KR200147776Y1 - Optical pickup device - Google Patents

Abstract

An optical pickup apparatus including a light source and a lens unit in a blade is disclosed.

The optical pickup device includes a blade installed to move in the radial direction of the optical recording medium and a blade elastically movable by a leaf spring on the carriage, an actuator installed on the carriage and the blade to adjust the blade position, the carriage and the blade. A light source and lens unit installed at a predetermined position of the laser beam to guide the optical recording medium to generate a laser beam, and to receive a beam reflected from the optical recording medium to detect an information signal and an error signal. Formed photodetector. The blade is formed with a first through hole through which the beam reflected from the optical recording medium passes and directed to the photodetector, and a second through hole connected to the first through hole, wherein the lens unit and the light source pass through the first through hole of the blade. It is characterized in that the installation is provided in a predetermined position inside the groove and the second through groove to reduce the volume of the carriage. Preferably, the beam splitter and the objective lens of the adopted lens unit may be implemented as one lens to reduce the load on the blade.

Description

Optical pickup device

1 is an exploded perspective view showing the structure of a conventional optical pickup device.

Figure 2 is an exploded perspective view showing an optical pickup device according to the present invention.

Figure 3 is a side cross-sectional view showing a blade employed in the optical pickup device according to the present invention.

* Explanation of symbols for main parts of the drawings

51: light source 53, 55: lens unit

57: photodetector 60: carriage

61: guide ball 62: guide block

63: guide bar 64: lead member

65: guide screw 66: inner yoke

67: outer yoke 68: permanent magnet

69: first fixed block 70: blade

71: first through groove 72: second through groove

73: focusing coil 74: tracking coil

75: leaf spring 76: the second fixed block

The present invention relates to an optical pickup device for optical recording and / or reproduction, and more particularly, to an optical pickup device in which a structure of a base and a blade is simplified by adopting a beam splitter integrated objective lens in which a beam splitter and an objective lens are integrated. It is about.

In general, an optical pickup apparatus is a device for recording new information or reproducing recorded information by contacting a beam generated from a light source to an optical recording medium.

1 is an exploded perspective view showing the structure of a conventional optical pickup device.

This optical pickup apparatus requires optical means for recording / reproducing information and mechanical means for installing and driving the optical means.

The optical means includes a light source 10 that generates and diverts a beam, and a light reflected by a lens unit and an optical recording medium (not shown) that converge the beam irradiated from the light source 10 and change a path of the beam. It consists of a photodetector 18 which receives and detects a reproduction signal and an error signal.

The lens unit includes a collimator 12 for converting a diverging beam emitted from the light source 10 into a parallel beam, a beam splitter 14 and a total reflection mirror 15 for changing a beam traveling direction, and an optical recording medium. It consists of an objective lens 16 that converges the incident beam to form a light spot on the recording surface.

The optical means is mounted on the mechanical means and driven in the radial direction of the optical recording medium, thereby non-contactingly reproducing the recorded information on the optical recording medium or recording new information.

The mechanical means is roughly divided into a carriage 20, a bracket 30 and a blade 40. The carriage 20 is a guide block 22 formed with guide holes 21 on both sides thereof so as to reciprocate the optical means in the radial direction of the optical recording medium, and a lead member 24 having a screw groove therein. Is provided. A guide bar 23 fixedly installed on the deck is slidably inserted into the guide hole 21, and a screw thread of the lead member 24 has a screw groove corresponding thereto and is rotated by a driving motor. 25) is combined. Since the guide screw 25 is fixed to the deck, the carriage 20 moves linearly according to the rotational movement and the rotational direction of the guide screw 25.

The carriage 20 is provided with the light source 10, the collimator 12, the beam splitter 14, the total reflection mirror 15, and the photodetector 18. In this case, the total reflection mirror 15 reflects the incident beam passing through the beam splitter 14 from the light source 10 toward the installation direction of the objective lens 16 and then reflected from the optical recording medium. Direct the reincident beam toward the beam splitter 14. The beam splitter reflects most of the incident beam toward the photodetector 18.

The bracket 30 is fixedly installed at a predetermined position on the carriage 20, and has a through hole 32 formed therein so that light can pass therethrough, and a pair of inner yokes 34 and outer yokes 36. And, it consists of a permanent magnet (38) attached to the inside of each of the pair of outer yoke (36) and a fixed block (39) for elastically fixing the circuit portion and the blade (40).

The blade 40 fixes the objective lens 16 disposed on the optical path of the beam emitted from the light source 10, and a pair of focusing coils 41 to allow relative movement with respect to the bracket 30. And tracking coils 43 are fixed to both sides of the blade 40, respectively. In addition, the bracket 30 is coupled between the blade 40 by a leaf spring 45.

The blade 40 is supported by the leaf spring 45, and the blade 40 is supported by the magnetic force generated by the permanent magnet, the inner and outer yokes 34 and 36, and the coils 41 and 43. The objective lens 16 provided is driven.

The optical pickup device provided as described above could not be installed on all of the blades due to the weight of the optical means. As a result, the volume occupied by the optical pickup device could not be reduced, and the assembly work was complicated.

Accordingly, the present invention has been made in view of the above-mentioned points, and an object of the present invention is to provide an optical pickup apparatus employing a beam splitter-integrated objective lens and providing an optical means to a blade to realize light and small short.

