JP2006269013A - Laser printing method for disk - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a laser printing method for a disk, capable of applying good printing to a print layer without any interference of laser printing with the print layer. <P>SOLUTION: In the laser printing method for a disk, laser-printing is applied to a disk information recording medium with two transparent substrates stuck to each other, wherein one of the two transparent substrates is a recording side substrate including a recording layer, the other is a print layer side substrate, and outside laser-printing is executed on the outer peripheral side of the first transparent area of the recording side substrate while inside laser-printing is executed in a second transparent area smaller in diameter of the first transparent area in the print layer side substrate. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a disk information recording medium used as a recording medium, and more particularly to a laser printing method for a disk that prints production serial or the like on a disk information recording medium with a laser.

Currently, disk information recording media such as DVD-R, CD-R, and CD-RW are used for recording and reading information in an information processing apparatus.
These optical disc information recording media have a structure in which a recording side substrate having a recording layer and a printing layer side substrate are bonded together with an adhesive.

  In the disc information recording medium having such a structure, a manufacturing serial number is printed by a laser in a transparent area other than the recording layer as in Patent Documents 1 to 3 below. This manufacturing serial number is unique for each manufactured board. In the case where the two substrates are bonded to each other as in the optical disk information recording medium, the manufacturing serial number is printed on each substrate. A number will be printed.

JP 2002-269842 A Japanese Patent Laid-Open No. 11-53768 JP 2003-59114 A

  By the way, in the disk information recording medium, after the recording side substrate and the printing layer side substrate are bonded together, a printing layer as a base for printing with an ink jet printer or the like is formed on the surface of one surface. Then, a part of the printing layer may be covered with the printing formed on the substrate. Since the portion printed by the laser has minute irregularities, the surface of the printing layer formed on the printing also has irregularities, and there is room for improvement in that it is impossible to perform good printing. .

  The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a disk laser printing method capable of performing good printing on a printing layer without causing laser printing to interfere with the printing layer. There is.

  The above object of the present invention is a laser printing method of a disk for printing on a disk information recording medium formed by laminating two transparent substrates, wherein one of the two transparent substrates is a recording side substrate including a recording layer. Yes, the other is the printed layer side substrate, and the outer side printing in the first transparent area of the recording side substrate is laser-printed while the diameter is smaller than that of the first transparent area in the printed layer side substrate. This is achieved by a laser printing method for a disc, characterized in that the inner side printing is laser-printed in the second transparent region.

  Another object of the present invention is a laser laser printing method for printing a disk on a disk information recording medium formed by laminating two transparent substrates, wherein one of the two transparent substrates includes a recording layer. Before printing the recording side substrate to the other transparent substrate, the outer side printing is performed on the outer peripheral side region in the first transparent region that is circumferentially partitioned from the center of the recording side substrate. Then, the recording side substrate and the transparent substrate are bonded together, and laser printing is performed on the inner side of the second transparent region that is circumferential from the center of the transparent substrate and has a smaller diameter than the first transparent region. This is achieved by a laser laser printing method for printing, wherein a region excluding the second transparent region on the surface of the transparent substrate is a printed layer region on which a printed layer is formed.

  In the disk laser printing method of the present invention, the recording side substrate is laser-printed with the outer side printing on the outer peripheral side in the first transparent region, while the printing layer side substrate has a diameter larger than that of the first transparent region. The inner side printing is laser-printed in the second transparent region having a small. Then, in the state where the recording side substrate and the printing layer side substrate are bonded together, the radial direction positions of the outer side printing and the inner side printing with respect to the center of the disc are different, and the two do not overlap each other. In the printed layer side substrate, since the region excluding the second transparent region is the printed layer region on which the printed layer is formed, it is possible to avoid the inner side printing printed on the transparent substrate from being covered by the printed layer. Further, since the outer side printing is printed on the recording side substrate, the printed layer is not affected. In this way, in the disc formed by bonding the recording side substrate and the printing layer side substrate, the outer side printing and the inner side printing do not overlap each other, and the operator can easily see when manufacturing the disc. When the printing layer is formed later, the printing layer does not cover the outer side printing and the inner side printing, so that it is possible to avoid the occurrence of unevenness on the surface of the printing layer. Therefore, it is easy for the operator to handle at the time of manufacturing the disk, and a good printed layer can be formed.

