KR930004022Y1 - Lenz operating device - Google Patents

Abstract

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Description

Objective lens drive

1 is an external view of an objective lens driving device in Embodiment 1 of the present invention.

2 is an exploded perspective view of FIG.

3 is a perspective view of a tracking coil.

4 is an exploded perspective view of Embodiment 2 of the present invention.

5 is a view showing a tube of a conventional objective lens driving device.

6 is a cross-sectional view of FIG.

* Explanation of symbols for main parts of the drawings

14: objective lens 15, 28: foker coil bobbin

16, 26: focuser coil 17, 27: tracking coil

20: outer yoke 21: magnet

22: inner yoke 24, 30: elastic support member

The present invention is suitable for an objective lens driving device used for pickup and recording of various optical discs and optical cards such as, for example, an optical scene video disc player, a compact digital audio disc player, and an optical data memory device.

The configuration of the conventional objective lens driving apparatus will be described with reference to FIGS. 5 and 6. In each figure (1) is a bobbin, an objective lens (2) is provided at a position eccentric from the rotating shaft, and is supported by the elastic support member (13) so as to be able to rotate and move in the axial direction. The support shaft 3 stands perpendicular to the yoke base 4 and engages with the bearing 5 provided in the center part of the bobbin 1. The laser beam emitted from the semiconductor laser is focused by the objective lens 2 to form a beam spot, and is irradiated onto the recording surface and reflected from the recording surface. However, in order to obtain good recording and reproduction characteristics, the objective lens 2 has a support shaft. The focusing operation is performed by rotating around (3) and sliding the tracking operation in the supporting shaft direction.

Next, a driving mechanism for performing the focusing operation and the tracking operation will be described. On the yoke base 4, a tracking drive yoke 6, a focus drive magnet 7 and a focus drive inner yoke 8 are arranged in pairs, and a tracking drive yoke ( 6) is equipped with a tracking drive magnet 9 and a focus drive magnet 7 is equipped with a focus drive external yoke 10. Between the focus driving inner yoke 8 and the focus driving outer yoke 10, the focus driving coil bobbin 1 and the focus coil 11 are positioned to be rotatable and sliding displacement.

In addition, the tracking coil 12 is provided on the outer circumference of the focuser coil 11, and the bearing portion 5 is attached to the support shaft 3 so that the tracking driving magnet 9 and a part of the tracking coil 12 face each other. It is inserted and supported.

However, the above configuration has the problems described below. For example, in miniaturization of the objective lens driving apparatus by miniaturization of the entire recording and reproducing apparatus, in miniaturization of the tracking coil, the magnet or the yoke is enlarged so that the driving force applied to these coils is not reduced. There was a problem that an expensive high performance magnet had to be used.

In view of the above problems, the present invention provides an objective lens driving apparatus capable of realizing a small size at a low price without degrading the rotational driving force applied to the tracking coil and without degrading the vibration characteristics of the movable portion of the objective lens driving apparatus. The purpose is to.

In order to solve the above problems, the objective lens driving apparatus of the present invention includes a bobbin equipped with an objective lens for irradiating an optical spot on a recording medium, and a bobbin support member for moving the bobbin in a focusing direction and a tracking direction. A focusing coil for driving the bobbin in a focusing direction parallel to the optical axis direction of the objective lens, a tracking coil for driving the bobbin in a tracking direction orthogonal to the focusing direction, and the pore for operating these coils; And an inner yoke positioned on the inner circumference of the cusicle, and a magnet attached to the yoke, wherein the tracking coil is installed inside the focus coil.

The operation of the present invention is as follows.

By installing the tracking coil on the inner circumferential side of the focus coil, the outer diameter of the objective lens driving device can be made smaller by the thickness of the tracking coil, and the magnet is attached to the inner yoke located on the inner circumference of the focus coil. By positioning the tracking coil on the inner circumferential side of the focus coil, the magnetic flux that links the tracking coil can be increased to improve the driving force in the tracking direction.

Hereinafter, the objective lens driving device of Embodiment 1 of the present invention will be described with reference to FIGS. 1 to 3. In Figures 1 and 2, 14 is the objective lens, 15 is the focus coil bobbin, 16 is the focus coil, 17 is the tracking coil, 18 is the support shaft, and 19 is Is the bearing, 20 is the outer yoke, 21 is the magnet, and 22 is the inner yoke. The focuser bobbin 15 supports the objective lens 14 and supports the focuser coil 16 in part of the outer circumference. On the inner circumferential side of the focuser coil 16, four tracking coils 17 having curvature substantially equal to the inner diameter of the focuser coil are mounted.

One end of the tracking coil has four cut-out portions in the poco coil bobbin 15 so as to be adhesively supported by the focal coil bobbin 15.

A bearing 19 provided at the center of the focal coil bobbin 15 is fitted to a support shaft 18 that is erected perpendicular to the base 25. Moreover, the part which is not in contact with the focus coil bobbin 15 of the said focus coil 16 is located in the magnetic circuit between the outer yoke 20 and the magnet 21. As shown in FIG.

The driving force in the direction of the center of rotation acts on the focuser coil 16 by flowing a current through the focusing coil 16. Focusing is performed by controlling the movement in the direction of the center of rotation of the objective lens 14 by changing the magnitude and direction of the current in accordance with the signal output obtained by detecting the focus shift on the recording surface of the laser beam.

