KR100266368B1 - Tilt contrl apparatus of disk drive - Google Patents

Abstract

PURPOSE: A tilt adjustor of a disk drive is provided to obtain a compact structure of a disk drive and to adjust a tilt of a disk drive exactly. CONSTITUTION: An adjusting elastic member(40) supports a lower portion of a spindle motor(20) with elasticity. An adjusting screw(45) is mounted through the adjusting elastic member on a side of the spindle motor. A motor angle adjustor includes plural press members(30,30') for pressing the other side of the spindle motor and controls the mounting angle of the spindle motor to adjust a radial tilt. An eccentric guide shaft(60') has variable height for supporting an optical pickup(50) by guiding a movement of the optical pickup integrally with rotating. A drive plate(70) controls rotation of the eccentric guide shaft. A pickup angle adjustor controls the mounting angle of the optical pickup to adjust a tangential tilt. A tilt adjustor adjusts the radial tilt and the tangential tilt through angle adjustment of the spindle motor and the optical pickup. Therefore, the tilt is precisely adjusted.

Description

Tilt adjuster of disk drive

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a disk drive, and more particularly, to a tilt control device for a disk drive, which helps to make the disk drive thin and light by distributing the adjustment in the amount of adjustment.

In order to reproduce the signal recorded on the disk or to record the signal on the disk in the disk drive, the light irradiated from the optical pickup device must be incident perpendicularly to the disk. To this end, if necessary, it is necessary to adjust the angle at which light is emitted from the optical pickup and input to the disc. Methods for this purpose include adjusting the angle of the light incident on the disk by adjusting the angle of the spindle motor that rotates the disk, and adjusting the installation angle of the optical pickup that emits light onto the disk.

First, a method of adjusting the angle of the spindle motor will be described with reference to FIGS. 1A and 1B.

First, the metal substrate 2 of the spindle motor 1 is supported by the hinge shaft 3 and the adjusting screw 4. The hinge shaft 3 supports one lower surface of the metal substrate 2. One end of the elastic plate 6 is elastically supported on the upper surface of the metal substrate 2 on which the hinge shaft 3 supports the metal substrate 2. The elastic plate 6 is fixed with a fixing screw 7 to a support 8 having the other end formed on the deck D.

The other side of the metal substrate 2 is supported by the compression coil spring 5 and the adjusting screw 4. The compression coil spring 5 and the adjusting screw 4 support the metal substrate 2 at two places. When the metal substrate 2 is supported by the compression coil spring 5 and the adjusting screw 4, the compression coil spring 5 is positioned between the lower surface of the metal substrate 2 and the deck D. The adjusting screw 4 passes through the metal substrate 2, passes through the compression coil spring 5, and engages in a screw hole on the deck D.

In this configuration, the tilt is adjusted by adjusting the installation angle of the metal substrate 2 as follows. When the adjusting screw 4 is released, the metal substrate 2 is raised by the restoring force of the compression coil spring 5 with the hinge shaft 3 as a fixed point. When the adjusting screw 4 is tightened, the metal substrate 2 is lowered by using the hinge shaft 3 as a fixed point while overcoming the elastic force of the compression coil spring 5. When the two adjusting screws 4 are adjusted in this manner, the installation angle is adjusted while the metal substrate 2 is raised and lowered using the hinge shaft 3 as a fixed point.

If the angle of installation of the metal substrate 2 is adjusted as described above, the angle of the disk mounted on the turntable 9 of the spindle motor 1 is adjusted, and the incident angle of light irradiated from the optical pickup and incident on the disk is adjusted. will be.

And, it will be described with reference to Figure 2 to adjust the tilt by adjusting the installation angle of the optical pickup. The compression coil spring 11 is positioned at one end of the guide shaft 10 for guiding the movement of the optical pickup, and the adjusting screw 14 is located on the upper part of the guide shaft 10 supported by the compression coil spring 11. Is installed to press the guide shaft (10). The adjusting screw 14 is installed through the fixing stand 12 is fixed to the deck (D) by the fixing screw 13, the lower end is installed in contact with the upper portion of the guide shaft (10).