  ADVANTAGE OF THE INVENTION According to this invention, the laser printing method of the disk which can perform favorable printing on a printing layer without the printing by a laser interfering with a printing layer can be provided.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
FIG. 1 is a diagram for explaining the configuration of a disc information recording medium according to the present invention. FIG. 2 is a diagram illustrating the recording-side substrate. FIG. 3 is a diagram illustrating a state where the recording side substrate and the printing layer side substrate are bonded together. FIG. 4 is a view showing a state in which the bonded disc information recording medium is viewed in plan from the recording side substrate side.

  A disk information recording medium (hereinafter also referred to as a disk) D is configured by bonding a recording side substrate 11 and a printing layer side substrate 12 with an adhesive (not shown). For example, an ultraviolet curable resin can be used as the adhesive.

  The recording-side substrate 11 has a structure in which a recording layer containing an organic dye and a reflection layer are stacked on a substrate having light transparency and a circular shape in plan view. As shown in FIG. 1, the recording side substrate 11 is divided into a recording area 13 in which a recording layer and a reflection layer are formed and a circumferential shape with a predetermined dimension in a radial direction from the central opening 11 a in a plan view. A first transparent region 14 is formed. In the first transparent region 14, the recording layer and the reflective layer are not formed. Here, the dimension of the first transparent region 14 of the recording side substrate 11 is 21 mm to 34 mm in diameter.

  The printed layer side substrate 12 is a circular plate-like member made of a light-transmitting resin material and having the same dimensions as the recording side substrate, and a central opening 12a is opened at a central portion in plan view. Yes. The central opening 12 a of the printing layer side substrate 12 is formed to have the same dimensions as the central opening 11 a of the recording side substrate 11.

  In a state where the printed layer side substrate 12 is viewed in plan, the second transparent region 16 is assumed to have a predetermined dimension in the radial direction from the center thereof, and a printed layer is formed in a region other than the second transparent region 16 later. Print layer region 17. In addition, it is not necessary to form a boundary line or a step portion at the boundary between the second transparent region 16 and the printing layer region 17 in particular. Here, the dimension of the 2nd transparent area | region 16 of the printing layer side board | substrate 12 shall be 15 mm-21 mm in diameter.

  Next, the procedure of the laser printing method for a disc according to the present invention will be described with reference to the drawings as appropriate. FIG. 5 is a flowchart showing the procedure of the laser printing method for a disc according to the present invention.

  First, laser printing is performed using a laser on the recording-side substrate on which the recording layer is formed. Laser printing includes numbers, letters, alphabets, symbols, codes, specific logos, and combinations of these.

Here, as a laser used in the present invention, for example, a YAG laser, a CO ₂ laser, a YVO ₄ laser, a semiconductor laser, or the like can be used. Laser printing is performed using a device such as a laser marker.

  In the first transparent area 14 of the recording side substrate 11, laser printing is performed with a laser marker on the outer peripheral side (recording area side). At this time, the print printed on the outer peripheral portion 14a is referred to as an outer print M1. As shown in FIGS. 1 and 2, a region indicated by a broken line in the first transparent region 14 indicates a second transparent region 16 of the printed layer side substrate 12. The outer side print M1 laser-printed on the first transparent region 14 of the recording side substrate 11 is radially outward from the broken line, that is, the diameter of the second transparent region 16 of the printed layer side substrate 12 to be bonded. Printing is performed on the outside in the direction (step S11). In other words, the outer print M1 is prevented from being printed on the inner peripheral portion 14b located radially inward from the broken line. In addition, what is indicated by the outer side printing M1 is, for example, a manufacturing serial number that specifies a manufacturing process and manufacturing conditions so that the recording side substrate 11 can be distinguished from other recording side substrates.

  Next, as shown in FIG. 1, the recording side substrate 11 and the printing layer side substrate 12 are bonded together with an adhesive (step S12). When an ultraviolet curable resin is used as an adhesive, the recording side substrate 11 and the transparent substrate 12 are cured by radical polymerization by irradiating the adhesive in the disk 10 with ultraviolet light from an ultraviolet light source such as a UV lamp. Let them stick together.

  After the recording side substrate 11 and the printing layer side substrate 12 are bonded together, as shown in FIG. 3, the inner side printing M2 is laser-printed on the second transparent region 16 of the printing layer side substrate 12 (step S3). ). At this time, M1 of the first transparent region 14 of the recording side substrate 11 is located outside the second transparent region 16 in the plan view of the printing layer side substrate 12. In this way, even if the inner side print M2 is printed inside the second transparent region 16, the inner side print M2 and the outer side print M1 can be identified by overlapping. It can be avoided. As shown by the inner side printing M2, for example, the manufacturing process and the manufacturing conditions are specified so that the disk 10 formed by bonding the recording side substrate 11 and the printing layer side substrate 12 can be distinguished from other disks. Manufacturing serial number.

