JPH05342673A - Magneto-optical recording medium, magneto-optical recording and reproducing device and magneto-optical recording - Google Patents

Abstract

PURPOSE:To provide a magneto-optical recording medium having a region only for reproduction and a rewritable region, using a material selected from among various materials in the recording film and enabling a user to arbitrarily produce ROM information and to provide a device and a method using the magneto-optical recording medium. CONSTITUTION:A first dielectric protective layer 2, a magneto-optical recording layer 3, a second dielectric protective layer 4, a reflecting layer 5 and a third dielectric protective layer 6 are successively laminated on a discoid substrate 1 and a magnetic shielding plate 16 made of a magnetic shielding material which prevents the penetrating of a line of magnetic force, is stuck to the inner circumferential part of the resulting disk as a region only for reproduction with an adhesive layer or sheet 15 in-between.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a magneto-optical recording medium for recording, reproducing and erasing information by using a laser beam, and more specifically, a read-only area (ROM portion) and a recordable area (rewritable portion). The present invention relates to a magneto-optical recording medium having the same. The present invention also relates to a magneto-optical recording / reproducing apparatus and a magneto-optical recording method used for recording / reproducing of this magneto-optical recording medium.

[0002]

2. Description of the Related Art Conventionally, the problems to be solved by the invention
The prohibition of the change of the recorded contents on the magneto-optical disk is carried out by setting the write-inhibiting hole of the cartridge accommodating the disk to the write-inhibiting state. However, with this method, the entire recorded contents on the magneto-optical disc are prohibited from being changed, the recorded contents portions such as the document format portion and the dictionary portion are prohibited from being changed, and the document contents and the auxiliary registration dictionary are not changed. If you want to rewrite the recorded content frequently, you must rewrite it with the write-protect hole of the cartridge in a writable state, and you must handle it carefully so that you do not accidentally change the recorded content that you want to prohibit from changing. It was

On the other hand, as means for solving the above problems, Japanese Patent Laid-Open No. 58-114343 discloses a rewritable area (RAM portion) with a reflective film provided in a read-only area (ROM portion) having pits on a substrate. There is proposed a magneto-optical recording medium provided with a reproducing film for magneto-optical recording. However, in this case, the ROM section and the RAM section have different reflectivities, which imposes a burden on the recording / reproducing apparatus. Also, ROM and RA
Since the difference in the reflectance of the M portion is limited to the range in which the recording / reproducing device can operate, it is impossible to arbitrarily select the material used for the recording film. Further, in order to manufacture the ROM part, it is necessary to provide ROM information to the substrate at the stage of molding the substrate, and the user cannot arbitrarily manufacture the ROM part later.

The present invention has been made in order to solve the problems of the prior art, and has a ROM portion and a RAM portion, and the material used for the recording film can be arbitrarily selected, and It is an object of the present invention to provide a magneto-optical recording medium in which a user can arbitrarily create a ROM section and a magneto-optical recording / reproducing apparatus in which the user can record desired information in the ROM section of this magneto-optical recording medium. ..

[0005]

To achieve the above object, according to the present invention, there is provided a magneto-optical recording medium in which at least a magneto-optical recording layer, a reflective layer and a dielectric protective layer are sequentially laminated on a transparent substrate. In addition to providing a read-only area and a rewritable area, a magnetic shield plate for preventing transmission of magnetic force lines is attached via an adhesive layer only on the dielectric protective layer portion corresponding to the read-only area. A magneto-optical recording medium is provided.

Further, according to the present invention, there is provided a magneto-optical recording medium in which the adhesive layer is releasable and re-adhesive in the above structure.

Further, according to the present invention, in the above structure, a hub for clamping the magneto-optical recording medium to the drive device is provided, and the magnetic shield plate is connected to the hub directly or via a connector. A magneto-optical recording medium is provided.

