KR100301085B1 - Damping Structure of Optical Pickup Actuator - Google Patents

Abstract

SUMMARY OF THE INVENTION The present invention is intended to improve the recording and reproduction sensitivity of a disc by quickly stabilizing the lens holder by preventing negative resonance such as torsion generated during driving of the lens holder by structural damping.

The present invention is fixed to the yoke 10 on the other side of the suspension PCB 22, the gel holder 20 having the silicon gel 21 built in both sides and one end is fixed to both coil PC 48 and the other end of the silicone gel A damping structure of an optical pick-up actuator including a damping shaft 50 inserted into the 21, wherein the damping shaft 50 vibrates within the silicon gel 21 embedded in the gel holder 20. Since the vibration of the damping shaft 50 is attenuated by the viscosity of), as the lens holder 40 is structurally damped and stabilized quickly, the disk recording and reproduction sensitivity of the optical system is improved.

Description

Damping Structure of Optical Pickup Actuator

SUMMARY OF THE INVENTION The present invention is contemplated for the damping structure of an optical pickup actuator. In particular, optical damping for stabilization of negative resonance such as torsion generated during driving of the lens holder by structural damping can be used to quickly stabilize the lens holder to improve the recording and reproduction sensitivity of the disc. A damping structure of a pickup actuator.

In general, the optical pickup actuator moves the objective lens in the radial direction when the error of the optical axis or the radial direction occurs at the focal point of the laser beam formed on the recording pit of the disc through the objective lens in the hologram element. It is used as a driving means for correcting the error of the focus of the laser beam by finding the, and adjusting the size of the focus by moving in the focus direction.

A wire driving actuator generally used among these optical pickup actuators is shown in FIG. 1.

The actuator has a shape in which the lens holder 140 fixing the objective lens 142 is installed to the yoke 110 with a suspension wire 130 so as to be movable. The objective lens 142 is located at the center of the lens holder 140. ), And a focusing coil 144 was wound around the lens holder 140, and then a tracking coil 146 wound in a rectangular shape on the front was attached thereto. 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.

In addition, a pair of symmetrical outer bent pieces 114 are formed on the yoke 110, and a magnet 118 for generating an electromagnetic force by applying magnetic flux to the tracking coil 146 and the focusing coil 144 is bonded and fixed. In addition, a pair of inner bent pieces 112 symmetrically formed inside the outer bent pieces 114 were bent upward at the yoke 110 to induce a flow of magnetic flux in the magnet 118. Therefore, a magnetic closure circuit in which the magnetic flux of the magnet 118 passes strongly through the tracking coil 146 and the focusing coil 144 horizontally, passes through the planes of the inner bent pieces 112 and the yoke 110, and enters the magnet 118 again. Formed.

In addition, the support 116 is formed at one edge of the yoke 110 to fix the suspension PCB 122 with the screw 124, and one end of the suspension wire 130 is bonded to the lens holder 140 with the coil PCB ( 148) and the other end to a suspension PCB 122. Accordingly, while the lens holder 140 is injured by the suspension wire 130, a current to which the suspension PCB 122 is applied from the signal processor is applied to the tracking coil 146 and the focusing coil 144 through the suspension wire 130. To be delivered.

Meanwhile, as a damping structure for attenuating the negative resonance of the suspension wire 130 of the actuator, conventionally, two gel holders 120 are integrally connected between the suspension PCB 122 and the support 116 so that the center is connected together. Fixed. Then, two suspension wires 130 pass through the inside of each gel holder 120, and the viscous silicon gel 121 is injected into the gel holder 120, thereby providing suspension wire 130. The negative resonance of was rapidly decelerated by the viscous force of the silicon gel 121.

However, in the conventional damping structure, the gel holder 120 is fixed together to the suspension PCB 148 for fixing the suspension wire 130, and the silicon gel 121 stored in the gel holder 120 is suspended in the suspension PCB 148. The damping of the suspension wire 130 in the vicinity of. However, since the flow of the suspension wire 130 is very fine on the suspension PCB 122 side, which is a fixed end, the effect of the silicon gel 121 damping the minute portion of the flow is very small.

Therefore, in the conventional damping structure, since the sub resonance, such as the torsion phenomenon occurring in the tracking operation and the focusing operation of the lens holder 140, cannot be damped efficiently, the disc recording of the optical system is performed by the sub resonance of the lens holder 140. There was a problem of low reproduction sensitivity.

SUMMARY OF THE INVENTION The present invention has been made to solve the conventional problems, and an object of the present invention is to stabilize the lens holder quickly by preventing the negative resonance such as torsion generated during the driving of the lens holder by structural damping, so that the recording and reproduction sensitivity of the disc can be improved. Is to improve.

1 is a perspective view of a general optical pickup actuator.

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

3 is a cross-sectional view of the optical pickup actuator shown in FIG.

* Explanation of symbols for main parts of the drawings

10: yoke 12: inner bending piece

14: outside bending piece 16: support

18: magnet 20: gel holder

21: silicone gel 22: suspension PCB

24: screw 30: suspension wire

40: lens holder 42: objective lens

44: focusing coil 46: tracking coil

48: coil PC 50: damping shaft

The present invention for achieving the above object, the lens holder is fixed to the coil PC on both sides of the objective lens is fixed, a plurality of suspension wires one end is connected to the coil PC on both sides, and the other end of the suspension wire An optical pickup actuator comprising a suspension PCB connected thereto and a yoke having a support for fixing the suspension PCB; A gel holder fixed to an outer bent piece formed in the yoke in a direction opposite to the suspension PCC based on the lens holder and having silicon gels embedded in both sides thereof; And a damping shaft, one end of which is fixed to both coil PCs and the other end of which is inserted into the silicon gel.

