KR20030050752A - Optical pick-up actuator - Google Patents

Abstract

PURPOSE: An optical pickup actuator is provided to reduce the size and the thickness of an actuator and stabilize a tilting by arranging a radial coil for tilting inside the actuator. CONSTITUTION: A lens holder(21) secures an objective lens(23) condensing a light source for irradiating the light source to an optical disk. A focusing coil(25) is arranged at an inner surface of the lens holder. A tracking coil(27) is arranged on the focusing coil. A radial coil(28) is arranged at an edge of an open area of the lens holder. A main yoke(31) and a magnet(32) are arranged at the center and the open area from a lower part of the lens holder for forming a magnetic field. A cover yoke(30) is arranged inside the radial coil and the focusing coil from an upper part of the lens holder, so that the magnetic field is strengthened to accurately perform tracking, focusing, and tilting.

Description

Optical Pickup Actuator {OPTICAL PICK-UP ACTUATOR}

The present invention relates to an optical pick-up actuator, and more specifically, a thinning actuator has a radial coil disposed inside the lens holder, and a cover yoke in the upper portion of the lens holder is used to free the tilting operation. It relates to a pickup actuator.

In general, an objective lens driving device which drives an optical spot to follow the center of a signal track of an optical disk with respect to the surface vibration and eccentricity of the optical disk caused by the rotation of the optical disk with the light beam collected from the objective lens is driven together with the optical pickup do.

The objective lens driving apparatus is called an optical pickup actuator and drives the objective lens to perform focusing and tracking operations. The focusing operation is to drive the objective lens up and down so that the light spot from the objective lens falls within the depth of focus in the signal track of the optical disc. It is to drive left and right to follow.

A general optical pickup actuator uses a coil and a magnet to move the objective lens up and down (focusing servo) and left and right (tracking servo) by the current flowing through the coil and the electromagnetic force between the magnets. Currently, the optical pickup has high sensitivity and high driving characteristics. , Is in the trend of thinning.

In this optical pickup actuator, in order to reduce the height of the optical pickup, the optical path from the laser diode light source must be formed on the same plane as the optical pickup actuator. In this case, since there are magnetic circuits such as a magnet, a focusing coil, and a tracking coil for focusing and tracking operations on the optical path from the laser diode, there is a problem that the actuator is thinned. In addition to the thinning of the optical pickup actuator, the situation is required to increase the stability and high accuracy due to the high speed.

1 is a plan view showing the structure of a lens projection actuator according to the prior art.

As shown in Fig. 1, an objective lens 3 for condensing a light beam from a laser diode light source on an information recording surface of an optical disc, a lens holder 1 on which the objective lens 3 is mounted, and the lens holder (1) a focusing coil (5) bonded and disposed on the inside, a tracking coil (7) arranged on one side of the focusing coil (5) and having coils perpendicular to each other, and the focusing coil ( 5) and the main coil 11 and the magnet 12 are disposed to face each other outside the focusing coil 5 while being spaced apart from the tracking coil 7 by a predetermined distance.

The conventional lens protrusion type actuator having the configuration as described above operates as follows.

A laser light source incident through an optical system used for optical pickup to read data of the optical disk is focused on the objective lens 3, and then irradiated while following the data track recorded on the optical disk. At this time, the position of the objective lens 3 must be continuously adjusted to accurately follow the track of the optical disk rotating at high speed.

The focusing coil 5 and the tracking coil 7 disposed on the inner surface of the lens holder 1 are used for this operation, and the focusing coil 5 wound in a rectangular shape on the inner surface of the lens holder 1. And the tracking coil 7 arranged on the focusing coil 5 are wound so that the coil directions are perpendicular to each other.

Therefore, in the focusing operation of the objective lens 3, a current is applied to the focusing coil 5 by a magnetic field by the main trunk 11 and the magnet 12 disposed inside and outside the focusing coil. Similarly, in the tracking operation of the objective lens 3, a current is applied to the tracking coil 7 by a magnetic field by the main pole 11 and the magnet 12 disposed inside and outside the focusing coil 5.

In addition, when bending occurs due to mechanical defects of the optical disc, a tilting operation is required because the accurate data track cannot be followed only by focusing and tracking operations. To this end, a radial coil must be disposed on both sides of the lens holder 1 to realize a tilting drive. The wire spring 15 supporting the center of the lens holder 1 may not only support the focusing, tracking and tilting operation described above but also applies a control signal.

