JP3621264B2 - Storage device for recording medium - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a storage device for a recording medium for storing a plurality of disc-shaped recording media, such as an autochanger device, for individually reproducing recorded contents or recording information.
[0002]
[Prior art]
Conventionally, an auto-changer function for storing a plurality of disc-shaped recording media such as compact discs (CDs) and CD-ROMs, arbitrarily selecting one recording media and reproducing the recorded information has been installed in vehicles. It is used for audio devices and navigation devices. Also, a CD-ROM playback device connected to a personal computer or the like accommodates a plurality of CD-ROMs and is used as a large-capacity storage device as a whole. Such a recording medium storage device of a reproducing apparatus having an autochanger function is disclosed as a magazine system in, for example, Japanese Patent Laid-Open Nos. 3-235249, 6-20425, and 6-231526. In the magazine system, a disc-shaped recording medium is placed on a tray, the tray is stored in a magazine case, and the entire magazine is inserted into or taken out from the playback device. Such a magazine storing a plurality of disc-shaped recording media can be divided vertically in an arbitrary storage position within the playback device's housing, and a narrow housing with a playback pickup entering the divided space. Information can be reproduced by effectively using the space inside.
[0003]
The applicant of the present application discloses a stocker-type storage device different from a magazine-type storage device that is handled in an integrated manner in a state in which a plurality of recording media are stored as a whole in Japanese Patent Laid-Open No. 10-3733. As shown in FIG. 51, for example, six CDs can be stored in the stocker 1. The stocker 1 is formed by stacking stocker members 2a, 2b, 2c, 2d, 2e, and 2f that can store CDs one by one from the bottom to the top. Except for the uppermost stocker member 2f, the other stocker members 2a, 2b, 2c, 2d, and 2e are respectively provided with split projections 3a, 3b, 3c, 3d, and 3e on both sides in the width direction. The dividing projections 3a, 3b, 3c, 3d, and 3e are arranged at a common height before the division, and the stocker member having the dividing projections to be selected by the claws 5 as the dividing slide member 4 moves. Is selected. When the feed screw 6 is rotated and the split slide member 4 is raised, the stocker member to which the split projection selected by the claw 5 is connected and the stocker member located above the stocker member are raised and below the stocker member. A space is generated between a certain stocker member. A reproduction pickup or the like can enter the space formed by the division in this way. When the turntable of the playback pickup that has entered is inserted into the center hole of the CD stored in the stocker member at the top of the divided space, and the turntable is pulled out in the direction opposite to the entry direction, the CD is played back by the pickup. It can be performed. Each stocker member 2a, 2b, 2c, 2d, 2e, 2f is provided with a groove so that a CD can be mounted and the turntable can be evacuated and reproduced. Each stocker member 2a, 2b, 2c, 2d, 2e, 2f is also provided with a spring 7 for holding a CD to be stored.
[0004]
[Problems to be solved by the invention]
When the playback device having an autochanger function is an in-vehicle audio device or a navigation device, for example, it is preferable that the playback device can be mounted on a dashboard near the driver's seat. The device to be mounted on the dashboard needs to have a width of about 18 cm, a height of about 5 cm, and a depth of about 17 cm, for example, according to the standard dimensions of DIN. In a magazine type storage device, a disc-shaped recording medium such as a CD is placed in the tray, and the tray is stored in the magazine case. For this reason, when performing reproduction within the housing of the reproduction apparatus, it is necessary to provide a sufficient interval so that the magazine case or tray and the reproduction unit do not come into contact with each other, making it difficult to reduce the size of the apparatus.
[0005]
In the prior art as shown in FIG. 51, the stocker members 2a, 2b, 2c, 2d, 2e, and 2f are securely held by using the springs 7 and the like so that the stored CD does not fall off. There is a need to. On the other hand, when discharging the CD from the stocker 1, it is necessary to overcome the pressing force of the spring 7 and pull out the CD. For this reason, a mechanism for pushing the CD into the stocker 1 at the time of storage or pulling out the CD from the stocker 1 at the time of ejection is required, which increases the number of components and makes it difficult to reduce the size.
[0006]
An object of the present invention is to provide a storage device for a recording medium that can be simplified in size and reduced in size.
[0007]
[Means for Solving the Problems]
The present invention has a plurality of holders each of which can store a recording medium and can be divided between arbitrary layers, a reproducing unit is advanced into the divided space of the holder, and reproduction is performed while holding the central hole of the recording medium A storage device for a playback device,
A top plate that is arranged so as to cover the uppermost holder, has a bilaterally symmetric shape, and has a notch that avoids the reproduction unit;
And a spring for bundling the top plate and the plurality of holders in the stacking direction.
Furthermore, the present invention has a plurality of holders that can each store a recording medium and can be divided between arbitrary layers, and a reproducing unit is advanced into the divided space of the holder, and the central hole of the recording medium is held for reproduction. A storage device for a playback device to perform,
A top plate that is arranged so as to cover the uppermost holder and has a notch that avoids the reproduction unit;
A spring for bundling the top plate and the plurality of holders in the stacking direction;
The storage medium storing apparatus is characterized in that the spring is provided at a symmetrical position facing the top plate.
Furthermore, the present invention has a plurality of holders that can each store a recording medium and can be divided between arbitrary layers, and a reproducing unit is advanced into the divided space of the holder, and the central hole of the recording medium is held for reproduction. A storage device for a playback device to perform,
A top plate that is arranged so as to cover the uppermost holder and has a notch that avoids the reproduction unit;
A spring for bundling the top plate and the plurality of holders in the stacking direction;
The spring is a recording medium storage device characterized in that both ends are continuous springs attached to the top plate.
Furthermore, the present invention has a plurality of holders that can each store a recording medium and can be divided between arbitrary layers, and a reproducing unit is advanced into the divided space of the holder, and the central hole of the recording medium is held for reproduction. A storage device for a playback device to perform,
A top plate that is arranged so as to cover the uppermost holder and has a notch that avoids the reproduction unit;
A spring for bundling the top plate and the plurality of holders in the stacking direction;
The spring is a storage device for a recording medium, characterized in that the spring is provided on the inner side of the dividing means by the dividing protrusion of the holder.
Furthermore, the present invention has a plurality of holders that can each store a recording medium and can be divided between arbitrary layers, and a reproducing unit is advanced into the divided space of the holder, and the central hole of the recording medium is held for reproduction. A storage device for a playback device to perform,
A top plate that is arranged so as to cover the uppermost holder and has a notch that avoids the reproduction unit;
A spring for bundling the top plate and the plurality of holders in the stacking direction;
The top plate and the plurality of holders have holes for guiding the up-and-down movement.
[0008]
According to the present invention, a plurality of holders are stacked, and a top plate is provided so as to cover the uppermost holder. Each holder can store a recording medium individually. The stacked holders can be divided vertically between arbitrary layers. If a pickup for reproducing a recording medium is advanced into a space formed by dividing the layers of the holder and the turntable is raised, the stored recording medium can be mounted on the turntable. The top plate arranged so as to cover the uppermost holder has a notch that opens in the direction of discharging the recording medium. Even when the recording medium stored in the uppermost holder is mounted on a turntable or the like to reproduce the recorded contents, the top plate has a notch. Even if the interval is small, there is no problem with the operation of the turntable or the like. Therefore, the thickness of the entire storage device can be reduced. In addition, many recording media can be accommodated within a certain thickness range.
The plurality of holders and the top plate are urged by a spring downward in the stacking direction. As a result, the storage means is urged by a spring so that the multiple holders and the top plate are in close contact with each other. can do.
[0009]
Further, in the present invention, the holder has a claw that covers a part of the upper surface of the recording medium and prevents falling off only when the side surface of the recording medium is pressed against the holder on at least a part of the wall surface holding the recording medium. It is characterized by that.
