JPH0757297A - Optical disk - Google Patents

Abstract

PURPOSE:To prevent the building-up of a protective film at the outer peripheral end of the main surface of a transparent substrate by forming a slope on the outer peripheral end. CONSTITUTION:A recording film 3 consisting of a magnetic thin film is formed on the main surface 2a of the substrate 2 consisting of a transparent resin and the front surface thereof is coated with a protective film 4 consisting of a UV curing resin, such as acryl. The outer peripheral end of the main surface 2a is provided with the slope and a notched part 7 is formed. The UV curing resin applied by spin coating is housed in this notched part 7 and, therefore, a built-up part 8 is not formed even if this resin gathers to the outer peripheral end. The shape and size of the notched part 7 are set as follows: [the sectional area of the notched part] V=0.004 to 0.04mm<2>, [the angle of the slope] theta=0.01 to 60 deg., V/[the thickness of the protective film] t=1.3 to 1.9mm.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical disk, and more particularly to an optical disk compatible with a flying head system.

[0002]

2. Description of the Related Art In recent years, in the field of information recording, research on optical recording methods has been advanced in various places. This optical recording system records and reproduces information by using laser light, and as optical discs using this, digital audio discs (so-called compact discs), optical video discs (so-called laser discs), etc. are widely used. It is popular.

In an optical disc such as a digital audio disc, a reflection film made of a metal thin film such as an Al film is formed on a transparent substrate on which an uneven pattern which is an information signal is formed.
Further, a protective film for isolating the reflective film from moisture and O ₂ in the atmosphere is formed on the reflective film.
As the protective film, usually, an ultraviolet curable resin layer formed by applying and curing an ultraviolet curable resin over the entire film surface on the reflective film by a spin coating method, a roll coating method or the like is used.

By the way, in the optical disc having the above structure, the user only reads the information signal from the concavo-convex pattern formed on the transparent substrate at the time of manufacturing, and cannot write the information signal directly to the optical disc. Therefore,
In recent years, a magneto-optical disk has been developed as an optical disk on which information can be repeatedly recorded and erased by a user, and commercialization is being realized.

In the above magneto-optical disk, a recording magnetic layer made of a magnetic thin film having an easy axis of magnetization in a direction perpendicular to the film surface and having a large magneto-optical effect is formed on a transparent substrate, and a reflecting layer and a dielectric layer are formed. A recording layer is formed by stacking the above, and a protective film is further provided on this recording layer.

As a magnetic thin film having the characteristics required for the recording magnetic layer, there is a rare earth-transition metal amorphous thin film such as a TbFeCo type amorphous thin film. Further, the protective film is formed of an ultraviolet curable resin by a spin coating method or the like, like the protective film generally formed on an optical disc such as a digital audio disc.

When information is recorded on the magneto-optical disk, the temperature of the magnetic thin film is partially raised above the Curie point or the temperature compensation point by irradiation with laser light from the transparent substrate side,
The coercive force of this portion is eliminated, and the direction of magnetization is reversed to the direction of the recording magnetic field applied by the magnetic head device. At the time of reproduction, the recording magnetic layer is irradiated with laser light, and information is detected by utilizing the magnetic Kerr effect or the Faraday effect.

Conventionally, a fixed head system has been used as a recording / reproducing system for the above-mentioned magneto-optical disk, and the disk and the head are separated from each other for a certain period of time. Then, in order to avoid contact with the head due to surface deflection of the disk, it is necessary to separate the disk from the head by 5 mm or more.

However, in order to generalize the magneto-optical disk, downsizing of the device and low power consumption are indispensable.
For this purpose, it is necessary to bring the head and the disk close to each other. Therefore, the sliding head type and the flying head type are preferable to the fixed head type. Above all, it is preferable to apply the flying head method in order to achieve high-speed access and large capacity.

[0010]

Since the protective film of an optical disk is usually formed by a spin coating method, the film thickness is thin on the center side of the disk, thicker toward the outer side, and further bulges at the outer peripheral edge. Occurs. This swelling varies slightly depending on the conditions such as the surface tension and viscosity of the resin used, but the width is 1-2 mm and the height is 2 mm.
It reaches 0 to 30 μm.

In particular, when the flying head method is applied to recording / reproducing, the difference in the thickness of the protective film as described above becomes the difference in the distance between the recording layer and the head, which affects recording / reproducing or erasing. In addition, the head may come into contact with the disk at the outer peripheral edge of the disk, which adversely affects the flying characteristics of the head, resulting in a narrow recording area.

