JP2004139645A - Optical pickup and disk drive unit - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To enhance the reliability of operation of an objective lens driving mechanism related with an optical pickup and disk drive unit. <P>SOLUTION: In an objective lens driving mechanism 9, a fixing body 10, a movable body 11, a magnet 28, a coil body 19, and a plurality of wire-like elastic members 29, 29, 29 are formed. The fixing body 10 has a base section 12 and a supporting shaft section 13 set up projectingly in the direction of an optical axis of the objective lens 26. The movable body 11 is supported removably in the direction of the shaft of the supporting shaft section and rotatably around the shaft of the supporting shaft section. The magnet 28 is set up at either one of the movable body or the fixing body. The coil body 19 is set up on the other one of the movable body or the fixing body and constituted of a focusing coil 20 and tracking coils 21, 21. The plurality of the wire-like elastic members 29, 29, 29 join the movable body and the fixing body. They are carried out elastic deformation when the movable body is operated in the direction of focusing and in the direction of tracking, while they give tension to the movable body from a plurality of different directions almost orthogonal to the direction of focusing and also hold the movable body in a neutral position in the direction of tracking, and a neutral position in the direction of focusing. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an optical pickup and a disk drive. More specifically, the present invention relates to a technical field for improving the reliability of operation of an objective lens driving device.
[0002]
[Prior art]
2. Description of the Related Art There is a disk drive device that records and reproduces information signals on and from a disk-shaped recording medium such as an optical disk. The disk drive device moves in the radial direction of a disk-shaped recording medium mounted on a disk table and moves the disk-shaped recording medium. An optical pickup for irradiating the medium with laser light via an objective lens is provided.
[0003]
The optical pickup includes a moving base that is moved in the radial direction of the disk-shaped recording medium, and an objective lens driving device disposed on the moving base.
[0004]
In the objective lens driving device, in addition to the type in which the movable body is supported by a fixed body via a suspension such as a wire, the movable body is movable in the axial direction of a support shaft portion provided in the fixed body and is rotatable around the axis. There is a so-called shaft sliding type in which a movable body is supported.
[0005]
In an objective lens driving device, when recording or reproducing an information signal on or from a disc-shaped recording medium, a laser beam spot irradiated through the objective lens is focused on a recording track of the disc-shaped recording medium. Focusing servo and tracking servo are performed to perform this. At this time, in the axis sliding type objective lens driving device, the focusing servo is performed by moving the movable body holding the objective lens in the axial direction of the support shaft, and the tracking servo is performed by moving the movable body with the support shaft. The rotation is performed in the direction around the axis of the section.
[0006]
As an example of a conventional shaft-sliding type objective lens driving device, there is one using a damper member to hold a movable body at a neutral position in a focusing direction and a tracking direction (see Patent Document 1).
[0007]
In the damper member, a fixed portion attached to the fixed body, a support portion supporting the movable body, and a connecting portion connecting the fixed portion and the support portion are integrally formed of an elastic material such as silicon rubber or butyl rubber. Have been.
[0008]
[Patent Document 1]
JP-A-3-58330
[Problems to be solved by the invention]
By the way, in the above-mentioned axis sliding type objective lens driving device, since a certain clearance exists between the supported hole of the movable body and the support shaft portion, the movable body is not provided at the time of focusing servo and tracking servo. Although there is a possibility that the movable body is inclined by the clearance with respect to the support shaft portion, it is desirable that the movable body be operated without inclination of the movable body as much as possible from the viewpoint of ensuring operation reliability.
[0010]
However, in the conventional objective lens driving device described above, since the movable body is supported at one point by the support portion of the damper member, when the movable body is operated in the focusing direction or the tracking direction, the movable body is moved. However, there is a problem that inclination due to the clearance between the supported hole and the support shaft portion easily occurs.
[0011]
Such a tilt of the movable body generates a large frictional force between the movable body and the support shaft, thereby easily causing a drive loss of the movable body, a change in sensitivity, a change in posture of the movable body, and a hysteresis of the position. Therefore, drive control may be difficult.
[0012]
Further, when a neutral damper member made of an elastic material such as silicon rubber or butyl rubber is used, each part requires a certain thickness, so that the arrangement space of the damper member is large, and the objective lens There is a problem that the driving device tends to be large.
