JPH11283356A - Optical disk device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable the rewritable recording of the specified visible information on the label surface of an optical disk in any number of times. SOLUTION: The label 2 consisting of a heat reversible recording medium which becomes the 1st state at the time of heating to the 1st temperature and becomes the 2nd state different from the 1st state at the time of heating to the 2nd temperature, is applied on the optical disk 1. Then, this label 2 is heated to the 1st temperature by a recording part to record the specified visible information and heated to the 2nd temperature by an erase part to erase the recorded visible information.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical disk device for accessing an optical disk.

[0002]

2. Description of the Related Art In recent years, various types of disk-shaped media in which pits or magnetic digital information is recorded on disk-shaped media have become widespread, and these are generally referred to as optical disks. Such types of optical discs include information such as music CDs, CD-ROMs, and DVDs, which are recorded in advance, write-once optical discs that can be written only once, and rewritable optical discs that can be rewritten many times. There are optical discs, which are rapidly spreading.

[0003] On the other hand, an optical disk on which information is recorded in advance is generally provided with a label for the purpose of displaying the recorded content or enhancing the design. For example, a music CD generally has a title and a song name printed on a label surface thereof together with a predetermined picture, and a CD-ROM generally has the recorded contents printed together with a predetermined picture. It is a target.

On the other hand, in a write-once optical disk or a rewritable optical disk, since a user himself / herself writes desired information, a label on which predetermined items are printed cannot be added. For this reason, in the case of such an optical disk, it is general that the recorded contents can be written in the case. However,
It is convenient if a write-once or rewritable optical disk is provided with a label attached to a music CD or the like on which information is printed in advance, and a user can write desired items on this label. For this reason, printing apparatuses capable of printing desired items on labels attached to write-once optical disks have been commercialized. Alternatively, Japanese Patent Application Laid-Open
JP-265760 discloses an invention in which such a printing mechanism is incorporated in an optical disk device for recording / reproducing information on / from an optical disk.

[0005]

However, even with the above-described commercialized printing apparatus, Japanese Patent Application Laid-Open No.
Even in the invention disclosed in Japanese Patent No. 5760, it is only possible to print a predetermined item on the label surface of the optical disk only once. For this reason, like a rewritable optical disc,
It is not suitable for an optical disc whose recorded content can be rewritten. This is because, in such a rewritable optical disk, it is necessary to rewrite the recorded content recorded on the label in accordance with the rewriting of the recording information.

An object of the present invention is to enable predetermined visible information to be rewritten and recorded on a label surface of an optical disk any number of times.

Another object of the present invention is to realize a compact device.

Yet another object of the present invention is to simplify the structure.

Still another object of the present invention is to reduce the number of parts.

Still another object of the present invention is to simplify the control.

[0011]

According to a first aspect of the present invention, there is provided an optical disk apparatus comprising: a mounting portion on which an optical disk is mounted; and a laser beam supported on the optical disk movably supported in a radial direction of the optical disk mounted on the mounting portion. An optical pickup that irradiates the optical disc, a recording section that generates heat at a first temperature for bringing the thermoreversible recording medium into a first state toward the optical disc mounted on the mounting section, and an optical disc mounted on the mounting section. An erasing unit for generating heat at a second temperature for bringing the thermoreversible recording medium into a second state; and a recording unit for recording desired items on the thermoreversible recording medium in the plane of the optical disc mounted on the mounting unit. Recording means for driving and controlling the erasing section, and erasing means for driving and controlling the erasing section so that the thermoreversible recording medium is brought into the second state in the plane of the optical disc mounted on the mounting section.

Therefore, when the optical disk to which the thermoreversible recording medium is added as a label is mounted on the mounting section, the recording section is driven and controlled by the recording means to cause the recording section to generate heat to the first temperature. The recording medium is in the first state, and predetermined visible information is recorded on a label made of the thermoreversible recording medium. Further, the erasing unit is driven and controlled by the erasing unit to cause the erasing unit to generate heat at the second temperature, whereby the thermoreversible recording medium is in the second state, and the visible information of the label formed of the thermoreversible recording medium is erased. You. Such recording and erasing of visible information can be repeatedly performed as many times as necessary.

According to a second aspect of the present invention, in the optical disk device of the first aspect, the recording unit and the erasing unit are arranged on the opposite side of the optical pickup with the mounted optical disk therebetween.

Therefore, light irradiation by the optical pickup is performed on one surface of the optical disk, and recording / erasing of visible information is performed on the opposite surface of the optical disk by the recording unit and the erasing unit.

According to a third aspect of the present invention, in the optical disk device according to the first aspect, the recording section and the erasing section are mounted on the optical pickup, and the recording means is arranged in accordance with the movement of the optical pickup in the radial direction of the optical disk. And the erasing means drives and controls the erasing section according to the movement of the optical pickup in the radial direction of the optical disk.

Therefore, visible information is recorded / erased on the optical disk in accordance with the movement of the optical pickup.

