KR100224749B1 - A separable optical head - Google Patents

Abstract

The present invention relates to a separate optical head.

The present invention provides a separate optical head comprising a movable optical system that focuses and scans light onto a disk, and which has a fixed optical system that provides incident light to the movable optical system and detects reflected light reflected from the disk. And an optical axis correction means for displacing the incident optical axis in the vertical and horizontal directions so that the incident optical axis incident from the fixed optical system to the movable optical system and the reflected optical axis reflected from the movable optical system always coincide with each other. Therefore, errors in tracking and focusing control due to misalignment of the optical axis can be prevented, thereby improving product quality.

Description

Detachable Optical Head

1 is a schematic view showing a conventional detachable optical head.

2 is a schematic perspective view showing a detachable optical head according to the present invention.

3 is a diagram showing an operating state of the split optical head shown in FIG. 2, in which (a) is a state of correcting the incident optical axis shifted in the horizontal direction, and (b) is a state of correcting the incident optical axis shifted in the vertical direction. .

4 is a view for explaining the optical axis displacement of the incident light according to the angle of the glass plate in the detachable optical head according to the present invention.

* Explanation of symbols on the main parts of the drawings

10: fixed optical system 20: movable optical system

30: photodetector 31: beam splitter

32: photodetector 40: optical axis displacement portion

41, 42: actuator 43, 44: glass plate

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a split type optical head which is divided into a movable optical system and a fixed optical system among optical heads for recording and / or reproducing optical information. In particular, the incident optical axis scanned from the fixed optical system and the reflected optical axis reflected from the movable optical system are always A separate optical head provided with optical axis correction means for matching.

An optical head is an apparatus that scans predetermined light onto an optical recording medium and detects or reflects reflected light from the optical recording medium, and reads or writes information recorded on the optical recording medium, for example, a disc shaped optical recording medium such as a magneto-optical disk or a compact disk. It is installed in the disk drive that drives.

In disc drives, the head is moved in the radial direction of the disc in order to access a focus point on a desired track on a rotating disc, to reduce access time, i.e. for high-speed searching, as quickly and accurately as possible. It is necessary to control the conveyance of the head.

The separate optical head, which is separated into a moving optical system and a fixed optical system, has an advantage in terms of access time than an integrated moving body because of its light weight.

An example of a conventional detachable optical head is shown in FIG. 1, which includes a light beam generator comprising a light source 1a, a collimating lens 1b, a beam shaping prism 1c, a beam splitter 1d, and a beam splitter. (1e) and a fixed optical system (1) having a photodetection portion serving as a quadrant detector (1f), and a movable optical system (2) including an objective lens (2a) and a reflecting mirror (2b).

In the conventional detachable optical head configured as described above, the moving trajectory of the movable optical system is shifted from the incident optical axis while the movable optical system is moved in the radial direction of the disc, and the moving trajectory of the movable optical system is shifted from the incident optical axis. (2) An optical axis displacement occurs between the incident light reaching the disk D and the reflected light reflected from the disk D via the reflective mirror 2b and the objective lens 2a, thereby causing errors in tracking and focusing. Will occur. That is, the error signal detected by the photodetector includes not only the focusing error signal and the tracking error signal due to the disc displacement (eccentricity and vertical vibration) but also the error signal due to the optical axis displacement, so that the tracking and focusing of the light beam are matched. Even if the 4-split photodetector 1f does not have the same amount of light received, it is detected as if there is a tracking error. Therefore, an error occurs during tracking and focusing control, thereby degrading the quality of the product.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described problems, and provides a separate optical head capable of correcting such that an incident optical axis scanned from a fixed optical system and a reflected optical axis reflected from a movable optical system are always matched.

In order to achieve the above object, the present invention provides a split type optical system comprising a fixed optical system for focusing and scanning light onto a disk to provide incident light to a movable optical system that is movable with respect to the disk, and at the same time to detect reflected light reflected from the disk. In the head, the incident optical axis is displaced in the vertical and horizontal directions so that the incident optical axis incident from the fixed optical system to the movable optical system and the reflected optical axis reflected from the disk and returned to the fixed optical system through the movable optical system are always coincident with each other. It is characterized in that the optical axis correction means to be provided.

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

2 shows a separate optical head according to the present invention, which includes a light beam generator having a light source 11, a collimating lens 12, a beam shaping prism 13, and a beam splitter 14; It consists of a fixed optical system 10 comprising a beam splitter 15, a photodetector having a four-segment photodetector 16, and a movable optical system 20 having an objective lens 21 and a reflecting mirror 22. Here, according to the features of the present invention, the light is incident from the light source 11 of the fixed optical system 10 and is incident on the movable optical system 20 and reflected from the disk D and fixed through the movable optical system 20. Optical axis correction means for displacing the incident optical axis in the vertical and horizontal directions is provided so that the reflected optical axis returned to the optical system 10 is always coincident.