[0013]
On the other hand, it is conceivable to reduce the thickness of the elastic member by forming the damper member with a leaf spring. However, the problem of the inclination of the movable body cannot be solved. When the damper member is formed by a leaf spring, a large restoring force for maintaining the neutral position can be obtained. On the other hand, the movable body is easily pressed against the support shaft with a large amount of force. The force tends to increase.
[0014]
Therefore, it is an object of the present invention to overcome the above-mentioned problems and to improve the reliability of the operation of the objective lens driving device.
[0015]
[Means for Solving the Problems]
In order to solve the above-described problems, the optical pickup and the disk drive device of the present invention are provided in an objective lens driving device, with a base portion attached to a moving base and protruding from the base portion in the optical axis direction of the objective lens. A fixed body having a support shaft, and an objective lens, which is supported so as to be movable in the axial direction of the support shaft and to be rotatable in the direction around the axis of the support shaft, and to support the focusing servo. The disk-shaped recording medium is moved in the axial direction of the disk-shaped recording medium by being moved in the focusing direction, which is a direction in which the disk-shaped recording medium is separated from and brought into contact with the recording surface of the disk-shaped recording medium. A movable body that is operated in a tracking direction that is a radial direction, a magnet provided on one of the movable body or the fixed body, And a coil body comprising a focusing coil and a tracking coil, and a movable body and a fixed body connected to each other, and when the movable body is operated in the focusing direction and the tracking direction, it is elastically deformed and substantially orthogonal to the focusing direction. And a plurality of wire-shaped elastic members for applying tension to the movable body from a plurality of different directions and holding the movable body at a neutral position in the tracking direction and a neutral position in the focusing direction.
[0016]
Therefore, in the optical pickup and the disk drive of the present invention, the balance of the movable body is maintained by the tension of the plurality of elastic members.
[0017]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the optical pickup and the disk drive device of the present invention will be described with reference to the accompanying drawings.
[0018]
The disk drive device 1 has required members and mechanisms arranged in an outer casing 2 (see FIG. 1).
[0019]
A chassis 3 is disposed in the outer casing 2, and a spindle motor (not shown) is attached to the chassis 3. A disk table 4 located above the chassis 3 is fixed to the motor shaft of the spindle motor.
[0020]
A lead screw 5 and guide shafts 6, 6 are arranged on the lower surface side of the chassis 3 in parallel. A pickup arrangement hole 3 a is formed in the chassis 3, and the optical pickup 7 is arranged in the pickup arrangement hole 3 a so as to be movable in a radial direction of the disk-shaped recording medium 100 mounted on the disk table 4.
[0021]
The optical pickup 7 includes a moving base 8, required optical elements (optical elements) provided on the moving base 8, and an objective lens driving device 9 disposed on the moving base 8. Each is slidably supported by a guide shaft 6,6. The optical elements provided on the moving base 8 include, for example, a light emitting element that functions as a light emitting unit that emits laser light, a diffractive element that diffracts laser light, an optical branching element that splits laser light, And a light receiving element that functions as a light receiving unit that receives laser light.
[0022]
A nut member (not shown) provided on the moving base 8 is screwed to the lead screw 5. When the lead screw 5 is rotated by a feed motor (not shown) attached to the moving base 8, the nut member is sent in a direction corresponding to the rotation direction of the lead screw 5, and the optical pickup 7 is guided by the guide shafts 6. The disk-shaped recording medium 100 mounted on the disk table 4 is moved in the radial direction.
[0023]
The objective lens driving device 9 includes a fixed body 10 and a movable body 11 supported by the fixed body 10 (see FIGS. 2 to 6).
[0024]
The fixed body 10 has a base portion 12 attached to the upper surface of the movable base 8 and a support shaft portion 13 protruding upward from the base portion 12. The base portion 12 has a substantially rectangular main body portion 14, regulating protrusions 15, 15 protruding from left and right side edges of a front end portion of the main body portion 14, and a left and right direction of a rear end portion of the main body portion 14. The protruding portion 16 protruding rearward from the central portion is formed integrally with, for example, a resin material.
[0025]
A coil arrangement hole 14a opened upward is formed in the main body 14, and a support shaft 13 is provided on a bottom surface 14b of the coil arrangement hole 14a. Engagement concave portions 14c, 14c,... Are formed on both left and right side surfaces of the main body portion 14 so as to be separated from each other.
[0026]
The restricting protrusions 15, 15 protrude, for example, away from each other as they go forward from the main body 14, and the upper surfaces of the tips 15 a, 15 a are positioned above the upper surface of the main body 14.
