KR0175812B1 - An one body type optical lens of optical pick up actuator - Google Patents

Abstract

More particularly, the present invention relates to an objective lens of an optical pickup actuator, in which an objective lens (41) for focusing a laser beam on a reflecting surface of a disk, which is seated by receiving an electrical signal in a servo system, A lens holder 40 and a laser beam blocking member 50 provided on the upper and lower surfaces of the integral objective lens holder 40 to block laser light focused on the objective lens 41 from flowing out to the outside And the object lens and the objective lens holder are integrally formed so as to eliminate the assembly process of adhering the objective lens to the objective lens holder, thereby improving the assemblability and productivity of the optical pickup, This is a very useful invention having an effect of preventing the lens from being tilted.

Description

The integral objective lens of the optical pickup actuator

1 is an exploded perspective view of a general optical pickup actuator;

Figure 2 is a perspective view of a typical optical pickup actuator.

FIG. 3 is a cross-sectional view of the conventional optical pick-up actuator in the state of engagement with the objective lens;

FIG. 4 is an exploded perspective view of an integral objective lens according to the present invention; FIG.

FIG. 5 is a cross-sectional view of an integral objective lens according to the present invention; FIG.

FIG. 6 is a sectional view of an integral objective lens according to the present invention in use; FIG.

DESCRIPTION OF THE REFERENCE NUMERALS

40: integral objective lens holder 41: objective lens

50: laser light blocking member 51: laser light blocking plate

54: Laser light blocker

More particularly, the present invention relates to an objective lens holder in which an objective lens holder in which an objective lens is placed on an upper surface thereof is integrally made of the same material as an objective lens, And a laser light shielding member for shielding the laser light from flowing out is provided in the fitting groove of the optical pickup and the mounting groove of the upper surface so as to prevent the center of the objective lens from being distorted to prevent optical failure of the optical pickup, And an integral objective lens of an optical pickup actuator for improving productivity.

Generally, the optical pickup actuator is installed in the vertical lower portion of an optical recording medium of various optical disc players such as a mini disc player (M), a compact disc player (CDP) and a laser disc player (LDP) A laser beam is incident on a pit recorded on a disk surface at a detected track position and then the reflected light is detected through an optical system to convert the reflected light into a signal, And reproduces the recorded contents.

As shown in FIG. 1, the conventional optical pick-up actuator includes a plate 20, which is positioned at a lower portion of the actuator and is formed with a laser passage hole 1, and a U- A second yoke 23 fixed to the outside of the plate 20 in the longitudinal direction of the plate 20 at a predetermined distance from the outer yoke 22, A permanent magnet 24 fixed on the inner surface of the yoke 22 and an objective lens 24 provided above the laser passage hole 1 provided in the plate 20 to focus the laser beam on the disk reflecting surface An objective lens holder 26 having a square structure formed so as to support the objective lens 25 on the outer side thereof and an objective lens holder 26 provided on the inner surface of the objective lens holder 26, And the movement of the objective lens 25 in the direction of the optical axis A tracking adjusting coil 27 disposed on the inner surface of the objective lens holder 26 and wound around the focusing adjusting coil 27 to control the movement of the objective lens 25 in the radial direction, An adjustment coil 28 and a focusing adjustment coil 27 and a tracking adjustment coil 28 located on the inner surface of the objective lens holder 26 are generated in the objective lens holder 26 by a signal inputted / A PCB 31 attached to the outside of the holder gel 30 and receiving input and output signals of the servo system, And a signal transmission piece 32 provided on both sides of the tracking control coil 26 and electrically connecting the wire 29 to the focusing adjustment coil 27 and the tracking adjustment coil 28.

Further, the objective lens holder 26 of the actuator according to the present invention has a square shape and has a structure in which the objective lens 25 is installed outside the square. That is, a focusing adjusting coil 27 and a tracking adjusting coil 28 are provided at the center of gravity of the objective lens holder 26 so as to be able to flow into the inner yoke 21, and when the optical pick- The center of gravity of the objective lens holder 26 coincides with the center of gravity of the objective lens holder 26 and the focus adjustment coil 27 and the tracking adjustment coil 28 mounted on the inner side of the objective lens holder 26 are rotated by the repulsive force of the permanent magnet 24, (26) is moved sufficiently.

The operation and effect of the conventional optical pick-up actuator thus constructed will be described in detail as follows.