[0010]
According to the present invention, the holder has a claw that covers a part of the upper surface of the recording medium only when the side surface of the recording medium is pressed on at least a part of the wall surface that holds the recording medium, and prevents dropping. It is possible to easily hold the recording medium that is stored in the holder and that may not be reproduced and that may be dropped. If the recording medium is not pressed in the insertion direction, the claw does not cover part of the upper surface to prevent the recording medium from falling off, so that the recording medium to be reproduced can be easily taken out from the holder.
[0013]
In the present invention, the spring is a coil spring having an elongated shape, and both ends of the spring are attached to the top plate, and an intermediate portion of the spring includes an outer side of the stacked holder and a bottom portion of the casing. It is characterized by being wound around.
[0014]
According to the present invention, since the elongated coil spring is wound so as to include the outside of the holder laminated from the top plate and the bottom of the casing, even if divided between the holders, the extension of the coil spring is small with respect to the entire length. Thus, even when dividing between the layers between the holders, the entire spring bias can be performed with a small change in the spring constant.
[0015]
According to the present invention, a pressing member that presses at least the recording medium below the divided space against the holder when the holder is divided between layers is provided.
[0016]
According to the present invention, since the pressing member presses the holder against the recording medium below the space formed by being divided, it can be prevented from falling off the holder.
[0017]
In the invention, it is preferable that the pressing member presses in conjunction with a splitting unit that splits the layers of the holder.
[0018]
According to the present invention, when the dividing member divides the holder layers to form a space between the holder layers, the pressing member also presses the recording medium stored in the holder below the space. Can do.
[0019]
Further, in the present invention, the dividing means includes a dividing member that advances between the holders to widen the interval,
The pressing member is formed integrally with the dividing member.
[0020]
According to the present invention, the division between the layers of the holder is performed by a division member that advances between the holders and widens the interval. Since the pressing member is formed integrally with the dividing member, the division and the pressing after the division can be reliably performed in conjunction with each other.
[0021]
In the present invention, the pressing member is installed so as to press a predetermined recording medium in the housing,
The stacked holder and the top plate are displaced in the stacking direction, and the storage position of the recording medium to be pressed can be selected.
[0022]
According to the present invention, the pressing member is installed so as to press a predetermined recording medium in the housing, and the stacked holder and the top plate are displaced in the stacking direction to store the recording medium to be pressed. Since the position can be selected, the function of selecting a holder to be divided or pressed can be separated from the mechanism that performs the division, and the mechanism can be simplified and the entire size can be reduced.
[0023]
In the present invention, the pressing member is capable of pressing the side surface of the recording medium and has a shape that covers at least a part of the upper surface of the recording medium when pressed.
[0024]
According to the present invention, the side surface of the recording medium can be pressed and has a shape that covers at least a part of the upper surface of the recording medium when pressed, so that the recording medium below the divided space can be securely pressed by the pressing member. Dropout can be prevented.
[0025]
In the present invention, the holder has a wall surface that opens in one direction and accommodates a recording medium to be accommodated in a range exceeding a half circumference.
[0026]
According to the present invention, the holder has a wall surface that opens in one direction and accommodates the inserted recording medium in a range exceeding a half circumference. A wide space can be formed on the inner side in the radial direction to reduce the overall weight.
[0027]
In the present invention, the holder is provided with a protrusion along an outer peripheral portion in a state where the recording medium is placed.
[0028]
According to the present invention, since the protrusion is provided along the outer peripheral portion of the holder on which the recording medium is placed, the recording medium to be placed can be prevented from being displaced in the outer peripheral direction, and the position in the stored state Deviation can be prevented.
[0029]
According to the present invention, the holder has a protrusion on one surface in the stacking direction outside the recording medium mounting range, and the protrusion of the holder stacked on the other side when the holder is stacked fits the other surface. It has a recessed part, The said top plate has the recessed part or processus | protrusion which fits to this processus | protrusion of the uppermost holder or this recessed part at the time of lamination | stacking.
[0030]
According to the present invention, the holder has a protrusion on one upper surface in the stacking direction outside the recording medium placement range, and a recess fitted on the protrusion on the other surface. In addition, the top plate has a recess or projection that fits into the projection or recess of the uppermost holder when stacked, so that the projection fits into the recess when the top plate and the holder are stacked, and the top plate and Deviation between holders can be prevented.
[0031]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 shows a schematic overall configuration of a CD playback device 21 including a recording medium storage device according to an embodiment of the present invention. The CD playback device 21 can store a plurality of recording media in the stocker 23 stored in the housing 22 and operates as an autochanger device. The casing 22 has a size called 1DIN which is standard as an on-vehicle device, that is, a width of about 18 cm, a thickness of about 5 cm, and a depth of about 17 cm, and is installed on a dashboard of a vehicle.
[0032]
The stocker 23, which is a storage device for recording media, can store up to six CDs 24, which are disk-shaped recording media. The CD 24 has a diameter of about 12 cm and a thickness of about 1.2 mm, and can be reproduced by the PU unit 25. The stocker 23 can be moved up and down as a whole by a lifting mechanism 26. The floating mechanism 27 is a state in which only the PU unit 25 is mechanically floated from other parts, and when the CD 24 is mounted on the PU unit 25 and is being played back, it is not easily affected by external vibration or impact. can do. When one storage position is selected by the elevating mechanism 26, the stocker 23 is vertically divided by the dividing mechanism 28, and an interval can be provided between the divided storage positions. An electronic circuit board or the like constituting the control circuit 29 is also arranged on the side of the housing 22 and controls the movement of each part.
[0033]
The PU unit 25 can be displaced on the slide base 30 supported from the bottom of the housing 22. The slide base 30 can be kept mechanically floating from the bottom of the housing 22 by the floating mechanism 27. The control circuit 29 releases the floating state by the floating mechanism 27 by the lock mechanism 31 except when the CD 24 is reproduced, so that the PU unit 25 does not move independently of the other parts in the housing 22. I have to.
[0034]
An insertion / extraction port 33 is formed in the front panel 32 which is an operation surface of the housing 22 as an opening for inserting or discharging the CD 24. An insertion / extraction mechanism 34 is provided in the housing 22 adjacent to the insertion / extraction port 33. The insertion / ejection mechanism 34 includes an insertion / ejection roller 35 and a support plate 36. The CD 24 inserted or ejected from the insertion / ejection port 33 is placed on the support plate 36 and conveyed by the rotation of the insertion / ejection roller 35. When the CD 24 is transported or regenerated in the housing 22, the insertion / ejection port 33 is closed by the shutter mechanism 37 constituting the opening / closing mechanism, and the CD 24 is transported in the reverse direction for positioning. In the state shown in the figure, the turntable 38 of the PU unit 25 is in a state where it can be received by waiting at the reference position and positioning the CD 24 inserted from the insertion / ejection port 33. The recording stocker 23 is formed by laminating holders 39 capable of individually storing CDs 24.
[0035]
2, 3, and 4 respectively show an outline of each operation state of insertion, reproduction, or storage in the stocker 23 of the CD 24 with respect to the CD reproduction device 21 shown in FIG. 1. FIG. 2 shows a state in which the CD 24 is drawn into the housing 22 while the CD 24 is inserted from the insertion / ejection port 33 of the housing 22 and is sandwiched between the insertion / ejection roller 35 of the insertion / ejection mechanism 34 and the support plate 36. When the CD 24 is drawn into the housing 22, an opening / closing mechanism described later closes the insertion / ejection port 33 and changes to a state in which a new CD 24 cannot be inserted. The insertion / extraction roller 35 once retracts the CD 24 into the housing 22, rotates in the reverse direction, and pushes the CD 24 back until it is stopped by the shutter mechanism 37. Thereby, the CD 24 can be reliably positioned at a certain position.
[0036]
FIG. 3 shows a state in which the PU unit 25 waiting below the CD 24 positioned ascends, and the CD 24 is chucked and mounted on the turntable 38 and moved into the divided stocker 23. . Further, the inserted CD 24 can be reproduced by the PU unit 25 in this state.