According to a fourth aspect of the present invention, in the optical disk device of the first aspect, the erasing section is disposed on the opposite side of the optical disk with the mounted optical disk therebetween, and the recording means drives and controls the optical pickup. The optical pickup functions as a recording unit.

Accordingly, the optical pickup driven and controlled by the recording means emits light with heat energy sufficient to bring the thermoreversible recording medium into the first state, and records predetermined visible information on a label made of the thermoreversible recording medium. I do.

According to a fifth aspect of the present invention, in the optical disk device of the first aspect, the erasing section is mounted on the optical pickup, and the erasing means drives and controls the erasing section in accordance with the movement of the optical pickup in the radial direction of the optical disk. The recording means drives and controls the optical pickup so that the optical pickup functions as a recording unit.

Therefore, the visible information on the optical disk is erased according to the movement of the optical pickup. Further, the optical pickup driven and controlled by the recording means emits light with heat energy enough to bring the thermoreversible recording medium into the first state,
Prescribed visible information is recorded on a label made of a thermoreversible recording medium.

According to a sixth aspect of the present invention, in the optical disk device of the first aspect, the recording means drives and controls the optical pickup so that the optical pickup functions as a recording section, and the erasing means drives and controls the optical pickup. This optical pickup functions as an erasing unit.

Therefore, the optical pickup driven and controlled by the recording means emits light with enough heat energy to bring the thermoreversible recording medium into the first state, and records predetermined visible information on a label made of the thermoreversible recording medium. I do. Further, the optical pickup driven and controlled by the erasing means emits light with heat energy enough to bring the thermoreversible recording medium into the second state, and erases visible information recorded on a label made of the thermoreversible recording medium.

The invention according to claim 7 is the invention according to claims 1 to 6
In the optical disc device according to any one of the above, the recording unit drives and controls the recording unit based on the positional information recorded on the optical disc read by the optical pickup.

Therefore, when position information such as address information is read by an optical pickup, drive control of the recording unit is performed based on the position information, and recording / erasing of visible information on a label made of a thermoreversible recording medium is appropriate. Made in position.

[0025] The invention according to claim 8 provides the invention according to claims 1 to 6.
In the optical disc device according to any one of the above, the recording unit drives and controls the recording unit based on rotation angle information obtained from a motor that drives the optical disc to rotate.

Therefore, when the rotation angle information is obtained,
Drive control of the recording unit is performed based on the rotation angle information,
Recording / erasing of visible information with respect to a label made of a thermoreversible recording medium is performed at an appropriate position.

According to the ninth aspect of the present invention, there are provided the first to sixth aspects.
The optical disk device according to any one of the above, further comprising position detecting means for obtaining position information of the optical disk by arithmetic processing based on the type information recorded on the optical disk read by the optical pickup, wherein the recording means obtains the position information by the position detecting means. The drive of the recording unit is controlled based on the position information of the optical disc thus obtained.

Therefore, when the type information of the optical disk is read by the optical pickup, the position detecting means obtains the position information of the optical disk from the type information by arithmetic processing. Then, drive control of the recording unit is performed based on the obtained position information, and recording / erasing of visible information with respect to a label made of a thermoreversible recording medium is performed at an appropriate position.

According to a tenth aspect of the present invention, in the optical disk device according to any one of the first to sixth aspects, the recording means is obtained by an optical pickup reading a mark provided in advance in a radial direction of the optical disk. The drive of the recording unit is controlled based on the position information.

Therefore, when the mark on the optical disk is read by the optical pickup, the position information of the optical disk is obtained, so that the drive of the recording unit is controlled based on the position information, and the recording of the visible information on the label made of the thermoreversible recording medium is performed.・ Erase is performed at an appropriate position.

According to an eleventh aspect of the present invention, there is provided an optical disk device, wherein: a mounting portion on which the optical disk is mounted; and a first temperature for setting the thermoreversible recording medium in the first state toward the optical disk mounted on the mounting portion. A recording section that generates heat, an erasing section that generates heat at a second temperature to bring the thermoreversible recording medium into a second state toward the optical disc mounted on the mounting section, and an in-plane of the optical disc mounted on the mounting section. A recording unit for driving and controlling a recording unit so that desired items are recorded on the thermoreversible recording medium; and a thermoreversible recording medium in a second state within a surface of an optical disc mounted on the mounting unit. Erasing means for driving and controlling the erasing section.

Therefore, when an optical disk to which a thermoreversible recording medium is added as a label is mounted on the mounting section, the recording section is driven and controlled by the recording means to cause the recording section to generate heat to the first temperature. The recording medium is in the first state, and predetermined items are recorded on a label made of the thermoreversible recording medium. Further, the erasing unit is driven and controlled by the erasing unit to cause the erasing unit to generate heat at the second temperature, whereby the thermoreversible recording medium is in the second state, and the recorded content of the label formed of the thermoreversible recording medium is erased. You. Such recording and erasing can be repeatedly performed as many times as necessary.

