KR0141757B1 - Integral optical pick-up module - Google Patents

Abstract

The present invention relates to an integrated optical pickup module, comprising a light emitting / receiving unit (10) provided with a laser diode (11) serving as a light source and a photodiode (12) for detecting pit information on a disk (D), and the laser diode (11). Waveguide member 20 for transmitting the light beam (B) emitted from the), and the reflective surface 33 for reflecting the beam (B) passing through the waveguide member 20 is provided on the lower inclined surface 31, one side of the upper surface The light emitting / receiving unit 10 is integrally provided at the prism block 30 provided on the inclined surface 31 opposite the inclined surface 32 having the reflective surface 33. It consists of an objective lens unit 40 integrally installed on one side of the upper surface of the prism block 30 to focus the beam (B) reflected from the reflective surface 33 on the disk (D). According to the present invention, it is possible to achieve light and small size reduction of the product using the optical pick-up module, the integration of the optical pick-up module is achieved, the structure is simplified and the assembly is improved, and the optical pick-up module is integrated into one operation The optical part eliminates the need for tilt and descent adjustments, making it possible to apply to various related products and to reduce the unit cost of the product.

Description

All-in-one Optical Pickup Module

1 is a block diagram showing the configuration of an optical pickup module according to the prior art.

Figure 2 is a cross-sectional view showing the configuration of the integrated optical pickup module according to the present invention

Figure 3 is a perspective view showing the configuration of an integrated optical pickup module according to the present invention.

* Explanation of symbols for main parts of the drawings

10: light emitting / receiving part 11: laser diode

12: photodiode 20: waveguide member

21: Reflective diffraction grating 22: Reflective mirror

23: holographic optical element 30: prism block

31,32: sloped surface 33: reflective surface

40: objective lens portion 41: objective lens

42: objective lens support B: beam

The optical pickup module of the present invention, in particular, by integrally forming the components for the optical pickup and use of the integrated module as a single moving unit, there is no need to adjust the objective lens at all, the integrated optical pickup that achieves a light and compact It is about a module.

FIG. 1 is a block diagram showing a configuration of an optical pickup module according to the prior art. As shown in the drawing, the optical pickup module according to the prior art includes a laser diode (2) which is a light emitting unit, and a light emitted from the laser diode (2). A diffraction grating 4 lying on the path of the beam B and dividing the beam B into three, and a holographic optical element 5 lying on the path of the beam B passing through the diffraction grating 4 ), A reflection mirror 6 reflecting the beam B exiting through the holographic high optical element 5, and a beam B reflected from the reflection mirror 6, the upper surface of the disk D. An objective lens 7 for condensing the light and a beam B for reading the PIT information recorded on the upper surface of the disk D in the reverse order of the beam path for photodetection 3 It is composed of

Referring to the operation of the optical pickup module according to the prior art having the configuration as described above are as follows.

First, a laser beam (B) having a wavelength in the infrared region is emitted from the laser diode (2), which is a light emitting device, is incident on a diffraction grating (4), and the beam (B) incident on the diffraction grating (4) is a diffraction grating. It is separated into three in (4). The beam B, which has passed through the diffraction grating 4, is transmitted to the reflective mirror 6 through the holographic optical device 5, and the beam B which is transferred to the reflective mirror 6 is an objective lens. The light is condensed at 7 and condensed on the upper surface of the disk D. As such, the beam B focused on the upper surface of the disk D reads the pit information engraved on the disk D, and is then reflected again to pass through the objective lens 7 and the reflecting mirror 6, and then the holographic optical element. It enters into (5). In this way, the beam B incident on the holographic optical element 5 is diffracted and separated into a main beam and a sub beam, and the double sub beam is transferred to the photodiode 3 which is a photodetector and processed by the photodiode 3. Focusing servo and tracking servo functions are performed through motion error detection.