In general, the adjustment screw 14 and the guide shaft 10 as described above is most preferably installed at three of the two ends of the two guide shaft 10 for guiding the movement of the optical pickup.

The adjustment of the tilt using the adjusting screw 14 and the compression coil spring 11 as described above will be described in detail. That is, by adjusting the installation angle of the optical pickup for irradiating light to the disk, the angle of the light incident on the disk is adjusted. To this end, the adjusting screws 14 installed at three of both ends of the two guide shafts 10 are adjusted.

First, when the adjusting screw 14 is tightened, the guide shaft 10 moves relatively downward while overcoming the elastic force of the compression coil spring 11. When the adjusting screw 14 is released, the guide shaft 10 is relatively moved upward by the restoring force of the compression coil spring 11. If such adjustment is performed at the three locations, desired tilt adjustment is possible.

However, the above-described methods according to the prior art have the following problems. That is, each of the methods described above uses compression coil springs 5, 11 to adjust the tilt in the radial direction and the tilt in the tangential direction. However, the compression coil springs 5 and 11 require a predetermined number of turns (수) in order to have elastic force necessary for tilt adjustment, thus occupying a predetermined space or more in the height direction. The adjusting screws 4 and 14 also occupy a predetermined space or more in the height direction. Therefore, the conventional configuration is disadvantageous for light and short reduction of the disk drive.

Further, in adjusting the tilt, if the tilt in the radial direction and the tilt in the tangential direction are adjusted at the same time, the tilt may not be accurately adjusted and the adjustment may be difficult.

Accordingly, an object of the present invention is to solve the problems of the prior art as described above, and to provide a tilt adjustment apparatus capable of achieving a light and short reduction of a disk drive.

Another object of the present invention is to make it possible to more accurately and easily adjust the tilt of a disk drive.

Figure 1a is a side cross-sectional view showing the configuration of the tilt adjustment device of the method of adjusting the angle of the spindle motor in the prior art.

1B is a plan view showing the configuration of the tilt adjustment device shown in FIG. 1A.

Figure 2 is a partial cross-sectional view showing the configuration of the tilt adjustment device of the method of adjusting the angle of the optical pickup in the prior art.

3 is a plan view showing a main portion of a deck provided with a tilt adjustment apparatus for a disk drive according to the present invention.

4 is a cross-sectional view taken along the line A-A 'of FIG.

5 is a cross-sectional view taken along the line B-B 'of FIG.

6 is a cross-sectional view taken along the line C-C 'of FIG.

7 is a front view showing that the eccentric guide shaft and the guide shaft guider constituting the tilt adjustment device according to the present invention.

* Explanation of symbols for main parts of the drawings

20: spindle motor 21: metal substrate

22: support protrusion 30, 30 ': pressing elastic member

31: Pushing protrusion 35, 35 ': Fixing screw

40: adjusting elastic member 50: optical pickup

55: guide shaft guide 56: leaf spring

60: guide shaft 60 ': eccentric guide shaft

61 gear value 70 drive plate

71: gear value 73: rotary drive part

In order to achieve the object of the present invention, the adjustment elastic member for elastically supporting one side of the lower side of the motor, and the adjustment provided through the one side of the motor and the adjusting elastic member through the upper side of the motor supported by the adjusting elastic member A member, and a plurality of push-elastic members for elastically pressing the other side of the motor, the motor angle adjusting means for controlling the installation angle of the spindle motor to adjust the one-way tilt, and eccentric to move the optical pickup An eccentric guide shaft whose height supports one side of the optical pickup as the guide and rotates at the same time, a driving plate for controlling the rotation of the eccentric guide shaft, and formed on one side of the optical pickup and the eccentric guide shaft is positioned Comprising a guide shaft guider including a pickup angle adjusting means for controlling the installation angle of the optical pickup to adjust the tilt in the other direction The tilt adjustment mechanism of the disk drive according to that property characterized in be provided.

Preferably, the adjustment elastic member and the pressing elastic member are each used with a leaf spring.

