KR100486440B1 - Object lens driving device - Google Patents

Abstract

In the objective lens driving apparatus provided with the protective member around the objective lens, a problem arises that the signal recording medium collides with both sides of the lens holder.

Protective members 27 and 28 are provided on both sides of the objective lens 2 of the lens holder 1, respectively, so that the lens holder 1 remains on the signal recording medium even when the lens holder 1 is tilted and displaced. When colliding, the protection member 27 or 28 is made to collide. In this case, the protection members 27 and 28 are positioned by the positioning parts 24a and 25a provided in the lens holder 1 and installed in the lens holder 1, and the protection in the lens holder 1 is provided. The installation positions of the members 27 and 28 are determined.

Description

Objective lens driving device {OBJECT LENS DRIVING DEVICE}

The present invention relates to an objective lens driving apparatus in which a lens holder on which an objective lens is mounted is elastically supported in a displaceable manner, and particularly, protects a signal recording medium or an objective lens when the lens holder collides with the signal recording medium. It relates to an objective lens driving device.

BACKGROUND OF THE INVENTION In an optical head that optically reads or writes a signal to a signal recording medium such as a disk, the optical beam is generally converged by the objective lens by driving a lens holder on which the objective lens is mounted by the objective lens driving apparatus. Focus control and tracking control are performed on the signal recording medium, and the lens holder is elastically supported to be displaceable with respect to the frame by an elastic support member such as a support wire.

Therefore, the lens holder collides with the signal recording medium due to the displacement or impact of the objective lens in the optical axis direction when the focus servo is introduced, and there is a risk of damaging the objective lens and the signal recording medium.

Conventionally, as an objective lens driving device, a projection is provided in the periphery of the objective lens so that the projection end approaches the signal recording medium rather than any part of the lens holder, and the projection is collided with the signal recording medium to protect the objective lens or the signal recording medium. One is known.

However, as an optical head with a reduced thickness, of course, the objective lens driving device has also been thinned. In such an objective lens driving device, it is difficult to secure the effective length of the tracking coil due to the thickness of the lens holder. The range taken is extended to near the vertex of the objective lens.

When the lens holder is displaced in the tracking direction due to an unbalanced weight balance, a driving force generated by an invalid portion of the tracking coil, or the like, harmful rotational force is generated about the direction orthogonal to the optical axis of the objective lens.

As a result, when the lens holder is tilted and displaced, both side portions of the lens holder approach the signal recording medium rather than the center of the lens holder in which the objective lens is disposed.

In particular, in the objective lens driving apparatus of the optical head, which has already been thinned, the height of both side portions of the lens holder winding the tracking coil is increased, and even if the projections are provided around the objective lens, the height of the projections is set to the signal recording medium. Since it cannot be made too high from the point of the distance to secure | attach with, the problem that the signal recording medium collides with in both parts of the lens holder arises.

The present invention provides protective members on both sides of an objective lens of the lens holder so that the protective member collides when the lens holder collides with the signal recording medium even when the lens holder is tilted and displaced. In this case, the said protective member is positioned by the positioning part provided in the lens holder, and it is made to install in a lens holder, and the installation position of the protective member in a lens holder is determined.

1 is a plan view showing one embodiment of an objective lens driving apparatus according to the present invention, and FIG. 2 is an end view from the side of the objective lens driving apparatus shown in FIG.

In this figure, reference numeral 1 denotes a lens holder in which an objective lens 2 is mounted at the center, and the lens holder 1 is provided on both sides with the objective lens 2 mounted therebetween. The positions of the line symmetry with respect to the straight line passing through the optical axis of the first bobbin portion and the second bobbin portion become the first bobbin portion, and the focus coils 3a and the tracking coils 4a and 4b form the second bobbin portion. The focus coil 3b and the tracking coils 4c and 4d are respectively wound correspondingly.

Therefore, the space | interval between the said 1st and 2nd bobbin part becomes the space below the center part in which the objective lens 2 of the lens holder 1 is mounted.

The focus coils 3a and 3b are wound in a substantially rectangular shape with winding center axes in the optical axis direction of the objective lens 2 in the first and second bobbin portions in succession with one coil wire, respectively, and are connected in series. .

