JPH06162592A - Magneto-optical disk device and magneto-optical disk - Google Patents

Abstract

PURPOSE:To exactly and automatically set the upper limit value of an environmental temperature to enable the use of the magneto-optical disk device by letting a user pay attention when the ambient temperature of a disk drive approaches the critical temperature, and immediately stopping the operation of the device when the ambient temperature of the disk drive exceeds the critical temperature. CONSTITUTION:First of all, an upper limit value A of the user enabling environmental temperature of a magneto-optical disk 11 is inputted by a manual input circuit 17. On the other hand, the disk 11 is activated, the recording, reproducing or erasing operation is performed and during this operation, an ambient temperature T inside the drive is measured by an infrared senser 14 and a temperature measuring circuit 15. Then, the temperature T is compared 18 with the temperature A held by a setting circuit 16 and in the case of T<(A-10), it is judged that the exact operation is enabled. When the temperature T does not exceed the temperature A but exceeds the prescribed temperature (A-10) close to the temperature A, the user is informed by operation of an alarm device 19 corresponding to an output signal. When the temperature T exceeds the temperature A, the operation of a magneto-optical disk device 10 is immediately stopped.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a magneto-optical disk device and a magneto-optical disk, and more particularly to a magneto-optical disk device for recording, reproducing and erasing information on a rewritable magneto-optical disk and a magneto-optical disk used therefor. Regarding the disc.

A rewritable magneto-optical disk is a recording medium that has been used up to now, such as a floppy disk or a hard disk, by forming an intermittent row of submicron-order marks on a medium using laser light and reproducing the mark. In comparison with the above, since the recording capacity can be remarkably increased, it has recently been in the limelight as a large-capacity external recording medium for computers.

In order to record information on such a magneto-optical disk, medium heating by irradiation of a light beam is used, so that it is important to control the environmental temperature of the magneto-optical disk.

[0004]

2. Description of the Related Art A conventional magneto-optical disk uses an amorphous alloy of a rare earth metal and a transition metal for a recording film. A conventional magneto-optical disk device, when recording on the magneto-optical disk, irradiates and heats a rotating light beam on the surface of the magneto-optical disk continuously with a predetermined power to heat the magneto-optical disk at a temperature higher than a temperature at which magnetization reversal occurs. The surface of the magnetic disk is heated, and the magnetic field direction of the bias magnetic field is controlled at the light beam irradiation portion according to the data. As a result, data is recorded on the recording film of the magneto-optical disk in the direction of magnetization. At this time,
If the magnetic field direction of the bias magnetic field is always fixed in the predetermined direction,
Can be erased.

During reproduction of the magneto-optical disk, the polarization plane of the reflected light obtained when a light beam is applied to the surface of the magnetic disk with a small power that does not cause the above-mentioned magnetization reversal is the magnetization direction of the recording film. The recorded information is reproduced by detecting the rotation direction of the polarization plane.

[0006]

Therefore, in the conventional magneto-optical disk device, the heat of the laser beam is used for recording and erasing on the magneto-optical disk, so that the surface of the magneto-optical disk is irradiated with a light beam of the same power. Even if the temperature of the magneto-optical disk does not rise above the temperature at which the magnetization reversal occurs due to the ambient temperature, and the magneto-optical disk does not reversing the magnetization reversal even when a light beam of weak power is applied to the surface of the magneto-optical disk. The temperature rises above the temperature at which it occurs.

Therefore, the environmental temperature at which the magneto-optical disk can be used is defined by a standard such as the ISO standard. Therefore, it is conventionally known that the inside of the device is hermetically sealed and the inside of the device is kept at a predetermined temperature in order to always keep the magneto-optical disk at a usable environmental temperature.

However, in order to popularize the magneto-optical disk from now on, compatibility and replaceability of the magneto-optical disk are strongly required, and the magneto-optical disk apparatus also requires the above-mentioned large-scale device sealing mechanism. It is desired to have a simple and compact structure. However, in this case, it becomes difficult to keep the ambient temperature of the magneto-optical disk used in various places always within the usable ambient temperature.

The present invention has been made in view of the above points,
An object of the present invention is to provide a magneto-optical disk device and a magneto-optical disk that solve the above problems by including means for measuring the temperature around the magneto-optical disk drive.

[0010]

The magneto-optical disk device of the present invention has a temperature measuring means and a notifying means. The temperature measuring means measures the temperature around the magneto-optical disk drive. The notifying means notifies the outside of the environmental temperature limit when the temperature measured by the temperature measuring means is lower than the upper limit of the usable environmental temperature of the magneto-optical disk and is equal to or higher than an arbitrary temperature.