The optical axis correction means is fixed to the movable optical system 20, the beam splitter 31 for separating the incident light, and the light detector 30 and the optical detector 32 for detecting the optical axis displacement from the separated incident light and the A pair of actuators 41 and 42 located on an optical path between the fixed optical system 10 and the movable optical system 20 and driven by signals detected by the photodetector 32, respectively, and the actuator 41 ) And (42), the optical axis displacement portion 40 is composed of glass plates 43 and 44 having predetermined refractive indices which displace the incident optical axis while being rotated in the vertical and horizontal directions, respectively.

In this case, a four-segment photodetector is preferably used as the photodetector 32, and the optical axis displacement unit 40 is preferably installed integrally with the fixed optical system 20.

The detachable optical head according to the present invention configured as described above operates as follows. First, the light generated from the light source 11 becomes parallel light by the collimating lens 12, and the parallel light is beam-forming prism 13. The incident light is incident on the beam splitter 31 of the photodetector 30 installed in the movable optical system 20, and the incident light is separated by the beam splitter 31, and a part thereof is reflected mirror 22. The light is focused onto the disk D through the objective lens 21, and a part of the light is incident on the photodetector 32, so that the displacement of the incident optical axis is detected by the photodetector 32.

When the displacement of the incident optical axis is detected by the photodetector 32, the pair of actuators 42 and 42 of the optical axis displacement unit 40 are driven by the signal to vertically and vertically move the glass plates 43 and 44. It is displaced in the horizontal direction to coincide with the reflected optical axis.

The principle of displacing the incident optical axis will be described with reference to FIG.

As shown in FIG. 4, when incident light α is incident from the air onto the glass plate 43 having a refractive index of n at an angle of θ , it is refracted to θ ′ ′ with respect to the vertical surface of the glass plate 43. In addition, the exiting light β with respect to the glass plate 43 forms an θ angle with respect to the vertical plane of the glass plate 43 as in the case of incidence. At this time, the outgoing light β passing through the glass plate 43 having a thickness d causes the displacement of doff with respect to the imaginary plane α 'extending the incident light α, and the numerical value is as follows. Calculated by a formula based on Snell's Law.

When the refractive index of air is 1,

For example, n = 1. When 80, θ = 30 ° and d = 3 mm, doff is 0.583 mm.

In this way, it is possible by fixing the glass plate 43 and changing the incident angle θ to move the optical axis of the outgoing light β having passed through the glass plate 43. On the contrary, the incident light α is fixed and the optical axis of the emitted light β can be displaced by changing the angle of the glass plate 43.

According to the above-described principle, the process of displacing the incident optical axis by driving the glass plates 43 and 44 in this embodiment will be described.

First, as shown in FIG. 3 (a), when the incident optical axis incident on the movable optical system is shifted in the horizontal direction (Y direction, tracking direction), the tracking direction error is reflected by the reflected light reflected from the disk D and returned. Will occur. In this case, the glass plate 43 is rotated about the X axis so that the displacement of the incident optical axis in the Y direction detected by the quadrant photodetector 32 becomes zero.

As shown in FIG. 3 (b), when the incident optical axis incident on the movable optical system is shifted in the vertical direction (X direction, focusing direction), an error in the focusing direction occurs in the reflected light reflected from the disk and returned. do. In this case, the glass plate 44 is rotated about the Y axis to rotate the incident optical axis displacement in the X direction detected by the quadrant photodetector 32 to be zero, thereby displacing the incident optical axis so that the incident optical axis and the reflected optical axis coincide.

As described above, the split optical head of the present invention has the incident optical axis in the vertical and horizontal directions so that the incident optical axis incident from the fixed optical system to the movable optical system and the reflected optical axis reflected from the disk and returned to the fixed optical system through the movable optical system are coincident with each other. Since the optical axis correction means for displacing is provided, it can be adjusted so that the incident optical axis and the reflected optical axis always coincide, so that only pure tracking error and focusing error signals are detected by the optical detector of the fixed optical system.

Therefore, it is possible to prevent an error in tracking and focusing control due to the deviation of the conventional optical axis, thereby improving the product quality.

Claims (3)

A split optical head comprising a fixed optical system for focusing and scanning light onto a disk to provide incident light to a movable optical system that is movable with respect to the disk and at the same time to detect reflected light reflected from the disk, from the fixed optical system 10. The incident optical axis is vertically and horizontally aligned so that the incident optical axis incident to the movable optical system 20 and the reflected optical axis reflected from the disk and returned to the fixed optical system 10 through the movable optical system 20 are always coincident with each other. Separation optical head, characterized in that the displacement optical axis correction means provided. The optical axis correction means according to claim 1, wherein the optical axis correction means is fixed to the movable optical system 20, and includes a beam splitter 31 for separating the incident light, and an optical detector 32 for detecting the optical axis displacement from the separated incident light. A pair of actuators 41 positioned on the optical path between the fixed photodetector 30 and the fixed optical system 10 and the movable optical system 20 and driven by signals detected by the photodetector 32, respectively. (42) and the optical axis displacement portion (40) made of glass plates (43) and (44) having predetermined refractive indices that rotate the incident optical axis while being rotated in the vertical and horizontal directions by the actuators (41) and (42), respectively. And a detachable optical head comprising: 3. The detachable optical head according to claim 2, wherein the optical axis displacement portion (40) is integrally provided in the fixed optical system (10).