In addition, the tracking coils 4a, 4b, and 4c, 4d have a winding center axis orthogonal to the optical axis direction of the objective lens 2 in pairs of one coil wire in succession, two for each bobbin, respectively, and are substantially rectangular. Are wound and connected in series with each other.

Reference numerals 5 and 6 denote a pair of first permanent magnets, respectively, arranged so that one magnetic pole surface (N pole) of the same magnetic pole is opposite to each other with the first bobbin portion of the lens holder 1 interposed therebetween, and reference numerals 7 and 8 Is a pair of 2nd permanent magnets which are arrange | positioned so that one pole surface (N pole) of the same magnetic pole may mutually oppose the 2nd bobbin part of the lens holder 1 mutually.

External yokes 9 and 10 are attached to the first magnetic poles 5 and 6 on the other magnetic pole surface S pole, respectively, and the second permanent magnets 7 and 8 respectively have different yokes. External yokes 11 and 12 are attached to the magnetic pole surface S pole, respectively.

In addition, the magnetic pole surface (N pole) of one side of each of the first permanent magnets 5 and 6 is formed in a hole 13 formed in a central portion between the permanent magnets 5 and 6 of the lens holder 1. The inner yoke 14 disposed is opposed, and the first permanent magnets 5 and 6, the outer yokes 9 and 10, and the inner yoke 14 have one magnetic pole surface and the inner yoke of the permanent magnet 5. A first magnetic circuit portion is formed between the 14 and the magnetic pole surface of the permanent magnet 6 and the inner yoke 14, respectively.

The magnetic pole surface N pole of each of the second permanent magnets 7 and 8 is formed in a hole 15 formed in a central portion between the permanent magnets 7 and 8 of the lens holder 1. The inner yoke 16 disposed is opposite, and the second permanent magnets 7, 8, the outer yokes 11, 12, and the inner yoke 16 have one magnetic pole face and an inner yoke of the permanent magnet 7. A second magnetic circuit portion is formed between the 16 and the magnetic pole surface of the permanent magnet 8 and the inner yoke 16, respectively.

Between the first magnetic circuit portion and the second magnetic circuit portion is a space in which a reflecting mirror (not shown) for reflecting a light beam incident from a direction orthogonal to the optical axis of the objective lens 2 toward the objective lens 2 is provided. .

Surrounding the lens holder 1 by connecting the outer yoke (9, 10), outer yoke (10, 11), outer yoke (11, 12), outer yoke (12, 9), respectively, around the lens holder (1) Is composed of frames 17a to 17d, and the attachment portion 18 is extended from the frame 17d so that the objective lens driving mechanism is assembled at the attachment portion 18 except for the objective lens 2. It is attached to an optical housing (not shown).

A wiring board 19 is fixed to the attachment portion 18, and four supporting wires 20, one end of which is soldered and fixed to the wiring board 19, are attached to the lens holder 1 at the other end. It is fixed by soldering, whereby the lens holder 1 is elastically supported by the support wires 20 so as to be displaceable.

In this case, each of the support wires 20 is disposed on both sides of the lens holder 1 with the objective lens 2 interposed therebetween, and is arranged in parallel with each other. Each of the two support wires 20 disposed on each side of the lens holder 1 is divided into respective fixing plates 21 and 22 attached to each side of the lens holder 1, and the other ends thereof are respectively soldered. It is fixed.

Each said support wire 20 is each arrange | positioned in the groove | channel formed in the auxiliary member 23 fixed to the wiring board 19, and is damped by the damping agent filled in those groove | channels.

The objective lens driving device configured as described above can drive the objective lens 2 in the focus direction via the lens holder 1 in accordance with the focus control signal by supplying a focus control signal in series to the focusing coils 3a and 3b. By supplying a tracking control signal in series to the tracking coils 4a to 4d, the objective lens 2 can be driven in the tracking direction via the lens holder 1 in accordance with the tracking control signal.

Next, in the objective lens driving apparatus configured as described above, the main configuration of the present invention will be described in more detail with reference to Figs. 1, 2 and 3, which are developed perspective views showing the lens holder portion.

