JP3689261B2 - Optical disk device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an optical disc apparatus that records or reproduces information by loading an optical disc.
[0002]
[Prior art]
An optical disc apparatus is one in which an optical disc is loaded, laser light is incident on an information recording surface of the optical disc, information is recorded on this information recording surface, and recorded information is reproduced.
[0003]
FIGS. 9A and 9B show an example of a conventional optical disk apparatus described in Japanese Patent Laid-Open No. 6-342569. Mainly, a main body 30, a spindle motor 31, a coil bobbin 33A, and a movable pickup section 34 having bearings 34A at both ends. And the voice coil motor 33 and the lock arm 12.
[0004]
A spindle motor 31 having a turntable (not shown) fixed coaxially and freely rotatably is attached to the main chassis 30. Further, the movable pickup section 34 is moved in the directions of arrows b and b ′ in the figure by rotating a plurality of bearings 34A provided on the movable pickup section 34 on the two shafts 2C attached and fixed to the main chassis 30. It can move freely in the (longitudinal direction).
[0005]
Furthermore, a voice coil comprising a magnetic circuit comprising a yoke 2a attached and fixed to the main chassis 30, a yoke 2b, a permanent magnet 2c fixed to the yoke 2a, and a coil bobbin 33A provided on the movable pickup 34. Motors 33 are arranged at both ends of the movable pickup 34 in the short direction. On the other hand, on the side opposite to the movable pickup portion 34 of one yoke 2a (upper side in the figure), a lock arm 12 that rotates about the rotation shaft 14 is provided in the direction F in the figure by a torsion coil spring (not shown). It is provided elastically biased. An arm claw 12A and a hole 12d are formed at a substantially end portion of the lock arm 12 opposite to the central axis 14.
[0006]
The arm claw 12A is disposed so as to be able to be inserted into a notch 2A formed in the yoke 2a, and a loading pin 52A standing on a loading slide (not shown) is inserted into the hole 12d. The loading pin 52A is movable to the positions shown in FIGS. 9A and 9B when the loading slide is driven by the loading motor 36, respectively.
[0007]
Next, the operation of the lock arm 12 when the optical disk is loaded or loaded in the optical disk apparatus and when the optical disk apparatus is ejected or unloaded will be described.
[0008]
FIG. 9A shows a state in which an optical disc (not shown) is loaded into the optical disc apparatus by a drive unit driven by a loading motor 36. When the optical disk is loaded, the loading pin 52A inserted through the hole 12d provided in the lock arm 12 moves from the unloading position in FIG. 9B to the loading position in FIG. 9A in the direction of the arrow b ′. The arm claw 12A is rotated in the direction of the arrow E in the figure and is held in the notch 2A of the yoke 2a.
[0009]
Then, the optical disk is placed on the turntable and driven by the spindle motor 31. Then, a focused beam emitted from an objective lens (not shown) of the movable pickup unit 34 is incident on the information recording surface of the optical disc, and recording or reproduction is performed. The movable pickup 34 is controlled and driven in the radial direction of the optical disk by the voice coil motor 33 so that the focused beam follows the information recording surface. At this time, the movable pickup portion 34 does not interfere with the arm claw 12.
[0010]
On the other hand, at the time of unloading shown in FIG. 9B, the optical disk is unloaded from the optical disk apparatus by the drive unit driven by the loading motor 36, and the loading pin 52A comes into contact with the outer surface 12e of the hole 12d of the lock arm 12. By moving from the loading position (FIG. 9A) to the unloading position along the side surface 12e in the direction of the arrow b in the figure, the lock arm 12 is rotated in the direction of the arrow F by the torsion coil spring. Here, the movable pickup 34 is moved to the outermost peripheral position of the optical disk in advance before the power is cut off, and the engaging surface 12B of the arm claw 12A and the convex engaging portion 33B at the tip of the coil bobbin 33A are engaged. As a result, the movable pickup 34 is prevented from moving in the direction of the arrow b ′, and the movable pickup 34 is locked in the direction of the arrow b by the stopper rubber 4.