The twelfth aspect of the present invention is the first or second aspect.
The optical disc apparatus according to claim 1, further comprising a guide transport mechanism for guiding and transporting the optical disc to the mounting unit, wherein a recording unit and an erasing unit are arranged in a guide path of the optical disc by the guide transport mechanism, and the recording unit guides and transports the guide transport mechanism. The recording section is driven and controlled in accordance with the movement of the optical disk, and the erasing means drives and controls the erasing section in accordance with the movement of the optical disk guided and transported by the guide and transport mechanism.

Therefore, visible information is recorded / erased on the optical disk in accordance with the movement of the optical disk guided and transported by the guide transport mechanism.

[0035]

FIG. 1 shows a first embodiment of the present invention.
This will be described with reference to FIG.

First, an optical disk 1 used in the optical disk device of the present embodiment will be described with reference to FIGS. FIG. 1 is an exploded perspective view of the optical disk, FIG. 2 is a plan view of the optical disk, and FIG. 3 is a graph showing characteristics of the thermoreversible recording medium. As shown in FIGS. 1 and 2, a label 2 is added to the optical disc 1. That is, a film-shaped label 2 is attached to one surface of the optical disc 1. This label 2 is a so-called TC made of a thermoreversible recording medium.
Film. That is, as shown in FIG. 3, the transparency or color tone is reversibly changed by the applied heat, and the material is made of a thermoreversible material whose transparency or color tone is maintained in two or more forms at normal temperature. The used film is used as the label 2.

More specifically, in the case of the label 2 of the present embodiment, the label 2 becomes transparent when heated to a temperature between the temperature T2 and the temperature T3, and thereafter, the transparent state is maintained even when the temperature returns to a normal temperature lower than the temperature T0. You. When it is heated to a temperature of T4 or higher, it becomes a translucent state. Thereafter, when the temperature returns to room temperature of T0 or lower, it becomes cloudy. Such a phenomenon occurs because the particles of the organic low-molecular substance dispersed in the resin base material constituting the label 2 are in close contact with the resin base material without any gap, and the voids are also present in the particle portion of the organic low-molecular substance. In the absence of light, the light incident from one side is transmitted to the other side without being scattered, so that the label 2 appears transparent. On the other hand, fine crystals of particles of the organic low-molecular substance are aggregated to form a polycrystal. When configured, a gap is generated at the interface of the crystal or the interface between the particle and the resin base material, and the light incident from one side is refracted and reflected at the interface between the gap and the crystal, and the interface between the crystal and the resin, so that the label 2 is scattered. Because it looks white.

However, the label 2 is not limited to the label 2 of the present embodiment in which the state changes and is maintained in two modes, that is, a transparent state and a cloudy state. Various thermoreversible recording media whose state is maintained can be selectively used. In other words, any medium that is heated to the first temperature to be in the first state and heated to the second temperature to be in the second state different from the first state is used as the label 2. Is possible.

Next, the optical disk device 11 will be described. FIG. 4 is a perspective view of the optical disk device, and FIG. 5 is a block diagram of a control system. Optical disc device 11 of the present embodiment
Comprises a mounting portion 12 for mounting the optical disc 1,
A disk motor 13 for rotating the optical disk 1 mounted on the mounting section 12 is provided. Further, an optical pickup 14 for irradiating the optical disc 1 mounted on the mounting section 12 with laser light to record information on the optical disc 1 and reproduce information recorded on the optical disc 1 is provided. The optical pickup 14 has a moving mechanism 1 that supports the optical pickup 14 movably in the radial direction of the optical disc 1.
5 is supported. That is, the optical pickup 14 is also slidably mounted on a pair of carrier shafts 16 constituting a moving mechanism 15 and driven by a pickup motor 18 via a power transmission mechanism 17 schematically shown in FIG. Move in the direction. Although only the objective lens 19 is shown in FIG. 4, the optical pickup 14 irradiates a laser diode and laser light emitted from the laser diode onto the recording surface of the optical disc 1 via the objective lens 19 in a spot manner. Optics,
In order to obtain a reference signal, a tracking signal, and a focusing signal from the reflected light of the optical disk 1, a return optical system for guiding the reflected light of the optical disk 1 to various light receiving units is mounted (all not shown). Here, the irradiation optical system and the return optical system share many optical components.

Next, the optical disk device 11 includes a recording / erasing head 20 as a printing unit and an erasing unit mounted on the optical pickup 14. This recording / erasing head 20
Consists of a thermal head in which a number of heating elements are arranged on a line, and is driven and controlled by a controller 23 described later to select each heating element with two kinds of heat energy of a first temperature and a second temperature. To generate heat. That is, the first temperature of the heating element in the recording / erasing head 20 is a temperature at which the label 2 attached to the optical disc 1 is heated to a temperature T4 or higher, and the second temperature of the heating element is that the label 2 is shifted from the temperature T2. This is a temperature for heating to a temperature between the temperatures T3. Here, the arrangement direction of the heating elements in the recording / erasing head 20 is a direction orthogonal to the radial direction of the optical disc 1 mounted on the mounting section 12.