[0027]
Mounting protrusions 17, 17 are provided on the upper surfaces of the tip portions 15a, 15a of the regulating protrusions 15, 15, respectively. The mounting protrusion 17 is formed, for example, in a substantially rectangular parallelepiped shape, and has a mounting groove 17a opened on the upper surface and on both side surfaces located on opposite sides (see FIG. 7). The central portion of the mounting groove 17a has a large opening area and is formed as a reservoir 17b for retaining an adhesive described later. At the lower end of the mounting projection 17, winding recesses 17 c, 17 c are respectively formed on both side surfaces where the opening of the mounting groove 17 a is formed.
[0028]
The upper surface of the protrusion 16 is located at the same height as the upper surfaces of the tip portions 15a, 15a of the regulating protrusions 15, 15 (see FIG. 2). On the upper surface of the protrusion 16, the same mounting protrusion 17 as the mounting protrusion 17 provided on the regulating protrusion 15, 15 is provided.
[0029]
The mounting projections 17, 17, 17 provided on the fixed body are located radially about the support shaft 13.
[0030]
A yoke 18 is arranged in the coil arrangement hole 14 a of the main body 14 of the fixed body 10. The yoke 18 is formed of, for example, a magnetic metal material such as iron, and is attached to the peripheral surface 14d of the coil arrangement hole 14a.
[0031]
A coil body 19 is attached to the inner peripheral surface of the yoke 18. The coil body 19 includes a focusing coil 20 and tracking coils 21, 21.
[0032]
The focusing coil 20 includes an arc portion 20a, inclined portions 20b and 20b, vertical portions 20c and 20c, and a horizontal portion 20d.
[0033]
The arc portion 20a is formed, for example, in an arc shape having a central angle of 180 ° or more. The inclined portions 20b, 20b are respectively continuous with the rear end of the arc portion 20a and are inclined in a direction away from each other as going backward. The vertical portions 20c, 20c are formed so as to be continuous with the rear ends of the inclined portions 20b, 20b and extend in the front-rear direction. The horizontal portion 20d is formed to be long in the left-right direction so as to connect the rear ends of the vertical portions 20c, 20c.
[0034]
Each of the tracking coils 21 is formed in a rectangular cylindrical shape, and is attached to the front surface of the horizontal portion 20d of the focusing coil 20 so as to be arranged side by side, for example, by bonding.
[0035]
The movable body 11 includes a movable main body 22 and required members attached thereto.
[0036]
The movable body 22 includes a main portion 23 formed in a substantially flat plate shape, a large-diameter portion 24 protruding downward from a rear half of the main portion 23, and a small-diameter portion 25 protruding downward from the large-diameter portion 24. For example, it is formed integrally with a resin material.
[0037]
A transmission hole 23a is formed in the first half of the main part 23, and an objective lens 26 is mounted on the upper surface of the main part 23 so as to cover the transmission hole 23a.
[0038]
The movable body 22 has a supported hole 22 a penetrating between the upper surface of the main portion 23 and the lower surface of the small diameter portion 25.
[0039]
On the upper surface of the main portion 23 of the movable main body 22, mounting protrusions 27, 27, 27 formed in the same shape as the mounting protrusions 17, 17, 17 provided on the fixed body 10 are provided. Therefore, the mounting protrusion 27 is formed with a mounting groove 27a, a reservoir 27b, and winding concavities 27c, 27c. The mounting projections 27, 27, 27 are located radially around the supported hole 22a. The mounting projections 27, 27, 27 are respectively located on the right and left portions of the main portion 23 immediately behind the objective lens 26 and on the center of the rear end portion in the left and right direction.
[0040]
A magnet 28 is attached to the movable body 22. The magnet 28 is formed in an annular shape and is monopolarly magnetized in the radial direction. For example, the outer peripheral side is an N pole and the inner peripheral side is an S pole. The magnet 28 may be magnetized so that the outer periphery is an S pole and the inner periphery is an N pole. The magnet 28 is attached to the small diameter portion 25 so as to be fitted outside.
