KR19990065111A - Double-sided optical recording medium driving device and method - Google Patents

Abstract

The present invention relates to a double-sided optical recording medium driving apparatus and method for improving data transfer speed by driving a pickup element without rotating the disk to read data from an optical recording medium such as a CD-ROM or a DVD or a magneto-optical disk. In this regard, it is provided on both sides of the optical recording medium 30 in the form of a disc, and has a pair of conical forms coated with refractive materials 41 and 43 having a high refractive index on its surface in order to smooth its slope. Refractive reflectors 40, 42; An optical pickup device 13 having built-in light-emitting and light-receiving elements for emitting and receiving laser light necessary for reading data recorded on the optical recording medium 30, and a beam splitter for separating light emitted and received; ; It rotates while changing the position of the said optical pickup apparatus 13, Comprising: It is comprised by the actuator 10 connected to the optical pickup apparatus 13 by the rod 11 which serves as a rotating shaft.

Description

Double-sided optical recording medium driving device and method

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a double-sided optical recording medium driving apparatus and a method thereof, and more particularly to driving a pickup device without rotating a disk to read data from an optical recording medium such as a CD-ROM or a DVD or a magneto-optical disk. The present invention relates to a double-sided optical recording medium driving apparatus for improving the data transfer speed.

In general, an optical recording medium, that is, a compact disk ROM (CD-ROM) or a digital versatile disk (DVD), is a device that stores and reproduces information such as video, sound, or data on a recording medium with high density. Record media include discs, cards, tapes, and the like, of which discs are mainstream.

The disk includes a substrate made of a plastic or glass having a predetermined thickness through which the incident light is transmitted in the direction in which light is incident, and a recording layer located on the back side of the substrate to record information.

Such discs have a standardized size, and thus the amount of information that can be recorded is limited. Therefore, efforts have been made to increase the recording density of the recording layer in order to record more information on the disc whose size has been standardized.

In addition, the data stored on the disk has a large size of the recorded data (for example, 650 MByte in the case of a CD-ROM, and 2 to 3 GByte in the case of a DVD), and one file in the case of video information or sound information. Because the size of is much larger than the size of a conventional file, fast transfer speed is required.

On the other hand, a general CD-ROM driver uses a laser beam (wavelength of 780 nm for CD-ROM and wavelength of 635 nm for DVD) to read data recorded on a tray for mounting a CD-ROM and a disc mounted in the tray. A laser semiconductor for emitting light) and an optical pickup element for focusing the light emitted from the laser semiconductor on the recording surface of the disk and receiving the light reflected from the data recording surface; A light receiving element for receiving the light received through the optical pickup element, a motor for rotating the disk, and an actuator for moving the optical pickup element in search of the data position of the disk.

Therefore, in order to improve the speed of reading data, there is no current situation other than the method of improving the rotational speed of the motor that rotates the disk.

However, when the rotational speed of the disk is increased, the mechanical vibration phenomenon appears strongly in the case of eccentricity between the disk and the rotating device such as a motor that rotates the disk.

Therefore, the conventional optical recording medium apparatus for recording / reproducing data by rotating the disk has a problem in that the transmission speed of the data is limited because the rotation speed of the disk is limited.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems. In the optical recording medium apparatus of the disc type, an optical pickup apparatus having a small eccentric vibration provided at the center portion of the disk instead of rotating the disk in order to improve the transmission speed. It is an object of the present invention to provide a double-sided optical recording medium driving apparatus and a method for improving the data transfer speed by rotating a very fast.

In order to achieve the above object, the present invention is provided above and below both sides of an optical recording medium in the form of a disc, and in the form of a cone in which a refractive material having a high refractive index is coated on the surface thereof to smooth the slope thereof. A pair of refractive reflectors; An optical pickup device that includes a light-emitting and light-receiving element for emitting and receiving laser light necessary for reading data recorded on an optical recording medium, and a beam splitter for separating light emitted and received; By rotating while changing the position of the optical pickup device DML, it provides a double-sided optical recording medium driving device including an actuator connected to the optical pickup device by a rod serving as a rotation axis.

