KR100206776B1 - Actuator for optic pickup - Google Patents

Abstract

The present invention relates to an actuator for optical pickup, and a conventional optical pickup actuator having a plurality of objective lenses has a problem in that its configuration is complicated and difficult to design. The present invention as described above is mounted on the shaft 11 provided on the base (10) rotatably and rotatably provided with a lens holder (20) each having an objective lens (21, 22) symmetrically to the shaft (11) And a driving magnet 23 installed in the lens holder 20 and provided on the base 10 and on the base 10 for tracking by interaction with the driving magnet 23. And a lens conversion coil part for rotating the lens holder 20 to switch the lenses 21 and 22 by interlocking with the operation coil parts 12 and 12 'which perform focusing and the driving magnet 23. It comprises 16. According to the present invention as described above, the design of the actuator for the optical pickup becomes easy and the configuration becomes simple, thereby improving the workability of the manufacturing operation.

Description

Actuator for Optical Pickup

1 is a schematic perspective view showing a schematic configuration for explaining the operation of an objective lens of an optical pickup apparatus having a plurality of objective lenses according to the prior art.

2 is a perspective view showing the configuration of an embodiment of an optical pickup actuator according to the present invention.

3 is a view showing the configuration of an embodiment of an optical pickup actuator according to the present invention,

3A is a perspective view of a movable part.

3b is a perspective view of the fixing part.

4 is an exploded perspective view showing the configuration of an embodiment of an optical pickup actuator according to the present invention.

5a, b, c, and d are operating state diagrams sequentially showing automatic lens conversion of the optical pickup actuator according to the present invention.

6A and 6B show other embodiments of an optical pickup actuator according to the present invention.

7 is a view for explaining the main configuration of the optical pickup apparatus according to the present invention,

Figure 7a is a winding diagram of the tracking coil.

7b is a winding diagram of the focusing coil.

Figure 7c is a winding diagram of the lens conversion coil.

7d is a perspective view of the driving magnet.

7E is a perspective view showing a modification of the driving magnet.

7F is a perspective view showing a modification of the lens conversion coil portion.

* Explanation of symbols for main parts of the drawings

10: base 11: axis

12, 12 ': Coil part 13: Operation yoke

13a: upper yoke 13b: lower yoke

14: tracking coil 15: focusing coil

20: lens holder 21, 22: objective lens

23: driving magnet

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an actuator for optical pickup, and in particular, an objective lens for a high density optical disc and a low density optical disc is provided to be symmetrical to the axis of the lens holder, and each objective lens is positioned on the optical axis according to the type of optical disc loaded on the deck. An optical pickup actuator for reading or recording information on an optical disc.

One conventional configuration for reproducing a high density optical disc and a low density optical disc in one optical pickup has been to finely adjust the objective lens supported by four wires with an actuator to reproduce the high density optical disc and the low density optical disc. According to the present invention, the objective lens cannot be moved beyond the plastic deformation limit of the wire. As shown in FIG. 1, the above limitations of the above-described method are provided on the lens holder 2, provided with objective lenses 3 and 4 used for reading of the high density optical disc and the low density optical disc, respectively. 2) is rotated about the axis 1 'to position the objective lens 3, 4 on the optical path.

Here, Figure 1 is a schematic perspective view showing a schematic configuration for explaining the operation of the objective lens of the optical pickup device having a plurality of objective lenses according to the prior art, as shown in this, a plurality of objective lenses according to the prior art (3) The actuator of the optical pickup having the (4) is for the high density optical disk and the low density optical disk on the lens holder (2) mounted so as to be rotatable and liftable about an axis (1 ') fixed on the base (1). And objective coils 3 and 4, and at the edges of the lens holder 2, coils 5 and 5 'for high density optical discs and low density optical discs, respectively, in point symmetry with respect to the axis 1'. And a permanent magnet (8, 8 ') on the base (1) to interact with the coils (5, 5'), 6, 6 '.

The respective objective lenses 3 and 4 are arranged at the same distance about the axis 1 '.

On the lens holder 2, a separate mass body (not shown) for miniaturizing and reducing the lens holder 2 so that the center of the lens holder 2 coincides with the center of the axis 1 '. And point-symmetrical with the objective lens (3) (4) with respect to the axis (1 ').

In the drawings, reference numeral 7 denotes a magnet for focusing, and 9 denotes a magnetic iron piece.

