KR100246476B1 - Apparatus of optical axis skew correction - Google Patents

Abstract

The present invention relates to an optical axis tilt correction device for adjusting the optical axis accurately and easily.

An optical axis tilt correction device according to the present invention includes a spindle motor for rotating a disk, and biaxial tilt correction means for correcting a tilt of the spindle motor in at least one direction.

The optical axis tilt correction device according to the present invention can accurately adjust the path of the optical axis by a simple structure.

Description

Apparatus For Correcting Optical Axis

The present invention relates to a recording / reproducing apparatus for a disc, and more particularly, to an optical axis tilt correction device for precisely and easily adjusting an optical axis.

Recently, a compact disk (CD) series of recording media has become common, and a digital versatile disk ("DVD") capable of rewritable recording capacity and superior to that of a CD. A series of optical recording media are being developed and released. In addition, the development of magneto optical disks (MOD), which is expected to increase in capacity from 6GB to 14GB in the future, is being accelerated as a next generation recording medium. Such optical recording media and magneto-optical recording media have been densified to accommodate a large amount of information, and recording / reproducing apparatuses (hereinafter referred to as "disk drivers") have become high speed. Recording / reproducing apparatus (hereinafter referred to as "disk driver") for recording or reproducing information on the optical recording medium, accordingly, requires strict precision.

1 is a perspective view schematically showing a conventional disk driver.

Referring to FIG. 1, a conventional disk driver transfers a spindle motor 4 for rotating a disk 1, an optical pickup 3 for irradiating light onto a surface of the disk 1, and an optical pickup 3. It is provided with a transfer motor (5).

The spindle motor 4 is integrally formed with a turntable on which the disk 1 is seated and serves to rotate the disk at an arbitrary speed. The optical pickup 3 is integrally formed with a light source and an objective lens 2 for condensing a light beam from the light source on the surface of the disk 1 and the disk 1 along the guide shaft 5a by the driving force of the transfer motor 5. It travels in radial direction with respect to random access. If the center line in the optical path direction of the laser beam emitted from the objective lens 2 is called an optical axis, the beam emitted from the objective lens 2 as shown in FIG. The information is reproduced by being focused on the recording surface and immediately reflected and received by the optical pickup 3 through the objective lens 2. In order to reproduce the ideal information in this manner, the optical axis and the information recording surface of the disc 1 are perpendicular to each other so that the beam incident on the information recording surface can be returned to the optical pickup 2 immediately.

The spindle motor 4, the optical pickup 3, the guide shaft 5a and the transfer motor 5 are fastened to the mechanism base. When the guide shaft 5a is fastened by being fixed on the mechanism base, the guide shaft 5a is affected by the plan view of the mechanism base, and is fastened to some extent with respect to a horizontal reference plane. This inclination is represented by the inclination of the optical pickup 3 fastened to the guide shaft 5a so as to be linearly movable. Then, the light beam emitted from the light source of the optical pickup 3 has an inclination according to the inclination of the optical pickup 3 as shown in FIG. 2 (b) and the incidence beam is inclined via the objective lens 2, so that the disk 1 Irradiated to the surface. This phenomenon is caused by tilting the turntable in the plane direction according to the plan view of the mounting surface of the spindle motor 4 and the vertical axis of rotation of the spindle motor 4 at the mechanism base, so that the information recording surface of the disk 1 is inclined with respect to the reference plane. In this way, when the information recording surface and the optical axis of the disc 1 are inclined without being perpendicular to each other, information cannot be reproduced accurately. As the inclination of the optical axis increases from the information recording surface of the disc 1, the probability of an error occurring in the information to be reproduced increases, and in severe cases, the information cannot be read at all. In addition, when the inclination of the optical axis changes, the focal length from the objective lens 2 to the information recording surface of the disc 1 becomes inconsistent, causing an error in recording / reproducing. Even when information is recorded on the information recording surface of the disc 1 by the disc driver for recording / playback, the tilt of the optical axis may cause errors of the recorded data depending on the degree, and when the wrong recorded data is reproduced, The error probability at the time of reproduction is added to the data error, making it impossible to reproduce the signal processing for any error correction. In this case, the compatibility of the disk 1 or the disk driver is inferior, and thus the stability and reliability of the information are reduced, thereby losing the competitiveness. In order to solve such a conventional problem, a method of improving the precision of each component constituting the disk driver may be considered, but this increases the manufacturing cost, which also causes a loss of competitiveness. As the recording density of the disc 1 increases, the pitch between the tracks 1a of the disc 1 becomes narrower, and the mechanical precision of the mechanism for recording / reproducing the disc 1 requires high accuracy. Therefore, a correction mechanism that can easily correct the optical axis path with a simple structure has become a developmental issue.