However, the protruding lens actuator having the above structure is not suitable for the recent trend in slimming and miniaturizing actuators. In particular, since the radial coil is disposed outside the lens holder, the tilting operation is unstable and difficulty in miniaturization occurs. .

The present invention has been made to solve the above problems of the prior art, the radial coil is disposed inside the lens holder, the cover yoke can be used to increase the amount of force generated during focusing and tracking, and radial operation It is an object of the present invention to provide an optical pickup actuator that enables an ultra-slim and miniaturized actuator.

1 is a plan view showing the structure of a lens projection actuator according to the prior art.

Figure 2 is a plan view showing the structure of a lens projection actuator according to the present invention.

Figure 3 is a side view showing the structure of a lens projection actuator according to the present invention.

4A is a plan view of a cover yoke used in the present invention.

4B is a side view of a cover yoke used in the present invention.

5 is a view for explaining a radial tilting operation of the lens projection actuator according to the present invention.

* Description of the symbols for the main parts of the drawings *

21: lens holder 23: objective lens

25: focusing coil 27: tracking coil

28: radial coil 30: cover yoke

31: Main size 32: Magnet

35: wire spring

In order to achieve the above object, the optical pickup actuator according to the present invention,

A lens holder on which an objective lens for condensing a light source and irradiating the optical disk is mounted;

A focusing coil disposed on an inner surface of the lens holder;

A tracking coil disposed on the focusing coil;

A radial coil disposed at an edge of an open area of the inner surface of the lens holder;

A main hook and a magnet disposed in a central portion and an open area from a lower portion of the lens holder to form a magnetic field; And

And a cover yoke disposed inside the radial coil and the focusing coil from an upper portion of the lens holder.

Here, the cover yoke is a structure that can cover the upper portion of the lens holder and is inserted into the radial coil and the focusing coil to form a magnetic field of the tilt operation, focusing operation and tracking operation, the center of the lens holder The main yoke and the magnet disposed on the opposite side to the cover yoke disposed inside the focusing coil, and the main yoke and the magnet disposed on the outer side of the lens holder face the cover yoke disposed inside the radial coil. It is characterized by.

According to the present invention, the radial coil for the tilting operation is disposed inside the lens holder, and the magnet used for the focusing operation and the tracking operation is used as the magnet for the radial, which causes the magnetic field of tracking and focusing to be weakened. In addition to compensating for this, the use of the cover yoke in the radial magnetic field makes it possible to manufacture ultra slim and miniaturized actuators.

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

2 is a plan view showing the structure of a lens protrusion actuator according to the present invention.

As shown in Fig. 2, the objective lens 23 for condensing the light beam from the laser diode light source on the information recording surface of the optical disc, the lens holder 21 on which the objective lens 23 is seated, and the lens holder A focusing coil 25 bonded and disposed in the interior of the 21, a tracking coil 27 disposed on one side of the focusing coil 25 and wound in a direction perpendicular to each other, and the lens holder; (21) A main hook 31 and a magnet 32 disposed outside the inner center portion and the lens holder 21 opening area, respectively, and the focusing coil 25 in the other direction and inside the lens holder 21. The cover yoke 30 covers the lens holder 21 so that the yoke is disposed in the radial coil 28 disposed in the edge region and in the focusing coil 25 and in the radial coil 28, respectively. Consists of.

The conventional lens protrusion type actuator having the configuration as described above operates as follows.

A laser light source incident through an optical system used for optical pickup to read data of the optical disc is focused on the objective lens 23 and then irradiated onto a data track recorded on the optical disc. At this time, the position of the objective lens 23 should be continuously adjusted to accurately follow the track of the optical disk rotating at high speed.

The focusing coil 25 and the tracking coil 27 disposed on the inner surface of the lens holder 21 are used for this operation. The focusing coil wound around the inner surface of the lens holder 21 in a rectangular shape ( 25 and the tracking coils 27 disposed on the focusing coil 25 are wound so that the coil directions are perpendicular to each other.

Accordingly, in the focusing operation of the objective lens 23, the main coil 31 and the magnet 32 positioned outside the focusing coil 25, that is, in the center of the lens holder 21, and inside the focusing coil 25. It operates by the current applied to the focusing coil 25 by using a magnetic field formed by the cover yoke 30 disposed in the. Similarly, the same magnetic field is used in the tracking operation and is operated by applying a current to the tracking coil 27.