[0041]
The movable body 11 is supported by the support shaft 13 so as to be movable in the axial direction and rotatable around the axis by inserting the support shaft 13 into the supported hole 22a. The axial direction of the support shaft portion 13 is a focusing direction (F-F direction shown in FIGS. 3 and 4) in which focusing servo is performed on the disk-shaped recording medium 100, and the substantially radial direction of the disk-shaped recording medium 100 is 3 is a tracking direction (TT direction shown in FIGS. 3 and 5) in which tracking servo is performed on the shape recording medium 100. Accordingly, the movable body 11 is moved in the focusing direction by being moved in the axial direction of the support shaft 13, and is moved in the substantially tracking direction by being rotated in the direction around the axis of the support shaft 13.
[0042]
When the movable body 11 is supported by the support shaft 13, the magnet 28 is disposed along the arc 20a of the focusing coil 20 (see FIG. 6).
[0043]
The fixed body 10 and the movable body 11 are connected by elastic members 29, 29, 29. The elastic members 29, 29, 29 are formed in a wire shape having a diameter of, for example, 0.1 mm or less, and are formed of, for example, an olefin-based, urethane-based, styrene-based, or polyester-based elastomer.
[0044]
The elastic members 29, 29, 29 each have one end 29a, 29a, 29a attached to the mounting projection 17, 17, 17, 17 of the fixed body 10, and the other end 29b, 29b, 29b attached to the mounting projection of the movable body 11. 27, 27, 27 are attached.
[0045]
The procedure for attaching the elastic member 29 to the attachment projections 17 and 27 will be described below (see FIGS. 7 to 9). Since the attachment of the elastic member 29 to the attachment protrusion 17 and the attachment protrusion 27 are performed in the same procedure, an example in which the elastic member 29 is attached to the attachment protrusion 17 will be described as an example.
[0046]
A part 29c of the elastic member 29 is inserted into the mounting groove 17a, a part 29d drawn out of the mounting groove 17a is wound so as to cover the periphery of the mounting projection 17, and another part 29e is inserted into the mounting groove 17a again. (See FIGS. 7 and 8). Next, the two portions 29f and 29g pulled out from the mounting groove 17a are pulled to the opposite sides to wind the portion 29d around the winding recess 17c (see FIG. 9). Next, for example, an ultraviolet curing adhesive 30 is dropped into the reservoir 17b of the mounting projection 17 and the parts 29c and 29e inserted into the mounting groove 17a are adhered to the mounting projection 17 by irradiating ultraviolet rays. (See FIG. 9).
[0047]
The attachment of the elastic member 29 to the attachment protrusion 27 is performed in the same manner as the attachment to the attachment protrusion 17, and the movable body 11 is supported by the fixed body 10 via the elastic members 29, 29, 29 (see FIG. 5). . The movable body 11 is balanced by the tension of the elastic members 29, 29, 29, and each of the elastic members 29, 29, 29 is located in a plane orthogonal to the axial direction of the support shaft 13 of the fixed body 10.
[0048]
Hereinafter, an example of the balanced state of the movable body 11 is shown (see FIG. 10).
[0049]
The weight of the movable body 11 is 100 mg to 200 mg, and the elastic members 29 on the front side (the objective lens 26 side) are inclined by 42.15 ° with respect to the elastic member 29 on the rear side. The elastic members 29, 29, 29 are formed of a urethane polymer and have an elastic modulus E of 30 MPa, a diameter d of 0.06 mm, and a length 1 of 2.5 mm. In a state where the movable body 11 is held at the neutral position in the focusing direction and the tracking direction, the tension T1 and T2 of the front elastic members 29 and 29 are 0.85 gf, respectively, and the tension T3 of the rear elastic member 29 is 0. It is about 1.26 gf by 85 cos θ × 2.
[0050]
The maximum amount of movement of the movable body 11 in the focusing direction is set to ± 0.75 mm with respect to the neutral position, and the maximum rotation angle in the tracking direction is set to ± 6 ° with reference to the neutral position.
[0051]
In a state before the movable body 11 is operated in the focusing direction, the movable body 11 is held at a neutral position in the focusing direction by the elastic members 29, 29, 29 (see FIGS. 4 and 6), and before the movable body 11 is operated in the tracking direction. In the state, it is held at the neutral position in the tracking direction by the elastic members 29, 29, 29 (see FIG. 5).
[0052]
The cover body 31 is attached to the fixed body 10 (see FIGS. 2, 3, and 6). In the cover body 31, a top plate portion 32 and side plate portions 33, 33 connected to both left and right edges of the top plate portion 32 are formed of, for example, a plate-like elastic resin material.
