JP3749596B2 - Optical pickup device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an optical pickup device used for recording and reproduction of an optical recording disk such as a CD or a DVD. More specifically, the present invention relates to a structure for adjusting the optical axis position of an objective lens mounted on an optical pickup device.
[0002]
[Prior art]
As an optical pickup device used for recording and reproduction of an optical recording disk such as a CD or a DVD, an objective for driving a lens holder holding an objective lens on a holder support member in a focusing error correction direction and a tracking error correction direction of the objective lens. Some lens driving devices are mounted on a frame together with a laser light source or the like. In this type of optical pickup device, an optical axis adjustment mechanism is often configured between the holder support member and the frame in order to adjust the tilt angle of the optical axis of the objective lens.
[0003]
As this optical axis adjusting mechanism, a mechanism disclosed in Japanese Patent Application No. 5-36788 discloses a spherically curved seat (hereinafter referred to as a spherical seat) attached to the back surface where the holder support member is in contact with the frame. The objective lens driving device can be swung with respect to the frame by sliding the seat within the recess of the frame. Further, at a position shifted from the ball seat, there are a spring for pressing the holder support member against the frame, and two tilt angle adjusting screws for stopping the holder support member and the frame at a position opposite to the spring with the ball seat interposed therebetween. The tilt angle of the holder support member on the frame, that is, the tilt angle of the objective lens can be changed by turning these tilt angle adjusting screws. Generally, one tilt angle adjusting screw is attached at a position shifted in the radial direction of the optical recording disk from the center of the ball seat, and the other tilt angle adjusting screw is positioned in the track tangential direction (tangential direction of the optical recording disk from the center of the ball seat). The optical axis of the objective lens changes in the radial direction by turning one tilt adjustment screw, and the track tangential direction by turning the other tilt adjustment screw. The angle changes.
[0004]
[Problems to be solved by the invention]
However, the optical pickup device having this configuration has the following problems. First, since the ball seat is attached to the bottom surface of the holder support member, the holder support member cannot be thinned, and the optical pickup device becomes thick. In addition, since the ball seat and the frame are in surface contact with each other, if dust or the like enters between them, catching or floating occurs, and it is difficult to perform fine tilt adjustment. In addition, if the ball seat is used, the position to be the fulcrum is not specified, so when adjusting the tilt angle in the radial direction, the tilt also changes in the tangential direction at the same time. The independence of the tilt angle adjustment is low. For this reason, since it is necessary to repeatedly adjust the inclination angle in the radial direction and the inclination angle adjustment in the tangential direction to adjust both inclination angles, it takes time to adjust the inclination angle. Furthermore, when the ball seat is used, even if the inclination of the optical axis of the objective lens can be adjusted, the optical axis cannot be moved in the direction orthogonal thereto, so that the optical axis cannot be adjusted with high accuracy.
[0005]
An object of the present invention is to solve the above problems, and to propose an optical pickup device that can reduce the thickness of the holder support member and can easily adjust the optical axis of the objective lens with high accuracy. It is in.
[0006]
[Means for Solving the Problems]
In order to solve the above-described problems, the present invention includes a lens holder that holds an objective lens and a holder support member that supports the lens holder, and the lens holder is placed on the holder support member to correct a focusing error of the objective lens. Light having an objective lens driving device that magnetically drives in a direction and a tracking error correction direction, a frame that supports the holder support member, and an optical axis adjustment mechanism that adjusts the optical axis position of the objective lens on the frame In the pickup device, the optical axis adjustment mechanism includes a fulcrum in which the frame and the holder support member are brought into point contact so that the holder support member can swing on the frame, and two different directions around the fulcrum. In order to adjust the tilt angle of the objective lens in each of the two directions by swinging the holder support members, respectively. It has two adjustment members, and a slide mechanism for sliding the holder support member on the frame while making point contact with the holder support member and the frame so as to form an intersection. .
