KR20010109837A - Optical pick up actuator - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical pickup actuator, comprising: a lens holder having coils for tracking and focusing attached to an objective lens, a plurality of wire springs for supporting the lens holder, and a plurality of coils and magnetic circuits; A yoke to which a magnet is mounted and the lens holder is mounted; And a frame for supporting the plurality of wire springs, the optical pickup actuator comprising:

The tracking magnetic circuit and the focusing magnetic circuit are separately configured.

In addition, according to the present invention as described above, the tilt angle due to the mutual interference problem of the focusing drive and the tracking drive that may be caused in the configuration of the lens-protruding thin actuator, the mismatch between the center of gravity of the lens holder and the force center generated in the tracking coil Problems such as occurrence and secondary resonance increase can be solved through new magnetic circuits.

Description

Optical pick up actuator {Optical pick up actuator}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical pickup actuator, and more particularly, to an optical pickup capable of solving coupling problems and rotational forces generated by separating the magnetic circuits for focusing driving and tracking driving by sharing the same flux. It relates to the actuator.

Recently, due to the rapid development of optical-related disk media, various products of optical pickups for reading data on disks have been developed.

The optical pickup, which is a key component of the optical disk related device, is a component that reads data recorded on the disk. The data recorded on the optical disk is converted into an optical signal by a laser emitted from a laser diode in the optical pickup, and the optical signal is received by a lens attached to an actuator in the optical pickup, and the signal is optical element in the optical pickup. It is converted into an electrical signal by.

Optical pickup actuators generally have to mount the objective lens to the lens holder and drive the objective lens in the up, down, left and right directions for focusing and tracking operation of the objective lens. The driving apparatus includes a coil in a magnetic space formed by a magnet and a magnetic body. In this configuration, the Lorentz force according to Fleming's left-hand rule as shown in Fig. 1 is used.

2 is a diagram schematically showing the configuration of a conventional optical pickup actuator.

Referring to FIG. 2, the conventional optical pickup actuator has an asymmetrical structure in the form of a protruding lens part, and includes a lens holder 202, a magnet 204, a yoke 203, and a tracking coil (20) on which an objective lens 201 is mounted. 205, focusing coil 206, wire spring 207, fixed PCB (not shown), and the like.

The configuration of the conventional optical pickup actuator in more detail, the conventional optical pickup actuator flows through the lens holder 202 for mounting the objective lens 201, the lens holder 202 to a plurality of wire springs (207) The objective lens 201 is attached to the center of the lens holder 202, the focusing coil 206 is wound around the lens holder 202, and then a rectangular shape is formed thereon. The tracking coil 205 wound with was attached. A fixed PCB (not shown) was fixed to both sides of the lens holder 202.

Then, a pair of symmetrical yokes 203 are formed, and a magnet 203 for generating an electromagnetic force by applying magnetic flux to the tracking coil 205 and the focusing coil 206 is bonded and fixed.

In addition, the yoke 206 is integrated by the integration means through the pickup base (not shown), the pickup base unit, and the escape hole (not shown).

3A to 3B are diagrams for explaining a focusing and tracking operation of a conventional optical pickup actuator.

Hereinafter, focusing and tracking operations of a conventional optical pickup actuator will be described in detail with reference to FIGS. 3A to 3B.

First, when a current is applied to the focusing coil 306 placed in the magnetic field, electromotive force is generated in the focusing coil 306, and the electromotive force drives the movable part (lens holder assembly) in the up and down directions (focusing direction). In the same way, when a current is applied to the tracking coil 305, the movable portion moves in the left and right directions (tracking direction).

However, in the conventional optical pickup actuator as described above, the tracking coil 305 and the focusing coil 306 use a common magnetic flux, and the tracking coil 305 is a coil winding of an eyeglass structure. Since it has a shape, when a current is applied to the tracking coil 305 for tracking excitation, the magnetic flux is also interlinked on the upper and lower surfaces of the tracking coil 305, so the force in a direction unrelated to tracking may be generated by Fleming's left hand law. have.

