JP3638914B2 - Objective lens holder for optical pickup device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an objective lens holder that holds an objective lens of an optical pickup device incorporated in an optical disk device or the like. More specifically, the present invention relates to the structure of an objective lens holder.
[0002]
[Prior art]
As an optical pickup device incorporated in an optical disc apparatus that reproduces an optical disc that is a digital recording medium, there is a conventional one disclosed in, for example, Japanese Patent Laid-Open No. 7-110955. As shown in FIG. 9, the optical pickup device 1 includes an objective lens holder 3 that can rotate and slide with respect to a support shaft 2, a focusing drive coil 4 that is attached to the outer surface of the objective lens holder 3, and A tracking drive coil 5 and a drive magnet 6 disposed outside the drive coils 4 and 5 are provided. The objective lens holder 3 includes a lens holding portion 3a that holds the objective lens 7, a bearing portion 3b that is supported by the support shaft 2, a coil placement portion 3c in which the drive coils 4 and 5 are provided on the outer surface, and these lenses. A thick connecting portion 3d that connects the holding portion 3a, the bearing portion 3b, and the coil placement portion 3c is provided.
[0003]
[Problems to be solved by the invention]
However, in the optical pickup device 1 described above, since the weight of the objective lens holder 3 is large, the high-order resonance frequency is small. For this reason, the objective lens holder 3 easily oscillates during the focusing operation and the tracking operation. This makes it difficult to control the position of the objective lens holder 3.
[0004]
In order to increase the higher order resonance frequency, it is effective to reduce the weight of the objective lens holder 3. For this purpose, each part of the objective lens holder 3 may be thinned to be thinned. However, if each part is simply made thin, the rigidity of the objective lens holder 3 is lowered, and it becomes easy to deform.
[0005]
Therefore, an object of the present invention is to provide an objective lens holder capable of increasing a high-order resonance frequency without reducing rigidity.
[0006]
[Means for Solving the Problems]
In order to achieve this object, the objective lens holder of the optical pickup device according to claim 1 is supported so as to be rotatable and slidable with respect to a lens holding portion for holding the objective lens and a support shaft fixed to the optical pickup device. The bearing portion disposed at the center portion and the coil placement portion formed in a substantially cylindrical shape around the bearing portion and provided with the drive coil on the outer peripheral surface are formed in a thin shape, and the lens holding portion and the bearing portion The coil arrangement portion is connected to each other by a linear and thin-walled reinforcement rib, and the reinforcement rib is formed over both axial end surfaces of the lens holding portion, the bearing portion, and the coil arrangement portion. In addition, a plurality of spaces surrounded by the reinforcing rib, the outside of the lens holding portion, the outside of the bearing portion, and the coil placement portion are formed in the radial direction and the circumferential direction of the bearing portion , and the coil placement portion is further formed with the lens holding portion. Concatenated The connecting portion so that over the axial ends of the coil arrangement portion.
[0007]
Therefore, since the lens holding portion, the bearing portion, the coil placement portion, and the reinforcing rib are formed in a thin shape, the weight of the objective lens holder is reduced. For this reason, when the objective lens holder is driven, the higher-order resonance frequency is increased. Further, since the linear reinforcing rib is provided and the reinforcing rib is formed on both end surfaces in the axial direction of the lens holding portion, the bearing portion, and the coil placement portion, the rigidity is increased. For this reason, the deformation | transformation freedom degree of an objective lens holder reduces and it becomes difficult to deform | transform.
[0008]
In the objective lens holder of the optical pickup device according to the second aspect, the balance weight portion is provided at a position opposite to the lens holding portion with the bearing portion interposed therebetween. Therefore, the weight balance is maintained between the lens holding portion side and the opposite side with the bearing portion as the center. For this reason, when a focusing operation and a tracking operation are performed by the objective lens holder, stable sliding and rotation with respect to the support shaft are performed.
