KR100299644B1 - Optical pick-up - Google Patents

Abstract

The present invention discloses an optical pickup for use in an optical disc player. Since the conventional optical pickup is configured not to adjust the installation position of the hologram laser diode, there is a problem that can not compensate for the assembly failure of the optical components due to the assembly errors out of the tolerance range frequently.

An object of the present invention is to provide an optical pickup for solving such a conventional problem, and the optical pickup according to the present invention is characterized in that the pickup angle of the laser beam irradiated from the holographic laser diode to the reflection mirror is increased. It is characterized in that the hologram laser diode angle adjusting means for fine adjustment is provided. Therefore, the present invention can easily compensate for the deviation of the optical components out of the tolerance range due to the assembly tolerance in the assembly process can reduce the assembly failure rate of the optical pick-up, thereby improving the productivity.

Description

Optical pickup {OPTICAL PICK-UP}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to optical pickups used in optical disc players, and more particularly, to optical pickups that compensate for deviations in optical tolerances due to assembly errors of optical components generated during assembly.

In general, an optical pickup performs an operation of reproducing information recorded on the optical recording medium or recording the information on the optical recording medium by scanning a laser beam on the optical recording medium and detecting a laser beam reflected from the optical recording medium. For example, it is used for an optical disc player such as a laser disc player (LDP), a compact disc player (CDP), a magnetic optical disc driver (MODD), and the like.

In the conventional optical pickup, as shown in FIG. 1, a reflection mirror 2 is installed in front of the hologram laser diode 1 as a light source to upwardly reflect the laser beam generated from the hologram laser diode 1. Directly above the reflecting mirror 2, a collimator lens (3) for converting the reflected laser beam into a parallel beam, and a laser beam converted into a parallel beam by the collimator lens (3) The objective lens 4 which focuses on () and the photodiode for a detection which are not shown are normally provided.

The conventional optical pickup includes a pickup base 5 as shown in FIG. 2, and the hologram laser diode 1 is a U-shaped holder inserted into the mounting hole 6 formed in the pickup base 5. It is attached to the pickup base 5 by (7), and the reflection mirror 2 is attached to the front pickup base 5 of this hologram laser diode 1 by 45 degree angle.

A plurality of lead pins 1a protrude from one surface (right side of the drawing) of the hologram laser diode 1, and the plurality of lead pins 1a are soldered and fixed to the circuit board 8.

However, in the conventional optical pickup configured as described above, these optical parts are assembled in the process of assembling the hologram laser diode 1, the reflection mirror 2, the collimator lens 3, the objective lens 4, and the like on the pickup base 5. Due to the assembling tolerance of these components, the assembly defects in which the balance of the focus error and the tracking error are out of the allowable error range frequently occur, and the conventional optical pickup includes a hologram laser diode ( 1) is fixedly mounted to the mounting portion 6 of the pickup base 5 by the U-shaped holder 7, so that the installation position of the hologram laser diode 1 cannot be adjusted. Could not solve the problem of poor assembly.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described problems, and an object thereof is to provide an optical pick-up that makes it easy to compensate for deviations in the tolerance range due to assembly tolerances during assembly.

In order to achieve the above object, the present invention provides a holographic laser diode, a reflection mirror for reflecting a laser beam generated by the hologram laser diode, and a laser beam reflected by the reflection mirror to form a parallel beam to focus on a disk. In the optical pickup having a collimator lens and an objective lens to be picked up, and a pickup base for receiving and supporting them,

For finely adjusting the irradiation angle of the laser beam irradiated from the hologram laser diode to the reflection mirror on the pickup base, the horizontal portion fixed to the upper surface of the pickup base and extending downward from the end of the horizontal portion And a resilient plate having a vertical portion in which the lead installation surface of the hologram laser diode is in contact with and supported by a side of the pick-up base and a predetermined distance therebetween, and fastened to a female screw formed below the vertical portion of the resilient plate. It is characterized in that the optical pickup is provided with a hologram laser diode angle adjusting means having an adjusting screw for moving the lower part of the vertical portion back and forth while being in contact with the side surface of the pickup base.

