JP3899532B2 - Disc player - Google Patents

Description

[0001]
[Industrial application fields]
  The present inventionA disc player that controls the disc ejection mechanism using the rotation of a disc table that rotates the disc.About.
[0002]
[Prior art]
  2. Description of the Related Art Conventionally, there has been proposed a disc player configured to record or reproduce an information signal using a recording disc such as an optical disc or a magneto-optical disc as a recording medium.
[0003]
  In such a disc player, the recording disc is at the center.ProvidedIt is positioned and held with reference to a circular positioning hole (chucking hole). That is, the disc player has a disc table that has a positioning projection inserted into the positioning hole and is rotated by a spindle motor. The disk table positions and holds the recording disk by fitting positioning protrusions into the positioning holes of the recording disk, and rotates the recording disk by being rotated by a spindle motor.
[0004]
  In a disc player, a recording disc held on a disc table and rotated is written or read by an optical pickup device.ButDone.
[0005]
  In the disk player, information signals are written to and read from the recording disk.whileIn this case, ejecting the recording disk from the disk table is prohibited.ConfiguredAn eject mechanism is provided.
[0006]
  As shown in FIG. 10, this ejection mechanism has a first ejection slider 117 and a second ejection slider 118. These eject sliders 117 and 118 are slidable along the outer surface of the disc player housing.attachmentIt has been.
[0007]
  The first eject slider 117 is provided with an eject knob 116 for manually sliding operation. This eject knob 116Operate, The first eject slider 117Arrow c direction in FIG.The first eject slider 117 is moved to the arrow d in FIG. 10 via the eject mediating lever 111.In the directionThe second eject slider 118 is slid.
[0008]
  That is, the first eject slider 117 presses the eject mediating piece 115 of the eject mediating lever 111 to move the eject mediating lever 111, and moves the eject mediating piece 115.ThroughMove by pressing the second eject slider 118Do. The first eject slider 117 is configured not to slide to a position where the second eject slider 118 is directly pressed, and an eject mediating piece 115 is interposed.LetIf not, slide the second eject slider 118ButCan not.
[0009]
  When the second eject slider 118 is slid, it performs an operation such as opening the lid of the housing of the disc player, and executes an eject operation for removing the recording disc from the disc table.
[0010]
  The eject mediating lever 111 is movably disposed on an eject prohibiting lever 106 disposed in the housing of the disc player, and the eject mediating piece 115 is protruded outward of the housing so that the first and second The eject sliders 117 and 118 are inserted.
[0011]
  The eject mediating lever 111 has support holes 110 and 110, and the support shafts 110 and 110 are inserted into the support shafts 109 and 109 so that the support shafts 110 and 110 are inserted into the support holes 110 and 110. It is arranged. The ejection mediating lever 111 has a spring latching portion 113, and an ejection mediating piece portion is formed by a tension coil spring 114 stretched between the spring latching portion 113 and the spring latching portion 112 of the ejection prohibiting lever 106. Direction in which 115 is moved between eject sliders 117 and 118Fig. 10 Middle arrow b directionEnergized and positioned.
[0012]
  The ejection prohibiting lever 106 has support slits 108, 108. By inserting support shafts 107, 107 provided in the housing into the support slits 108, 108, the eject mediating piece 115 is moved to the eject sliders 117, 118. Direction to move forward and backwardIn the direction of arrow a in FIG.It is slidably supported.
[0013]
  The ejection prohibition slider 106 is slid by an ejection prohibition motor 101 disposed in the housing. That is, the drive gear 102 is attached to the drive shaft of the ejection prohibiting motor 101. A transmission gear 120 is engaged with the drive gear 102. The transmission gear 120 has a worm gear 103 coaxially and integrally therewith.attachmentIt has been. The worm gear 103 is engaged with the worm wheel 104. The worm wheel 104 has a driven gear 119 coaxially and integrally therewith.attachmentIt has been. The driven gear 119 meshes with the rack gear 105 formed on the ejection prohibiting lever 106.
[0014]
  In this disc player, information signals are written to and read from the recording disc.whileIn FIG. 5, the ejection prohibiting motor 101 moves the ejection prohibiting lever 106, and the ejection mediating piece 115 exits between the ejection sliders 117 and 118.didSlide to position. At this time, even if the first eject slider 117 is slid, the second eject slider 118 cannot be slid and the eject operation is executed.DoI can't.