[0009]
Further, in the objective lens holder of the optical pickup device according to the third aspect, a metal piece is fixed to the balance weight portion. For this reason, the volume of the balance weight portion is small.
[0010]
Further, the objective lens holder of the optical pickup device according to the fourth aspect is configured to have a plane-symmetric shape with respect to a plane including the center line of the bearing portion and the center line of the lens holding portion. For this reason, one side part which pinches | interposes this plane, and another side part become an equal weight, and the balance of a weight is maintained. For this reason, when a focusing operation and a tracking operation are performed by the objective lens holder, stable sliding and rotation with respect to the support shaft are performed.
[0011]
Furthermore, the objective lens holder of the optical pickup device according to claim 5 is configured such that the lens holding portion sandwiches the plane that is orthogonal to the plane including the center line of the bearing portion and the center line of the lens holding portion and includes the center line of the bearing portion. The rotation moment on the side and the rotation moment on the balance weight side are made equal. Therefore, when the tracking operation in which the objective lens holder rotates with respect to the support shaft is performed, the rotation is stably performed.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the configuration of the present invention will be described in detail based on embodiments shown in the drawings.
[0013]
As shown in FIG. 1, the objective lens holder 8 of the optical pickup device according to the first embodiment of the present invention includes a lens holding portion 9 that holds an objective lens (not shown), and a support that is fixed to the optical pickup device. A bearing portion 10 that is supported so as to be pivotable and slidable with respect to a shaft (not shown) and is arranged at the center, and a drive coil (not shown) formed in a substantially cylindrical shape around the bearing portion 10. And the coil holding portion 11 are formed in a thin shape, and the lens holding portion 9, the bearing portion 10, and the coil placement portion 11 are connected to each other by a linear and thin reinforcing rib 12.
[0014]
A focusing drive coil and a tracking drive coil (not shown) are attached to the outer surface of the coil placement portion 11 by bonding or the like. A part of the coil placement portion 11 is coupled to the outer portion of the substantially cylindrical lens holding portion 9.
[0015]
The reinforcing ribs 12 are formed radially about every 45 degrees around the bearing 10 and radiating ribs 12d that connect the bearing 10 and the coil placement portion 11 with each other of the radiating ribs 12d. And an intermediate rib 12e that linearly connects the central portions of the two. A lens holding portion 9 coupled to the coil placement portion 11, the intermediate rib 12e, and the radiation rib 12d is disposed at one of the portions where the intermediate ribs 12e are orthogonal to each other. Each reinforcing rib 12 is parallel to the center line of the bearing portion 10 and occupies from the upper end surface to the lower end surface of the objective lens holder 8. For this reason, the rigidity of the objective lens holder 8 can be sufficiently increased. The lens holding portion 9, the bearing portion 10, the coil placement portion 11, and the reinforcing rib 12 are formed by plastic integral molding, for example.
[0016]
Here, the radiation rib 12d may be provided not every 45 degrees, but every 60 degrees, for example. Further, the radial rib 12d may not be radial as long as it connects the bearing portion 10 and the coil placement portion 11. For example, it can be a straight line parallel to the tangential direction of the outer peripheral portion of the bearing portion 10. On the other hand, as long as the intermediate ribs 12e linearly connect the radiation ribs 12d, the intermediate parts do not have to be connected.
[0017]
Here, the shape / arrangement position of the coil arrangement part 11 and each reinforcing rib 12 is axisymmetric shape / arrangement position with respect to the center line of the bearing part 10 so that the overall weight balance of the objective lens holder 8 can be achieved. In other words, it is desirable that the shape / positioning position be symmetrical with respect to a plane including the center line of the lens holding portion 9 and the center line of the bearing portion 10.
[0018]
Moreover, since each reinforcement rib 12 is made into linear form, compared with the case where the same position is connected with the curved reinforcement rib 12, equivalent rigidity can be maintained with the short reinforcement rib 12. FIG. For this reason, weight reduction can be achieved.
