KR970003484Y1 - Pick-up control apparatus of an optical disk player - Google Patents

Abstract

None.

Description

Pickup adjustment device for optical disc player

1 is a plan view showing a conventional pickup adjusting device.

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

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

4 is a plan view showing a position where the center of the disk and the center of the pickup is changed in accordance with the rotation of the first cam.

5 is a plan view showing a pickup adjusting device according to the present invention.

6 is a perspective view of a torsion spring according to the present invention.

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

8 is a cross-sectional view taken along the line D-D 'of FIG.

* Explanation of symbols for main parts of the drawings

10: case 12: support for torsion spring assembly

14: first cam 16: second cam

18: 3rd cam 20: pickup unit

20a: through hole for support assembly 20b: through hole for torsion spring assembly

22: pickup 24: shaft

26: torsion spring 26a: one end

26b: central elastic portion 26c: other end portion

28: screw

The present invention relates to a pickup that detects the light returned from the disk after the laser beam is incident on the disk, and records information of the disk-shaped recording information medium (disc). In particular, a tension is applied to a torsion spring having a certain shape. A device is adapted to allow pickup to be adjusted in respective directions with respect to the X, Y and Z layers of the disc.

In general, an optical recording information reproducing apparatus is configured to optically read the recording information of a disc by injecting a laser beam into an objective lens using optical elements such as a laser collimation lens, a beam splitter, and a quarter wave plate. By the way, in this type of playback apparatus, it is necessary to adjust the pickup unit so that the disk surface shake, the pit can follow the eccentricity and the like.

The conventional pickup adjusting device is composed of a pick-up unit 58 supported by the left and right shafts on the upper surface of the case 50, and a disc support 51 for supporting the disc, as shown in FIG. On the upper surface of the pickup unit 58, a pickup 60 for optically reading the recording information of the disc by injecting a laser beam is provided.

The case 50 is provided with respective cams which are in contact with the shaft supporting the pickup unit 58 and can adjust the position of the pickup unit 58.

Each cam comprises a first cam 52 whose radius changes with respect to the center, a second cam 54 whose height changes when rotating about the center, and a third cam 56.

The shaft supporting the pick-up unit 58 in the case 50 may include a first cam having a radius of the center of the pick-up shaft 58 extending from the left and right sides of the center of the pick-up unit 58. 52) which is in contact with the outer circumferential surface, and the shaft located on the right axis of the shaft is seated on the upper surface of the second cam 54, the height of which is changed when rotated.

In addition, the front end of the pickup unit 58 is seated on the upper surface of the third cam 56, which causes a change in height when rotated about the center.

When the pickup 60 reproduces the information recorded on the disc, the center of the pickup 60 reproduces while accurately feeding the center of the disc, that is, the X, Y and Z directions with respect to the center of the disc support 51.

At this time, the center of the disk is deviated from the theoretical center by the deviation of the parts combination, and the respective cams for adjusting the off center in each direction are in contact with the pickup unit 58, and maintain the contact with a certain position. Each of the tension coil springs for each side of the cam was picked up so that the pickup unit 58 and the case 50 is connected.

The first cam 52 is a means for matching the center of the disk pedestal 51 with the center of the pickup 60 and is supported by the first tension coil spring 62.

The second cam 54 is a means for correcting the incident angle of the signal surface of the disk and the laser beam, and is supported by the second tension coil spring 64.

The third cam 56 is a means for keeping the distance between the signal surface of the disk and the pickup 60 constant, and is supported by the third tension coil spring 66.

In the conventional pickup adjustment apparatus as described above, when the first cam is rotated to match the center of the disk support 51 and the center of the pickup 60 when the information stored on the disk is reproduced, the first cam is adjusted. When the shaft on the pickup unit 58 in contact with the outer circumferential surface of the cam is moved, and the pickup unit 58 is positioned at a predetermined position, the first tension coil spring 62 is connected to the pickup unit 58 and the case 50. ) And keeps it.