Next, the optical disk device 11 includes a driver circuit 22 which is driven and controlled by the host computer 21. The driver circuit 22 is a circuit in which an optical pickup 14, a recording / erasing head 20, and various motor drivers 24 are connected to a controller 23 connected to a host computer 21 via a bus. Under such a circuit configuration, the controller 23 controls the irradiation timing, irradiation intensity, and the like of the laser light from the laser diode provided in the optical pickup 14, and controls the recording / erasing head 20.
, Control the timing of the drive control signals for the disk motor 13 and the pickup motor 18 for the various motor drivers 24, and the like. In other words, the host computer 21 executes various arithmetic processes that operate in accordance with the operation programs stored in the ROM, and gives various drive control signals to the controller 23 under the centralized control of the CPU that centrally controls each unit. The controller 23 drives and controls each unit based on the drive control signal. For example, the host computer 21 selectively supplies, to the controller 23, a signal for causing each heating element of the recording / erasing head 20 to generate heat at a first temperature and a signal for causing each heating element to generate heat at a second temperature. Functions as an erasing means. Accordingly, the functions of the printing means and the erasing means are executed by the drive control of the recording / erasing head 20 by the CPU according to the operation program stored in the ROM incorporated in the host computer 21. In this case, the host computer 2
1 receives input of write information to the label 2 by the recording / erasing head 20 by a keyboard or the like (not shown), and outputs a write signal based on the input information. At this time, the write information is temporarily expanded in a print buffer built in the host computer 21, and a write signal is output based on the write data expanded in the print buffer.

In order to set the label 2 of the optical disk 1 to a state in which no visible information is recorded under such a configuration, the optical disk 1 is mounted on the mounting section 12 and the recording and erasing head 20 is driven and controlled by the host computer 21. Heating element second
Heat to a temperature of Then, the label 2 of the optical disc 1
Is raised to a temperature between the temperature T2 and the temperature T3, and the label 2 becomes transparent. At this time, all the heating elements of the recording / erasing head 20 are driven, and the recording / erasing head 20 in such a state moves in the radial direction of the optical disk 1 with the movement of the optical pickup 14, so that the label 2 is completely transparent. State. Then, the transparent state of the label 2 is maintained as it is when the temperature returns to room temperature after the temperature rise.

Next, in order to record predetermined visible information on the label 2, after performing a process for making the label 2 transparent, the host computer 21 controls the drive of the recording / erasing head 20 to turn off the heating element. Heat to a temperature of 1. Then, the temperature of the label 2 of the optical disk 1 is raised to the temperature T4 or more, and the optical disk 1 becomes clouded first. At this time, the host moves in consideration of the movement of the recording / erasing head 20 in the radial direction of the optical disk 1 due to the movement of the optical pickup 14 and the arrangement of the heating elements of the recording / erasing head 20 in the direction perpendicular to the radial direction of the optical disk 1. Since the computer 21 outputs a write signal, the host computer 21
The desired visible information input to the device is recorded. Such recording and erasing of the visible information on the label 2 can be repeatedly performed as many times as necessary.

In this embodiment, since the moving mechanism 15 of the optical pickup 14 and the pickup motor 18 also serve as a moving driving mechanism of the recording / erasing head 20, the recording / erasing head 20 is moved in the radial direction of the optical disk 1. This eliminates the need for the mechanism described above and its drive source and power transmission mechanism, thereby reducing the number of parts, simplifying the structure, and realizing a compact device.

Here, variations of the mode (modification) of the recording unit and the erasing unit will be described.

FIG. 6 is a side view showing one mode of the recording section and the erasing section. In this embodiment, the recording / erasing head 20 is disposed on the opposite side of the optical pickup 14 with the optical disc 1 mounted on the mounting section 12 interposed therebetween. This recording / erasing head 2
Numeral 0 is movable in the radial direction of the optical disc 1 by a head moving mechanism 32 to which a ball nut mechanism driven by a head motor 31 is applied. Therefore, the optical disk 1
One side is irradiated with light by the optical pickup 14,
On the surface on the opposite side of the optical disk 1, the recording / erasing process of the visible information on the label 2 by the recording / erasing head 20 is executed. By adopting such an arrangement, physical interference between the optical pickup 14 and the recording / erasing head 20 is prevented as compared with a case where the moving mechanism 15 for the optical pickup 14 and the recording / erasing head 20 are separately provided. Thereby, a compact device can be realized.

FIG. 7 is a side view showing another embodiment of the recording section and the erasing section. This embodiment is the same as the embodiment illustrated in FIG. 4, and the description thereof is omitted.