In the optical pickup module configured as described above, the laser diode 2, the diffraction grating 4, the holographic optical element 5, and the photodiode 3 are configured in one package, and the laser diode grating unit (LDGU; Laser) One chip is formed into a diode grating unit (1). In addition, in the optical pickup module having the configuration described above, only the objective lens 7 is configured as the movable optical unit to perform operation error detection and servo functions.

However, according to the conventional optical pickup module configured and operated as described above, the laser diode grating unit 1, the reflection mirror 6, and the objective lens 7 are separately configured so that tilt adjustment and descent ( decent) adjustment is necessary, and the diode grating unit 1 must maintain a considerable distance from the reflecting mirror 6 in order to maintain a proper distance from the objective lens 7 so that the overall configuration of the module becomes large. It is difficult to reduce the size and light weight, and the mechanism structure is complicated, there is a problem that the assembly and adjustment is difficult.

The present invention is to solve the problems of the prior art as described above, in particular, by forming the components for the optical pickup integrally and using the integrated module as a single moving portion, there is no need to adjust the objective lens at all It is to provide an optical pickup module that achieves a light and small size.

An object of the present invention as described above is a light emitting / receiving unit having a laser diode as a light source and a photodiode for detecting pit information on a disk, a waveguide member for transmitting a beam emitted from the laser diode, and a waveguide member on a lower inclined surface. A prism block provided with a reflecting surface reflecting a beam passing through the upper surface and having a light emitting / receiving portion integrally formed on one side of the upper surface, wherein the waveguide member is provided on an inclined surface facing the inclined surface provided with the reflecting surface; It is achieved by an integrated optical pickup module, characterized in that composed of an objective lens unit integrally installed on one side of the upper surface of the prism block to focus the reflected beam on the disk.

The waveguide member has a reflective diffraction grating for diffracting the beam emitted from the laser diode at one side thereof, and a reflection mirror for reflecting the beam diffracted at the diffraction grating is formed at the other side thereof, and the diffraction grating is provided. The lower portion of one side is characterized in that the reflective holographic optical element for transmitting the beam reflected from the reflective mirror to the reflective surface of the prism block is provided.

The objective lens unit may be formed of an objective lens for condensing a beam reflected from the reflective surface of the prism block on a disc, and an objective lens support supporting the objective lens on one side of the upper surface of the prism block. Referring to the integrated optical pickup module according to the present invention as described above in detail with reference to the accompanying drawings as follows.

2 is a cross-sectional view showing the configuration of the integrated optical pickup module according to the present invention, Figure 3 is a perspective view showing the configuration of the integrated optical pickup module according to the present invention.

As shown in the drawing, the integrated optical pickup module according to the present invention includes a light emitting / receiving unit 10, a waveguide member 20, a prism block 30, and an objective lens unit 40.

The light emitting / receiving unit 10 includes a laser diode 11 as a light source and a photodiode 12 for detecting pit information on the disk D. The light emitting / receiving unit 10 is integrally installed on one side of an upper surface of the prism block 30. .

The waveguide member 20 is configured to have a thin plate shape so as to transmit a beam B emitted from the laser diode 11 of the light emitting / receiving part 10 to be provided on the lower inclined surface 31 of the prism block 30. do. One side of the waveguide member 20 is provided with a reflective diffraction grating 21 for diffracting the beam B emitted from the laser diode 11, and the other side is diffracted from the diffraction grating 21. A reflection mirror 22 reflecting the beam B is formed, and a beam B reflected by the reflection mirror 22 is transferred to the prism block 30 at a lower side of one side where the diffraction grating 21 is provided. Reflective holographic optical element 23 is provided.

The prism block 30 is provided with the light emitting / receiving unit 10 on the upper surface thereof, and the waveguide member 20 is provided on the lower inclined surface 31, and the lower sloped surface having the waveguide member 20 provided therein. An inclined surface 32 opposite to 31 is provided with a reflective surface 33 for reflecting the beam B passing through the waveguide member 20. In addition, an objective lens unit 40 to be described below is integrally installed on one side of the upper surface of the prism block 30.