Accordingly, it is an object of the present invention to provide an optical axis tilt correction device for precisely adjusting the path of the optical axis by a simple structure.

It is another object of the present invention to provide an optical axis tilt correction apparatus for maintaining a constant focus distance of a disk.

1 is a perspective view schematically showing a conventional recording / reproducing apparatus of an optical disc.

2 is a schematic drawing showing the path of the optical axis,

3 is a perspective view of an optical axis tilt correction device according to an embodiment of the present invention.

4 is a plan view and a side view of an optical axis tilt correction device according to an embodiment of the present invention.

5 is a view showing the T direction adjustment in the optical axis tilt correction device according to an embodiment of the present invention.

6 is a view showing the R direction adjustment in the optical axis tilt correction device according to an embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

1 disc 2 objective lens

3: optical pickup 4: spindle motor

5: Feed motor 5a, 5b: Guide shaft (main shaft, minor shaft)

8: T direction adjusting screw 9: Preload / set screw

10 Mechanism Base 11 U-shaped Bracket

11a, 11a ': bend 12: motor base

12a, 12 ': slope 13: elastic member

14: Reference axis 15: R direction adjusting screw

In order to achieve the above object, the optical axis tilt correction device according to the present invention includes a spindle motor for rotating the disk, and two axis tilt correction means for correcting the tilt of the spindle motor in at least one direction.

Other objects and features of the present invention in addition to the above objects will become apparent from the description of the embodiments with reference to the accompanying drawings.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to FIGS. 3 to 6.

3 is a schematic perspective view of an optical axis tilt correction device according to an embodiment of the present invention. 4 is a plan view and a side view of an optical axis tilt correction device according to an embodiment of the present invention.

3 and 4, the optical axis tilt correction device according to the present invention is a U-shaped bracket 11 for supporting the spindle motor 4 from below, and a motor base for supporting the U-shaped bracket 11 from below ( 12).

The U-shaped bracket 11 has bent portions 11a and 11a 'which are bent at both ends in the radial direction with respect to the disk. The motor base 12 is inclined surfaces 12a and 12a at positions opposite to the bent portions 11a and 11a 'to support the bent portions 11a and 11a' of the U-shaped bracket 11 in the radial direction with respect to the disk at the base surface. A protrusion with ') is formed. The U-shaped bracket 11 is fixed to the T-direction adjusting screw 8 fastened to one supporting point of the first inclined surface 12a, and is supported by the elastic member (2) as a supporting point of the second inclined surface 12a 'and the preload / fixed screw 9. Closely fixed by the preload of 13). Thus, the spindle motor 4 supported by the U-shaped bracket 11 is in a state of being supported by three points, and these support points lie on the same plane. This plane is called the assembly reference plane or spindle reference plane of the spindle motor. (Hereinafter referred to as "spindle reference plane")

The elastic member 13 and the preload / fixing screw 9 for fixing the elastic member 13 to the mechanism base 10 serve to compress the U-shaped bracket 11 to the motor base 12 by a constant load. . The T direction adjustment screw 8 serves to adjust the tangential tilt of the spindle motor with respect to the disc track by causing the U-shaped bracket 11 to slide along the first and second inclined surfaces 12a and 12a '. At this time, a loosening prevention spring (not shown) for preventing loosening of the T-direction adjusting screw 8 is fitted to the T-direction adjusting screw 8. The R direction adjustment screw 15 serves to adjust the inclination in the radial direction with respect to the disc, that is, the direction in which the optical pickup 3 moves. At this time, it fits into the R direction adjustment screw 15. And the reference axis 14 serves to guide the rotation when adjusting the R direction.