[0015]
  In this disc player, when the information signal is not written to or read from the recording disc, the eject prohibiting motor 101 moves the eject prohibiting lever 106 and the eject mediating piece 115 is located between the eject sliders 117 and 118. Slide to the position to enter. At this time, when the first eject slider 117 is slid, the second eject slider 118 is slid to execute the eject operation.
[0016]
[Problems to be solved by the invention]
  In addition to the spindle motor, the disk player as described above requires an ejection prohibiting motor, an optical pickup device, and a motor for moving the magnetic head device.As a result, useThe number of motors increases and the device configurationIs complicated,UpsizingResulting in.
Has been invited.
[0017]
  If the driving force of one motor can be used for a plurality of applications, the number of motors required for the configuration of the apparatus can be reduced. However, in the above-described disc player, the driving force of each motor is used for each dedicated purpose. The number of motors cannot be reduced.
[0018]
  Therefore, the present invention has been proposed in view of the above-described circumstances, and the driving force of the spindle motor can be used for other purposes of rotating the recording disk.UseThe number of motorsReduction possibleToDisc playerThe purpose is to provide.
[0019]
[Means for Solving the Problems]
  In order to solve the above-described problems and achieve the above object, a disc player according to the present invention includes a spindle motor, a drive shaft that is rotationally driven by the spindle motor, and a fitting hole provided in a central portion. A disk table that is fitted and attached and is rotated by the spindle motor, and a recording and / or reproducing that performs recording and / or reproduction on a disk that is mounted on the disk table and that is rotated integrally with the disk table. Reproducing means, a gear part provided on the outer periphery of the disk table and rotating integrally with the disk table;In conjunction with the rotation of the gear portion, a first position for permitting the ejection operation of the disk mounted on the disk table according to the rotational direction of the disk table, and a second position for prohibiting the ejection operation of the disk. A first lever that is operated to move between the first position, a first eject operation member that engages with the first lever when the first lever is located at the first position, and When the first lever is located at the first position, the second eject operating member that engages with the first lever; and when the first lever is located at the first position, the first lever A disk ejecting mechanism that is engaged with the first lever by operating one eject operating member and operated by operating the second eject operating member via the first lever; A.
  The disc player further includes a second lever that is operated to move between a third position and a fourth position according to the rotation direction of the disc table by engaging with the gear portion. And an urging member that connects the first lever and the second lever so as to be integrally movable, and the first lever is configured to move the first lever when the second lever is in the third position. When the second lever is located at the fourth position, the second lever is moved to the second position..
  The disc player further includes a two-way biasing spring that biases the second lever, and the two-way biasing spring is configured such that the first lever is in the first position when the first lever is in the first position. The second lever is biased so that the lever is biased in the first position direction, and when the first lever is in the second position, the first lever is in the second position direction. The second lever is biased so as to be biased.
  Furthermore, the first lever is urged to rotate by the urging member, and when the first lever is positioned at the first position, the first lever is operated to rotate. The ejection operation of the disc ejection mechanism is performed.
[0020]
[Action]
  In the disc player according to the present invention, the position of the first lever is controlled in accordance with the rotation direction of the gear portion that rotates integrally with the disc table that is driven to rotate by the spindle motor, thereby controlling the disc eject mechanism. The
[0021]
【Example】
  Hereinafter, specific embodiments of the present invention will be described with reference to the drawings.
[0022]
  In this example, the present invention is applied to a disk player that records and reproduces information signals using a disk cartridge.
[0023]
  The disc cartridge used in this disc player is an information signal such as an optical disc or a magneto-optical disc.Is recordedA recording disk is rotatably stored in a cartridge.
[0024]
  A magneto-optical disk, which is a recording disk used as an information signal recording medium in this disk player, has a signal recording layer made of a magnetic material on a disk substrate made of a transparent synthetic resin material such as polycarbonate having a diameter of about 64 mm. It is formed by wearing.
[0025]
  This signal recording layer is locally heated above the so-called Curie temperature by means such as irradiation of a focused laser beam, and an external magnetic field is applied to the heated portion, thereby writing an information signal.ButIs done. The information signal written in this way irradiates the signal recording layer with a light beam such as a laser beam, and the reflected light beam of this light beam.TheBy detectingReading is done.
[0026]
  Also, this disc player deviceInAn optical disk as a recording disk used is a reflective layer made of a metal material such as aluminum on a disk substrate similar to the disk substrate of a magneto-optical disk.TheDeposition formationdo itIt is configured. On the disk substrate of this optical disk, fine pit rows corresponding to information signals are formed by means such as injection molding.
