KR19980058788A - Optical pickup - Google Patents

Abstract

The present invention discloses an optical pickup.

The present invention is a laser diode for scanning a laser of a predetermined wavelength as a light source; A beam splitter positioned to face the laser diode, the beam splitter reflecting and transmitting a portion of the beam scanned from the laser diode; A collimator lens for shaping the beam reflected from the beam splitter into parallel light; An objective lens for focusing parallel light shaped by a collimator lens on an optical disk; Light amount adjusting means for adjusting the amount of light scanned by the objective lens by changing the position of the collimator lens about the optical axis direction; A photodiode positioned to face the beam splitter to detect a signal from a beam reflected from the optical disc, comprising: a compact disc and a digital video disc through a single objective lens and a collimator lens slidably installed in the optical axis direction By enabling recording / reproducing, the unit price can be reduced and the size of the product can be reduced as compared with the conventional optical pickup.

Description

Optical pickup

The present invention relates to an optical pickup, and more particularly, to an optical pickup capable of recording / reproducing not only a compact disk but also a digital video disk.

In general, optical discs have been relatively widely used in recent years because they can be recorded / reproduced with a relatively high density compared to LPs or magnetic recording tapes, and are particularly semi-permanent.

The most widely used and widely used as such an optical disk is a compact disk (hereinafter abbreviated as CD).

However, such a compact disc has a limited recording capacity. For example, such a compact disc cannot be easily used for movies, music, games, and other multimedia for more than 90 minutes, and at least two compact discs have to be repeatedly played and satisfied.

Recently, in order to solve the problem of compact discs, digital video discs (hereinafter, simply abbreviated as DVDs), a next-generation optical disc, have been developed. Such a DVD has a storage capacity of about 25 times that of a CD. It can read 10 million bits of data in one second. This is because a DVD is made by overlapping two discs of approximately 0.6 mm in thickness and has about half the feet and tracks of the CD. In other words, since one pit of data and a track are about 0.4 feet and about 0.8 microns in DVD, high density recording is possible.

Thus, due to its large capacity and high operability, it is expected that DVD will be easily used in various sectors such as music, movies, games and other multimedia.

On the other hand, when playing such a DVD, it is desirable to satisfy the needs of consumers, as compared to providing a player that can use only DVD, so that the most widely used CD can be satisfied. The development of an optical pickup capable of reproducing all of these has been steadily pursued.

In this way, as a widely known optical pickup, two lenses are used separately or a two-focal lens system in which a hologram is installed on the lens surface has been developed.

However, the method of using two lenses separately causes problems such as the increase in the size of the device and the increase in unit cost, such as the need for a device to replace the lens. The method of using the hologram requires a high-precision processing technology for the molding die. Technical difficulties are emerging.

Therefore, it is highly desirable to reduce the cost and the small size of the device to allow both the CD and the DVD to be played through one objective lens.

1 shows a pickup capable of playing CDs and DVDs through a single objective lens.

This includes a laser diode 1 which scans a laser of a predetermined wavelength as a light source, and a beam splitter 2 which is positioned to face the laser diode 1 at a 45 degree angle and reflects a part of the scanned beam and transmits a part thereof. ). In this case, a diffraction grating is provided on the optical path between the laser diode 1 and the beam splitter 2 to impart astigmatism to the beam scanned from the laser diode 1, that is, to separate it into +1, -1, 0 order beams. (3) is arranged.

In addition, a collimator lens 4 for shaping a beam that is diffused and scanned, i.e., converts it into parallel light, is positioned directly above the beam splitter 2, and the beam shaped by the collimator lens 4 is lighted. The objective lens 5 for focusing on the disk D is located.

At this time, between the objective lens 5 and the collimator lens 4 is adjusted according to the type of the optical disk (D), that is, whether the CD, DVD, the amount of beam (light quantity) to be scanned in parallel through the collimator lens (4) A kind of aperture 6 is positioned as an adjusting means for the purpose.

Reference numeral 7 is a photodiode located directly below the beam splitter 2.

In the conventional optical pickup configured as described above, when the DVD is to be played first, the diaphragm 6 is opened to the maximum.

When the laser beam is scanned from the laser diode 1 in this state, as shown in FIG. 2, the beam from the laser diode 1 passes through the diffraction grating 3, and then a part of the beam splitter 2 is detected. Is transmitted through and part is reflected towards the collimator lens 4. Then, the collimator lens 4 passes through the diaphragm 6 in the form of a parallel beam and is focused on the optical disk, that is, the DVD (D), through the objective lens 5. At this time, since the diaphragm 6 is opened to the maximum, two focal points are formed as shown in the drawing, so that the beam reflected from the DVD can be detected by the signal through the photodiode 7, so that reproduction can be easily performed. Will be.

On the other hand, in the reproduction of the CD, as shown in FIG. 3, the aperture 6 is adjusted to reduce the amount of beams passing through the collimator lens 4. That is, the outer peripheral portion of the objective lens 5 is blocked within a predetermined range. As a result, only a small lens portion of the central side portion of the objective lens 5 passes, whereby the spot can be narrowed. Therefore, the CD can be easily played.

However, in such an optical pickup, it is difficult to control the aperture for controlling the amount of beam passing through the objective lens, and it is necessary to precisely adjust it, which leads to design difficulties. Such as causing a problem.

The present invention has been made to solve such a conventional problem, and an object thereof is to provide an optical pickup that can easily realize CD and DVD playback, as well as cost reduction and particularly easy design.

