KR200364985Y1 - Skew Adjustment Apparatus - Google Patents

Abstract

The present invention relates to a skew adjusting device for adjusting the inclination angle of the optical axis and the optical disk.

Skew adjusting device according to the present invention is a flexible shaft holder that is accommodated on one side of the pickup guide shaft and the displacement is changed in response to the change in the height of one side of the pickup guide shaft, and the adjustment screw for adjusting the height change of the other side of the pickup guide shaft; And a height regulating boss contacting the pickup guide shaft between the flexible shaft holder and the adjustment screw.

Accordingly, the skew adjusting device according to the present invention can reduce the number of parts required for skew adjustment and shorten the skew adjustment time.

Description

Skew Adjustment Apparatus}

The present invention relates to a skew adjusting device for adjusting the inclination angle of the optical axis and the optical disk.

Since the emergence of the compact disc-ROM (CD-ROM) information reproducing apparatus, which is an early optical disc, the high speed of the reproducing apparatus and the high density of the optical disc have been steadily progressed, and a large capacity optical disc has been developed. Recently, as optical discs capable of not only reproducing information but also recording have emerged, a recording / reproducing apparatus (hereinafter referred to as a "driver") for recording / reproducing such optical discs requires a high-precision mechanism. In order to cope with such high capacity and speed, high-precision signal processing technology is required. In particular, reducing the skew angle error, that is, skew, of the optical axis of the optical pickup and the disk is essential to ensure accuracy in recording / reproducing information. It is recognized as a technology.

In general, the optical pickup itself has a limitation that can cause signal processing due to jitter, etc., in which a signal is distorted when an error in the inclination angle of the optical axis is present. Even after assembling the pickup to the sled base in consideration of the precision of the mounting surface of the spindle motor, it is necessary to adjust the inclination angle with high accuracy due to assembly errors. To this end, developing an adjustment mechanism that can mechanically adjust the inclination angle to reduce the inclination angle error between the optical axis and the disk surface is recognized as the most effective way to improve the signal processing performance. Support springs are used to reduce the angle of inclination of the optical axis and the disk surface.

Referring to Fig. 1, the conventional skew adjusting device adjusts the inclination angle of the mounting surface of the spindle motor 6 which mounts and rotates the disk 2. For this purpose, the coil spring 16 is mounted between the sled base 12 on which the spindle motor 6 is mounted and the mounting surface of the spindle motor 6, and the adjustment screw 18 for fixing the coil spring 16 is spindle. The motor 6 is fastened to the mounting surface. By adjusting the adjusting screw 18 in the left and right direction, the inclination of the mounting surface of the spindle motor 6 is adjusted to adjust the posture of the spindle motor 6. As shown in FIG. 2, the skew adjustment of the mounting surface of the spindle motor 6 is performed. Let's look at the principle. First, three points p4, p5, and p6 on the main shaft 10a of the pickup guide shaft 10 and the subshaft 10b are taken to form a flat surface. Subsequently, the attitude of the turntable 4 of the spindle motor 6 is adjusted to be parallel with the plane as a reference point. In this case, in order to adjust the attitude | position of the spindle motor 6, it is preferable to comprise and adjust an adjustment point in a hinge point and two places in X and Y directions. However, since the skew adjusting device of the spindle motor 6 includes at least two springs and two adjusting screws, the number of parts is high, and high-speed products have a problem of mechanical shaking due to spring elasticity.

Referring to Figure 3, another conventional skew adjusting device is to adjust the inclination angle of the pickup guide shaft 10 for guiding the optical pickup. The optical pickup for irradiating the disk surface with the light beam emitted from the optical system in the form of a light spot is supported by the major axis 10a and the minor axis 10b of the pickup guide shaft 10. At this time, the coil spring 16 is mounted on the main shaft 10a and the sub shaft 10b to support the main shaft 10a and the sub shaft 10b. In addition, an adjustment screw 18 is attached to the pickup guide shaft 10 to fix the coil spring 16. In this case, the inclination angle error of the pickup guide shaft 10 may be reduced by rotating the adjusting screw 18 left and right. As shown in FIG. 4, the principle of skew adjustment of the pickup guide shaft 10 will be described. do. First, three points P1, p2, and p3 on the turntable 4 surface of the spindle motor 6 are taken to form a plane. Subsequently, adjustment points are constructed by adjusting the four points p4, p5, p6, and p7 on the main shaft 10a and the subshaft 10b of the pickup guide shaft 10 with respect to the plane. The configuration of the skew adjusting device will be described in detail with reference to FIG. 5. The front of the pickup guide shaft 10 is fixed and the rear of the spring 16 is seated on the sled base 12 to support the pickup guide shaft 10. In addition, the adjustment screw 18 is fastened to the sled base 12 to the upper portion of the pickup guide shaft 10 to fix the position of the pickup guide shaft 10. In this case, the pickup guide shaft skew adjusting device basically requires two springs and two adjusting screws, and also has a problem in that the assembly time is increased to four adjusting points. Accordingly, a new method for reducing the number of parts of the skew adjusting device and shortening the adjusting time is required.

Accordingly, an object of the present invention is to provide a skew adjusting device configured to reduce the number of parts and the adjustment time.

1 is a view showing a spindle motor skew adjusting device.

2 is a view for explaining the skew adjustment principle of FIG.

3 is a view illustrating a pickup guide shaft skew adjusting device;

4 is a view for explaining the skew adjustment principle of FIG.

FIG. 5 illustrates the structure of FIG. 3 in detail; FIG.

6 is a view showing a skew adjusting device according to an embodiment of the present invention.

7 is a view showing a skew adjusting device according to another embodiment of the present invention.