[0011]
As described above, in the conventional optical disc apparatus, the movable pickup unit 34 is in a state of being free to move after the power supply is cut off, so that no current flows through the coil wound around the coil bobbin 33A. The movement of the pickup unit 34 due to an impact during transportation and the accompanying collision with the main chassis 30 at both ends in the longitudinal direction of the shaft 2C were prevented, and the performance of the movable pickup unit 34 was protected from deterioration. .
[0012]
[Problems to be solved by the invention]
However, in the conventional optical pickup device having such a configuration, in order to restrict the movement of the movable pickup unit 34, a loading slide in which a loading pin 52A that is driven in conjunction with loading or unloading of the optical disk is installed is provided. (Not shown), additional components such as the lock arm 12 and the torsion coil spring are required, which increases the cost.
[0013]
Further, in addition to the optical disk loading or unloading mechanism, another mechanism composed of a plurality of additional parts for restricting the movement of the movable pickup unit 34 must be provided. .
[0014]
Further, since the movement of the movable pickup unit 34 is restricted at the outermost peripheral position of the optical disk at the time of unloading, for example, when playing back a CD (compact disk) or DVD (digital video disk or digital versatile disk), The information called TOC (Table Of Contents) at the substantially innermost position is read first, but the movable pickup section 34 must be moved from the outermost position to this position, so the access speed is slowed down. It was not taken into account.
[0015]
The above-mentioned conventional example is a case where the movable pickup unit 34 is moved by the voice coil motor 33, but this is the case of an optical pickup feeding mechanism constituted by a plurality of spur gears or a lead screw and a nut. However, when the reduction ratios are relatively small, the optical pickup moves when an impact is applied, and the above-described problem occurs.
[0016]
In addition, when using the spur gear, lead screw, or the like, the movement of the optical pickup can be suppressed by sufficiently increasing the reduction ratio, but the feeding speed of the optical pickup is extremely reduced and the access speed is reduced. Must be sacrificed and not practical.
[0017]
According to the present invention, when an impact is applied during transportation of an optical disk device, the movement of the optical pickup can be regulated easily without increasing the cost, and the access speed can be sacrificed. There is no need to provide an optical disk device.
[0018]
[Means for Solving the Problems]
As a first solving means for solving the above problems, a disk drive unit comprising at least an optical pickup which is movably supported between the turntable in a radial direction of the optical disc the optical disc is placed, the disc drive parts and a frame for accommodating said an optical disc apparatus which disk drive unit moves toward or away from to the optical disc with the discharge or storage of the optical disc,
Wherein when the disk drive unit is waiting at a position away from the optical disk is restricted in a state in which the movement of the optical pickup the optical pickup is positioned at the innermost position in the radial direction of the optical disc, the disc drive It is characterized in that a restricting portion consisting of a protruding portion that is released when the portion moves to a position approaching the optical disc is provided on the bottom surface of the frame .
[0019]
Further, a second aspect of the present invention, a disk drive unit comprising at least an optical pickup which is movably supported between the turntable in a radial direction of the optical disc the optical disc is placed, the frame for accommodating the disk drive unit and a body, said disk drive unit, a drive position in which the optical disk is driven after the optical disk is placed on the turntable, the turntable from the driving position to wait away from the optical disc standby an optical disc apparatus which is alternatively arranged to be one of the states of position, when the disk drive unit is in the standby position, the movement of the optical pickup the optical pickup radially of the optical disc JP that provided on the bottom surface of the frame regulating portion comprising a projecting portion for restricting a state positioned at the innermost circumference position of the It is an.
[0022]
Further, as a third solving means, a restriction piece is provided on the optical pickup, and the restriction piece is locked to the restriction portion.
[0023]
DETAILED DESCRIPTION OF THE INVENTION
An optical disk apparatus according to an embodiment of the present invention will be described below with reference to the drawings in FIGS.
