KR100520440B1 - Ultra slim optical-lens pick-up actuator - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an optical pickup device used in an optical storage information device, and more particularly, to a structure of an ultra-thin optical pickup actuator that enables playback and recording of various optical disks such as HD, DVD, or CD. A liquid crystal plate is installed under the optical lens, and the liquid crystal plate is supplied with power by a wire suspension for supplying a liquid crystal plate, and at least two focusing coil fixing guides are symmetrically around the optical lens. A lens holder supported by the suspension and having at least two track fixing guides for the track symmetrically around the optical lens and supported by the wire suspension for the track; And a yoke provided with a focusing magnet constituting the focusing coil fixing guide part and a focusing circuit, and a tracking magnet constituting the track coil fixing guide part and a tracking circuit.

Description

Ultra-thin optical pick-up actuator {Ultra slim optical-lens pick-up actuator}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical pickup device used in an optical storage information device, and more particularly, to a structure of an ultra-thin optical pickup actuator that enables playback and recording of various optical disks such as HD, DVD, or CD.

Recording capacity of about 23GB or more is required to record information of DVD format which can record 4.7GB on one side with track pitch of 0.74㎛ among current high capacity optical information storage discs as HD (High Definition) movie information. Lose.

For such high-capacity HD recording, a blue-violet light source with a wavelength shorter than that of a red light source has already been developed and applied (BD: Blu-ray Disc).

The conventional technology for the above compatible optical pickup is very large to apply to the ultra-thin size of the optical pickup for VDR or desktop.

SUMMARY OF THE INVENTION An object of the present invention devised to solve the above problems is to provide an ultra-thin optical pickup actuator in which a focusing circuit and a tracking circuit are symmetrical around an optical lens to be used in an optical storage information device.

According to the present invention for achieving the above object, an optical lens is inserted into a central portion, a liquid crystal plate is installed below the optical lens, and the liquid crystal plate is supplied with power by a liquid crystal plate power supply wire suspension, and at least two The focus coil fixing guide part is symmetrically centered on the optical lens and is supported on the focus wire suspension, and at least two track coil fixing guide parts are supported on the track wire suspension symmetrically about the optical lens. A lens holder formed; And a yoke provided with a focusing magnet constituting the focusing coil fixing guide part and a focusing circuit, and a tracking magnet constituting the track coil fixing guide part and a tracking circuit.

The focusing magnet is characterized in that the magnetic pole is a one-pole magnet placed vertically, the central axis of the focusing coil fixing guide portion is located below the lower end of the focusing magnet.

In addition, the tracking magnet is a two-pole magnet in which the magnetic pole is placed horizontally, the horizontal length of the track coil fixing guide portion is smaller than the horizontal length of the focusing magnet, and the horizontal movable range of the track coil fixing guide portion is horizontal of the focusing magnet. It is characterized by being within the length.

In addition, a reflection plate is provided below the liquid crystal plate to allow the optical path of the laser beam to enter the optical lens.

Hereinafter, the present invention will be described in detail.

The use of additional actuators to compensate for spherical aberration (SA), which is caused by disc cover lay deviation in ultra-thin, is subject to mechanical constraints.

Accordingly, in the present invention, spherical aberration is basically compensated for using a liquid crystal plate.

Accordingly, the present invention is configured to enable a high-sensitivity actuator to cope with the mechanical problems and high speed of the actuator in configuring an ultra-thin optical pickup composed of an optical lens and a liquid crystal plate.

Looking at the features of the present invention.

An ultra-thin actuator of 4 mm or less was configured to enable a thin optical pickup.

In order to improve the sensitivity, instead of asymmetrical actuators, the actuators are symmetrical around the lens, so that they can be applied to high-speed drives.

The actuator of the present invention is formed of a lens holder including an optical lens, a coil fixing guide part for a track, a coil fixing guide part for a track, a liquid crystal plate, and a yoke including a focusing magnet and a tracking magnet.

In the lens holder, an optical lens is inserted at the center of the area so as to be the center point of the balance of the actuator.

A liquid crystal plate is installed below the optical lens, and the liquid crystal plate is supplied with power by a wire suspension for power supply of the liquid crystal plate.

In addition, the focusing circuit and the tracking circuit for moving the lens holder vertically or horizontally are symmetrically configured around the optical lens so that the lens holder does not always lose balance.

The focusing circuit includes a focusing coil fixing guide portion and a focusing magnet, and the focusing coil fixing guide portion is formed on the lens holder and the focusing magnet is formed on the yoke.

At least two or more focusing coil fixing guides are supported on the focus wire suspension symmetrically about the optical lens.

The focusing magnet is formed in the yoke, and the focusing coil fixing guide portion is positioned in the magnetic field of the focusing magnet.

In particular, since the focusing magnet is for focusing the optical lens by moving the lens holder up and down, it is required that the magnetic pole is a one-pole magnet placed vertically.

In addition, it is preferable that the central axis of the focusing coil fixing guide portion be positioned below the lower end portion of the focusing magnet to prevent the loss of the driving magnetic force.

Next, the tracking circuit is composed of a track coil fixing guide portion and a tracking magnet, and the track coil fixing guide portion is formed in the lens holder and the tracking magnet is formed in the yoke.

At least two track fixing guide parts for the track are formed to be supported by the track wire suspension symmetrically about the optical lens.

The tracking magnet is formed in the yoke, and the coil fixing guide portion for the track is located in the magnetic field of the tracking magnet.