[0019]
When the above-described objective lens holder 8 is incorporated into an optical pickup device and driven, the weight of the objective lens holder 8 is reduced, so that the higher-order resonance frequency increases. For this reason, the objective lens holder 8 is less likely to oscillate when the position of the objective lens holder 8 is controlled by a focusing operation or a tracking operation. Thereby, position control can be easily performed with high accuracy. Further, the strength of the objective lens holder 8 can be maintained by connecting the radiation rib 12d and the intermediate rib 12e.
[0020]
The above-described embodiment is an example of a preferred embodiment of the present invention, but the present invention is not limited to this, and various modifications can be made without departing from the scope of the present invention.
[0021]
For example, the shape of the lens holding portion 9, the bearing portion 10, the coil placement portion 11, and the reinforcing rib 12 is not limited to the shape of the first embodiment, and can be various shapes. Hereinafter, the shape of the objective lens holder 8 of each embodiment shown in FIGS. 3 to 8 will be described. However, it is needless to say that the present invention is not limited to these embodiments.
[0022]
As shown in FIG. 3, the objective lens holder 8 of the second embodiment includes a balance weight portion 12f in the objective lens holder 8 of the first embodiment shown in FIG. The balance weight portion 12 f is located on the opposite side of the lens holding portion 9 with respect to the bearing portion 10, and is formed by a concave portion of the coil placement portion 11. A metal plate 14 is attached to the balance weight portion 12f by bonding or fitting.
[0023]
For this reason, the rotational moment can be made equal between the lens holding portion 9 side and the balance weight portion 12f side across the bearing portion 10, and the weight balance of the objective lens holder 8 is improved. As a result, stable rotation and sliding with respect to the support shaft can be performed, and the accuracy of position control can be improved. Furthermore, since the metal plate 14 is attached to the balance weight portion 12f, the balance weight portion 12f can be reduced in size. For this reason, size reduction of the objective lens holder 8 can be achieved.
[0024]
As shown in FIG. 4, the objective lens holder 8 of the third embodiment is configured such that the intermediate ribs 12 e of the objective lens holder 8 of the first embodiment shown in FIG. Is connected to In addition, as long as the intermediate rib 12e connects each radiation rib 12d, it does not need to connect center part.
[0025]
As shown in FIG. 5, the objective lens holder 8 of the fourth embodiment includes a balance weight portion 12 f in the objective lens holder 8 of the third embodiment shown in FIG. 4. The balance weight portion 12 f is located on the opposite side of the lens holding portion 9 with respect to the bearing portion 10, and is formed by a concave portion of the coil placement portion 11. A metal plate 14 is attached to the balance weight portion 12f by bonding or fitting.
[0026]
For this reason, the rotational moment can be made equal between the lens holding portion 9 side and the balance weight portion 12f side across the bearing portion 10, and the weight balance of the objective lens holder 8 is improved. As a result, stable rotation and sliding with respect to the support shaft can be performed, and the accuracy of position control can be improved.
[0027]
As shown in FIG. 6, the objective lens holder 8 of the fifth embodiment includes a balance weight portion 12g in the objective lens holder 8 of the first embodiment shown in FIG. The balance weight portion 12g is located on the opposite side of the lens holding portion 9 with the bearing portion 10 as the center. The balance weight portion 12g is formed by integral molding in a shape in which the fillet at the coupling portion between the coil placement portion 11 and the radiation rib 12d is thickened. For this reason, the weight balance of the objective lens holder 8 is good, and stable sliding and rotation can be performed with respect to the support shaft. Moreover, since it is formed by integral molding, the working speed of manufacturing the objective lens holder 8 can be improved.