In addition, the present invention, in order to achieve the above object, to fix the optical recording medium capable of recording or reproducing data, the refractive index coated with a refractive material having a predetermined refractive index on the reflective surface in order to reduce the reflection angle of the incident laser light Reflecting plates are provided on both sides of the optical recording medium, and the optical pickup device for emitting and receiving laser light is rotated while changing the position of the pair of refractive reflecting plates to record or reproduce data on the recording surface of the optical recording medium. It also provides a double-sided optical recording medium driving method characterized in that.

1 is a front sectional view showing the configuration of a double-sided optical recording medium driving device according to the present invention;

2 is a cross-sectional view showing a second embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

10: actuator 11: rod

13: optical pickup device 15: keeper

30: DVD 31: recording surface

40, 42: refractive reflector 41, 43: refractive material

The structure and operation of the double-sided optical recording medium driving apparatus according to the present invention will be described in detail with reference to one embodiment of the present invention.

1 is a front sectional view showing the configuration of a double-sided optical recording medium driving apparatus according to the present invention.

The structure of the double-sided optical recording medium driving apparatus according to the present invention is provided on both sides of the DVD 30, which is an optical recording medium in the form of a disc, as shown in FIG. A pair of refractive reflectors 40, 42 in the form of a cone coated with refractive materials 41, 43 having a high refractive index; An optical pickup device (13) containing a light emitting and receiving element for emitting and receiving laser light necessary for reading data recorded on the DVD (30), a beam splitter for separating the emitted and received light; It rotates while changing the position of the said optical pickup apparatus 13, Comprising: It consists of the actuator 10 connected with the optical pickup apparatus 13 by the rod 11 which serves as a rotating shaft.

The reason for coating the refractive materials 41 and 43 having a high refractive index on the refractive reflectors 40 and 42 is to reduce the overall thickness of the driver that reads data from the DVD, and the larger the refractive index, the higher the refractive reflector ( Since the height of 40) can be reduced, the overall thickness of the driver can be reduced.

The reason why the above-described refractive reflection plates 40 and 42 are provided above and below the DVD 30 is as follows.

Currently, most of the DVDs are in one direction on the data recording surface. However, some DVDs record data on both sides, and other types of media may adopt the double-sided recording method. It has the function to read both data.

In addition, when mounting a CD-ROM in which data is recorded on only one surface, such as a CD-ROM, it is inconvenient to check and mount the recording surface so that it always faces toward the optical pickup device. This allows you to read the data regardless of the direction of the CD-ROM.

In addition, although the actuator 10 was provided in the upper part and the optical pickup apparatus 13 was installed in the bottom in FIG. 1, the position may change mutually.

The actuator 10 has a function of rotating the optical pickup device 13 at high speed and a function of varying the length of the rod 11 in order to change the vertical position of the optical pickup device 13. By using a magnetic bearing or a bearing using a fluid pressure as a bearing mounted on an internal rotating shaft to reduce the frictional force of the shaft, it is possible to absorb vibrations that may occur in the rod 11 connected to the shaft.

The double-sided optical recording medium driving device according to the present invention configured as described above functions as follows.

First, the moving part in the double-sided optical recording medium driving device according to the present invention is a rod 11 connected to the actuator 10, an optical pickup device 13, and the CD-ROM 30, as well as the refractive reflector 40 , 42) is stationary without movement.

Therefore, in order to read the data recorded on the recording surface 31 of the CD-ROM 30, it is determined whether the portion where the data to be read is recorded is far or near from the center of the CD-ROM 40, so that the radius is small. In order to read the data therein, the position of the optical pickup device 13 is pulled upward to rotate. Then, as shown in the optical path A of FIG. 1, the laser light emitted from the light emitting element of the optical pickup device 13 is incident and refracted by the refractive material 41 of the refractive reflection plate 40 to be reflected by the refractive reflection plate 40. And refracted by the refracting material 41 and incident on the CD-ROM 30.