In order to achieve the above object, the optical pickup according to the present invention includes a laser diode for scanning a laser of a predetermined wavelength as a light source; A beam splitter positioned to face the laser diode, the beam splitter reflecting and transmitting a portion of the beam scanned from the laser diode; A collimator lens for shaping the beam reflected from the beam splitter into parallel light; An objective lens for focusing parallel light shaped by the collimator lens on an optical disk; Light amount adjusting means for adjusting the amount of light scanned by the objective lens by changing the position of the collimator lens about the optical axis direction; And a photodiode positioned to face the beam splitter to detect a signal from the beam reflected from the optical disk.

1 is a block diagram conceptually showing a conventional optical pickup.

2 and 3 are diagrams showing an example of reproducing a compact disc and a digital video disc through a conventional optical pickup.

4 conceptually illustrates an optical pickup according to the present invention;

Explanation of symbols for the main parts of the drawings

10 laser diode 20 beam splitter

30: collimator lens 40: objective lens

50: photodiode 60: guider

61: coil 70: magnet

D ': Compact Disc D: Digital Video Disc

Such a characteristic configuration and the resulting effects of the present invention will become more apparent from the following detailed description of the invention with reference to the accompanying drawings.

4 is a block diagram conceptually illustrating an optical pickup according to the present invention.

As shown in the drawing, the optical pickup includes a laser diode 10, a beam splitter 20, a collimator lens 30, an objective lens 40, and a photo diode. And 50) are roughly divided into light quantity adjusting means for adjusting the amount of light incident on the objective lens 40 by transferring the collimator lens 30 in the optical axis direction.

The laser diode 10 described above scans a laser having a predetermined wavelength as a light source, and the beam splitter 20 reflects the laser beam scanned from the laser diode 10 toward the objective lens 40. Some reflect and some transmit.

On the other hand, the collimator lens 30 is located directly above the beam splitter 20 to shape the laser beam, that is, to convert the laser beam that is diffused and scanned into parallel light, the objective lens 40 is collimator The normalized parallel light is focused on the optical disk D through the lens 30.

At this time, as the optical disk D, both the compact disk D 'or the digital video disk D can be selected and used.

The photodiode 60 described above serves to detect a reproduction signal from a beam reflected from the optical disk D.

On the other hand, the light amount adjusting means, as having substantially the most essential element of the present invention, is provided with a cylindrical guider (60) having a form surrounding the collimator lens 30 and a predetermined distance from the above-described collimator lens (30) do.

In this case, a coil 61 that receives power from the outside is wound in a predetermined direction along the length direction on the inner circumferential surface of the guider 60.

In addition, the magnet surrounding the outer peripheral surface of the collimator lens 30 described above, as well as forming a predetermined magnetic field when power is applied to the coil 61 wound on the inner peripheral surface of the guider 60; 70) is provided.

The process of reproducing compact discs and digital video discs through the optical pickup of the present invention configured as described above will be described sequentially.

First, the playback process of the digital video disc D will be described.

The laser beam scanned from the laser diode 10 passes through the beam splitter 20 and is incident to the collimator lens 30. At this time, the amount of light passing through the collimator lens 30 is located at a distance from the beam splitter 20 at the position of the collimator lens 30, so that a large amount of light is incident, and at the same time, the collimator lens The amount of light incident from the 30 toward the objective lens 40 is increased. Therefore, as shown by a solid line in FIG. 4, light is incident on both sides of the objective lens 40 so that focus is easily formed on the digital video disc D. FIG.

The beam focused on the optical disk D is reflected again, passes through the collimator lens 30 and the beam splitter 20, and is then focused on the photodiode 50 positioned to face the beam splitter 20. The reproduction signal is detected through the photodiode 60.

On the other hand, in order to reproduce the compact disc D 'in the process of reproducing the digital video disc D as described above, power is applied to the coil 61 wound on the inner circumferential surface of the guider 60. As a result, the magnetic field generated between the coil 61 and the magnet 70 surrounding the outer circumferential surface of the collimator lens 30 causes the collimator lens 30 to display the digital video disc D as shown by a virtual line. It is lower than the position of the collimator lens 30 which was positioned for reproduction.

Therefore, a relatively small amount of light is incident from the beam splitter 20, and thus the amount of light incident on the objective lens 40 is also reduced, so that the focal length is far from the virtual line. Therefore, the compact disc D 'can be easily played back.

On the other hand, in reproducing the compact disc D 'and thus reproducing the digital video disc D, when the coil 61 is applied to the opposite electrode, the collimator lens 30 is shown in solid lines. Upwards to such a position, the reproduction is possible.

As described above, the optical pickup according to the present invention enables recording / reproducing of a compact disc and a digital video disc through a single objective lens and a collimator lens slidably installed in the optical axis direction, thereby making it possible to provide a conventional optical pickup. Compared with this, it is possible to reduce cost and miniaturize the product.

Claims (4)

A laser diode 10 for scanning a laser of a predetermined wavelength as a light source; A beam splitter (20) positioned to face the laser diode (10) and reflecting a portion of the beam scanned from the laser diode (10) and transmitting a portion of the beam; A collimator lens 30 for shaping the beam reflected from the beam splitter 20 into parallel light; An objective lens 40 for focusing parallel light shaped by the collimator lens 30 on the optical disk; Light amount adjusting means for adjusting the amount of light injected into the objective lens 40 by changing the position of the collimator lens 30 in the optical axis direction; And a photodiode (50) positioned to face the beam splitter (20) to detect a signal from the beam reflected from the optical disk. The method of claim 1, wherein the light amount adjusting means comprises: a guider (60) wound around the inner circumferential surface of the coil (61) receiving power from a predetermined direction along a longitudinal direction; And a magnet (70) provided on the outer circumferential surface of the collimator lens (30) and forming a magnetic field together with the coil (61) wound on the inner circumferential surface of the guider (60). The optical pickup according to claim 1, wherein the optical disk is a compact disk (D '). The method of claim 1, The optical disc is a digital video disc (D).