FIG. 8 is a side view showing still another mode of the recording section and the erasing section. In this embodiment, the recording / erasing head 2
Numeral 0 denotes only the erasing head 41, which is disposed on the opposite side of the optical pickup 14 with the optical disc 1 mounted on the mounting section 12 therebetween. Function as In this case, the erasing head 41 is
The optical disk 1 can be moved in the radial direction by a head moving mechanism 43 to which a ball nut mechanism driven by the optical disk 2 is applied. The drive of the laser diode of the optical pickup 14 is controlled so as to emit a laser beam having a temperature energy capable of heating the label 2 attached to the optical disc 1 to a temperature T4 or higher. Therefore, predetermined visible information is recorded on the label 2 by the laser light emitted from the laser diode. As a result, it is not necessary to separately provide a recording unit, and a reduction in the number of components, simplification of the structure, and realization of a compact device are achieved.

FIG. 9 is a side view showing still another mode of the recording section and the erasing section. In this embodiment, the recording / erasing head 2
Numeral 0 is only configured as the erasing head 51 and is mounted on the optical pickup 14, and the recording means drives and controls the optical pickup 14 so that the optical pickup 14 functions as a recording unit. In this case, the laser diode of the optical pickup 14 sets the label 2 attached to the optical disc 1 to the temperature T4.
Drive control is performed so as to irradiate a laser beam having temperature energy capable of heating as described above. Therefore,
On the label 2, predetermined visible information is recorded by a laser beam emitted from a laser diode. As a result, it is not necessary to separately provide a recording unit, and a reduction in the number of components, simplification of the structure, and realization of a compact device are achieved.

FIG. 10 is a side view showing still another mode of the recording section and the erasing section. In this embodiment, the recording means drives and controls the optical pickup 14 so that the optical pickup 14 functions as a recording section.
To control the optical pickup 14 to function as an erasing unit. In this case, the laser diode of the optical pickup 14 is driven and controlled to emit a laser beam having a temperature energy capable of heating the label 2 attached to the optical disc 1 to a temperature T4 or higher. The added label 2 is changed from the temperature T2 to the temperature T3.
The drive control is performed so as to irradiate a laser beam having a temperature energy capable of heating at a temperature in between. As a result, the laser beam has two types of heat energy of the first temperature (corresponding to the temperature T4 or higher) and the second temperature (corresponding to the temperature T2 to the temperature T3). Therefore, predetermined visible information is recorded / erased on the label 2 by the laser light emitted from the laser diode. This allows
There is no need to separately provide a recording unit and an erasing unit, and the number of parts is reduced, the structure is simplified, and a compact device is realized.

Next, a description will be given of a method of retrieving position information of the label 2 when recording / erasing visible information on the label 2 by the recording / erasing head 20 or the like. In the optical disc device 11 of the present embodiment, it is possible to search for the position information of the label 2 by various search methods. Here, various techniques will be described below, and the radial direction of the optical disc 1 will be described as the X direction, and the direction perpendicular to the radial direction will be described as the Y direction.

First, as a first method, there is a method of controlling the drive of the recording / erasing head 20 by the recording means based on the position information recorded on the optical disk 1 read by the optical pickup 14. That is, the optical disk 1
The position information such as the address data is read by the optical pickup 14 and is used when recording / erasing visible information on the label 2. More specifically, both the X-direction position and the Y-direction position of the optical disc 1 are determined from the position information such as the address data of the optical disc 1, whereby the writing position of the visible information on the label 2 is specified, and the visible position on the label 2 is specified. Recording / erasing of information is performed at an appropriate position. In this case, the optical disk 1
Position information can be easily obtained without using a sensor or the like, so that the number of parts is reduced, the structure is simplified,
A compact device can be realized. Further, since the position information recorded on the optical disc 1 is used, control can be facilitated.

Next, as a second method, the optical disk 1
There is a method for controlling the drive of the recording / erasing head 20 based on the rotation angle information obtained from the disk motor 13 that rotates the disk. That is, since the rotation angle information of the optical disk 1 can be easily obtained from the disk motor 13 by adding an encoder to the disk motor 13, this is used when recording and erasing visible information on the label 2. . More specifically, the position of the optical disc 1 in the X direction is determined from the rotation angle information of the optical disc 1, whereby the writing position of the visible information on the label 2 is specified, and the recording / erasing of the visible information on the label 2 is performed at the proper position. Is made. In this case, since the position information of the optical disk 1 can be easily obtained without using a sensor or the like, the number of components can be reduced, the structure can be simplified, and a compact device can be realized.

Next, as a third technique, position information of the optical disk 1 is obtained by arithmetic processing based on the type information recorded on the optical disk 1 read by the optical pickup 14 (position information detecting means), and thus obtained. There is a method of controlling the drive of the recording / erasing head 20 by the recording unit based on the position information of the optical disc 1. In other words, the position information of the optical disc 1 has almost the same meaning as the number of tracks from the inner circumference, and thus depends on the track interval. Therefore, the type information (track pitch, diameter of 120 mm or 8 mm) recorded on the optical disc 1 is recorded.
A different track pitch is recognized for each type of optical disc 1 based on 0 mm or the like, and the position of the optical disc 1 in the X direction is calculated by the host computer 21 based on the recognized track pitch. Thus, the writing position of the visible information on the label 2 is specified, and the recording / erasing of the visible information on the label 2 is performed at the proper position. In this case, since the position information of the optical disk 1 can be easily obtained without using a sensor or the like, the number of components can be reduced, the structure can be simplified, and a compact device can be realized.