Further, according to the present invention, there is provided a magneto-optical recording device for the above-mentioned magneto-optical recording medium, which is installed on both the substrate side and the magneto-optical recording layer side with respect to the mounted magneto-optical recording medium. Magnetic field generating means, a light beam irradiating means provided on the substrate side for irradiating a magneto-optical recording medium with a recording / reproducing light beam, and magnetic field lines from the magnetic field generating means on the magneto-optical recording layer side are detected. Thus, there is provided a magneto-optical recording / reproducing apparatus including a magnetic field detecting means installed on the substrate side for recognizing the read-only area and the rewritable area.

Further, according to the present invention, there is provided a magneto-optical recording device for the above-mentioned magneto-optical recording medium, which is installed on both the substrate side and the magneto-optical recording layer side with respect to the mounted magneto-optical recording medium. Magnetic field generation means, a light beam irradiation means installed on the substrate side for irradiating the magneto-optical recording medium with a recording / reproducing light beam, and a light beam irradiation for irradiating the magneto-optical recording medium with the light beam. Section and a light-reception detection section that detects the light beam from the light-beam irradiation section reflected on the surface of the magneto-optical recording medium. There is provided a magneto-optical recording / reproducing apparatus comprising means arranged on the layer side.

Further, according to the present invention, when recording is performed in the rewritable area using the magneto-optical recording medium, a light beam is irradiated from the substrate side and an external magnetic field is applied from the recording layer side or the substrate side. Then, when recording is performed in the read-only area, a magneto-optical recording method is provided, which comprises irradiating a light beam from the substrate side and applying an external magnetic field from the substrate side.

[0011]

According to the first aspect of the invention, the magnetic shield plate provided on the read-only area blocks the external magnetic field applied to the read-only area at the time of recording, and prevents erroneous erasure of data in the read-only area. To do. When the user wants to write desired data in the read-only area, it is possible by applying an external magnetic field from the substrate side. Therefore, it becomes possible to provide a magneto-optical recording medium having a read-only area and a rewritable area, and since the recording layers can be made of the same magneto-optical recording material, the range of material selection is expanded.

According to the second aspect of the present invention, since the adhesive layer is peelable and re-adhesive, the designation of the reproduction-only area can be arbitrarily changed.

According to the third aspect of the invention, since the magnetic shield plate is connected to the hub directly or via the connector, displacement of the medium due to high speed rotation is prevented.

According to the present invention, the magnetic field detecting means can recognize the positions of the read-only area and the rewritable area depending on the presence or absence of the magnetic force line, and the magnetic field generating means and the light beam irradiating means can only write to the rewritable area. Not
The user can write in the reproduction-only area.

According to the fifth aspect of the present invention, the position recognition of the read-only area and the rewritable area based on the difference in reflectance between the medium reflection film and the magnetic shield plate is performed by the means including the light beam irradiator and the light receiving detector. With the magnetic field generating means and the light beam irradiating means, not only writing to the rewritable area but also writing to the read-only area by the user becomes possible.

According to the sixth aspect of the invention, when recording is performed in the rewritable area, a light beam is emitted from the substrate side and an external magnetic field is applied from the recording layer side or the substrate side to perform recording in the read-only area. In this case, by irradiating a light beam from the substrate side and applying an external magnetic field from the substrate side, the user can arbitrarily create data in the reproduction-only area.

[0017]

EXAMPLES The present invention will be described in detail below based on examples. First, the magneto-optical recording medium according to the present invention will be described. 1 and 2 are a cross-sectional view and a plan view showing an example of the configuration of a magneto-optical recording medium according to the present invention, in which a first dielectric protective layer 2, a magneto-optical recording layer 3, a The second dielectric protective layer 4, the reflective layer 5, and the third dielectric protective layer 6 are laminated in this order, and the inner peripheral portion of the disc, which is a read-only area, is provided with an adhesive layer 15 made of an adhesive or a pressure-sensitive adhesive sheet. A magnetic shield plate 16 made of a magnetic shield material for preventing transmission of magnetic force lines is attached. In FIGS. 1 and 2, the reproduction-only area is provided on the inner peripheral portion of the disc, but the reproduction-only area can be set at an arbitrary position and can be provided on the outer peripheral portion as shown in FIG. It is also possible to provide them alternately in the radial direction or the circumferential direction as shown in FIG.