[0007]
In the optical axis adjustment mechanism to which the present invention is applied, the frame side and the holder support member side are substantially in a point contact state, and the holder support member is swung on the frame using this as a fulcrum. Thus, the fulcrum can be configured on the side surface of the holder support member. Therefore, it is possible to reduce the thickness of the holder support member, that is, to reduce the thickness of the optical pickup device. Further, even when the fulcrum is configured on the bottom surface of the holder support member, the holder support member can be considerably thinned even if the fulcrum is configured on the bottom surface of the holder support member as compared with the configuration using the ball seat. Furthermore, since the holder support member and the frame are in point contact, no dust or the like enters between them, and even when dust or the like enters between the holder support member and the frame, the tilt angle of the holder support member is adjusted. No problems such as being caught in Therefore, it is possible to finely adjust the tilt angle. Furthermore, since the holder support member and the frame are in point contact, the swing center (swing fulcrum) of the holder support member is specified in one place, so the swinging direction can be set to the orthogonal direction. For example, the tilt angle adjustment in two directions can be performed independently. Therefore, it is possible to perform delicate tilt adjustment without taking time and effort. In addition, the optical axis adjustment mechanism to which the present invention is applied has a slide mechanism that slides the holder support member on the frame while making point contact between the holder support member and the frame so as to form an intersection. The optical axis of the lens can also be moved in a direction perpendicular to the lens, and the optical axis position can be adjusted with high accuracy.
[0008]
Further, in the present invention, the fulcrum is on the side of the frame. Leading edge of the plate-like portion facing from the holder support member in a direction parallel to the axis of the holder support shaft A first recess formed on the holder support member side From the second recess formed to fit in the first recess with respect to the leading edge of the plate-like portion facing the frame in a direction parallel to the axis of the holder support shaft The slide mechanism is configured such that at least one of the second concave portion and the first concave portion has a flat bottom portion so that the holder support member extends along the bottom portion on the frame. In a direction perpendicular to the optical axis It is configured to be slidable.
[0009]
Further, the slide mechanism includes a bottom portion in which the concave portions of both the second concave portion and the first concave portion are flat, so that the holder supporting member is mounted on the frame. Two directions orthogonal to the optical axis It is preferable to be slidable.
[0010]
In the present invention, the tilt angle adjusting member is, for example, a first tilt angle that is arranged at each of two locations located in different directions from the fulcrum and adjusts the distance between the frame and the holder support member at each placement position. An adjusting screw and a second tilt angle adjusting screw can be used.
[0011]
In the present invention, it is preferable that the first tilt angle adjusting screw and the second tilt angle adjusting screw are arranged in a direction that forms an angle of 90 ° around the fulcrum. In such a configuration, one of the first tilt angle adjusting screw and the second tilt angle adjusting screw is, for example, a disk on which information is reproduced or recorded via the objective lens. The holder support member is rocked in the radial direction of the recording disk, and the other screw is arranged to rock the holder support member in the track tangential direction of the recording disk.
[0012]
In this invention, it is preferable that the said fulcrum is comprised in the same height position as the principal point of the said objective lens seeing from the said frame side. If comprised in this way, even if it adjusts the inclination-angle of a holder support member, the optical center position of an objective lens will not change, and the position shift of an objective lens can be prevented.
[0013]
In this invention, it is preferable that the said fulcrum is comprised in the vicinity of the said objective lens. If comprised in this way, when the inclination angle of a holder support member is adjusted, since the height position of an objective lens hardly changes, the position shift of an objective lens can be prevented. In addition, since the degree of change in the tilt of the objective lens when the tilt angle of the holder support member is adjusted is small, the tilt angle can be adjusted in small increments.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
The optical pickup device of the present invention will be described below with reference to the drawings.
[0015]
(overall structure)
FIG. 1 is a plan view showing the appearance of the optical pickup device of the present invention. As shown in this figure, an optical pickup device 1 performs recording and reproduction of an optical recording disk 5, and a frame 2 disposed in a state facing a recording surface of an optical recording disk 5 such as a CD or a DVD, The light source unit 3 attached to the frame 2, the objective lens 41 for condensing the laser light emitted from the light source unit 3 on the optical recording disk 5, and the objective lens 41 are driven in the focusing error correction direction and the tracking error correction direction. Objective lens driving device 4. The frame 2 includes an FPC board 6 for supplying power to the light source unit and the objective lens driving device 4, and thin plate-like covers 7 and 8 that cover the upper side in order to protect the light source unit 3 and the objective lens driving device 4. It is attached. In addition, two guide holes 21 and a guide portion 22 protruding in a U-shape are formed in the outer peripheral portion of the frame 2, and the optical pickup device 1 is attached to these in accordance with recording or reproduction of the optical recording disk 5. Guide shafts 9 and 10 for moving the optical recording disk 5 in the radial direction (the direction indicated by the arrow A) are passed.