1 is a schematic diagram showing an optical system of a conventional optical pickup;

2 is a cross-sectional view showing an installation structure of a hologram laser diode of a conventional optical pickup;

3 is a partial cross-sectional view showing the installation structure of the holographic laser diode of the optical pickup according to the present invention;

4 is a perspective view showing an extract of the holder shown in FIG.

5a and 5b is an operation of the hologram laser diode angle adjusting means of the optical pickup according to the present invention.

6 is a reference diagram illustrating an error compensation process of an optical pickup according to the present invention.

<Description of the symbols for the main parts of the drawings>

1: hologram laser diode 1b: lead installation surface

5: pickup base 6: mounting portion

8: circuit board 9: fixing screw

10: hologram laser diode angle adjusting means

11 elastic plate 12 horizontal portion

13: vertical part 14: female thread

15: adjusting screw 16: incision

17: elastic support piece

Such specific features and other advantages of the present invention will become more apparent from the following description of the preferred embodiments with reference to the accompanying drawings.

The optical pickup according to the present invention, like the conventional optical pickup shown in FIG. 1, has a reflection mirror 2 for reflecting upward the laser beam generated from the hologram laser diode 1 in front of the hologram laser diode 1 as a light source. And a collimator lens (3) for converting the reflected laser beam into a parallel beam directly above the reflecting mirror (2), and a laser beam converted into a parallel beam by the collimator lens (3). The objective lens 4 which focuses on the disk D and the photodiode for a detection which are not shown are normally provided.

The feature of the optical pickup according to the present invention is that the installation structure of the hologram laser diode is improved, and FIG. 3 shows the installation structure of the hologram laser diode of the optical pickup according to the present invention.

Referring to FIG. 3, a hologram laser diode mounting portion 6 is formed on one side of the pickup base 5, and the hologram laser diode 1 is inserted into the hologram laser diode mounting portion 6, and the hologram laser is positioned. The lead 1a of the diode 1 is fixed to the circuit board 8 by soldering.

The holographic laser diode angle adjusting means (10) for finely adjusting the irradiation angle of the laser beam irradiated from the hologram laser diode (1) to the reflection mirror (2) up and down in accordance with the characteristics of the present invention. Is provided.

The hologram laser diode angle adjusting means 10 includes a horizontal portion 12 fixed to the upper surface of the pickup base 5 by a screw 9, as shown in Figs. Vertically extending downward from the end of (12) and positioned at a predetermined distance from the side surface 5a of the pickup base 5, the lead mounting surface 1b of the hologram laser diode 1 being in contact with the inner side thereof. An elastic plate 11 having a portion 13 is provided.

A female screw 14 is formed at the lower portion (free end) of the vertical portion 13 of the elastic plate 11, and the female screw 14 has an end thereof at a lower side 5b of the side surface 5a of the pickup base 5. The adjusting screw 15 is fastened in contact with the screw.

Here, the female screw 14 formed below the vertical portion 13 of the elastic plate 11 has a burring process on the vertical portion 13 in consideration of the fact that the thickness of the elastic plate 11 is thin. It is formed in the inner surface of the cylindrical part 13a in the state which formed the cylindrical part 13a of predetermined length.

In addition, the elastic plate 11 has a cutout portion 16 for reducing its own weight, which is formed long over the horizontal portion 12 and the vertical portion 13, and both sides of the cutout portion 16 located on the vertical portion 13 side. An elastic support piece 17 is formed in each of which is bent inwardly therefrom to elastically support the lead installation surface 1b of the hologram laser diode 1.

Referring to the operation of the optical pickup according to the invention configured as described above are as follows.

First, as shown in FIG. 3, the hologram laser diode 1 is inserted into the mounting portion 6 of the pickup base 5, and its lead mounting surface 1b is the vertical portion 13 of the elastic plate 11. It is to be assembled in a state that is elastically supported on the elastic support piece (7) formed in.

When the hologram laser diode 1 is assembled to the pick-up base 5 as described above, the hologram laser diode 1 is operated to irradiate the laser beam with the reflecting mirror 2, as shown in FIG. As a result, the laser beam is reflected upward through the reflecting mirror 2 and is focused onto the disk D via the collimator lens 3 and the objective lens 4.

