JP3903771B2 - Recording / playback device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention provides a recording and / or reproducing information signal for a disc-shaped recording medium.RecordingConcerning raw equipment.
[0002]
[Prior art]
  2. Description of the Related Art Conventionally, portable disk players capable of recording and reproducing information signals such as audio signals with respect to a magneto-optical disk rotatably accommodated in a disk cartridge are known.
[0003]
  This type of disc player has an apparatus main body and a lid provided on the apparatus main body so as to be openable and closable. After the lid is opened and a disc cartridge is inserted into the apparatus main body, By setting the lid to the closed state, the magneto-optical disk can be mounted on the apparatus main body. On the other hand, when taking out the disk cartridge from the apparatus main body, the disk cartridge can be discharged to the outside of the apparatus main body by opening the lid.
[0004]
  Specifically, the disc player has a holder for holding the disc cartridge between the insertion / removal position where the disc cartridge is inserted / removed and the mounting position where the magneto-optical disc is attached, and the lid is in the open state. And an eject mechanism for discharging the disk cartridge held by the holder to the outside of the apparatus main body.
[0005]
  The disk player also includes a disk rotation driving mechanism for rotating the magneto-optical disk mounted on the apparatus main body, and a recording for recording and reproducing information signals on the magneto-optical disk driven to rotate by the disk rotation driving mechanism. A reproducing mechanism and a feeding mechanism for feeding the recording / reproducing mechanism in the radial direction of the magneto-optical disk are provided, and these are mounted on a mechanical chassis of the apparatus main body.
[0006]
  Among these, the disk rotation drive mechanism has a disk table on which a magneto-optical disk is mounted, and a spindle motor that rotationally drives the disk table. The recording / reproducing mechanism includes an optical pickup that irradiates a laser beam to one main surface of the magneto-optical disk at the time of recording or reproduction, and is disposed opposite to the optical pickup, and at the other main surface of the magneto-optical disk at the time of recording. A magnetic head for applying an external magnetic field; and a head lifting mechanism for moving the magnetic head in a direction in which the magnetic head can be moved toward and away from the magneto-optical disk. The feed mechanism includes a feed base that supports the optical pickup and the magnetic head, a support shaft that supports the feed base so as to be movable in the radial direction of the magneto-optical disk, and a drive mechanism that moves the feed base along the support shaft. And have.
[0007]
  In the disk player configured as described above, when the magneto-optical disk is rotationally driven by the disk rotation driving mechanism, the recording / reproducing mechanism feeds in the radial direction of the magneto-optical disk by the feeding mechanism, while the recording / reproducing mechanism performs optical recording. Information signals are recorded on and reproduced from the magnetic disk.
[0008]
[Problems to be solved by the invention]
  By the way, in the disk player described above, a disk rotation driving mechanism, a recording / reproducing mechanism, a feeding mechanism, in particular, an optical pickup as a recording / reproducing mechanism, a magnetic head for applying an external magnetic field to the magneto-optical disk during recording, A head lifting mechanism for moving the magnetic head up and down is mounted on a mechanical chassis.
[0009]
  For this reason, in a conventional disc player, the mechanical chassis is made of sheet metal to ensure mechanical strength (rigidity) when each mechanism operates.
[0010]
  However, when the mechanical chassis is made of sheet metal, not only is the weight increased, but parts for attaching the motors, gears, and the like that constitute each of the mechanisms described above are required. For this reason, in a portable disc player in which a reduction in the size and weight of the entire device is desired, an increase in the number of parts makes it difficult to reduce the size and weight, and also increases the number of assembly steps. There was a problem of being bulky.
[0011]
  Therefore, the present invention has been proposed in view of such conventional circumstances, and further reduces the weight, reduces the number of parts, and simplifies the assembly process, thereby reducing the manufacturing cost. That made it possibleRecordingIt aims to provide a raw device.
[0012]
[Means for Solving the Problems]
  In order to achieve this object, a recording / reproducing apparatus according to the present invention comprises a rotational drive means for rotationally driving a disk-shaped recording medium, and recording and / or recording of signals on the disk-shaped recording medium rotationally driven by the rotational drive means. Or a recording / reproducing means for performing reproduction, and a supporting shaft that supports one of the rotation driving means and the recording / reproducing means so as to be movable in the radial direction of the disk-shaped recording medium. A feed operation means for feeding one side along the axial direction of the disc, and an opening portion at least one of which is fed in the radial direction of the disk-shaped recording medium by the feed operation means. The chassis is supported on both sides of the support shaft at both ends thereof, and is made of plastic integrally formed with at least a part of the chassis, and the support shaft on the surface opposite to the surface on which the recording medium of the chassis is mounted. And reinforcing means having a rib protruding alongThe reinforcing means is provided with a support portion that is in contact with the support shaft in the middle of the rib.It is characterized by that.
[0013]
  As described above, the description of the present inventionRecordingIn the raw device, the reinforcing means is made of plastic integrally formed with at least a part of the chassis, and has ribs that are formed to protrude along the support shaft, so that the rigidity of the chassis is reduced around the opening. Even when both ends of the support shaft are supported, the chassis can be reinforced and the rotation driving means or the recording / reproducing means can be appropriately fed along the axial direction of the support shaft.
[0014]
  In addition, if the chassis is integrally formed with the reinforcing means by plastic, the weight can be further reduced, and components for attaching the rotation driving means, the recording / reproducing means, etc. can be reduced compared to the case where the chassis is made of metal. This can be reduced as compared with the prior art, and the number of assembly steps can be simplified.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0016]
  As an embodiment of the present invention, a portable disk player (hereinafter referred to as a disk player) 1 shown in FIG. 1 transmits an audio signal to a magneto-optical disk of about 64 mm housed in a rectangular flat disk cartridge. Recording that can be recorded (recorded) or played backRecordingIt is a raw device (electronic device), and it can be made portable by reducing the size and weight.
[0017]
  Here, in the disk cartridge, a magneto-optical disk is rotatably accommodated in a cartridge main body constituted by an upper shell and a lower shell, and optical surfaces are respectively disposed on the mutually opposing surfaces of the upper shell and the lower shell. A recording / reproducing opening is formed in which a part of the magnetic disk faces outward over the inner and outer peripheries. A shutter member that opens and closes the recording / reproducing opening is slidably attached to the cartridge body. The cartridge body is provided with a locking piece for locking the slide of the shutter member so as to be swingable between a locking position and a non-locking position when the shutter member is in a closed state. In addition, a chucking plate is attached to the center of the magneto-optical disk, and a driving opening is formed in the lower shell so that the chucking plate faces outward.