A gear tooth is formed at one end of the eccentric guide shaft along a circumference thereof, and the driving plate is formed with a gear tooth driven in engagement with the gear tooth of the eccentric guide shaft.

According to the present invention having such a configuration, the tilt in the radial direction and the tilt in the tangential direction can be adjusted in separate parts, so that the free space required for tilt adjustment can be minimized, so that the disk drive can be reduced in size and weight. do.

Hereinafter, a preferred embodiment of the tilt control apparatus for a disk drive according to the present invention having the configuration as described above will be described in detail with reference to the accompanying drawings.

Figure 3 is a plan view showing the main portion of the deck with a tilt adjustment device of the disk drive according to the present invention, Figures 4, 5, and 6 is a cross-sectional view of the AA 'line, BB' line and CC 'line of Figure 3, respectively, 7 is a front view showing that the eccentric guide shaft and the guide shaft guider constituting the tilt adjustment apparatus according to the present invention is coupled.

As shown in these figures, both side portions of the metal substrate 21 of the spindle motor 20 are supported while being pushed by the pressing finger members 30 and 30 '. That is, the front end portions of the push finger members 30 and 30 'having one end fixed to the deck D press the upper surface of the metal substrate 21. The support protrusions 22 are formed on the deck D corresponding to the lower surface of the metal substrate 21 pressed by the presser members 30 and 30 ', and the presser members 30 and 30' are formed. The pressing protrusion 31 is formed in the lower surface of the front-end | tip part.

The other side of the metal substrate 21 (opposite to which the optical pickup 50 is located) is supported by the adjusting elastic member 40. That is, one end of the adjustment elastic member 40 is fixed on the deck (D), the other end is to elastically support the lower surface of the metal substrate 21 in the upward direction.

Then, the adjusting elastic member 40 and the metal substrate 21 at the same time through the adjustment screw 45 is fastened on the deck (D). Such adjustment screw 45 is clamped on the deck (D) or vice versa to allow the adjustment elastic member 40 to elevate one side position of the metal substrate (21). In this manner, the radial direction tilt is adjusted by lifting and lowering one side of the metal substrate 21. Here, the adjustment elastic member 40 and the one side pressing member 30 may be integrally formed.

On the other hand, a configuration for adjusting the installation angle of the optical pickup to adjust the tilt in the tangential direction will be described.

The optical pickup 50 is supported and guided by guide shafts 60 and 60 'at both ends thereof. One of the guide shafts 60 of the guide shafts 60 and 60 'is eccentrically formed. The eccentric guide shaft 60 is positioned on the guide shaft guider 55 fixed to the optical pickup 50 to guide the optical pickup 50 while supporting the optical pickup 50. This eccentric guide shaft 60 is rotatable, the height of supporting the optical pickup 50 is variable. A gear tooth 61 is formed at one end of the eccentric guide shaft 60.

A driving plate 70 for rotating the eccentric guide shaft 60 is installed at an end portion of the eccentric guide shaft 60 on which the gear tooth 61 is formed. The driving plate 70 is formed with a gear tooth 61 that is engaged with the gear tooth 61 of the eccentric guide shaft 60. The drive plate 70 is pressed by the elastic force of the push elastic member 30 '. And the upper surface of the drive plate 70 is formed with a rotary driving portion 73 protruding to the upper surface through the pressing elastic member 30 '. The rotation driver 73 is a part for rotating the drive plate 70.

On the other hand, one side of the optical pickup 50 is provided with a guide shaft guide 55 for guiding the eccentric guide shaft 60, the lower side of such guide shaft guide 55 is the eccentric guide shaft 60 It consists of a leaf spring 56 for supporting the bottom of.

In the drawings, reference numerals 35 and 35 'are fixed screws.

Hereinafter, the tilt adjustment is performed according to the present embodiment having the configuration as described above.