[0027]
  The information signal written on this optical disk is obtained by irradiating the pit row with a light beam such as a laser beam and detecting the reflected light beam of this light beam.Reading is done.
[0028]
  As shown in FIGS. 6 to 9, the magneto-optical disk and the optical disk are rotatably accommodated in cartridges 205 and 216 to constitute a disk cartridge.
[0029]
  Contains magneto-optical diskdidThe cartridge 205 constituting the recording / reproducing disk cartridge 220 is formed in a thin casing shape having a rectangular main surface portion whose side length substantially corresponds to the diameter of the magneto-optical disk. As shown in FIG. 6, the cartridge 205 has a magnetic head opening 223 for allowing a part of the signal recording surface of the magneto-optical disk to face outward on the main surface on the upper surface side. Further, as shown in FIG. 7, the cartridge 205 has an optical pickup opening 222 at a position facing the magnetic head opening 223 on the lower surface side main surface portion, and the lower surface side main surface portion is substantially the same. A chucking opening 213 is provided in the central portion. This recording / reproducing disc cartridge 220 is indicated by an arrow M in FIGS. 6 and 7 with respect to the disc player.DirectionInserted forward and attached.
[0030]
  In the cartridge 205 of the disc cartridge 220 for both recording and reproductionProvidedThe magnetic head opening 223 and the optical pickup opening 222 are provided on the shutter member 206.ThereforeIt can be opened and closed. The shutter member 206 is opposed to each other in parallel with the openings 223 and 222.DoIt has a shutter plate and a connecting portion that connects one end side of these shutter plates, and is integrally formed of a synthetic resin material or a metal material. The shutter member 206 slidably supports the connecting portion in a support groove 207 formed on one side of the cartridge 205.Let meYes. That is, the shutter member 206 slides rearward along one side portion of the cartridge 205 to open the openings 223 and 222, and slides forward from the rear side to return to the initial position. The openings 223 and 222 are closed by the shutter plate.
[0031]
  And store the optical discdidThe cartridge 216 constituting the read-only disk cartridge 221 is formed in a thin casing shape having a rectangular main surface portion whose side length substantially corresponds to the diameter of the optical disk. As shown in FIG. 8, the cartridge 216 does not have an opening in the main surface portion on the upper surface side. As shown in FIG. 9, the cartridge 216 has an optical pickup opening 222 in the main surface portion on the lower surface side, and has a chucking opening portion 213 in a substantially central portion of the main surface portion on the lower surface side. Yes. The read-only disc cartridge 221 is indicated by an arrow M in FIGS. 8 and 9 with respect to the disc player.DirectionInserted forward and attached.
[0032]
  In the cartridge 216 of the read-only disc cartridge 221, the optical pickup opening 222 is formed on the shutter member 217.ThereforeIt can be opened and closed. The shutter member 217 has a shutter plate corresponding to the optical pickup opening 222 and a support portion provided on one end side of the shutter plate, and is integrally formed of a synthetic resin material or a metal material. Yes. The shutter member 217 supports the support portion slidably in a support groove 207 formed on one side of the cartridge 216.Let meYes. That is, the shutter member 217 slides backward along one side of the cartridge 216 to open the optical pickup opening 222, and slides forward from the rear side to return to the initial position. The optical pickup opening 222 is closed with the plate.
[0033]
  In each of the shutter members 206 and 217, a shutter closing hole 208 is opened at a substantially central position of the connecting portion or the supporting portion toward the side. This shutter closing hole 208 is used for a disc player.When attached toThe members for closing the shutter members 206 and 217 are engaged with each other.
[0034]
  A circular positioning hole (chucking hole) 204 is formed at the center of the magneto-optical disk and the optical disk. The positioning hole 204 is closed by the chucking plate 202 from the upper surface side. The chucking plate 202 is formed in a disk shape having a diameter corresponding to the positioning hole 204 by using a magnetic metal material such as iron or stainless steel. The positioning hole 204 and the chucking plate 202 face the outside of the cartridges 205 and 216 through the chucking opening 213.
[0035]
  A pair of front and rear positioning holes 209 and 210 are formed in the lower main surface of each cartridge 205 and 216. The front positioning hole 209 is located in the vicinity of the edge of the main surface portion on the front side of the optical pickup opening 222, and is formed in an oval shape whose major axis direction is the front-rear direction. The rear positioning hole 210 is located in the vicinity of the edge of the main surface portion on the rear side of the optical pickup opening 222 and is formed in a circular shape.
