KR0167933B1 - Pick-up structure of optical pick-up actuator - Google Patents

Abstract

The present invention relates to a pickup structure of an optical pickup actuator in which the hologram device 130 is installed vertically below the objective lens 120 installed in the laser through hole 112 of the objective lens holder 110. The optical pickup actuator is installed in a place where shaking is severely transmitted during use, such as a car. The objective lens 120 and the hologram device 130 installed in the objective lens holder 110 vibrate integrally, and thus the hologram device. Since the laser beam is in focus even when the laser beam is vibrated between the 130 and the objective lens 120, the laser beam is accurately scanned on the disc even during the vibration, and the light reflected from the disc can be accurately received.

Description

Pickup Structure of Optical Pickup Actuator

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

2 is a cross-sectional view showing an optical pickup actuator according to the present invention.

* Explanation of symbols for main parts of the drawings

110: objective lens holder 112: laser passing hole

120: objective lens 130: hologram device

132: adhesive surface

The present invention relates to an objective lens holder of an optical pickup actuator, and in particular, by fixing a hologram device to a laser passing hole vertically downward of an objective lens installed in the objective lens holder and connecting the hologram device to the main PC through a flexible PC, A pickup structure of an optical pickup actuator for simplifying a pickup structure and integrally operating an objective lens and a hologram device.

In general, an optical pickup actuator is installed below a disc, which is an optical recording medium of various optical disc players such as a mini disc player (MDP), a compact disc player (CDP) or a laser disc player (LDP), and the radial direction of the disc is provided. While detecting the desired track position on the disc while moving in a straight line, laser light is incident on the pit recorded on the disc surface at the detected track position, then the reflected light is detected through the optical 8 system, and the detected reflected light is changed into a signal. An apparatus for reproducing the recorded contents on the disk surface.

As shown in FIG. 1, the optical pickup actuator includes an objective lens holder 20 having an objective lens 24, focusing and tracking coils 26 and 28 attached thereto, and a yoke on which the objective lens holder 20 is placed. 10 and the base plate 40 to which the yoke 10 is attached and fixed, which are described in detail as follows.

A pair of inner yoke 12 is formed in place on the yoke 10, and a pair of outer yokes 14 are formed outside the inner yoke 14, and a predetermined distance from the outer yoke 14 is provided. The second yoke 16 is formed at the outer side in the longitudinal direction of the yoke 10. In addition, the magnetic surface 15 is fixedly installed on the inner surface of the outer yoke 14.

In the objective lens holder 20 provided in the yoke 10, a laser through hole 22 is formed at the center thereof, and an objective lens for focusing the disk reflection surface above the laser through hole 22. 24 is installed, the focusing coil 26 is wound around the side of the objective lens holder 20 to be inserted into the inner yoke 12 and to control the movement of the objective lens 24 in the optical axis direction. Tracking coils 28 are provided on both outer surfaces of the focusing coil 26 to control the movement of the objective lens 24 in the radial direction.

In addition, a coil PC 30 to which the tracking coil 28 and the focusing coil 26 are attached to both sides of the objective lens holder 20 is installed, and the coil PC 30 is provided with a focusing coil 26 and a tracking coil. Suspension wires 34 which transmit the input / output signals of the servo system to the 28 and support the swinging of the objective lens holder 20 and attenuate the vibration during an impact from the outside are bonded.

In addition, the second yoke 16 is provided with a holder gel 36 for supporting the wire 34, and a suspension PCB 38 receiving the input / output signal of the servo system outside the holder gel 36. ) Is installed.

In addition, a reflector 42 for reflecting the laser beam from the lower portion to the objective lens 24 is installed in the base plate 40. The reflector 42 scans the laser beam and is reflected from the reflector 42. The hologram device 44 which focuses light is provided.

Referring to the operation of the optical pickup actuator configured as described above in detail as follows.

The hologram device 44, which is a photo detector on the optical system, scans the laser beam into the reflector 42, which reflects the laser beam into the objective lens 24, and the objective lens 24 ) Reflects the reflected laser beam to the objective lens 24, and the objective lens 24 focuses the reflected laser beam onto the disk. The objective lens 24 transmits the light reflected from the disk to the hologram device 44 in the reverse order described above, converts the optical signal into an electrical signal in the hologram device 44, and transmits the optical signal to the main PCB to record the disc. Focusing and tracking state is detected. In this case, when the focusing and tracking state is detected and the correction is necessary, the servo system transmits an electric signal to the suspension PCB 38, and the suspension PCB 38 transmits an electric signal to the coil PCB 30 through the wire 34. It delivers a positive signal.

Accordingly, when a current is applied to the focusing coil 26 and the tracking coil 28 through the wire 34, the magnet 15 mounted on the inner surfaces of the tracking coil 28 and the focusing coil 26 and the outer yoke 14. Lorentz driving force is generated between and the objective lens holder 20 is driven. Therefore, the objective lens holder 20 moves in the tracking direction and the focusing direction so that the hologram device 44 installed on the base plate 40 is lasered at the correct position on the disc through the objective lens 24 installed on the objective lens holder 20. The beam can be focused.

However, the optical pickup actuator as described above has the following problems as the hologram device and the reflector are fixed to the base plate, and the objective lens moves together with the objective lens holder.