First, adjusting the tilt in the radial direction will be described. To this end, the adjusting screw 45 provided on one side of the metal substrate 21 may be tightened or released. That is, when the adjusting screw 45 is released, the metal substrate 21 is pushed up by the restoring force of the adjusting elastic member 40. Accordingly, the metal substrate 21 is pressed and fixed to the pressing elastic members 30 and 30 ', and the adjusting elastic member 40 is pushed up by the adjusting elastic member 40 to be relative. Will go up. In this case, one side (the adjusting elastic member 40 side) of the spindle motor 20 is lifted and the tilt in the radial direction is adjusted.

Meanwhile, when the adjusting screw 45 is tightened, the metal substrate 21 is lowered while overcoming the elastic force of the adjusting elastic member 40. Therefore, the metal substrate 21 is in a state where the pressing elastic members 30 and 30 'are pressed and fixed, and the adjusting elastic member 40 is pressed and relatively lowered. In this case, one side (the adjusting elastic member 40 side) of the spindle motor 20 is relatively lowered and the tilt in the radial direction is adjusted.

Now, the tilt in the tangential direction is adjusted. When the rotary drive unit 73 of the drive plate 70 is rotated by using a tool such as a driver, the drive plate 70 is rotated, the gear teeth of the gear tooth 71 and the eccentric guide shaft 60 ( As the 61 is engaged, the eccentric guide shaft 60 is rotated.

At this time, when a relatively large portion of the outer circumferential surface of the eccentric guide shaft 60 comes into contact with the lower surface of the guide shaft guider 55, the eccentric guide shaft 60 side of the optical pickup 50 is relatively You are in a high position. When the relatively small portion of the outer circumferential surface of the eccentric guide shaft 60 comes into contact with the lower surface of the guide shaft guider 55, the eccentric guide shaft 60 side of the optical pickup 50 is relatively low. Will be in position. When the other part of the eccentric guide shaft 60 (that is, between the largest radius and the smallest radius) comes into contact with the lower surface of the guide shaft guider 55 of the optical pickup 50, The tilt is adjusted as the height of the eccentric guide shaft 60 side of the optical pickup 50 is continuously changed.

Herein, the adjustment magazine member 40 for adjusting the tilt takes less space in the height direction than the conventional compression coil spring, and the eccentric guide shaft 60 also takes up less space in the height direction as well. As a result, it is possible to make the disk drive thin and light.

And since it is configured to adjust the tilt direction of the tangential direction on the optical pickup 50 side, and the tilt direction of the radial direction on the spindle motor 20 side can be adjusted more accurately and quickly in each direction do.

The tilt control apparatus of the disk drive according to the present invention as described above in detail is carried out to understand the tilt adjustment in the radial direction and the tilt adjustment in the tangential direction to the angle adjustment of the spindle motor and the angle adjustment of the optical pickup, respectively. By adjusting the angle of the component (for example, spindle motor or optical pickup), the tilt can be adjusted more accurately and easily than in the case of adjusting both the radial direction and the tangential direction tilt. It takes up relatively little space, making it possible to reduce the disk drive's weight and weight.

Claims (3)

An adjustment elastic member for elastically supporting the lower side of the motor, an adjustment member installed through one side of the motor and the adjustment elastic member through an upper portion of the motor supported by the adjustment elastic member, and the other side of the motor with elasticity Motor angle control means for controlling the installation angle of the spindle motor to adjust the one-way tilt, comprising a plurality of pressing elastic members for pressing, and eccentric to guide the movement of the optical pickup and rotate at the same time as the optical pickup An eccentric guide shaft having a variable height supporting one side, a driving plate for controlling the rotation of the eccentric guide shaft, and a guide shaft guider formed at one side of the optical pickup and positioned at the eccentric guide shaft, the tilt direction is different. And a pickup angle adjusting means for controlling the installation angle of the optical pickup for adjusting the optical pickup. Tilt adjustment device. The tilt control apparatus of claim 1, wherein the adjustment elastic member and the pressing elastic member are leaf springs, respectively. The tilt control apparatus of claim 1, wherein a gear tooth is formed at one end of the eccentric guide shaft along a circumference thereof, and the gear plate is formed to be engaged with the gear tooth of the eccentric guide shaft.

Images