[0018]
  As shown in FIGS. 1 and 2, the disc player 1 includes an apparatus main body 2 and a lid 3 that can be opened and closed with respect to the apparatus main body 2.
[0019]
  The apparatus main body 2 has an insertion / removal position where the disk cartridge of the apparatus main body 2 is inserted / removed when the lid 3 is in the open state, and a magneto-optical function of the apparatus main body when the lid 3 is in the closed state. A holder 4 for holding the disc cartridge between the mounting position where the disc is mounted, and the holder 4 is inserted and removed from the mounting position.ArrivalA mechanical chassis 5 that is movably supported between positions, and supports the mechanical chassis 5, and the holder 4 is inserted into and removed from the position.ArrivalA set chassis 6 that is movably supported between the positions, and a wiring board 7 held by the set chassis 6, which are paired with the lid 3 when the lid 3 is closed. It is accommodated in the housing 8 constituting the case body.
[0020]
  Moreover, the apparatus main body 2 can mount a primary battery or a secondary battery as an internal power supply. For this reason, a battery case 9 in which these batteries are stored is attached to the set chassis 6, and a battery lid 10 facing the battery case 9 to the outside is attached to the casing 8 so as to be openable and closable. Yes. Note that ± electrode terminals (not shown) attached to both ends of the battery case 9 are electrically connected to the wiring board 7.
[0021]
  Further, the apparatus main body 2 is connected to an external power source (AC adapter), so that power can be supplied from the external power source and the internal power source can be charged. In particular, in the disc player 1, the charging stand 200 connected to the charging plug of the external power source is connected to the charging jack 11 for external power provided on the bottom surface of the housing 8. The disc player 1 is placed on the receiving portion 200a so that it can be connected to an external power source.
[0022]
  For this reason, the charging for the stand connected to the charging plug (not shown) protruding from the receiving portion 200a of the charging stand 200 on the bottom surface portion of the housing 8 separately from the external charging jack 11 described above. A jack 12 is provided. Specifically, the charging jacks 11 and 12 are connected to the wiring board 7 so that the plug insertion / removal ports 11a and 12a through which the charging plugs are inserted / removed face the outside through the openings 11b and 12b formed in the housing 8. Attached along the upper edge.
[0023]
  The disc player 1 automatically determines whether the internal power source is a primary battery or a secondary battery, and is charged only when the secondary battery is mounted in the battery case 9. For this reason, in the apparatus main body 2, the charging plug of the external power supply or the charging plug of the charging stand 200 is inserted into the external charging jack 11 or the charging plug 12 for the stand, thereby switching between the internal power supply and the external power supply. A switching mechanism that performs mechanically, and an electronic circuit that determines whether the battery is a primary battery or a secondary battery and electrically switches between a charged state and a non-charged state with respect to the internal power supply are provided.
[0024]
  Further, the device body 2 is located on the side surface of the housing 8 and is connected to an earphone or a speaker as an output side (LINE OUT), or as a peripheral device as an input side (LINE IN). An optical jack 14 that is optically connected by an optical cable, an input jack 15 that is electrically connected to peripheral devices by a wiring cable, a USB (Universal Serial Bus) jack 16, and the like. These jacks 13, 14, 15, and 16 have an opening 13 in which a plug insertion / removal port 13 a, 14 a, 15 a, and 16 a into which the plug is inserted / removed is formed in the housing 8.b, 14b, 15b, 16bIt is attached along the edge part on the wiring board 7 so as to face the outside. Further, a protective cap 17 that protects the plug insertion / removal port 16a of the USB jack 16 is attached to the housing 8 so as to be opened and closed.
[0025]
  On the other hand, the cover 3 displays operation buttons 18, 19, 20 and operation switches 21, 22 for performing various operations such as recording, playback, editing, volume adjustment, operation status, remaining power of the internal power source, and the like. For example, a liquid crystal display panel 23 is provided.
[0026]
  As shown in FIGS. 2 and 3, the holder 4 is made of sheet metal, and holds the top plate portion 4a facing the upper shell of the disc cartridge, and both side portions of the disc cartridge from both side edges of the top plate portion 4a. It has a pair of side plate portions 4b and 4c and a bottom plate portion 4d for receiving the disk cartridge inserted by being held by the pair of side plate portions 4b and 4c. The inner shape is made. The holder 4 has a support shaft 24 at the end of the pair of side plate portions 4 b and 4 c on the bottom plate portion 4 d side, and the support shaft 24 is supported by a pair of bearing portions 25 provided in the mechanical chassis 5. In this way, the mechanical chassis 5 is supported so as to be swingable between the insertion / removal position and the mounting position.
[0027]
  The top plate portion 4a of the holder 4 includes a first leaf spring portion 26 that presses the disk cartridge held by the holder 4 toward the main surface of the mechanical chassis 5, and the operation buttons 18, 19, 20, the second leaf spring portion 27 and the third leaf spring portion 28 that press the wiring board (not shown) to which the operation switch 21, the liquid crystal display panel 23, etc. are attached to the lid 3 side are elastic. The protrusion is formed in a displaceable state. These first to third leaf spring portions 26, 27, and 28 are formed integrally with the top plate portion by punching the periphery and bending them in the pressing direction. Further, a head opening 29 corresponding to the recording / reproducing opening of the disk cartridge is formed in the top plate 4a.
[0028]
  The holder 4 is provided with a shutter opening / closing mechanism 30 for opening and closing the shutter member of the disk cartridge.
[0029]
  Specifically, the shutter opening / closing mechanism 30 includes a lock release piece 31 for releasing the locking state of the lock piece with respect to the shutter member of the disk cartridge inserted into the holder 4 on one side plate portion 4b, and the lock release piece. And an elastic displacement piece 32 to be engaged with the shutter member released from the locked state of the lock piece.
[0030]
  The unlocking piece 31 is formed so as to protrude inward of the holder 4 by bending a part of one side plate portion 4b.
