KR20060125193A - Optical pick-up actuator - Google Patents

Abstract

An optical pickup actuator is provided to save cost according to the manufacture and purchase of an unnecessary component like a suspension PCB(Printed Circuit Board) by directly transmitting an electric signal of a signal processing unit to a suspension wire through an FPCB(Flexible PCB) and simplify an assemblage process by shortening time required for assembling components. An FPCB(230) which transmits an electric signal is attached to one side of a gel holder(220). The FPCB(230) is directly and electrically connected to one end of respective suspension wires(210) exposed after passing through the gel holder(220). A plurality of supporting parts(221) into which the suspension wires(210) are inserted and fixed is arranged in a longitudinal direction of the suspension wires(210) to fix a plurality of points per the suspension wire.

Description

Optical Pickup Actuator {OPTICAL PICK-UP ACTUATOR}

1 is a perspective view showing an optical pickup actuator according to the prior art,

2 is a plan view showing an optical pickup actuator according to the prior art,

3 is a side view showing an optical pickup actuator according to the prior art,

4 is a perspective view showing an optical pickup actuator according to the present invention,

5 is a plan view showing an optical pickup actuator according to the present invention,

6 is a side view showing an optical pickup actuator according to the present invention,

7 is a rear view showing a connection portion of the flexible PC in the optical pickup actuator according to the present invention.

<Description of Symbols for Main Parts of Drawings>

140: lens holder 144: focusing coil

146: tracking coil 210: suspension wire

220: gel holder 221: support portion

230: flexible PC 231: wire

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical pickup actuator, and more particularly, to an optical pickup actuator for directly transmitting an electrical signal of a signal processing unit to a suspension wire through a flexible PC.

In general, an optical pickup actuator constitutes a part of an optical pickup device, and when an error in the optical axis direction or a radial direction error occurs at the focal point of the laser light formed on the recording feet of the disc through the objective lens in the hologram element, As a driving means for correcting an error of laser light focus by moving the lens in the radial direction to find the track of the disk and adjusting the size of the focus by moving in the focus direction, a typical wire driving actuator is shown in the accompanying drawings. If described with reference to:

1 to 3 are a perspective view, a plan view and a side view showing an optical pickup actuator according to the prior art.

The conventional optical pickup actuator 100 has a shape in which the lens holder 140 fixing the objective lens 142 is installed to the yoke plate 110 by the suspension wire 136 to be movable, and the lens holder 140 The objective lens 142 was coupled to the center of the lens, and the focusing coil 144 was wound around the lens holder 140, and then the tracking coil 146, which was wound in a rectangular shape, was bonded thereon. The coil PC 148 was fixed to both sides of the lens holder 140 to connect the tracking coil 146 and the focusing coil 144.

The yoke plate 110 forms a pair of symmetrical outer yokes 114 and adheres and fixes the magnet 118 for generating an electromagnetic force by applying magnetic flux to the tracking coil 146 and the focusing coil 144, A pair of inner yokes 112 symmetrically inwardly spaced apart from the yoke 114 are bent upwardly in the yoke plate 110 to induce the flow of the magnetic flux of the magnet 118, thereby causing the magnetic flux of the magnet 118 to flow. A magnetic closure circuit was formed to strongly pass the tracking coil 146 and the focusing coil 144 horizontally, pass through the planes of the inner yoke 112 and the yoke plate 110, and enter the magnet 118 again.

The yoke plate 110 forms the second yoke 116 at one edge thereof to fix the gel holder 120 and the suspension PCB 122 with the screws 124, and one end of the suspension wire 136 to the lens holder 140. The lens holder 140 is floated by the suspension wire 136 by being connected to the coil PC 148 adhered to the coil PC 148 and the other end of the suspension wire 136 to the suspension PC 124. The current applied to the suspension PCB 122 through the flexible PC 150 from the signal processor is transferred to the tracking coil 146 and the focusing coil 144 through the suspension wire 136.

The suspension wire 136 is fixed by the support part 121 formed inside the gel holder 120 through the inside of the gel holder 120, and the damping gel 121 having a viscous viscosity is formed inside the gel holder 120. Injection was such that the negative resonance of the suspension wire 136 is rapidly reduced by the damping gel 121.

On the other hand, the objective lens 142 should be installed so as to be exactly horizontal to the recording surface of the disk 170, so that the focus of the laser light formed by the objective lens 142 focuses on the recording pit of the disk in the exact vertical direction from the hologram element. can do.

When such a conventional optical pickup actuator irradiates a laser beam from a laser diode (not shown) during recording and reproduction, the laser beam is focused by the objective lens 142 of the lens holder 140 and is incident on the recording surface of the disc.

In this case, when an error occurs in the focus of the laser beam, the flexible PC 150 transmits an electrical signal to the suspension PCB 122, and the suspension PCB 122 transmits an electrical signal to the coil PC 148 through the suspension wire 136. By transmitting an electrical signal, Lorentz driving force is generated between the focusing coil 144 and the tracking coil 146 between the magnet 118 mounted on the inner surface of the outer yoke 114 to finely move the lens holder 140 in the optical axis and radial directions. Will be moved.

However, such a conventional optical pickup actuator includes a suspension PCB 122 to transmit an electrical signal to the suspension wire 136 through the flexible PC 150 to increase the manufacturing cost of manufacturing or purchasing the suspension PCB 122. In order to fix the suspension PCB 122 to the gel holder 120, the assembly process was increased.