[0053]
A shaft insertion hole 32 a is formed in the top plate 32.
[0054]
Are formed on the side plate portions 33, 33 apart from each other back and forth, and the engaging pieces 33a, 33a,. It is inclined to be located inside the lower edge.
[0055]
The cover body 31 is attached to the fixed body 10 by engaging the engagement pieces 33a, 33a,... Of the side plate parts 33, 33 with the engagement recesses 14c, 14c,.
[0056]
The attachment of the cover body 31 to the fixed body 10 is performed by moving the cover body 31 from above the fixed body 10 to below. When the cover body 31 is moved downward, the engagement pieces 33a, 33a,..., Which are inclined inward, are elastically deformed so as to be substantially vertical by sliding on the side surface of the main body portion 14, and the engagement concave portion 14c is formed. , 14c,... Are engaged with the upper opening edges of the engaging recesses 14c, 14c,. As described above, the cover body 31 can be attached to the fixed body 10 by moving the cover body 31 from above to below the fixed body 10, which is easy to attach and is easy in the assembly process of the objective lens driving device 9. Workability can be improved.
[0057]
In a state where the cover body 31 is attached to the fixed body 10, the upper end of the support shaft 13 that has passed through the supported hole 22 a of the movable body 11 is fitted into the shaft insertion hole 32 a of the top plate 32.
[0058]
Hereinafter, the operation of the disk drive device 1 will be described.
[0059]
When the disk-shaped recording medium 100 is mounted on the disk table 4 and a recording switch or a reproduction switch (not shown) is operated, the disk-shaped recording medium 100 is rotated with the rotation of the disk table 4 driven by the spindle motor. When the disc-shaped recording medium 100 is rotated, laser light is emitted from a light emitting element provided on the moving base 8 and is irradiated on the recording surface of the disc-shaped recording medium 100 via the objective lens 26.
[0060]
The laser beam applied to the recording surface of the disk-shaped recording medium 100 is reflected by the recording surface, enters a light receiving element provided on the moving base 8, is photoelectrically converted, and records or reproduces an information signal.
[0061]
When recording or reproduction of an information signal is performed, a focusing servo and a tracking servo are performed by the objective lens driving device 9.
[0062]
At the time of focusing servo, a drive current is supplied from a current supply unit (not shown) to the focusing coil 20 to focus a laser beam spot irradiated through the objective lens 26 on a recording track of the disc-shaped recording medium 100. The movable body 11 is moved in the focusing direction based on the neutral position according to the direction of the current.
[0063]
When the movable body 11 is moved in the focusing direction, the elastic members 29, 29, 29 are elastically deformed (see FIG. 11).
[0064]
When the supply of the drive current to the focusing coil 20 is stopped, the elastic members 29, 29, 29 are elastically restored, and the movable body 11 that has been operated in the focusing direction is held at the neutral position in the focusing direction (FIG. 4). reference).
[0065]
On the other hand, at the time of tracking servo, a drive current is supplied from a current supply unit (not shown) to the tracking coils 21, 21 in order to focus a laser beam spot irradiated via the objective lens 26 on a recording track of the disc-shaped recording medium 100. The movable body 11 is supplied and moved in the tracking direction based on the neutral position in accordance with the direction of the drive current.
[0066]
When the movable body 11 is moved in the tracking direction, the elastic members 29, 29, 29 are elastically deformed (see FIG. 12).
[0067]
When the supply of the drive current to the tracking coils 21, 21 is stopped, the elastic members 29, 29, 29 are elastically restored, and the movable body 11 that has been operated in the tracking direction is held at the neutral position in the tracking direction ( (See FIG. 5).
[0068]
Although the movable body 11 may be largely moved in the focusing direction or the tracking direction due to vibration or the like, unnecessary movement of the movable body 11 in the focusing direction is caused by the bottom surface portion 14b of the base portion 12 of the fixed body 10 and the cover. Unnecessary movement of the movable body 11 in the tracking direction is prevented by the regulating projections 15, 15 of the fixed body 10.
[0069]
As described above, in the disk drive device 1, the elastic members 29, 29, 29 apply tension to the movable body from a plurality of different directions substantially orthogonal to the focusing direction to move the movable body 11 in the tracking direction. It is held at the neutral position and the neutral position in the focusing direction.