Referring to the operation of switching the objective lens (3) (4) in the optical pickup device having a plurality of objective lenses according to the prior art having the above configuration as follows.

First, in order to reproduce a low density optical disc, the lens holder 2 is arranged so that the low density optical disc coils 6 and 6 'provided on the lens holder 2 and the permanent magnets 8 and 8' on the chassis 9 face each other. ) So that the objective lens 4 for the low density optical disc is at the center of the laser. In order to reproduce the high density optical disc, the lens holder 2 is rotated by adjusting the current flowing through the coil so that the high density optical disc coils 5 and 5 'and the permanent magnets 8 and 8' face each other. In this case, the high-density optical disc objective lens 3 is located at the center of the laser, and the high-density optical disc objective lens 3 is reproduced.

However, in the optical pickup device having a plurality of lenses according to the prior art as described above, each objective lens 3, 4 is provided adjacent to the lens holder 2, and each objective lens 3, 4 is provided. Since the coils (5, 5 ') (6, 6') for tracking and are provided with a separate focusing coil (7), there is a problem in design difficulty and reliability of operation is poor.

Each objective lens 3 and 4 is provided at one side of the lens holder 2 at intervals of about 45 ° so that the center of the lens holder 2 is the center of the shaft 1 '. Since the inertia balance does not match because it does not match the center of gravity, there is a design difficulty to correct this.

Accordingly, an object of the present invention is to solve the problems of the prior art as described above, by simplifying the configuration by winding the focusing and tracking coil to one yoke, the objective lens is installed on the upper surface of the lens holder axially symmetrical It is to provide an actuator for an optical pickup that is easy to design and assembly.

In order to achieve the object of the present invention as described above, at least one objective lens constituting the optical pickup optical system is mounted, and the lens holder is supported on the axis rotatably and lifting for the focusing and tracking of the objective lens An optical pickup actuator for driving, comprising: a driving magnet attached to an outer circumferential surface of the lens holder to generate magnetic flux, and fixedly arranged so as to intersect with the magnetic flux opposite to the driving magnet, and excited with an external electrical signal therebetween; An optical pickup actuator is provided, which comprises a focusing and tracking coil for acting on electronic thrust in the axial direction and the rotational direction, respectively, the focusing and tracking coil being wound around a common yoke member in each direction.

In addition, in order to achieve the object of the present invention as described above, the lens holder having an objective lens symmetrically to the shaft and installed rotatably on the axis provided on the base, and for driving the lens holder A driving magnet installed in the lens holder, an actuating coil portion provided on the base to perform tracking and focusing by interaction with the driving magnet, and a lens to switch the objective lens by interworking with the driving magnet. There is provided an actuator for an optical pickup, comprising a lens conversion coil portion for rotating the holder.

The driving magnets are provided at both sides of the lens holder perpendicular to the virtual line connecting the objective lens, or the driving magnets are provided at both side surfaces of the lens holder on the virtual line connecting the objective lens.

The operating coil portion includes a tracking coil and a focusing coil wound around an operating yoke installed on the base, the operating yoke is composed of an upper yoke and a lower yoke, and the upper yoke and the lower yoke are parallel to the base. Is placed.

The driving magnet is formed to protrude round so that the surface exposed to the outside of the lens holder has a predetermined radius, and the lens conversion coil is wound around the conversion yoke formed so as to have a predetermined radius on the base. It is configured.

Referring to the embodiment of the optical pickup actuator according to the present invention as described above in detail with reference to the embodiments shown in the accompanying drawings as follows.

2 is a perspective view showing the configuration of an embodiment of the optical pickup actuator according to the present invention, Figure 3 is a view showing the configuration of an embodiment of the optical pickup actuator according to the present invention, Figure 3a is a perspective view of the movable portion Figure 3b is a perspective view of the fixing portion, Figure 4 is an exploded perspective view showing the configuration of one embodiment of the optical pickup actuator according to the present invention, Figures 5a, b, c, d is an optical pickup actuator according to the present invention Is an operational state diagram sequentially showing that is operated to convert the lens.

As shown in the drawing, the optical pickup actuator according to the present invention is largely divided into a fixed part centered on the base 10 and a movable part centered on the lens holder 20.

The base 10 is provided with a shaft 11, and the lens holder 20 is rotatably installed in the shaft 11. The base 10 has an actuating coil part 12 and 12 'for enabling the lens holder 20 to rotate and lift along the shaft 11, and the lens holder 20 to be rotated by 180 °. A lens conversion coil portion 16 for changing the positions of (21) and (22) is provided.