[0036]
  A plurality of identification holes 224 are formed in the vicinity of the edge on the other side of the rear side of the lower main surface of each cartridge 205, 216. These identification holes 224 are formed on the cartridges 205 and 216.InStorageBeenThis is for identifying the type and state of the disc being used, for example, whether or not information signals can be recorded. In the cartridge 205 of the recording / reproducing disc cartridge 220, a save notch 214 is provided on the rear side surface corresponding to the identification hole 224. When the save notch 214 is moved, the save notch 214 moves back and forth inside one of the identification holes 224 and changes the depth of the identification hole 224 to switch the identification state of whether or not the information signal can be recorded. Furthermore, an engaged recess 212 is formed at the edge on the other front side of the lower main surface portion of each of the cartridges 205 and 216.
[0037]
  In the cartridge 205 of the recording / reproducing disk cartridge 220, a magneto-optical disk identification recess 211 is formed at the front edge of the lower main surface. The cartridge 216 of the read-only disk cartridge 221 has an optical disk disc identification recess 218 formed at the front edge of the lower main surface portion. The magneto-optical disc identifying recess 211 and the optical disc identifying recess 218 have different depths from the lower main surface portion, and the stored disc becomes a magneto-optical disc due to the difference in depth.Oroptical diskIs displayed.
[0038]
  AndThe present invention was appliedAs shown in FIG. 2, the disc player has a chassis 18 having a size corresponding to the size of each of the disc cartridges 220 and 221.
[0039]
  The disk cartridges 220 and 221 are positioned and mounted on the chassis 18. That is, the chassis 18 has a pair of front and rear positioning pins on the upper surface portion, and the disk cartridges 220 and 221 are positioned by fitting these positioning pins in correspondence with the positioning holes 209 and 210, respectively.
[0040]
  The disk cartridges 220 and 221 are mounted on the chassis 18 by inserting the disk cartridges 220 and 221 into a cartridge holder (not shown) disposed on the upper side of the chassis 18 so as to be able to contact with and separate from the chassis 18. Is done. That is, the disk cartridges 220 and 221 are inserted into and held by the cartridge holder separated from the chassis 18, and the cartridge holder is brought close to the chassis 18. Mounted on the chassis 18.
[0041]
  When the disk cartridges 220 and 221 are inserted into the cartridge holder, the shutter members 206 and 217 are used.ButThe lid is opened.
[0042]
  The disc player has a lid (not shown) that can be opened and closed above the cartridge holder. When the lid is closed, the cartridge holder is brought close to the chassis 18, and the disk cartridges 220 and 221 held by the cartridge holder are mounted on the chassis 18.Do. This lid is locked in the closed state, and unlocked by an eject operation described below.Do.
[0043]
  Further, the lid portion is operated to open the lid, thereby separating the cartridge holder from the chassis 18, and this cartridge holderHeld inThe disk cartridges 220 and 221 are detached from the chassis 18.
[0044]
  In the center on the chassis 18,For rotating the recording discA disk table 10 is provided. This disk table10As shown in FIG.AttachedDrive shaft of spindle motor 1IsSpindle shaft 2It is attached. Disc table10 is formed in a disk shape,To fit the spindle shaft 2 in the centerFitting hole 11Is provided. thisDisc table10 is configured such that the spindle shaft 2 is fitted into the fitting hole 11 so that the spindle shaft 2attachmentIt is done. Therefore, the disk table10Is rotated together with the spindle shaft 2 when the spindle shaft 2 is driven to rotate.
[0045]
  This disk table10IsRecording disc is placedRecording disk on top201 providedPositioning projection 12 that fits into positioning hole 204Is provided. The positioning protrusion 12 is formed in a truncated cone shape and smoothly fits into the positioning hole 204.Formed toHas been. The positioning projection 12 has a fitting hole 11 into which the spindle shaft 2 is fitted.And the center axis matchIs formed.
[0046]
  Further, the positioning projection 12 is formed on the outer peripheral edge as shown in FIGS.Is provideding. The elastic displacement portion 17 is disposed so as to protrude toward the outer side of the positioning projection portion 12, and appears and disappears with respect to the outer peripheral surface of the positioning projection portion 12 by being elastically displaced. That is, the elastic displacement portion 17 has the positioning projection portion 12Of the recording disk 201When inserted into the positioning hole 204, the inner periphery of the positioning hole 204 is elastically pressed.do itThe recording disk 201 is held on the disk table.
[0047]
  An annular magnet 13 is formed on the upper surface of the positioning projection 12.ArrangementA magnet mounting recess 14 is formed. The magnet mounting recess 14 is formed in an annular shape corresponding to the shape of the magnet 13.