[0070]
Therefore, a change in the inclination of the movable body 11 with respect to the support shaft 13 due to the clearance existing between the supported hole 22a of the movable body 11 and the support shaft 13 is reduced, and the reliability of the operation of the objective lens driving device 9 is reduced. Can be secured.
[0071]
Further, since the change in the inclination of the movable body 11 with respect to the support shaft 13 is reduced, the frictional force between the movable body 11 and the support shaft 13 is reduced, so that the drive loss is reduced, and the change in sensitivity and The change of the posture of the body and the hysteresis of the position hardly occur, and the drive control of the objective lens driving device 9 can be facilitated.
[0072]
In order to further reduce the frictional force between the movable body 11 and the support shaft 13, the movable body 11 and the support shaft 13 are formed of a material having a friction coefficient of 0.1 or less. Is desirable.
[0073]
Further, a material that reduces the friction coefficient, for example, a fluoroethylene resin (PTEF) or the like is applied to the peripheral surface of the supported hole 22a of the movable body 11 or the peripheral surface of the support shaft portion 13 to support the movable body 11. Good slidability with respect to the shaft 13 can also be ensured.
[0074]
In the disk drive device 1, since the wire-shaped elastic members 29, 29, 29 are used for the objective lens driving device 9, the tension generated between the movable body 11 and the support shaft portion 13 is adjusted by adjusting these tensions. Therefore, it is possible to reduce the frictional force, and to facilitate the drive control of the objective lens driving device 9.
[0075]
Further, since the movable body 11 is held at the neutral position using the wire-like elastic members 29, 29, 29, the occupied area of the elastic members 29, 29, 29 is small, and the objective lens driving device 9 is small. Can be achieved.
[0076]
Further, by using an elastomer as a material for the elastic members 29, 29, 29, there is much room for selection of the material, and the movable body 11 can be reliably held at the neutral position.
[0077]
In the above description, the example in which the magnet 28 is mounted on the movable body 11 and the coil body 19 is mounted on the fixed body 10 is shown. Conversely, the magnet 28 is mounted on the fixed body 10 and the coil body 19 is mounted on the movable body 11. You may.
[0078]
In the above description, an example in which the cover body 31 is formed of a resin material has been described. Alternatively, the cover body 31 may be formed of a magnetic material such as a metal. When the cover body 31 is formed of a magnetic material, it is possible to prevent the magnetic flux generated by the magnet 28 from leaking to the outside.
[0079]
Further, in the above, the example in which the fixed body 10 is formed of a resin material and the yoke 18 is provided has been described, but the fixed body 10 may be formed of a magnetic material such as a metal instead. When the fixed body 10 is formed of a magnetic material, the fixed body 10 can function as a yoke, so that the yoke 18 as a separate member becomes unnecessary, and the number of components can be reduced. However, it is desirable that the bottom surface portion 14b of the base portion 12 of the fixed body 10 be formed of a non-magnetic material in order to avoid the attraction of the magnet 28.
[0080]
The specific shapes and structures of the respective parts shown in the above-described embodiments are merely examples of the specific embodiments of the present invention, and the technical scope of the present invention is limited by these examples. It must not be interpreted in a tentative way.
[0081]
【The invention's effect】
As is apparent from the above description, the optical pickup of the present invention includes a moving base that is moved in a radial direction of a disk-shaped recording medium mounted on a disk table, and a recording base provided on the moving base. A light-emitting unit that emits laser light toward the surface, a light-receiving unit that is provided on the moving base and receives the laser light reflected on the recording surface of the disk-shaped recording medium as return light, and a laser light emitted from the light-emitting unit. An optical pickup comprising: an objective lens driving device that holds an objective lens that condenses light on a recording surface of a disk-shaped recording medium and is disposed on a moving base, wherein the objective lens driving device is attached to the moving base. A fixed body having a base portion and a support shaft portion provided so as to protrude from the base portion in the optical axis direction of the objective lens; The recording surface of the disk-shaped recording medium is supported by being movable in the axial direction of the support shaft and rotatably in the direction around the axis of the support shaft, and moved in the axial direction of the support shaft when the focusing servo is applied. A movable body that is operated in a focusing direction, which is a direction in which the disk-shaped recording medium is moved toward and away from the disk-shaped recording medium, and is rotated in a direction around an axis of a support shaft when a tracking servo is applied; A magnet provided on one of the movable body or the fixed body, a coil body provided on the other of the movable body or the fixed body and including a focusing coil and a tracking coil, and connecting the movable body and the fixed body, A plurality of different members that are elastically deformed when operated in the focusing direction and the tracking direction and are substantially orthogonal to the focusing direction. Characterized by comprising a plurality of elastic members wire shaped holding the neutral position in the neutral position and the focusing direction in the tracking direction of the movable member to apply tension to the movable body from.