The tracking coil 17 is wound in a concentric or quadrangular shape close to a square, and as shown in FIG. 3, the tracking coil 17 has a portion 17a, 17b through which current flows in the direction of the center of rotation. It can roughly divide into the parts 17c and 17d which an electric current flows in the circumferential direction of a rotation center axis. The tracking coil 17 is arranged so that a part thereof faces the tracking drive magnet 21, and when the current flows in the tracking coil 17, the current flows in the circumferential direction of the center of rotation 17c, 17d. In this case, currents in opposite directions flow to receive the driving force in the opposite directions from the tracking drive magnet 21, and these forces are canceled out. Only one of the parts 17a and 17b in which current flows in the direction of the center of rotation of the tracking coil 17 faces the tracking drive magnet 21, and rotational driving force is applied only to the part that faces the tracking coil 17. .

In general, four tracking coils 17 are generally mounted in symmetrical positions, and the direction of the current is considered so that each coil is forced in the same rotational direction.

The driving current according to the signal output obtained by detecting the deviation of the laser beam with respect to the predetermined recording track is applied to the tracking coil 17 to rotate the objective lens 14 to the recording track of the laser beam. To ensure tracking.

Miniaturization of the objective lens driving device requires that the heights of the focusing coil 16, the tracking coil 17, and the focusing coil bobbin 15 are all accommodated within the same range, and the outer diameter is made smaller. In order to do this, the tracking coil 17 and the magnet 21 need to have the focus coil 16 located on the inner circumferential side. In this embodiment, by using the focus coil bobbin 15 in which a part of the focus coil 16 becomes an air core, the outer diameter is further reduced, and the focus coil of the air core portion easily vibrates. The tracking coil 17 suppresses the loss. Further increasing the vibration suppression effect by the tracking coil 17 A part of the tracking coil 17 is supported by the focus coil bobbin 15 to firmly secure the focus coil 16 and the tracking coil 17 itself. It is fixed.

In addition, since the tracking coil 17 can be positioned near the magnet 21, it is possible to prevent the reduction of the rotational torque caused by the tracking coil 17 coming closer to the support shaft, and thereby Small size can be reduced. In Fig. 2, reference numeral 23 denotes a balancer, 24 denotes an elastic support member, and 25 denotes a yoke base.

4 is an objective lens driving device showing Embodiment 2 of the present invention.

In this figure, 26 is a focus coil, 27 is a tracking coil, and 28 is a focus coil bobbin. In the present embodiment, only one pair of focusing coils 16 of the first embodiment are used, and the pair of focusing coils 16 is disposed in a symmetrical position with respect to the support shaft 19. The tracking coil 27 is located on the inner circumferential side of each focus coil 26. The focus coil 26 is partially in contact with the focus coil bobbin 28 on its outer circumferential surface, the other non-contact portion forms a concentric circle, and a part of the non-contact portion is located in the magnetic circuit.

A part of the tracking coil 27 is located in the magnetic circuit, and a part of the tracking coil is always considered to be out of the magnetic circuit so that the driving force in the rotational direction is not lost.

In addition, 29 is a balancer, 30 is an elastic support member.

The operation of the objective lens driving device configured as described above is similar to that in the first embodiment, but in the case where the outer diameter of the focus coil bobbin is the same, since the outer surface of the focus coil is accommodated in the outer diameter of the focus coil bobbin, the first embodiment More miniaturization is possible. In addition, the vibration characteristics are improved as the focus coil and tracking coil become smaller.

As described above, the pair of focusing coils is disposed in a symmetrical position on the side of the focusing coil bobbin, the tracking coils are adhered to the inner circumference of the focusing coils, and the inner yoke and the magnet are positioned on the inner circumference of each tracking coil. By doing so, it is possible to reduce the size of the objective lens driving device.

As described above, the present invention adheres the tracking coil to the inner circumferential side of the focus coil, thereby bringing the tracking coil close to the magnet and without dropping the servo gain which greatly depends on the driving force and the secondary resonance of the focus coil. It is possible to reduce the size and weight of the drive system.

Claims (3)

(15) and (28) equipped with objective lenses (14) for irradiating light spots on a recording medium, and bobbin support members (24) and (30) for movably supporting the bobbin in a focus direction and a tracking direction. And the focusing coils 16, 26 and bobbins 15 and 28 driving the bobbins 15 and 28 in a focusing direction parallel to the optical side direction of the objective lens 14. Tracking coils 17 and 27 driving in a tracking direction orthogonal to the focusing direction, and an inner yoke 22 positioned on the inner circumference of the focusing coils 16 and 26 to operate these coils. And a magnet 21 attached to the inner yoke 22, and the tracking coils 17 and 27 are installed on the inner circumferential side of the focus coils 16 and 26. Objective lens drive device. The objective lens driving device according to claim 1, wherein a part of the tracking coil (17) is sandwiched between the bobbin (15) and the focuser (16). The objective lens drive device according to claim 2, wherein an adhesive is interposed between the tracking coil (17) and the focus coil (16) and between the tracking coil (17) and the bobbin (15).