[0016]
(Configuration of objective lens driving device)
FIG. 2 is an exploded perspective view for explaining the internal structure of the optical pickup device 1 and the structure of the objective lens driving device 4. FIG. 3 is a schematic cross-sectional view of a portion taken along line III-III in FIG. In these drawings, the FPC board 6 and the covers 7 and 8 are omitted.
[0017]
As shown in these drawings, the objective lens driving device 4 includes a lens holder 42 that holds an objective lens 41, and a holder that supports the lens holder 42 so as to be movable in a focusing error correction direction and a tracking error correction direction, which will be described later. A support member 57 is provided.
[0018]
The lens holder 42 includes a cylindrical body portion 43 and a cylindrical bearing portion 44 formed at the inner center portion of the body portion 43. Tracking driving coils 45 and 46 are attached to positions on the outer peripheral surface of the body portion 43 that face each other across the bearing portion 44. A focusing drive coil 47 is formed at two locations on the outer peripheral surface of the bearing portion 44. The upper end of the body 43 is covered with a top plate 48 (not shown in FIG. 3), and the objective lens 41 is attached thereto.
[0019]
The holder support member 57 includes a rectangular bottom wall 49, and a support shaft 50 stands upright at the center of the bottom wall 49. The support shaft 50 is inserted inside the bearing portion 44 of the lens holder 42, and supports the lens holder 44 so as to be slidable in the axial direction and rotatable about the axis.
[0020]
At the outer peripheral edge of the bottom wall 49, four side walls 51 to 54 made up of plate-like portions covering the outer peripheral surface of the lens holder 44 are upright. Inside the bottom wall 49, two inner walls 55, 56 are cut and raised parallel to the side walls 51, 53 so as to face each other with the bearing portion 44 interposed therebetween, and these inner walls 55, 56 are formed on the top plate 48 of the lens holder 42. It protrudes from the formed opening 58. Tracking drive magnets 59, 60 are attached to the side walls 51, 53 so as to face the tracking drive coils 45, 46, and focusing drive magnets 61 are faced to the inner walls 55, 56 so as to face the focusing drive coil 47. 62 are attached.
[0021]
Of these magnets, the focusing drive magnets 61 and 62 have a single-polarized surface facing the focusing drive coil 47. When a current is passed through the focusing drive coil 47 through the FPC board 64 mounted between the side wall 54 of the holder support member 57 and the lens holder 42, a focusing magnetic circuit is formed, and the lens holder 42 is moved in the axial direction of the support shaft 50. Can be made. Therefore, the objective lens 41 can move in the direction of the optical axis to perform focusing error correction. Further, the tracking drive magnets 59 and 60 have their surfaces polarized in the circumferential direction with respect to the tracking drive coils 45 and 46, and tracking is performed when a current is passed through the tracking drive coils 45 and 46 through the FPC board 64. A magnetic circuit is configured, and the lens holder 42 can be slightly rotated around the support shaft 50. Therefore, the objective lens 42 can move in the direction orthogonal to the optical axis to perform tracking error correction.
[0022]
As the holder support member 57, an integrally formed product obtained by pressing a magnetic plate material is used, and the bottom wall 49, the side walls 51 to 54, and the inner walls 55 and 56 function as yokes for the focusing magnetic circuit and the tracking magnetic circuit. ing.
[0023]
(Frame structure)
On the other hand, the frame 2 is an integrally formed product extending in the horizontal direction with substantially the same thickness as the objective lens driving device 4, and the inside thereof is generally around the light source unit mounting portion 23 and the side walls 51 to 54 of the objective lens driving device 4. And the drive device mounting portion 24 surrounded by a frame portion that stands upright with a slight gap, and the objective lens drive device 4 is disposed inside the drive device mounting portion 24.
[0024]
The light source unit 3 has a configuration in which a laser light source, a diffraction grating, and a light receiving element are integrated, and is arranged in a direction in which the laser light L can be emitted toward the mounting portion 24 side of the objective lens driving device 4. .
[0025]
A pedestal 25 is formed on the portion of the driving device mounting portion 24 facing the light source unit 3 so as to face an inclined surface having an inclination of 45 ° with respect to the light source unit 3, and the total reflection mirror 11 is attached to the pedestal 25. Yes. Accordingly, the laser light L emitted from the laser light source of the light source unit 3 is raised by the total reflection mirror 11 and is incident on the objective lens 41 of the objective lens driving device 4 attached to the driving device attachment portion 24, and the optical recording disk 5. Condensed on the recording surface. The return light from the optical recording disk 5 follows the same path again and is applied to the light receiving element of the light source unit 3, and the optical recording disk 5 is reproduced based on the return light. The light receiving element also detects a tracking error signal and a focusing error signal included in the return light, and the objective lens driving device 4 drives the objective lens 41 in the tracking error correction direction and the focusing error correction direction based on the signals. .