[0024]
FIG. 1 is a plan view of an optical disc apparatus 100 according to the first embodiment of the present invention. The optical disk apparatus 100 mainly includes a frame, that is, a bottom chassis 101, a tray 102 that is movably supported by the bottom chassis 101, and a disk drive unit 104 that is supported by the bottom chassis 101 via an L-shaped plate spring 103. It is composed of Note that the bottom chassis 101 is formed by molding in this embodiment.
[0025]
The tray 102 is provided with a disk mounting portion 102a on which the optical disk D is mounted. The optical disk D is stored in the bottom chassis 101 when the tray 102 is driven or loaded into the bottom chassis 101 by a drive mechanism (not shown) from the state of FIG.
[0026]
After the loading is completed, the information recording surface of the optical disc D is recorded or reproduced through the hole 102b provided in the tray 102.
On the other hand, when the optical disk D is taken out from the bottom chassis 101, the tray 102 is driven, that is, unloaded in the direction of the arrow A ′ in the drawing, returned to the state shown in FIG. 1, and the optical disk D is taken out from the disk mounting portion 102a.
[0027]
Next, the disk drive unit 104 is mainly parallel to the main chassis 105, the spindle motor 106 (see FIG. 2) on which the turntable 107 is integrally formed and the main chassis 105. 1 and an optical pickup 110 having an objective lens 110a disposed between the shafts 108 and 109, and a feeding mechanism for feeding the optical pickup 110 (not shown in FIG. 1), which will be described later, in the length direction of the shafts 108 and 109. It consists of.
[0028]
A leaf spring 103 is attached to one end 105 a of the main chassis 105 with screws 111. Further, both end portions 103b and 103b through the notches 103a and 103a of the leaf spring 103 are fixed to the bottom chassis 101 by screws 112 and 112, respectively.
[0029]
Next, the disk drive unit 104 will be described with reference to FIG.
First, the shaft 108 is inserted into the round holes 110b and 110b provided in the bent pieces 110g and 110g, respectively, obtained by bending a part of the chassis 110f of the optical pickup 110, and the chassis 110f on the opposite side to the round holes 110b and 110b. The optical pickup 110 moves in the length direction of the shafts 108 and 109 (radial direction of the optical disc D) by the notch groove 110d provided in the support portion 110c formed by bending a part being slidably supported by the shaft 109. Freely supported. When the optical pickup 110 is moved toward the inner circumference side of the optical disk D, that is, the spindle motor 106 side, a stopper 105b (not shown in FIG. 2) provided on the main chassis 105 on one end side of the shaft 108 shown in FIG. The movement is restricted, and the restricted position is the innermost circumferential position of the optical pickup 110. In addition, a restriction piece 110e is integrally formed on the support portion 110c so as to protrude toward the back surface side of the main chassis 105.
[0030]
Further, in the chassis 110f of the optical pickup 110, a nut member 113 is attached to the end of the bent pieces 110g and 110g, and the nut portion 113a is a screw of a lead screw 114 disposed substantially parallel to the shaft 108. It is in contact with the valley of the spring with elasticity. On the other hand, a spur gear 115 is fixed to one end of the lead screw 114 so as to rotate integrally, and a spur gear 116 that meshes with the spur gear 115 is fixed to the rotation shaft of the feed motor 117. By driving the feed motor 117, the lead screw 114 rotates at an optimum gear ratio determined by the spur gear 115 and the spur gear 116, and the optical pickup 110 to which the nut member 113 is fixed becomes the radius of the optical disc D. Sent in the direction.
[0031]
On the other hand, one end portion 105a of the disk drive unit 104 is fixed to the leaf spring 103 by screwing between the notches 103a and 103a of the L-shaped leaf spring 103, so that the vicinity of the L-shaped bent portion of the leaf spring 103 is fixed. By bending 103c, the disk drive unit 104 is rotatable in the H direction in the drawing within a range in which the leaf spring 103 is not plastically deformed.
[0032]
Next, the operation of the disk drive unit 104 when loading the tray 102 on which the optical disk D is loaded will be described with reference to FIGS.
