KR20030006588A - Optical pick-up actuator - Google Patents

Abstract

PURPOSE: An optical pickup actuator is provided to improve the productivity and reduce the cost by removing a winding machine work to a tracking coil, and improve the sensitivity by reducing a gap between a magnetic substance and the yoke. CONSTITUTION: An optical pickup actuator includes a yoke(20), a bobbin(12) fixing an objective lens(10); conductive wires(22) extended in a direction orthogonal to a focus direction, and having one end fixed at the bobbin and the other end installed at the yoke to support the bobbin to the yoke; a magnetic substance(18) installed at the yoke; a focus driving element(14) made of a focus driving coil to drive the bobbin in the focus direction to an optical axis direction of the objective lens; and a tracking driving element(100) made of a flexible tracking substrate having tracking coil-shaped patterns to drive the bobbin in a tracking direction orthogonal to the focus direction.

Description

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 a flexible bobbin having a tracking coil-shaped pattern on both sides of a bobbin to finely move a bobbin provided with an objective lens that converges a light beam to an optical disk in a track direction. An optical pickup actuator to which a tracking substrate is attached.

In general, an optical pickup device is a device that reproduces signals recorded on various optical disks or records signals on optical disks. The optical pickup apparatus includes an objective lens that converges an optical beam and sends it toward the optical disk as shown in FIG. 1. An actuator having is provided.

The focusing coil 14 and the tracking coil 16 are wound in a copper wire to finely move the objective lens 10 in the focusing direction, that is, the vertical direction and the tracking direction, that is, the left and right directions, on the bobbin 12 of the actuator. Around the magnetic body 18 and the yoke 20 for generating an electromagnetic force is provided.

The bobbin 12 is also elastically supported by the wire holder 24 via the wire 22. That is, one end of the wire 22 is soldered to both sides of the bobbin 12, and the other end of the wire 22 is fixed to the wire holder 24 so that the bobbin 12 is moved up, down, left and right by the elastic force of the wire 22. It is possible to move finely.

The actuator configured as described above moves the objective lens 10 in the focusing or tracking direction by the electromagnetic force when power is applied to each coil through the wire 22.

However, the conventional actuator was installed by winding the tracking coil 16 directly to the bobbin 12, because the work is very delicate and difficult, it takes a lot of work time, productivity is lowered, and the unit price increases. .

In addition, the wound tracking coil 16 has a thickness of about 0.7 to 0.8mm as a whole, and this has the disadvantage that the gap is wider than necessary when installing the magnetic body 18 and the yoke 20. That is, when the magnetic body 18 and the yoke 20 are installed in consideration of the thickness of the tracking coil 16, there is a problem that the sensitivity of the electromagnetic force is lowered due to the voids.

The present invention has been made in order to solve the problems described above, the object is to attach a tracking substrate having a tracking coil-shaped pattern instead of winding the tracking coil workability and productivity according to the installation of the tracking coil It is to provide an optical pick-up actuator that improves the speed, reducing the overall thickness of the tracking portion, reducing the gap between the magnetic material and the yoke, and improving the sensitivity of the electromagnetic force.

The optical pickup actuator of the present invention for achieving the above object is a yoke, a bobbin for fixing the objective lens, an orthogonal direction with respect to the focusing direction, one end is fixed to the bobbin so that the bobbin is supported relative to the yoke The other end is provided on the yoke, the focus drive means consisting of at least four conductive wires, a magnetic body provided on the yoke, and a focus drive coil to drive the bobbin in a focus direction with respect to the optical axis direction of the objective lens; And a tracking driving means made of a flexible tracking substrate having a tracking coil-like pattern to drive the bobbin in a tracking direction in a direction orthogonal to the focus direction.

1 is an exploded perspective view showing the configuration of a conventional optical pickup actuator,

2 is an exploded perspective view showing the configuration of the optical pickup actuator according to the present invention;

3 is a perspective view showing a tracking substrate of the optical pickup actuator according to the present invention;

Figure 4 is a side view showing a coupling state of the optical pickup actuator according to the present invention.

◎ Explanation of symbols for main part of drawing

10: objective lens 12: bobbin

14: focusing coil 16: tracking coil

18: magnetic body 20: York

22: wire 24: wire holder

100: tracking substrate 102: first tracking portion

104: second tracking portion 106: connecting portion

108: upper soldering portion 109: lower soldering portion

110: first pattern 112: second pattern portion

114: third pattern 116: fourth pattern portion

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. The same components described in the prior art will be described using the same names and symbols as in the prior art.

Figure 2 is an exploded perspective view showing the configuration of the optical pickup actuator according to the invention, Figure 3 is a perspective view showing only the tracking substrate in the present invention, Figure 4 is a side view showing a coupling state of the optical pickup actuator according to the present invention to be.

Referring to this, in the present invention, the optical pickup actuator may move the bobbin 12 having the objective lens 10 finely in the focusing direction and the tracking direction according to the focal point of the light beam transmitted through the objective lens 10. The focus driving means and the tracking driving means are configured.

The focus drive means comprises a focus drive coil 14 for driving the bobbin 12 in the focus direction with respect to the optical axis direction of the objective lens 10, and the tracking drive means moves the bobbin 12 in a direction orthogonal to the focus direction. It consists of a flexible tracking substrate 100 having a tracking coil-shaped pattern to drive in the tracking direction.

