KR20050034806A - Tilt adjusting structure of an optical pick-up actuator - Google Patents

Abstract

The tilting adjustment device of the optical pickup actuator of the present invention includes a lens holder mounted on an objective lens and movably supported by inner and outer suspension wires on a yoke flake, a focusing coil wound around an outer circumference of the lens holder, An optical pickup actuator having a tracking coil attached to both sides, and a focusing / tracking magnet provided opposite to the tracking coils, wherein the diameter or cross-sectional area of the inner suspension wire of the inner and outer suspension wires is equal to the outer side. It may be formed of a material larger than the diameter or the cross-sectional area of the suspension wire, or the diameter of the inner and outer suspension wire is the same, but by attaching a ring to the outer suspension wire, the diameter or the cross-sectional area may be larger than the inside, The elastic modulus of the suspension wire is Since the tilt adjustment device is formed of a material larger than the elastic modulus, when the disk is distorted or warped, the weight according to the elastic material or diameter of the inner and outer suspension wires is not included even if a separate tilting coil or tilting magnet is not included. By tilting the objective lens correspondingly with normal focusing and tracking, the wobble disc can be accurately recorded and reproduced.

Description

Tilt ADJUSTING STRUCTURE OF AN OPTICAL PICK-UP ACTUATOR}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a tilt adjustment structure of an optical pickup actuator, and more particularly, to record and reproduce a wobble disc by varying the cross-sectional area or material of the inner and outer wire suspension supporting the lens holder of the optical pickup actuator of the wire driving method. The present invention relates to an optical pickup actuator having a tilt adjustment structure capable of preventing errors in time.

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 in the focus of the laser light formed on the recording feet of the disc through the objective lens in the hologram element Fig. 1 shows a typical wire drive actuator as a driving means for correcting an error of laser light focus by moving a direction in a radial direction to find a track of a disk and adjusting a focus size by moving in a focus direction. .

The actuator has a shape in which the lens holder 140 fixing the objective lens 142 is fixed to the yoke plate 110 by the suspension wire 136, and has an objective lens in the center of the lens holder 140. 142 was coupled, and the focus coil 144 was wound around the lens holder 140, and then the tracking coil 146 wound in a rectangular shape on it was pasted thereon. The coil PC 148 was fixed to both sides of the lens holder 140 to connect the tracking coil 146 and the focus coil 144.

In addition, the yoke plate 110 forms a pair of symmetrical outer yokes 114 and attaches and fixes the magnet 118 for generating an electromagnetic force by applying magnetic flux to the tracking coil 146 and the focus coil 144. A pair of inner yokes 112 symmetrically inwardly spaced apart from the outer yoke 114 are bent upwardly from the yoke plate 110 to induce the flow of the magnetic flux of the magnet 118, thereby causing the magnet 118 to be separated. The magnetic flux of the s) crosses the tracking coil 146 and the focus coil 144 strongly horizontally and passes through the planes of the inner yoke 112 and the yoke plate 110 to form the magnetic closure circuit.

In addition, a second yoke 116 is formed at one edge of the yoke plate 110 to fix the gel holder 120 and the suspension PCB 122 with screws 124, and one end of the suspension wire 136 is lensed. By connecting the coil PC 148 attached to the holder 140 and the other end to the suspension PC 122, the lens holder 140 is lifted and installed by the suspension wire 136, and the suspension from the signal processing unit An electric current applied to the PC 122 is transmitted through the suspension wire 136 to the tracking coil 146 and the focus coil 144. In addition, the suspension wire 136 is passed through the inside of the gel holder 120, the viscous damping gel 121 is injected into the inside of the gel holder 120, the secondary resonant of the suspension wire 136 is 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, the recording of the disk 170, the focus of the laser light formed in the objective lens 142 is exactly vertical direction from the hologram element Focus may be formed on the pit 172.

However, a tilt occurs when the lens holder 140 is tilted due to a tolerance when the suspension wire 136 supporting the lens holder 140 fixing the objective lens 142 to the yoke plate 110 is bonded. The lens holder 140 may not be horizontal. At this time, by adjusting the tilt of the lens holder 140 by adjusting the state in which the yoke plate 110 to which the lens holder 140 is fixed is installed on the pickup base 150, the objective lens 142 is the disk 170. It should be level with respect to the recording surface of.

As shown in FIG. 2, the conventional tilt adjustment operation is performed by first inserting a fixing screw 160 into which a compression spring 162 is inserted into a through hole formed at one side of the yoke plate 110, on the pickup base 150. By fastening to the formed screw hole 154, one side of the yoke plate 110 is fixed with elasticity on the pickup base 150 by the elasticity of the compression spring 162.