[0037]
FIG. 4 shows a state in which the CD 24 mounted on the turntable 38 is transferred from the PU unit 25 moved to the space in the stocker 23 to a holder 39 constituting the stocker 23. The holder 39 waits below the CD 24 that is mounted on the turntable 38 and transported, and lifts to raise the peripheral edge of the CD 24 to remove the CD 24 from the turntable 38. Further, when the CD 24 stored in the stocker 23 is transferred to the turntable 38 of the PU unit 25 and discharged, the holder 39 is lowered and the stored CD24 is transferred onto the turntable 38. When storing in the stocker 23, the PU unit 25 in which the CD 24 is transferred onto the holder 39 is taken out from the space between the stockers 23. When the CD 24 is ejected, the PU unit 25 mounted with the CD 24 received from the holder 29 is pulled out between the stockers 23 and transferred to the insertion / ejection mechanism 34 side.
[0038]
5, FIG. 6, FIG. 7, FIG. 8, and FIG. 9 show the outline of the operation when the CD 24 is inserted, ejected, stored, played, and changed, respectively, in the CD playback device 21 of this embodiment. FIG. 5A shows an insertion standby state in which the CD 24 can be inserted. In the insertion / ejection mechanism 34, the insertion / ejection roller 35 is lowered so that the inserted CD 24 can be drawn. In the stocker 23, the holder 39 corresponding to the selected storage position has all the lower holders lowered and spaced apart, and all the upper holders of the selected holder 39 have been raised. . The CD 24 is stored in the space between the selected holder 39 and the holder above it. The PU unit 25 stands by at a standby position on the exit side of the insertion / extraction mechanism 34.
[0039]
FIG. 5 (2) shows a state in which the user of the CD playback device 21 has inserted one CD 24 from the insertion / ejection slot 33 of FIG. The insertion / ejection roller 35 of the insertion / ejection mechanism 34 once pulls the inserted CD 24 into the housing 22 as shown in FIG. 5 (3) and conveys it in the reverse direction as shown in FIG. 5 (4) for positioning. . After the CD 24 is pulled in as shown in FIG. 5 (3), the shutter mechanism 37 in FIG. 1 is closed. As shown in FIG. 5 (4), when the CD 24 is conveyed in the reverse direction, the rear end of the CD 24 comes into contact with the shutter mechanism 37 of FIG.
[0040]
In contrast to the CD 24 positioned in FIG. 5 (4), in FIG. 5 (5), the PU unit 25 rises and the CD 24 is mounted on the turntable 38 to receive the CD 24. The turntable 38 is provided with a chucking mechanism 40, and the chucking mechanism 40 is operated to clamp the CD 24 with respect to the turntable 38 as shown in FIG. Next, the PU unit 25 is moved in the insertion direction, the CD 24 is pulled out from the insertion / ejection mechanism 34, the CD 24 is moved into the stocker 23 as shown in FIG. 5 (7), and the PLAY as shown in FIG. 5 (8). In this state, the lock mechanism 31 shown in FIG. 1 is released, and the PU unit 25 is mechanically lifted by the floating mechanism 27 shown in FIG.
[0041]
FIG. 6 shows the process of ejecting the CD 24 from the playback state shown in FIG. 6 (1), the locking mechanism 31 in FIG. 1 releases the locked state. However, in FIG. 6 (2), the locking mechanism 31 in FIG. 1 is operated and the floating mechanism 27 in FIG. Stop floating due to. In FIG. 6 (3), the PU unit 25 is moved from the stocker 23 to the standby position on the exit side of the insertion / extraction mechanism 34. In FIG. 6 (4), the chucking mechanism 40 is operated to release the clamped state of the CD 24 from the turntable 38. In FIG. 6 (5), the PU unit 25 is lowered at the standby position, and the insertion / ejection roller 35 of the insertion / ejection mechanism 34 is also lowered to hold the CD 24 between the insertion / ejection roller 35 and the support plate 36. As a result, the CD 24 is delivered from the PU unit 25 to the insertion / ejection mechanism 34 side. In FIG. 6 (6), the insertion / ejection roller 35 rotates to eject the CD 24. Ejection is temporarily stopped in a state where the CD 24 protrudes from the insertion / ejection port 33 of FIG. 1 and waits for the user of the CD reproducing device 21 to take out the CD 24.
[0042]
FIG. 7 shows an outline of the storing operation for storing the CD 24 up to the storing position in the stocker 23. However, the PLAY state shown in FIG. 5 (8) will be described as the PLAY state in FIG. 7 (1). When the CD 24 inserted from the insertion / ejection port 33 is stored in the stocker 23, the CD 24 is immediately stored without reproduction after the operations from (1) to (8) in FIG. In FIG. 7B, after the lock mechanism 31 of FIG. 1 is operated and the floating state is released, the PU unit 25 and the holder 39 for storing the CD 24 are raised. In FIG. 7 (3), the clamping state of the CD 24 to the turntable 38 by the chucking mechanism 40 of the PU unit 25 is released. In FIG. 7 (4), the PU unit 25 moves downward, and the CD 24 is extracted from the turntable 38 onto the holder 39. In FIG. 7 (5), the PU unit 25 moves to a position below the insertion / ejection mechanism 34, and the stocker 23 that has been divided in FIG. 7 (6) is lowered and the divided state is released.
[0043]
FIG. 8 shows an operation procedure for discharging an arbitrary CD 24 stored in the stocker 23. As shown in FIG. 8 (1), the holder 39 for storing the CD 24 to be ejected is selected from the state where the PU unit 25 is positioned below the insertion / extraction mechanism 34 and the entire stocker 23 is lowered. Then, as shown in FIG. 8 (2), the stocker 23 is divided into a part including the selected holder 39 and an upper part thereof and a part below the selected holder 39. In FIG. 8 (3), the PU unit 25 moves to the space in the stocker 23 formed by being divided. In FIG. 8 (4), the PU unit 25 rises and the CD 24 to be discharged is mounted on the turntable 38. In FIG. 8 (5), the chucking mechanism 40 is operated on the turntable 38 to clamp the CD 24. In FIG. 8 (6), the holder 39 storing the CD 24 is lowered, and the CD 24 is moved to the turntable 38 side. In FIG. 8 (7), the PU unit 25 including the turntable 38 with the CD 24 mounted moves from the space formed between the stockers 23 to the standby position on the exit side of the insertion / extraction mechanism 34. The CD 24 is inserted into the support plate 36 on which the insertion / ejection roller 35 is pulled up. In FIG. 8 (8), the clamping state of the CD 24 to the turntable 38 by the chucking mechanism 40 is released. In FIG. 8 (9), the PU unit 25 is lowered and the insertion / ejection roller 35 is lowered. The CD 24 is held between the support plate 36 and the CD 24 is removed from the turntable 38, and the insertion / ejection roller 35 is rotated to eject the CD 24. In FIG. 8 (9), if the CD 24 is removed from the insertion / ejection port 33 by the user, an insertion standby state in which the CD 24 can be newly inserted is set.
[0044]
FIG. 9 shows a change operation for exchanging from a PLAY state where one CD 24 is being reproduced to another CD 24 stored in the stocker 23. The operations from (1) to (6) in FIG. 9 are the same as those from (1) to (6) in FIG. The operations from (7) to (11) in FIG. 9 are the same as the operations from (1) to (5) in FIG. 9 (12), the lock mechanism 31 of FIG. 1 is released, and the PU unit 25 is mechanically suspended by the floating mechanism 27 of FIG. The holder 39 that has been moved down is lowered and the CD 24 is reproduced. Since the lock by the lock mechanism 31 is released, it is possible to reproduce the CD 24 in a state in which the externally applied vibration is hardly transmitted to the PU unit 25 by the floating mechanism 27. However, since there is a possibility that relative displacement may occur between the PU unit 25 and other parts due to vibration absorption, the PU unit 25 equipped with the CD 24 may not touch the surroundings. It is preferable to move to a position.