The guide shafts 5a and 5b for guiding the linear movement of the optical pickup 3 are fixed on the mechanism base 10, and among them, the main shaft 5b serves as an assembly criterion to form the same plane as one point of the subordinate shaft 5a. do. Using this plane as a reference plane, the normal to the plane becomes the optical axis. The optical axis and spindle reference plane are each inclined at an arbitrary angle according to their precision. When the three arbitrary points of the main shaft 5b and the subshaft 5a are set as the reference planes, and the heights of both ends in the T direction and both ends in the R direction on the tentable 4a of the spindle motor 4 are measured, the turntable 4a is measured. It is possible to know in which direction and how much the disk and the optical axis that is seated on the. At this time, if the inclination direction is adjusted to components of the independent directions in the T direction and the R direction, the inclination of the optical axis and the disc can be corrected. In this case, when the T direction and the R direction are influenced each other, that is, when the inclination of the R direction is changed during the T direction adjustment (or vice versa), the adjustment is impossible. In this case, even if correction is performed, the process of repeatedly measuring the inclination in the T and R directions and adjusting the inclination is inefficient. Accordingly, in the present invention, after adjusting the inclination of one of the T direction and the R direction of the spindle motor 4, the other direction is adjusted independently of each other when the other side is adjusted, thereby measuring the inclination of the optical axis and The R direction can be adjusted at once. This will be described with reference to FIGS. 5 and 6.

5 shows the tangential adjustment of the disc track in the optical axis tilt correction device according to the embodiment of the present invention.

In the initial state as shown in (A), the adjustment in the T direction is the first and second inclined surfaces 12a and 12a 'of the motor base 12 on a straight line passing through the center of the spindle motor 4 and parallel to the tangential direction of the disc track. ) So as to face each other and to support the bent portions 11a and 11a 'of the U-shaped bracket 11 in the same direction so as to allow sliding movement. At this time, the sliding motion follows the first and second inclined surfaces 12a and 12a 'and makes a pivoting motion having a rotation center at the same height as the recording surface height of the disk. The first step in adjusting the T direction slope is to know the T direction slope. For this purpose, if the height difference between both points within the same radius on the turntable 4a surface in the direction parallel to the T direction and passing through the center of the spindle motor 4 is measured, the T direction inclination at that time can be known. If this height difference is "0", that is, there is no tilt in the T direction, the T direction tilt adjustment is omitted. If the spindle motor 4 is tilted at any inclination in the T direction, the T direction adjusting screw 8 is tightened (B) or loosened. Then, the U-shaped bracket 11 slides along the first and second inclined surfaces 12a and 12a 'of the motor base 12 by the preload / fixing screw 9 and the preload load by the elastic member 13. By turning, the inclination of the T direction can be adjusted. Since the center of the turning motion at this time is at the same height as the recording surface, the height between the objective lens 2 and the disk surface does not change and the focus distance is kept constant.

6 shows the tangential adjustment of the disc track in the optical axis tilt correction apparatus according to the embodiment of the present invention.

The adjustment of the R direction can be adjusted by the R direction adjusting screw 15 installed in any transaction from the center of the spindle motor 4 past the center of the spindle motor 4 on the spindle reference plane and perpendicular to the T direction. have. When the first and second inclined surfaces 12a and 12a 'of the motor base 12 supporting the U-shaped bracket 11 are convex or curved, and the R direction adjusting screw 15 is released or tightened, the first and second The U-shaped bracket 11 is swiveled by the preload / fixed screw 9 and the preload force by the elastic member 13 around the second inclined surfaces 12a and 12a '. Therefore, if the inclination in the R direction is adjusted in the same manner as the adjustment in the T direction, the inclination in the R direction is also simply corrected.