In addition, in order to correct the incidence angle of the signal surface of the disk and the laser beam, as shown in FIG. 3, when the second cam 54 is rotated, the second cam 54 rotates and is seated on the upper surface of the cam. The disk signal is rotated counterclockwise from the left shaft 59 of the pick-up unit 58 in contact with the outer circumferential surface of the first cam 52 on the right side of the pick-up unit 58. The angle of incidence of the plane and the laser beam is corrected.

In order to keep the distance between the signal surface of the disk and the objective lens constant, as shown in FIG. 2, when the third cam 56 is rotated, the pickup unit 58 is rotated about both shafts 56. Even when the disk vibrates, the distance between the signal surface of the disk and the objective lens is kept constant.

In the conventional pickup adjusting device as described above, tension coil springs are applied to each direction in order to maintain the position of the pick-up unit in a changed position, resulting in an increase in the number of parts and assembly work. And parallel work in parallel there is a problem that the assembly work is difficult.

Accordingly, an object of the present invention is to provide a pickup adjusting device capable of maintaining a pickup unit in which a single torsion spring is tensioned in each direction and adjusted to a desired position in each direction.

Another object of the present invention is to provide a pickup adjusting device that improves the assembly productivity by reducing the assembly labor. In order to easily achieve the object of the present invention, the present invention provides a torsion spring having a certain shape that can apply tension in each direction in adjusting the pickup in each direction, and a support for assembling the torsion spring for supporting the torsion spring; Characterized in that the fastening component.

Hereinafter, preferred embodiments of the present invention will be described in detail with the accompanying drawings.

The pickup adjusting device according to the present invention, as shown in FIG. 5, the disk support 11 for supporting the disk and the pickup unit 20 supported by the left and right shafts 24 on the upper surface of the case 10. And the pick-up unit 20 forms a support assembly through-hole 20a for fitting and assembling the torsion spring assembly support 12 formed in the case 10, and the top surface of the pick-up unit 20. There is provided a pickup 22 for optically reading the recording information of the disc by injecting a laser beam.

In addition, the upper surface of the case 10 forms a torsion spring assembly support 12 for supporting the torsion spring 26, the torsion spring assembly support 12 is for assembling the support formed on the pickup unit 20 It is assembled to protrude to the upper surface through the through hole (20a).

The shaft 24 supporting the pickup unit 20 in the case 10 is extended to a predetermined size at both ends of the center of the pickup unit 20, and the shaft 24 located on the left side of the shaft 24 is It is in contact with the outer circumferential surface of the first cam 14, the radius of which changes with respect to the center, the shaft 24 located on the right side of the shaft 24 is seated on the upper surface of the second cam 16, the height of which is changed when rotated have.

In addition, the front end portion of the pickup unit 20 is seated on the upper surface of the third cam 18, which causes a change in height when rotated about the center.

When the pickup 22 reproduces the information recorded on the disc, the center of the pickup 22 reproduces exactly in the X, Y, and Z directions with respect to the center of the disc, that is, the center of the pedestal 11 of the disc.

At this time, the disc is out of the center of the theoretical center by the deviation of the component adjustment, each cam for adjusting the off center in each direction is in contact with the pickup unit 20, the torsion for maintaining the contact state The spring 26 is assembled to the torsion spring assembly support 12 so as to be seated on the top surface of the pickup unit 20, and the screws 28 for assembling the torsion springs 26 are assembled.

The torsion spring 26 has one end portion 26a bent as a translator, the center portion has a central elastic portion 26b that forms a coil, and the other end portion 26c is formed to be bent with a needle.

The first cam 14 is a means for matching the center of the disk stand 11 and the center of the pickup 22, and is clockwise (second direction in Fig. 6) by the torsion spring 26. Receive elasticity

The second cam 16 is a means for correcting the angle of incidence of the signal surface of the disk and the laser beam, and is resilient downward (direction 3 in FIG. 6) by the torsion spring 26.

The third cam 18 is a means for maintaining a constant distance between the signal surface of the disk and the pickup 22, and is elastically downward by the torsion spring 26.