If the shaking is severely transmitted during use, such as the optical pickup actuator installed in a car, the hologram device installed on the base plate and the objective lens installed on the objective lens holder vibrate separately. Accordingly, the hologram device and the object The misalignment of the laser beams between the lenses prevents the laser beams from being precisely scanned onto the discs and cannot accurately reflect the light reflected from the discs. Therefore, the player in which the optical pickup actuator is installed has a problem of reproducing a poor screen or sound.

The present invention has been made to solve the above problems, by simplifying the installation structure and fixing the hologram device in the vertical laser pass hole of the objective lens installed in the objective lens holder of the optical pickup actuator, the objective lens holder and hologram It is for the device to operate integrally even when vibrating.

The above object is in the structure in which the objective lens and the hologram of the optical pickup actuator is installed, the objective lens holder is fixed to the objective lens and the objective lens is fixed to the vertically installed below the objective lens installed in the objective lens holder It is achieved by providing a pickup structure of an optical pickup actuator comprising a hologram device for scanning a laser beam and absorbing a laser beam from an objective lens, and a flexible PCB connected to the hologram device for transmitting an electrical signal of an optical system.

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

The objective lens 120 is fixed to the objective lens holder 110 is fixedly installed, and vertically downward of the objective lens 120 is installed in the objective lens holder 110 to scan the laser beam to the objective lens 120 It comprises a hologram device 130 that absorbs a laser beam from the objective lens 120, and a flexible PC (140) connected to the hologram device 130 to transfer an electrical signal of the optical system.

The objective lens 120 is installed on the upper side of the laser passage hole 112 formed in the center of the objective lens holder 110, the hologram device 130 in the laser passage hole 112 in the vertical downward of the objective lens 120. ) Is installed. Therefore, the reflector, which was conventionally installed below the objective lens 120, is not installed in the present invention.

The hologram device 130 has an adhesive surface 132 formed in an upper circular shape is inserted below the laser through hole 112 of the objective lens holder 110 is fixed by adhesive.

And the hologram device 130 is connected to the very soft flexible PC 140 is connected to the main PC.

Hereinafter, the operation and effects of the present invention will be described.

First, a process of attaching the hologram device 130 to the objective lens holder 110 will be described. The objective lens 120 may be fixed and adhered to the upper side of the laser passage hole 112 of the objective lens holder 110, and the laser passage hole ( The adhesive surface 132 of the hologram device 130 is inserted into the vertical lower portion of the 112 and bonded with an adhesive. Then, the flexible PC 140 is connected to the hologram device 130 by connecting the contacts.

Looking at the operation of the optical pickup actuator, the hologram device 130 is installed in the vertical downward of the laser through hole 112 of the objective lens holder 120, the laser beam is scanned to the objective lens 120, The objective lens 120 focuses the laser beam on the disk. The objective lens 120 transmits the light reflected from the disk to the hologram device 130, and the hologram device 130 converts the optical signal into an electrical signal and transmits the optical signal to the main PC through the flexible PC 140. The focusing and tracking states are detected from the recording pit of the. In this case, when the focusing and tracking conditions are detected and the correction is necessary, the servo system transmits an electrical signal to the PC, and the electrical signal is transmitted to the coil PC through the wire.

Accordingly, when a current is applied to the focusing coil and the tracking coil through a wire, the Lorentz driving force is generated between the tracking coil and the focusing coil and the magnet mounted on the inner surface of the outer yoke, thereby driving the objective lens holder 110. Therefore, the objective lens holder 110 is moved in the tracking direction and the focusing direction so that the hologram device 130 installed in the objective lens holder 110 can focus the laser beam at the correct position on the disc through the objective lens 120. .

Accordingly, in the optical pickup actuator of the present invention, the objective lens 120 and the hologram device 130 are fixed to the objective lens holder 110 so that the objective lens 120 moves together with the hologram device 130. .

As described above, the present invention is a pickup structure of the optical pickup actuator in which the hologram device 130 is installed below the objective lens 120 installed in the laser through hole 112 of the objective lens holder 110. The optical pickup actuator having this pick-up structure can be installed in a place where vibrations are severely transmitted during use such as a car, and the following effects can be obtained.

The objective lens 120 and the hologram device 130 installed in the objective lens holder 110 vibrate integrally, so that the laser beam is in focus even when the laser beam vibrates between the hologram device 130 and the objective lens 120. This allows the laser beam to be precisely scanned on the disc and the light reflected from the disc can be accurately received. Therefore, the player equipped with the optical pickup actuator reproduces a good picture or sound even when vibrated.

Claims (2)

In the structure in which the objective lens 120 and the hologram device 130 of the optical pickup actuator is installed, the objective lens holder 110 is fixed to the objective lens 120, and the objective lens holder 110 The hologram device 130 is fixedly installed below the objective lens 120 to scan the laser beam to the objective lens 120 and receives light from the objective lens 120, and is connected to the hologram device 130 to provide an optical system. Pickup structure of the optical pickup actuator consisting of a flexible PC (140) for transmitting an electrical signal of. The optical pickup according to claim 1, wherein the hologram device 130 has an adhesive surface 132 formed in a circular shape on the upper side of the hologram device 130 to be inserted under the laser beam through hole of the objective lens holder 110 and is fixed by adhesive. Pickup structure of the actuator.