In such a damping structure, the damping shaft fixed to the coil PC is damped in the silicon gel in the gel holder fixed to the opposite side of the suspension PC. This damping is a structural damping forcibly preventing the negative resonance of the lens holder, and the negative resonance such as torsion generated from the driving of the lens holder is rapidly attenuated.

Therefore, by effectively damping the negative resonance of the lens holder, it is possible to improve the disc recording and reproduction sensitivity of the optical system.

Hereinafter, exemplary embodiments of the present invention will be described to facilitate implementation of the present invention.

The configuration of the optical pickup actuator according to the present embodiment will be described with reference to FIG.

This embodiment is applied to the wire drive type optical pickup actuator in which the lens holder 40 on which the objective lens 42 is fixed is installed to be movable to the yoke 110 by the suspension wire 130.

The focusing coil 44 is wound around the lens holder 40, and the tracking coil 46 wound in a rectangular shape is bonded thereto. The coil PC 48 is fixed to both sides of the lens holder 40, and the tracking coil 46 and the focusing coil 44 are connected to the coil PC 48.

A pair of symmetrical outer bent pieces 14 is formed on the yoke 10, and a magnet for generating an electromagnetic force by applying magnetic flux to the tracking coil 46 and the focusing coil 44 to the outer bent pieces 14. (18) is bonded and fixed. At the same time, the inner bending piece 12 is bent upwardly in the yoke 10 inside each of the outer bending pieces 14 to induce the flow of the magnetic flux of the magnet 18. Therefore, the magnetic closing circuit of the magnetic flux of the magnet 18 passes strongly through the tracking coil 46 and the focusing coil 44 horizontally, passes through the planes of the inner bent pieces 12 and the yoke 10 and enters the magnet 18 again. Is formed.

The support 16 is formed at one edge of the yoke 10, and the suspension PCB 22 is fixed to the rear of the support 16 with the screw 24. Subsequently, two ends are connected to both coil PCs 48 provided with the four suspension wires 30 and adhered to the lens holder 40, and the other end is connected to the suspension PCS 22. As shown in FIG.

Accordingly, the lens holder 40 is floated by the suspension wire 30, and a current applied to the suspension PCB 22 from the signal processing unit is applied to the tracking coil 46 and the focusing coil 44 through the suspension wire 30. It becomes transferable.

On the other hand, in order to damp the lens holder 40, the silicone gel 21 on both sides of the outer bent piece 14 formed in the yoke 10 in a direction opposite to the suspension PCB 22 relative to the lens holder 40. The built-in gel holder 20 is fixed, and one end of the damping shaft 50 is fixed to both coil PCs 48 and the other end is inserted into each silicon gel 21.

Hereinafter, the operation of the damping structure having the above configuration will be described.

The assembly of the present embodiment is completed as shown in FIGS. 2 and 3.

The external driving voltage input through the suspension PCB 22 is transmitted to the coil PC 48 via the suspension wire 30, and the signal is applied to the tracking coil 46 and the focusing coil 46 to provide a lens holder ( Drive 40).

As a result, the tracking error and focusing error caused by the focus of the laser beam formed on the recording pit of the disc in the objective lens 42 fixed to the lens holder 40 is corrected.

The operation of the lens holder 40 consists of an operation in the optical axis direction for adjusting the focus of the laser beam, and an operation in the radial direction for correcting the tracking error. Here, since the operation in the optical axis direction and the operation in the radial direction are performed at the same time, a torque is generated, and a negative resonance phenomenon such as an unintended twist occurs in the lens holder 40.

However, since the damping shaft 50 fixed to the coil PC 48 attached to both sides of the lens holder 40 vibrates in the silicone gel 21 embedded in the gel holder 20, the viscosity of the silicone gel 21 is increased. As a result, the negative resonance of the damping shaft 50 is attenuated.

This damping action is a structural damping forcibly inhibiting the vibration of the lens holder 40 on the other side of the suspension wire 30, and generates a much stronger damping force than the damping that only attenuates the vibration of the suspension wire 30. . Accordingly, as the vibration of the lens holder 40 is rapidly attenuated and stabilized, the objective lens 42 stably forms the focus of the laser beam on the recording pit of the disc.

As described in the above embodiment, the present invention is fixed to the yoke 10 on the other side of the suspension PCB 22, the gel holder 20 having the silicon gel 21 built in both sides and one end of both coil PC 48 ) Is a damping structure of an optical pickup actuator including a damping shaft 50 fixed to the other end and inserted into the silicone gel 21, and the damping shaft 50 is in the silicon gel 21 embedded in the gel holder 20. Since the vibration of the damping shaft 50 is attenuated by the viscosity of the silicone gel 21 when vibrating at, the lens holder 40 is structurally damped and quickly stabilized, thereby improving the disc recording / reproducing sensitivity of the optical system. have.

Claims (1)

The lens holder 40 having the objective lens 42 fixed thereto and the coil PC 48 fixed to both sides, a plurality of suspension wires 30 having one end connected to the coil PC 48 of the both sides, and the suspension wire An optical pickup actuator comprising: a suspension PCB 22 to which the other end of the 30 is connected; and a yoke 10 having a support 16 for fixing the suspension PCB 22; Gel holder 20 having a silicone gel 21 embedded on both sides of the lens holder 40 fixed to the outer bent piece 14 formed on the yoke 10 in a direction opposite to the suspension PCB 22. ); And a damping shaft (50), one end of which is fixed to both coil PCs (48) and the other end of which is inserted into the silicon gel (21).