In particular, since the tracking magnet is for conveying the optical lens by moving the lens holder from side to side, it is required that the magnetic pole is a two-pole magnet placed horizontally.

In addition, the horizontal movable range of the coil fixing guide portion for the track is preferably within the horizontal length of the focusing magnet to prevent the loss of the driving magnetic force.

Since all circuit configurations are configured to be symmetrical to the center of the optical lens as described above, the configuration can be performed without adding the secondary resonance and the mass to balance the mass balance, thereby improving the driving sensitivity of the actuator due to the reduction of the overall mass. .

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

FIG. 1 is a perspective view of an embodiment, and FIG. 2 is a side view of an embodiment, including a lens holder 2 including an optical lens 1, a yoke 10 formed below the lens holder, and the lens holder 2. Three wire suspensions 7, 7, 8, and 9 pass through the side.

Referring to the lens holder 2 in FIGS. 3 and 4, a groove part for mounting the optical lens 1 is formed at the center thereof, and four coil fixing guide parts 5 for the track are formed around the optical lens. It is formed in two rows in parallel.

In addition, two focusing coil fixing guides 6 are formed symmetrically one by one above and below the optical lens 1.

Six wire holes 24 are formed on each side of the lens holder 2 so that the focus wire suspension 7, the liquid crystal plate power supply wire suspension 8, and the track wire suspension 9 pass through the lens holder 2. do.

In addition, a fixing groove 23 may be formed in the lower portion of the center of the lens holder 2 to fix the liquid crystal plate 25 and the reflecting plate 60.

5 shows a focusing circuit and a tracking circuit.

The focusing coil fixing guide 6 of the lens holder 2 is positioned to be affected by the magnetic field of the focusing magnet 3 formed in the yoke 10.

The focusing magnet 3 is a one-pole magnet, and the length of d is longer than c, thereby reducing the loss of driving magnetic force.

The track fixing guide portion 5 for the lens holder 2 is positioned to be affected by the magnetic field of the tracking magnet 4 formed in the yoke 10.

The tracking magnet 4 is a two-pole magnet and configures a and b within the tracking movable range to reduce the loss of driving magnetic force.

FIG. 6 is a plan view of FIG. 1, and FIG. 7 is a side view of FIG.

In addition, it can be seen that the left and right up and down symmetry around the optical lens (1) is configured.

8 shows the layout of the optical path of the ultra-thin actuator presented in the embodiment of the present invention.

That is, in the optical path 50, laser light emitted from the light source 30 passes through the collimator 40 and is reflected by the reflector 60 to be incident on the optical lens 1.

Light incident on the optical lens 1 is irradiated onto the disk 70.

As described above, the present invention constitutes an ultra-thin optical pickup configuration capable of recording and reproducing a plurality of optical disks having different recording densities, such as next-generation HD-grade disks, DVDs, and CDs, in notebooks and next-generation portable optical information storage devices.

In addition, the ultra-thin lens center type (lens symmetrical type) is configured to cope with high-speed drive, and high-speed response is possible.

1 is a perspective view of an embodiment of the present invention

2 is a side view of an embodiment of the present invention

3 is a perspective view of a lens holder;

4 is a side cross-sectional view of the lens holder;

5 is a configuration diagram of a focusing circuit and a tracking circuit

6 is a plan view of FIG.

7 is a side cross-sectional view of FIG.

8 is an embodiment of the present invention installed

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

1: optical lens 2: lens holder

3: focusing magnet 4: tracking magnet

5: Coil fixing guide part for track 6: Coil fixing guide part for focus

7: Focus wire suspension 8: Wire suspension for liquid crystal panel power supply

9: wire suspension for the track 10: yoke

23: fixing groove 24: wire hole

25: liquid crystal panel 30: light source

40: collimator 50: light path

60: reflector 70: disk

Claims (6)

An optical lens is inserted into a central portion, a liquid crystal plate is installed below the optical lens, and the liquid crystal plate is supplied with power by a wire suspension for supplying a liquid crystal plate, and at least two or more focusing coil fixing guides are provided to the optical lens. A lens holder symmetrically centered and supported by the focusing wire suspension, and at least two track coil fixing guides symmetrically around the optical lens and supported by the track suspension; And A focusing magnet constituting the focusing coil fixing guide part and a focusing circuit is installed, and a yoke provided with a tracking magnet constituting the tracking coil fixing guide part and a tracking circuit, The yoke is formed under the lens holder, The focusing coil fixing guide portion of the lens holder is positioned to be affected by the magnetic field of the focusing magnet formed in the yoke, And an optical pickup actuator for fixing the track coil of the lens holder to be affected by the magnetic field of the tracking magnet formed in the yoke. The optical pickup actuator of claim 1, wherein the focusing magnet is a one-pole magnet in which the magnetic pole is placed vertically. The optical pickup actuator according to claim 2, wherein the central axis of the focusing coil fixing guide portion is located below the lower end of the focusing magnet. The optical pickup actuator of claim 1, wherein the tracking magnet is a two-pole magnet with a magnetic pole placed horizontally. The optical pickup actuator according to claim 4, wherein the horizontal length of the coil fixing guide portion for the track is smaller than the horizontal length of the focusing magnet, and the horizontal moving range of the coil fixing guide portion for the track is within the horizontal length of the focusing magnet. The optical pickup actuator of claim 1, wherein a reflecting plate is provided below the liquid crystal plate to inject an optical path of the laser beam into the optical lens.