KR20000044142A - Device for driving object lens of optical pickup - Google Patents

Abstract

PURPOSE: A driving device of object lens for an optical pickup is provided to stably compensate an error by reducing a leakage magnetic field. CONSTITUTION: In selectively feeding a current into a coil pattern of a plate for tracking(600) or a coil for focusing(700), a blade(300) focuses and tracks by an electromagnetic force generated between a first and a second magnets(410,510,420,520) and a left and a right yokes(400,500). Because the plate for tracking(600) forms a plate shape of thin film type, an interval between a coil pattern for tracking and the first and the second magnets(410,510,420,520) is reduced. Therefore, the stable tracking operation is performed by preventing a leakage magnetic field.

Description

Objective lens driving device for optical pickup

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to optical pickups, and more particularly, to an objective lens driving apparatus for spotting a beam on a disc.

In general, pickup is employed in a disc player to perform a function of scanning and reproducing a beam scanned from a laser diode to a disc.

In this pickup, in particular, the objective lens is moved in the focusing and tracking directions through a separate driving device in order to achieve an accurate spot while moving in the up, down and forward and backward directions according to the distance between the disk and the pickup.

1 and 2 show various embodiments of an objective lens driving device for driving such an objective lens.

First shown in Figure 1 shows a symmetrical drive device.

It is provided with a holder (1), through which the blade (3) is mounted to the holder (1) so as to be movable in the focusing and tracking directions.

Inserting grooves 1a are formed on both side surfaces of the blade 3, and the insertion grooves 1a are inserted into the magnet 4 to be fixed on the holder 1.

The left and right yokes 5 and 6 are fixed to the holder 1 spaced apart from both sides of the blade 3 by a predetermined distance, and the magnets 7 are provided on the corresponding outer surfaces of the left and right yokes 5 and 6, respectively. It is installed fixed.

On the other hand, the tracking coil 8 is attached to both sides of the blade 3 between the left and right yokes 5 and 6 and the magnet 4, and the focusing coil 9 is attached to the outer surface of the blade 3. .

Accordingly, when a current is selectively applied to the tracking coil 8 and the focusing coil 9, the holder 1 is connected to the holder 1 by an electromagnetic force generated between the left and right yokes 5 and 6 and the magnets 4 and 7. The blade 3 supported by the supporting member 2 flows in the tracking direction and the focusing direction to perform the tracking and focusing operations.

2 shows an asymmetric drive system.

It is provided with a holder 10, the blade 30 is installed in the holder 10 so as to be movable in the focusing and tracking direction through the support member (2).

The objective lens 31 is positioned at one side of the blade 30, and the first and second insertion grooves 32 and 33 are formed at predetermined intervals on the other side.

The yoke 40 in which the magnet 41 is fixed to one side is inserted into the first insertion groove 32 of the blade 30 to be fixed to the holder 10.

As the second insertion groove 33 of the blade 30 is inserted into the yoke 50, which is also fixed to the magnet 51 is fixed to the holder (10).

The tracking coil 60 is attached to one side of the blade 30 between the yokes 40 and 50, and the focusing coil 70 is attached to one surface of the blade 30.

Therefore, by selectively applying current on the tracking coil 60 and the focusing coil 70, the support member 20 is moved by the electromagnetic force generated between the magnets 41 and 51 and the yokes 40 and 50. The blade 30 supported by the holder 10 is moved to perform tracking and focusing operations.

However, according to the conventional objective lens driving devices, since the distance between the tracking coil and the magnet is very far apart, when a current is applied to the tracking coil, a large amount of leakage magnetic field is generated, resulting in a stable tracking operation. There is a problem inherent in that it is impossible to compensate tracking errors through the objective lens.

In addition, since the tracking coil must be separately provided, a number of problems are inherent, such as an increase in the unit cost due to an increase in the number of parts and a decrease in workability due to the attachment work.

The present invention has been made to solve such problems in the related art, and it is possible to reduce the unit cost and improve workability due to the reduction of the number of parts, and in particular, to reduce the magnetic field of leakage, thereby making it possible to perform stable error compensation. The object of the present invention is to provide an objective lens driving device.

1 and 2 are a plan view showing various embodiments of a conventional objective lens driving device,

3 is a plan view showing an objective lens driving apparatus of the optical pickup according to the present invention;

4 is a side view of the main portion of the excerpt of FIG.