[0045]
FIG. 10 shows the appearance of the CD playback device 21 of FIG. Selection buttons 41 to 46 are provided around the insertion / ejection port 33 of the front panel 32, and the storage position of the CD 24 stored in the stocker 23 can be designated. For example, numbers 1 to 6 are assigned to the storage positions from the bottom to the top, and the corresponding numbers are designated by the selection buttons 41 to 46.
[0046]
FIG. 11 shows the structure of the mechanism part from which the housing 22 is removed by the CD reproducing device 21 of FIG. FIG. 12 shows a state in which the mechanism portion shown in FIG. 11 is viewed in plan. The entire mechanical portion is supported by the chassis 50 with the front panel 32 side of the removed housing 22 as the front side and the side facing the front panel 32 as the rear side. On the chassis 50, the shutter mechanism 37 and the insertion / ejection mechanism 34 are disposed on the front side, and the stocker 23 and the like are disposed on the rear side.
[0047]
The PU unit 25 is positioned so that the center position of the turntable 38 is located on the center line 51 of the chassis 50 between the reference position for standby as shown in FIG. It can be moved back and forth. Further, the turntable 38 can be turned and displaced from the reference position shown in FIG. 12 with the turntable 38 side as a tip, and the turntable 38 can be moved below the insertion / extraction mechanism 34.
[0048]
On both sides of the chassis 50 in the width direction, a lifting mechanism 26 for moving the stocker 23 up and down, a splitting mechanism 28 for splitting the stocker 23, and a mechanism for operating the PU unit 25 and the lock mechanism 31 are provided in the front-rear direction. It is arranged as various slide plates that reciprocate. In order to drive the slide plate, an elevating motor 52 and a split motor 53 are respectively arranged at the corners at the rear of the chassis 50. The elevating motor 52 moves the elevating slide plate 54 in the front-rear direction of the chassis 50 and selects the storage position of the stocker 23 according to the number of stages counted by the count sensor 55. The storage slide selected by the elevating motor 52 is actuated by the dividing slide plate 56 driven by the dividing motor 53, and the stocker 23 is divided.
[0049]
A split origin switch 57 and a lift origin switch 58 indicating the origin positions of the split slide plate 56 and the lift slide plate 54 are provided on the front side and the rear side of the chassis 50, respectively. An intermediate position of the dividing slide plate 56 is detected by a dividing position sensor 59. The divided position sensor 59 is a variable resistor that operates linearly, and is used so that the position is indicated by an analog voltage. The detection output is A / D converted and handled as a digital value.
[0050]
In the present embodiment, the elevating motor 52 also drives the insertion / extraction roller 35. Since the insertion / extraction roller 35 is lowered and acts only when the CD 24 is inserted or ejected, and is raised in other states, the insertion / extraction roller 35 is always moved by a lifting motor 52 to simplify the mechanism. Driving. When the stocker 23 needs to move up and down, the clutch mechanism is operated to connect the drive force to the slide plate 54 for lifting. The clutch mechanism according to the present embodiment connects the drive force from the lifting motor 52 to the lifting slide plate 54 when the dividing slide plate 56 is in the most retracted position. When the dividing slide plate 56 moves away from the rearmost position, the clutch mechanism 58 cuts so that the driving force from the motor 52 is not transmitted to the lifting slide plate 54.
[0051]
FIG. 13 shows a configuration of a slide unit 60 formed on the slide base 30 for moving the PU unit 25. FIG. 14 is a plan view showing a state in which the slide unit 60 is moved rearward with respect to the slide base 30. The slide unit 60 generally has a slide plate 61 and a swivel plate 62. The slide plate 61 is movable in the front-rear direction with respect to the slide base 30. The swivel plate 62 can be swung and displaced around the swivel shaft 63 provided on the base end side so that the PU unit 25 on the distal end side draws an arc with respect to the slide plate 61. The slide plate 61 is formed with an arcuate guide groove 64 that guides the revolving displacement of the revolving plate 62. The slide base 30 is formed with an L-shaped guide groove 65 and has a vertical groove 66 and a horizontal groove 67. The pivot shaft 63 is provided with a protrusion 68 that engages with the L-shaped guide groove 65 of the slide base 30, and while the protrusion 68 is engaged with the lateral groove 67 of the L-shaped guide groove 65, the swivel plate 62. The protrusion 69 provided on the engaging plate engages with the arcuate guide groove 64 of the slide plate 61, so that the turning plate 62 is turned. When the protrusion 68 of the swing plate 62 is engaged with the vertical groove 66 side of the L-shaped guide groove 65, the swivel plate 62 cannot be further rotated and the vertical groove 66 and the protrusion 68 With the engaged, only movement in the front-rear direction is possible.
[0052]
The movement of the PU unit 25 on the swivel plate 62 is performed by the feed motor 70 rotating the feed screw shaft 71. The PU origin switch 72 detects that the PU unit 25 is at the origin position on the turntable 38 side. In a general PU unit, when the PU unit reaches the origin position, the feed motor 70 is not further driven. In this embodiment, the PU motor 25 is not mechanically stopped at the origin position, and the feed motor 70 is further driven so that the chucking mechanism 40 can release the clamped state. The release of the clamped state is detected by a clamp release switch 73. The turntable 38 is directly driven to rotate by a spindle motor 74.
[0053]
The relative movement of the slide unit 60 with respect to the slide base 30 is driven by a slide motor 75. The slide motor 75 is provided on the slide base 30, and the movement position of the slide plate 61 is detected by a slide origin switch 76, a slide completion switch 77, and an insertion / ejection standby switch 78. In the slide unit 60, a slip mechanism 79 is provided in the gear mechanism that transmits the driving force from the slide motor 75 to the slide plate 61, and prevents transmission of excessive driving force. In the forward movement of the slide plate 61, the pin 61a comes into contact with a predetermined position of the insertion / extraction mechanism 34 and stops.
[0054]
FIG. 15 shows a configuration of an insertion / extraction mechanism 34 and an opening / closing mechanism including a shutter mechanism 37. The driving forces from the lifting motor 52 and the split motor 53 disposed behind are transmitted to the spur gears 80 and 81, respectively. Since the insertion / ejection roller 35 of the insertion / ejection mechanism 34 is driven by the elevating motor 52 disposed on the rear side as described above, the drive shaft 82 for driving with the spur gear 80 attached to the proximal end extends. The tip is connected to the gear mechanism 83. The driving force from the rear split motor 53 is also transmitted by a drive shaft 84 having a spur gear 81 attached to the base end, and is provided on both sides of the connecting shaft 85 after rotationally driving the connecting shaft 85 connecting both sides. The dividing slide plate 56 is equally driven in the front-rear direction via the gear mechanisms 86 and 87.
[0055]
The shutter mechanism 37 of the opening / closing mechanism includes an opening / closing slide plate 88a, a shutter slide member 88b, and a shutter member 88c. The opening / closing mechanism further includes an opening / closing pin 89a, and an opening / closing stopper 89b and a pin slide plate 89c are provided in association with the opening / closing pin 89a. As the opening / closing mechanism, an opening / closing pin 89 arranged in pairs on both sides is also provided to prevent the CD 24 from being double inserted. When the CD 24 is inserted for the first time or when the CD 24 is ejected, the opening / closing pin 89a is configured to escape from the movement range of the CD 24 with a pressure abutting against the CD 24 so as not to prevent the movement of the CD 24. When preventing double insertion, the opening / closing pin 89a is prevented from being displaced by the opening / closing stopper 89b, so that it does not escape even if the CD 24 comes into contact with it, and the movement of the CD 24 is prevented. As described above, the shutter member 88c is used when positioning the CD 24 once inserted by rotating the insertion / ejection roller 35 in the reverse direction.
[0056]
Further, an insertion detection switch 90a, an insertion presence / absence switch 90b, an insertion completion switch 90c, and a discharge completion switch 90d are also provided in association with insertion and ejection of the CD 24.