[0031]
  The elastic displacement piece 32 is integrally formed with the one side plate portion 4b by punching the periphery thereof, and a part of the tip portion is inside the holder 4 so as to be engaged with the shutter member of the disk cartridge. It has a bent shape protruding toward the direction.
[0032]
  Further, the holder 4 is provided with an eject mechanism 33 for discharging the disc cartridge to the outside of the apparatus main body 2 when the lid 3 is in the open state.
[0033]
  As shown in FIGS. 2, 3 and 4, the eject mechanism 33 includes an eject lever 34 rotatably supported on the top plate portion 4a of the holder 4, and the eject lever 34 on one side in the rotational direction. And a tension coil spring 35 which is an urging means for urging the spring.
[0034]
  The eject lever 34 is formed of a long flat plate member, and a support 36 is provided between one end and the other end in the vicinity of the corner portion on the other side plate portion 4c and the bottom plate portion 4d side of the top plate portion 4a. It is rotatably supported.
[0035]
  The eject lever 34 is in contact with the pressing piece portion 37 bent inward of the holder 4 through a guide slit 38 formed in the top plate portion 4a at one end and the top plate portion 4a at the other end. And a fulcrum convex portion 39. Among these, the guide slit 38 is formed in a substantially arc shape from the end of the top plate portion 4a on the bottom plate portion 4d side to the middle portion in the insertion direction of the disk cartridge, and the pressing piece portion 37 includes an eject lever. By rotating 34, the inside of the slit 38 can be moved.
[0036]
  The tension coil spring 35 has one end 35 a hooked to a first hooking piece 40 formed on the other end side of the eject lever, and the other end 35 b is a first hooking to the fulcrum convex part 39. The eject lever 34 is pushed so that the pressing piece 37 is pressed in the direction of ejecting the disc cartridge by being hooked by the second hooking piece 41 formed on the top plate portion 4a opposite to the piece 40. Is biased toward one side in the rotational direction.
[0037]
  Further, as shown in FIG. 5, the tension coil spring 35 is provided with a linear portion on the one end portion 35a side, and is hooked at a position where the other end portion 35b is closer to the top plate portion 4a than the one end portion 35a. Yes. Therefore, one of the eject levers 34 is close to the top plate portion 4 a of the holder 4 and the other is against the top plate portion 4 a of the holder 4 with the fulcrum convex portion 39 as a fulcrum by the urging force of the tension coil spring 35. It is tilted away.
[0038]
  Further, as shown in FIGS. 3 and 4, the eject mechanism 33 has a lever lock mechanism 42 that locks the rotation of the eject lever 34 urged by the tension coil spring 35 to one side.
[0039]
  The lever lock mechanism 42 includes an engaged piece 43 provided on one side of the eject lever 34 and an engaging projection 44 provided on the top plate 4 a of the holder 4. Of these, the locked piece 43 is formed to protrude from the fulcrum convex portion 39 toward the other end portion 35 b of the tension coil spring 35. On the other hand, the locking projection 44 is formed so as to protrude from the top plate portion 4 a toward the eject lever 34, is in sliding contact with the locked piece portion 43, and on the other side in the rotation direction of the ejection lever 34. An inclined surface portion 44a that rises upward, and a locking surface portion 44b that locks the locked piece portion 43 at the other end of the inclined surface portion 44a.
[0040]
  Further, as shown in FIGS. 3, 4 and 5, the eject mechanism 33 is a lever lock that releases the locked state between the locked piece portion 43 and the locking convex portion 44 of the lever locking mechanism 42 described above. A release mechanism 45 is provided.
[0041]
  The lever lock release mechanism 45 includes a lock release piece 46 provided on the other side of the eject lever 34 and a ratchet plate 47 attached to the mechanical chassis 5. Among these, the unlocking piece 46 is formed so as to protrude from the fulcrum convex portion 39 on the side opposite to the locked piece 43, that is, toward the other side plate 4 c of the holder 4, and the other side plate 4 c. And has a shape in which the tip portion protrudes slightly outward from the other side plate portion 4c. The ratchet plate 47 is bent from the side end portion of the mechanical chassis 5 along the other side plate portion 4 c of the holder 4, and has a bent shape so that the tip end portion comes into contact with the tip end portion of the unlocking piece 46. ing.
[0042]
  As shown in FIGS. 2 and 6, the mechanical chassis 5 constitutes a storage space in which the disk cartridge is stored together with the holder 4 described above. For this reason, a plurality of positioning pins 48 for positioning the disk cartridge are formed on the main surface of the mechanical chassis 5 facing the holder 4 in a protruding manner. The disk cartridge is provided with positioning recesses (not shown) corresponding to the plurality of positioning pins 48. The mechanical chassis 5 has a pickup opening 49 at a position facing the head opening 29 of the holder 4 described above.
[0043]
  The mechanical chassis 5 includes a disk rotation driving mechanism 50 for rotating the magneto-optical disk housed in the disk cartridge, and an information signal for the magneto-optical disk rotated by the disk rotation driving mechanism 50. Is provided with a recording / reproducing mechanism 51 that performs recording or reproduction, and a feeding mechanism 52 that feeds the recording / reproducing mechanism 51 in the radial direction of the magneto-optical disk.
[0044]
  The disk rotation drive mechanism 50 includes a spindle motor 53 attached to a substantially central portion of the mechanical chassis 5 and a disk table 54 attached to a rotation shaft (not shown) of the spindle motor 53. The disk table 54 is provided with a permanent magnet. When the disk cartridge is accommodated in the apparatus main body 2, the magneto-optical disk chucking plate is attracted to the permanent magnet, whereby the magneto-optical disk. Is mounted on the disk table 54.
[0045]
  The recording / reproducing mechanism 51 includes an optical pickup 55 that irradiates one main surface of the magneto-optical disk with laser light during recording or reproduction, and is disposed opposite to the optical pickup 55, and the other main surface of the magneto-optical disk during recording. And a magnetic head 56 for applying an external magnetic field.
[0046]
  Although not shown, the optical pickup 55 has an optical system for irradiating the magneto-optical disk with laser light, and the surface facing the magneto-optical disk is irradiated with laser from this optical system. An objective lens for condensing light on the signal recording surface of the magneto-optical disk is provided. The optical pickup 55 includes a biaxial actuator that displaces the objective lens in the optical axis direction of the objective lens and in a direction substantially orthogonal to the optical axis direction of the objective lens.