[0026]
(Configuration of optical axis adjustment mechanism)
As shown in FIG. 2, the optical pickup device 1 configured as described above includes an optical axis adjustment mechanism 100 for adjusting the tilt angle and position of the objective lens 41 at the time of assembly, and the configuration of the optical axis adjustment mechanism 100. Is described below.
[0027]
First, on the frame 2 side, in the vicinity of the pedestal 25, toward both sides of the optical axis L toward the holder support member 57. In a direction parallel to the axis of the holder support shaft 50 (direction parallel to the optical axis of the objective lens 41) Two thin plate-like portions 26 standing up are formed, and these plate-like portions 26 extend in the track tangential direction (tangential direction / direction indicated by arrow B) of the optical recording disk 5. Among these plate-like portions 26, one plate-like portion 26 has a plate-like portion 27 (a plate-like portion for constituting a fulcrum described later) that is one step higher so as to constitute a step 261. A first recess 28 is formed on the upper edge of the plate-like portion 27. Here, the recessed part 28 is exhibiting the substantially trapezoid shape provided with the flat lower base 33 (sliding mechanism).
[0028]
Of the frame-shaped portions constituting the drive device mounting portion 24 of the frame 2, one of the frame-shaped portions intersecting with a line 29 extending horizontally from the recess 28 in the radial direction of the optical recording disk 5 (direction indicated by arrow A). A large hole 31 that penetrates the frame 2 in the thickness direction is formed in one portion that intersects the portion 30 and a line 30 that extends horizontally from the concave portion 28 in the tangential direction (direction indicated by arrow B) of the optical recording disk 5. , 32 are formed. The upper surface of the frame portion where the holes 31 and 32 are open is a horizontal plane, and is set at the same height as the recess 28.
[0029]
On the other hand, on the holder support member 57 side, the objective lens 41 is provided. of Radial direction of optical recording disk 5 in the vicinity (direction indicated by arrow A) And a direction parallel to the axis of the holder support shaft 50 (a direction parallel to the optical axis of the objective lens 41) A vertical side wall 52 (plate-shaped portion) extending in the direction from the lower half portion to the bottom wall 49 is a window opening portion 63 in which the base 25 formed on the frame 2 is located. Here, the lower edge portion of the side wall 52 is at substantially the same height as the principal point of the objective lens 41. Further, the lower edge portion of the side wall 52 fits into a recess 28 formed on the upper edge of the plate-like portion 27 of the frame 2 when the holder support member 57 is disposed inside the drive device mounting portion 24 of the frame 2. Two recesses 65 are formed. The recess 65 has a substantially trapezoidal shape with a flat upper base 71 (slide mechanism).
[0030]
Further, a side wall 53 adjacent to the side wall 52 is formed with a flange portion 67 that is bent horizontally from the upper edge toward the outside, and the holder support member 57 is attached to the drive device mounting portion 24 of the frame 2 there. A screw hole 68 is formed so as to overlap with the hole 31 of the frame 2 when it is arranged inside. The side wall 54 facing the side wall 52 is also formed with a flange 69 that is bent horizontally from the upper edge toward the outside, and a holder support member 57 is disposed on the drive device mounting part 24 of the frame 2. A screw hole 70 is sometimes formed overlapping the hole 32 of the frame 2.
[0031]
When the optical pickup device 1 is assembled using the objective lens driving device 4 and the frame 2 configured as described above, the objective lens driving device 4 is fitted into the driving device mounting portion 24 of the frame 2. As a result, the plate-like portion 27 of the frame 2 and the side wall 52 of the objective lens driving device 4 intersect at a right angle, and the concave portion 65 of the side wall 52 fits into the concave portion 28 of the plate-like portion 27. Also, the screw holes 68 and 70 formed in the holder support member 57 overlap the holes 31 and 32 of the frame 2.