[0057]
The linear movement of the slide unit 60 is performed through gear mechanisms 86 and 87 having the same configuration by transmitting the driving force from the slip mechanism to both sides of the slide base 30 through the connecting shaft 85. Since both sides are driven simultaneously and evenly, smooth movement is possible.
[0058]
FIG. 16 shows an outline of the gear mechanisms 83, 86, 87 shown in FIG. A bevel gear 83a constituting a gear mechanism 83 for driving the insertion / extraction roller 35 is provided at the tip of the drive shaft 82, and the driving force from the elevating motor 52 is transmitted to the bevel gear 83b and the spur gear 83c. A bevel gear 84a is provided at the tip of the drive shaft 84, and the driving force from the split motor 54 is transmitted to the bevel gear 84b and the spur gear 84c. The connecting shaft 85 is provided with spur gears 85a and 85b on the right end side and a spur gear 85c on the left end side. The driving force from the split motor 54 is transmitted from the spur gear 84c to the spur gear 85a via the spur gear 86b inserted into the shaft 86a of the gear mechanism 86.
[0059]
The spur gear 86b is not fixed to the shaft 86a and can freely rotate about the shaft 86a. A spur gear 86 c and a pinion gear 86 d are provided at both ends of the shaft 86 a of the gear mechanism 86. The gear mechanism 87 on the left end side includes a spur gear 87b that can freely rotate around the shaft 87a, and a spur gear 87c and a pinion gear 87d provided at both ends of the shaft 86a, and the gear mechanism 86 on the right end side. Has the same configuration as
[0060]
When the driving force is transmitted to the spur gear 85a, the connecting shaft 85 rotates, and the driving force is transmitted to the spur gears 86c and 87c via the spur gears 85b and 85c, respectively. This driving force rotates the pinion gears 86d and 87d to drive the racks of the dividing slide plates 56b and 56a in the front-rear direction. In addition, the driving force from the lifting motor 52 transmitted through the drive shaft 82 by the gear mechanism 87 on the left end side is transmitted to the driving mechanism of the insertion / ejection roller 35 through the spur gear 87b.
[0061]
17, 18, 19, and 20 show the configuration of the holder 39. FIG. 17 shows a perspective appearance, FIG. 18 shows a plan view, and FIG. 19 shows a front view in (a) and a right side view in (b). FIG. 20 shows a partial configuration of the holder 39. The holder 39 is generally semicircular. A CD placement portion 91 for placing the CD 24 is formed on the inner peripheral side of the holder 39. In order to be able to hold the CD 24 by simply placing it on the CD placement portion 91 of the holder 39 in a horizontal posture, the holder 39 can be placed around the CD 24 in a range larger than a semicircle. On the rear end side of the holder 39, a lifting prevention claw 92 that prevents the CD 24 mounted on the CD mounting portion 91 from rising is formed. On both sides of the holder 39, as will be described later, split projections 93, 94, 95, 96 for splitting by the split slide 56 are formed. A pair of insertion holes 97 and 98 are formed on both sides of the holder 39 in the width direction. Protrusions 99 and 100 for preventing displacement are formed in front of the surface of the holder 39.
[0062]
20A is a cross-sectional configuration including the misalignment prevention protrusions 99 and 100, FIG. 20B is a cross-sectional configuration including the lifting prevention claw 92, and FIG. Each end face shape is shown. As shown in FIG. 20A, the misalignment prevention protrusion 99 protrudes from the surface of the holder 39. The depth from the surface of the holder 39 of the CD mounting portion 91 is the thickness of the CD 24 so that the surface of the CD 24 does not come out of the CD mounting portion 91 in a state where the CD 24 is mounted on the CD mounting portion 91. Is bigger than. Recesses 99a and 100a are formed on the back side of the misalignment prevention protrusions 99 and 100, and the position of the lower holder 39 is placed in the recesses 99a and 100a of the upper holder 39 in a state where the holders 39 are stacked. Protrusions 99 and 100 for displacement prevention are fitted to each other, and it is possible to overlap without any gaps as well as preventing displacement.
[0063]
As shown in FIG. 20B, the lifting prevention claw 92 is provided at a position slightly away from the CD 24 placed on the CD placement unit 91. When the CD 24 is pressed in the insertion direction, the surface of the CD 24 is suppressed from coming into contact with the anti-lifting claw 92 and falling off from the CD mounting portion 91. That is, the lifting prevention claw 92 has a shape that covers a part of the surface only when the side surface of the CD 24 is pressed against the wall surface of the holder. A recess 92a is also formed on the back side of the lifting prevention claw 92 to prevent a gap from occurring when the holders 39 are stacked.
[0064]
As shown in FIG. 20 (c), the end face shape of the dividing projections 93, 94, 95, 96 is a triangular shape with the base on the upper side. As a result, the leading end of the dividing slide plate 56 enters between the divided projections 93, 94, 95, 96 of the stacked holders 39, and the interval can be easily expanded.
[0065]
21, FIG. 22, FIG. 23, and FIG. 24 show a state in which the holder 39 is stacked to form the stocker 23. FIG. 21 is a perspective view, FIG. 22 is a plan view, FIG. 23 is a front view, and FIG. 24 is a right side view.
[0066]
The stocker 23 includes a bottom plate 101 that is displaced up and down by a lift plate 54, a pair of elevating guides 102 and 103 that are erected above the bottom plate 101, and elevating guides 102 and 103 that are inserted into insertion holes 97 and 98, respectively. 6 holders 39 and the top plate 104 are included. The top plate 104 is formed in a substantially rectangular shape so that the upper surface of the CD 24 placed on the uppermost holder 39 can be pressed except for the notch 105 at the center. Split projections 106 to 109 corresponding to the split projections 93 to 96 of the holder 39 are formed at the four corners of the rectangular shape, respectively.
[0067]
The top plate 104 is also provided with insertion holes 110 and 111 through which the elevating guides 102 and 103 are inserted, and misalignment prevention holes 112 and 113 that fit with the misalignment prevention protrusions 99 of the uppermost holder 39. In the present embodiment, the same holder 39 can be used to store a plurality of stages of CDs 24. On both sides of the bottom plate 101, pins 114, 115, 116, and 117 are provided for engaging with a stepped groove formed in the lifting slide plate 54 to perform lifting displacement.
[0068]
In addition, spring receivers 118 are provided on both sides of the top plate 104. Elongated coil springs 119 are connected to the spring receivers 118 on both sides, and the tips of the coil springs 119 are hooked and stopped at the center of the bottom plate 101. Since the total length of the coil spring 119 is long, there is almost no difference in the force for urging the stocker 23 to be closed even when the stocker 23 is divided and the full length is extended or when the stocker 23 is closed and the extension is reduced. Can be. A pulley is provided at a portion where the coil spring 119 is bent so that the direction can be smoothly changed.
[0069]
25 and 26 show the shape of the dividing slide plate 56 that can divide the stocker 23 at an arbitrary position. FIG. 25 shows a perspective view, and FIG. 26 shows a side view. FIG. 25A shows the right-side split slide plate 56a, and FIG. 25B shows the left-side split slide plate 56b.
[0070]
The split slide plate 56 is formed with two sets of an upper cam portion 120 and a lower cam portion 121, which are divided in the front-rear direction. The division protrusions 93 to 96 of the holder 39 at the storage position to be divided rise along the slope of the upper cam portion 120. As for the holder below the holder 39 to be divided, the lower cam portion 121 prevents the rise. The dividing projections 93 to 96 that rise on the slope along the upper cam portion 120 are separated by the separation portion 122 into the holder 39 at the storage position and the holder 39 above it. When the uppermost holder 39 is selected, the separation projections 106 to 109 of the top plate 104 are separated by the separation unit 122. The lower holder 39 is further pressed by the holding portion 123 by the effect of a spring. Movement of the dividing slide plate 56 in the front-rear direction is performed by driving a rack 124 provided at an upper front portion of the dividing slide plate 56 with pinion gears 86d and 87d in the gear mechanisms 86 and 87 shown in FIG. .