Then, the adjustment screw 158 is inserted into the through holes 156 formed in the pick-up base 150 in the horizontal and vertical directions from the fixing screw 160 fixed to the pick-up base 150, thereby being formed on the yoke plate 110. After fastening to the screw hole 119, respectively, adjusting the tightening degree of the adjustment screw 158, the adjustment sphere 126 formed on the bottom surface of the yoke plate 110, the adjustment sphere 152 formed on the pickup base 150 The height balance of the horizontal and vertical of the yoke plate 110 is adjusted by being in contact with the slide.

Accordingly, the lens holder 140 supported by the yoke plate 110 is horizontally adjusted with tilt, and the optical axis P direction of the objective lens 142 fixed to the lens holder 140 is relative to the disk 170. Become vertical.

However, when the tilt of the objective lens 142 is adjusted in the same manner as described above, when the inclination angle of the first lens holder 140 is θ, the lens holder 140 is used to level the lens holder 140. Although the lens holder 140 is horizontal by adjusting the angle of the supported yoke plate 110 on the pickup base 150, this causes the installation angle of the yoke plate 110 to be inclined by θ ° with respect to the pickup base 150. It will be lost.

When the recording of the disc 170 is reproduced using the optical pickup actuator, the lens holder 140 is supported on the yoke plate 110 by the suspension wire 136 so that the driving direction of the lens holder 140 is yoke. It is driven in a direction perpendicular to the installation angle of the plate 110. Therefore, the lens holder 140 does not coincide with the optical axis P direction of the objective lens 142 when driven in the vertical focusing direction, and as much as θ ° with respect to the optical axis P by θ ° in which the yoke plate 110 is inclined. It tilts and drives up and down only.

Therefore, the focus of the laser light formed by the objective lens 142 during recording and playback of the wobble disc, which is distorted, eccentric, or warped in the disc, is not formed in the recording pit 172, but moves by a predetermined distance L in proportion to θ °. By being formed at one A, a tracking error occurs.

Accordingly, since the lens holder 140 must be driven in the tracking direction again to correct the tracking error, the time for reproducing the recording pit 172 of the disc 170 is increased, thereby reducing the recording and reproducing capability of the optical pickup actuator. In addition, the power consumption consumed by the tracking coil 146 driving the lens holder 140 in the tracking direction increases.

Accordingly, the present invention has been devised accordingly, and an object thereof is to use a material having a different elastic modulus or a weight having a different diameter for each of the inner and outer suspension wires that support the lens holder of the wire-drive optical pickup actuator. It is to provide an optical pickup actuator having a tilt adjustment device capable of preventing errors during recording and playback of a wobble disc.

As a means for achieving the above object, the tilting adjustment device of the optical pickup actuator of the present invention comprises a lens holder mounted with an objective lens so as to be able to flow on the yoke flakes by inner and outer suspension wires, and a winding on the outer circumference of the lens holder. An optical pickup actuator having a focusing coil, a tracking coil attached to both sides of the lens holder, and a focusing / tracking magnet provided opposite to the tracking coils, the tilting adjustment means of the inner and outer suspension wires. It is characterized by the addition.

According to the present invention, the tilting adjusting means is formed of a material whose diameter or cross-sectional area of the inner suspension wire is larger than the diameter or cross-sectional area of the outer suspension wire, or the same diameter of the inner and outer suspension wires, The ring may be attached to the suspension wire to make the diameter or the cross-sectional area larger than the inner side, and the elastic modulus of the inner suspension wire is made of a material larger than the elastic modulus of the outer suspension wire.

Hereinafter, a tilt adjusting apparatus of an optical pickup actuator of the present invention will be described in detail with reference to the accompanying drawings.

3 is a view illustrating a tilt adjustment device of an optical pickup actuator according to an exemplary embodiment of the present invention, and FIG. 4 is a view illustrating a tilt adjustment device of an optical pickup actuator according to another embodiment of the present invention. Embodiments of the present invention as shown are the same as FIG. 1 except for the suspension wire to operate the lens holder to float, the same reference numerals are given to the same parts and the detailed description thereof is omitted.

Suspension wire 236 according to an embodiment of the present invention as shown in Figure 3 is connected to the coil PC 148, the upper and lower ends of the inner and outer ends are attached to the lens holder 140, respectively, the other end of the suspension Although connected to the PC 122, the inner suspension wire 236a diameter or cross-sectional area is smaller or lighter than the outer suspension wire 236b diameter.

