JP4089196B2 - Disc cartridge and disc recording medium device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a disk cartridge for storing a disk-shaped recording medium such as an optical disk, a magneto-optical disk, or a magnetic disk in a disk storage chamber of a cartridge housing, and the disk-shaped recording medium is rotatably stored in advance in the disk storage chamber. In particular, a disc cartridge in which an opening provided in a cartridge housing is opened and closed by a pair of shutter members. as well as The present invention relates to a disk recording medium device.
[0002]
[Prior art]
Conventionally, as a disk recording medium device in which a disk-shaped recording medium capable of recording and / or reproducing information such as audio, video, or computer data is rotatably stored in a cartridge housing, for example, FIG. The thing of the structure as shown is known. The disk recording medium device 1 shows an example of an information recording medium including a write-once magneto-optical disk 4 on which information such as computer data can be recorded (written) later by a user.
[0003]
The disk recording medium device 1 includes a cartridge housing 2 constituted by a pair of upper shell 2a and lower shell 2b, a magneto-optical disk 4 rotatably accommodated in a disk storage chamber 3 of the cartridge housing 2, and the like. It has. Upper and lower openings 5 extending from the center toward one side are provided on both upper and lower surfaces of the cartridge housing 2. The opening 5 can be opened and closed by a shutter member 6 slidable along one side thereof. Reference numeral 6a denotes a pressing member for preventing the distal end portion of the shutter member 6 from coming off.
[0004]
Further, a center hub 7 formed in a disc shape with a metal is provided at the center of the magneto-optical disk 4. The center hub 7 is disposed at a position corresponding to the inner end portion of the opening 5, that is, at a substantially central portion of the cartridge housing 2. The center hub 7 is mounted with a turntable provided in the disk drive device, fixed by chucking with the turntable, and the magneto-optical disk 4 is rotationally driven at a predetermined speed (for example, a constant linear speed). At this time, information signals are recorded on or reproduced from the magneto-optical disk 4 by the action of the magneto-optical pickup device in which the head portion is inserted into the opening 5.
[0005]
[Problems to be solved by the invention]
However, in the conventional disk recording medium device 1 having such a configuration, the shutter member 6 that opens and closes the opening 5 is formed to have a U-shaped cross section. And the opening 5 is opened and closed by sliding the shutter member 6 along the one side. For this reason, a large gap is formed between the cartridge housing 2 and the shutter member 6, and there is a problem that it is not possible to prevent the entry of minute dust or dust.
[0006]
In recent years, with the trend of increasing the capacity and recording density of optical discs, the pitch of recording patterns and the increase of linear density are progressing. Optical discs or magneto-optical discs may block reading or writing light beams due to intrusion of dust, dust, or the like on the recording surface, or normal information reading / writing may not be possible due to damage to the information recording surface. . Therefore, in the conventional disc cartridge, as shown in FIG. 27, a shutter member 6 having a substantially U-shaped cross section is slidably mounted on one side of the cartridge housing 2 and moved along the one side. The opening 5 is opened and closed to protect the information recording surface of the optical disk or the like.
[0007]
However, due to the further increase in capacity and recording density, the influence on reading and writing of data has increased even with minute dust and dust that had little influence in the past. The shutter member made could not prevent the entry of fine dust or dust. In this case, if minute dust or dust that has entered the cartridge housing 2 adheres to the information recording surface of the magneto-optical disk 4, the information recording surface is damaged by the dust or the laser beam is affected. There was a problem that normal information could not be read and written.
[0008]
Further, in the conventional disk recording medium device 1 described above, since the shutter member 6 is easily touched by the user's hand, the user may accidentally slide the shutter member 6 to open the opening 5. was there. In addition, since the shutter member 6 moves linearly along one side of the cartridge housing 2, there is a problem that the surface area of the cartridge housing 2 cannot be reduced.
[0009]
The present invention has been made in view of such conventional problems, and supports at least one of the upper shell and the lower shell to support the middle shell in a rotatable manner, and a pair of shutter members based on the rotation of the middle shell. By opening and closing the shutter, the opening and closing operation of the pair of shutter members can be performed smoothly and reliably, and the gap between the pair of shutter members and the cartridge housing is made as small as possible to provide a large opening. An object of the present invention is to solve the above-described conventional problems by improving the dustproofness and airtightness of the above.
