JPH0660607A - Magneto-optic recording/reproducing device - Google Patents

Abstract

PURPOSE:To realize a magneto-optical recording/reproducing device which can record/reproduce a large volume of information at high density and can invert the orientation of magnetic field to be applied onto a magneto-optical recording medium 8 depending on record or erasure of information through a simple constitution. CONSTITUTION:A cylindrical electromagnet for applying a vertical field on a magneto-optical recording medium 8 is disposed on the inside of the cylindrical part of the magneto-optical recording medium. Furthermore, an electrode 17 to be connected with the electrode of coil in the cylindrical electromagnet is disposed on the side face of the magneto-optical recording medium 8 and current is fed from a brush-like terminal 18 through the electrode 17 to the coil of the cylindrical electromagnet.

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 / reproducing apparatus which records / reproduces information such as document files, images and code data using a cylindrical magneto-optical recording medium.

[0002]

2. Description of the Related Art In a conventional magneto-optical recording / reproducing apparatus capable of realizing high-density recording, as a recording medium capable of recording / reproducing information at random and retrieving information at high speed, as shown in FIG. Disk-shaped magneto-optical disk 29
Is used.

The magneto-optical disk 29 is a disk-shaped substrate 2
1a and 21b, and recording film layers 23a and 23b formed on the disk-shaped substrates 21a and 21b, respectively.
The disk-shaped substrates 21a and 21b are manufactured by, for example, an injection molding method using a stamper, and have tracking guide grooves 22a and 22b, respectively. Further, the recording film layers 23a.2 formed on the disk-shaped substrates 21a.21b, respectively.
3b is composed of a reflective film, a dielectric film, a magnetic film, and the like. Then, these disk-shaped substrates 21a and 21b
By sticking together with an adhesive 24, a magneto-optical disk 29 capable of recording on both sides can be obtained.

Further, centering hubs 26, 26 serving as rotary bearings are attached to the center of the magneto-optical disk 29 from both sides.
Spindle motor 25 provided in the magneto-optical recording / reproducing apparatus
It is designed to be driven to rotate by.

The magneto-optical recording / reproducing apparatus includes the spindle motor 25, an optical pickup 27 for irradiating the magneto-optical disk 29 with a laser beam when recording / reproducing information.
A magnet 28, which is provided to face the optical pickup 27 with the magneto-optical disk 29 interposed therebetween and applies a vertical magnetic field to the magneto-optical disk 29, is provided.

To write information on the magneto-optical disk 29, the optical pickup 27 irradiates the magneto-optical disk 29 with high-intensity laser light, and the recording film layers 23a and 23b are formed.
Is increased and a magnetic field is applied from the magnet 28,
This is performed by reversing the magnetization direction of the magnetic film in the recording film layers 23a and 23b according to the information to be recorded.

The reproduction of information is performed by irradiating the magneto-optical disk 29 with a low intensity laser beam from the optical pickup 27 and detecting the rotation of the polarization plane of the reflected light. On the other hand, when erasing information, the optical pickup 27 irradiates the magneto-optical disk 29 with high-intensity laser light, and a magnetic field is applied from the magnet 28 to the magneto-optical disk 29 in a direction opposite to that used when recording information. Done by.

However, in the above structure, the wobbling or eccentricity of the magneto-optical disk 29 is apt to occur, and the magneto-optical disk 29 is limited in its diameter and the number of rotations. There is a problem that it is difficult to record the capacity information.

In order to solve this problem, therefore, the applicant of the present application previously proposed a magneto-optical recording / reproducing apparatus using a cylindrical magneto-optical recording medium in which surface wobbling and eccentricity hardly occur (Japanese Patent Application No. 2- 244956).

