KR19980082651A - Board of optical disk - Google Patents

Abstract

The present invention relates to a substrate of an optical disk, and the conventional substrate is molded into a vertical plane whose outer circumferential surface is a simple plane, and when the substrate is taken out from the molding machine, the vertical surface and the cavity of the molding machine are in close contact with each other, so that bending occurs when the substrate is removed. When coating the reflective film, the coating liquid flows down the vertical plane, aggregates on the incident surface of the laser light, and causes a defective product, and the quality of the optical disk is deteriorated.

As illustrated in FIGS. 4 to 6, in the present invention, the step 20 is formed on the outer circumferential surface of the optical disk, and thus the contact surface with the cavity inner circumferential surface is divided, thereby facilitating taking out the substrate. During spin coating of the reflective film, the coating solution is agglomerated at the boundary of the step.

Therefore, the warpage due to the take-out of the substrate 2 is prevented, and the coating liquid is prevented from agglomerating on the incident surface, thereby reducing the occurrence of defective products and improving the quality.

Description

Optical disk board

The present invention relates to an optical disk substrate, and more particularly, a stepped portion is formed on the outer circumferential surface of the substrate to prevent the bending of the substrate when taken out from the molding machine, and to prevent the coating liquid from entering the read light incident surface when coating the protective film. One relates to an optical disk substrate.

As shown in Fig. 1A, the optical disk 1 is formed with a groove called a pit 3 having digital information on a substrate 2, which is a plastic disc of 120 mm in diameter, 1.2 mm or 0.6 mm in thickness.

The pit 3 is recorded along a spiral track, and on the pit surface, an aluminum reflecting film 4 for reflecting laser light is deposited, and a UV Resin which is a protective film 5 of the reflecting film 4 is coated. A label indicating the record contents is printed on the surface and reference numeral 6 denotes the incident surface of the laser light for the optical pickup.

On the other hand, in addition to the ROM type optical disk, there is a phase change type optical disk using the phase transition and reflectance difference between the amorphous and the crystalline of the recording layer, which is currently enthusiastically developed, and is shown in FIG. 1 (b).

In the phase change type optical disk, a recording layer 7, which is a thin film capable of an amorphous-crystalline phase transition, is deposited on the plastic substrate 2, like the electric optical disk, and the reflective film 4 and the protective film 5 are coated thereon. On the other hand, the dielectric layer 8 is deposited on both sides of the recording layer 7 together.

In addition, the substrate is molded so that only the tracks are formed on the recording layer 7, and a laser beam is irradiated onto the tracks to convert amorphous to crystalline or crystalline to amorphous to mark recording marks corresponding to the pits. In this case, the recording and erasing can be repeated, and the information setting area is also formed on the basis of the substrate 2 such as plastic.

The plastic substrate 2 used in such optical disks is injection molded, and an exemplary view for explaining this FIG. 2 is a schematic view showing an injection mold of an optical disk substrate.

As shown, the driving die 10 and the fixed die 11 are formed to form the molding cavity 9 of the substrate, and the sprue bush 12 into which the molten resin is injected is formed in the fixed die 11. .

On the other hand, an eject pin 13, a gate cut punch 14, a floating punch 15, or an air blower (not shown) or the like is installed in the driving die 10 to remove the substrate. It removes from the shaping cavity 9, and the chucker using pneumatic etc. conveys a board | substrate to a next process at this time.

The reflective layer or the like is coated on the substrate thus formed, and a spin coating method for coating the protective film while rotating the optical disk is widely adopted.

As described above, the optical disc is formed by injection molding a transparent plastic substrate 2 and coating a reflective film 4 and a protective film 5 thereon.

However, since the outer periphery of the substrate 2 is molded into a simple vertical surface 16, the substrate 2 is bent when the substrate 2 is taken out, or when the protective film 5 is coated, the liquid enters the incident surface 6 of the laser light. There was a problem that flowed into the defective product.

That is, the molding of the substrate 2 depends on the shape of the cavity 9. After completion of molding, the vertical surface 16 of the substrate 2 is in close contact with the inner circumferential surface of the cavity 9, and in this state, If blown out with an air blower or the like, the substrate 2 may be bent.

In this case, the pit is finely distorted, and the optical pickup becomes unstable and its quality is reduced.

In addition, the protective film 5 is formed by spin coating. As shown in FIG. 3, since the substrate 2 is rotated, a part of the sprayed coating liquid is splashed by centrifugal force, and the coating liquid sprayed on the outer circumferential surface is a vertical surface. It flows along (16) and aggregates to the edge of the incident surface 6.

In this case, not only the appearance of the optical disk is damaged by the agglomerated coating liquid, but also the laser beam is left through the incident surface 6, resulting in optical pickup, which causes a problem in reading the optical signal by the coating liquid agglomerated on the incident surface 6. It is.