[0010]
[Means for Solving the Problems]
In order to solve the above-described problems and achieve the above object, the disk cartridge of the present application is configured such that the upper shell, the middle shell, and the lower shell are overlapped to overlap each other between the upper shell and the middle shell or between the middle shell and the lower shell. A disk storage chamber is formed therebetween, and the middle shell is rotatably supported by at least one of the upper shell and the lower shell, and the upper shell Or A cartridge housing having a first opening formed in the lower shell and a second opening formed in the middle shell, and the cartridge housing provided with the first opening or the first opening An open position and a closed position, each having a joint that joins each other in a closed position that closes the second opening, and opening the first opening or the first opening and the second opening according to the rotation of the middle shell. A pair of shutter members movable between the pair of shutter members, and the pair of shutter members maintain their joints in parallel with each other according to the rotation of the middle shell. In parallel By moving, the first opening or the first opening and the second opening are opened and closed.
[0011]
In the disk recording medium device of the present application, a disk storage chamber is formed between the upper shell and the middle shell or between the middle shell and the lower shell by overlapping the upper shell, the middle shell, and the lower shell. The upper shell is rotatably supported by at least one of the shells. Or A cartridge housing having a first opening formed in the lower shell and a second opening formed in the middle shell, a disk-shaped recording medium rotatably accommodated in the disk housing chamber, and a cartridge housing A first opening or a joint that joins the first opening and the second opening in a closed position that closes the first opening, respectively, and the first opening or the first according to the rotation of the middle shell. A pair of shutter members movable between an open position and a closed position for opening the opening and the second opening, and the pair of shutter members are connected to each other in accordance with the rotation of the middle shell. While maintaining the parallel state In parallel By moving, the first opening or the first opening and the second opening are opened and closed.
[0012]
Furthermore, the disc recording medium device of the present application includes a disc-shaped recording medium, an upper shell and a lower shell with which the peripheral walls abut each other, and the disc-shaped recording medium is rotatably accommodated therein, and at least A cartridge housing in which a part of the peripheral wall of the lower shell is opened and a first opening is formed so that a part of the information recording surface of the disc-shaped recording medium faces outward from the open end to the inner and outer circumferences; The upper shell is supported so as to be movable by being engaged with a guide groove formed between the outer peripheral wall and the inner peripheral wall of the upper shell, while leaving a connecting portion engaged with the guide groove. A middle shell in which a second opening corresponding to the first opening of the cartridge housing is formed, a position where the middle shell moves to close the first opening of the cartridge housing, and the first opening Between the position to open the part And a pair of shutter members moving, the connecting portion of the middle shell is characterized in that it is set to a height that does not protrude into the lower shell side to the information recording surface of the disc-shaped recording medium.
[0014]
With the configuration described above, the disc cartridge of the present application includes a disc housing chamber and a cartridge housing having an opening, and a pair of shutter members that open and close the opening, and a pair of members according to the rotation of the middle shell. The shutter member is kept in a state where the respective joints are parallel to each other. In parallel By adopting the structure of moving, the pair of shutter members can be smoothly and reliably translated in accordance with the rotation of the middle shell. Therefore, the gap between the joints of the pair of shutter members and the gap between the pair of shutter members and the cartridge housing can be made small to make it difficult for minute dust, dust, etc. to enter the disk storage chamber. Can be increased. Further, the disk cartridge is thin and excellent in space efficiency, and the entire disk cartridge can be reduced in size and thickness.
[0015]
The disc recording medium device of the present application includes a cartridge housing having a disc storage chamber and an opening, a disc-shaped recording medium, and a pair of shutter members that open and close the opening, and a pair of shutter members according to the rotation of the middle shell While keeping the joints parallel to each other In parallel By adopting the structure of moving, the pair of shutter members can be smoothly and reliably translated in accordance with the rotation of the middle shell. Therefore, the gap between the joints of the pair of shutter members and the gap between the pair of shutter members and the cartridge housing can be made small to make it difficult for minute dust, dust, etc. to enter the disk storage chamber. Can be increased. Further, the disk recording medium device as a whole can be reduced in size and thickness by being thin and excellent in space efficiency.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the accompanying drawings. 1 to 26 show an embodiment of a disk cartridge, a disk recording medium apparatus, and a disk recording and / or reproducing apparatus according to the present invention.