That is, the focusing coil 14 is wound in a copper wire to finely move the objective lens 10 in the focusing direction on the side surface of the bobbin 12, and the objective lens 10 is finely moved in the tracking direction on the front and rear surfaces. Flexible tracking substrate 100 is attached to the substrate.

Here, the tracking substrate 100 may include a first tracking portion 102 attached to the front surface of the bobbin 12, a second tracking portion 104 attached to the rear surface of the bobbin 12, and the first and second portions. It is composed of a connecting portion 106 for connecting the tracking portions (102, 104).

In this case, the connecting portion 106 is preferably formed to have a smaller width than the tracking portion, and each of the soldering portions 108 and 109 connected to the wires 22 to be described later are formed on one side of the upper and lower portions of the connecting portion 106.

The first tracking unit 102 is provided with a first pattern 110 and a second pattern 112 at predetermined intervals, and the second tracking unit 104 has a third interval 114 at a predetermined interval. ) And a fourth pattern 116 are formed, and all the patterns are connected by one line. That is, the coil starting from the upper soldering part 108 forms the first pattern 110 in the same shape as the conventional tracking coil, and subsequently forms the second, third and fourth patterns 112, 114, and 116, and the lower soldering. Finished in section 109.

On the other hand, the magnetic body 18 and the yoke 20 which generate electromagnetic force around the bobbin 12 are provided.

In addition, the bobbin 12 is elastically supported by the wire holder 24 via the wire 22, and the wire holder 24 is fixed to the upper surface of the yoke 20. That is, one end of the two wires 22 are connected to both sides of the bobbin 12, one at the top and one at the bottom, and the other end of the wire 22 is fixed to the wire holder 24, and the elastic force of the wire 22 is applied. The bobbin 12 can be finely moved up, down, left and right.

At this time, the wire 22 on one side is grounded to the patterns formed on the soldering parts 108 and 109 of the tracking substrate 100 and connected to the bobbin 12, and the wire 22 on the other side is bobbin (via the focusing coil 14). 12), when power is applied to the wire 22, current flows in the pattern of the focusing coil 14 and the tracking substrate 100, and the actuator moves in the focusing or tracking direction by the electromagnetic force.

Now, the operation and effect of the present invention thus constructed will be described.

First, in the actuator according to the present invention, when power is applied through the wire 22 like the conventional actuator, current flows in the pattern of the focusing coil 14 and the tracking substrate 100, and the electromagnetic force generated therein. As a result, the bobbin 12 provided with the objective lens 10 moves finely up, down, left, and right. That is, the direction and current of the bobbin 12 are adjusted by adjusting the direction in which the current flows.

The actuator according to the present invention operated as described above is configured such that the tracking coil 100 having the tracking coil-shaped pattern is attached to the bobbin 12, rather than the tracking coil being directly wound on the bobbin, as shown in FIG. 4. There is an advantage that the assembly is excellent and the working time is shortened. In other words, because the work of winding the tracking coil is omitted, the overall production process is reduced, productivity is improved, the defect rate is significantly reduced, and the equipment investment cost according to the winding work is reduced.

In addition, since the tracking side is formed in a pattern type using a substrate and attached to the bobbin, the overall thickness can be reduced, and consequently, the gap between the magnetic body 18 and the yoke 20 can be reduced. That is, the conventional tracking coil has a thickness of about 0.7 to 0.8 mm, but in the present invention, since the thickness of about 0.2 to 0.3 mm is maintained, the gap can be reduced by about 0.4 mm.

As such, reducing the gap between the magnetic body 18 and the yoke 20 results in the improvement of the sensitivity of the electromagnetic force and the performance of the product.

As described above, the present invention has the effect of improving productivity because the winding machine operation for the tracking coil is omitted, and the equipment investment cost is reduced because there is no investment in the winding machine. It is possible to reduce the voids and improve the sensitivity, thereby improving the performance of the product.

Claims (3)

York, Bobbin fixing the objective lens, At least four conductive wires extending in a direction perpendicular to a focusing direction, one end of which is fixed to the bobbin and the other end of which is mounted to the yoke so that the bobbin is supported with respect to the yoke; A magnetic body installed on the yoke, A focus drive means comprising a focus drive coil to drive the bobbin in a focus direction with respect to an optical axis direction of the objective lens; And a tracking driving means made of a flexible tracking substrate having a tracking coil-shaped pattern to drive the bobbin in a tracking direction perpendicular to the focus direction. According to claim 1, wherein the tracking substrate is composed of a first tracking portion attached to the front surface of the bobbin, a second tracking portion attached to the rear surface of the bobbin, and a connecting portion connecting the first and second tracking portion, A first pattern and a second pattern are formed in the first tracking unit at predetermined intervals, and a third pattern and a fourth pattern are formed in the second tracking unit at predetermined intervals. The optical pickup actuator, characterized in that the pattern is connected by a single line. The method of claim 2, wherein the connecting portion is formed with a width less than the tracking portion, and the soldering portion is formed on one side of the upper and lower, respectively, one end of the pattern is started in the upper soldering portion and the other end is finished in the lower soldering portion Optical pickup actuator, characterized in that.