The present invention is to solve the above-mentioned conventional problems, an object of the present invention is to directly transfer the electrical signal of the signal processing unit to the suspension wire through the flexible PCB cost of manufacturing and purchasing unnecessary components such as suspension PCB It is to provide an optical pick-up actuator that can reduce the assembly time, and shorten the time required for the assembly of parts.

In order to achieve the above object, the present invention provides a focusing coil and a tracking coil in a lens holder on which an objective lens is mounted, and a magnet is installed to face the tracking coil, and transmits an electrical signal to the focusing coil and the tracking coil. In an optical pickup actuator in which a lens holder is installed in a gel holder through a plurality of suspension wires, a flexible PC for transmitting an electrical signal is attached to one side of the gel holder, and the flexible PC is exposed through the gel holder. It is characterized in that it is electrically connected directly to one end of each wire.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention.

4 to 6 are a perspective view, a plan view, and a side view of the optical pickup actuator according to the present invention, and the same reference numerals are given to the same members as before, and description thereof will be omitted.

As shown, the optical pick-up actuator 200 according to the present invention is a flexible PC 230 for transmitting an electrical signal to the focusing coil 144 and the tracking coil 146 through a plurality of suspension wires 210 It is directly electrically connected to each of the suspension wires 210.

Four suspension wires 210 are formed, and two ends of the coil PCs 148 provided at both sides of the lens holder 140 are connected to one end of the suspension wire 210 so that an electrical signal is wound around the lens holder 140. It passes to the focusing coil 144 and the tracking coil 146 attached to both ends of the lens holder 140, and the other end is fixed through the gel holder 220 to support the lens holder 140 to be flowable. . Accordingly, the suspension wire 210 transmits an electrical signal to the focusing coil 144 and the tracking coil 146 through the coil PC 148 to the magnet 118 positioned opposite to the tracking coil 146. By generating a Lorentz driving force, the lens holder 140 is finely moved in the optical axis and the radial direction.

The flexible PC 230 receives a current from a signal processor that outputs an electrical signal transmitted to the focusing coil 144 and the tracking coil 146 through the suspension wire 210, and supplies the current directly to the suspension wire 210. To this end, the flexible PC 230 is fixed to one end of the gel holder 220 by an adhesive or a double-sided adhesive tape, and each of the conductive wires 231 of the flexible PC 230 is illustrated in FIG. 7. Likewise, the end of the suspension wire 210 exposed by penetrating the gel holder 220 is electrically connected to the end of the suspension wire 210 by soldering (S) or the like.

The gel holder 220 fills the damping gel 222 inside, and the support part 221 to which the suspension wire 210 is inserted and fixed to stably support the suspension wire 210 includes the suspension wire 210. It is formed to be arranged in plurality in the longitudinal direction. Therefore, the gel holder 220 fixes a plurality of points for each suspension wire 210 by the support 221.

The operation of the optical pickup actuator having such a structure is performed as follows.

Each of the suspension wires 210 is fixed to the lens holder 140 and the gel holder 220 at both ends thereof to support the lens holder 140 to be spaced upwardly from the yoke plate 110 and through the coil PC 148. An electrical signal is transmitted to the focusing coil 144 and the tracking coil 146, and the suspension wire 210 is directly connected to the conductive wires 231 of the flexible PC 230 to be electrically connected from a signal processor (not shown). The signal is applied. This eliminates the need for components such as the conventional suspension PCB 122 and can accurately maintain the electrical connection between the suspension wire 210 and the flexible PCB 230.

In addition, the suspension wires 210 supporting the load of the lens holder 140 are firmly installed by fixing the points of the ends of the suspension wires 210 to the support portions 221 of the gel holder 220. By the Lorentz driving force generated between the focusing coil 144 and the tracking coil 146 and the magnet 118, the position of the lens holder 140 which moves finely is accurately maintained.

As described above, the optical pickup actuator according to the present invention is to directly transfer the electrical signal of the signal processing unit to the suspension wire through the flexible PC to reduce the cost of manufacturing and purchasing unnecessary parts, such as suspension PC, By shortening the time required for assembly, the assembly process can be simplified.

What has been described above is only one embodiment for implementing the optical pickup actuator according to the present invention, and the present invention is not limited to the above-described embodiment, and as claimed in the following claims, the gist of the present invention Without departing from the scope of the present invention, any person having ordinary skill in the art will have the technical spirit of the present invention to the extent that various modifications can be made.

Claims (2)

A focusing coil and a tracking coil are provided in a lens holder on which an objective lens is mounted, and a magnet is installed to face the tracking coil, and the lens is provided through a plurality of suspension wires that transmit electrical signals to the focusing coil and the tracking coil. In the optical pickup actuator in which the holder is installed to be movable to the gel holder, And a flexible PC for transmitting the electrical signal is attached to one side of the gel holder, and the flexible PC is directly connected to one end of each of the suspension wires exposed through the gel holder. The method of claim 1, The gel holder, The support portion to which the suspension wire is inserted and fixed to fix the plurality of points for each suspension wire is formed to be arranged in a plurality in the longitudinal direction of the suspension wire Optical pickup actuator, characterized in that.

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