In the magneto-optical recording medium of the present invention, the material of the substrate 1 is not particularly limited, but it is necessary that the substrate 1 is a transparent substrate so that the recording / reproducing light can pass therethrough. Specifically, it is an inorganic material such as glass. In addition to materials, polymethylmethacrylate,
Polycarbonate, polymer alloy of polycarbonate and polystyrene, epoxy resin, polyether sulfone, polysulfone, polyetherimide, ethylene,
An organic material such as tetracyclododecene copolymer can be used.

First dielectric protective layer 2 provided on the substrate 1
For example, SiO, SiO ₂ , Si ₃ N ₄ or the like can be used. As the magneto-optical recording layer 3, for example, TbFeCo, G
A magneto-optical recording material such as dFeCo or Pt / Co multilayer film can be used. The film thickness of the recording layer 3 is not particularly limited as long as the light beam does not pass therethrough. As the second dielectric protection layer 4, for example, SiO, SiO ₂ , Si ₃ N ₄ or the like can be used.
Ar, Cr or the like can be used for the reflective layer 5. Examples of the third dielectric protection layer 6 include SiO, SiO ₂ , Si ₃ N ₄
Etc. can be used. This protective layer 6 is a reflective layer 5 made of an adhesive.
And the heat diffusion from the medium to the shield plate 16 are prevented. The first to third dielectric protective layers 2, 4 and 6 need to be transparent to the recording / reproducing light, and the film layers are appropriately set so as to sufficiently exert their functions. Each of the layers 2 to 6 can be produced by a vacuum film forming method such as vapor deposition or sputtering.

The magneto-optical recording medium of the present invention is characterized in that the magnetic shield plate 16 is provided on the read-only area (in this example, on the area corresponding to the third dielectric protection layer 6). As the magnetic shield material used for the plate 16, permalloy (Ni-Fe based magnetic alloy), sendust (Si
-Al-Fe based magnetic alloys), Co-Zr based magnetic alloys, and other high magnetic permeability materials, superconducting materials, and the like. Superconducting materials include NbN, Nb ₃ Sn, V ₃ Ga, V ₃ S
i, Nb ₃ Al, Nb ₃ Ge or other metallic superconducting material, or B
Organic superconducting materials such as a (Pb, Bi) O ₃ and La-
Ba-Cu-O system, La-Sr-Cu-O system, Y-Ba
-Cu-O system, Y-Ba-Cu-O-F system, Bi-Ca
Examples of such ceramic-based superconducting materials include -Sr-Cu-O-based and Tl-Ca-Ba-Cu-O-based, but are not limited thereto. The thickness of the magnetic shield plate 16 varies depending on the magnetic shield effect, specific gravity, etc. of the constituent materials, and is set to a thickness that allows the magnetic shield effect to be used with a weight that does not burden the disk rotation motor. To be done. Usually, about 0.5 mm to 2 mm is suitable, but it is not limited to this.

As the adhesive used for forming the adhesive layer 15, for example, a synthetic rubber adhesive or the like can be used. A pressure sensitive adhesive sheet may be used instead of the adhesive. In this case, if the adhesive or the pressure-sensitive adhesive sheet that can be peeled and re-bonded is used, the designation of the reproduction-only area can be arbitrarily changed.

The portion of the third dielectric protection layer 6 to which the magnetic shield plate 16 is attached can be set arbitrarily. For example, the inner peripheral portion of the third dielectric protective layer 6 is attached to the inner peripheral portion as a read-only area, or conversely, the outer peripheral portion. The outer peripheral portion of the bonded area is a read-only area, or the bonded read-only area and the rewritable area are alternately set alternately in the radial direction, or the bonded specific sector is read-only on a specific sector on the disc. It can be a region.