[0048]
  The outer peripheral side of the positioning protrusion 12 protrudes in a flange shape, and the disk mounting portion 15 on which the periphery of the positioning hole 204 of the recording disk 201 is mounted.To beYes.
[0049]
  A gear portion 16 is formed on the outer peripheral edge of the disc table 10. The gear portion 16 is provided with a positioning projection 12WhenIt is formed coaxially.
[0050]
  When the disk cartridges 220 and 221 are mounted on the chassis 18, the disk cartridges 220 and 221 are displayed.Stored inAs shown in FIG. 1, the recording disk 201 is fitted with the positioning protrusion 12 into the positioning hole 204 through the opening 213 for chucking.LetIn a state where the periphery of the positioning hole 204 is mounted on the disk mounting portion 15, the disk table10Positioned and held on. At this time, the magnet 13 moves the chucking plate 202,In the direction of arrow A in FIG.Suction and record disk 201 to disk table10Hold on.
[0051]
  The spindle motor 1 has an outer cylinder portion 8 which is fixed to a chassis 18 with fixing screws 9.attachmentIt has been. The spindle motor 1 is mounted on the chassis 18 so that the spindle shaft 2 is erected vertically to the chassis 18.attachmentIt has been.
[0052]
  In the spindle motor 1, the spindle shaft 2 is disposed in the outer cylinder portion 8, and is connected to the outer cylinder portion 8 via rotary bearings (bearings) 3 and 3.attachmentThe support member 4 is rotatably supported. In this spindle motor 1, each of the spindle shafts 2 has an annular multi-pole magnet 6.attachmentThe pair of disc-shaped yoke members 5 and 5attachmentIt has been. These yoke members 5 and 5 make the multi-pole magnets 6 and 6 face each other. Between these multi-pole magnets 6 and 6, there is a drive coil.attachmentA printed circuit board 7 is disposed. The printed circuit board 7 is supported by the outer cylinder portion 8 and extends to the connection terminal portion 22 located on the outer side of the outer cylinder portion 8.
[0053]
  This spindle motor 1 is mounted on a printed circuit board 7.MountingBy supplying a drive current to the drive coil via the connection terminal portion 22, the spindle shaft 2 can be selectively rotated in either the forward direction or the reverse direction.
[0054]
  In this disc player device, an optical pickup device 19 is disposed on the chassis 18. The optical pickup device 19 has an optical block unit, and in this optical block unit, a light source such as a laser diode, various optical devices that guide a light beam emitted from this light source, an objective lens that collects and emits the light beam, and A photodetector for detecting a reflected light beam of the light beam emitted from the objective lens is incorporated.
[0055]
  The optical pickup device 19 performs writing or reading of information signals on the recording disk 201 by irradiating the signal recording surface of the recording disk 201 with a light beam emitted from the objective lens.
[0056]
  The optical pickup device 19 is placed on the disk table on the chassis 18.In the direction of arrow T in FIG.It is arranged to be movable. The optical pickup device 19 is fed by a drive force of a pickup feed motor 20 disposed on the chassis 18 via a screw shaft 21 serving as a drive force transmission member.
[0057]
  When the optical pickup device 19 is fed on the chassis 18, an information signal is sent to the signal recording area of the recording disk 201 held on the disk table and rotated by the optical pickup opening 222. Is written or read.
[0058]
  The optical pickup device 19 includes a magnetic head device (not shown) that faces the objective lens.attachmentIt has been. When the disk cartridges 220 and 221 are mounted on the chassis 18, the recording disk 201 is positioned between the objective lens and the magnetic head device. This magnetic head device faces the recording disk 201 through the magnetic head opening 223.
[0059]
  As shown in FIGS. 3 to 5, the disc player according to the present invention releases the lock in the closed state of the lid and removes the recording disc 201 held on the disc table from the disc table 10. An eject mechanism is provided to enable the above.
[0060]
  Further, as shown in FIGS. 3 to 5, the disc player ejects the rotational force of the disc table 10 via the gear portion 16.Control mechanism to control the ejecting operationIs provided with a driving force transmission mechanism.
[0061]
  The eject mechanismIt is operated by the eject operation mechanism. This eject operation mechanismThe chassis 18 was slidably supported.Configuring the first eject operation memberA first eject slider 43 andConfigure the second eject operation memberWith the second eject slider 44Prepare. These eject sliders 43 and 44 are supported so as to be slidable along the outer surface of the housing of the disc player.