The actuating coil parts 12 and 12 'are installed at symmetrical positions on the base 10 with the lens holder 20 interposed therebetween, and tracking the actuation yoke 13 provided on the base 10. The coil 14 and the focusing coil 15 are wound respectively. In one embodiment of the present invention, the focusing coil 15 is wound around the operating yoke 13 in the horizontal direction, and the tracking coil 14 is wound in the vertical direction, but is not necessarily limited thereto.

The operating yoke 13 is composed of an upper yoke 13a and a lower yoke 13b, and the upper yoke 13a and the lower yoke 13b are disposed in parallel with the base 10. The operation yoke 13 is divided into two parts as described above in order to ensure that the magnetic spring is surely and smoothly driven when driving the lens holder 20.

The lens conversion coil 16 is installed on the base 10, and the lens conversion coil 18 is wound around the conversion yoke 17 rounded to have a predetermined radius.

The shape of the conversion yoke 17 is not necessarily the same, and as shown in FIG. 7F, it may be formed straight into a bar shape for manufacturing convenience.

The lens holder 20 is rotatably mounted on the shaft 11 so that the objective lenses 21 and 22 for the high density optical disk and the low density optical disk are symmetric about the axis 11 on the upper surface thereof. It is provided.

On the side of the lens holder 20, a driving magnet 23 for driving the lens holder 20 by interacting with the operation coil parts 12 and 12 ′ and the lens conversion coil part 16 is provided. It is provided. The driving magnet 23 is preferably formed to protrude round as shown in FIG. 7d so that the surface exposed to the outside of the lens holder 20 has a predetermined radius, but as shown in FIG. 7e. For convenience in manufacturing, the surface exposed to the outside of the lens holder 20 may be formed in a plane.

Meanwhile, in one embodiment of the present invention, the driving magnets 23 are provided on both side surfaces of the lens holder 20 so as to be perpendicular to the imaginary line connecting the plurality of objective lenses 21 and 22. On the other hand, the side of the lens holder 20 in which the driving magnet 23 is mounted is removed by a predetermined length so that the driving magnet 23 operates more efficiently.

In addition, according to other exemplary embodiments of the present invention shown in FIGS. 6A and 6B, the positions in which the driving magnets 23 are mounted may be different, that is, the objective lenses 21 and 22 are formed. The driving magnets 23 can be mounted so as to face the positions spaced apart from the virtual line by a predetermined angle. At this time, the inner direction of the optical disc is the direction of arrow A in the figure. (See FIG. 6A)

In addition, the driving magnets 23 may be mounted so as to face each other on the same line as the imaginary line formed by the objective lenses 21 and 22. In this case, the inner circumferential direction of the optical disc may be set in the direction of the arrow B in the drawing. The device can be configured to be (Fig. 6b).

In addition, a current is momentarily applied to the tracking coil 14 without installing the lens conversion coil part 16 so that the driving magnet 23 is separated from the magnetic spring system of the working coil parts 12 and 12 '. It may be configured to rotate the lens holder 20. In the embodiments of the present invention, although the driving magnet 23 is provided in the movable part and the coils are provided in the fixed part, the driving magnet 23 is not necessarily limited thereto, and the coils 14 and 15 and 18 are driven magnet 23 in the movable part. May be configured to be positioned at the fixing portion.

Hereinafter, the effect of the optical pickup actuator according to the present invention as described above will be described in detail.

First, referring to FIG. 5, the lens conversion operation relationship according to an embodiment of the present invention is as follows. Reading or recording information recorded on the high density optical disc in a state as shown in FIG. 5A (that is, the objective lens 21 for the high density optical disc is located on the optical axis), and reading or recording information recorded on the low density optical disc For this purpose, the objective lens 22 for the low density optical disk 22 is moved to a predetermined position (e.g., opposite to the lens conversion coil section 16) and positioned on the optical axis through the processes of Figs. 5B, C, and D.

That is, in order to change the objective lens 21 positioned on the optical axis, the driving magnet 23 applies a large current to the tracking coil 14 at the position of FIG. 5A which is affected by the operating coil portions 12 and 12 '. When the lens holder 20 is rotated in the clockwise direction, the driving magnet 23 is out of the influence zone of the magnetic flux of the operation coil parts 12 and 12 ', and the lens conversion coil part is shown in FIG. 5B. (16), and after passing through the state of FIG. 5C, as shown in FIG. 5D, current is supplied to the operating coil parts 12 and 12 'so that the lens holder 20 can be rotated completely by 180 degrees. 22) on the optical axis.