Then, the focus error and tracking error are detected from the laser beam reflected from the disk D through a conventional detection photodiode, which is not shown.

These errors are usually caused by the assembling error of the reflection mirror 2, collimator lens 3 and the objective lens 4, in the present invention, in order to compensate for the errors caused by the assembly error, the hologram laser diode ( The method of finely adjusting the angle of the laser beam irradiated to the reflection mirror 2 from 1) up and down was employ | adopted.

That is, the angle of irradiation of the laser beam irradiated to the reflecting mirror 2 by finely adjusting the installation angle of the hologram laser diode 1 up and down as shown in FIGS. 5A and 5B through the hologram laser diode angle adjusting means 10. By adjusting, as shown in Fig. 6, the laser beam is focused on the disk D in such a manner as to compensate the deviation of the deviation caused by the assembly tolerance of the optical components during the assembly process.

In more detail, when the adjusting screw 15 screwed to the female screw 14 formed below the vertical portion 13 of the elastic plate 11 as the hologram diode angle adjusting means 10 in the forward direction, The end of the vertical portion 13 of the elastic plate 11 is finely moved forward as shown in FIG. 5A.

Therefore, the hologram laser diode 1 in which the lead mounting surface 1b is elastically supported on the elastic support piece 17 formed on the vertical portion 13 of the elastic plate 11 is moved forward together with the vertical portion 13. As the installation angle of the hologram laser diode 1 is finely adjusted upward, the position of the laser beam focused on the disk D is adjusted as shown in FIG. 6, thereby compensating for an error caused by the assembly tolerance. .

On the contrary, when the adjusting screw 15 screwed to the female screw 14 formed below the vertical portion 13 of the elastic plate 11 as the hologram diode angle adjusting means 10 is rotated in the reverse direction, the elastic plate 11 The end of the vertical portion 13 of is finely moved backwards as shown in FIG. 5B.

Accordingly, the hologram laser diode 1 whose elastic mounting surface 1b is elastically supported on the elastic support piece 17 formed on the vertical portion 13 of the elastic plate 11 is moved together with the vertical portion 13 to hologram laser. As the installation angle of the diode 1 is finely adjusted downward, the position of the laser beam focused on the disk D is adjusted as shown in FIG. 6, thereby compensating for an error caused by the assembly tolerance.

After the angle adjustment operation is completed, a locking paint or the like is applied to the coupling portion of the adjustment screw 15 and the female screw 14 to fix the position.

As described above, according to the optical pickup of the present invention, since the irradiation angle of the laser beam irradiated with the anti-mirror mirror can be finely adjusted up and down through the hologram laser diode angle adjusting means, This makes it possible to simply compensate for deviations from the tolerance. Therefore, the assembly failure rate of the optical pickup can be reduced, thereby improving productivity.

Claims (2)

A hologram laser diode, a reflection mirror for reflecting the laser beam generated by the hologram laser diode, a collimator lens and an objective lens for shaping the laser beam reflected by the reflection mirror into a parallel beam and focusing them on a disc; In the optical pickup having a pickup base, To finely adjust the irradiation angle of the laser beam irradiated from the hologram laser diode (1) to the reflection mirror (2) to the pickup base (5), A horizontal portion 12 fixed to an upper surface of the pickup base 5 and extending downward from an end of the horizontal portion 12 and positioned at a predetermined distance from a side surface of the pickup base 5 and on the inner surface of the hologram; An elastic plate 11 having a vertical portion 13 on which the lead mounting surface 1b of the laser diode 1 is in contact and supported; It is fastened to the female screw 14 formed below the vertical portion 13 of the elastic plate 11 and moves the lower portion of the vertical portion 13 back and forth in a state where the end thereof is in contact with the side surface of the pickup base 5. An optical pickup, characterized in that a hologram laser diode angle adjusting means (10) having an adjusting screw (15) is provided. According to claim 1, wherein the cutout portion 16 for reducing its own weight on the elastic plate 11 is formed in the horizontal portion 12 and the vertical portion 13, the cutout portion of the vertical portion (13) 16) An optical pickup, characterized in that elastic support pieces (17) are formed on both sides, respectively, which are bent inwardly therefrom to elastically support the lead installation surface (1b) of the hologram laser diode (1).