As another embodiment, as illustrated in FIG. 1, the suspension wire 136 is connected to the coil PCs 148 having upper and lower ends of the inner and outer ends thereof bonded to the lens holder 140, respectively, and the other end of the suspension wire 136 122, the inner and outer suspension wires have the same diameter, but if a ring 338 having a predetermined diameter is attached to the outer suspension wire, there is a difference in weight compared to the inner suspension wire. It works just like the embodiment of.

The operation of the optical pickup actuator of the present invention configured as described above is as follows.

When recording and reproducing, when a laser beam is irradiated from a laser diode (not shown), the laser beam is incident on the objective lens 142 of the lens holder 140 by an optical system (not shown), and the laser beam is emitted from the objective lens 142. The beam is focused on the recording surface of the disc. Then, after the laser beam is received by a dephoto detector (not shown), the laser beam is converted into an electric signal corresponding to the laser beam and output to the control unit so as to reproduce the information on the disc.

In this case, when an error occurs in the focus of the laser beam, an electrical signal is transmitted to the suspension PCB 122, and the suspension PCB 122 transmits an electrical signal to the coil PC 148 through the suspension wires 236 and 336. Will be delivered. Accordingly, a 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 the radial direction. do. At the same time, as the embodiment shown in Figs. 3 and 4, the diameter of the inner suspension wire 236a is smaller than the outer suspension wire 236b, or the ring 338 is attached to the outer suspension wire 236b. By inserting the lens, since the outer suspension wire 136 is heavier than the inner suspension wire, the outer side of the lens holder 140 is moved more than the inner side, and the objective when the lens holder 140 is driven in the focus direction Since the direction of the lens 142 coincides with the direction of the optical axis P, the focus of the laser light formed by the objective lens 142 is recorded on the recording pit 172 during recording and reproduction of the wobble disc.

Although not shown, as another embodiment of the present invention, even if the elastic modulus of the inner suspension wire is formed of a material larger than the elastic modulus of the outer suspension wire is of course the same as the above embodiment.

The tilt adjustment apparatus of the optical pick-up actuator of the present invention as described above does not operate when the tilt range is within 10 μm, performs a normal focusing servo, and when it is 10 μm or more, it is preferable to operate.

Optical pickup actuator of the present invention having a tilt adjustment device as described above, if the disk distortion or bending occurs, even if it does not include a separate tilting coil or tilting magnet, the weight according to the elastic material or diameter of the inner and outer suspension wire By tilting the objective lens correspondingly with normal focusing and tracking, the wobble disc can be accurately recorded and reproduced.

The tilt adjustment apparatus of the optical pickup actuator according to the present invention as described above is just one embodiment, and the present invention is not limited to the above-described embodiment, and as claimed in the following claims, the present invention Without departing from the gist of the present invention, one of ordinary skill in the art should be considered to be included in the technical spirit of the present invention to the extent that changes or modifications can be made.

1 is a perspective view showing a general optical pickup actuator,

2 is a schematic diagram showing a tilt adjustment operation of a general optical pickup actuator;

3 is a schematic diagram of a tilt adjusting device of an optical pickup actuator according to an exemplary embodiment of the present invention;

4 is a schematic diagram of a tilt adjustment apparatus of an optical pickup actuator according to another embodiment of the present invention.

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

110: rocking plate 112, 114, 116: yoke

118: magnet 120: gel holder

121: damping gel 122: suspension

124: screw 126: adjusting hole

136: suspension wire 140: lens holder

142: objective lens 144: focus coil

146: tracking coil 148: coil PC

150: pickup base 152: adjustment sphere

154: screw hole 156: through hole

160: fixing screw 170: disk

236a, 236b: inner and outer suspension wire 338: ring

Claims (4)

A lens holder mounted with an objective lens so as to be fluidly supported by yoke flakes by inner and outer suspension wires, a focusing coil wound around an outer circumference of the lens holder, a tracking coil attached to both sides of the lens holder, and the tracking coil In the optical pickup actuator having a focusing / tracking magnet which is installed to face each other, Tilting adjustment device of the optical pickup actuator, characterized in that the tilt adjustment means is added to the inner and outer suspension wires. The method of claim 1, And the tilting adjusting means is formed of a material having a diameter or a cross-sectional area of the inner suspension wire larger than a diameter or a cross-sectional area of the outer suspension wire. The method of claim 1, The tilting adjusting means equalizes the diameter of the inner and outer suspension wires, and attaches a ring to the outer suspension wires to make the diameter or cross-sectional area of the outer suspension wires larger than the inner side. Device. The method of claim 1, And the tilting adjustment means is formed of a material having a larger elastic modulus of the inner suspension wire than a modulus of elasticity of the outer suspension wire.