KR200346425Y1 - Apparatus For Adjusting Laser Diode and Photo Diode - Google Patents

Abstract

The present invention relates to an adjusting device for adjusting the coordination of the laser diode and the photodiode.

The laser diode and photodiode adjusting device of the optical pickup according to the present invention includes a first plate member that is positioned on a surface perpendicular to the optical axis direction, a second plate member elastically connected to the first plate, and a second plate; And a third plate member which is elastically connected and to which the light emitting element / light receiving element is mounted.

With this arrangement, the laser diode and photodiode adjusting device of the optical pickup according to the present invention can be focused on the optical recording medium with desired beam characteristics and obtain a good photoelectric conversion signal from the reflected light reflected from the optical disk.

Description

Optical pick-up laser diode and photo diode regulator {Apparatus For Adjusting Laser Diode and Photo Diode}

The present invention relates to an optical pickup, and more particularly, to an adjusting device for adjusting the coordination of a laser diode and a photodiode.

In general, optical discs such as CDs and DVDs record information by irradiating a laser beam onto a recording surface and reproducing the recorded information by photoelectric conversion of reflected light reflected from the optical disc. To this end, the optical disk driver is provided with an optical pickup equipped with a light source and a light detecting element.

Optical pickup includes a laser diode used as a light source, a photo diode used as a photodetector, an objective lens for condensing the light beam generated from the laser diode in the form of a micro spot on an optical disk, and Optical systems for guiding the light beam from the laser diode toward the objective lens and for guiding the reflected light reflected from the optical disc toward the photodiode are included.

Such wave front aberration and the intensity of the optical pickup (Rim Intensity) is one of the factors that most affects the performance of the recording / playback system of the optical disk. In the case of a recordable optical pickup, a laser diode having a higher output and a collimating lens having a higher numerical aperture are required than the optical pickup whose optical efficiency and light distribution are exclusively for reproduction.

However, since the collimation lens has a high numerical aperture, the depth of focus becomes shorter, and the error of the position and angle of light emitting point of the laser diode becomes larger. do.

Accordingly, in order to generate a light beam having low wavefront aberration and good light distribution, it is necessary to fix the collimation lens and adjust the coordination of the laser diode.

In addition, when the light beam reflected from the optical disc is focused on the photodiode via a collimating lens or a detection lens (sensor lens), the coordination of the photodiode must be correctly adjusted in order to detect an accurate servo error signal and a reproduction signal.

In the conventional laser diode, the bracket supporting the laser diode is moved in the two axis directions (X, Y axis directions) perpendicular to each other in a plane perpendicular to the light emission direction (Z axis direction), and then the bracket is moved to the optical pickup base. The hardening resin (hereinafter referred to as "UV resin") is fixed using a bond.

Conventional laser diode adjustment, however, is caused by the effect of the amount of UV resin bond, the bonding position and the surrounding environment (temperature, humidity, etc.) when bonding the bracket to the optical pick-up base by UV resin bond or curing the UV resin bond. It causes shrinkage of UV resin bond, change of loosening amount, and so on, and the adjustment position is changed. In addition, in the conventional laser diode adjusting device, the direction of the X and Y axes can be adjusted by moving the bracket and the Z direction can be adjusted using the sensor lens or the photodiode. Tilt angle adjustment has a problem with a difficult structure.

Accordingly, an object of the present invention is to provide an optical pickup laser diode and photodiode adjusting device for adjusting the coordination of a laser diode or a photodiode to obtain desired beam characteristics and to obtain a good photoelectric conversion signal.

Another object of the present invention is to provide a laser diode and a photodiode adjusting device for the optical pickup to minimize the assembly / adjustment time of the optical pickup.

1 is a perspective view showing a laser diode and a photodiode adjusting device of the optical pickup according to an embodiment of the present invention.

FIG. 2 is a longitudinal cross-sectional view taken along the line "A-A '" in FIG. 1; FIG.

3 is a longitudinal sectional view of the optical pickup base and adjustment spring shown in FIG.

Figure 4 is a view showing the position adjustment of the adjustment spring shown in Figure 1 using the XY adjustment jig.

<Description of Symbols for Main Parts of Drawings>

1: Z axis adjustment screw 2: X axis tilt adjustment screw

3: Y axis tilt adjustment screw 4,5: Bracket fixing screw

6,7: Adjustable hole 9: Optical pickup base

10: adjustment spring 11: XY stage

12: XY adjustment jig 8: laser diode or photo diode

In order to achieve the above objects, the laser diode and photodiode adjusting device of the optical pickup according to the present invention is a first plate member which is positioned on a surface perpendicular to the optical axis direction, and a second plate elastically connected to the first plate And a third plate member elastically connected to the second plate and to which the light emitting element / light receiving element is mounted.

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

Hereinafter, exemplary embodiments of the present invention will be described with reference to FIGS. 1 to 4.

1 is a perspective view showing a laser diode and a photodiode adjusting device of the optical pickup according to the present invention.

In the configuration of FIG. 1, the laser diode and photodiode adjusting device of the optical pickup according to the present invention includes an adjustment spring 10 fastened to the optical pickup base 9.

The optical pickup base 9 is provided with optical components including a collimating lens, a sensor lens and an objective lens.

The adjustment spring 10 is in the form of a leaf spring to adjust the coordination of the laser diode or photodiode 8 in the X, Y and Z axis directions, and to adjust the tilt angle in the X and Y axis directions. do.

The adjustment spring 10 includes first to third plates that are elastically connected to each other in an order close to the optical pickup base 9.