[0071]
In addition, the split slide plate 56 is formed with a spring receiver 125 for interlocking with a mechanism for moving the slide unit 60 shown in FIG. 13 up and down, and a pin 126 is erected on the side. In addition, as will be described later, a pressure release cam 127 is provided at the front end of the dividing slide plate 56a in association with a mechanism for pressing the CD 24 in the lower part of the divided stocker 23 to prevent dropping.
[0072]
In FIG. 26, the relationship between the dividing projections 93 and 94 and the movement position of the dividing slide plate 96 is indicated by reference numerals 93a1, 93a2,. “A”, “b”, “c” after “93” and “94” indicating the dividing protrusions are the holder 39 on the selected holder 39, the selected holder 39, and the selected holder. Corresponds to each of the lower holders 39. When the selected holder 39 is the uppermost holder 39, the wafer top plate 104 is used. When the selected holder 39 is the lowermost holder 39, the bottom is the bottom plate 101. The last numbers “1”, “2”, “3”, and “4” correspond to the division state of the stocker 23.
[0073]
Referring to FIGS. 5 to 9, “1” is a state in which the stocker 23 is closed, and corresponds to FIGS. 7 (6), 8 (1) and FIGS. 9 (6) and (7). “2” is a divided state corresponding to FIGS. 7 (2) to (5), FIGS. 8 (2) to (5), FIGS. 9 (2) to (5), and FIGS. 9 (8) to (11). It is. “3” is a state corresponding to FIGS. 5 (8), 6 (1), 7 (1), 9 (1), and 9 (12). “4” is a state corresponding to FIGS. 5 (1) to (7), FIGS. 6 (2) to (6), and FIGS. 8 (6) to (9).
[0074]
FIG. 27 shows a state in which the dividing projections 93 to 96 of the holder 39 are divided by the upper cam portion 120 and the lower cam portion 121. By using such a dividing slide plate 56, the stocker 23 can be moved up and down as shown in FIGS.
[0075]
FIG. 28 shows an outline of the floating mechanism 27 of the slide base 30. The floating mechanism 27 includes a damper 130 provided in the chassis 50, a pin 131 inserted into the damper 130 from the slide base 30 side, and a spring 132 disposed outside the damper 130 and the pin 131. From the slide base 30, the lock shaft 133 and the lock piece 134 also protrude toward the chassis 50 side. A lock notch 135 is formed in the lock piece 134. The lock mechanism 31 provided in the chassis 50 restrains the lock shaft 133 to stop the relative displacement in the plane perpendicular to the thickness, that is, in the horizontal plane, and uses the lock notch 135 of the lock piece 134. The raising / lowering displacement of the PU unit 25 is restrained.
[0076]
The pressing lever 140 provided close to the lock mechanism 31 is used to press the CD 24 in the lower part of the stocker 23 to be divided in the insertion direction. The pressing lever 140 is urged by a spring 141 and presses the upper surface and the side surface of the CD 24. When the stocker 23 is not divided, the pressing is released. The height at which the stocker 23 is divided is constant, and the position of the holder 39 to be divided is determined by the vertical displacement of the entire stocker 23. Therefore, the pressing lever 140 can always press the uppermost CD 24 on the lower side of the divided stocker 23.
[0077]
FIG. 29 shows a configuration related to the operation of the pressing lever 140. As shown in FIG. 29A, when the split slide plate 56a moves rearward and the press release cam 127 is separated, the press lever 140 is in a pressed state. As shown in FIG. 29B, when the dividing slide plate 56a returns to the origin position, the pressing release cam 127 acts to release the pressing state of the pressing lever 140. The release operation with respect to the pressing lever 140 is performed via the release lever 142. When the pin 143 on one end side of the release lever 142 is guided by the press release cam 127 and driven to move the release lever 142 to the left, the pin 144 on the other end side releases the pressing force to the press lever 140. The angular displacement is given.
[0078]
FIG. 29 (c) shows the cut shape of the pressing lever 140 as seen from the cutting plane line CC in FIG. 29 (a). In the pressing lever 140, an upper surface pressing portion 145 and a side surface pressing portion 146 are formed at portions that come into contact with the peripheral edge portion of the CD 24, respectively.
[0079]
FIG. 30 shows a basic drive mechanism of the lifting slide plate 54 attached to the chassis 50, and FIG. 31 shows a configuration of the lifting slide plate 54 itself. The lifting slide plate 54 is mechanically connected to the front side of the chassis 50 by the interlocking lever 150, and moves in the reverse direction so that when one moves forward, the other moves backward. The interlocking lever 150 can be oscillated and displaced about the central support shaft 151. The left lifting slide plate 54 moves in the front-rear direction by a driving force transmitted from the lifting motor 52 to the pinion gear 153 via the bevel gear 152.
[0080]
As shown in FIG. 31, a step groove 154 is formed in the elevating slide plate 54 and engages with the pins 114, 115, 116, and 117 of the bottom plate 101 of the stocker 23. The stairway groove 154 is a cam that displaces the stocker 23 up and down as a whole. The stocker 23 selects the storage position to be divided by matching the height of the tip of the dividing slide plate 56 between the holders 39 to be divided by the vertical displacement. In this embodiment, the holder 39 above the position to be divided is selected, but a configuration in which the lower holder 39 is selected is also possible.
[0081]
FIG. 32 shows an electrical configuration for controlling each part of the CD reproducing device 21 by the control circuit 29 of FIG. The control circuit 29 includes a microcomputer and performs various operations in accordance with a preset program. What operation is performed is performed in accordance with an instruction from the input switch 160 including selection buttons 41 to 46 provided on the front panel 32.
[0082]
33 to 50 show the control operation by the control circuit 29 of FIG. The direction of the motor can be switched between a clockwise direction (CW) and a counterclockwise direction (CCW). The output value of the division position sensor 59 is indicated by a hexadecimal number after digital conversion, and “h” is added. In addition, “const.”, “Inc.”, And “dec.” Indicate that the value is constant, increases, and decreases, respectively.
[0083]
FIG. 33 shows the control timing in the operation from when the slide base 30 including the PU unit 25 is suspended from the chassis 50 by the floating mechanism 27 to when the CD 24 is returned to the holder 39 of the stocker 23. At the operation start time S, as shown in FIG. 9 (1), the holder 39, which has escaped downward, is raised by driving the dividing slide plate 56 in the counterclockwise (CCW) direction by the dividing motor 53. The holder 39 that has been pushed downward at 122 is raised, and the lock by the lock mechanism 31 is released to restore the floating state. FIG. 34 shows a procedure of an operation of releasing the clamp state by the chucking mechanism 40 of the CD 24, lowering the slide unit 60, and extracting the turntable 38 from the CD 24. FIG. 35 shows a control procedure for the operation of drawing the slide unit 60 from the stocker 23 to the standby position and retracting it. FIG. 36 shows an operation procedure in a state in which the PU unit 25 is retracted to the outside of the stocker 23, the space of the stocker 23 formed by being divided is closed by the movement of the dividing slide plate 56, and the division is completed. FIG. 37 shows an operation procedure in which the entire stocker 23 is moved up and down by the lifting slide plate 54. The operations from FIG. 7 (1) to FIG. 7 (6) or FIG. 9 (1) to FIG. 9 (6) can be performed by the control from FIG. 33 to FIG. 37 described above.
[0084]
FIG. 38 shows a control operation when the stocker 23 is divided by the dividing slide plate 56. FIG. 39 shows an operation of inserting the PU unit 25 into the space of the divided stocker 23. FIG. 40 shows an operation of raising the turntable 38 of the PU unit 25 inserted into the stocker 23 and mounting the CD 24 on the turntable 38. 41, the chucking mechanism 40 is operated, the CD 24 is clamped on the turntable 38, the lock by the lock mechanism 31 is released, and the PU unit 25 and the like on the slide base 30 are brought into a floating state by the floating mechanism 27. Indicates control of operation. The operations from FIG. 9 (7) to FIG. 9 (12) can be performed by the control from FIG. 38 to FIG.