When the tray 102 is loaded into the bottom chassis 101 by a drive mechanism (not shown), the disk drive unit 104 moves from the state shown in FIG. 4 in the vicinity of the L-shaped bend of the leaf spring 103 in the direction of arrow C by the drive mechanism (not shown). And the main chassis 105 is held at the drive position so that the surface of the main chassis 105 is substantially parallel to the surface of the disc mounting portion 102a of the tray 102.
[0033]
During this operation, the turntable 107 penetrates through the hole 102 b provided in the tray 102 and places the optical disc D placed on the disc placement portion 102 a of the tray 102 on the placement surface 107 a of the turntable 107. Then, the optical disk D is floated and held from the disk mounting portion 102a.
[0034]
Further, from above the turntable 107, a clamper 119 having a built-in permanent magnet (not shown) held by the holding plate 118 moves in the direction of arrow E in the figure, and magnetically attracts the turntable 107. Thus, the optical disk D is clamped. Thereafter, the optical disk D is driven by the spindle motor 106, and laser light emitted from the objective lens 110a of the optical pickup 110 is condensed on the information recording surface of the optical disk D, and further reflected from the information recording surface according to information. By receiving the return light through the objective lens 110a and within the optical pickup 110, information on the information recording surface of the optical disc D can be read and information can be recorded on the information recording surface. Further, following the information recording surface of the optical disc D, the optical pickup 110 moves controlled along the length direction of the shaft 109 by the feed motor 117 (see FIG. 2).
[0035]
Next, the operation of the disk drive unit 104 when the tray 102 on which the optical disk D is placed is unloaded will be described with reference to FIGS.
At the time of unloading, recording or reproduction of the information recording surface is completed, and the drive of the spindle motor 106 is stopped. Then, in FIG. 3, the holding plate 118 moves in the direction of arrow F in FIG. Release the clamp from. The optical pickup 110 is moved to the innermost peripheral position as shown in FIG. Then, the disk drive unit 104 is rotated in the direction of arrow B in the drawing with P in the drawing as a substantial rotation center, and is held at the standby position shown in FIG. In FIG. 4, the tray 102 is omitted for easy understanding of the operation of the disk drive unit 104.
[0036]
By the way, as shown in FIGS. 4 and 5, in the bottom plate portion 101 a of the bottom chassis 101, the restricting portion, that is, the protruding portion 120 is adjacent to the side opposite to the spindle motor 106 side of the restricting piece 110 e formed on the optical pickup 110. Thus, it is integrally formed with the bottom chassis 101 so as to protrude to the disk drive unit 104 side.
[0037]
Thereafter, the tray 102 is unloaded to the outside of the bottom chassis 101, and the optical disk D is taken out from the disk mounting portion 102a. Then, the tray 102 on which the optical disk D is not loaded is loaded again into the bottom chassis 101, and the power supply of the optical disk apparatus 100 is turned off.
[0038]
Even when the optical disk device 100 is turned off as described above, even when an impact is applied during transportation, the restriction piece 110e of the optical pickup 110 abuts on the side wall surface 120a of the protrusion 120, Since movement of the optical pickup 110 in the outer peripheral direction (direction away from the spindle motor 106) is restricted, and movement of the optical pickup 110 in the inner peripheral direction is restricted by the stopper 105a (see FIG. 1), As a result, the optical pickup 110 does not collide with the stopper 105a at the innermost position and with the main chassis 105 at the outermost position. Accordingly, since the parts constituting the optical pickup 110 are not deformed or broken, the performance is not deteriorated.
[0039]
Further, since the movement of the optical pickup is restricted only by the restriction piece 110e provided on the support portion 110c of the optical pickup 110 and the protrusion 120 provided on the bottom plate portion 101a of the bottom chassis 101, the mechanism is simplified. Further, since the regulating piece 110e and the projecting portion 120 can be processed at the same time when the support portion 110c is processed and also when the bottom chassis 101 is processed, the cost of the optical pickup 110 and the bottom chassis 101 does not increase.