[0018]
Here, in the present application, the “disc cartridge” is a pair of shutter members (normally two, but may be a combination of three or more) as main constituent members, an upper shell and a lower shell and a middle shell. And consisting only of a housing before storing a disk-shaped recording medium. Further, the “disc recording medium device” refers to a device in which a disk-shaped recording medium is stored in a disk storage chamber of a cartridge housing, and includes a combination of a disk cartridge and a disk-shaped recording medium. Further, the “disc recording and / or reproducing device” is a combination of a disc recording medium device and a disc drive device, and performs either recording or reproduction of information signals on the disk-shaped recording medium, or both recording and reproduction. Let's say a device that can be done.
[0019]
FIG. 1 is an exploded perspective view of a first embodiment of the disk recording medium device viewed from the lower shell side, FIG. 2 is a perspective view of the shutter closed state, similarly viewed from the lower shell side, and FIG. 4 is a bottom view of the upper shell, FIG. 5 is a bottom view of the middle shell, FIG. 6 is a plan view of the lower shell, FIG. 7 is a perspective view of the middle shell and a pair of shutter members in an open state, and FIG. 7 is a perspective view of the pair of shutter members in the closed state, FIG. 9 is a perspective view of the lower shell and the pair of shutter members in the open state, FIG. 10 is a perspective view of the pair of shutter members in FIG. 9 in the closed state, and FIG. 10 is a plan view of the pair of shutter members in a closed state, and FIG. 12 is an explanatory view showing a cross section of the central portion of the disk recording medium device.
[0020]
FIGS. 13 to 19 are explanatory views showing the relationship between the rotation amount of the middle shell of the disk recording medium device and the open / closed state of the pair of shutter members, respectively. FIGS. FIG. 21A and FIG. 21B are explanatory views showing the contact / release state of the shutter member based on the lifting / lowering operation by the rotation of the middle shell.
[0021]
FIG. 22 is an exploded perspective view of the second embodiment of the disk recording medium device as seen from the lower shell side, FIG. 23 is a perspective view of the shutter in the closed state as seen from the lower shell side, and FIG. 24 is the disk recording medium of the present invention. FIG. 25 is a perspective view showing a state before the disk recording medium device is inserted into the disk drive device, and FIG. 26 is also a diagram of the disk drive device. It is a perspective view which shows the state in insertion of the disk recording medium apparatus.
[0022]
A disc recording medium apparatus 10 shown as the first embodiment is a reproduction-only type in which various information signals such as a music signal as audio information, a video signal as video information, and a music signal are recorded in advance as a disc-shaped recording medium. Or a recordable optical disc 11 in which information signals such as audio information and video information can be recorded only once (recordable type) or can be repeatedly recorded (rewritable type). . However, the disk-shaped recording medium is not limited to this, and is similarly formed as a magnetic disk in which a magnetic thin film layer is formed on the surface of a thin disk and information is stored according to the magnetization state at a specific position. A magneto-optical disk or other storage medium in which information is written or read using an optical head and a magnetic head on the magnetic thin film layer can be applied.
[0023]
As shown in FIG. 1 to FIG. One set of three A cartridge housing 12 formed by overlapping the upper shell 13, the middle shell 14, and the lower shell 15, and an optical disk 11 that is rotatably housed in a disk housing chamber 16 formed in the cartridge housing 12. A pair of shutter members 18a and 18b for opening and closing openings 25 and 42 formed in the middle shell 14 and the lower shell 15 are provided. In the disk cartridge 10, when the optical disk 11 is used in a horizontal state, the upper shell 13 is usually arranged on the upper side. However, in FIG. It is written with the shell 13 facing down.