Further, in the magneto-optical disk of the present invention, the upper limit value of the above-mentioned usable environmental temperature is recorded together with the identification information in advance at the disk manufacturing stage.

[0012]

In the magneto-optical disk device of the present invention, when the temperature around the magneto-optical disk drive reaches a value near the upper limit of the usable environmental temperature, the notification means externally, that is, the user, an alarm is displayed. Etc. can be notified. Further, since the upper limit value of the usable environment temperature can be manually set, it is possible to set the temperature corresponding to the change in the temperature around the magneto-optical disk device.

Further, when the measured temperature exceeds the upper limit value of the usable environmental temperature, the recording / reproducing / erasing operation is interrupted, so that the recorded information can be protected and the recording / reproducing of erroneous information can be performed. Can be prevented.

Further, the magneto-optical disk of the present invention has the upper limit of the above-mentioned usable environmental temperature recorded in advance at the disk manufacturing stage. Therefore, even if the type of the magneto-optical disk is different, the magneto-optical disk is always used. The upper limit value of the possible environmental temperature can be set accurately in the magneto-optical disk device.

[0015]

1 is a block diagram of an embodiment of a magneto-optical disk device according to the present invention. In the figure, a magneto-optical disk device 1
Reference numeral 0 denotes a spindle motor 12 for rotationally driving the magneto-optical disk 11, an optical head 13 for recording, reproducing, and erasing information on the magneto-optical disk 11, a bias magnet (not shown), a reproducing unit (not shown), etc. In addition to the well-known components of the infrared sensor 14, the temperature measurement circuit 15, the usable limit temperature setting circuit 16, the manual input circuit 17, the comparison circuit 1
8 has a notification device 19 and a drive switch 20.

The infrared sensor 14 supplies a signal having a level corresponding to the temperature near the optical head 13 which is a magneto-optical disk drive to the temperature measuring circuit 15. The temperature measuring circuit 15 is a circuit for measuring the temperature T near the optical head 13 in real time in response to the signal from the infrared sensor 14, and for example, a thermocouple is used.

The usable limit temperature setting circuit 16 receives the reproduction signal from the optical head 13 or the usable limit temperature A which is the upper limit value of the usable environment temperature manually input by the manual input circuit 17 and holds it. To do. The comparison circuit 18 compares the measured temperature T with the usable limit temperature A. The notification device 19 is a display device or a buzzer, and notifies that the measured temperature T is near the usable limit temperature A by visual display or by voice. The drive switch 20 is a switch for controlling the operation of the spindle motor 12 and the like in the magneto-optical disk device 10.

As shown in the perspective view of FIG. 2, for example, the magneto-optical disk 11 has a pre-formatted area 22 radially formed in a recordable / reproducible area 21 as in the conventional case. 22 is characterized in that the usable limit temperature A is recorded.

The preformatted area 22 is a sector number,
Identification information (ID) such as a track number and the usable limit temperature A are recorded in advance as a row of pits that are intermittently connected to the lands at the disc manufacturing stage.

This magneto-optical disk 11 is shown in FIG. 3, for example.
As shown, the disk-shaped disc guide groove is pre-formed in a spiral shape.
Tb-S on transparent polycarbonate substrate 31
iO ₂Membrane 32, Tb₂₀(Fe₉₀Co_Ten)₈₀Membrane 33 and T
b-SiO₂The films 34 were laminated to each other with a thickness of 100 nm.
It has a sectional structure. Tb-SiO₂Membranes 32 and 34 are husbands
Protective film and a rare earth metal as a recording film between them.
Transfer metal Amorphous alloy Tb₂₀(Fe₉₀Co_Ten)₈₀film
33 is formed. The magneto-optical disk 11 is for recording
Is a write in which information is recorded in the recording film 33 as the direction of magnetization.
It is a replaceable magneto-optical disk.

Next, the operation of the magneto-optical disk device 10 will be described with reference to the block diagram of FIG. 1 and the flowchart of FIG. First, the upper limit value (limit temperature) A of the usable environment temperature of the magneto-optical disk 11 is input by the manual input circuit 17 (step 41). The limit temperature A is, for example, 60 ° C., which is obtained from the standard manual of the magneto-optical disk 11. The limit temperature A is temporarily stored in the usable limit temperature setting circuit 16.

On the other hand, the magneto-optical disk 11 is normally started up to perform a recording, reproducing or erasing operation (step 4).
2), the infrared sensor 14 and the temperature measuring circuit 1 during this operation
Measure the internal temperature T of the drive by 5 (Step 4
3). Then, the measured ambient temperature T and the setting circuit 16
The comparison circuit 18 compares with the limit temperature A held at (step 44), and if the inequality of T <(A-10) is satisfied, it is determined that the ambient temperature T is low and thus the correct operation is possible. Then, the recording, reproducing, or erasing operation is continued while repeating the operation of measuring the ambient temperature T in step 43 and the comparing operation in step 44.