As shown in FIG. 1 and FIG. 2, the optical detector on the optical system detects the focusing and tracking states on the recording pit of the laser beam. Here, in the case where calibration is required as a result of detecting the focusing and tracking states, the servo system transmits an electrical signal to the PCB. The focus adjusting coil 27 and the tracking adjusting coil 27 provided at the center of gravity in the objective lens holder 26 by the electric signal transmitted from the PCB 31 through the wire 29 to the signal transmitting piece 32 28 are subjected to the Lorentz driving force by the permanent magnets 24.

When a current is applied to the focusing adjusting coil 27 and the tracking adjusting coil 28 through the wire 29, the tracking adjusting coil 27 and the focusing adjusting coil 26 are mounted on the inner surfaces of the outer yoke 22 Lorentz force is generated between the permanent magnets 24 and the objective lens holder 26 is driven. An inner yoke 21 is provided at the center of gravity of the objective lens holder 26 so that the focusing adjusting coil 27 is fluidly fitted to the center of gravity of the objective lens holder 26. The objective lens holder 26 is driven The center point coincides with the center of gravity point.

Therefore, the movement of the objective lens holder 26 can be sufficiently controlled by only one focusing adjusting coil 27 and the tracking adjusting coil 28. That is, when a current is applied to the focusing adjusting coil 27 in the objective lens holder 26, it moves in the direction of the optical axis and when a current is applied to the tracking adjusting coil 28 in the objective lens holder 26, it moves in the radial direction.

3 is a sectional view showing a state in which the conventional objective lens 25 is provided in the objective lens holder 26. A step 25a is formed on the bottom surface of the conventional objective lens 25 and the objective lens holder 26 And the objective lens 25 is positioned in the objective hole 26a of the objective lens holder 26 and the objective lens 25 is placed in the objective lens holder 26. In order to fix the objective lens 25 in place, The adhesive 35 is adhered to the outer circumferential surfaces of the objective lens holder 26 and the objective lens 25 by two degrees of freedom.

Since the viscosity of the uvi bond 35 is considerably high, when the uvi bond injector 36 is detached from the objective lens 25 after the uvi bond 35 is injected into the outer peripheral surface of the objective lens 25, The objective lens 25 may be slightly twisted from the orbit hole 26a of the objective lens holder 26 by the uvy bond 35 pulled by the bond injector 36. As a result, The inclination of the mounting angle causes a defect in the optical pickup, and when the heat is applied at a high temperature and a low temperature during use after assembling the optical pickup, there is a problem that the uvy bond is deformed and the objective lens is tilted.

Further, after the objective lens 25 is bonded to the eye hole 26 of the objective lens holder 26 with the UV-bond bond, a separate process of curing the UV-bond by irradiating ultraviolet rays to the UV-bond bond with the UV- The work is lengthened and the assembling property of the optical pickup and the productivity are remarkably lowered.

In order to prevent the center of the objective lens from being distorted due to an action force applied to the objective lens at the time of assembling the objective lens adhered and assembled to the objective hole of the objective lens holder, A hooking member which is formed in a hooked manner on the bottom surface of the objective lens holder is projected and a hooking jaw engaged with the hooking member is formed on the inner side surface of the objective hole of the objective lens holder and the objective lens is fitted into the hole of the objective lens holder, Thereby preventing the objective lens from being tilted by the viscous force of the uv-bond and causing an assembling failure to occur in the optical pickup.

The objective lens holder includes an integrally formed objective lens holder integrally formed on an upper surface of an objective lens for converging a laser beam on a reflective surface of a disk mounted on an optical signal received by the servo system, And a laser light shielding member installed on the objective lens and shielding laser light focused on the objective lens from flowing out to the outside.

Hereinafter, the configuration of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 4 to FIG. 6, the configuration of the present invention is characterized in that an objective lens 41 for focusing laser light on a reflecting surface of a disk, which is received by an electric signal in a servo system, And a laser beam blocking member 50 disposed on the upper surface and the lower surface of the integral objective lens holder 40 to block the laser beam focused by the objective lens 41 from flowing out to the outside, ).

A lens top surface curvature portion 44 and a lens bottom surface curvature portion 45 for bending the laser beam of the objective lens 41 are formed on the upper surface and the bottom surface portion of the integral objective lens holder 40, A rectangular fitting groove 42 having a predetermined depth is formed on the outer surface of the objective lens holder 40 of the lens 41 and is opened to the bottom surface below the lens bottom surface curvature portion 45 of the objective lens 41 The fitting groove 43 through which the laser beam passes is formed.