[0024]
As shown in FIGS. 1 and 4, the upper shell 13 is made of a thin dish-shaped member having a substantially quadrangular shape whose front side has an arc shape. At the center of the lower surface of the upper shell 13 (the surface appearing as the surface in FIG. 1), there is provided a circular upper recessed portion 19a into which a substantially upper half in the thickness direction of the middle shell 14 is rotatably fitted. It has been. By providing the upper recessed portion 19a, a front edge portion 13a, left and right side edge portions 13b and 13c, and a rear edge portion 13d are provided on the outer peripheral edge of the upper shell 13. Positioning recesses 21a and 21b for alignment with the lower shell 15 are provided at substantially the center of the front edge portion 13a and the rear edge portion 13d of the upper shell 13.
[0025]
Further, on the outer peripheral edge of the upper recessed portion 19a of the upper shell 13, arc-shaped cam grooves 22 that are continuous at a predetermined length in the circumferential direction are provided at three equal intervals. By providing the cam grooves 22 at three locations, lift-up portions 23 (parts hatched in a lattice pattern in FIG. 4) having a predetermined length are provided at three locations between the adjacent cam grooves 22 and 22. Cam portions 46 provided on the inner shell 14 are slidably fitted into the three cam grooves 22.
[0026]
The lower shell 15 is overlapped on the lower surface of the upper shell 13. As shown in FIGS. 1 and 6, the lower shell 15 has an appearance that is substantially the same as that of the upper shell 13, and is formed of a thin dish-like member having a substantially quadrilateral shape with a circular arc shape on the front side. At the center of the plane of the lower shell 15 (the surface hidden as the back surface in FIG. 1), there is a circular lower recessed portion 19b into which the substantially lower half of the thickness direction of the middle shell 14 is rotatably fitted. Is provided. By providing the lower concave portion 19b, a front edge portion 15a, left and right side edge portions 15b and 15c, and a rear edge portion 15d are provided on the outer peripheral edge of the lower shell 15. Positioning convex portions 24 a and 24 b for positioning with the upper shell 13 are provided at substantially the center of the front edge portion 15 a and the rear edge portion 15 d of the lower shell 15.
[0027]
By engaging the convex portions 24a and 24b of the lower shell 15 with the concave portions 21a and 21b of the upper shell 13, the upper and lower shells 13 and 15 are aligned with each other and overlapped in a predetermined state. The middle shell 14 is rotatably accommodated in a circular space formed by the upper and lower recessed portions 19a and 19b formed in the upper and lower shells 13 and 15. A central opening of the lower shell 15 is provided with a first opening 25 extending in the front-rear direction. The first opening 25 is for allowing the turntable of the disk rotation driving mechanism and the optical head of the optical pickup device to face the optical disk 11, and is set to a size such that these can freely enter and exit.
[0028]
That is, the first opening 25 of the lower shell 15 includes a table opening 25a set at a central portion where the turntable is inserted and removed, and a head opening extending on both sides in the front-rear direction of the table opening 25a. And an opening 25b. The shape of the first opening 25 has been conceived, for example, so that a total of two optical heads can be put in and out simultaneously on both sides of the table opening 25a in the head opening 25b. It is. Shield portions 26a and 26b for closing gaps between shutter members 18a and 18b, which will be described later, are provided on the inner surfaces of both ends in the front-rear direction of the head opening portion 25b. Furthermore, a pair of operation convex portions 27a and 27b are provided in the lower concave portion 19b so as to be symmetrical about the table opening 25a.
[0029]
The middle shell 14 is accommodated in upper and lower recessed portions 19a and 19b formed by the upper shell 13 and the lower shell 15 having such a configuration, and the middle shell 14 and the upper shell 13 form a circular space portion. A disk storage chamber 16 is formed. The optical disk 11 is stored in the disk storage chamber 16 with a predetermined gap in the radial direction outer side and the thickness direction. The optical disk 11 is formed of a thin disc-shaped recording member having a center hole 11a provided at the center.