The upper and lower rims are formed at portions where the focus coil 3a is wound around the first bobbin portion of the lens holder 1 and the portion where the focus coil 3b is wound around the second bobbin, respectively. And a notch is formed in each of the upper and lower rim portions 24a, 24b and 25a and 25b of each side of each side of the lens holder 1, and the winding start ends of the focusing coils 3a and 3b respectively between these notches. Engagement fixing portions 26a to 26d to which the winding start ends and the winding end portions of the winding end portions and the tracking coils 4a to 4d are independently tied are formed integrally with the lens holder 1.

Fixing plates 21 and 22 to which the support wires 20 are soldered are fitted to corresponding cutouts and respective rims 24a, 24b and 25a and 25b, respectively, and attached to each side of the lens holder 1.

 When each support wire 20 is fixed to each fixing plate 21, 22 by soldering, each winding end tied to each of the locking portions 26a to 26d is soldered together so that the focusing coils 3a and 3b and the tracking coils are soldered together. Each winding end part of 4a-4d is connected to the predetermined | prescribed support wire 20, respectively.

In addition, protective members 27 and 28 each formed by nylon resin are mounted on each side surface of the lens holder 1.

One protection member 27 is secured by the two points of the angular portion 24a and the upper locking fixture 26a, while the other protection member 28 is secured by the both sides and the upper edge of the rim 25a. It is hung and fixed by three points of the part 26c, respectively, and is attached to each side of the lens holder 1 by an adhesive agent.

In this case, each of the rims 24a and 25a acts as a positioning unit for positioning the protective members 27 and 28 in the height direction, respectively, whereby the protective members 27 and 28 are provided in the lens holder 1. The mounting position in the height direction of the lens is determined so that the vertices of each of the protection members 27 and 28 are certainly higher than other portions of the lens holder 1, and the required distance from the signal recording medium is ensured.

In this manner, the protection members 27 and 28 are provided on each side of the lens holder 1 to protect the lens holder 1 when it collides with the signal recording medium even when the lens holder 1 is tilted and displaced. Either of the members 27 and 28 collides to protect the objective lens 2 and the signal recording medium.

In addition, a part of each of the upper support wires 20 is disposed in contact with the protection members 27 and 28, but since the protection members 27 and 28 are buffer members, the support members 27 and 28 support each upper side. There is an action of damping the wire 20.

As described above, the present invention provides protection members on both sides of the objective lens of the lens holder so that the protection member collides when the lens holder collides with the signal recording medium even when the lens holder is tilted and displaced. As a result, the objective lens and the signal recording medium can be protected.

In addition, since the protective member is positioned by the positioning unit provided in the lens holder so as to be installed in the lens holder, the mounting position of the protective member in the lens holder can be determined, and the vertex of each protective member and the signal recording medium The distance to can be easily set to an appropriate position easily.

And since a protection member is made to contact and arrange | positions at least one part of the some support wire arrange | positioned at each side of a lens holder, it can be expected to damp the support wire which contacts a protection member by the damping action which a protection member has. .

1 is a plan view showing one embodiment of an objective lens driving apparatus according to the present invention;

Fig. 2 is an end view from the side of the objective lens drive device shown in Fig. 1;

3 is an exploded perspective view showing a lens holder portion which is the main configuration of the present invention;

<Explanation of symbols for the main parts of the drawings>

1: lens holder

2: objective lens

3a, 3b: focusing coil

4a, 4b, 4c, 4d: tracking coil

20: support wire

21, 22: fixed plate

24a, 24b, 25a, 25b: rim

27, 28: protection member

Claims (3)

An objective lens driving device for driving a lens holder equipped with an objective lens in the direction of the optical axis of the objective lens to focus the light beam converged by the objective lens, and positioning portions on both sides of the lens holder with the objective lens interposed therebetween. And a protective member for protecting the objective lens and the signal recording medium when the lens holder is displaced in the direction of the optical axis of the objective lens by positioning the respective positioning units so as to be provided on both sides of the lens holder, respectively. Objective lens drive device. The objective lens drive device according to claim 1, wherein a rim portion for regulating the winding width of the drive coil of the bobbin portion in which the drive coil of the lens holder is wound is used as the positioning portion. 2. The protective member according to claim 1, wherein the protective member is constituted by a cushioning member, and the protective member is brought into contact with at least a portion of a plurality of support wires disposed on each side of the lens holder so as to displaceably elastically support the lens holder. The objective lens driving device characterized in that the arrangement.