When the objective lens 22 is to be converted in the opposite direction to the above, a current is applied to the operating coil parts 12 and 12 'and the lens conversion coil part 16 to rotate the lens holder 20 counterclockwise. You can apply it.

On the other hand, focusing and tracking performed by the operation of the driving magnet 23 and the operation coil parts 12 and 12 'is performed between the driving magnet 23, the upper yoke 13a, and the lower yoke 13b. When the magnetic circuit is formed and magnetic flux density is generated and current is applied to the coil by matching the focusing coil 15 and the tracking coil 14 to this, the magnetic flux and the current are correlated with the correlation between the magnetic flux and the current (Fleming's left hand law), respectively. It will work.

At this time, in order for the focusing and tracking operation to have a desired frequency characteristic, the spring forms a magnetic spring in relation to the driving magnet 23, the upper yoke 13a, and the lower yoke 13b. The magnet performs a spring operation to move to the center position of the upper yoke 13a and the lower yoke 13b having the smallest reluctance on the magnetic circuit, and the driving magnet 23 is driven by the difference in reluctance in the tracking direction. The spring operation is performed to move stably at the center position of the upper yoke 13a and the lower yoke 13b at all times. Therefore, the actuator according to the present invention constitutes a mass-spring system using a moving magnet type magnetic spring and generates force by a focusing coil and a tracking coil, thereby enabling a forcing and tracking operation.

The optical pick-up actuator according to the present invention as described above is configured by winding the tracking coil and the focusing coil to one operating yoke, and having the objective lens symmetrically about an axis on the lens holder, thus providing high density and low density. It is possible to perform tracking and focusing with the same operation coil part when driving the optical disc, which makes the configuration of the device simpler, which reduces the manufacturing cost by reducing the number of parts and improving the assembly workability, and the objective lens has both sides of the lens holder around the axis. Since it is provided symmetrically in the lens holder design it is easy to maintain the inertia balance, the design is simple and has the effect of increasing the vibration frequency of the lens holder.

On the other hand, as can be seen in other embodiments of the present invention by changing the mounting position relationship between the objective lens and the driving magnet, the actuator is configured to require a minimum length in the inner circumferential direction of the disk to improve the size of the product There is also an effect that can be miniaturized.

Claims (8)

An optical pickup actuator for driving a lens holder mounted with at least one objective lens constituting an optical pickup optical system and rotatably supported on a shaft for focusing and tracking of the objective lens. A driving magnet attached to the outer circumferential surface of the holder to generate magnetic flux, and fixedly disposed so as to intersect with the magnetic flux opposite to the driving magnet, and excited by an external electric signal to apply electronic thrust in the axial and rotation directions therebetween, respectively. And a focusing and tracking coil, the focusing and tracking coil being wound around each common yoke member in each direction. A lens holder mounted on an axis provided on the base so as to be elevated and rotatable and provided with an objective lens symmetrically to the axis, a driving magnet installed on the lens holder for driving the lens holder, and provided on the base And an operation coil unit for tracking and focusing by interacting with the driving magnet, and a lens conversion coil unit for rotating the lens holder to switch the objective lens by interlocking with the driving magnet. Actuator for optical pickup. The optical pickup actuator of claim 2, wherein the driving magnets are provided at both side surfaces of the lens holder perpendicular to the virtual line connecting the objective lens. The optical pickup actuator of claim 2, wherein the driving magnets are provided at both side surfaces of the lens holder on the virtual line connecting the objective lens. The optical pickup actuator of claim 2, wherein the operating coil part comprises a tracking coil and a focusing coil wound around an operating yoke installed on the base. The optical pickup actuator of claim 5, wherein the operating yoke comprises an upper yoke and a lower yoke, and the upper yoke and the lower yoke are arranged in parallel with the base. The optical pickup actuator of claim 2, wherein the driving magnet is formed to protrude round so that a surface exposed to the outside of the lens holder has a predetermined radius. The optical pickup actuator of claim 2, wherein the lens conversion coil is installed on the base, and the lens conversion coil is wound around a conversion yoke rounded to have a predetermined radius.