KR19980030363A - Optical pickup - Google Patents

Abstract

The light emitting point of the laser diode is exactly coincident with the optical axis so that the side beam can be incident accurately without deviating from the fifth and sixth diodes of the light receiving diode. And the spherical surface has a radius of curvature around the light emitting point of the laser diode fixed to the fixed bracket so that the spherical surface of the fixed bracket is in contact with the support without additional adjustment work. As a result, the light emitting point of the laser diode is accurately positioned on the optical axis.

Description

Optical pickup

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical disk pickup apparatus for detecting predetermined data recorded on various optical disks, such as compact disks and video disks, using a laser.

In general, various optical discs such as compact discs and video discs can record a large amount of data in a small size, and can accurately reproduce recorded data even when dust or slight scratches occur. Compared to other storage media has the advantage that can be reproduced clean without damage, its use is gradually expanded.

As a reproducing apparatus for reproducing predetermined data recorded on an optical disc, there is an optical pickup apparatus for reproducing using a laser.

In the optical pickup device, as shown in FIG. 1, the collimating lens 2, the beam splitter 3, the quarter wave plate 4, and the objective lens 5 are sequentially disposed in front of the laser diode 1. Arranged in line.

On one side of the beam splitter 3, a condenser lens 7, a cylindrical lens 8, and a light receiving diode 9 are arranged in a line.

In the optical pickup device having such a structure, the laser emitted from the laser diode 1, i.

The parallel light converted by the collimating lens 2 passes sequentially through the beam splitter 3 and the quarter wave plate 4, and is focused by an object lens 5 to collect the optical disk 6. Beam spots are formed on the surface of the ss with a diameter of about 1 μm.

The reflected light reflected from the pit in which the data of the optical disk 6 is recorded is converted into parallel light while passing through the objective lens 5 again, and after passing through the quarter wave plate 4, the beam splitter 3 At 90 W is refracted.

The light 90 W refracted by the beam splitter 3 is collected by the condenser lens 7, passes through the cylindrical lens 8 for detecting the focus error, and then enters the light-receiving diode 9 to cause focus error and tracking error. And data is detected.

In the optical pickup device having such a structure, when the light emitting point of the laser diode 1 deviates from the optical axis, there is a deviation in the symmetry of the tracking error due to the difference in the amount of light received by the fifth and sixth diodes of the light receiving diode 9. Will occur.

That is, as shown in FIG. 2, the light receiving diode 9 has the fourteenth diode 1114 disposed at the center thereof, and the fifth diode 15 and the sixth diode 16 located at left and right sides of the fourteenth diode 1114. When the light emitting point of the laser diode 1 is out of the optical axis, the side beam is out of the fifth diode 15 and the sixth diode 16 in the light incident on the light receiving diode 9 so that the optical disk 6 The track in which the data of ()) is recorded cannot be traced correctly, and a tracking error occurs.

Therefore, in the related art, the side beam is precisely fixed to the fifth diode 15 and the sixth diode 16 by adjusting a mounting surface to which the light emitting diode 1, the beam splitter 3, the light receiving diode 9, and the like are fixed. It is made to enter.

3 is a view showing a conventional technology for adjusting the fixed surface of the light emitting diode (1). Here, reference numeral 21 denotes a support for supporting the optical pickup, and reference numeral 22 denotes a fixed bracket to which the laser diode 1 is fixed.

The laser diode 9 is inserted into and fixed to the inside of the fixed bracket 22, and an inclined surface 23 is formed on the side of the fixed bracket 22 contacting the support 21.

In the conventional optical pickup apparatus having such a structure, when assembling the laser diode 9, the laser diode 9 is inserted into and fixed to the inside of the fixing bracket 22, and the inclined surface 23 of the fixing bracket 22 is It is fixed to contact the support 21.

In the related art, the light emitting point 24 is positioned on the optical axis by adjusting the inclined surface 23 when the light emitting point 24 of the laser diode 9 deviates from the optical axis so that the light emitting point 24 is positioned on the optical axis. It was very difficult to do.

Therefore, in the related art, the hologram is adjusted to prevent the side beam from escaping from the fifth diode 15 and the sixth diode 16 of the light receiving diode 9, but this must be adjusted in duplicate with the fixing of the fixing bracket 21. There was a problem.

It is therefore an object of the present invention to provide an optical pickup device which simply adjusts the light emitting point of a laser diode to exactly match the optical axis.

The optical pickup device of the present invention for achieving this object forms a portion in contact with the support of the fixed bracket to which the laser diode is fixed in a spherical surface. The spherical surface has a radius of curvature around the light emitting point of the laser diode fixed to the fixed bracket.

Therefore, according to the present invention, if the spherical surface of the fixing bracket is fixed to contact the support without performing any adjustment, the light emitting point of the laser diode is accurately positioned on the optical axis.

1 is a view showing the structure of a general optical pickup device.

FIG. 2 is a view illustrating a structure of the light receiving diode of FIG. 1. FIG.

Figure 3 is an enlarged cross-sectional view showing a fixing bracket in which a laser diode is fixed in the conventional optical pickup device.

Figure 4 is an enlarged cross-sectional view showing a fixing bracket in which a laser diode is fixed in the optical pickup device of the present invention.

* Explanation of symbols for main parts of the drawings

31: support

32: fixed bracket

33: spherical surface

34: light emitting point of the laser diode

Hereinafter, an optical pickup device of the present invention will be described in detail with reference to the accompanying drawings of FIG. 4.

4 is an enlarged cross-sectional view showing a bracket in which a laser diode is fixed in the optical pickup device of the present invention. Here, reference numeral 31 denotes a support for supporting the optical pickup device, and reference numeral 32 denotes a fixed bracket for mounting a laser diode to the support 31.

The surface in contact with the support 31 of the fixed bracket 32 is formed as a spherical surface 33.

The spherical surface 33 has a radius of curvature around the light emitting point 34 of the laser diode provided in the fixed bracket 32.

In the optical pickup device of the present invention configured as described above, the laser diode is first inserted into and fixed to the fixing bracket 32, and the spherical surface 33 of the fixing bracket 32 is brought into contact with the support 31. You can fix it.

Here, in the present invention, since the light emitting point 34 of the laser diode is located at the center point of the radius of curvature of the spherical surface 33, the fixing bracket 32 is fixed when the fixing bracket 32 is fixed to the support 31. Even if the position is slightly displaced, the light emitting point 34 of the laser diode is accurately positioned on the optical axis.

Therefore, according to the present invention, the light emitting point 34 of the laser diode and the optical axis of the optical pickup device are exactly coincident without performing any adjustment.

As described above, the present invention forms a spherical surface having a curvature radius centering on the light emitting point of the laser diode, which is in contact with the support of the fixed bracket to which the laser diode is fixed. The light emitting point of the diode and the optical axis of the optical pick-up device are precisely matched, so that the side beam is accurately incident on the fifth and sixth diodes of the light-receiving diode, thereby reducing the occurrence of tracking errors and accurately tracking the track on which data is recorded on the disk. The recorded data can be reproduced cleanly.

Claims (2)

An optical pickup device having a support for supporting an optical pickup device and a fixed bracket for inserting and fixing a laser diode, wherein the contact surface of the fixed bracket in contact with the support is formed in a spherical surface. Optical pickup device. The optical pickup apparatus of claim 1, wherein the spherical surface has a radius of curvature around a light emitting point of a laser diode fixed to the fixed bracket.