On the other hand, in the optical axis tilt correction device according to the present invention, the U-shaped bracket 11 and the motor base 12 can be omitted or simplified to a simpler structure. Usually, a printed circuit board (hereinafter referred to as "PCB") for relaying the coil, the control unit, and the power supply unit of the motor is fastened to the bottom of the spindle motor 4 so that signals for rotational speed and control are supplied. The PCB is bent at both ends located in the extension line in the T direction, similar to the bent portions 11a and 11a 'of the U-shaped bracket 11, and the bent portions are the first and second inclined surfaces of the motor bases 12a and 12a'. When the sliding motion is fastened to (12a, 12a '), the U-shaped bracket 11 is omitted and the tilt of the optical axis in the T and R directions can be adjusted in the same manner as in the above-described embodiment of the present invention. The stepped portion of the outer periphery formed on the bottom surface of the spindle motor 4 to have the same structure as the first and second bent portions 11a and 11a 'of the U-shaped bracket 11 or the bottom surface of the spindle motor 4. By forming a protrusion in the U-shaped bracket 11 can be omitted. When the stepped portion or the newly formed protrusion of the spindle motor 4 is slidably coupled along the first and second inclined surfaces 12a and 12a 'of the motor base 12, the inclination of the optical axis in the T direction and the R direction is achieved. It can be stored in the same manner as the previous embodiment. The structure may be further simplified. If the inclined surface is formed on the mechanism base 10 and the bent portion is formed on the PCB in the same manner as the first and second inclined surfaces 12a and 12a 'of the motor base 12, the U-shaped bracket 11 is formed. And the motor base 12 can be omitted. In this case, the T direction adjusting screw (8), the preload / fixing screw (9), and the R direction adjusting screw (15) are connected to the PCB and the mechanism base (10) with the U-shaped bracket (11) and the motor base (12). It is to be fastened at the same opposite point.

As described above, the optical axis tilt correction device according to the present invention can reduce the defects caused by the assembly tolerance or precision of each component, which is easy to occur during manufacture, by adjusting the tilt of the optical axis with one adjustment in the T direction and the R direction. In addition, by stably improving the vertical accuracy of the optical axis, the reliability is increased by repeating recording and reproducing, and when the disc recorded by the same disc driver is reproduced by another device, the disc compatibility is improved. The disc driver that records / plays high-density and large-capacity discs adjusts the inclination of the optical axis with a simple structure, thereby ensuring margin of precision even in the assembly tolerance of peripheral components.

As described above, the optical axis tilt correction device according to the present invention can accurately adjust the path of the optical axis by a simple structure.

The optical axis tilt correction device according to the present invention can keep the focal length of the disk constant.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the technical spirit of the present invention. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification but should be defined by the claims.

Claims (5)

A spindle motor for rotating the disc, And two-axis tilt correction means for correcting the tilt of the spindle motor in at least one direction. The method of claim 1, And said two-axis tilt correction means adjusts the inclination of said spindle motor independently in said two directions in two directions, radial and tangential to said disk. The method of claim 1, The two-axis tilt correction means includes a printed circuit board having bent portions at both ends and supporting the spindle motor from below; Support means having an inclined surface to face the bent portion, A first direction adjusting means fastened to the support means to pivot the support means along the inclined surface in a first direction; And a second direction adjusting means which is fastened to the supporting means so that the supporting means pivots along the inclined plane in a second direction. The method of claim 3, wherein And the two-axis tilt correction means further includes a preload load adding means to add a preload load to the support means when the first and second directions are adjusted. The method according to claim 3 or 4, And the spindle motor is supported at three points by an inclined surface on which the two bent portions are supported and the preload load adding means.

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