[0032]
Here, the holes 31 and 32 formed in the frame 2 are formed with counterbore on the upper surface side and the lower surface side, so that the coil springs 13 and 14 are respectively stored inside the counterbore portion on the upper surface side, and The first and second tilt angle adjusting screws 15 and 16 are inserted into the holes 31 and 32 from the lower surface side of the frame 2, and these screws are fixed to the screw holes 68 and 70. As a result, in a state where the coil springs 13 and 14 are compressed, the objective lens driving device 4 and the frame 2 are fixed with a predetermined gap between each screwed portion (two tilt angle adjustment points). Further, a plate spring 12 having a U-shaped cross section is mounted so as to sandwich the holder support member 57 and the frame 2, and the holder support member 57 is fixed so as to be pressed toward the frame 2.
[0033]
Since the leaf spring 12 can be elastically deformed in this state, if the first and second tilt angle adjusting screws 15 and 16 are turned, the holder support member 57 is equivalent to the concave portion 28 of the plate-like portion 27. And can be swung with the overlapping portion of the side wall 52 and the recess 65 as a fulcrum 17. Here, since the screwing positions of the first and second tilt angle adjusting screws 15 and 16 are at an angle position of 90 ° from the fulcrum 17, the holder for each of the radial direction and the track tangential direction of the optical recording disk 5 is used. The support member 57 can be swung.
[0034]
(Operation of optical axis adjustment mechanism)
In this embodiment, the tilt angle of the holder support member 57 (the tilt angle of the objective lens 41) is adjusted in the manufacturing process of the optical pickup device 1 using such a mechanism, and at the same time, the position of the holder support member 57 in the lateral direction ( The optical axis position of the objective lens 41 is adjusted. This will be described in detail with reference to FIGS.
[0035]
FIG. 4 is an enlarged perspective view of the overlapping portion of the concave portion 28 of the frame 2 and the concave portion 65 of the objective lens driving device 4 serving as the swing fulcrum 17 when adjusting the tilt angle of the holder support member 57, and FIG. FIG. 6 is a cross-sectional view of the portion cut along the line VV shown in FIG. 1, and FIG. 6 is a cross-sectional view of the portion cut along the line VI-VI shown in FIG.
[0036]
As shown in FIGS. 4 and 5, the side wall 52 of the holder support member 57 is in a state of straddling so as to intersect at right angles to the plate-like portion 27 of the frame 2 via the recesses 28 and 65. The holder support member 57 can swing in both directions of arrows C and D with the overlapping portion of the recesses 28 and 65 as the fulcrum 17. In addition, since the holder support member 57 is only pressed against the frame 2 by the leaf spring 12, if the first tilt angle adjusting screw 15 is turned in the tightening direction, the holder support member 57 is attached to the frame 2 at this portion. As shown by the arrow D, the axis line extending in the tangential direction (the direction indicated by the arrow B) (the fulcrum 17 and the screwing position of the second tilt angle adjusting screw 16 is connected by that amount. ) Tilt around the fulcrum 17 to rotate around. On the contrary, if the first inclination adjusting screw 15 is turned in the loosening direction, the holder support member 57 is pushed away from the frame 2 side by the coil spring 13 at this portion, and as shown by the arrow C. Then, it tilts around the fulcrum 17. Accordingly, the tilt angle of the objective lens 41 is adjusted in the radial direction (the direction indicated by the arrow A). Since the swing of the holder support member 57 during this time occurs around the fulcrum 17 in a substantially point contact state using the recesses 28 and 65, the inclination in the tangential direction (direction indicated by arrow B) does not change.
[0037]
Moreover, since the concave portion 65 of the holder support member 57 has a substantially trapezoidal shape with a flat upper base 71, the holder support member 57 on the frame 2 remains in a point contact state with the holder support member 57 and the frame 2. Can be slid in the radial direction (the direction indicated by arrow A) by the length of the upper base 71. Therefore, the position of the holder support member 57 in the radial direction (lateral direction) can be adjusted.