The objective lens unit 40 serves to condense the beam B reflected from the reflective surface 33 on the disk D, and is attached to one side of the upper surface of the prism block 30, and the prism block 30. The objective lens 41 for condensing the beam (B) reflected from the reflective surface 33 on the disk (D), and the objective for supporting the objective lens 41 on one side of the upper surface of the prism block 30 It consists of a lens support 42. Since the objective lens support 42 and the objective lens 40 are manufactured by plastic injection molding, they can be integrally formed and attached to the upper surface of the prism block 30.

Referring to the operation of the integrated optical pickup module according to the present invention configured as described above are as follows.

First, the beam B emitted from the laser diode 11 of the light emitting / receiving unit 10 is transmitted to the waveguide member 20, separated into three beams by the reflective diffraction grating 21, and reflected to reflect the reflection mirror. It enters into (22). The beam B incident on the reflection mirror 22 is reflected back to the holographic optical element 23 and is reflected back to the prism block 30. The beam B transmitted to the prism block 30 is a reflecting surface 33 formed on the inclined surface 32 opposite the lower inclined surface 31 of the prism block 30 provided with the waveguide member 20. Is reflected from the object lens 41 of the objective lens 40 on the upper surface of the prism block 30. As such, the beam B transmitted to the objective lens 41 is focused by the objective lens 41 and converges on the surface of the disk D to focus. In this way, the beam B transmitted to the disk D reads the pit information on the disk D, and then passes through the objective lens 41 to be incident on the prism block 30, and then at the reflective surface 33. It is reflected and transmitted to the waveguide member 20. The beam B transmitted to the waveguide member 20 is separated from the holographic optical element 23 into one main beam and two sub beams so that one of the sub beams passes through the reflective mirror 22 and the reflective diffraction grating 21. The photodiode 12 of the over-receiver 10 is incident.

On the other hand, as can be seen in the description of the above configuration, when the components of the optical pickup module integrated, the entire optical pickup module can be used as one optical moving unit, so that there is no need for tilt adjustment and descent adjustment in the optical pickup module. Since the beam B emitted from the laser diode 11 is transmitted through the waveguide member 20 and the prism block 30, as in the prior art, the path B of the beam B travels 30% or more as compared with the air. It is shortened, and in particular, since the beam B is reflected in the thin waveguide member 20 to proceed, the light weight of the product in which the optical pickup module of the present invention is used is made small.

The integrated optical pickup module according to the present invention as described in detail above is an optical pickup module integrating the components constituting the optical pickup module, such as by plastic injection molding the objective lens supporter integrally with the objective lens and attaching it to the upper surface of the prism block. Since the whole is used as a moving optical unit, there is no need for tilt adjustment and descent adjustment at all, and the assembly performance is improved, and the light and small size of the product using the optical pickup module can be achieved.

Claims (3)

A light emitting / receiving unit including a laser diode as a light source and a photodiode for detecting pit information on a disk, a waveguide member for transmitting a beam emitted from the laser diode, and a half reflecting a beam passing through the waveguide member on a lower inclined surface A prism block provided on an inclined surface opposite to an inclined surface on which the waveguide member is provided with an inclined surface on which one side of the upper surface is provided with the light emitting / receiving unit, and the beam reflected from the reflecting surface is focused on a disk; Integrated optical pickup module, characterized in that consisting of an objective lens unit integrally installed on one side of the upper surface of the prism block According to claim 1, wherein the waveguide member has a reflective diffraction grating for diffracting the beam emitted from the laser diode on one side thereof, the reflection mirror for reflecting the beam diffracted by the diffraction grating is formed on the other side And a reflective holographic optical element configured to transmit a beam reflected from the reflective mirror to a reflective surface of the prism block under a side surface provided with the diffraction grating. The method of claim 1, wherein the objective lens unit is formed of an objective lens for condensing the beam reflected from the reflective surface of the prism block on the disk, and an objective lens support for supporting the objective lens on one side of the upper surface of the prism block Integrated optical pickup module.