[0047]
  The magnetic head 56 is attached to the distal end portion of the head mounting arm 57 so as to face the objective lens of the optical pickup via the magneto-optical disk. The head mounting arm 57 is made of an elastically displaceable material and is slightly bent toward the head opening 29 of the holder 4. The magnetic head 56 is brought into contact with or close to the surface opposite to the surface facing the optical pickup of the magneto-optical disk only at the time of recording by a head lifting mechanism 78 described later.
[0048]
  The feed mechanism 52 supports the optical pickup 55 and a feed base 59 that supports the magnetic head 56 via the connecting arm 58, and a pair of main shafts that support the feed base 59 so as to be movable in the radial direction of the magneto-optical disk. 60 and a counter shaft 61.
[0049]
  The feed base 59 is disposed such that the optical pickup 55 faces outward from the pickup opening 49 of the mechanical chassis 5, and a pair of main shafts 60 disposed substantially parallel to the radial direction of the magneto-optical disk and It is supported so as to be movable in the opening 49 along the auxiliary shaft 61. Specifically, the feed base 59 is formed with a support portion 62 having a guide hole 64 inserted through the main shaft 60 and a pair of support piece portions 63 sandwiching the sub shaft 61 therebetween.
[0050]
  The main shaft 60 is a screw screw, and both ends thereof are inserted into a pair of bearing portions formed in the mechanical chassis 5 so as to be supported so as to be rotatable around the shaft. The main shaft 60 constitutes a drive mechanism for supporting the feed base 59 so as to be movable in the radial direction of the magneto-optical disk and for moving it in the radial direction of the magneto-optical disk.
[0051]
  Specifically, the drive mechanism includes a screw screw 60 and an elastic member 65 engaged with the screw screw 60.
[0052]
  The screw screw 60 is rotationally driven by a drive motor 66 attached to the mechanical chassis 5. That is, a plurality of gear groups 67 are disposed between one end of the screw screw 60 and the rotation shaft of the drive motor 66, and the driving force of the drive motor 66 is adjusted by the plurality of gear groups 67. The screw 60 is rotated.
[0053]
  The elastic member 65 is made of an elastically displaceable material such as metal, and the base end portion is fixed to the support portion 62 of the feed base 59 by screwing or the like. The elastic member 65 is engaged while the tip portion presses the outer peripheral surface of the screw screw 60 that is partly cut away and faces the outside.
[0054]
  In this drive mechanism, when the screw screw 60 is rotationally driven by the drive motor 66, the elastic member 65 moves in the axial direction of the screw screw 60 due to the engagement between the screw screw 60 and the elastic member 65. Thereby, in the feed mechanism 52, the feed base 59 is fed in the radial direction of the magneto-optical disk.
[0055]
  The auxiliary shaft 61 is a rotating shaft, and both ends thereof are inserted into a pair of bearing portions formed in the mechanical chassis 5 so as to be supported so as to be rotatable around the shaft. The auxiliary shaft 61 supports the feed base 59 so as to be movable in the radial direction of the magneto-optical disk, and moves the magnetic head 56 in the direction in which the magnetic head 56 can be moved toward and away from the magneto-optical disk. 78 is configured.
[0056]
  Specifically, as shown in FIGS. 3, 4, and 6, the head lifting mechanism 78 includes a rotating shaft 61, a cam lever 80 that is slid by rotating the rotating shaft 61, and the cam lever slides. And a head lifting plate 81 that is lifted and lowered.
[0057]
  The rotary shaft 61 is rotationally driven by a drive motor 68 attached to the mechanical chassis 5. That is, a plurality of gear groups 69 are disposed between one end of the rotating shaft 61 and the rotating shaft of the drive motor 68, and the driving force of the drive motor 68 is adjusted by the plurality of gear groups 69. The rotating shaft 61 is driven to rotate. A pinion gear 79 that faces one side surface of the mechanical chassis 5 is attached to the other end of the rotating shaft 61.
[0058]
  The cam lever 80 is made of a long flat plate member, and a pair of guide holes 82 are formed at both ends along the longitudinal direction. On the other hand, a pair of guide pins 83 project from one side of the mechanical chassis 5 at both ends in the longitudinal direction, and the pair of guide pins 83 are engaged with the pair of guide holes 82 of the cam lever 80. Yes. Accordingly, the cam lever 80 is supported so as to be slidable along one side surface portion of the mechanical chassis 5.
[0059]
  The cam lever 80 is formed with a rack portion 84 that meshes with the pinion gear 79 described above. Therefore, the cam lever 84 is slid by the engagement of the rack portion 84 and the pinion gear 79 as the rotating shaft 61 rotates.
[0060]
  Further, the cam lever 80 is formed with a cam portion 85 protruding toward the top plate portion 4 a of the holder 4. The cam portion 85 has an inclined surface portion that rises along the disc cartridge ejection direction.
[0061]
  The head elevating plate 81 includes a support plate portion 86 that supports the head mounting arm 57 along the radial direction of the magneto-optical disk, and a pair of support piece portions 87 that support the support plate portion 86 in a swingable manner. Cam lever as described above80And a cam contact piece 88 that contacts the cam portion 85.
[0062]
  The support plate portion 86 is disposed along the head opening 29 of the holder 4 that is substantially orthogonal to the head mounting arm 57. The support plate portion 86 is pressed toward the head opening 29 of the holder 4 by the elastic force of the head mounting arm 57.
[0063]
  The pair of support piece portions 87 are formed so as to protrude from both end portions of the support plate portion 86 along the insertion direction of the disk cartridge, and the tip portions thereof are pivotally supported on the top plate portion 4 a of the holder 4. As a result, the head lifting plate 81 is supported through the head opening 29 so as to be swingable in a direction in which the head lifting plate 81 can come into contact with and separate from the magneto-optical disk.
[0064]
  The cam contact piece 88 is a cam lever of the support plate 86.80It protrudes from the end on the side toward the cam portion 85.
[0065]
  The top plate portion 4a of the holder 4 is formed with an elastic displacement piece 89 that presses the head lifting plate 81 in a direction away from the magneto-optical disk. The elastic displacement piece 89 is integrally formed with the top plate portion 4 a by punching the periphery of the elastic displacement piece 89, and the tip portion of the holder 4 is brought into contact with the support plate portion 86 of the head lifting plate 81. It is bent outward.