[0038]
4 and 6, the side wall 52 of the holder support member 57 is in a state of straddling so as to intersect the plate-like portion 27 of the frame 2 at right angles via the recesses 28 and 65. Therefore, the holder support member 57 can swing in both directions of arrows E and F with the overlapping portion of the recesses 28 and 65 as the fulcrum 17. In addition, since the holder support member 57 is only pressed against the frame 2 by the leaf spring 12, if the second inclination adjusting screw 16 is turned in the tightening direction, the holder support member 57 is attached to the frame 2 at this portion. As shown by an arrow F, an axial line extending in the radial direction (direction shown by an arrow A) (a line connecting the fulcrum 17 and the screwing position of the first tilt adjusting screw 15). It tilts around the fulcrum 17 so as to rotate around. On the other hand, if the second tilt angle adjusting screw 16 is turned in the loosening direction, the holder support member 57 is pushed away from the frame 2 side by the coil spring 14 at this portion, and as shown by the arrow E. Then, it tilts around the fulcrum 17. Therefore, the tilt angle of the objective lens 41 is adjusted in the tangential direction (the direction indicated by the arrow B). The swing of the holder support member 57 during this time also occurs around the fulcrum 17 in a substantially point contact state using the recesses 28 and 65, so that the inclination in the radial direction (direction indicated by arrow A) does not change. That is, since the tilt angle adjustment in the radial direction (direction indicated by arrow A) and the tangential direction (direction indicated by arrow B) can be performed independently, it is not necessary to repeat these adjustments alternately, and the tilt angle adjustment of the objective lens 41 can be performed. Easy to do.
[0039]
In addition, since the recess 28 of the frame 2 has a substantially trapezoidal shape with a flat bottom 33, the holder support member 57 is lowered on the frame 2 while the holder support member 57 and the frame 2 are in a point contact state. Only the length of the bottom 33 can be slid in the tangential direction (direction indicated by arrow B). Therefore, the position of the holder support member 57 in the tangential direction (lateral direction) can be adjusted.
[0040]
After the adjustment of the inclination angle of the objective lens 41 is completed in this way, the objective lens driving device 4 is fixed to the frame 2 with the adhesive 19 as shown in FIG.
[0041]
As described above, in the optical axis adjustment mechanism 100 configured in the optical pickup device 1 of the present example, the frame 2 and the holder support member 57 are brought into point contact to swing the holder support member 57 on the frame 2, Unlike the configuration using the ball seat, the fulcrum 17 can be configured on the side surface of the holder support member 57 or the like. Therefore, the holder support member 57 can be thinned, that is, the optical pickup device 1 can be thinned. In addition, since the holder support member 57 and the frame 2 are in point contact, no dust enters between them, and even if dust enters between the holder support member 57 and the frame 2, a catch or the like occurs. Therefore, it is possible to finely adjust the tilt angle. Furthermore, since the holder support member 57 and the frame 2 are in point contact with each other, the swing center (swing support point) of the holder support member 57 is specified. For example, the tilt angle adjustment in two directions can be performed independently. Therefore, it is possible to perform delicate tilt adjustment without taking time and effort. In addition, in the optical axis adjustment mechanism 100, the holder support member 57 can be slid on the frame 2 while making the point contact between the holder support member 57 and the frame 2 so as to form the intersection point 17. The optical axis can also be moved in a direction orthogonal thereto, and the optical axis position can be adjusted with high accuracy.
[0042]
Further, since the fulcrum 17 is configured at the same height as the principal point of the objective lens 41 when viewed from the frame 2 side, the optical center of the objective lens 41 is adjusted even if the tilt angle of the holder support member 57 is adjusted. Since the position does not change, displacement of the objective lens 41 can be prevented. Further, since the fulcrum 17 is configured in the vicinity of the objective lens 41, the height position of the objective lens 41 hardly changes when the tilt angle of the holder support member 57 is adjusted, so that the displacement of the objective lens 41 is prevented. it can. Moreover, since the degree of change of the tilt of the objective lens 41 is small when the tilt angle of the holder support member 57 is adjusted, the tilt angle can be adjusted in small increments, and delicate tilt angle adjustment can be easily performed.
[0043]
(Other embodiments)
In the above embodiment, the holder support member 57 is configured to be slidable in either the radial direction or the tangential direction on the frame 2. However, any of the recesses 28 of the frame 2 and the recesses 65 of the holder support member 57 is not limited. Only one of them may be provided with a flat bottom (sliding mechanism) so that the holder support member 57 can be slid on the frame 2 only in one of the radial direction and the tangential direction.