Next, as a fourth method, the optical disk 1
The drive control of the recording / erasing head 20 is executed based on the positional information obtained by the optical pickup 14 reading the mark 61 provided in advance in the radial direction. That is, when this method is adopted, the optical disk 1 on which the mark 61 is provided in the radial direction (X direction) is used. When the optical disk 1 is a land / groove type optical disk 1, for example, the mark 61 is a land L provided on a groove G formed in a spiral or concentric shape of the optical disk 1 in the radial direction of the optical disk 1. (FIG. 12). According to the fourth method, the position of the optical disc 1 in the X direction is determined by the optical pickup 14 detecting the mark 61 formed on the optical disc 1. The specified information is recorded and erased on the label 2 at an appropriate position. In this case, since the position information of the optical disk 1 can be easily obtained without using a sensor or the like, the number of components can be reduced, the structure can be simplified, and a compact device can be realized. Further, since the position information recorded on the optical disc 1 is used, control can be facilitated.

A second embodiment of the present invention will be described with reference to FIG. FIG. 13 is a schematic vertical sectional side view of the optical disk device. The same parts as those in the first embodiment are denoted by the same reference numerals, and description thereof is omitted. The present embodiment is applied to an optical disk device 71 of a type in which the optical disk 1 is loaded onto the mounting section 12 and mounted. That is, the optical disk device 71
Is provided with a transport roller 72 as a guide transport mechanism for guiding and transporting the optical disc 1 to the mounting section 12 (not shown in FIG. 13). A recording head 74 as a recording unit and an erasing head 75 as an erasing unit are arranged on a guide path 73 of the optical disk 1 by the transport rollers 72.

Under such a configuration, in the optical disk device 71 of the present embodiment, the recording head 74 or the erasing head 75 is driven and controlled in accordance with the movement of the optical disk 1 guided and transported by the transport roller 72. Visible information is recorded / erased on the optical disc 1. A moving mechanism for the recording head 74 and the erasing head 75 and a driving source / power transmission mechanism for the recording head 74 and the erasing head 75 are not required, so that the number of parts is reduced, the structure is simplified, and a compact device is realized.

[0058]

According to the first aspect of the present invention, there is provided an optical disk apparatus comprising: a recording unit that generates heat at a first temperature to bring a thermoreversible recording medium into a first state toward an optical disk mounted on a mounting unit; The predetermined visible information is recorded on the thermoreversible recording medium added as a label to the optical recording medium by controlling the driving in,
The thermoreversible recording medium is brought into the second state. The erasing section that generates heat at the second temperature is driven and controlled by the erasing means to erase visible information recorded on the thermoreversible recording medium. The predetermined visible information can be rewritten and recorded on the label any number of times. Moreover, since it is incorporated in a device capable of recording and reproducing information on the optical disk, there is no need to separately provide a device for recording and erasing visible information on the label of the optical disk, and the device is inexpensive. Can be realized.

According to a second aspect of the present invention, in the optical disk device of the first aspect, the recording section and the erasing section are arranged on the opposite side of the optical pickup with the mounted optical disk therebetween. Physical interference with the erasing unit can be prevented, thereby realizing a compact device.

According to a third aspect of the present invention, in the optical disk device according to the first aspect, a recording unit and an erasing unit are mounted on the optical pickup, and the recording unit moves in a radial direction of the optical pickup. And the erasing means drives and controls the erasing section in accordance with the movement of the optical pickup in the radial direction of the optical disc, so that the recording section and the erasing section are moved in the radial direction of the optical disc while the thermoreversible recording is performed. When adopting a configuration for recording and erasing visible information on the medium, a mechanism for moving the recording unit and the erasing unit in the radial direction of the optical disc, and a drive source and a power transmission mechanism thereof can be eliminated, and therefore, The number of parts can be reduced, the structure can be simplified, and a compact device can be realized.

According to a fourth aspect of the present invention, in the optical disk device of the first aspect, an erasing section is arranged on the opposite side of the optical pickup with the mounted optical disk therebetween, and the recording means drives and controls the optical pickup. Since the optical pickup functions as the recording unit, physical interference between the optical pickup and the erasing unit can be prevented, and
It is possible to eliminate the necessity of separately providing a recording unit, and therefore, it is possible to reduce the number of components, simplify the structure, and realize a compact device.