[0082]
Therefore, a change in the inclination of the movable body with respect to the support shaft caused by the clearance existing between the movable body and the support shaft is reduced, and the reliability of the operation of the objective lens driving device can be secured.
[0083]
In addition, since the change in inclination of the movable body with respect to the support shaft is reduced, the frictional force between the movable body and the support shaft is reduced, driving loss is reduced, and a change in sensitivity and a change in posture of the movable body are performed. And hysteresis of the position hardly occurs, and drive control of the objective lens driving device can be facilitated.
[0084]
Furthermore, since a wire-shaped elastic member is used, the frictional force generated between the movable body and the support shaft can be reduced by adjusting these tensions, and the drive control of the objective lens driving device is facilitated. Can be achieved.
[0085]
In addition, since the movable body is held at the neutral position using the wire-shaped elastic member, the area occupied by the elastic member is small, and the size of the objective lens driving device can be reduced.
[0086]
According to the second aspect of the present invention, since the elastic member is formed of an elastomer, there is much room for selecting a material, and the movable body can be reliably held at the neutral position.
[0087]
A disk drive device according to the present invention includes a moving base that is moved in a radial direction of a disk-shaped recording medium mounted on a disk table, and a light-emitting device that is provided on the moving base and emits laser light toward a recording surface of the disk-shaped recording medium. Unit, a light receiving unit provided on the moving base for receiving the laser light reflected on the recording surface of the disk-shaped recording medium as return light, and condensing the laser light emitted from the light-emitting unit on the recording surface of the disk-shaped recording medium. A disk drive device comprising an optical pickup having an objective lens driving device disposed on a moving base while holding the objective lens, wherein the objective lens driving device includes a base portion attached to the moving base and the base portion. A fixed body having a support shaft protruding from the base in the optical axis direction of the objective lens; It is supported so as to be movable in the axial direction of the shaft portion and rotatable in the direction around the axis of the support shaft portion, and is moved in the axial direction of the support shaft portion when the focusing servo is applied so as to separate from the recording surface of the disk-shaped recording medium. A movable body which is operated in a focusing direction which is a contacting direction and which is rotated in a direction around an axis of a support shaft portion when a tracking servo is applied and is operated in a tracking direction which is a substantially radial direction of a disk-shaped recording medium; Alternatively, a magnet provided on one of the fixed bodies, a coil body provided on the other of the movable body or the fixed body and including a focusing coil and a tracking coil, and the movable body and the fixed body are connected to each other so that the movable body is in the focusing direction. And elastically deformed when operated in the tracking direction and from a plurality of different directions substantially orthogonal to the focusing direction. Characterized by comprising a plurality of elastic members wire shaped to hold the movable member to apply tension to the moving object in the neutral position in the neutral position and the focusing direction in the tracking direction.
[0088]
Therefore, a change in the inclination of the movable body with respect to the support shaft caused by the clearance existing between the movable body and the support shaft is reduced, and the reliability of the operation of the objective lens driving device can be secured.
[0089]
In addition, since the change in inclination of the movable body with respect to the support shaft is reduced, the frictional force between the movable body and the support shaft is reduced, driving loss is reduced, and a change in sensitivity and a change in posture of the movable body are performed. And hysteresis of the position hardly occurs, and drive control of the objective lens driving device can be facilitated.
[0090]
Furthermore, since a wire-shaped elastic member is used, the frictional force generated between the movable body and the support shaft can be reduced by adjusting these tensions, and the drive control of the objective lens driving device is facilitated. Can be achieved.
[0091]
In addition, since the movable body is held at the neutral position using the wire-shaped elastic member, the area occupied by the elastic member is small, and the size of the objective lens driving device can be reduced.
[0092]
According to the fourth aspect of the present invention, since the elastic member is formed of an elastomer, there is much room for selecting a material, and the movable body can be reliably held at the neutral position.
[Brief description of the drawings]
FIG. 1 shows an embodiment of the present invention together with FIG. 2 to FIG. 12, and FIG. 1 is a schematic perspective view of a disk drive device.
FIG. 2 is an exploded perspective view of the objective lens driving device.
