KR0167934B1 - Focusing clearance controlling device of an object lens of optical pick-up actuator - Google Patents

Abstract

The present invention relates to a focal length adjusting device of an optical pickup actuator objective lens, wherein the wavefront aberration of the objective lens (30) is measured using a laser beam irradiated from the interferometer (10). The first focal through hole 61 and the second focal point through which the first and second focal points b and c which are formed on both left and right sides of the objective lens 30 pass through the laser beam 30. Focus adjustment plate 60 is formed with a through hole 62, the focus control plate 60 is settled, characterized in that consisting of a horizontal interval adjusting member 70 for properly adjusting the horizontal movement distance of the focus control plate 60 Optical pickup actuator is a focal length adjusting device of the objective lens, which allows simple and convenient adjustment of the focal length of the objective lens.

Description

Focus spacing device for optical pickup actuator objective

1 is a block diagram of a conventional objective lens wavefront aberration measuring apparatus.

2 is a block diagram of a focal length adjusting device of the objective lens according to the present invention.

3 is a perspective view of main parts of an apparatus for controlling a focal length of an objective lens according to the present invention;

4 is a state of use of the focus interval adjusting apparatus of the objective lens according to the present invention.

* Explanation of symbols for main parts of the drawings

10: interferometer 20: aperture

30: objective lens 40: cover glass

50: reflection mirror 60: focusing plate

70: horizontal gap adjusting member

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an objective lens of an optical pickup actuator. In particular, the present invention relates to interferometric measurement of wavefront aberration of an objective lens in analyzing a laser beam reflected by focusing on a disk by irradiating a laser beam to the objective lens and reproducing it as a signal. The focal length of the optical pickup actuator objective lens enables the quick and accurate measurement of the objective wavefront aberration measurement by precisely adjusting the focal length between the objects formed at the front and rear of the objective lens when measured by the device. It relates to a control device.

In general, the optical pickup actuator refracts the laser light scanned by the laser diode in the beam split, focuses the laser light on the disk surface in the objective lens, and then detects the reflected laser beam in the photo diode to reproduce the signal. The method of separating and installing the photodiode is mainly used, but in recent years, the technology has been developed and the trend of miniaturization of parts has been gradually used. have.

As described above, an optical device using an optical pickup actuator such as a compact disc player mounts a disc in which various audio signals or video signals are input into the optical device, and rotates the spindle motor installed on the bottom of the turntable to the disc. By reproducing the intrinsic signal through the optical pickup actuator, the user can listen to the audio signal or display the video signal to see the playback device.

On the other hand, the objective lens 5 for focusing the laser beam on the signal surface of the disk during the optical pickup actuator has to be manufactured very precisely. In order to measure whether the objective lens 5 has an appropriate wave front aberration, FIG. 1 is a diagram schematically illustrating measuring wavefront aberration of the conventional objective lens 50. As shown in FIG.

As described above, if the wavefront aberration of the objective lens 50 is to be measured, the laser beam is irradiated forward from the master lens 20, which is the interferometer 1, and the laser beam passes through the first focal point 3, which is a virtual focal point. It passes through the aperture 4 which constantly limits the range of the laser beam.

On the other hand, the cover glass 6 corresponding to the protective film on the disk while the laser beam is limited by the curvature of the objective lens 5 while passing through the aperture 4, the laser beam is limited in the range of light is passed through the objective lens (5) The laser beam is focused on the second focal point 7, which is an imaginary point that is focused on the disk, and the laser beam is completely reflected by the reflective mirror 8 having a constant curvature surface.

Then, the laser beam reflected by the reflecting mirror 8 is returned to the second focus 7 again and passes through the master lens 2 through the objective lens 5, the aperture 4, and the first focus 3. The wavefront aberration of the objective lens 5 is measured by focusing on the interferometer 1 and performing a software analysis, that is, comparing and analyzing the interference fringes between the objective lens 5 and the master lens 2.

In this case, the distance a between the first focal point 3 and the second focal point 7 is a predetermined distance as a distance between water phases. For example, a distance such as 25 mm, 20 mm, 30 mm, and the like is virtually determined. Since the second focus point 7 is a fixed point because the second focus point 7 corresponds to the signal surface of the disk in order to accurately match the distances between the objects, the objective lens 5 is moved horizontally to a position corresponding to the distances between the items. The first focus 3 is adjusted to be made.

However, as described above, the first focal point 3 and the second focal point 7 are not actually present points but are virtually set in advance in consideration of the curvature of the objective lens 5, so that the second focal point 7 is used. First to the position corresponding to the signal surface of the disc, and then move the objective lens 5 horizontally by a predetermined distance between the objects (a) to adjust the distance between the objects (a). There was a very difficult problem to fit correctly.

The present invention has been made in view of this point, and the interferometer for the wavefront aberration of the objective lens in reproducing the signal by analyzing the laser beam reflected by focusing on the disk by irradiating the laser beam to the objective lens The objective is to make the objective lens wave front aberration measurement work quickly and accurately by accurately adjusting the focal length between the objects formed at the front and rear of the objective lens using the horizontal gap adjusting member.