According to a fifth aspect of the present invention, in the optical disk device of the first aspect, the erasing section is mounted on the optical pickup, and the erasing means drives and controls the erasing section according to the movement of the optical pickup in the radial direction of the optical disk. Since the recording means drives and controls the optical pickup so that the optical pickup functions as a recording unit, the erasing unit moves the radial direction of the optical disk to erase visible information from the thermoreversible recording medium. When adopted, a mechanism for moving the erasing unit in the radial direction of the optical disc and a drive source and a power transmission mechanism thereof can be eliminated, and the need for separately providing a recording unit can be eliminated. The number of parts can be reduced, the structure can be simplified, and a compact device can be realized.

According to a sixth aspect of the present invention, in the optical disk device of the first aspect, the recording means controls the driving of the optical pickup so that the optical pickup functions as a recording section, and the erasing means controls the driving of the optical pickup. Since this optical pickup was made to function as an erasing unit,
It is not necessary to separately provide a recording unit and an erasing unit. Therefore, the number of parts can be reduced, the structure can be simplified, and a compact device can be realized.

The invention according to claim 7 is the invention according to claims 1 to 6
In the optical disc device according to any one of the above, the recording means drives and controls the recording unit based on the position information recorded on the optical disc read by the optical pickup, so that the position information of the optical disc can be obtained by using a sensor or the like. Therefore, the number of parts can be reduced, the structure can be simplified, and a compact device can be realized. Further, since the position information recorded on the optical disk is used, control can be facilitated.

The invention according to claim 8 is the invention according to claims 1 to 6
In the optical disk device according to any one of the above, the recording unit drives and controls the recording unit based on rotation angle information obtained from a motor that rotationally drives the optical disk. Therefore, the number of parts can be reduced, the structure can be simplified, and a compact device can be realized. Further, since the rotation angle information obtained from the motor is used, control can be facilitated.

The ninth aspect of the present invention provides the first to sixth aspects.
In the optical disk device according to any one of the above, a position detecting means for obtaining position information of the optical disk by arithmetic processing based on the type information recorded on the optical disk read by the optical pickup is provided, and the position of the optical disk obtained by the position detecting means is provided. Since the recording unit drives and controls the recording unit based on the position information, the position information of the optical disk can be easily obtained without using a sensor or the like.Therefore, the number of parts is reduced, the structure is simplified, A compact device can be realized. Also,
Since position information based on the type information recorded on the optical disk is used, control can be facilitated.

According to a tenth aspect of the present invention, in the optical disk device according to any one of the first to sixth aspects, based on position information obtained by reading a mark provided in advance in the radial direction of the optical disk by the optical pickup. Since the recording means drives and controls the recording section, the position information of the optical disk can be easily obtained without using a sensor or the like. Therefore, the number of parts can be reduced, the structure can be simplified, and a compact device can be obtained. Can be realized.
Further, since the position information based on the mark recorded on the optical disk is used, control can be facilitated.

According to an eleventh aspect of the present invention, the recording section drives the recording section which generates heat at the first temperature to bring the thermoreversible recording medium into the first state toward the optical disk mounted on the mounting section. Controlling to record predetermined visible information on the thermoreversible recording medium added as a label to the optical recording medium,
The thermoreversible recording medium is brought into the second state. The erasing section that generates heat at the second temperature is driven and controlled by the erasing means to erase visible information recorded on the thermoreversible recording medium. The predetermined visible information can be rewritten and recorded on the label any number of times.

The twelfth aspect of the present invention is the first or second aspect.
In the optical disc device described above, a guide transport mechanism for guiding and transporting the optical disc to the mounting section is provided, and a recording section and an erasing section are arranged on a guide path of the optical disc by the guide transport mechanism, and the optical disc guided and transported by the guide transport mechanism. The recording means drives and controls the recording section in accordance with the movement of the optical disk, and the erasing means drives and controls the erasing section in accordance with the movement of the optical disk guided and transported by the guide transport mechanism. Recording and erasing of visible information on the thermoreversible recording medium, which becomes the label of the optical disc, in the process of moving the optical information to the thermoreversible recording medium while moving the recording part and the erasing part relatively in the radial direction of the optical disc. In the case of adopting a configuration for recording / erasing data, a mechanism for moving the recording unit and the erasing unit relatively in the radial direction of the optical disk and its driving source and power Reach mechanism can be eliminated, therefore reducing the number of parts, simplify the structure, it is possible to realize a compact apparatus.

[Brief description of the drawings]

FIG. 1 is an exploded perspective view of an optical disc showing a first embodiment of the present invention.

FIG. 2 is a plan view of the optical disc.

FIG. 3 is a graph showing characteristics of a thermoreversible recording medium.

FIG. 4 is a perspective view of an optical disk device.

FIG. 5 is a block diagram of a control system.

FIG. 6 is a side view showing one mode of a recording unit and an erasing unit.

FIG. 7 is a side view showing another aspect of the recording unit and the erasing unit.

FIG. 8 is a side view showing still another mode of the recording unit and the erasing unit.