A cylindrical magneto-optical recording medium has a recording film layer formed on a body portion on the outer wall side of a cylindrical substrate. In a magneto-optical recording / reproducing apparatus using such an optical cylindrical magneto-optical recording medium, Information is recorded / reproduced by an optical pickup provided outside the body of the cylindrical magneto-optical recording medium and a magnet provided inside the body of the cylindrical magneto-optical recording medium. In such a magneto-optical recording / reproducing device,
Since there is no risk of surface wobbling or eccentricity in the cylindrical magneto-optical recording medium, high density and large capacity information recording can be realized.

[0011]

By the way, in the magneto-optical recording / reproducing apparatus as described above, the direction of the magnetization applied to the magnet provided in the cylindrical magneto-optical recording medium according to recording and erasing of information is reversed. The electromagnet that can be used has a problem that it is very difficult to take out the electrode to the outside of the cylindrical magneto-optical recording medium, and the structure becomes complicated. On the other hand, if the above magnet is a permanent magnet, an electrode such as an electromagnet is not required, but the direction of magnetization cannot be reversed when recording or erasing information.

The magneto-optical recording / reproducing apparatus of the present invention has been made in view of the above problems, and its purpose is to achieve high density
It is an object of the present invention to provide a magneto-optical recording / reproducing device capable of recording a large amount of information and having a simple structure.

[0013]

In order to solve the above-mentioned problems, a magneto-optical recording / reproducing apparatus according to the present invention is provided with a magnetic film having a perpendicular magnetic anisotropy on an outer wall side body of a cylindrical substrate. Using a cylindrical magneto-optical recording medium having a recording film layer having
In the magneto-optical recording / reproducing apparatus for recording information by irradiating the cylindrical magneto-optical recording medium with laser light from the optical pickup and applying a vertical magnetic field from the electromagnet to the area irradiated with the laser light, the electromagnet Is disposed inside the cylindrical portion of the cylindrical magneto-optical recording medium, and an electrode for supplying a current to the electromagnet is provided on the side surface of the cylindrical magneto-optical recording medium. .

[0014]

According to the above structure, the side surface of the cylindrical magneto-optical recording medium is provided with an electrode for supplying a current to the electromagnet arranged inside the cylindrical portion of the cylindrical magneto-optical recording medium. Therefore, it is not necessary to take a complicated structure to take out the electrode of the electromagnet to the outside of the cylindrical magneto-optical recording medium. Therefore, it is possible to record high density and large capacity information,
Moreover, a magneto-optical recording / reproducing apparatus having a simple structure can be realized.

[0015]

EXAMPLE An example of the present invention will be described below with reference to FIGS. 1 and 4.

As shown in FIG. 1, the magneto-optical recording / reproducing apparatus of this embodiment has a spindle motor 13 for rotating a cylindrical magneto-optical recording medium (hereinafter referred to as a magneto-optical recording medium) 8.
And an optical pickup 16 arranged outside the body of the magneto-optical recording medium 8 and a cylindrical electromagnet 7 described below arranged inside the body of the magneto-optical recording medium 8.

The magneto-optical recording medium 8 is, for example, glass,
It has a cylindrical substrate 9 made of a material such as plastic or aluminum, and a reflective film 10, a recording film layer 11, and a protective film 12 are formed in this order on the outer wall side body surface of the substrate 9. ing. A spiral or concentric guide groove 6 is provided in advance on the outer wall side body of the substrate 9 by, for example, a photo process.

The material of the reflective film 10 is Al, Ni, Cr.
A metal having a high reflectance such as is used. Recording film layer 11
Has a structure in which a dielectric film and a magnetic film having perpendicular magnetic anisotropy are laminated. The material of the dielectric film is Al ₂ O
₃ , AlN, SiO ₂ or the like is used, and as the material of the magnetic film, an alloy of a rare earth metal such as Gd or Tb and a transition metal such as Fe or Co is used. As a material for the protective film 12, for example, a thermosetting resin or the like is used. The reflective film 10, the recording film layer 11 including a dielectric film and a magnetic film, and the protective film 12
Are formed by, for example, vacuum vapor deposition or sputtering.