[0066]
  In the head elevating mechanism 78, when the rotary shaft 61 is rotationally driven in one direction by the drive motor 68, the cam lever 80 slides in the disc cartridge ejection direction due to the engagement of the rack portion 84 and the pinion gear 79. At this time, the cam contact piece 88 of the head elevating plate 81 moves in the insertion direction relative to the cam lever 80 while being in sliding contact with the inclined surface portion of the cam portion 85. Accordingly, the head lifting plate 81 swings toward the head opening 29 of the holder 4, and the magnetic head attached to the tip of the head mounting arm 57 passes through the head opening 29 to magneto-optically. Move (descent) in the direction closer to the disc. Thereby, at the time of recording, the magnetic head 56 can be brought into contact with or close to the magneto-optical disk facing outward from the opening of the disk cartridge. In this head elevating mechanism 78, when the rotary shaft 61 is rotationally driven in the other direction by the drive motor 68, the magnetic head 56 is raised by the reverse operation of the above-described operation and returned to the original position again. It is.
[0067]
  By the way, as shown in FIG. 7, the mechanical chassis 5 is made of a resin such as plastic molded into a substantially rectangular flat plate shape. For this reason, unlike sheet metal, it can be made into various shapes, and reinforcement is made by providing ribs or the like at places where strength is required.
[0068]
  Further, the mechanical chassis 5 is fitted with fitting holes 70 and 71 into which the above-described drive motor 66 and spindle motor 53 are fitted, and the above-described drive motor 68 by using reinforcing ribs. A fitting recess 72, a pair of bearings 73 that pivotally support the gear group 69 described above, and the like are integrally formed.
[0069]
  In this case, after these components are assembled at predetermined positions of the mechanical chassis 5, the presser plates 74 and 75 are attached by screwing or the like, so that they can be easily assembled.
[0070]
  Further, the mechanical chassis 5 includes a rib 76 that is a reinforcing means projecting along the auxiliary shaft (rotating shaft) 61, and a support portion 77 that abuts the auxiliary shaft 61 in the middle of the rib 76. Is provided.
[0071]
  As a result, both ends of the sub-shaft 61 are pivotally supported around the opening 49, so that the mechanical chassis 5 can be strongly reinforced even when the rigidity of the mechanical chassis 5 is reduced. In addition, it is possible to prevent the mechanical chassis 5 from being bent by the rotation of the rotating shaft 61.
[0072]
  In this example, the entire mechanical chassis 5 is made of molded plastic, but a part of the mechanical chassis 5 may be made of molded plastic.
[0073]
  As shown in FIG. 2, the set chassis 6 is made of sheet metal, and a frame 90 that supports the mechanical chassis 5 and the wiring board 7 and the holder 4 are inserted and removed.ArrivalAnd a pair of support arms 91 that are movably supported between the positions.
[0074]
  The frame 90 has a generally U-shape corresponding to the side plates 4b, 4c and the bottom plate 4c of the holder 4, and the battery case 9 is screwed or the like so as to connect both ends. By being attached, the shape corresponds to the mechanical chassis 5 and the wiring board 7. Then, after the mechanical chassis 5 and the wiring board 7 are attached to the frame 90 by screws or the like, the housing 8 is attached by screws or the like.
[0075]
  The pair of support arms 91 are made of flat plate members corresponding to the both side plate portions 4b and 4c of the holder 4, and the base end portion is pivotally supported on the bottom surface portion side of the frame body 90, whereby the lid body 3 is in an open state. And a position where the lid is closed. In addition, a torsion coil spring 92 is hooked between the frame 90 and the pair of support arms 91, and the pair of support arms 91 is biased in a direction away from the frame 90. Then, the lid 3 is attached to the pair of support arms 91 after the holder 4 is attached by screwing or the like. Therefore, the holder 4 is urged in the direction of opening the cover by the urging force of the torsion coil spring 92 described above.
[0076]
  As shown in FIG. 8, the disc player 1 has an open lock mechanism 93 for opening and closing the lid 3 with respect to the apparatus main body 2 (housing 8).
[0077]
  The open lock mechanism 93 includes an open slider 94 that is a second engagement member on the housing 8 side, and an open rocker 95 that is a first engagement member on the lid 3 side.
[0078]
  As shown in FIGS. 1 and 8, the open slider 94 is made of a long flat plate member, and a pair of guide holes 97 are formed along the longitudinal direction at both ends thereof. On the other hand, a pair of guide pins 98 project from the inner surface of the housing 8, and the pair of guide pins 98 are engaged with the pair of guide holes 97 of the open slider 94. Thus, the open slider 94 is supported so as to be slidable along the inner surface of the housing 8 on the side where the disk cartridge is inserted and removed.
[0079]
  Further, the open slider 94 has an engagement piece 96 that is engaged with the open rocker 95 so as to protrude toward the lid 3 side, and has a shape in which a tip end portion is bent to one side in the sliding direction. Have.
[0080]
  One end of a tension coil spring (not shown) is hooked to one end of the open slider 94, and the other end of the tension coil spring is hooked to the inner surface of the housing 8. Therefore, the open slider 94 is biased to one side in the sliding direction by the elastic force of the tension coil spring.
[0081]
  Although not shown, the open lock mechanism 93 has an operating member that is slidably supported on the inner surface of the housing 8, and one end of the operating member is a part of the housing 8. While facing the outside from the side surface, the other end is engaged with the open rocker 95. Further, a release button is attached to one end of the operating member, and this release button is supported by an elastic displacement piece that is cantilevered on the inner surface of the housing 8. Therefore, in the open lock mechanism 93, when the release button is pressed, the operating member slides the open slider 94 to the other side in the sliding direction against the bias of the coil spring.
[0082]
  As shown in FIGS. 1, 8, and 9, the open locker 95 is fixed to the inner surface (hereinafter referred to as the first surface 3a) of the lid 3 on the side where the disk cartridge is inserted and removed. And a second fixing piece 95b fixed to the bottom surface (hereinafter referred to as the second surface 3b) of the lid body 3 orthogonal to the first surface 3a, and these are substantially in cross section. It consists of a metal member integrally formed in an L shape.
