KR100212666B1 - A very thin optical pick up device - Google Patents

Abstract

The present invention relates to an ultra-thin optical pickup device, and in the related art, the aperture stop is integrated at the bottom of the mover, and even though the aperture stop is thin, there is a limitation in thinning the optical pickup device because there is a thickness of the basic aperture stop. In the present invention, the barrier film is formed on the edge of the objective lens by a metallic coating material or a processing treatment, and instead, a separate aperture stop is omitted from the mover, thereby forming a mover that is thinner or the same as the thickness of the objective lens. This makes it possible to achieve a thinner optical pickup device.

Description

Ultra Thin Optical Pickup

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical pickup apparatus, and more particularly, to an ultra-thin optical pickup apparatus for reducing the size of pick-up by forming an aperture stop on the surface of an objective lens.

In general, an optical pickup device that reads a signal recorded on a disk in the form of irregularities or change of state of a disc using a laser beam to condense the laser beam. At a predetermined position of the objective lens, an aperture stop is provided to remove the rest of the light except for the required size.

1 is a configuration diagram of an optical pickup apparatus in which a conventional aperture stop is integrated in a mover. As shown in FIG. 1, a bottom surface is formed to be uneven to condense a laser beam on a lower side of the disc 1 on which a predetermined signal is recorded. An objective lens 2 is provided, and an outer diameter of the objective lens 2 is supported by a mover 3, and an aperture diaphragm 4 is formed at a lower end of the mover 3 to remove unnecessary light. A reflector 5 is disposed below the aperture stop 4, and a laser module 6 is mounted at one side of the reflector 5 at a predetermined interval.

In the conventional optical pickup device configured as described above, when light is emitted from a light emitting element (not shown) of the laser module 6, the light is detected by the reflector 5 and is collected by the objective lens 2. The condensed light is reflected by a predetermined amount of light by irregularities formed at the bottom of the disk 1, and is then condensed by a light receiving element (not shown) of the laser module 6 via the reflecting mirror 5 to thereby signal the disk 1. Was to be read. At this time, the objective lens (2) is to be movable by the mover (3) supported from the lower side of the outer periphery, and the aperture stop (3) integrated in the lower end of the mover (2) is reflected from the reflecting mirror The light serves to prevent unnecessary light from entering the lens 2.

In this case, in order to manufacture the optical pickup device in an ultra-thin type, it is common to reduce the thickness (not shown) of the base (not shown) or to lower the height of the reflector 5 or to minimize the free space for focusing or the objective lens. There is a method such as thinning the thickness of (2), but first of all, the base has a predetermined amount of thickness basically, and thus there is a limit, and the height of the reflector 5 is already determined when the objective lens 2 is determined. Since the distance from the reflector 5 to the light emitting element is determined, only the reflector 5 cannot be adjusted independently, and the free space for focusing must exist due to the characteristics of the device, and the objective lens 2 is also independently independent of its specification. Since each of the above-mentioned methods has a certain limit, it cannot be adjusted.

In addition to these methods, the thickness of the movie 3 may be reduced to achieve a thinner optical pickup device. In the conventional optical pickup device, the aperture stop 4 is integrated at the bottom of the mover 3. As a form, even if the thickness of the aperture stop 4 is made thin, the thickness of the basic aperture stop 4 is also limited.

Accordingly, an object of the present invention is to provide an ultra-thin optical pickup device by minimizing the thickness of the mover.

1 is a schematic view showing the configuration of a conventional optical pickup device.

Figure 2 is a schematic diagram showing the configuration of the optical pickup device of the present invention.

3 (a) and 3 (b) are longitudinal cross-sectional views of the objective lens showing the position of the blocking film in the optical pickup device of the present invention.

4 (a) to 5 (b) are back views and plan views of the objective lens in the form of a blocking film in the optical pickup device of the present invention.

* Explanation of symbols for main parts of the drawings

10,10 ': objective lens 11,11', 11a, 11a ': blocking film

11b, 11b ': Machining part

In order to achieve the object of the present invention, there is provided an ultra-thin optical pickup device comprising an objective lens having a blocking portion for blocking unnecessary light sources at the edge, and a mover for supporting the objective lens.