[0028]
As shown in FIG. 7, the objective lens holder 8 of the sixth embodiment has the reinforcing ribs 12 substantially parallel to a plane including the center line of the lens holding part 9 and the center line of the bearing part 10. 9 and the longitudinal rib 12h which connects the both sides of the bearing part 10, and the coil arrangement | positioning part 11, and the transverse rib which connects the vertical rib 12h and the coil arrangement | positioning part 11 which is substantially orthogonal to this vertical rib 12h and opposes this 12i and auxiliary ribs 12j that are obliquely connected to reinforce the connecting portions of the vertical ribs 12h and the horizontal ribs 12i. Each vertical rib 12h, horizontal rib 12i, and auxiliary rib 12j are linear.
[0029]
Here, the number of the lateral ribs 12i and the auxiliary ribs 12j may be singular or plural. Further, the lateral rib 12i may not be substantially orthogonal to the longitudinal rib 12h as long as it connects the longitudinal rib 12h and the coil placement portion 11. For example, it can be a straight line parallel to the tangential direction of the outer peripheral portion of the bearing portion 10. On the other hand, as long as the auxiliary rib 12j linearly connects the vertical rib 12h and the horizontal rib 12i, the connecting position is not limited.
[0030]
As shown in FIG. 8, the objective lens holder 8 of the seventh embodiment includes another lens holding portion 15 in the objective lens holder 8 of the first embodiment shown in FIG. 1. The other lens holding part 15 is arrange | positioned centering | focusing on the orthogonal position adjacent to the orthogonal position of the intermediate ribs 12e where the one lens holding part 9 is arrange | positioned. A radiation rib 12d located on the opposite side of the bearing portion 10 of the radiation rib 12d disposed between the two lens holding portions 9 and 15 is formed between the intermediate rib 12e and the coil placement portion 11. ing. For this reason, a space is formed between the intermediate rib 12e and the bearing portion 10. This space can be used as the accommodating portion 12k that accommodates the lead wire of each drive coil.
[0031]
Even the objective lens holders 8 of the second to seventh embodiments described above are reduced in weight, so that the higher order resonance frequency can be increased. Further, the rigidity of the objective lens holder 8 can be sufficiently increased.
[0032]
In the objective lens holder 8 of the first to seventh embodiments described above, the space surrounded by the reinforcing rib 12 and the coil placement portion 11 is not particularly described, but for example, a yoke hole in which the inner yoke is present, You may provide the insertion hole which the lead wire of each drive coil penetrates.
[0033]
【The invention's effect】
As is clear from the above description, the objective lens holder of the optical pickup device according to claim 1 has the lens holding portion, the bearing portion, the coil placement portion, and the reinforcing rib formed in a thin shape. The weight can be reduced. For this reason, when the objective lens holder is driven, the higher-order resonance frequency is increased, so that it is difficult for the objective lens holder to oscillate when the position of the objective lens holder is controlled, and the position control can be easily and accurately performed. become able to. Further, since the linear reinforcing rib is provided and the reinforcing rib is formed on both end surfaces in the axial direction of the lens holding portion, the bearing portion, and the coil placement portion, the rigidity is increased. For this reason, the deformation | transformation freedom degree of an objective-lens holder reduces and it can make it difficult to deform | transform.
[0034]
In the objective lens holder of the optical pickup device according to the second aspect of the invention, the balance weight portion is provided at a position opposite to the lens holding portion with the bearing portion interposed therebetween. The balance of weight can be maintained on the side. For this reason, when a focusing operation and a tracking operation are performed by the objective lens holder, it is possible to perform stable sliding and rotation with respect to the support shaft. Thereby, the position control of the objective lens holder can be easily and accurately performed.
[0035]
Furthermore, since the objective lens holder of the optical pickup device according to the third aspect has the metal piece fixed to the balance weight portion, the volume of the balance weight portion can be reduced. For this reason, the objective lens holder can be reduced in size.