[0083]
  Among these, the first fixing piece 95a has a plurality of protrusions 100 protruding from the surface in contact with the first surface 3a along the longitudinal direction. On the other hand, the second fixing piece 95b is formed with a plurality of holes 101 along the longitudinal direction on the surface that contacts the second surface 3b.
[0084]
  The open rocker 95 has a notch 99 that engages with the engagement piece 96 of the open slider 94 described above, extending from the first fixed piece 95a to the middle of the second fixed piece 95b. A part of the cut first fixing piece 95 a is formed so as to protrude toward the other side in the sliding direction of the open slider 94.
[0085]
  Here, as shown in FIG. 10, when the lid 3 is made of a metal such as a sheet metal, the open locker 95 is inserted into the plurality of through holes 102 formed in the first surface 3 a of the lid 3. The plurality of protrusions 100 of one fixing piece 95a can be engaged and caulked to be firmly attached to the lid 3.
[0086]
  On the other hand, as shown in FIG. 11, when the lid 3 is made of a resin such as plastic, the open locker 95 has a plurality of through holes 102 formed in the first surface 3 a of the lid 3. By engaging the plurality of protrusions 100 of one fixed piece 95a, positioning with respect to the lid 3 is performed, and the plurality of screw holes 103 formed on the second surface 3b of the lid 3 are inserted into the first screw piece 103. The screws 104 are respectively screwed through the plurality of holes 101 formed in the second fixing piece 95b, so that they can be firmly attached to the lid 3.
[0087]
  When the lid 3 is made of a resin such as plastic, as shown in FIG. 12, the first fixing piece 95a is inserted into the plurality of through holes 102 formed in the first surface 3a of the lid 3. By engaging the plurality of protrusions 100 and positioning the open rocker 95 with respect to the lid 3, the second fixing piece 95 b is brought into contact with the wiring board 7 fixed to the set chassis 6 described above. It is also possible to firmly attach the open rocker 95 to the lid 3 in a state where the one fixing piece 95 a is pressed against the first surface 3 a of the lid 3.
[0088]
  Therefore, in this disc player 1, it is possible to securely fix the open rocker 95 to the lid 3 regardless of the material of the lid 3, and by sharing parts, manufacturing costs, service costs, etc. Can be reduced. In the disc player 1, the plurality of protrusions 100 of the open rocker 95 are engaged with the plurality of through holes 102 of the lid 3 described above, so that the design is shared regardless of the material of the lid 3. It is possible.
[0089]
  When the open rocker 95 is fixed to the lid 3, a plurality of through holes formed in the first fixing piece 95 a of the open rocker 95 are formed on the first surface 3 a of the lid 3. A configuration in which a plurality of protrusions are engaged is also possible.
[0090]
  In this open lock mechanism 93, the lid 3 is brought into the closed state against the bias of the torsion coil spring 92 from the opened state, and thereby the notch 99 of the open rocker 95 fixed to the lid 3 and the housing. The engagement piece 96 of the open slider 94 supported so as to be slidable on the body 8 is brought into contact, and the open slider 94 is slid to the other side in the sliding direction against the bias of the tension coil spring. The engagement piece 96 of the open slider 94 and the notch 99 of the open rocker 95 are engaged. Thereby, the closed state of the lid 3 can be maintained, and dust or the like can be prevented from entering the inside of the apparatus main body 2.
[0091]
  On the other hand, in order to change the lid 3 from the closed state to the open state, the release button is pressed, and the operating member slides the open slider 94 to the other side in the sliding direction against the biasing force of the tension coil spring. Thus, the engagement between the engagement piece 96 of the open slider 94 and the notch 99 of the open rocker 95 is released. As a result, the lid 3 is biased by the torsion coil spring 92 to be in the open state, and the disk cartridge can be inserted into and removed from the holder 4.
[0092]
  As shown in FIG. 2, the wiring board 7 includes a control unit (microcomputer) including a CPU (Central Processing Unit), an open / close detection switch, a disk detection switch, and a rotation detection in addition to the jacks 11 to 16 described above. A switch or the like is mounted, and drive control of each part is performed based on operation signals from the operation buttons 18, 19, 20 and the operation switches 21, 22 described above.
[0093]
  By the way, each of the jacks 11 to 16 attached along the edge portion on the wiring board 7 has a frame body 90 of the set chassis 6 in order to maintain the bending strength when the plug is inserted from the plug insertion / removal ports 11a to 16a. It is the structure hold | maintained by the holding | maintenance part formed integrally. As a result, the jacks 11 to 16 can be firmly held on the wiring board 7 while saving space in the housing 8.
[0094]
  In particular, as shown in FIG. 13, the USB jack 16 has an outer housing 105 in which a notch 105 a is formed on the side opposite to the plug insertion / removal port 16 a, and the frame body 90 of the set chassis 6 has this frame 90. A restricting piece 106 that is engaged with the notch 105a of the outer casing 105 is formed by bending so that the movement of the USB jack 16 in the plug insertion direction and the direction substantially perpendicular to the insertion direction can be restricted. It has become.
[0095]
  The USB jack 16 is attached to the wiring board 7 by soldering, and among the nine soldering points, four are reinforcing solders that fix the outer casing 105 to the wiring board 7.
[0096]
  As described above, in the disc player 1, the restriction piece 106 provided on the frame 90 of the set chassis 6 is formed on the side opposite to the plug insertion / removal port 16 a of the USB jack 16, and the notch 105 a of the outer casing 105. , The USB jack 16 can be securely held on the wiring board 7. The disc player 1 has a simple structure in which the restriction piece 106, in which a part of the frame body 90 of the set chassis 6 is bent, is inserted into the notch 105a formed in the outer casing 105 of the USB jack 16. Therefore, the positioning of the restriction piece 106 with respect to the notch 105a is easy, and the insertion direction of the plug and the insertion direction can be reduced by the restriction piece 106 while saving space without impairing the strength of the set chassis 6. It is possible to restrict the movement of the USB jack 16 in a direction substantially orthogonal to the direction.
[0097]
  Note that the member for holding the USB jack 16 on the wiring board 7 is not limited to the set chassis 6 described above as long as it is a member having a restriction piece that is engaged with the notch 105a of the outer casing 105. It is also possible to make a holding member made of plastic, die cast, or the like.