[0040]
Further, when the disk drive unit 104 is in the standby position shown in FIG. 4, the movement of the optical pickup 110 is restricted at the substantially innermost position, so that after the tray 102 on which the optical disk D is loaded is loaded, When the drive unit 104 is held at the drive position and performs reproduction or recording of the optical disc D, the TOC information at the substantially innermost peripheral position of the optical disc D can be read immediately, so that there is an advantage that the access speed is increased.
[0041]
6 and 7 are a partial cross-sectional view and a partial perspective view, respectively, showing a second embodiment of the present invention. In the present embodiment, the protrusion 120 formed on the bottom plate 101a of the bottom chassis 101 shown in FIG. 4 is replaced with a protrusion 121 having a recess 121a. The recess 121a is filled with a buffer material 122 made of silicon rubber. When the disk drive unit 104 is in the standby position as shown in FIG. 6, the restriction piece 110e of the optical pickup 110 is buried in the buffer material 122. The movement of the optical pickup 101 is restricted. Since the buffer material 122 is used in the present embodiment, there is an effect of restricting the shock to the optical pickup 110 to be absorbed more than in the first embodiment. Other materials for the cushioning material 122 include urethane rubber, urethane foam, and the like, and are not limited to these, and any material that can provide the same effect may be used.
[0042]
FIG. 8 is a partial cross-sectional view showing a third embodiment of the present invention. In the present embodiment, the restriction piece 110e of the optical pickup 110 shown in FIG. 4 is eliminated, and one side surface 110h of the chassis 110f that constitutes the optical pickup 110 is used as the restriction surface, and is integrated with the bottom plate portion 101a of the bottom chassis 101. The protruding portion 123 thus formed is elongated, and the side wall surface 123a regulates the movement of the regulating surface 110h. In this case, the same effects as those of the first embodiment can be obtained, and the restriction surface 110h is one side of the chassis 110f, so that the force is concentrated only on the restriction piece 110e as in the first embodiment. Thus, the optical pickup 110 can be more effectively prevented from being deformed against a particularly large impact during transportation.
[0043]
Further, in the present embodiment, since there is no need to provide the regulating piece 110e in the optical pickup 110, there is an advantage that it can be applied to an optical pickup that does not consider providing the regulating piece.
[0044]
In the first to third embodiments, the combination of the lead screw 114 and the nut member 113 is adopted as the feeding mechanism of the optical pickup 110. However, the present invention is not limited to this, and the optical pickup 110 is a voice coil motor (linear motor). Or even if it is a case where it conveys with a several spur gear etc., this invention is applicable.
[0045]
【The invention's effect】
As described above, according to the present invention, a disk drive unit comprising at least an optical pickup which is movably supported between the turntable in a radial direction of the optical disc the optical disc is placed, the disc drive unit and a housing to the frame member, wherein an optical disc apparatus which moves with respect to the optical disc to the direction toward or away from with the disk drive unit is in the discharge or storage of the optical disc, the position where the disk drive unit is separated from the optical disk the movement of the optical pickup the optical pickup is restricted in a state positioned at the innermost circumference position in the radial direction of the optical disk when the waiting, when the disk drive unit is moved to a position closer to the optical disk It is provided with the regulating portion comprising a protruding portion which regulation is released to the bottom of the frame, with respect to the impact to the optical disc apparatus , It can be simplified mechanism for restricting the movement of the optical pickup. In addition, since the optical pickup is restricted at the innermost circumferential position in the radial direction, the access speed to the TOC information of the optical disc can be improved. Furthermore, since the restricting portion is a protruding portion formed on the bottom surface of the frame body that houses the disk drive portion, the protruding portion can be processed integrally with the frame body, and the restricting portion is provided without increasing the cost. Can do.