[0044]
【The invention's effect】
As described above, in the optical axis adjusting mechanism configured in the optical pickup device of the present invention, the holder side is pivoted on the frame by causing the frame side and the holder supporting member side to contact each other. Unlike the configuration using the seat, the fulcrum can be configured on the side surface of the holder support member. Therefore, it is possible to reduce the thickness of the holder support member, that is, to reduce the thickness of the optical pickup device. In addition, since the holder support member and the frame are in point contact, there is no dust between them, and even if dust enters between the holder support member and the frame, there is no occurrence of catching. Tilt angle adjustment is possible. Furthermore, since the holder support member and the frame are in point contact, the swing center of the holder support member is specified. Therefore, if the swing direction is set to the orthogonal direction, the tilt angle can be adjusted in two directions. Each can be done independently. Therefore, it is possible to perform delicate tilt adjustment without taking time and effort. In addition, since the holder support member and the frame are in point contact with each other and have a slide mechanism that slides the holder support member on the frame, the optical axis of the objective lens can be moved in a direction orthogonal thereto, Accurate adjustment of the optical axis position can be performed.
[Brief description of the drawings]
FIG. 1 is a plan view showing an appearance of an optical pickup device of the present invention.
2 is an exploded perspective view for explaining the structure of the apparatus shown in FIG. 1. FIG.
FIG. 3 is a cross-sectional view taken along line III-III in FIG.
4 is an enlarged perspective view showing a portion serving as a swing fulcrum when adjusting the tilt angle in the apparatus shown in FIG. 1;
FIG. 5 is a cross-sectional view taken along line VV in FIG. 1;
6 is a cross-sectional view taken along line VI-VI in FIG.
[Explanation of symbols]
1 Optical pickup device
2 frames
3 Light source unit
4 Objective lens drive unit
5 Optical recording disc
12 leaf spring
15 First tilt angle adjusting screw
16 Second tilt angle adjusting screw
17 fulcrum
27 Plate-like part on the frame side
28 Frame side recess
29 A line connecting the fulcrum and the screwing position of the first tilt adjusting screw
30 A line connecting the fulcrum and the screwing position of the second tilt angle adjusting screw
33 Lower bottom of the recess on the frame side
41 Objective lens
42 Lens holder
45, 46 Tracking drive coil
47 Driving coil for focusing
57 Holder support member
59, 60 Tracking drive magnet
61, 62 Focusing drive magnet
65 Concave portion on the holder support member side
71 Upper bottom of recess on holder support member side
100 Optical axis adjustment mechanism
L Laser light

Claims (6)

A lens holder that holds an objective lens and a holder support member that supports the lens holder with a holder spindle, and the lens holder is magnetically driven on the holder support member in a focusing error correction direction and a tracking error correction direction of the objective lens. An optical pickup device having an objective lens driving device, a frame that supports the holder support member, and an optical axis adjustment mechanism for adjusting an optical axis position of the objective lens on the frame,
The optical axis adjustment mechanism includes a fulcrum that allows the frame and the holder support member to make point contact so that the holder support member can swing on the frame, and the holder support member in two different directions around the fulcrum. , And two tilt angle adjusting members for adjusting the tilt angle of the objective lens in each of the two directions,
Having a slide mechanism for sliding the holder support member on the frame while making point contact with the holder support member and the frame so as to constitute an intersection ;
The fulcrum includes a first recess in a direction parallel to the axis of the holder shaft from the side is formed on the leading edge of the plate-like portion facing the holder support member of the frame, said from the side of the holder support member Consists of a second recess formed to fit into the first recess with respect to the leading edge of the plate-like portion facing the frame in a direction parallel to the axis of the holder support shaft ,
In the slide mechanism, at least one of the second recess and the first recess has a flat bottom, so that the holder support member extends along the bottom on the frame along the optical axis. An optical pickup device configured to be slidable in a direction orthogonal to the direction . 2. The slide mechanism according to claim 1, wherein the holder supporting member is orthogonal to the optical axis on the frame by providing the bottom portion in which the concave portions of both the second concave portion and the first concave portion are flat. An optical pickup device configured to be slidable in two directions . 3. The first tilt angle adjusting member according to claim 1, wherein the two tilt angle adjusting members are respectively arranged at two positions located in different directions from the fulcrum, and each adjusts a distance between the frame and the holder support member at each arrangement position. An optical pickup device comprising: 1 tilt angle adjusting screw and 2nd tilt angle adjusting screw. 4. The optical pickup device according to claim 3, wherein the first tilt angle adjusting screw and the second tilt angle adjusting screw are arranged in a direction that forms an angle of 90 [deg.] Around the fulcrum. 5. The optical pickup device according to claim 1, wherein the fulcrum is configured at the same height as the principal point of the objective lens. 6. The optical pickup device according to claim 1, wherein the fulcrum is configured in the vicinity of the objective lens.

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