[0098]
  In the disc player configured as described above, when the disc cartridge is loaded into the apparatus main body 2, first, the lid 3 is opened, and the disc cartridge is inserted into the holder 4.
[0099]
  At this time, in the shutter opening / closing mechanism 30, when the disc cartridge is inserted into the holder 4, first, the lock release piece 31 and the lock piece are brought into contact with each other, and the lock release piece 31 presses the lock piece while the shutter is being pressed. The locked state of the lock piece with respect to the member is released. Next, the distal end portion of the elastic displacement piece 32 is engaged with the shutter member, and the disc cartridge is further inserted into the holder 4, whereby the recording member is opened while the shutter member slides. When the disc cartridge comes into contact with the bottom plate portion of the holder 4, the recording / reproducing opening of the disc cartridge is completely opened.
[0100]
  In the eject mechanism 33, as shown in FIGS. 3 and 4, when the disc cartridge is inserted into the holder 4, the disc cartridge is first brought into contact with the pressing piece portion 37 of the eject lever 34. Next, from the state in which the disk cartridge is in contact with the pressing piece portion 37 of the eject lever 34, the eject lever 34 is rotated to the other side in the rotational direction against the biasing force of the tension coil spring 35. At this time, the ejected lever 34 rotates while the locked piece 43 provided on one side of the eject lever 34 is in sliding contact with the inclined surface 44 a of the locking projection 44 provided on the top plate 4 a of the holder 4. It is turned to the other side in the moving direction. When the disk cartridge comes into contact with the bottom plate portion of the holder 4, the locked piece portion 43 of the eject lever 34 moves to the locking surface portion 44 b of the locking convex portion 44, and this locking convex portion 44. It is locked to.
[0101]
  As a result, the rotation of the eject lever 34 biased by the tension coil spring 35 to one side is locked, and the disc cartridge is held in the holder 4.
[0102]
  Next, when the lid 3 is closed, the disc cartridge is moved together with the holder 4 from the insertion / removal position of the apparatus main body 2 to the mounting position. At this time, the magneto-optical disk is mounted on the disk table 54 while the disk cartridge is positioned on the mechanical chassis 5 by the positioning pins 48. As described above, the disk cartridge can be loaded into the apparatus main body 2.
[0103]
  In this disk player 1, when the disk table 54 is rotated by the spindle motor 53 and the magneto-optical disk is rotated while the disk cartridge is loaded in the apparatus main body 2, the optical pickup 55 is rotated by the feed mechanism 52 during reproduction. The optical pickup 55 irradiates the magneto-optical disk facing outward from the opening while reproducing the information signal, and the information signal is reproduced.
[0104]
  On the other hand, at the time of recording, the magnetic head 56 is brought into contact with or close to the magneto-optical disk facing outward from the opening by the head lifting mechanism 78. Then, the optical pickup 55 and the magnetic head 56 arranged to face each other via the magneto-optical disk are fed in the radial direction of the magneto-optical disk by the feed mechanism 52, and the optical pickup 55 faces outward from the opening. Information signals are recorded by irradiating one main surface of the disk with laser light and applying an external magnetic field to the other main surface of the magneto-optical disk where the magnetic head 56 faces outward from the opening. Is called.
[0105]
  On the other hand, when removing the disk cartridge from the apparatus main body 2, the lid 3 is changed from the closed state to the opened state.
[0106]
  At this time, in the eject mechanism 33, the disc cartridge is moved from the mounting position to the insertion / removal position together with the holder 4 by opening the lid 3 as shown in FIGS. . Then, the distal end portion of the unlocking piece portion 46 provided on the other side of the eject lever 34 is brought into contact with the distal end portion of the ratchet plate 47 and pressed in a direction approaching the holder 4. At this time, one of the eject levers 34 is pushed up in a direction away from the holder 4 with the fulcrum convex portion 39 as a fulcrum. Accordingly, the locked state of the locked piece 43 of the eject lever 34 with respect to the locking convex portion 44 of the holder 4 is released. The eject lever 34 is urged by the tension coil spring 35 to rotate to one side in the rotational direction, and the disc cartridge 1 is ejected to the outside of the holder 4 while the pressing piece 37 presses the disc cartridge. To do.
[0107]
  Here, the eject lever 34 is formed such that the engaged piece portion 43 provided on one side with respect to the fulcrum convex portion 39 is longer than the unlocking piece portion 46 provided on the other side.
[0108]
  In this case, even if the amount of movement of the unlocking piece 46 in the direction approaching the holder 4 is slight, the direction in which the locked piece 43 is separated from the holder 4 with the fulcrum protrusion 39 as a fulcrum Thus, the locked state of the locked piece portion 43 of the eject lever 34 with respect to the locking convex portion 44 of the holder 4 can be reliably released.
[0109]
  On the other hand, the eject lever 34 may be formed such that the unlocking piece 46 provided on the other side with respect to the fulcrum convex part 39 is longer than the locked piece 43 provided on one side.
[0110]
  In this case, when the locked piece 43 is pushed up in the direction away from the holder 4, the lock release piece 46 is pressed with a small force in the direction approaching the holder 4 with the fulcrum protrusion 39 as a fulcrum What is necessary is just to do, and it can prevent that a load arises in the front-end | tip part of the lock release piece part 46 and the front-end | tip part of the ratchet board 47 which are mutually contact | abutted.
[0111]
  Further, in the shutter opening / closing mechanism 30, when the disk cartridge is ejected from the holder 4, first, the shutter member slides in a direction to close the recording / reproducing opening, and the distal end portion of the elastic displacement piece 32 and the shutter member. Is disengaged. Next, when the disc cartridge is further ejected from the holder 4, the recording / reproducing opening of the disc cartridge is completely closed. When the unlocking piece 31 is separated from the locking piece, the locking piece again locks the slide of the shutter member. As described above, the disk cartridge can be taken out from the apparatus main body 2.
[0112]
  As described above, the disc player 1 has a structure in which the above-described eject mechanism 78 is mounted on the holder 4, and the disc cartridge can be appropriately moved outside the apparatus main body 2 without applying a load to the mechanical chassis 5. Can be discharged.