FIG. 5 schematically shows an optical disk 101 and a head unit 105 mounted on a flying head type recording / reproducing apparatus. The optical disc 101 has a recording layer 103 on a disc substrate 102, and the recording layer 103 is a protective film 10.
It is covered by 4. Since the protective film 104 has a bulge at the outer peripheral end thereof, when the head portion 105 connected to the gimbal 106 approaches the outer peripheral end portion of the optical disc 1, the end portion of the surface of the head portion 105 facing the optical disc 101. It can be seen that is in contact with the protective film 104.

Therefore, the present invention has been proposed in view of the above circumstances, and an object thereof is to provide an optical disk in which the swelling of the protective film formed on the outer peripheral edge of the disk is suppressed.

[0014]

DISCLOSURE OF THE INVENTION The present invention has been proposed in order to achieve the above-mentioned object, and in an optical disc in which a recording layer and a protective film are sequentially laminated on a transparent substrate, the transparent The main surface of the substrate on the side where the protective film is formed has an outer peripheral edge portion cut out to form an inclined surface.

The optical disk is prepared by forming a recording layer on a transparent substrate, then applying, for example, an acrylic ultraviolet curing resin by a spin coating method so as to cover the recording layer, and irradiating with ultraviolet rays to form a protective film. To be done. In the spin coating method, a predetermined amount of ultraviolet curable resin is dropped on the center of the disc, the disc is rotated, and the dropped ultraviolet curable resin is applied by centrifugal force to the outer peripheral edge. Therefore, the ultraviolet curable resin is formed on the recording layer of the conventional optical disc in a shape having a bulge at the outer peripheral end.

Therefore, in the optical disc of the present invention,
By forming a notch in the outer peripheral edge of the transparent substrate and making the outer peripheral edge an inclined surface, even if the coating amount of the ultraviolet curable resin increases toward the outer peripheral edge, the ultraviolet curable resin rises at the outer peripheral edge. It was decided to suppress the formation of.

The cross-sectional area of the cutout portion at the outer peripheral edge (hereinafter referred to as cutout cross-sectional area V) is 0.004 to.
It is preferably 0.04 mm ² . Further, the angle formed by the inclined surface formed by cutting out the outer peripheral end and the main surface before the inclined surface is formed (hereinafter referred to as cutout angle θ) is 0.01 to 60 °. Preferably there is.

If the notch cross-sectional area V is too small or the notch angle θ is too small, the effect of suppressing the bulge of the outer peripheral edge is not sufficient. On the contrary, notch cross-sectional area V
However, if the notch angle θ is too large, the UV curable resin cannot be retained on this inclined surface,
A bulge is formed on the inner peripheral side of the cutout portion. If the chamfering cross-sectional area V is increased without increasing the chamfering angle θ, the recording area of the disc is narrowed.

When the average film thickness of the protective film is t and the notch cross-sectional area is V, the value of V / t is 1.3 to 1.9 mm.
Is preferred. If the value of V / t is about 1.6 mm, the surface of the protective film becomes almost flat, and if the value is 1.3 to 1.9 mm, which is within a range of ± 20% of this value, the flying characteristics of the flying head are affected. It becomes an optical disc which does not give.

[0020]

[Operation] Even if the ultraviolet curable resin is spun off toward the outer peripheral edge by the spin coating method and the amount of the ultraviolet curable resin applied to the outer peripheral edge is larger than the central portion, the outer peripheral edge of the transparent substrate is cut off. The formation of the notch makes it difficult to form a bulge. Therefore, by optimizing the conditions of the cutout portion, it is possible to obtain an optical disc having a flat surface with little swelling at the outer peripheral edge.

Therefore, even if it is applied to the flying head system, the head and the disk do not come into contact with each other at the outer peripheral edge of the disk. Further, the distance from the head is constant over the entire recording area, and stable recording / reproducing is possible.

Further, since the recording layer is coated by the spin coating method, a protective film having high adhesion can be formed without damaging the recording layer.

[0023]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Specific embodiments to which the present invention is applied will be described below with reference to the drawings.

Here, the present invention is applied to an optical disk for recording and reproducing by utilizing the magneto-optical effect. As shown in FIG. 1, the optical disc 1 is a disc having a single plate structure in which a recording layer 3 is formed on one surface of a disc substrate 2 made of a transparent resin, and a protective layer made of an ultraviolet curable resin is formed on the disc. The film 4 is formed. The head 5 connected to the gimbal 6 is applied to a flying head system for recording / reproducing.

On the main surface 2a of the disk substrate 2, an outer peripheral end is cut out to form an inclined surface 2b.
Therefore, the outer peripheral edge of the disk substrate 2 is thinner than the central portion.

The protective film 4 is formed by applying an ultraviolet curable resin by spin coating and irradiating it with ultraviolet light. Specifically, while the disc substrate 2 on which the recording layer 3 is formed is rotated at a low speed, the dispenser is moved from the central portion of the disc to the outer peripheral portion to apply the coating material, and then the disc substrate 2 is rotated at a high speed to perform recording. It is formed by spreading the paint on the entire surface of the layer 3 to remove excess paint, and then curing the paint.