[0085]
FIG. 42 shows the control of the operation of lowering the holder 39 storing the CD 24 from the state clamped to the turntable 38 in the stocker 23. FIG. 43 shows a transport operation for moving the CD 24 clamped on the turntable 38 to the standby position using the PU unit 25. FIG. 44 shows a state in which the clamping state of the CD 24 to the turntable 38 by the chucking mechanism 40 is released with the PU unit 25 positioned at the standby position, the slide unit 60 is lowered, and the insertion / ejection roller 35 is lowered. The control of the operation of holding the CD 24 in the insertion / ejection mechanism 34 and retracting the turntable 38 downward from the conveyance path to the CD 24 is shown. FIG. 45 shows the control of the operation of driving the insertion / ejection roller 35 to eject the CD 24 to the outside. The control from FIG. 42 to FIG. 45 described above corresponds to the procedure from (1) to (6) in FIG.
[0086]
FIG. 46 shows the control of the operation for taking in the CD 24 inserted through the insertion / ejection port 33 by the insertion / ejection roller 35. FIG. 47 shows operation control for positioning the CD 24 with respect to the standby position by driving the insertion / ejection roller 35 in the reverse direction. FIG. 48 shows the control of the operation of raising the PU unit 25 with respect to the positioned CD 24 and mounting the CD 24 on the turntable 38. FIG. 49 shows the control of the operation in which the CD 24 clamped on the turntable 38 by the chucking mechanism 40 moves the PU unit 25 and transports it to the space in the stocker 23. The operations shown in FIGS. 5 (1) to (7) can be performed by the control shown in FIGS. 47 to 49 described above.
[0087]
FIG. 50 shows the control of the operation of locking the slide base 30 by the lock mechanism 31 and raising the turntable 38 of the PU unit 25.
[0088]
In the embodiment described above, the CD 24, which is a flat disk-shaped or disk-shaped recording medium, is handled in a substantially horizontal state, but a similar disk-shaped recording medium such as a DVD or LD is also handled in the same manner. be able to. Further, as the recording medium, not only a reproduction-only CD 24 or the like but also a CD-R or CD-RW that can record information can be used. Such a writable recording medium can be used as an information recording medium such as a personal computer. By applying the present invention, a playback or playback recording apparatus that accommodates a large number of recording media can be configured in a small size, even when it is built in a housing such as a personal computer or connected to the outside. Recording media can be inserted and discharged one by one.
[0089]
【The invention's effect】
As described above, according to the present invention, a storage device for a recording medium is formed such that a plurality of holders are stacked and the top layer is covered with a top plate. Each holder can individually insert a recording medium and eject it in the opposite direction. Since the holder can be divided at a position between arbitrary layers, a reproducing apparatus or the like can be entered into a space formed by the division, and reproduction can be performed by mounting a recording medium on a turntable or the like. The top plate is formed with a notch that opens in the direction of ejecting the recording medium. Therefore, even if the recording medium stored in the uppermost holder is mounted on the turntable, the turntable etc. The plate can be kept out of contact. Therefore, the thickness of the holder and the top plate can be reduced, the thickness in the stacked state can be reduced, and the size can be reduced. In addition, a large number of recording media can be stored in a casing having a certain thickness.
In addition, the top plate and the plurality of holders can be urged in the stacking direction by a spring, so that the thickness of the storage device can be minimized.
[0090]
Further, according to the present invention, since the claw covers a part of the upper surface only when the side surface is pressed by the holder, the recording medium which is not subject to reproduction and can be easily dropped is retained. can do. When the recording medium is ejected from the holder, it is in a non-contact state with the claw unless the recording medium is pressed, and can be easily ejected.
[0092]
Further, according to the present invention, since both ends of the elongated coil spring are attached to the top plate and wound so as to include the outside of the holder laminated at the intermediate portion and the bottom of the housing, the total length of the spring can be increased. Even when the holders are divided, it is possible to ensure a sufficient stroke for the springs to continue the appropriate spring biasing.
[0093]
Further, according to the present invention, when the space is formed by dividing the holder, the recording medium placed on the holder below the space is pressed against the holder by the pressing member to surely prevent dropping. it can.
[0094]
Further, according to the present invention, the pressing member presses in conjunction with the dividing means that divides the holders, so that the recording medium can be prevented from dropping at an appropriate timing when the pressing is required.
[0095]
Further, according to the present invention, since the pressing member is formed integrally with the dividing member that enters between the holders and expands the interval between the holders, a mechanism that interlocks the dividing and pressing can be simplified.
[0096]
Further, according to the present invention, the storage device can be moved up and down to select the position to be divided by the dividing mechanism, and the storage device can be divided between the selected holders. In addition, the configuration can be simplified.
[0097]
Further, according to the present invention, when the pressing means presses the recording medium to prevent dropping, it is possible to press at least a part of the side surface and the upper surface of the recording medium, so that even if vibration is applied from the outside, The recording medium can be securely held and prevented from falling off.
[0098]
In addition, according to the present invention, it is possible to reduce the weight by having a shape necessary for mounting and holding the recording medium.
[0099]
In addition, according to the present invention, it is possible to prevent the recording medium placed on the holder from shifting in the outer circumferential direction.
[0100]
Moreover, according to this invention, the position shift at the time of laminating | stacking a top plate and a holder can be prevented.
[Brief description of the drawings]
FIG. 1 is a side sectional view showing a schematic configuration of a CD playback device 21 according to an embodiment of the present invention.
2 is a schematic perspective view showing a state in which a CD 24 is inserted into the CD playback device 21 of FIG.
FIG. 3 is a simplified perspective view showing a state in which a CD 24 is played in the CD playback device 21 of FIG. 1;
4 is a simplified perspective view showing a state in which a plurality of CDs 24 are stored in the CD playback device 21 of FIG. 1. FIG.
5 is a simplified side cross-sectional view showing an operation of inserting a CD 24 in the CD playback device 21 of the embodiment of FIG. 1. FIG.
6 is a simplified side view showing a procedure for ejecting the stored CD 24 in the CD playback device 21 of FIG. 1. FIG.
7 is a simplified side view showing the operation of transporting the reproduced CD 24 to the storage position in the CD playback device 21 of FIG. 1. FIG.
8 is a simplified side view showing a procedure for reproducing a CD 24 by the CD reproducing device 21 of FIG. 1. FIG.
9 is a simplified side view showing an operation of exchanging and reproducing the CD 24 stored in the stocker 23 in the CD reproducing device 21 of FIG. 1. FIG.
10 is a perspective view of a housing 22 of the CD playback device 21 shown in FIG. 1. FIG.
11 is a perspective view of a mechanism portion showing a state where the housing 22 shown in FIG. 10 is removed. FIG.
12 is a plan view of the mechanism portion of FIG. 11. FIG.
13 is a perspective view of a slide unit 60 that moves the PU unit 25 of FIG. 1; FIG.
14 is a plan view of the slide unit 60 of FIG.
15 is a perspective view showing a configuration related to the insertion / ejection mechanism 34 and the shutter mechanism 37 of FIG. 1;
16 is a simplified perspective view showing the configuration of the gear mechanism 83, 86, 87. FIG.
FIG. 17 is a perspective view of a holder 39 constituting the stocker 23 of FIG.
FIG. 18 is a plan view of the holder 39 of FIG.
19 is a front view and a right side view of the holder 39 of FIG.
20 is a partial cross-sectional view and an end view of the holder 39 of FIG.
FIG. 21 is a perspective view of a stocker 23 formed by stacking the holders 39 of FIG.
22 is a plan view of the stocker 23 of FIG. 21. FIG.
FIG. 23 is a front view of the stocker 23 of FIG.
24 is a right side view of the stocker 23 of FIG. 21. FIG.
25 is a perspective view of the dividing slide plate 56 of FIG. 12. FIG.
26 is a side view of the dividing slide plate 56a of FIG. 25. FIG.