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

100 holder 200 support member

300: blade 310: objective lens

320,330: Insertion groove 400,500: Left and right yoke

410,510,420,520: first and second magnet

600: tracking plate 610: coil pattern for tracking

611,612: first and second pattern 700: focusing coil

In order to achieve the above object, the objective lens driving apparatus of the optical pickup according to the present invention, the holder; A blade which is installed on the holder so as to be movable in a focusing and tracking direction through a support member, an objective lens is provided on an upper surface, and an insertion groove is formed on both sides; Left and right yokes installed side by side at positions spaced apart from both sides of the blade by a predetermined distance, and provided with a first magnet on each outer surface thereof; A second magnet inserted through the insertion groove of the blade corresponding to the left and right yokes and supported on the holder; A tracking plate provided on both sides of the blade and having a coil pattern formed therein for flowing an objective lens in a tracking direction; And a winding coil wound along the outer surface of the blade and configured to flow the blade in a focusing direction.

One preferable feature of the present invention is that the tracking plate is integrally inserted into the outer surface of the blade.

Another desirable feature of the present invention is that the coil pattern of the tracking plate is partitioned into first and second patterns having opposite directions.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an exemplary embodiment of an objective lens driving apparatus for an optical pickup according to the present invention will be described in detail with reference to the accompanying drawings.

3 is a plan view showing the objective lens driving apparatus of the optical pickup according to the present invention, Figure 4 is a side view taken from the main portion of FIG.

As shown therein, the objective lens driving device of the optical pickup according to the present invention includes a holder 100.

In the holder 100, the blade 300 is installed to be movable in the tracking and focusing direction through the support member 200.

An objective lens 310 is positioned on one side of the blade 300, and insertion grooves 320 and 330 are penetrated through both sides of the objective lens 310.

The left and right yokes 400 and 500 are fixedly installed side by side on the holder 100 spaced apart from both sides of the blade 300 by a predetermined distance, and the first magnets 410 and 510 are provided on the corresponding outer surfaces of the left and right yokes 400 and 500. It is fixedly installed.

The second magnets 420 and 520 are inserted into and inserted into the insertion grooves 320 and 330 of the blade 300 facing the left and right yokes 400 and 500, respectively, and are fixed to the holder 100.

On the other hand, on both outer surfaces of the blade 300, the tracking plate 600 having a coil pattern 610 for flowing the objective lens 310, that is, the blade 300 in the tracking direction is fixedly installed.

The tracking coil pattern 610 is partitioned into first and second patterns 611 and 612 having opposite directions as shown in FIG. 4.

The tracking plate 600 is integrally molded to both outer surfaces of the blade 300 by insert injection molding in terms of cost reduction.

Along the outer surface of the blade 300, a focusing coil 700 for winding the blade 300 in the focusing direction is wound.

According to the present invention having such a configuration, when a current is selectively applied to the coil pattern 610 or the focusing coil 700 of the tracking plate 600, the first and second magnets 410, 510, 420, 520 and the left and right yokes The blade 300 supported by the holder 100 by the support member 200 by the electromagnetic force generated between (400, 500) is to perform the focusing and tracking operations.

In this case, since the tracking plate 600 has a thin plate shape, the distance between the track key coil pattern 610 and the first and second magnets 410, 510, 420, and 520 can be narrowed.

Therefore, the leakage magnetic field can be suppressed and a more stable tracking operation can be performed.

As described above, according to the objective lens driving apparatus of the optical pickup according to the present invention, by forming the coil pattern on the plate integrally formed on the blade outer surface through the insert without attaching the tracking coil to the blade outer surface as in the prior art Since the number of parts can be reduced, there is an advantage of reduced cost and workability.

In addition, since the distance between the tracking coil pattern and the magnet can be narrowed, there is an advantage that stable error compensation can be performed by preventing a leakage magnetic field.

Claims (3)

With a holder; A blade which is installed on the holder so as to be movable in a focusing and tracking direction through a support member, an objective lens is provided on an upper surface, and an insertion groove is formed on both sides; Left and right yokes installed side by side at positions spaced apart from both sides of the blade by a predetermined distance, and provided with a first magnet on each outer surface thereof; A second magnet inserted through the insertion groove of the blade corresponding to the left and right yokes and supported on the holder; A tracking plate provided on both sides of the blade and having a coil pattern formed therein for flowing an objective lens in a tracking direction; And a focusing coil wound along an outer surface of the blade and configured to move the blade in a focusing direction. The objective lens driving apparatus of claim 1, wherein the tracking plate is integrally inserted into an outer surface of the blade. The objective lens driving apparatus of claim 1, wherein the coil patterns of the tracking plate are partitioned into first and second patterns having opposite directions.