<Description of Symbols for Main Parts of Drawings>

2: disc 4: turntable

6: spindle motor 8,24: pickup

10,30: pickup guide shaft 12,22: sled base

14: reference plane 16: spring

18,28: Adjustment screw 24: Height regulating boss

26: flexible shaft holder 26 ': shaft holder

32: mold spring

In order to achieve the above object, the skew adjusting device according to an embodiment of the present invention is a flexible shaft holder is accommodated on one side of the pickup guide shaft and the displacement is changed in response to the height change of one side of the pickup guide shaft, the pickup guide shaft And a height adjusting boss contacting the pickup guide shaft between the flexible shaft holder and the adjustment screw. The skew adjustment device according to another embodiment of the present invention includes a pickup guide. A shaft holder in which one side of the shaft is accommodated, an adjustment screw for adjusting a change in height of the other side of the pickup guide shaft, a mold spring in which displacement is changed in response to the change in height of the other side of the pickup guide shaft, and the shaft holder and the mold Height in contact with the pickup guide shaft between springs And a jeyong boss for regulating the height of the boss is used as a hinge when the other side the height of the pickup guide shaft is changed by the adjustment screw.

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

With reference to Figures 6 and 7 will be described a preferred embodiment of the present invention.

Referring to FIG. 6, the skew adjusting device according to the exemplary embodiment of the present invention accommodates one side of the pickup guide shaft 30 and a flexible shaft holder whose displacement is changed in response to a change in position of the pickup guide shaft 30. 26), the adjustment screw 28 for adjusting the positional change of the other side of the pickup guide shaft 30, and the height regulation in contact with the pickup guide shaft 30 between the flexible shaft holder 26 and the adjustment screw 28 For example, a conventional skew device requires two springs and two adjusting screws, but the skew adjusting device according to the present invention has a structure in which it is replaced with two adjusting screws. To this end, the flexible shaft holder 26 is adopted to replace the spring on the inner circumference (or outer circumference) side of the pickup guide shaft 30, and the flexible shaft holder 26 is integrated with the sled base 22. It is configured to be. In addition, since the pick-up guide shaft 30 is slightly inclined upward in the initial stage of assembly, the height-regulating boss 24 restricts the height so that the height of the inner circumferential side of the pick-up guide shaft 30 is constant. Done. In addition, when adjusting the adjusting screw 28 to adjust the skew, when the adjusting screw 28 pushes the outer peripheral side of the pickup guide shaft 30, the height regulating boss 24 is used as a hinge so that the inner and outer circumferential heights are the same. do. Accordingly, the skew adjusting device according to the present invention reduces the number of parts to reduce the manufacturing cost.

On the other hand, it will be described with respect to the skew adjustment method according to the present invention. One side of the pick-up guide shaft 30 is inserted into the flexible shaft holder 26 and the pick-up guide shaft 30 is fixed with the adjusting screw 28 to be initially assembled. At this time, since the height regulating boss 24 is disposed on the inner circumferential side of the pickup guide shaft 30, the structurally inclined upward from the inner circumference to the outer circumference. Three points of height on the turntable surface (not shown) are measured to determine the skew of the reference surface. The reference plane is set by measuring the height of three points on the turntable plane. At this time, the skew of the reference plane can be grasped from the measured heights of three points. While measuring the height of the pickup guide shaft 30, adjust the adjustment screw 28 until it is parallel to the reference plane. The adjustment screw 28 is adjusted to be parallel to the reference plane to adjust the height of the pickup guide shaft 30. Accordingly, the skew adjustment method according to the present invention shortens the skew adjustment time.

Referring to FIG. 7, a skew adjusting device according to another embodiment of the present invention includes a shaft holder 26 ′ that accommodates one side of the pickup guide shaft 30, and a position of the other side of the pickup guide shaft 30. An adjustment screw 28 for adjusting the change, a mold spring 32 whose displacement changes in response to a change in height of the pickup guide shaft 30, and a pickup guide between the shaft holder 26 ′ and the mold spring 32. And a height regulating boss 24 in contact with the shaft 30. The skew adjusting device of FIG. 7 functions as the shaft holder 26 'and the mold spring 32 in the configuration of FIG. You will have a configuration replaced with). In addition, since the functions and operations of the pickup guide shaft 30, the adjustment screw 28 and the height regulating boss 24 are sufficiently described in FIG. 6, detailed description thereof will be omitted. On the other hand, the skew adjustment method according to the present invention is also the same as Figure 6 will be omitted a detailed description. As a result, the skew adjusting device and the method according to the present invention reduce the manufacturing cost by reducing the number of parts and shorten the skew adjusting time.

As described above, the skew adjusting device according to the present invention has the advantage of reducing the number of parts and shortening the skew adjusting time by simplifying the components necessary for skew adjusting.

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 utility model registration claims.

Claims (5)

One side of the pickup guide shaft is accommodated and a flexible shaft holder whose displacement is changed in response to a change in height of one side of the pickup guide shaft; An adjustment screw for adjusting a change in height of the other side of the pickup guide shaft; And a height regulating boss contacting the pickup guide shaft between the flexible shaft holder and the adjusting screw. delete The method of claim 1, And a height regulating boss is used as a hinge when the height of the other side of the pickup guide shaft is changed by the adjusting screw. A shaft holder on which one side of the pickup guide shaft is stored; An adjustment screw for adjusting a change in height of the other side of the pickup guide shaft; A mold spring whose displacement is changed in response to a change in height of the other side of the pickup guide shaft; And a height regulating boss contacting the pickup guide shaft between the shaft holder and the mold spring. The method of claim 4, wherein And a height regulating boss is used as a hinge when the height of the other side of the pickup guide shaft is changed by the adjusting screw.