[0036]
Further, the objective lens holder of the optical pickup device according to the fourth aspect has a plane symmetrical shape with respect to a plane including the center line of the bearing portion and the center line of the lens holding portion. The side portion and the other side portion have the same weight, and the weight balance is maintained. For this reason, when a focusing operation and a tracking operation are performed by the objective lens holder, it is possible to perform stable sliding and rotation with respect to the support shaft. Thereby, the position control of the objective lens holder can be easily and accurately performed.
[0037]
Furthermore, the objective lens holder of the optical pickup device according to claim 5 is configured such that the lens holding portion sandwiches a plane perpendicular to a plane including the center line of the bearing portion and the center line of the lens holding portion and including the center line of the bearing portion. Since the rotation moment on the side and the rotation moment on the balance weight portion side are made equal, the objective lens holder is stably rotated when the tracking operation is performed. Thereby, the position control of the objective lens holder can be easily and accurately performed.
[Brief description of the drawings]
1A and 1B show a first embodiment of an objective lens holder according to the present invention, in which FIG. 1A is a cross-sectional view taken along line II, and FIG. 1B is a plan view;
FIG. 2 is a Bode diagram showing a relationship between an input frequency to a drive coil and a gain.
3A and 3B show a second embodiment of the objective lens holder of the present invention, in which FIG. 3A is a cross-sectional view taken along line III-III, and FIG. 3B is a plan view.
4A and 4B show a third embodiment of the objective lens holder of the present invention, in which FIG. 4A is a cross-sectional view taken along line IV-IV, and FIG. 4B is a plan view.
5A and 5B show a fourth embodiment of an objective lens holder according to the present invention, in which FIG. 5A is a cross-sectional view taken along the line VV, and FIG.
6A and 6B show a fifth embodiment of an objective lens holder of the present invention, in which FIG. 6A is a cross-sectional view taken along line VI-VI, and FIG. 6B is a plan view.
7A and 7B show a sixth embodiment of the objective lens holder of the present invention, in which FIG. 7A is a sectional view taken along line VII-VII, and FIG. 7B is a plan view.
8A and 8B show a seventh embodiment of the objective lens holder of the present invention, in which FIG. 8A is a sectional view taken along line VIII-VIII, and FIG. 8B is a plan view.
FIG. 9 is a plan view showing a conventional optical pickup device.
[Explanation of symbols]
8 Objective lens holder 9 Lens holding part 10 Bearing part 11 Coil arrangement part 12 Reinforcing rib 12f Balance weight part 12g Balance weight part 14 Metal plate

Claims (5)

A lens holding portion for holding an objective lens, a bearing portion that is supported so as to be rotatable and slidable with respect to a support shaft fixed to the optical pickup device, and a substantially cylindrical shape centering on the bearing portion And the lens holding portion, the bearing portion, and the coil placement portion are connected to each other with a linear and thin reinforcing rib. The reinforcing ribs are formed over the axial end surfaces of the lens holding portion, the bearing portion, and the coil placement portion, and the reinforcing rib, the outside of the lens holding portion, and the bearing portion. A plurality of spaces surrounded by either the outside or the coil placement portion in the radial direction and circumferential direction of the bearing portion, and the coil placement portion is connected to the lens holding portion, and the connection portion is the coil placement Axial direction An objective lens holder of the optical pickup device characterized by over both ends of the.   2. The objective lens holder for an optical pickup device according to claim 1, wherein a balance weight portion is provided at a position opposite to the lens holding portion with the bearing portion interposed therebetween.   3. The objective lens holder for an optical pickup device according to claim 2, wherein a metal piece is fixed to the balance weight portion.   4. The objective of the optical pickup device according to claim 1, wherein the objective of the optical pickup device is a plane symmetric shape with respect to a plane including a center line of the bearing portion and a center line of the lens holding portion. Lens holder.   A rotation moment on the lens holding portion side and a rotation moment on the balance weight portion side across a plane perpendicular to the plane including the center line of the bearing portion and the center line of the lens holding portion and including the center line of the bearing portion, The objective lens holder of the optical pickup device according to any one of claims 2 to 4, wherein

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