In this case, if the center of gravity and the center of force do not coincide, a clockwise or counterclockwise torque may occur. In addition, in the asymmetrical structure of the lens protrusion according to the thinning of the actuator as described above, there is a problem that the influence on the secondary resonance or the unwanted tilt angle may be increased by the subtle shift between the force center and the center of gravity.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and solves the problems caused by the coupling (Coupling) problem and rotational force generated by sharing the same flux by separating and independent of the magnetic circuit for focusing driving and tracking driving It is an object of the present invention to provide an optical pickup actuator.

1 is a view for explaining the force of Lorentz.

2 is a view for schematically showing the structure of a conventional optical pickup actuator.

3A to 3B are views for explaining a focusing operation and a tracking operation of a conventional optical pickup actuator.

4 is a view for schematically showing the structure of the optical pickup actuator of the present invention.

5a to 5b are views for explaining the operation principle of focusing and tracking in the optical pickup actuator of the present invention.

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

201,301,401,501 ... objective lens 202,302,402,502 ... lens holder

203,303,403,503 ... York

204,304-1,304-2,404-1,404-2,504-1,504-2 ... Magnet

205,305,405,505 ... Tracking Coil 206,306,406,506 ... Focusing Coil

Optical pickup actuator of the present invention for achieving the above object,

The lens holder is equipped with a lens holder with coils for tracking and focusing while attaching an objective lens, a plurality of wire springs for supporting the lens holder, and a magnet forming a magnetic circuit with the coils. Being yoke; And a frame for supporting the plurality of wire springs, the optical pickup actuator comprising:

The tracking magnetic circuit and the focusing magnetic circuit are separately configured.

Preferably, the yoke is characterized in that the protruding in the vertical direction and the lens holder portion.

More preferably, the tracking coil and the magnet for tracking are arranged on the protruding yoke.

4 is a view schematically showing the structure of the optical pickup actuator of the present invention.

The optical pickup actuator of the present invention includes a lens holder 402, a yoke 403, a tracking magnet 404-1, a focusing magnet 404-2, and a tracking coil 405 on which the objective lens 401 is seated. And a focusing coil 406.

The yoke 403 has a protruding structure for disposing the tracking coil 405 in both directions of the lens holder 402 in a direction perpendicular to the direction of the objective lens 401. In addition, the tracking magnet 404-1 is positioned in the protruding structure of the yoke 403.

5A to 5B are diagrams for explaining an operation principle of focusing and tracking in the optical pickup actuator of the present invention.

Hereinafter, the operation of the optical pickup actuator of the present invention will be described with reference to FIGS. 5A to 5B.

The objective lens 501 is mounted on the protruding lens holder 502 and focuses and tracks by Lorentz force generated by the magnets 504-1 and 504-2 and the coils 505 and 506 which are positioned according to the magnetic circuit configuration. Will be

In the magnet, two magnets 504-2 magnetized in the direction of the objective lens 501 are positioned in parallel with the focusing coil 506 interposed therebetween, and two magnets magnetized in the focusing direction (Z direction). 504-1) are located on the underside of both protrusions of the yoke 503.

First, the tracking driving will be described. The tracking coil 505 may be wound in the ± X direction to obtain the tracking driving force in the ± Y direction using the magnetic flux in the Z direction and the lower surface of the tracking coil 505.

On the other hand, the focusing coil 506 obtains the focusing driving force in the ± Z direction by placing two parallel magnets 504-2 in between.

According to the optical pickup actuator of the present invention as described above, the problem of mutual interference between focusing driving and tracking driving that may be caused by the configuration of the lens protrusion thin actuator, the center of gravity of the lens holder and the force center generated in the tracking coil Problems such as tilt angle caused by mismatch and increased secondary resonance amount can be solved through new magnetic circuit.

Claims (4)

The lens holder is equipped with a lens holder with coils for tracking and focusing while attaching an objective lens, a plurality of wire springs for supporting the lens holder, and a magnet forming a magnetic circuit with the coils. Being yoke; And a frame for supporting the plurality of wire springs, the optical pickup actuator comprising: And the tracking magnetic circuit and the focusing magnetic circuit are configured separately from each other. The method of claim 1, And the yoke is configured to protrude in both directions perpendicular to the lens holder portion. The method of claim 2, And the tracking coil is disposed on the protruding yoke to separate the focusing coil from the focusing coil. The method of claim 2, Optical pickup actuators, characterized in that for positioning the magnet for tracking the protruding yoke.