Accordingly, an object of the present invention is to provide a substrate of an optical disk for solving the above problem.

In the present invention, the stepped portion is formed on the outer circumferential surface of the optical disk, and thus the contact surface with the cavity inner circumferential surface is divided to facilitate the extraction of the substrate, and the coating solution is agglomerated at the boundary of the stepped during the spin coating of the protective film. will be.

Therefore, it is possible to prevent warpage due to the take-out of the substrate and to prevent the coating liquid from agglomerating on the incident surface, thereby reducing the occurrence of defective products and improving the quality.

1 (a) (b) is an explanatory diagram of an optical disk showing a substrate of a conventional optical disk,

2 is a schematic view showing a mold of a conventional substrate;

3 is an explanatory diagram showing a problem when coating a protective film of a conventional substrate;

Figure 4 (a) (b) (c) is an explanatory diagram showing a step of the substrate according to the present invention,

5 (a) (b) (c) is a schematic diagram showing a substrate mold for molding the step according to the present invention,

Figure 6 is an explanatory view showing the inlet of the protective film coating liquid by a step according to the present invention.

* Description of the symbols for the main parts of the drawings *

2: Substrate 5: Protective film

6: entrance face 9: cavity

10: driving plate 20: step

22: slope

Hereinafter, the present invention will be described with reference to the accompanying drawings.

The present invention provides a substrate of an optical disc, wherein the step 20 is formed on the outer circumferential surface of the optical disc substrate in the substrate of the optical disc formed of a vertical surface 16 having a flat outer circumferential surface thereof.

4 is a schematic view showing a substrate of an optical disk according to the present invention, in which the step 20 is formed on the outer circumferential surface of the disc-shaped substrate 2 so that bending of the substrate 2 in the molding machine is prevented. Do it.

It is not necessary that only one step 20 is formed as shown in FIG. 4 (a), and when formed in multiple stages as shown in FIG. 4 (b), the close contact portion between the outer circumferential surface of the substrate 2 and the inner circumferential surface of the cavity is further divided. This becomes easier.

It is also preferable to form the inclined surface 22 on the outer circumferential surface of the step 20 as shown in Fig. 4 (C).

Since the substrate 2 is injection molded by a molding machine and the step 20 is formed on the outer circumference of the substrate 2, the step 2 is formed in the cavity as shown in FIG. 5 (a) (b) (d). Naturally, the shape of (9) is changed.

That is, the stepped grooves are formed on the inner circumferential surface of the driving die 10, which is the inner circumferential surface of the cavity 9, and thus, when the molding of the substrate 2 is completed, the grooves are in close contact with the cavity 9 in a conventionally simple vertical plane, which is inconvenient. Compared to the above, in the present invention, the contact surface is separated by the step 20 so that the extraction is facilitated.

Since the warp of the substrate 2 is prevented at the time of taking out the substrate 2 by the step, the optical characteristic of the pit described above is maintained, thereby keeping the information characteristic of the optical disk satisfactorily.

Therefore, the warp prevention of the board | substrate 2 by such a step will have a big meaning in the quality of an optical disc.

On the other hand, the step is to act as a barrier to prevent the coating liquid from flowing into the incident surface of the substrate 2 when coating the reflective film.

That is, as shown in FIG. 6, when the coating liquid is injected onto the step 20, the outer peripheral surface of the substrate 2, the coating liquid flows along the outer peripheral surface of the step 20 and aggregates at the boundary to the incident surface 6. This prevents the inflow, and as the step 20 is formed in a multi-step as shown in Figure 4 (b), the prevention effect is excellent.

Therefore, the coating liquid is prevented from flowing into the incident surface 6 when the reflective film is coated by the step 20, thereby preventing agglomeration of the coating liquid, and thus, the inhibitory element is eliminated when the optical signal is picked up by the coating liquid. Has an important meaning.

As described above, according to the present invention, by forming a step on the outer peripheral surface of the optical disk, the contact surface with the cavity inner peripheral surface is divided to facilitate taking out of the substrate, and the coating liquid is agglomerated at the boundary of the step during spin coating of the protective film. Therefore, the bending of the substrate is prevented, and the coating liquid is prevented from agglomerating on the incident surface, thereby reducing the occurrence of defective products and improving the quality of the optical disk.

Claims (3)

A substrate of an optical disc, wherein an outer circumferential surface of the optical disc is formed with a vertical plane (16), wherein a step (20) is formed on the outer circumferential surface of the optical disc substrate. 2. The substrate of an optical disc according to claim 1, wherein the step (20) is formed in multiple steps. The substrate of an optical disc according to claim 1, wherein an outer circumference of the step (20) is formed by an inclined surface (22).