When the inequality of A> T ≧ A-10 is satisfied in step 44, that is, the ambient temperature T does not exceed the limit temperature A, but the predetermined temperature (A-10) close to the limit temperature A is When it exceeds, the comparison circuit 18 of FIG.
The notification device 19 is activated by the output signal of ## EQU1 ## to notify the user that the temperature is close to the environmental limit temperature A by a lamp or a buzzer.
At this time, since the ambient temperature T has not exceeded the limit temperature A, the recording / reproducing and erasing operations are still possible, so the process returns to step 43.

If it is determined in step 44 of FIG. 4 that the ambient temperature T is equal to or higher than the limit temperature A, the comparison circuit 1 of FIG.
Drive switch 20 is activated by the output signal of 8,
The recording, reproducing or erasing operation currently being executed by the magneto-optical disk device 10 is immediately stopped (step 46). This is for the purpose of protecting recorded information on the magneto-optical disk 11 or preventing erroneous information recording. It should be noted that the magneto-optical disk device 10 must be restarted when the recording is performed again after the above operation is interrupted during the recording.

In the above description, the limit temperature A is manually set by the manual input circuit 17, but the limit temperature is reproduced from the information reproduced from the preformat area 22 in FIG. It may be stored in the setting circuit 16 (step 47 in FIG. 4). In this case, various magneto-optical disks 11 can be used without checking the standard manual.
The limit temperature A can always be set accurately and automatically.

As described above, according to this embodiment, the user is alerted when the ambient temperature T becomes close to the limit temperature A, and when the ambient temperature T exceeds the limit temperature A, the apparatus 1
By immediately stopping the operation of 0, the recorded information on the magneto-optical disk 11 can be protected.

The present invention is not limited to the above-mentioned embodiment. For example, the upper limit value of the usable environmental temperature is such that a read-only track is provided on the outermost track or the innermost track of the magneto-optical disk. Alternatively, the reproduction-only track may be reproduced only when the apparatus is started up.

[0028]

As described above, according to the device of the present invention, since the temperature around the magneto-optical disk drive is notified that the temperature is near the limit temperature, the user is warned of the increase in the medium temperature. By setting the upper limit (limit temperature) of the usable environment temperature manually, it is possible to set the temperature corresponding to the change in ambient temperature, and immediately when the measured ambient temperature exceeds the limit temperature. By suspending the operation currently being executed, it is possible to protect the recorded information and prevent the recording / reproduction of erroneous information, so that the reliability of the magneto-optical disk device can be improved as compared with the conventional one.

Further, according to the magneto-optical disk of the present invention, since the upper limit value of the usable ambient temperature of the magneto-optical disk can be accurately and automatically set, the magneto-optical disk has features such as excellent operability. Is.

[Brief description of drawings]

FIG. 1 is a configuration diagram of an embodiment of a device of the present invention.

FIG. 2 is a perspective view of an embodiment of the disc of the present invention.

3 is a vertical cross-sectional view of the disc of FIG.

FIG. 4 is a flowchart for explaining the operation of an embodiment of the device of the present invention.

[Explanation of symbols]

 11 Magneto-Optical Disk 12 Spindle Motor 13 Optical Head 14 Infrared Sensor 15 Temperature Measuring Circuit 16 Usable Limit Temperature Setting Circuit 17 Manual Input Circuit 18 Comparison Circuit 19 Reporting Device 20 Drive Switch 22 Preformatting Area

Claims (4)

[Claims] 1. A temperature measuring means (14, 15) for measuring a temperature around a magneto-optical disk drive, and a temperature measured by the temperature measuring means (14, 15) is a usable environmental temperature of the magneto-optical disk (11). A magneto-optical disk device comprising: a notification unit (18, 19) for notifying the outside of the environmental temperature limit when the temperature is less than the upper limit and is equal to or higher than an arbitrary temperature. 2. The magneto-optical disk device according to claim 1, further comprising setting means (17) for manually setting an upper limit value of the usable environment temperature in advance. 3. An interrupting means (20) for interrupting a recording / reproducing / erasing operation with respect to the magneto-optical disk (11) when the temperature measured by the temperature measuring means (14, 15) exceeds an upper limit value of the usable environment temperature. ) Has a magneto-optical disk device. 4. A magneto-optical disk, wherein an upper limit value of usable environmental temperature is recorded together with identification information in an area other than an area where information is recorded / reproduced in advance at the disk manufacturing stage.