[0062]
  The first eject slider 43 is manually slidDoAn eject knob 42 is provided. By operating this eject knob 42, the first eject slider 43 is moved.In the direction of arrow K in FIG.When slid in one direction, the first eject slider 43 moves the second eject slider 44 through the eject mediating lever 40.In the direction of arrow L in FIG.Slide.
[0063]
  That is, the first eject slider 43 presses the eject mediating piece 41 of the eject mediating lever 40 to move the eject mediating lever 40, and moves the eject mediating piece 41.ThroughMove by pressing the second eject slider 44Do. The first eject slider 43 is prevented from sliding to a position where the second eject slider 44 is directly pressed, and the eject mediating piece 41 is interposed.By lettingSecond eject slider 44Enables sliding.
[0064]
  When the second eject slider 44 is slid through the eject mediating piece 41, the second eject slider 44 releases the lock for maintaining the lid in the closed state, and the cartridge holder is separated from the chassis 18 so that the recording disc 201 is moved to the disc table. Eject operation that allows more separation is made possible.
[0065]
  The eject mediating lever 40 is movably disposed on an eject prohibiting lever 33 disposed on the chassis 18, and the eject mediating piece 41 protrudes outward of the housing to make the first and second ejects. Between sliders 43 and 44Advance and retreatLetThe ejection mediating lever 40 and the ejection prohibiting lever 33 constitute an ejection control mechanism that controls the ejection operation of the ejection mechanism.
[0066]
  As shown in FIGS. 3, 4, and 5, the ejection mediating lever 40 has a vertical portion 40a extending on the ejection prohibiting lever 33 and an extending portion 40b extending perpendicularly to the vertical portion 40a. And it is formed in a substantially L shape as a whole. An ejection mediating piece 41 projects from the front end side of the vertical portion 40a. thisThe eject mediating lever 40 isA support hole 39 is provided in the vertical portion 40a,The support shaft 39 is inserted on the ejection prohibiting lever 33 so as to be inserted on the support shaft 38 and disposed on the ejection prohibiting lever 33. The eject mediating lever 40 has a spring latching portion.49This spring retaining part493 is urged in the direction indicated by the arrow J in FIG. Has been positioned.
  The eject mediating lever 40 is urged in the direction of arrow J in FIG. 3 by the tension coil spring 47 and is positioned so that it can move integrally with the eject inhibiting lever 33.
[0067]
  The ejection prohibiting lever 33 has support slits 36 and 37, and the support shafts 36 and 37 provided on the chassis 18 are inserted into the support slits 36 and 37 so as to be slidably supported on the chassis 18. ing. As shown in FIG. 3, the ejection prohibiting lever 33 causes the ejection mediating piece 41 to enter between the ejection sliders 43 and 44.Is the first positionAs shown in FIG. 5, the ejection permission position and the ejection mediating piece 41 are retracted from between the ejection sliders 43 and 44.The second positionIt is slidable across the ejection prohibition position.
[0068]
  As shown in FIGS. 3, 4, and 5, the tip of the extension 40 b of the eject mediating lever 40 isA toggle spring latching portion 46 is provided. In this toggle spring latching part 46,Bi-directional biasing springOne arm portion of the toggle spring 45 is hooked. The other arm portion of the toggle spring 45 is hooked on a hooking portion on the chassis 18.
[0069]
  The toggle spring 45 has an elastic force in a direction that widens the interval between the arms,Eject mediation lever 40 providedIt is interposed between the toggle spring latching portion 46 and the latching portion of the chassis 18.
[0070]
  The interval between the toggle spring latching portion 46 of the eject mediating lever 40 and the latching portion of the chassis 18 is such that the ejection prohibiting lever 33 is the first position and the ejection prohibiting position is the second position. When it is in the middle position which is the middle, it is made the narrowest. That is, when the ejection prohibiting lever 33 is in the ejection permitting position or the ejection prohibiting position, the interval between the toggle spring latching portion 46 of the ejection prohibiting lever 33 and the latching portion of the chassis 18 is determined by the ejection prohibiting lever 33. Wider than when in the middle position.
[0071]
  Therefore, the toggle spring 45 moves the eject prohibiting lever 33 when the eject prohibiting lever 33 is closer to the eject permitting position than the intermediate position.In the direction of arrow H in FIG.When the eject prohibiting lever 33 is urged to move toward the eject permitting position and the eject prohibiting lever 33 is closer to the eject prohibiting position than the intermediate position, the eject prohibiting lever 33 is moved.In the direction of arrow G in FIG.Move to the eject prohibited position.