The laser light read and reflected from the recording surface 31 of the CD-ROM 30 is refracted and reflected by the refractive reflector 40 so as to be incident on the light receiving element of the optical pickup device 13 to read the data. .

On the other hand, when the data has a long radius, i.e., at the edge, it is necessary to form an optical path such as optical path B of FIG. 1, so that the actuator 10 extends the rod 11 to extend the optical pickup device 13. Lower the position down. The optical path B reads data through the same path as the optical path A.

In the case where the CD-ROM 30 is a double-sided CD-ROM, when the data recorded on the lower surface is read or when the recording surface 31 is mounted downward when the CD-ROM 30 is mounted, Data is read through the same paths as the optical paths C and D in FIG.

In addition, in the present invention as described above, the countermeasure against eccentric vibration that may occur weakly in the rod 11 connecting the optical pickup device 13 to an actuator that changes or rotates the position of the optical pickup device 13. Although not shown, as shown in FIG. 2, a keeper 15 which connects an axis to the lower end of the optical pickup device 13 mounted on the actuator 10 via the rod 11 and fixes one end of the axis in a rotatable manner is shown in FIG. By installing this, the eccentric vibration which may be weakly generated by the actuator and the keeper 15 supporting the optical pickup device 13 is suppressed.

In the method for driving a double-sided optical recording medium according to the present invention, the optical recording medium capable of recording or reproducing data, that is, the DVD 30 is fixed, and has a predetermined refractive index on the reflective surface in order to reduce the reflection angle of the incident laser light. Refractive reflection plates 40 and 42 coated with refractive materials 41 and 43 are provided on both sides of the optical recording medium 30, and the position of the optical pickup device 13 for emitting and receiving laser light is described above. It rotates while changing between the pair of refractive reflectors 40 and 42 to record or reproduce data on the recording surface 31 of the optical recording medium 30.

The double-sided optical recording medium driving device according to the present invention, which is constructed and acts as described above, is installed in the center portion of the disc instead of rotating the disc to improve the transmission speed in the disc type optical recording medium device. By rotating the optical pickup device very quickly, the data transfer speed can be improved, and the data can be read from the optical recording medium containing the data on both sides thereof, and when the single-sided recording type optical recording medium is mounted, the direction of the recording surface is not checked. Provides the convenience of not having to.

Claims (4)

It is provided on both sides of the optical recording medium 30 in the form of a disc, and has a pair of refractive reflection plates 40 in the form of cones coated with refractive materials 41 and 43 having high refractive index on its surface in order to smooth its slope. , 42); An optical pickup device 13 having built-in light-emitting and light-receiving elements for emitting and receiving laser light necessary for reading data recorded on the optical recording medium 30, and a beam splitter for separating light emitted and received; ; Rotating while changing the position of the optical pickup device (13), a double-sided optical recording medium driving device comprising an actuator (10) connected to the optical pickup device (13) by a rod (11) serving as a rotating shaft. In order to fix the optical recording medium 30 capable of recording or reproducing data and to reduce the reflection angle of the incident laser light, the refractive reflection plates 40 and 42 coated with refractive materials 41 and 43 having a predetermined refractive index on the reflection surface. ) Is provided on both sides of the optical recording medium 30, and rotates while changing the position of the optical pickup device 13 for emitting and receiving laser light between the pair of refractive reflection plates 40 and 42 described above. And recording or reproducing data on the recording surface (31) of the optical recording medium (30). The apparatus of claim 1, wherein the actuator further comprises a magnetic bearing having a dustproof function on the rotating shaft or a bearing using a fluid pressure to damp or block vibrations caused by rotation. The apparatus of claim 1, further comprising a keeper rotatably fixing one end of the optical pickup device to suppress eccentric vibration of the optical pickup device.