27 is a simplified perspective view showing a state in which the holder 39 is divided by the dividing slide plate 56 of FIG. 25. FIG.
28 is an exploded perspective view showing a configuration related to the floating mechanism 27 of FIG. 1. FIG.
29 is a simplified plan view and a partial cross-sectional view showing a configuration related to the pressing lever 140 of FIG. 28. FIG.
30 is a perspective view of a basic mechanism portion related to the chassis 50 shown in FIG. 28. FIG.
31 is a left side view showing the configuration of the elevating slide plate 54 shown in FIG.
32 is a block diagram showing a schematic electrical configuration of the CD playback device 21 of FIG. 1. FIG.
FIG. 33 is a time chart showing the operation of the control circuit 29 of FIG. 32;
34 is a time chart showing the operation of the control circuit 29 of FIG. 32. FIG.
35 is a time chart showing the operation of the control circuit 29 of FIG. 32. FIG.
36 is a time chart showing an operation of the control circuit 29 of FIG. 32. FIG.
FIG. 37 is a time chart showing the operation of the control circuit 29 of FIG. 32;
38 is a time chart showing the operation of the control circuit 29 of FIG. 32. FIG.
FIG. 39 is a time chart showing an operation of the control circuit 29 of FIG. 32;
40 is a time chart showing the operation of the control circuit 29 of FIG. 32. FIG.
41 is a time chart showing the operation of the control circuit 29 of FIG. 32. FIG.
42 is a time chart showing the operation of the control circuit 29 of FIG. 32. FIG.
43 is a time chart showing the operation of the control circuit 29 of FIG. 32. FIG.
44 is a time chart showing the operation of the control circuit 29 of FIG. 32. FIG.
45 is a time chart showing the operation of the control circuit 29 of FIG. 32. FIG.
46 is a time chart showing the operation of the control circuit 29 of FIG. 32. FIG.
47 is a time chart showing the operation of the control circuit 29 of FIG. 32;
48 is a time chart showing the operation of the control circuit 29 of FIG. 32;
49 is a time chart showing the operation of the control circuit 29 of FIG. 32;
50 is a time chart showing the operation of the control circuit 29 of FIG. 32. FIG.
FIG. 51 is a perspective view showing a schematic configuration of a prior application.
[Explanation of symbols]
21 CD player
22 body
23 Stocker
24 CD
25 PU units
26 Lifting mechanism
27 Floating mechanism
28 Splitting mechanism
29 Control circuit
30 slide base
31 Locking mechanism
32 Front panel
33 Insertion / extraction port
34 Insertion and removal mechanism
35 Insertion / ejection roller
37 Shutter mechanism
38 Turntable
39 Holder
40 Chucking mechanism
50 chassis
52 Lifting motor
53 split motor
54 Slide plate for lifting
55 Count sensor
56 Slide plate for division
57 Split origin switch
58 Lifting origin switch
59 Split position sensor
60 slide units
61 Slide plate
62 Swivel plate
63 Rotating axis
65 L-shaped guide groove
68, 69 protrusion
70 Feed motor
72 PU origin switch
73 Clamp release switch
74 Spindle motor
75 slide motor
76 Slide origin switch
77 Slide completion switch
78 Insertion / extraction standby switch
79 Slip mechanism
90a Insertion detection switch
90b Insertion switch
90c Insertion completion switch
90d Ejection completion switch
91 CD loading part
92 Protrusion prevention protrusion
93 to 96, 106 to 109 Split projection
101 Bottom plate
102,103 Lifting guide
104 Top plate
105 Notch
120 Upper cam part
121 Lower cam
122 Separation part
123 Presser part
124 racks
127 Press release cam
140 Pressing lever interlocking lever
154 Stair groove
160 Input switch

Claims (15)

Storage of a playback apparatus that can store each recording medium and has a plurality of holders that can be divided between arbitrary layers, advances the playback unit into the divided space of the holders, and holds the central hole of the recording medium for playback A device,
A top plate that is arranged so as to cover the uppermost holder, has a bilaterally symmetric shape, and has a notch that avoids the reproduction unit;
A storage device for a recording medium, comprising: a spring for bundling the top plate and the plurality of holders in a stacking direction. Storage of a playback apparatus that can store each recording medium and has a plurality of holders that can be divided between arbitrary layers, advances the playback unit into the divided space of the holders, and holds the central hole of the recording medium for playback A device,
A top plate that is arranged so as to cover the uppermost holder and has a notch that avoids the reproduction unit;
A spring for bundling the top plate and the plurality of holders in the stacking direction;
The storage device for a recording medium, wherein the spring is provided at a symmetrical position facing the top plate. Storage of a playback apparatus that can store each recording medium and has a plurality of holders that can be divided between arbitrary layers, advances the playback unit into the divided space of the holders, and holds the central hole of the recording medium for playback A device,
A top plate that is arranged so as to cover the uppermost holder and has a notch that avoids the reproduction unit;
A spring for bundling the top plate and the plurality of holders in the stacking direction;
The recording medium storing apparatus according to claim 1, wherein the spring is a continuous spring having both ends attached to the top plate. Storage of a playback apparatus that can store each recording medium and has a plurality of holders that can be divided between arbitrary layers, advances the playback unit into the divided space of the holders, and holds the central hole of the recording medium for playback A device,
A top plate that is arranged so as to cover the uppermost holder and has a notch that avoids the reproduction unit;
A spring for bundling the top plate and the plurality of holders in the stacking direction;
An apparatus for storing a recording medium, wherein the spring is provided on an inner side than a dividing means by a dividing protrusion of the holder. Storage of a playback apparatus that can store each recording medium and has a plurality of holders that can be divided between arbitrary layers, advances the playback unit into the divided space of the holders, and holds the central hole of the recording medium for playback A device,
A top plate that is arranged so as to cover the uppermost holder and has a notch that avoids the reproduction unit;
A spring for bundling the top plate and the plurality of holders in the stacking direction;
An apparatus for storing a recording medium, wherein the top plate and the plurality of holders have holes for guiding the up-and-down movement. The holder has a claw that covers a part of the upper surface of the recording medium and prevents falling off only when the side surface of the recording medium is pressed against the holder on at least a part of the wall surface holding the recording medium. The storage device for a recording medium according to any one of claims 1 to 5. The spring is an elongated coil spring, and both ends of the spring are attached to the top plate, and an intermediate portion of the spring is wound so as to include the outside of the stacked holder and the bottom of the casing. The storage apparatus for a recording medium according to any one of claims 1 to 6. The recording medium storage device according to claim 1, further comprising: a pressing member that presses at least a recording medium below the divided space against the holder when the holder is divided between layers. 9. The recording medium storage device according to claim 8, wherein the pressing member performs pressing in conjunction with a dividing unit that divides the layers of the holder. The dividing means includes a dividing member that advances between the holders to expand the interval,
The recording medium storage device according to claim 9, wherein the pressing member is formed integrally with the dividing member. The pressing member is installed to press a predetermined recording medium in the housing,
The recording medium according to any one of claims 8 to 10, wherein the stacking holder and the top plate are displaced in the stacking direction, and a storage position of the recording medium to be pressed can be selected. Storage device. The recording medium according to claim 8, wherein the pressing member is capable of pressing a side surface of the recording medium and has a shape that covers at least a part of the upper surface of the recording medium when pressed. Storage device. The recording medium storage device according to any one of claims 1 to 12, wherein the holder has a wall surface that opens in one direction and stores the storage medium to be stored in a range exceeding a half circumference. 14. The recording medium storage device according to claim 13, wherein the holder is provided with a protrusion along an outer peripheral portion in a state where the recording medium is placed. The holder has a protrusion on one surface in the stacking direction outside the recording medium loading range, and a recess on the other surface into which the protrusion of the holder stacked on the other side is fitted when the holder is stacked. The recording medium storage device according to claim 1, wherein the top plate has a recess or a protrusion that fits into the protrusion or the recess of the uppermost holder when stacked.

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