[0113]
  Further, in the disc player 1, the structure of the mechanical chassis 5 can be simplified, and the load on the mechanical chassis 5 is reduced. Therefore, the range of selection of materials is widened, and the mechanical chassis 5 is reduced in weight. It is also possible to use a molded plastic or the like.
[0114]
  As described above, in this disc player 1, since the mechanical chassis 5 is molded from plastic or the like, it is possible to significantly reduce the weight as compared with the case where the mechanical chassis is configured by sheet metal. It is possible to greatly reduce the parts for mounting the motor, gears and the like constituting the mechanism. In particular, in an electronic device such as a portable disc player where reduction in size and weight of the entire apparatus is desired, the manufacturing cost can be greatly reduced by reducing the number of parts and simplifying the number of assembly steps.
[0115]
  The present invention is not limited to the disc player 1 described above, and is capable of recording and / or reproducing information signals such as music signals, video signals, and programs on a disc-shaped recording medium. It can also be applied to a playback device. Disc-shaped recording media include reproduction-only optical discs in which information signals such as audio signals, image signals, and programs are recorded in advance, write-once optical discs in which these information signals can be written only once, these The rewritable optical disk, magnetic disk, and the like that can rewrite the above information can be used, and these disk-shaped recording media may be rotatably stored in a disk cartridge.
[0116]
【The invention's effect】
  As described above in detail, according to the present invention, the entire apparatus can be reduced in size and weight, and the manufacturing cost can be greatly reduced by reducing the number of parts and simplifying the number of assembly steps. Butit can. Further, since the reinforcing means is provided along the support shaft (rotating shaft) supported around the opening, it is possible to prevent the mechanical chassis having the opening from being bent due to the rotation of the rotating shaft.
[Brief description of the drawings]
FIG. 1 is a perspective view showing a state where a disc player to which the present invention is applied is placed on a charging stand.
FIG. 2 is an exploded perspective view showing a configuration of the disc player.
FIG. 3 is a plan view of the apparatus main body as viewed from the holder side, for explaining a state in which the disc cartridge is ejected from the holder.
FIG. 4 is a plan view of the apparatus main body as viewed from the holder side, for explaining a state in which a disc cartridge is inserted into the holder.
FIG. 5 is a side view of the main part of the apparatus main body viewed from the eject mechanism side, and is a view for explaining the unlocking operation of the eject mechanism.
FIG. 6 is a perspective view of the state in which each mechanism is attached to the mechanical chassis, as viewed from the side opposite to the surface on which the disk cartridge is mounted.
FIG. 7 is a perspective view of the mechanical chassis as viewed from the side opposite to the surface on which the disk cartridge is mounted.
FIG. 8 is a schematic diagram for explaining an open lock mechanism.
FIG. 9 is a perspective view showing an open locker.
FIG. 10 is a cross-sectional view of an essential part showing a state where the open locker is attached to a lid made of metal.
FIG. 11 is a cross-sectional view of the main part showing a state where the open locker is attached to a lid made of plastic.
FIG. 12 is a cross-sectional view of the main part showing another state in which the open locker is attached to the lid made of plastic.
FIG. 13 is a main part perspective view showing a state in which the USB jack is held in the set chassis.
[Explanation of symbols]
  DESCRIPTION OF SYMBOLS 1 Disc player, 2 apparatus main body, 3 cover body, 3a 1st surface, 3b 2nd surface, 4 holder, 5 mechanical chassis, 6 set chassis, 7 wiring near board, 8 housing | casing, 16 USB jack, 16a plug Insertion / Removal Port, 30 Shutter Open / Close Mechanism, 33 Eject Mechanism, 34 Eject Lever, 35 Tension Coil Spring, 36 Support Shaft, 37 Pressing Piece, 39 Supporting Point Convex, 42 Lever Locking Mechanism, 43 Locked Piece, 44 Locking Convex Part, 44a inclined surface part, 44b locking surface part,45Lever lock release mechanism, 46 lock release piece, 47 ratchet plate, 50 disk rotation drive mechanism, 51 recording / playback mechanism, 52 feed mechanism, 53 spindle motor, 54 disk table, 55 optical pickup, 56 magnetic head, 57 head mounting arm , 59 Feed base, 60 Main shaft (screw screw), 61 Sub shaft (rotary shaft), 76 Rib, 77 Support section, 78 Head lifting mechanism, 90 Frame body, 91 Pair of support arms, 92 Torsion coil spring, 93 Open lock mechanism , 94 Open slider, 95 Open rocker, 95a First fixed piece, 95b Second fixed piece, 100 Protrusion, 101 hole, 102 Through hole, 103 Screw hole, 104 Screw, 105 Outer casing, 105a Notch 106 Control piece

Claims (3)

A rotation driving means for rotating the disk-shaped recording medium;
Recording / reproducing means for recording and / or reproducing signals with respect to the disc-shaped recording medium rotated by the rotation driving means;
It has a support shaft that supports one of the rotation driving means and the recording / reproducing means so as to be movable in the radial direction of the disc-shaped recording medium with respect to the other, along the axial direction of the support shaft. A feed operation means for feeding one of them;
At least a portion of the one that is fed in the radial direction of the disc-shaped recording medium by the feeding operation means has an opening facing outward, and both ends of the support shaft are supported around the opening. Chassis
Reinforcing means comprising a plastic integrally formed with at least a part of the chassis, and having ribs protruding along the support shaft on a surface of the chassis opposite to the surface on which the recording medium is mounted; equipped with a,
The recording / reproducing apparatus according to claim 1, wherein the reinforcing means includes a support portion that is in contact with the support shaft in the middle of the rib .   2. The recording / reproducing apparatus according to claim 1, wherein the chassis is made of plastic integrally formed with the reinforcing means. The support shaft is a rotation shaft,
The chassis has a pair of bearing portions that are pivotally supported at both ends of the rotating shaft and formed integrally with the reinforcing means,
The recording / reproducing means includes an optical pickup that irradiates a laser beam to one main surface of the disc-shaped recording medium during recording or reproduction, and is disposed opposite to the optical pickup, and other than the disc-shaped recording medium during recording. A magnetic head that applies an external magnetic field to the main surface;
2. The recording / reproducing apparatus according to claim 1, further comprising head moving means for moving the magnetic head in a direction in which the magnetic head can be moved toward and away from the disk-shaped recording medium by rotating the rotating shaft.

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