KR100754717B1 - An Optical Head Device - Google Patents

Abstract

Skew adjustment of the actuator requires a manufacturing process using a dedicated assembly jig and a complicated inspection process, which hinders the workability and cost reduction of the optical head device production.

The lens holder 3 to which the objective lens 2 is mounted is integrally formed in the housing 1, and the actuator movable portion is assembled from the lens holder 3 so that the actuator movable portion passes through the elastic support member 9. The lens holder 3 is detached from the housing 1 in the state supported by (1), and the actuator movable part is elastically supported by the housing 1. Thereby, the actuator movable part can be installed in the preferable position which does not require skew adjustment with respect to the housing 1 by the improvement of the dimensional precision by integrally molding the lens holder 3 in the housing 1.

Housing, objective lens, lens holder, coil holder, elastic support member

Description

Optical Head Device {An Optical Head Device}

1 is an exploded perspective view showing a developed state of an optical head apparatus according to an embodiment of the present invention.

FIG. 2 is a perspective view showing an assembled state of the actuator movable portion in the optical head device of FIG. 1; FIG.

<Explanation of symbols for main parts of the drawings>

1: housing

2: objective lens

3: lens holder

5: coupling part

6: coil holder

9: support wire (elastic support member)

10: attachment plate

11: damping auxiliary member

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an optical head device that is configured to provide an actuator in a housing, and more particularly to an optical head device that does not require skew adjustment of the actuator movable portion.

An optical head device that optically reads or writes signals to a signal recording medium such as a disk is usually formed by providing an actuator for driving an objective lens in a housing in which a semiconductor laser as a light emitting element and a photodetector as a light receiving element are assembled. . The housing is formed with an optical system for guiding a laser beam emitted from a semiconductor laser to an objective lens and an optical system for guiding a laser beam reflected by a signal recording medium and returned to the objective lens to a photodetector.

In the optical head device constructed by installing the actuator in the housing, when the target signal recording medium is a disc, the actuator is skewed in the tangential direction and the radial direction of the disc so that the occurrence of coma aberration of the optical spot on the disc is suppressed. .

In such an optical head device, for example, as disclosed in Japanese Unexamined Patent Application Publication No. 2000-48374, the actuator is attached to the housing so that the skew adjustment is possible in the tangential direction and the radial direction of the disc, thereby adjusting the skew adjustment. It is possible to do it.

However, the skew adjustment described above requires a manufacturing process using a dedicated assembly jig and a complicated inspection process, which hinders the workability and cost reduction of the optical head device production.

Moreover, the optical head apparatus which can adjust a skew has the problem that it is easy to shift skew adjustment by the environmental change, such as temperature and humidity, as the structure reduces the number of components.

The present invention integrally forms a lens holder in which an objective lens is mounted in a housing, and assembles an actuator movable portion from the lens holder so that the lens holder is removed from the housing in a state in which the actuator movable portion is supported by the housing through an elastic support member. It is set as the structure which isolate | separates and elastically supports the said actuator movable part to the said housing. By improving the dimensional accuracy by integrally molding the lens holder into the housing, the lens holder is placed in a desired position that does not require skew adjustment with respect to the housing, and the actuator movable portion is assembled while the lens holder is not displaced. Thereafter, the lens holder is detached from the housing so that the actuator movable portion is installed in a preferred position with respect to the housing.

1 is a developed perspective view showing a developed state of an optical head device according to an embodiment of the present invention, and FIG. 2 is a perspective view showing an assembled state of an actuator movable part in the optical head device of FIG.

Reference numeral 1 denotes a housing made of synthetic resin in which a semiconductor laser (not shown), which is a light emitting element, and a photodetector (not shown), which is a light receiving element, are assembled, and the housing 1 has an objective lens with a laser beam emitted from the semiconductor laser. The optical system for inducing (2) and the optical system for guiding the laser beam reflected by the signal recording medium and returned to the objective lens 2 to the photodetector are formed.

Reference numeral 3 denotes a lens holder on which the objective lens 2 is mounted, and the lens holder 3 passes through the plurality of connecting portions 5 on the opening 4 of the housing 1, which is an optical path of the laser beam, through the housing 1. It is formed integrally with).

6 denotes a coil holder to which each driving coil of the focusing coil 7 and the tracking coil 8 is mounted, 9 denotes four support wires that elastically support the lens holder 3 via the coil holder 6, Reference numeral 10 denotes an attachment plate made of a printed wiring board having lands on which one end of the four support wires 9 are soldered, and reference numeral 11 is integrally formed in the housing 1, and the attachment plate 10 is fixed. At the same time, the vibration damping auxiliary member is provided with a space portion 12 filled with a dump agent for damping each of the supporting wires 9.

Next, the assembling method of the optical head device which consists of such a component is demonstrated.

First, each drive coil of the focusing coil 7 and the tracking coil 8 is wound around the coil holder 6 using an automatic machine, and the coil holder 6 is bonded to the lens holder 3 and coalesced. Indirectly, each driving coil of the focusing coil 7 and the tracking coil 8 is mounted on the lens holder 3.

When the coil holder 6 is incorporated into the lens holder 3, each of the protrusions 14a, 14b, 14c provided in the coil holder 6 in each of the grooves 13a, 13b, 13c provided in the lens holder 3 Each is inserted and alignment of the coil holder 6 is performed.                     

On the other hand, the attachment plate 10 is fixed to the vibration suppression auxiliary member 11 by using a screw 15.