[0046]
Also has a disk drive unit for an optical pickup which is movably supported between the turntable in a radial direction of the optical disc having at least the optical disc is placed, and a frame for accommodating the disk drive unit, the disk drive unit, a drive position in which the optical disk is driven after the optical disk is placed on the turntable, in one of two states: a standby position where the turntable from the driving position to wait away from the optical disc an optical disc apparatus which is alternatively arranged so that, when the disk drive unit is in the standby position, positioned at the innermost circumference position of the radial movement of the optical pickup the optical pickup the optical disc since the restriction portion made of the projecting portion for regulating a state that provided on the bottom surface of the frame, against the impact to the optical disc apparatus Te, can be simplified mechanism for restricting the movement of the optical pickup. Furthermore , since the optical pickup is restricted at the innermost circumferential position in the radial direction, the access speed to the TOC information of the optical disk can be improved. Further, since the restricting portion is a protruding portion formed on the bottom surface of the frame body that houses the disk drive portion, the protruding portion can be processed integrally with the frame body, and the restricting portion is provided without increasing the cost. Can do.
[0049]
Furthermore, since the restriction piece is provided on the optical pickup and the restriction piece is locked to the restriction portion, the restriction piece can be processed integrally with the optical pickup, and the restriction piece can be attached without increasing the cost. Can be provided.
[Brief description of the drawings]
FIG. 1 is a plan view of an optical disc apparatus according to a first embodiment of the present invention.
FIG. 2 is a partial perspective view for explaining a disk drive unit of the optical disk apparatus according to the first embodiment of the present invention.
FIG. 3 is a partial cross-sectional view for explaining the operation when the disk drive unit is in the drive position, according to the optical disk apparatus of the first embodiment of the present invention.
FIG. 4 is a partial cross-sectional view for explaining an operation when the disk drive unit is in a standby position according to the optical disk apparatus of the first embodiment of the present invention.
FIG. 5 is a partial perspective view for explaining an operation of a restricting portion including a restricting piece and a protruding portion in the optical disc apparatus according to the first embodiment of the present invention.
FIG. 6 is a partial cross-sectional view for explaining an operation of a restricting portion including a restricting piece and a projecting portion having a recessed portion in the optical disc apparatus according to the second embodiment of the present invention.
FIG. 7 is a partial perspective view for explaining an operation of a restricting portion including a restricting piece and a protruding portion having a recessed portion in the optical disc apparatus according to the second embodiment of the present invention.
FIG. 8 is a partial cross-sectional view for explaining the operation of a restricting portion composed of a restricting surface and a protrusion, according to the optical disc apparatus of the third embodiment of the present invention.
FIG. 9 is a plan view of a conventional optical disc apparatus.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 100 Optical disk apparatus 101 Bottom chassis 102 Tray 103 Leaf spring 104 Disk drive part 105 Main chassis 106 Spindle motor 107 Turntable 110 Optical pick-up 110e Restriction piece 117 Feed motor 119 Clamper 120, 121, 123 Projection part

Claims (3)

It has a disk drive unit comprising at least an optical pickup which is movably supported between the turntable in a radial direction of the optical disc the optical disc is placed, and a frame for accommodating the disk drive unit, the disk drive parts an optical disc apparatus for moving the direction toward and away from with respect to the optical disc accompanied by the discharge or storage of the optical disc,
Wherein when the disk drive unit is waiting at a position away from the optical disk is restricted in a state in which the movement of the optical pickup the optical pickup is positioned at the innermost position in the radial direction of the optical disc, the disc drive An optical disc apparatus comprising a restricting portion formed on a bottom surface of the frame body, wherein the restricting portion is configured to be released when the portion moves to a position approaching the optical disc. It has a disk drive unit comprising at least an optical pickup which is movably supported between the turntable in a radial direction of the optical disc the optical disc is placed, and a frame for accommodating the disk drive unit, the disk drive Department has a driving position in which the optical disk is driven after the optical disk is placed on the turntable, so that the turntable from the driving position is in one of two states: a standby position to wait away from the optical disc Is an optical disk device that is arranged alternatively ,
When the disk drive unit is in the standby position, the frame regulating portion comprising a projecting portion for restricting the movement of the optical pickup in a state where the optical pickup is positioned at the innermost position in the radial direction of the optical disc An optical disc device provided on the bottom surface of the optical disc. The regulating piece provided in the optical pickup, the optical disk apparatus according to claim 1 or claim 2, characterized in that the regulating member is locked to the regulation section.

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