The first plate of the adjustment spring 10 is a plate in contact with the optical pick-up base 9, and the two adjustment holes 6 and 7 and two bracket fixing screws 4 and 5 pass therethrough. XY adjustment holes are formed. The provisional adjustment holes 6 and 7 should be size in consideration of the adjustment range in the X and Y-axis directions. As shown in FIG. 2, the bracket fixing screws 4 and 5 pass through the compression spring 51 and the XY adjusting hole, and then fit into the tapping hole formed in the optical pickup base 9. Here, the compression spring 51 is such that the optical pickup base (9) does not rotate together when turning the bracket fixing screws (4, 5) for X, Y axis direction adjustment. The operator inserts the legs of the XY adjustment jig to be described later into the provisional adjustment holes 6 and 7, and then moves the entire adjustment spring 10 in the X and Y axis directions using the XY stage, and then the bracket The fixing screws 4 and 5 are rotated to fix the adjustment spring 10 to the optical pickup base 9.

The second plate of the adjustment spring 10 has one end connected to the first plate to act as a leaf spring. On the opposite side of the connecting plate to the first plate in the second plate, a Z adjustment hole through which the Z-axis adjusting screw 1 passes is formed. The Z-axis adjusting screw 1 penetrates through the Z adjustment hole and its end is in contact with the upper surface of the first plate. The operator adjusts the position of the laser diode or photodiode on the Z axis in the light output or light incidence direction by rotating the Z axis adjusting screw 1 clockwise or counterclockwise.

One end of the third plate of the adjustment spring 10 is connected to the second plate to act as a leaf spring. A hole in which a laser diode or a photodiode is fixed is formed in the center of the third plate, and holes in which the X-axis tilt adjustment screw 2 and the Y-axis tilt adjustment screw 3 pass through the diagonal direction are formed. do. Here, the light emitting portion or the light receiving portion of the laser diode or photodiode is fixed to the fixing hole of the third plate to face the second plate. The X-axis tilt adjusting screw 2 and the Y-axis tilt adjusting screw 3 pass through respective holes, and their ends contact the upper surface of the second plate. The operator rotates the X-axis tilt adjustment screw (2) and the Y-axis tilt adjustment screw (3) clockwise or counterclockwise, so that the operator is on the X-axis and Y-axis perpendicular to each other on a plane perpendicular to the light output or light incident direction. The tilt angle is adjusted. On the other hand, the hole centered on the optical path is formed in the first plate and the second plate so as not to interfere with the light emitted from the laser diode or the light incident on the photodiode.

The coordination process of the laser diode and the photodiode using the laser diode and the photodiode adjusting device according to the present invention is as follows.

First, as illustrated in FIG. 3, the collimating lens or the sensor lens 20 is fixed to the optical pick-up base 9, and then the fixing spring 10 is fixed to the bracket so that the first plate faces the collimating lens or the sensor lens 20. The screws 4 and 5 are used to assemble the optical pickup base 9.

Referring to FIG. 4, when the adjustment spring 9 is assembled to the optical pick-up base 9 as shown in FIG. 3, the legs of the XY adjustment jig 12 are inserted into the adjustment holes 6 and 7. The operator observes the XY stage 11 in which the micrometer is installed and the laser diode by adjusting the position of the adjustment spring 10 in the X and Y axes on a plane perpendicular to the light output or light incidence direction. Alternatively, the X and Y axes of the photodiode 8 are adjusted. Then, in order to make a parallel beam or a desired divergence / convergence beam, the Z-axis adjusting screw 1 is adjusted to adjust the position of the laser diode or photodiode 8 in the light output or light incident direction (Z axis). Finally, the tilt angle of the laser diode or photodiode 8 is adjusted on the X and Y axes by adjusting the X-axis tilt adjustment screw 2 and the Y-axis tilt adjustment screw 3.

As such, when the coordination of the laser diode is accurately adjusted, the center of the outgoing light of the collimation lens coincides with the center of the optical axis, thereby obtaining a light beam having low wavefront aberration and good light distribution. In addition, if the coordination of the photodiode is correctly adjusted, an accurate servo error signal and reproduction signal can be obtained.

As described above, the laser diode and the photodiode adjusting device of the optical pickup according to the present invention are orthogonal to each other on the surface of the laser diode or the photodiode perpendicular to the light emission or light incidence direction (Z axis), Z axis. The laser is generated from the laser diode because it can be adjusted by the tilt angle on the two axes (X, Y axis) and the X, Y axis, as well as by using the screw. The beam can be focused on the optical recording medium with desired beam characteristics and a good photoelectric conversion signal can be obtained from the reflected light reflected from the optical disc. And the laser diode and photodiode adjusting device according to the present invention is to adjust the tilt angle on the X, Y, Z axis and the X, Y axis of the laser diode or photodiode in one plate spring type adjusting device by using a screw. Therefore, it is possible to minimize the assembly / adjustment time of the optical pickup. In addition, the present invention is applied to the light-emitting unit and the light-receiving unit of the optical measuring device or the optical communication device as well as the optical pickup for the optical recording medium to obtain a stable and high accuracy optical characteristics in the optical measuring device or the optical communication device.

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 determined by the scope of the utility model registration request.

Claims (4)

A first plate member positioned on a surface perpendicular to the optical axis direction, A second plate member elastically connected to the first plate, And a third plate member elastically connected to the second plate and mounted with a light emitting element / light receiving element. The method of claim 1, The first plate member includes at least one or more adjustable holes for temporarily fixing the first plate member on the optical pickup base; The laser diode and photodiode adjusting device of the optical pickup, characterized in that it further comprises at least one fixing hole through which the screw penetrates. The method of claim 1, And the second plate member further comprises a distance adjusting member for adjusting the positions of the second and third plate members in the optical axis direction. The method of claim 1, And the third plate member further comprises a tilt angle adjusting member for adjusting a tilt angle on a biaxial direction of a plane perpendicular to the optical axis direction.