The laser light blocking member 50 is adhered and fixed to the mounting groove 42 of the integral objective lens holder 40 to block scattering of the laser light on the upper surface of the integral objective lens holder 40, A laser light shielding member 51 and a laser shielding member 43 for preventing the laser light that is press-fitted and passed through the fitting groove 43 formed on the bottom surface of the integral objective lens holder 40 from leaking to the inner wall surface of the fitting groove 43 And a light blocking tube 54.

Hereinafter, the operation and effect of the present invention will be described with reference to the accompanying drawings.

First, a manufacturing process according to the present invention will be described. In the manufacturing process according to the present invention, an installation groove 42 having a predetermined depth is formed on a top surface using a special mold such as a die casting using transparent plastic, which is the same material as a typical objective run 41 And an integrally formed objective lens holder 40 having a fitting groove 43 opened to one side thereof is formed on the bottom face.

The laser light blocking member 50 is a member that can effectively block the laser light and the laser light blocking member 54 is also made of a laser light that passes through the fitting groove 43, Is formed into a cylindrical shape corresponding to the fitting groove 43 by using an appropriate material to block scattering.

The laser light blocking tube 54 is securely fixed to the fitting groove 43 formed on the bottom surface of the one-piece objective lens holder 40. The mounting groove 42 is formed in the upper surface of the lens- , The laser light shielding plate 51 is adhered and fixed to the bottom surface by using an adhesive means such as a bond.

6, in the process of using the integral objective lens holder 40, laser light emitted from a hologram element (not shown) is refracted by 90 degrees in the reflection mirror and enters vertically, Passes through the inner surface of the blocking cylinder 54, is appropriately refracted through the lens bottom surface curvature portion 45 and the lens top surface curvature portion 44 of the objective lens 41, and is reflected again after focusing on the disk placed in the deck.

On the other hand, the laser beam reflected from the disk is returned to the hologram element in the opposite direction through the above-described process, and performs appropriate operations such as focusing and tracking to read the signal required by the optical pickup actuator.

Thus, the objective lens 41 is formed integrally with the objective lens holder 40 so that the objective lens 41 is bonded to the objective lens holder 40 and adhered and fixed to the objective lens holder 40. Then, the objective lens 41 is attached to the objective lens holder 40 The process of assembling the objective lens 41 separately is different from the conventional assembling method in which the objective lens 41 is cured by using the objective lens and the tilting of the objective lens is caused and the actuator may be defective And the objective lens 41 is never tilted in the objective lens holder 40, so that an optical error is never generated.

Therefore, conventionally, the process of adhering and fixing the objective lens to the objective lens holder is very complicated, and unlike the case where the objective lens is not effectively prevented from tilting, when the integral objective lens according to the present invention is used, And a laser beam blocking member for blocking the outflow of the laser beam is provided in the fitting groove of the integral objective lens holder and the fitting groove of the upper surface so that the objective lens is fixed to the objective lens It is an extremely useful invention to prevent optical failure of the optical pickup by preventing the objective lens from being distorted in the center with respect to the objective lens holder by omitting the process of assembling, and to improve the assemblability and productivity of the optical pickup actuator.

Claims (3)

An integral objective lens holder 40 integrally formed on an upper surface of an objective lens 41 for focusing a laser beam on a reflecting surface of a disk which is received by an electric signal in a servo system, And a laser beam blocking member (50) provided on an upper surface and a lower surface of the objective lens (41) for blocking laser light focused by the objective lens (41) from flowing out to the outside. 3. The objective lens holder (40) according to claim 1, wherein a lens top surface curvature portion (44) and a lens bottom surface curvature portion (45) for bending the laser beam of the objective lens (41) A rectangular fitting groove 42 having a predetermined depth is formed on the outer surface of the objective lens holder 40 of the objective lens 41. Below the lens bottom surface curvature portion 45 of the objective lens 41, And an insertion groove (43) through which laser light passes is formed in the bottom of the optical pickup actuator. 3. The objective lens holder (40) according to claim 1 or 2, wherein the laser light blocking member (50) is fixed to an installation groove (42) of the integral objective lens holder (40) A laser light shielding member 51 for shielding laser light from being scattered and a laser light penetrating and passing through the fitting groove 43 formed on the bottom surface of the integral objective lens holder 40 and passing through the fitting groove 43 And a laser light blocking tube (54) for blocking leakage to a wall surface.