  After the inner side printing M2 is laser-printed, a printing layer (not shown) is formed in the printing layer region 17 of the printing layer side substrate 12. Thus, the disc on which the printed layer is formed is completed.

  As shown in FIG. 4, when the bonded disc 10 is viewed from the recording side substrate 11, the outer side printing M <b> 1 can be visually recognized in the outer peripheral portion 14 a of the first transparent region 14, and the inner peripheral side The inner side print M2 on the printed layer side substrate 12 side can be seen through the recording side substrate 11 through the portion 14b.

  The positions in the circumferential direction in the first transparent regions 14 and 16 of the outer side printing M1 and the inner circumferential printing M2 are not particularly limited, and can be changed as long as they can be distinguished from each other. Further, the outer side print M1 and the inner circumference side print M2 may be formed at a plurality of different positions in the circumferential direction as long as the prints overlap each other so that they can be identified.

  In the disk laser printing method, the recording side substrate 11 is laser-printed with the outer side printing M1 on the outer peripheral side portion 14a in the first transparent region, while the printing layer side substrate 12 is subjected to the first printing. The inner side printing M2 is laser-printed on the second transparent area 16 having a diameter smaller than that of the transparent area 14. Then, in a state where the recording side substrate 11 and the printing layer side substrate 12 are bonded together, the radial direction positions of the outer side printing M1 and the inner side printing M2 with respect to the center of the disk 10 are different, and they may overlap each other. Absent. Then, in the printing layer side substrate 12, the area excluding the second transparent area 16 is set as the printing layer area 17 on which the printing layer is formed, so that the inner side printing M2 printed on the printing layer side substrate 12 is printed. The outer side printing M1 is printed on the recording side substrate 11, and thus the printed layer is not affected. In this way, in the disk 10 in which the recording side substrate 11 and the printing layer side substrate 12 are bonded together, the outer side printing M1 and the inner side printing M2 do not overlap each other, and the operator can easily perform the disk manufacturing. In addition to being visible, when the printed layer is formed later, the printed layer does not cover the outer side print M1 and the inner side print M2, and therefore the surface of the printed layer is uneven. It can be avoided. Therefore, it is easy for the operator to handle when manufacturing the disk 10, and a good printed layer can be formed.

  In addition, a disc information recording medium in which a printing layer is formed after printing by the above-described laser printing method of the disc can prevent unevenness due to laser printing from occurring in the printing layer. For example, printing can be performed satisfactorily.

It is a figure explaining the structure of the disk concerning this invention. It is a figure which shows a recording side board | substrate. It is a figure which shows the state which bonded together the recording side board | substrate and the printing layer side board | substrate. It is a figure which shows the state seen planarly from the recording side board | substrate side of the bonded disc. It is a flowchart which shows the procedure of the laser printing method of the disk concerning this invention.

Explanation of symbols

10 discs (disc information recording medium)
11 Recording side substrate 12 Print layer side substrate 14 First transparent region 16 Second transparent region 17 Print layer region M1 Outer side printing M2 Inner side printing

Claims (3)

A disk laser printing method for printing a disk on a disk information recording medium formed by laminating two transparent substrates,
One of the two transparent substrates is a recording side substrate including a recording layer, the other is a printing layer side substrate, and laser-prints the outer side printing on the outer peripheral side in the first transparent region of the recording side substrate. A method for laser-printing a disc, comprising performing laser printing of inward printing on a second transparent region having a smaller diameter than the first transparent region on the printed layer side substrate. A disk laser printing method for printing a disk on a disk information recording medium formed by laminating two transparent substrates,
One of the two transparent substrates is a recording side substrate including a recording layer, the other is a printing layer side substrate, and before the recording side substrate is bonded to the printing layer side substrate, from the center of the recording side substrate Laser printing is performed on the outer side of the first transparent region divided in a circumferential direction, and then the recording side substrate and the printing layer side substrate are bonded together, and the center of the printing layer side substrate is bonded. The inner side printing is laser-printed on the second transparent region having a diameter smaller than that of the first transparent region, and the region excluding the second transparent region is formed on the surface of the printed layer side substrate. A method of laser printing on a disc, characterized in that a printing layer region is formed on which a printing layer is formed. A disc information recording medium on which the printing layer is formed according to claim 2.

Images