[0072]
  In this disk player, information signals are written to and read from the recording disk.WhenIn addition, as shown in FIG. 5, the ejection prohibiting lever 33 is driven by a driving force transmission mechanism described later.The second positionSlided to the eject prohibited position. At this time, the first eject slider 43 is moved by the arrow K in FIG.DirectionEven if the second eject slider 44 is slid to the side, the second eject slider 44 cannot be slid and the eject operation is executed.DoI can't.
[0073]
  In this disc player, when an information signal is not written to or read from the recording disc, the eject prohibiting lever 33 is slid to an eject permitting position by a driving force transmission mechanism, which will be described later, as shown in FIG. The At this time, the first eject slider 43 is moved by the arrow K in FIG.DirectionWhen the slide operation is performed to the second eject slider 44 side, the second eject slider 44 is moved via the eject mediating piece 41.In the direction of arrow L in FIG.Slide the eject operationMake possible.
[0074]
  The driving force transmission mechanism has a gear train that transmits the rotational force of the disk table 10 to the ejection prohibiting lever 33.
[0075]
  That is, the driving force transmission mechanism is rotatably supported on the chassis 18.Disc tableThe first transmission gear 23 meshes with the ten gear portions 16. A second transmission gear 24 having a smaller diameter than that of the first transmission gear 23 is coaxially and integrally formed with the first transmission gear 23.attachmentIt has been. The second transmission gear 24 meshes with a third transmission gear 25 that is rotatably supported on the chassis 18. A fourth transmission gear 26 having a smaller diameter than that of the third transmission gear 25 is coaxially and integrally formed with the third transmission gear 25.attachmentIt has been. The fourth transmission gear 26 meshes with a fifth transmission gear 27 that is rotatably supported on the chassis 18. A sixth transmission gear 28 having a smaller diameter than that of the fifth transmission gear 27 is coaxially and integrally formed with the fifth transmission gear 27.attachmentIt has been.
[0076]
  A rotation lever 29 is rotatably attached to the fifth transmission gear 27 via a friction member. The rotation lever 29 is supported at the base end side so as to be rotatable around the support shaft of the fifth transmission gear 27. That is, the rotation lever 29 is rotated by receiving a driving force from the fifth transmission gear 27 via the friction member in a direction following the rotation direction of the fifth transmission gear 27.
[0077]
  A seventh transmission gear 31 is rotatable at the distal end side of the rotation lever 29.attachmentIt has been. The seventh transmission gear 31 meshes with the sixth transmission gear 28.
[0078]
  The seventh transmission gear 31 meshes with a rack gear 32 provided on the ejection prohibiting lever 33. The rack gear 32 is formed along the slidable direction of the ejection prohibiting lever 33.
[0079]
  The ejection prohibiting lever 33 is slidable within a range of, for example, ± 2 mm, with the intermediate position as 0 point across the ejection permitting position and the ejection prohibiting position. The slidable distance of the ejection prohibiting lever 33 is X (mm) (that is, ± (X / 2) (mm)), the length of the rack gear 32 is L (mm), and the rotation lever 29 is rotated. 7> P> (L−X) ≧ 0 is established, where P (mm) is the moving distance of the transmission gear 31 of FIG.
[0080]
  Then, as shown in FIG. 3, the seventh transmission gear 31 is located on the side of the ejection prohibition position with respect to the rack gear 32 when the ejection prohibition lever 33 is at the ejection permission position. As shown in FIG. 5, when the ejection prohibiting lever 33 is in the ejection prohibiting position, the ejecting prohibiting lever 33 is movable toward the ejection permitting position side of the rack gear 32 and the position where it does not mesh with the rack gear 32.
[0081]
  As shown in FIGS. 3 and 4, the seventh transmission gear 31 allows the disk table to record or reproduce information signals with respect to the recording disk 201 by the spindle motor 1 when the ejection prohibiting lever 33 is in the ejection permission position. 4 is rotated in the forward rotation direction indicated by the arrow D in FIG. 4, the sixth transmission gear 28 is rotated in the reverse rotation direction indicated by the arrow E in FIG. It moves to the ejection permission position side while meshing, and then shown by arrow F in FIG.In the directionBy further rotating, the eject prohibiting lever 33 is moved to the eject prohibiting position. At this time, the eject prohibiting lever 33 is moved to the eject prohibiting position side beyond the intermediate position, and is indicated by an arrow G in FIG.DirectionEject prohibited position~ sideThe slide operation is performed.