FIG. 6 is a view showing another example of the structure of the magneto-optical recording medium according to the present invention, in which a magnetic shield plate 16 is connected to a hub 17 for clamping during rotation, and other than that, FIG. It is the same as that shown in FIG. Hub 17
The magnetic shield plate 16 and the magnetic shield plate 16 can be connected to each other by using, for example, an adhesive or welding (including spot welding), but of course, any other suitable method can be used.
With such a configuration, even when the adhesive layer 15 in FIG. 1 can be peeled and re-adhered and the adhesive force is relatively weak, the magnetic shield plate 16 is moved from a predetermined position by the centrifugal force during high speed rotation. The problem of being lost is solved.

When the outer peripheral portion of the disk is magnetically shielded as shown in FIG. 7, the hub 17 and the magnetic shield plate 1 are used.
6 may be connected by a connector 18 made of a material (Ni, Fe, etc.) that can transmit the lines of magnetic force. Further, as shown in FIGS. 8 and 9, it is possible to alternately provide read-only areas in the radial direction or the circumferential direction. The hub 17 and the magnetic shield plate 16 can be connected to the connector 18 by using an adhesive or by welding.

Next, a magneto-optical recording / reproducing apparatus and a magneto-optical recording method using the same according to the present invention for recording / reproducing using the above-mentioned magneto-optical recording medium will be described. FIG. 10 is a diagram showing an example of the configuration of the magneto-optical recording / reproducing apparatus according to the present invention. An objective lens 8 is provided on the substrate side of the magneto-optical recording medium A of the present invention, through which the emitted light 7 of a light emitting element (not shown) passes. Therefore, the light beam 9 condensed by the objective lens 8 is applied to the magneto-optical recording medium A. Further, the magneto-optical recording medium A
On the other hand, a magnetic field generating means 10 composed of a cylindrical coil is arranged concentrically with the objective lens 8 on the substrate side, and a permanent magnet or a coil is arranged on the recording layer side so as to face the position irradiated with the light beam 9. The magnetic field generating means 11 is provided. Which magnetic field generating means is used can be selected by setting or program control of the magneto-optical reproducing device itself. Further, in order to recognize the read-only area in which the magnetic shield plate 16 is bonded and the rewritable area in which the magnetic shield plate 16 is not bonded in the magneto-optical recording medium A, a magnetic field detecting means 12 such as a Hall element or a coil is provided on the substrate side. Has been deployed. The magnetic field detection means 12 is installed so as to be movable parallel to the substrate surface, and the position of the magnetic shield plate 16 on the entire surface of the substrate is determined by whether or not the magnetic field from the magnetic field generation means 11 is detected. It is possible to recognize and memorize. In this case, recording / reproduction may be performed after the entire recognition is performed in advance, or recognition may be performed each time recording / reproduction is performed. Further, the magnetic field detecting means 12 is used as the objective lens 8
It may be arranged at a position adjacent to, and the presence or absence of the magnetic shield plate may be always recognized before the light beam 9 is irradiated on the magneto-optical recording medium A. By the above method, the read-only area and the rewritable area can be recognized and recording / reproduction can be performed on the magneto-optical recording medium A.

Next, a magneto-optical recording method using the above apparatus will be described. First, before recording, it is determined which of the read-only area and the rewritable area of the magneto-optical recording medium is to be recorded. Select the recording mode according to your decision. The determination and selection are made by appropriate input means and control means incorporated in the above device.

When recording in the read-only area is selected, a magnetic field is applied from the substrate side on which the light beam 9 is incident using the magnetic field generating means 10 to perform thermomagnetic recording. When recording in only the rewritable area is selected, the magnetic field generation means 11 is used to apply a magnetic field from the side opposite to the side on which the light beam 9 is incident to perform thermomagnetic recording. When recording in both the read-only area and the rewritable area is selected, the magnetic field generating means 10 is used in the read-only area and either the magnetic field generating means 10 or the magnetic field generating means 11 is used in the writable area. You may use.

