pass rolling was performed on a hot-dip galvanized steel sheet having a thickness of 0.8 mm at a reduction ratio of 1%. Concave textures were formed at an interval of 80 μm.
[0018]
In the embodiment, a YAG laser is used as the processing laser. However, the laser required for the present invention is not limited to the YAG laser. Any laser having a sufficient output for processing metal products, such as a carbon dioxide laser, a semiconductor laser, or a fiber laser, can be used in the present invention. In the figure of the present invention, the laser beam is mirror-transmitted from the laser oscillator to the machining head. However, when a YAG laser or a semiconductor laser is used, the laser beam may be transmitted by an optical fiber.
[0019]
The reason why the pulse laser is used in the embodiment is that the pitch of the minute convex pattern formed on the surface of the rolling roll can be controlled more precisely. Although the present invention can be implemented even if a continuous output laser is used, in this case, since laser irradiation is continuously performed, in order to control the formation pitch of the minute convex pattern, a metal present on the surface of the rolling roll is used. It is necessary to control the powder at several tens of μm. On the other hand, when using a pulse laser, if the metal powder is applied to the surface of the rolling roll with almost no gap, the melting of the metal powder can be easily controlled by the frequency of the laser output. The pitch of the fine pattern to be formed can be easily controlled.
[0020]
Hereinafter, the result of the press workability evaluation of the steel plate manufactured in the above example will be described. Table 1 shows the specifications of the steel sheet used for the evaluation. The area and depth of the recess are calculated by image processing from a laser type three-dimensional microscope image, and Ra, PPI, and Wca other than the recess are measurement lines that do not pass through the recess in the laser type three-dimensional microscope. Was calculated according to JIS B 0601. As a method for evaluating formability, a truncated cone drawing test was conducted.
[0021]
[Table 1]

[0022]
In the frustoconical drawing test, press molding shown in FIG. 5 was performed, and the blank B press pressure was changed and the press material was observed to obtain the lowest BHF without wrinkles and the highest BHF without cracks. The blank diameter before pressing was 200 mmφ, the die diameter was 140 mmφ, the die shoulder R10 mm, the punch diameter 80 mmφ, the punch shoulder R10 mm, Idemitsu Z3 was applied as a lubricating oil, and the molding height was 45 mm.
Table 2 shows the evaluation results of formability by the truncated cone drawing test. Examples 1-2 show that the moldable range is expanded compared to Comparative Examples 1-2, and that the processing characteristics of the steel sheet are improved by using the roll of the present invention.
[0023]
[Table 2]

[0024]
【The invention's effect】
By the roll processing apparatus and the processing method of the present invention, a highly accurate fine convex texture can be formed on the surface of the rolling roll. Forming a micro-concave texture on the steel sheet surface by rolling the steel sheet using the roll, suppressing cracks and galling during press molding, and reducing the need to change the plate pressing pressure during press molding A metal plate with good properties can be manufactured.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of a processing apparatus of the present invention.
FIG. 2 is an enlarged view of the vicinity of a processing point of the processing apparatus according to claim 1 of the present invention;
FIG. 3 is an enlarged view in the vicinity of a processing point of the processing apparatus according to claim 3 of the present invention.
FIG. 4 is an enlarged view in the vicinity of a processing point of the processing apparatus according to claim 5 of the present invention;
5 is an explanatory diagram of a truncated cone drawing test described in Example 2. FIG.
[Explanation of symbols]
1: Laser oscillator 2: Processing head 3: Coating device 4: Injection nozzle 5: Processing table 6: Roll rotating device 7: Roll 8: Scanning mirror 9: fθ lens 10: Laser transmission mirror LB: Laser light MPP: Metal powder Paste MP: Metal powder

Claims (7)

The laser beam output from the laser oscillator is transmitted to the machining head, the laser beam is collected by the machining head, the laser beam is irradiated on the surface of the rotating metal rolling roll, and the machining head is moved in the roll axis direction. In the roll processing apparatus that moves and forms a fine uneven pattern on the surface of the metal rolling roll, the apparatus includes a coating apparatus that applies a paste in which a metal powder is dissolved on the surface of the metal roll, and irradiates the laser beam with metal. A roll processing apparatus characterized in that a metal powder applied to the surface of a roll is melted to form a minute convex pattern on the surface of the metal roll. A laser beam output from a laser oscillator is transmitted to a processing head, condensed and irradiated on the surface of a metal rolling roll rotated by the processing head, and the processing head is moved in a roll axis direction, and the metal rolling roll In the roll processing apparatus for forming a minute uneven pattern on the surface of the metal roll, the metal roll is provided with a metal powder jet nozzle for spraying a certain amount of metal powder from the tip to the surface of the metal roll, and the surface of the metal roll is irradiated with laser light. A roll processing apparatus characterized in that a fine convex pattern is welded and formed on the surface of a metal roll by melting the sprayed metal powder. 3. The roll processing apparatus according to claim 1, wherein the condensing optical system for condensing the laser beam on the surface of the metal rolling roll includes a beam operation mirror and an fθ lens. Roll processing equipment. After applying the metal powder paste to the surface of the metal rolling roll in advance using the roll processing apparatus according to claim 1 or claim 3, the surface of the metal rolling roll is irradiated with laser light, and the metal in the paste A roll processing method characterized by forming a fine convex pattern on the surface of the metal rolling roll by welding powder to the surface of the metal rolling roll. Using the roll processing apparatus according to claim 2 or claim 3, the metal powder blown to the surface of the metal rolling roll by the injection nozzle is irradiated with laser light, and the metal powder is applied to the surface of the metal rolling roll. A roll processing method characterized by forming a minute convex pattern on the surface of the metal rolling roll by welding. The roll processing method according to claim 4, wherein the metal powder is a chromium powder. The metal rolling roll which has a fine convex pattern on the surface processed using the roll processing method of any one of Claims 4-6.

Images