[0082]
  That is,Eject control mechanismAs shown in FIG. 5, when the disk table 10 is rotated in the forward rotation direction,Recording disk by eject mechanismProhibit eject operation.
[0083]
  As shown in FIG. 5, the seventh transmission gear 31 has an arrow in FIG. 3 in which the disk table 10 is reverse to the forward rotation direction by the spindle motor 1 when the ejection prohibiting lever 33 is in the ejection prohibiting position. When rotated in the reverse rotation direction indicated by B, the sixth transmission gear 28 is rotated in the normal rotation direction indicated by the arrow C in FIG. 3 to move to the ejection prohibition position side while meshing with the rack gear 32, Next, the ejection prohibiting lever 33 is moved to the ejection permission position side. At this time, the ejection prohibiting lever 33 is slid to the ejection allowing position as indicated by an arrow H in FIG. The
[0084]
  That is, as shown in FIG. 3, this eject mechanism enables an eject operation when the disk table 10 is rotated in the reverse rotation direction indicated by the arrow B in FIG.
[0085]
【The invention's effect】
  As described above, the disc player according to the present invention makes it possible to use the driving force of the spindle motor for other uses of the rotation operation of the recording disc, thereby reducing the number of motors required for the configuration of the disc player. Therefore, the device can be simplified and downsized.
[Brief description of the drawings]
FIG. 1 shows the present invention.UsedIt is a longitudinal cross-sectional view which shows a disk table.
[Figure 2]According to the present inventionFIG. 3 is a plan view illustrating a configuration of main parts of a disc player.
FIG. 3 Disc playerButIn stop modeIt is inIt is a principal part top view which shows a state partly seeing through.
FIG. 4 Disc playerButWhen recording mode startsIt is inIt is a principal part top view which shows a state partly seeing through.
FIG. 5 is a disc player.ButIn recording modeIt is inIt is a principal part top view which shows a state partly seeing through.
FIG. 6 is a recording / playback disc cartridge used in a disc player.TheIt is the perspective view which faced from the upper surface side.
FIG. 7 is a recording / playback disk cartridge.TheIt is the perspective view which faced from the bottom side.
FIG. 8 is a perspective view of a read-only disc cartridge used in a disc player as viewed from the upper surface side.
FIG. 9: Disc cartridge for reproduction onlyTheIt is the perspective view which faced from the bottom side.
FIG. 10 is a plan view showing a main configuration of a conventional disc player.
[Explanation of symbols]
  2 spindle axis, 10Disc table, 16 gear section, 19 optical pickup device, 33 ejection prohibiting lever, 40 eject mediating lever, 41 eject mediating piece, 43 first eject slider, 44 second eject slider, 45 toggle spring

Claims (4)

A spindle motor;
A drive shaft that is rotationally driven by the spindle motor;
A disc table that is fitted and fitted to the drive shaft with a fitting hole provided in the center, and is rotated by the spindle motor;
Recording and / or reproducing means for performing recording and / or reproduction on a disk mounted on the disk table and rotated integrally with the disk table;
A gear portion provided on an outer peripheral portion of the disc table and rotating integrally with the disc table;
In conjunction with the rotation of the gear portion , a first position for permitting the ejection operation of the disk mounted on the disk table according to the rotational direction of the disk table, and a second position for prohibiting the ejection operation of the disk. A first lever that is moved between positions ;
A first eject operating member that engages with the first lever when the first lever is in the first position;
When the first lever is positioned in the first position, the second eject operation member for engagement with the first lever,
When the first lever is located at the first position , the first ejecting operation member is operated to engage the first lever, and the second lever via the first lever. And a disc eject mechanism that is operated by operating the eject operation member . The disc player further includes:
A second lever that is operated to move between a third position and a fourth position in accordance with the rotational direction of the disk table by engaging with the gear portion;
An urging member that connects the first lever and the second lever so as to be movable together;
The first lever is moved to the first position when the second lever is in the third position, and the second position when the second lever is in the fourth position. 2. A disc player according to claim 1, wherein The bi-directional biasing spring further biases the second lever, and the bi-directional biasing spring is configured such that when the first lever is in the first position, the first lever is the first lever. The second lever is biased so as to be biased in the position direction. When the first lever is in the second position, the first lever is biased in the second position direction. 3. The disc player according to claim 2, wherein the second lever is biased as described above . The first lever is urged to rotate by the urging member, and when the first lever is positioned at the first position, the first lever is operated to rotate and the disk is operated. 4. The disc player according to claim 3, wherein an ejection operation of the ejection mechanism is performed.

Images