Next, another configuration example of the magneto-optical recording / reproducing apparatus according to the present invention will be described with reference to FIG. The device of this configuration example is particularly effective when the reflectance of the reflective layer 5 of the magneto-optical recording medium A and the magnetic shield plate 16 are significantly different.

In this magneto-optical recording / reproducing apparatus, in order to recognize the read-only area in the magneto-optical recording medium A to which the magnetic shield plate 16 is attached and the rewritable area in which the magnetic shield plate 16 is not attached, the recording layer side is recognized. Further, a light source 13 such as a semiconductor laser and a light receiving detection means 14 such as a photodiode and a phototransistor are integrally arranged.
Further, the light source 13 and the light receiving detection means 14 are installed so as to be movable in parallel to the substrate surface. The direction of the light receiving portion of the light receiving detection means 14 is always oriented in the direction in which the light from the light source 13 reflected by the reflective layer 5 or the magnetic shield plate 16 of the magneto-optical recording medium A enters.

By using such means, the position of the magnetic shield plate on the entire surface of the substrate can be recognized and stored in the magneto-optical recording / reproducing apparatus due to the difference in the intensity of the reflected light from the reflection layer 5 or the magnetic shield plate 16. Becomes Also,
The above means is provided adjacent to the position where the light beam 9 is irradiated onto the magneto-optical recording medium A so that the presence or absence of the magnetic shield plate 16 is always recognized before the light beam 9 is irradiated onto the magneto-optical recording medium A. You can By the above method, the read-only area and the rewritable area can be recognized and recording / reproduction can be performed on the magneto-optical recording medium A.

As described above, according to the present invention, the read-only area (ROM section) of the magneto-optical recording medium need not be manufactured from the step of molding the substrate, and the user can optionally perform RO after the medium is manufactured.
M information can be recorded.

The information recorded on the magneto-optical recording medium of the present invention is, of course, recorded by a conventional magneto-optical recording / reproducing apparatus for applying a magnetic field from the side opposite to the side where the light beam is incident to perform thermo-magnetic recording. Can be reproduced, there is no restriction in reading information, and recording can be performed only in the rewritable area.

[0033]

According to the first aspect of the present invention, the magnetic shield plate is provided which has the read-only area and the rewritable area and prevents the transmission of magnetic force lines only on the dielectric protective layer portion corresponding to the read-only area. Since the data is adhered via the adhesive layer, it is possible to prevent the data in the read-only area from being accidentally erased by the external magnetic field applied to the medium during recording. Further, the user can write arbitrary data in the reproduction-only area. Further, since the recording layers can be made of the same magneto-optical recording material, the range of material selection is expanded.

According to the invention of claim 2, since the adhesive layer is peelable and re-adhesive, the designation of the reproduction-only area can be arbitrarily changed.

According to the third aspect of the invention, since the magnetic shield plate is connected to the hub directly or via the connector, displacement of the magnetic shield plate due to high speed rotation of the medium can be prevented.

According to the invention of claim 4, the magnetic field detecting means can recognize the positions of the read-only area and the rewritable area depending on the presence or absence of the magnetic force line, and further, the magnetic field generating means and the light beam irradiating means move to the rewritable area. In addition to writing, users can write to the playback-only area,
The magneto-optical recording medium of the present invention can be effectively used.

According to the fifth aspect of the present invention, the difference in reflectance between the medium reflection film and the magnetic shield plate is provided to the read-only area and the rewritable area due to the difference in reflectance between the medium reflection film and the magnetic shield plate by means including the light beam irradiating section and the light receiving and detecting section. The position can be recognized, and not only the rewritable area can be written by the magnetic field generating means and the light beam irradiating means, but also the user can write in the read-only area, and the magneto-optical recording medium of the present invention can be effectively used. It will be possible.

According to the sixth aspect of the invention, when recording is performed in the rewritable area, a light beam is emitted from the substrate side and an external magnetic field is applied from the recording layer side or the substrate side to record in the read-only area. In this case, the light beam is emitted from the substrate side and the external magnetic field is applied from the substrate side.
Data can be recorded, and the magneto-optical recording medium of the present invention can be effectively used.