FIG. 9 is a side view showing still another mode of the recording unit and the erasing unit.

FIG. 10 is a side view showing still another mode of the recording unit and the erasing unit.

FIG. 11 is a plan view showing one mode of an optical disc.

FIG. 12 is an enlarged plan view showing a mark formed on the optical disc.

FIG. 13 is a schematic vertical sectional side view of an optical disk device showing a second embodiment of the present invention.

[Explanation of symbols]

REFERENCE SIGNS LIST 1 optical disc 12 mounting section 14 optical pickup 3 thermoreversible recording medium (label) 20, 74 recording section (recording / erasing head, recording head) 20, 41, 51, 75 erasing section (recording / erasing head, erasing head) 13 motor ( Disc motor) 61 Mark 72 Guide transport mechanism (transport roller)

 ──────────────────────────────────────────────────続 き Continued on the front page (72) Inventor Yoshihiko Hotta 1-3-6 Nakamagome, Ota-ku, Tokyo Inside Ricoh Company (72) Inventor Tetsuo Watanabe 1-3-6 Nakamagome, Ota-ku, Tokyo Stock Inside the company Ricoh

Claims (12)

[Claims] An optical disc mounted on the mounting part, the optical pickup being movably supported in a radial direction of the optical disc mounted on the mounting part, and irradiating the optical disc with laser light; A recording unit that generates heat at a first temperature for bringing the thermoreversible recording medium into a first state toward the optical disc, and a second recording medium that heats the thermoreversible recording medium toward the optical disc mounted on the mounting unit. And an erasing unit that generates heat at a second temperature for driving the recording unit so that desired items are recorded on the thermoreversible recording medium within a surface of the optical disc mounted on the mounting unit. An optical disc apparatus comprising: a recording unit; and an erasing unit that controls the driving of the erasing unit so that the thermoreversible recording medium is in the second state in a plane of the optical disc mounted on the mounting unit. 2. The optical disk device according to claim 1, wherein the recording unit and the erasing unit are arranged on the opposite side of the optical pickup with the mounted optical disk therebetween. 3. A recording unit and an erasing unit are mounted on an optical pickup, and a recording unit drives and controls the recording unit in accordance with a movement of the optical pickup in a radial direction of the optical disk. 2. The optical disk device according to claim 1, wherein the drive of the erasing unit is controlled in accordance with the movement in the radial direction. 4. The optical disk according to claim 1, wherein the erasing unit is disposed on the opposite side of the optical disk with the optical disk mounted thereon, and a recording unit controls the driving of the optical pickup so that the optical pickup functions as a recording unit. apparatus. 5. An erasing section is mounted on an optical pickup, an erasing section controls the driving of the erasing section in accordance with the movement of the optical pickup in a radial direction of the optical disk, and a recording section controls the driving of the optical pickup. The optical disk device according to claim 1, wherein the optical pickup functions as a recording unit. 6. The recording apparatus according to claim 1, wherein the recording means controls the driving of the optical pickup so that the optical pickup functions as a recording section, and the erasing means controls the driving of the optical pickup to cause the optical pickup to function as the erasing section. Optical disk device. 7. The optical disk device according to claim 1, wherein the recording unit drives and controls the recording unit based on position information recorded on the optical disk read by the optical pickup. 8. The optical disk device according to claim 1, wherein the recording unit controls the driving of the recording unit based on rotation angle information obtained from a motor that rotationally drives the optical disk. 9. A position detecting means for obtaining position information of the optical disc by arithmetic processing based on the type information recorded on the optical disc read by the optical pickup, wherein the recording means is provided with the position information obtained by the position detecting means. 7. The optical disk device according to claim 1, wherein the drive of the recording unit is controlled based on the position information of the optical disk. 10. The recording unit according to claim 1, wherein the recording unit controls driving of the recording unit based on positional information obtained by reading a mark provided in advance in a radial direction of the optical disk by the optical pickup. Optical disk device. 11. A mounting unit on which an optical disk is mounted, a recording unit that generates heat at a first temperature for bringing a thermoreversible recording medium into a first state toward the optical disk mounted on the mounting unit, An erasing unit that generates heat at a second temperature that brings the thermoreversible recording medium into a second state toward the optical disk mounted on the mounting unit; A recording unit that drives and controls the recording unit so that desired items are recorded on the reversible recording medium; and the thermoreversible recording medium is in the second state within a surface of the optical disc mounted on the mounting unit. And an erasing means for driving and controlling the erasing section. 12. A guide transport mechanism for guiding and transporting an optical disk to a mounting section, wherein a recording section and an erasing section are arranged on a guide path of the optical disk by the guide transport mechanism, and recording means guides the guide transport mechanism to the guide transport mechanism. 2. The drive control of the recording unit according to the movement of the optical disc being conveyed, and the erasing unit drives and controls the erase unit according to the movement of the optical disc guided and conveyed by the guide conveyance mechanism.
Or the optical disk device according to 11.