In order to transmit the rotational driving force from the spindle motor 13, the magneto-optical recording medium 8 is provided with a centering hub 14 on its side surface, and a rotary shaft 15 is accurately attached therein. . As a result, the magneto-optical recording medium 8 can rotate about the rotating shaft 15.

The optical pickup 16 is provided with an objective lens 16a for condensing the laser light on the magneto-optical recording medium 8, and along a guide shaft 16b arranged parallel to the rotating shaft 15 of the magneto-optical recording medium 8. It can be moved. For example, a linear motor or the like is used as the driving device for moving.

The electrode 17 connected to the electrode of the cylindrical electromagnet 7 arranged in the magneto-optical recording medium 8 is formed in a circular shape substantially concentric with the cylindrical substrate 9, and the magneto-optical recording medium 8 is formed.
Built into the side of. Further, the present magneto-optical recording / reproducing apparatus is provided with a brush-shaped terminal 18 which comes into contact with the electrode 17 and supplies a current.

As described above, inside the magneto-optical recording medium 8, the cylindrical electromagnet 7 as shown in FIG. 2 is arranged. The cylindrical electromagnet 7 is configured by combining individual electromagnets 7a as shown in FIG. Each electromagnet 7a has a magnetic core 7 including a curved portion 7b forming a cylindrical body and a convex portion 7c provided upright on the curved portion 7b.
d and a coil 7e wound around the convex portion 7c.

As shown in FIG. 4, the electromagnets 7a are formed into a cylindrical body with a curved portion 7b and are arranged so that the convex portions 7c are on the inner side. The electromagnet 7 is formed. The electromagnets 7a are arranged at a predetermined interval, and a slight gap is provided between the electromagnets 7a. When the cylindrical electromagnet 7 is arranged in the magneto-optical recording medium 8 shown in FIG. 1, the electrode of the coil 7e in the cylindrical electromagnet 7 is the surface of the body of the cylindrical electromagnet 7, that is, the cylindrical substrate 9 Are collected on the inner surface side of and are connected to the electrodes 17 provided on the side surfaces of the magneto-optical recording medium 8.

The magneto-optical recording medium 8 is a spindle motor 13
When the electrode 17 and the cylindrical electromagnet 7 are rotated by the rotation, the electrode 17 and the cylindrical electromagnet 7 also rotate. However, by bringing the brush-shaped terminal 18 into contact with the electrode 17, the cylindrical electromagnet 7 is rotated. A current can be applied to the coil 7e, and a vertical magnetic field having N or S polarity can be applied to the magneto-optical recording medium 8.

In the above structure, the spindle motor 1
3, the magneto-optical recording medium 8 is rotationally driven, and the laser light from the optical pickup 16 is applied to the recording track arranged along the guide groove 6.

At the time of recording information, the brush-like terminal 18 is brought into contact with the electrode 17 while irradiating the recording film layer 11 with high intensity laser light from the optical pickup 16 to supply a direct current to the coil 7e of the cylindrical electromagnet 7. Then, a vertical magnetic field is applied to the recording film layer 11. Recording film layer 1 irradiated with high intensity laser light
In the area No. 1, the temperature rises above the Curie point, and the magnetization of that area is oriented in the direction of the vertical magnetic field applied by the cylindrical electromagnet 7. This allows information to be recorded as the direction of magnetization.

Further, at the time of reproducing information, the recording film layer 11 is irradiated with low-intensity laser light from the optical pickup 16 and the rotation direction of the polarization plane of the reflected light is detected. The rotation direction of the plane of polarization depends on the direction of magnetization, as is known as the magnetic Kerr effect. Therefore, by utilizing this, the information stored in the magneto-optical recording medium 8 can be reproduced.

On the other hand, at the time of erasing information, while irradiating the recording film layer 11 with the high intensity laser beam from the optical pickup 16,
Cylindrical electromagnet 7 from brush-shaped terminal 18 via electrode 17
A direct current in the opposite direction to that at the time of recording is supplied to the coil 7e. As a result, the magnetization of the region of the recording film layer 11 irradiated with the laser beam is aligned in the direction of the perpendicular magnetic field opposite to that at the time of recording, and the information stored in the magneto-optical recording medium 8 can be erased.