Hereinafter, the ultra-thin optical pickup device according to the present invention will be described in detail with reference to the embodiment shown in the accompanying drawings.

In the optical pickup device according to the present invention, as shown in FIG. 2, the bottom surface of the optical pickup device is unevenly formed so that a predetermined signal is recorded, and a laser beam is focused on the lower side of the disk 1 and is unnecessary. A blocking film 11 for blocking a light source, an objective lens 10 formed at a lower edge, a mover 20 coupled to a separate objective lens moving device (not shown) supported by the objective lens 10, and The reflector 5 is disposed below the mover 20, and the laser module 6 is mounted at one side of the reflector 5 at a predetermined interval.

The protrusion 12 is formed at the edge of the objective lens 10, and the support protrusion 21 is formed at the inner diameter of the mover 20 so that the protrusion 12 is seated on the support protrusion 21. The distance from the striking protrusion 12 to the lower end of the objective lens 10, that is, the thickness of the convex portion is formed to be thicker or the same as the thickness of the support protrusion 21.

In the drawings, the same reference numerals are given to the same parts as in the prior art.

In the optical pickup device according to the present invention configured as described above, the general light source is processed in the same order as in the prior art, and the following description is omitted, and the following is provided with an objective lens having a blocking film 11 to which the present invention is limited. 10) will be described centering on the mover 20 from which the aperture stop has been removed.

That is, the light source reflected by the reflector 5 is integrated in the objective lens 10 and a predetermined amount of light is reflected by the unevenness formed at the lower end of the disk 1, at which time it is unnecessary among the light sources scattered by the reflector 5. The light source is blocked by the blocking film 11 of the objective lens 10, and only the necessary light source touches the disk 1 via the objective lens 10.

As a result, it is possible to sufficiently block unnecessary light sources without forming a separate aperture diaphragm, and also to form a mover 20 that is thinner or the same as the thickness of the objective lens 10, thereby providing a thinner optical pickup device. You can do it.

Meanwhile, as shown in FIGS. 3A and 3B, the blocking films 11 and 11 ′ are formed on the upper and lower surfaces of the objective lens 10, that is, the disk ( The above-described effects can also be achieved by forming it on the side of the not shown) or the reflector (not shown), and the shape of the blocking films 11 and 11 'is also shown in FIGS. 4 (a) to 5 (b). As shown, the coating (11a, 11a ') on the upper and lower sides of the objective lens 10 by using a metallic property such as aluminum, or the surface or corrosion processing on the upper and lower sides of the objective lens 10'. The above-described predetermined effects can be achieved even by forming (11b, 11b ') or the like.

As described above, in the ultra-thin optical pickup device according to the present invention, a barrier film is formed on the edge of the objective lens by a metallic coating material or a processing treatment, and instead, a separate aperture stop is omitted from the mover, It is possible to form a thinner or the same mover compared to the thickness, as a result there is an effect that the thickness of the optical pickup device can be realized.

Claims (7)

An ultra-thin optical pickup device, comprising: an objective lens having a blocking portion for blocking an unnecessary light source at an edge thereof, and a mover for supporting the objective lens. The ultra-thin optical pickup device of claim 1, wherein an edge portion of the objective lens is formed, and a support protrusion 21 is formed at an inner diameter of the mover, and the protrusion protrusion is seated and coupled to the support protrusion. . The ultra-thin optical pickup apparatus of claim 2, wherein the support protrusion of the mover is formed to have a thickness smaller than that of the objective lens convex. The ultra-thin optical pickup apparatus of claim 1, wherein the blocking unit is formed on the disc side of the objective lens. The ultra-thin optical pickup apparatus of claim 1, wherein the blocking unit is formed on the reflector side of the objective lens. The ultra-thin optical pickup device of claim 1, wherein the blocking unit is formed by coating a separate blocking layer. The ultra-thin optical pickup apparatus of claim 1, wherein the blocking unit is formed by processing a predetermined portion of the objective lens.