In addition, when bending occurs due to mechanical defects of the optical disc, a tilting operation is required because the accurate data track cannot be followed only by focusing and tracking operations. The cover yoke 30 disposed inside the radial coil 28 disposed at the inner edge of the lens holder 21 and the main yoke 31 and the magnet 32 disposed outside the lens holder 21. By the magnetic field is formed, a current is applied to the radial coil 28 to perform a tilting operation.

In addition, the wire spring 35 not only supports the lens holder 21 during the focusing, tracking, and tilting operation described above, but also applies a respective operation control signal.

Figure 3 is a side view showing the structure of a lens projection actuator according to the present invention.

As shown in FIG. 3, the wire spring for applying a signal to the tracking coil, focusing coil and radial coil (not shown) while supporting the lens holder 21 on the side of the protruding lens holder 21. The fields 41, 42, 43 are arranged.

The main hook 31 is U-shaped from the lower portion of the lens holder 21 so that the middle portion of the lens holder 21 and the objective lens 21 is disposed outside the other direction, and the magnet 32 ) Is disposed outside the main yoke 31 disposed in the middle of the lens holder 21 and inside the yoke 31 disposed outside the lens holder 21. The cover yoke 30 covering the upper portion of the lens holder 21 is disposed in the focusing coil and the radial coil, respectively.

The magnetic field for the focusing operation and the tracking operation of the structured actuator is formed by the main yoke 31 and the magnet 32 disposed in the center and the cover yoke 30 disposed inside the focusing coil, and tilting. The magnetic field for operation is formed by the main yoke 31 and the magnet 32 disposed outside the lens holder 21 and the cover yoke 30 disposed inside the radial coil.

Unlike the conventional actuators, the directions of the magnets are arranged side by side to form a magnetic field used for each operation. Therefore, a magnet for a separate tilting operation is not required and a radial coil is not disposed outside the lens holder 21. The tilting operation of the actuator is natural, and it is possible to manufacture the actuator by making it ultra slim and miniaturized.

4A is a plan view of a cover yoke used in the present invention, wherein the cover yoke covering the lens holder is folded in a portion disposed inside the focusing coil and a portion disposed inside the two radial coils.

4B is a side view of the cover yoke used in the present invention, wherein one side of the cover yoke is folded to be disposed inside the focusing coil to form a magnetic field used in a focusing operation and a tracking operation. The folded portion at a portion slightly separated from the center of the cover yoke is disposed inside the two radial coils to form a magnetic field used in the tilting operation.

5 is a view for explaining the radial tilting operation of the lens projection actuator according to the present invention.

As shown in Figure 5, the tilting operation of the ultra-thin optical pickup actuator proposed in the present invention is + power is applied to the upper radial wire spring 35, when-power is applied to the lower radial wire spring 35, A In the dashed line, the lens holder 21 is tilted by the upward force by the left-hand law of Fleming and the dashed line B by the downward force. In addition, when − power is applied to the upper radial wire spring 35, and + power is applied to the lower radial wire spring 35, the dotted line portion A receives downward force and the dotted line portion B receives upward force.

In addition, the cover yoke is disposed above the lens holder in consideration of the possibility that the strength of the magnetic field may be weakened due to the thinning of the mechanical part. It became.

As described in detail above, the present invention has an effect of disposing a radial coil inside a lens holder in a slim optical pickup actuator and manufacturing an ultra slim and miniaturized optical pickup actuator.

In addition, by using a cover yoke disposed above the lens holder, a stronger magnetic field can be formed during tracking, focusing, and tilting operations.

The present invention is not limited to the above-described embodiments, and various changes can be made by those skilled in the art without departing from the gist of the present invention as claimed in the following claims.

Claims (3)

A lens holder on which an objective lens for condensing a light source and irradiating the optical disk is mounted; A focusing coil disposed on an inner surface of the lens holder; A tracking coil disposed on the focusing coil; A radial coil disposed at an edge of an open area of the inner surface of the lens holder; A main hook and a magnet disposed in a central portion and an open area from a lower portion of the lens holder to form a magnetic field; And a cover yoke disposed inside the radial coil and the focusing coil from an upper portion of the lens holder. The method of claim 1, The cover yoke is a structure that can cover the upper portion of the lens holder and is inserted into the radial coil and the focusing coil inside to form a magnetic field of the tilt operation, focusing operation and tracking operation, characterized in that . The method of claim 1, The main yoke and the magnet disposed at the center of the lens holder face the cover yoke disposed inside the focusing coil, and the main yoke and the magnet disposed outside the lens holder face the cover yoke disposed inside the radial coil. An optical pickup actuator, characterized in that arranged.