With the coil holder 6 incorporated into the lens holder 3 and the attachment plate 10 fixed to the vibration suppression auxiliary member 11, each end of each of the support wires 9 is attached to the attachment plate 10. And each hole formed in each hole 10a and each terminal of the driving coil are inserted into each hole formed in each of the projection end portions 6a of the coil holder 6 which are bundled and processed. Each end is soldered and fixed to the terminal of the drive coil and the predetermined land of the attachment plate 10 at each of the protruding member portions 6a of the coil holder 6, respectively.

In this case, each hole 10a of the attachment plate 10 is formed with a margin with respect to the diameter of each support wire 9, and it contributes to insert easily, and it is easy to bend to each support wire 9, It does not generate | occur | produce the stress by Therefore, in the state in which the stress which generate | occur | produces in each support wire 9 is substantially free | released, each one end of each support wire 9 is soldered and fixed to the attachment plate 10. As shown in FIG.

Moreover, since each support wire 9 is arrange | positioned in each space part 12 of the damping auxiliary member 11, it is damped by the dump agent filled in each space part 12 later.

After that, the objective lens 2 is fixed to the lens holder 3 in which the coil holder 6 is incorporated by adhesion. In this case, the objective lens 2 is positioned in the lens holder 3 in an accurate posture so as not to be inclined and positioned by the recess formed in the lens holder 3.

In this way, after the assembly of the actuator movable portion is completed, each connecting portion 5 is cut to separate the lens holder 3 from the housing 1. This allows the actuator movable portion to be elastically supported by the housing 1, and the actuator movable portion can perform focus control for focusing the light beam on the signal surface of the disk and tracking control for following the light beam on the signal track of the disk. To be displaceably supported.

By the way, in the state which isolate | separates the lens holder 3 from the housing | casing 10, each support wire is made with the allowance made to each hole 10a of the attachment plate 10 with respect to the diameter of each support wire 9. Since the stress generated in (9) is soldered to the attachment plate 10 in a substantially free state, when the lens holder 3 is detached from the housing 1, the actuator movable portion descends slightly vertically due to its own weight. The displacement in which the optical axis of the objective lens 2 requires skew adjustment in the tangential direction and the radial direction does not occur. And the lens holder 3 is arrange | positioned in the preferable position which does not require the skew adjustment of a tangential direction and a radial direction with respect to the housing 1 before isolate | separating by the dimensional precision by integrally molding to the housing 1. .

Therefore, in the assembling completion state of the actuator movable portion after removing the lens holder 3, the actuator movable portion is provided at a position suitable for the housing 1 with precision that does not require skew adjustment.

Since the magnetic circuit of the actuator is not directly related to the gist, the description thereof is omitted, but the magnetic circuit includes a pair of permanent magnets in which the same polarities are opposed to each other in the axial direction of the support wire 9. 6) is installed and configured on the upper surface of the housing 1 together with the yoke so as to sandwich the 6). As a result, the magnetic field formed into the magnetic circuit is effective to act on the driving current supplied to each of the driving coils of the focusing coil 7 and the tracking coil 8.                     

In addition, in the above-mentioned embodiment, although the screw 15 was used to fix the attachment plate 10 to the damping auxiliary member 11, the attachment plate 10 was damped by the adhesive agent without the screw, and the damping auxiliary member was used. You may fix to (11).

However, as shown in the embodiment, when the screw 15 is used, it is also possible to loosen the screw 15 to release the stress applied to each of the supporting wires 9, and to fix the screw fixing plate 10 It is also possible to follow the skew adjustment in the radial direction by the same adjustment as in the prior art in which the attachment plate 10 is rotated and adjusted around the screw fixing position by setting it to the center position.

As described above, according to the present invention, the lens holder is disposed in a preferred position where no skew adjustment is required for the housing by improving the dimensional accuracy by integrally molding the lens holder in the housing. Since the lens holder is separated from the housing after completion, it is possible to install the actuator moving part in a desired position with respect to the housing with no precision requiring skew adjustment, and can provide an optical head device that does not require skew adjustment. have.

Since the connection part is cut when the lens holder is separated from the housing, the operation is simple.

In addition, since the vibration damping auxiliary member is integrally formed with the lens holder in the housing, the number of parts can be reduced, and the elastic support member is disposed in accordance with the position where the dump agent is filled without adjusting the vibration damping auxiliary member. You can do that.

In addition, since the coil holder in which the driving coil is wound is provided in a member separate from the lens holder, the driving coil is used to mount the driving coil in the lens holder by using an automatic machine while the lens holder is formed integrally with the housing. It is possible to adopt an automatic winding to wind the coil holder, and since the coil holder is a separate member, it is possible to miniaturize the lens holder, and to place optical parts such as granular mirrors or lenses under the lens holder integrally formed in the housing. It has the advantage that the space to arrange | position is easy to be secured.

Claims (4)

An optical head device having an actuator for driving an objective lens in a housing in which a light emitting element and a light receiving element are assembled, wherein the lens holder in which the objective lens is mounted is integrally formed in the housing, and the actuator is moved from the lens holder. And the lens holder is detached from the housing in a state in which the actuator movable portion is supported by the housing through the elastic support member, thereby elastically supporting the actuator movable portion in the housing. The optical head device according to claim 1, wherein the lens holder is integrally formed in the housing via a connecting portion, and the cutting portion is cut to separate the lens holder from the housing. The damping auxiliary member, which is filled with a dump agent for damping the elastic support member, is integrally formed in the housing, and an attachment plate for fixing one end of the elastic support member is attached to the vibration suppression auxiliary member. An optical head device, characterized in that made to. The optical head device according to claim 1, wherein a coil holder is formed to wind the drive coil as a member separate from the lens holder, and the coil holder is incorporated into the lens holder to mount the drive coil to the lens holder. .

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