In the optical disk of this embodiment, the outer peripheral edge of the disk substrate 2 is cut out, so that the UV curable resin applied by the spin coating method is prevented from rising at the outer peripheral edge. ing.

When the flying head method is applied to the optical disk 1, the surface of the protective film 4 is flat from the central portion to the outer peripheral edge without forming a bulge on the outer peripheral edge of the protective film 4. Preferably there is. Therefore,
The conditions for making the surface of the protective film 4 flat were examined below.

In the conventional optical disc 101 shown in FIG. 6, the raised portion 108 at the outer peripheral edge of the protective film 104.
The shape changes with the time required for the ultraviolet curable resin to cure and the viscosity of the ultraviolet curable resin, but the volume of the raised portion 108 hardly changes. As shown in FIG. 3, the radial cross-sectional area of the raised portion 108 (hereinafter referred to as the raised cross-sectional area S) is substantially proportional to the average film thickness t of the protective film 104 excluding the raised portion 108. The following equation (1) is established.

S = 0.8t (1)

The thickness t of the protective film is usually 5 to 20 μm.
The cross-sectional shape of the raised portion 108 is 0.5 to 2.0 mm in the radial direction and 3 to 40 μm in the height h.
Becomes

Next, as shown in FIG. 2, the outer peripheral end of the disk substrate 2 is cut out, and the space surrounded by the extended surface of the main surface 2a of the disk substrate 2 and the inclined surface 2b is cut out.
Then, the relationship between the cut-out cross-sectional area V of the cut-out portion 7 and the raised cross-sectional area S was examined, and the result was as shown in FIG. It can be seen from FIG. 4 that the swelling cross-sectional area S temporarily decreases as the notch cross-sectional area V increases. Further, it can be seen that by forming the notch 7 having a cross-sectional area about twice as large as the cross-sectional area of the raised portion 8, the raised cross-sectional area S can be made approximately 0 mm ² .

Therefore, when the relationship between the notch cross-sectional area V and the film thickness t is expressed by the following equation (2), the swelling cross-sectional area S can be set to approximately 0 mm ² . V = 1.6t (2) If V / t is in the range of 1.3 to 1.9, the optical disk has a raised portion 8 that does not come into contact with the head.

The notch cross-sectional area V is 0.004 to
Unless the cutout angle is 0.04 mm ² and the notch angle is in the range of 0.01 to 60 °, it is difficult to bring the raised cross-sectional area S close to 0 mm ² . From the above conditions, the cutout width w and the cutout depth d may be set to form the cutout portion 7.

[0035]

As is apparent from the above description, the optical disc of the present invention has a small swelling of the protective film on the outer peripheral edge, and therefore, when applied to the flying head system, the head is formed on the outer peripheral edge of the disk. Prevents the disc from touching. Further, since the distance from the head is constant over the entire recording area, stable recording / reproducing can be performed.

Further, since the recording layer is coated by the spin coating method, it is possible to form a protective film having high adhesion without damaging the recording layer.

[Brief description of drawings]

FIG. 1 is a sectional view schematically showing an example of an optical disc to which the present invention is applied.

FIG. 2 is a schematic diagram showing an optical disc recording / reproducing system to which the present invention is applied.

FIG. 3 is a characteristic diagram showing a relationship between an average film thickness of a protective film and a cross-sectional area of a raised portion of the protective film.

FIG. 4 is a characteristic diagram showing a relationship between a cross-sectional area of a cutout portion of a disk substrate and a cross-sectional area of a raised portion of a protective film.

FIG. 5 is a sectional view schematically showing a conventional optical disc.

FIG. 6 is a schematic diagram showing a conventional optical disc recording / reproducing system.

[Explanation of symbols]

 1 ... Optical disc 2 ... Disc substrate 3 ... Recording layer 4 ... Protective film 5 ... Head 6 ... Gimbal

Claims (4)

[Claims] 1. An optical disc comprising a transparent substrate, on which a recording layer and a protective film are sequentially laminated, and a main surface of the transparent substrate on which the protective film is formed has an outer peripheral edge portion cut away to form an inclined surface. An optical disc in which is formed. 2. The optical disk according to claim 1, wherein the notched portion of the outer peripheral end has a radial cross-sectional area of 0.004 to 0.04 mm ² . 3. An angle between an inclined surface formed by cutting out the outer peripheral end and a main surface before the inclined surface is formed is 0.01 to 60 °. The optical disc according to item 1. 4. When the average film thickness of the protective film is t and the radial cross-sectional area of the notched portion of the outer peripheral edge is V, V / t
4. The optical disc according to claim 3, wherein the value of is 1.3 to 1.9 mm.