The object of the present invention is to measure wavefront aberration of an objective lens using a laser beam irradiated from an interferometer, the first and second sides of which are formed on both sides of the objective lens when the laser beam is transmitted to the objective lens. A focus adjusting plate having a first focal through hole and a second focal through hole through which the second focal passes, and a horizontal spacing adjusting member for placing the focus adjusting plate and appropriately adjusting a horizontal moving distance of the focus adjusting plate; This is achieved by providing a focus spacing device for the pickup actuator objective lens.

Hereinafter, the structure of the present invention will be described in detail with reference to the accompanying drawings.

2 to 4, the configuration of the present invention is a device for measuring the wave front aberration of the objective lens 30 by using a laser beam irradiated from the interferometric device 10, the objective lens First and second focal holes 61 and second focal points through which the first and second focal points b and c, which are formed at both left and right sides of the objective lens 30, pass through the laser beam 30. The focus control plate 60 is formed with a through hole 62, and the focus control plate 60 is disposed and consists of a horizontal interval adjusting member 70 for appropriately adjusting the horizontal moving distance of the focus control plate 60.

In addition, the horizontal spacing adjusting member 70 has a pedestal 71 having an installation groove 72 into which the bottom portion of the focus control plate 60 is fitted on an upper surface thereof, and one end of which is attached to the pedestal 71 and on an outer circumferential surface thereof. A display scale is formed and includes a moving shaft 73 for horizontally moving the pedestal 71 and a rotating lever 74 rotated a predetermined number of times to operate the moving shaft 74 horizontally.

Hereinafter, the operation and effects of the present invention will be described in detail with reference to the accompanying drawings.

First, the focusing plate 60 according to the present invention is produced by bending a long plate in a shape of a depression or by mold processing with a mold, which is an interval between the first focusing through hole 61 and the second focusing through hole 62. The distance (a) is manufactured to have an appropriate interval in accordance with the objective lens 30 to be measured.

In this manner, the bottom part of the focusing plate 60 is placed on the installation groove 72 so that the main members including the objective lens 30 are appropriately arranged in the horizontal direction with respect to the laser beam irradiated from the interferometer 10. Let's do it.

When the main members are arranged in a line in this way, the first and second focal spots formed on both left and right sides of the objective lens 30 by irradiating a laser beam from the master lens 11 of the interferometer 10 b) In the center of (c) the second focus (c) is to be bound to the second focus through-hole 62 of the focusing plate (60).

On the other hand, the objective lens 30 so that the first focus (b) is correctly formed in the first focus through-hole 61 of the focus control plate 60 corresponding to the distance between the objects (a) in the first focusing state (c) ) Move it horizontally as appropriate.

In this way, the first lens (b) and the second focus (c) is not bound to the virtual point, but rather to the first and second focal through hole 62 of the focusing plate 60, which is actually present, Properly and horizontally move the 30 to adjust the focus accurately and quickly.

After the first and second focal points (b) and (c) are aligned, the laser beam is irradiated onto the master lens 11 of the interfering device 10 to open the first focal through hole 61 of the focus adjusting plate 61. After the laser beam forms a first focal point b, the range of the light is limited in the aperture 20, and the optical beam is refracted to the curvature of the objective lens 30 so that the second focal through hole 62 of the focus control plate 60 is formed. After forming the second focus (c) at the total reflection from the reflection mirror 50 is returned again.

In this way, the laser beam returned through the main member is focused on the master lens 11, and the wavefront aberration of the objective lens 30 is analyzed after comparing the optical interference fringes of the objective lens 30 through a software analysis device. Will be.

Therefore, in the conventional objective lens wavefront aberration measurement method, since the first and second focal points formed at a predetermined distance between objects are virtual points which are not actual, it is difficult to focus the focus interval adjusting device according to the present invention. When used, the focusing plate on which the first and second focal through holes corresponding to the distance between objects are formed is placed on the pedestal, which is a horizontal spacing adjusting member, and the pedestal is rotated by the rotating lever to support the plate. It is a very useful invention to quickly and accurately measure the wavefront aberration of the objective lens by moving the horizontally so that the first, second focus is simply adjusted.

Claims (2)

In the device for measuring the wave front aberration of the objective lens 30 using the laser beam irradiated from the interferometer 10, the left of the objective lens 30 when the laser beam is transmitted through the objective lens 30 A focus adjusting plate 60 having a first focal through hole 61 and a second focal through hole 62 passing through the first and second focal spots b and c formed on both sides of the right side; 60, the focal length adjusting device of the optical pickup actuator objective lens, characterized in that consisting of a horizontal interval adjusting member 70 for properly adjusting the horizontal moving distance of the focusing plate (60). According to claim 1, wherein the horizontal interval adjustment member 70 is a pedestal 71 formed on the upper surface of the mounting groove 72 is fitted on the bottom surface of the focusing adjustment plate 60, and one end of the pedestal 71 Attached and formed on the outer circumferential surface is formed with a moving shaft 73 for moving the pedestal 71 horizontally, and a rotating lever 74 rotated a predetermined number of times to operate the moving shaft 74 horizontally Focus interval adjusting device for optical pickup actuator objective lens.