The pickup adjusting device according to the present invention as described above, as shown in FIG. 5, in order to match the center of the disk stand 11 and the center of the pickup 22 when reproducing the information stored on the disk. When the first cam 14 is rotated, the shaft 24 on the pickup unit 20 in contact with the outer circumferential surface of the first cam 14 is moved, and when the pickup unit 20 is positioned at a predetermined position, The elasticity of the torsion spring 26 acts clockwise around the support for assembling the torsion spring 12 to bring the pick-up unit 20 into close contact clockwise, so that the shaft 24 is in contact with the outer circumferential surface of the first cam. Keep it.

In addition, to correct the incident angle of the signal surface of the disk and the laser beam, as shown in FIG. 5, when the second cam 16 is rotated, the second cam 16 rotates as the second cam 16 rotates. The shaft 24 on the right side of the pickup unit 20, which is seated on the upper surface of the center, is counterclockwise around the left shaft 24 of the pickup unit 20, which is in contact with the first cam 14. While rotating, the angle of incidence of the signal surface of the disk and the laser beam is corrected. At this time, as the torsion spring 26 inserted into the torsion spring assembly support 12 acts elastically in a counterclockwise direction, the pickup unit 20 is in close contact with the pickup unit 20.

Therefore, the shaft 24 formed in the pickup unit 20 is in close contact with the upper surface of the second cam.

In order to keep the distance between the signal surface of the disk and the objective lens constant, as shown in FIG. 5, when the third cam 18 is rotated, the pickup unit 20 is rotated about both shafts 24 to rotate the disk. The signal surface and the objective lens can keep the distance constant.

At this time, the torsion springs 26 and 26 are elastically acting to push the bottom surface of the pickup unit 20 downward from the support for assembling the torsion spring 12 so that the upper surface of the third cam and the front end of the pickup unit 20 are fixed. Close contact.

As described above, the optical disc player pick-up adjusting device according to the present invention induces a reduction of parts as one torsion spring provides tension to the pick-up unit, and improves assembly productivity as the number of assembly operations decreases. It has the effect of simplifying the product.

Claims (4)

The pickup unit 20 is installed on the upper surface of the case 10, and cams for adjusting the position of the pickup unit 20 up, down, left and right are formed on the upper surface of the case 10, respectively. X, Y, and the pick-up unit 20 of the optical disc player in which the shaft 24 extends at a constant distance in parallel at both ends of the center of the In the device for adjusting in the Z direction, the upper surface of the case 10 is formed to extend a predetermined distance upwards to form a support 12 for assembling the torsion spring for assembling the torsion spring 26, the pickup unit (20) forms a torsion spring assembling hole 20a for assembling the support hole 20a for assembling the torsion spring assembling support 12 and one end portion 26a of the torsion spring 26 to be assembled. Pick up to the torsion spring assembly support 12 of the case 10. Assembling the assembling through-hole 20a of the support for assembling the torsion spring of the unit 20, and the central elastic portion 26b of the torsion spring 26 is fitted to the outer peripheral surface of the torsion spring assembling support 12, One end 26a of the torsion spring 26 is assembled to the torsion spring assembling hole 20b of the pickup unit 20, and the other end of the torsion spring 26 is mounted on the upper surface of the pickup unit 20. Pick-up adjusting device of the optical disc player, characterized in that. The torsion spring 26 has a coil-shaped central elastic portion 26b at the center thereof, and one end portion 26a has a bent portion bent by a translator to be easily assembled into the through hole. 26c), the pickup adjusting device of the optical disc player, characterized in that it is provided to be bent with a needle-shaped easy to settle on the plane. The pickup adjusting device of claim 2, wherein the torsion spring (26) is elastic to the pickup unit (20) in a clockwise direction on a horizontal surface of the support for assembling the torsion spring (12). The pickup adjusting device of claim 2, wherein the torsion spring (26) applies elasticity to the pickup unit (20) in a downward direction from a horizontal plane of the support for assembling the torsion spring (12).