Optical pickup device according to the present invention for achieving the above object,

A carriage installed to move in a radial direction of the optical recording medium;

A blade elastically movable on the carriage by a leaf spring;

An actuator for adjusting the blade position relative to the carriage;

A light source installed on the blade and configured to generate and irradiate light;

A lens unit installed at the blade, the lens unit allowing light emitted from the light source to form on the optical recording medium;

And a photodetector formed at a predetermined position of the carriage to receive the light reflected from the optical recording medium and incident through the lens unit to detect an information signal and an error signal.

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

2 is an exploded perspective view showing an embodiment of the optical pickup device according to the present invention, Figure 3 is a side cross-sectional view showing a blade of the present invention.

This optical pickup apparatus is roughly classified into optical means for information recording / reproducing and mechanical means for installing and driving the optical means in accordance with its function.

The optical means includes a light source 51 for generating and irradiating a beam, lens units 53 and 55 for converging the beam irradiated from the light source 51 and changing a path of the beam, and light reflected from the optical recording medium. And a photodetector 57 for detecting the reproduction signal and the error signal.

The light source 51 may employ a corner light emitting laser or a surface light laser.

The lens units 53 and 55 may include a collimator 53 for converting a diverging beam emitted from the light source 51 into a parallel beam, a beam splitter for changing a beam traveling direction, and an optical spot on a recording surface of an optical recording medium. It consists of an objective lens that converges the incident beam to form a.

The optical means is mounted on the mechanical means and driven in the radial direction of an optical recording medium (not shown), thereby non-contactingly reproducing the recorded information of the optical recording medium or recording new information.

The mechanical means is roughly divided into a carriage 60 and a blade 70.

The carriage 60 is a guide block 62 having guide holes 61 formed at both sides thereof so as to reciprocate the optical means in the radial direction of the optical recording medium, and a lead member 64 having a screw groove therein. Is provided. A guide bar 63 fixedly installed on the deck is slidably inserted into the guide hole 61, and a screw groove of the lead member 64 has a corresponding screw groove and rotated by a driving motor (not shown). Guide screws 65 are combined. Since the guide screw 65 is fixed to the deck, the carriage 60 moves linearly according to the rotational movement and the rotational direction of the guide screw 65. In addition, the carriage 60 has a pair of inner yoke 66 and outer yoke 67 formed on both sides thereof, and a permanent magnet 68 attached to the inside of each of the pair of outer yoke 67; And a first fixing block 69 which secures the circuit unit (not shown) and the blade 70 to elastically move, and the photodetector 57 is installed at a predetermined position on the upper surface.

The blade 70 has a predetermined space formed therein so that the light source 51 and the lens unit 53 55 can be installed. That is, the first through groove 71 through which the beam reflected from the optical recording medium passes through the optical detector 57, and the second through groove 72 connected to the first through groove 71 are formed. Formed. The blade 70 moves left and right or up and down on the carriage 60 to adjust the size and position of the light spot to be formed on the optical recording medium. To this end, the focusing coil 73 and the tracking coil 74 are wound on the outside of the blade 70. The focusing coil 73 is fitted to the inner yoke 66 when the blade 70 is installed on the carriage 60, and the tracking coil 74 is spaced apart from the permanent magnet 68 by a predetermined interval. Is placed. The blade 70 is installed in the carriage 60 through the leaf spring (75). One end of the leaf spring 75 is fixed to the blade 70, and the other end of the leaf spring 75 is attached to the second fixed block 76. The blade 70 may be installed on the carriage 60 by combining the second fixing block 76 and the first fixing block 69.

In order to reduce the volume and mass of the lens units 53 and 55 installed on the blade 70, the present applicant has disclosed a beam splitter disclosed through the 'optical pickup device (patent application No. 95-28494)' An integrated objective lens is adopted.

The beam splitter integrated objective lens 55 is a transparent member having a concave groove having an aspherical surface to partially reflect the beam incident on the aspherical surface. The aspherical surface of the living concave groove is such that a beam incident in parallel in a predetermined incidence direction is reflected by the aspherical surface to form a focal point. Further, by the optical arrangement, the ellipse beam emitted from the light source 51 is converted into a circular beam to be directed to the optical recording medium.

As described above, the mass and volume of the lens units 53 and 55 can be reduced by employing the beam splitter integrated objective lens 55, so that the lens units 53 and 55 and the light source 51 are divided into blades 70. ) Can be installed.

The present invention provided as described above can significantly reduce the space occupied by the carriage by installing a part of the light source and the lens unit installed in the carriage on the blade. In addition, by reducing the number of lens units it is very useful, such as to reduce the number of assembly operations, improve productivity.

Claims (3)

A carriage installed to move in a radial direction of the optical recording medium and a blade elastically movable on the carriage by a leaf spring; An actuator for adjusting the blade position relative to the carriage; A light source installed on the blade and configured to generate and irradiate light; A lens unit installed at the blade, the lens unit allowing light emitted from the light source to form on the optical recording medium; And an optical detector formed at a predetermined position of the carriage and receiving the light reflected from the optical recording medium and incident through the lens unit to detect an information signal and an error signal. The apparatus of claim 1, wherein the lens unit comprises: a collimator for converting the beam emitted from the light source into a parallel beam; And a beam splitter-integrated objective lens configured to converge the beam passing through the collimator to form an optical spot on the optical recording medium and direct the beam reflected from the optical recording medium to the photodetector. . The optical pickup apparatus of claim 2, wherein the beam splitter integrated objective lens partially reflects a beam incident on the aspherical surface to a transparent member having a concave groove having an aspherical surface.