FIG. 3 is an enlarged perspective view of the objective lens driving device.
FIG. 4 is an enlarged side view of the objective lens driving device in which a part is cut away and a cover body is removed.
FIG. 5 is an enlarged plan view of the objective lens driving device with the cover removed.
FIG. 6 is an enlarged sectional view of the objective lens driving device.
7 and 8 together with FIGS. 8 and 9 show a procedure for attaching the elastic member to the attachment projection, and FIG. 7 is an enlarged perspective view showing a state before the attachment.
FIG. 8 is an enlarged perspective view showing a state in the middle of mounting.
FIG. 9 is an enlarged perspective view showing a state after attachment.
FIG. 10 is a conceptual diagram illustrating an example of a balanced state of a movable body.
FIG. 11 is an enlarged side view showing a state in which the movable body is operated in the focusing direction, with a part cut away.
FIG. 12 is an enlarged plan view showing a state when the movable body is moved in the tracking direction.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Disk drive device, 4 ... Disk table, 7 ... Optical pickup, 8 ... Moving base, 9 ... Objective lens drive device, 10 ... Fixed body, 11 ... Movable body, 12 ... Base part, 13 ... Support shaft part, 19 ... Coil body, 20 ... Focusing coil, 21 ... Tracking coil, 26 ... Objective lens, 28 ... Magnet, 29 ... Elastic member, 100 ... Disk-shaped recording medium

Claims (4)

A moving base that is moved in a radial direction of a disk-shaped recording medium mounted on a disk table, a light-emitting unit that is provided on the moving base and emits laser light toward a recording surface of the disk-shaped recording medium, and is provided on the moving base. And a light receiving unit for receiving the laser light reflected on the recording surface of the disc-shaped recording medium as return light, and an objective lens for condensing the laser light emitted from the light emitting unit on the recording surface of the disc-shaped recording medium. An optical pickup including an objective lens driving device disposed on a moving base,
The objective lens driving device,
A fixed body having a base portion attached to the moving base and a support shaft portion provided so as to protrude from the base portion in the optical axis direction of the objective lens;
The objective lens is held and supported so as to be movable in the axial direction of the support shaft and rotatable around the axis of the support shaft. It is operated in the focusing direction, which is a direction in which the recording medium is separated from and in contact with the recording surface. Movable body,
A magnet provided on one of the movable body or the fixed body,
A coil body provided on the other of the movable body or the fixed body and including a focusing coil and a tracking coil,
The movable body and the fixed body are connected and elastically deformed when the movable body is moved in the focusing direction and the tracking direction, and the movable body is tracked by applying tension to the movable body from a plurality of different directions substantially orthogonal to the focusing direction. An optical pickup comprising: a plurality of wire-shaped elastic members that are held at a neutral position in a direction and a neutral position in a focusing direction. The optical pickup according to claim 1, wherein the elastic member is formed of an elastomer. A moving base that is moved in a radial direction of a disk-shaped recording medium mounted on a disk table, a light-emitting unit that is provided on the moving base and emits laser light toward a recording surface of the disk-shaped recording medium, and is provided on the moving base. And a light receiving unit for receiving the laser light reflected on the recording surface of the disc-shaped recording medium as return light, and an objective lens for condensing the laser light emitted from the light emitting unit on the recording surface of the disc-shaped recording medium. A disk drive device including an optical pickup having an objective lens driving device disposed on a moving base,
The objective lens driving device,
A fixed body having a base portion attached to the moving base and a support shaft portion provided so as to protrude from the base portion in the optical axis direction of the objective lens;
The objective lens is held and supported so as to be movable in the axial direction of the support shaft and rotatable around the axis of the support shaft. It is operated in the focusing direction, which is a direction in which the recording medium is separated from and in contact with the recording surface. Movable body,
A magnet provided on one of the movable body or the fixed body,
A coil body provided on the other of the movable body or the fixed body and including a focusing coil and a tracking coil,
The movable body and the fixed body are connected and elastically deformed when the movable body is moved in the focusing direction and the tracking direction, and the movable body is tracked by applying tension to the movable body from a plurality of different directions substantially orthogonal to the focusing direction. A disk drive device comprising: a plurality of wire-shaped elastic members that are held at a neutral position in a direction and a neutral position in a focusing direction. 4. The disk drive device according to claim 3, wherein said elastic member is formed of an elastomer.

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