[Brief description of drawings]

FIG. 1 is a cross-sectional view showing one structural example of a magneto-optical recording medium according to the present invention.

FIG. 2 is a plan view of the magneto-optical recording medium of FIG.

FIG. 3 is a plan view showing a modified example of the magneto-optical recording medium shown in FIGS. 1 and 2.

FIG. 4 is a plan view showing another modification of the magneto-optical recording medium shown in FIGS. 1 and 2.

5 is a plan view showing still another modified example of the magneto-optical recording medium shown in FIGS. 1 and 2. FIG.

FIG. 6 is a plan view showing another configuration example of the magneto-optical recording medium according to the present invention.

7 is a plan view showing a modification of the magneto-optical recording medium shown in FIG.

8 is a plan view showing another modification of the magneto-optical recording medium shown in FIG.

9 is a plan view showing still another modified example of the magneto-optical recording medium shown in FIG.

FIG. 10 is a cross-sectional view showing one structural example of a magneto-optical recording / reproducing apparatus according to the present invention. It

FIG. 11 is a cross-sectional view showing another configuration example of the magneto-optical recording / reproducing apparatus according to the present invention.

[Explanation of symbols]

1 Substrate 2 First Dielectric Protective Layer 3 Magneto-Optical Recording Layer 4 Second Dielectric Protective Layer 5 Reflective Layer 6 Third Dielectric Protective Layer 7 Emitted Light 8 Objective Lens 9 Light Beam 10, 11 Magnetic Field Generating Means 12 Magnetic Field Detecting Means 13 light source 14 light receiving detection means 15 adhesive layer 16 magnetic shield plate

Claims (6)

[Claims] 1. At least a magneto-optical recording layer on a transparent substrate,
In a magneto-optical recording medium in which a reflective layer and a dielectric protective layer are sequentially stacked, a read-only area and a rewritable area are provided, and magnetic field lines are transmitted only on the dielectric protective layer portion corresponding to the read-only area. A magneto-optical recording medium, characterized in that a magnetic shield plate for prevention is attached via an adhesive layer. 2. The magneto-optical recording medium according to claim 1, wherein the adhesive layer is peelable and re-adhesive. 3. A light according to claim 1, further comprising a hub for clamping the magneto-optical recording medium to a drive device, and the magnetic shield plate being connected to the hub directly or through a connector. Magnetic recording medium. 4. A magneto-optical recording device for the magneto-optical recording medium according to claim 1, which is provided on both the substrate side and the magneto-optical recording layer side of the mounted magneto-optical recording medium. The magnetic field generating means installed, the light beam irradiating means installed on the substrate side for irradiating the magneto-optical recording medium with the recording / reproducing light beam, and the magnetic field lines from the magnetic field generating means on the magneto-optical recording layer side are provided. A magneto-optical recording / reproducing apparatus comprising magnetic field detecting means installed on the substrate side for recognizing a read-only area and a rewritable area by detecting. 5. A magneto-optical recording device for the magneto-optical recording medium according to claim 1, wherein the magneto-optical recording medium is mounted on both the substrate side and the magneto-optical recording layer side of the mounted magneto-optical recording medium. A magnetic field generating means installed, a light beam irradiating means installed on the substrate side to irradiate a magneto-optical recording medium with a recording / reproducing light beam, and a light irradiating the magneto-optical recording medium with a light beam. It consists of a beam irradiation unit and a light receiving detection unit that detects the light beam from the light beam irradiation unit reflected by the surface of the magneto-optical recording medium. A magneto-optical recording / reproducing device comprising means installed on the magnetic recording layer side. 6. When the rewritable area is recorded using the magneto-optical recording medium according to claim 1, a light beam is irradiated from the substrate side and an external magnetic field is applied from the recording layer side or the substrate side. Is applied to record in the read-only area, a light beam is applied from the substrate side and an external magnetic field is applied from the substrate side.