As described above, in the magneto-optical recording / reproducing apparatus of this embodiment, the cylindrical electromagnet 7 for applying the vertical magnetic field to the cylindrical magneto-optical recording medium 8 is provided inside the cylindrical portion of the magneto-optical recording medium 8. An electrode 17 to which the electrode of the coil 7e of the cylindrical electromagnet 7 is connected is provided on the side surface of the magneto-optical recording medium 8. A current is supplied to the electrode 17 provided on the side surface of the magneto-optical recording medium 8 via the brush-shaped terminal 18.

Therefore, even if the cylindrical electromagnet 7 is provided inside the magneto-optical recording medium 8, in order to take out the electrode of the cylindrical electromagnet 7 to the outside of the magneto-optical recording medium 8, it is necessary to take a complicated structure. Since it is possible to realize a magneto-optical recording / reproducing device capable of reversing the direction of the magnetic field applied to the magneto-optical recording medium 8 in accordance with the recording or erasing of information with a simple structure, the cost can be reduced.

Further, in the magneto-optical recording / reproducing apparatus using the cylindrical magneto-optical recording medium 8, random access is possible like the conventional magneto-optical disk, and moreover, the number of rotations of the spindle motor 13 is kept constant. Thus, the linear velocity of the magneto-optical recording medium 8 can be made constant. Therefore, it is possible to record information at a high density without using a complicated variable rotation speed rotation mechanism or a variable write frequency circuit such as a magneto-optical disk device.

[0032]

As described above, in the magneto-optical recording / reproducing apparatus according to the present invention, the electromagnet is arranged inside the cylindrical portion of the cylindrical magneto-optical recording medium and the side surface of the cylindrical magneto-optical recording medium is provided. An electrode for supplying a current to the electromagnet is provided.

Therefore, since the electrode of the electromagnet provided inside the cylindrical portion of the cylindrical magneto-optical recording medium can be easily taken out, it is possible to record high-density and large-capacity information and have a simple structure. It is possible to realize the magneto-optical recording / reproducing apparatus.

[Brief description of drawings]

FIG. 1 is a partially cutaway perspective view showing a schematic configuration of a magneto-optical recording / reproducing apparatus according to an embodiment of the present invention.

FIG. 2 is a perspective view showing a cylindrical electromagnet arranged in a cylindrical magneto-optical recording medium of the magneto-optical recording / reproducing apparatus shown in FIG.

FIG. 3 is a perspective view showing an electromagnet that constitutes the cylindrical electromagnet shown in FIG.

4 is a cross-sectional view of the cylindrical electromagnet shown in FIG.

FIG. 5 is a partially cutaway perspective view showing a schematic configuration of a conventional magneto-optical disk device.

[Explanation of symbols]

 Reference Signs List 7 cylindrical electromagnet (electromagnet) 7a electromagnet 7b curved portion 7c convex portion 7d magnetic core 7e coil 8 cylindrical magneto-optical recording medium 9 substrate 11 recording film layer 16 optical pickup 17 electrode

Claims (1)

[Claims] 1. A cylindrical magneto-optical recording medium comprising a cylindrical substrate and a recording film layer having a magnetic film having perpendicular magnetic anisotropy formed on the outer wall side body of the cylindrical substrate. In a magneto-optical recording / reproducing apparatus for irradiating a magneto-optical recording medium with laser light and applying a vertical magnetic field from the electro magnet to an area irradiated with the laser light, the electro-magnet is a cylindrical magneto-optical recording device. A magneto-optical recording / reproducing apparatus, which is arranged inside the cylindrical portion of the medium and is provided with an electrode for supplying a current to the electromagnet on the side surface of the cylindrical magneto-optical recording medium.