[0030]
A center hub 28 is fixed to one surface of the central portion of the optical disc 11 by a fixing means such as an adhesive so as to cover the center hole 11a. The center hub 28 is formed of a magnetic material such as stainless steel or an iron plate that is attracted by a magnet. The center hub 28 is fitted with a turntable of a disk rotation driving device built in the disk drive device through a center hole 11a. The center hub 28 is attracted by the magnetic force of the magnet provided on the turntable. As a result, the optical disk 11 is chucked on the turntable and integrated in the rotation direction, and is rotated at a predetermined speed (for example, constant linear speed) by driving a spindle motor to which the turntable is attached.
[0031]
On one surface of the optical disk 11, there are an information recording area 29a capable of recording information and an unrecorded area 29b, 29c where information recording is impossible, which are opposed to an optical head of an optical pickup device built in the disk drive apparatus. Is provided. The non-recording areas 29b and 29c are an inner non-recording area 29b provided with a predetermined width on the outer side of the center hub 28 inside the optical disc 11, and an outer non-recording area 29c provided with a predetermined width on the outer peripheral edge of the optical disc 11. Consists of. An information recording area 29a is provided between the inner and outer non-recording areas 29b and 29c. As a material for the substrate of the optical disk 11, for example, synthetic resin such as polycarbonate (PC) or polyolefin is suitable, but it goes without saying that other synthetic resins can be used as well as information other than synthetic resins. Various materials such as a glass material and an aluminum alloy used as a recording medium can be used.
[0032]
Further, an opening window 30 for exposing a part of the outer peripheral surface of the middle shell 14 is provided at a substantially central portion of one side edge portion 13b, 15b of the upper and lower shells 13, 15. The opening window 30 is formed by an upper notch 30 a provided at the joint of the upper shell 13 and a lower notch 30 b provided at the joint of the lower shell 15. Furthermore, a guide groove 31 extending in the front-rear direction along the joint surface is provided on one side edge 13b, 15b of the upper and lower shells 13, 15. The guide groove 31 is provided for the purpose of preventing erroneous insertion when the disk cartridge 10 is mounted in the disk drive device. An opening window 30 communicates with the guide groove 31.
[0033]
Furthermore, the lock | rock storage part 33 in which the lock member 32 is rotatably accommodated in the front corner part of one side edge part 13b, 15b of the upper and lower shells 13 and 15 is provided. The lock storage portion 33 communicates with the recessed portions 19a and 19b and also communicates with the guide groove 31 through an opening hole 34 provided in one side edge portion 13b and 15b. Further, a support shaft 35 that rotatably supports the lock member 32 is provided in the lock storage portion 33 of the upper shell 13 so as to protrude toward the lower shell 15 side.
[0034]
As shown in FIGS. 1 and 13 and the like, the lock member 32 is formed of a lever-like member that is rotatably fitted to the support shaft 35 and can swing in the plane direction. A stopper portion 36 having a plurality of teeth is provided at one end in the longitudinal direction of the lock member 32, and an input portion 37 is provided at the other end in the longitudinal direction. Further, the locking member 32 is integrally provided with a spring piece 38 protruding in the same direction so as to face the stopper portion 36.
[0035]
The lock member 32 having such a configuration is fitted to the support shaft 35 with the stopper portion 36 facing the recessed portions 19a and 19b, and the spring piece 38 is brought into contact with the inner surfaces of the front edge portions 13a and 15a. The Due to the spring force of the spring piece 38, the stopper portion 36 is biased toward the recessed portions 19a and 19b, and at the same time, the input portion 37 penetrates the opening hole 34 from the inside and protrudes into the guide groove 31.
[0036]
The middle shell 14 rotatably fitted in the upper and lower recessed portions 19a and 19b of the upper shell 13 and the lower shell 15 has a configuration as shown in FIGS. The middle shell 14 has a flat surface portion 40 made of a disk-shaped thin plate material, and a ring portion 41 provided continuously on the outer peripheral edge of the flat surface portion 40.
[0037]
The flat surface portion 40 of the middle shell 14 includes a pair of semicircular pieces 40a and 40a formed in a substantially semicircular shape, and a second opening 42 is formed by opening a gap between the chord sides of the semicircular pieces 40a and 40a. Is formed. The second opening 42 is formed in substantially the same shape and size as the first opening 25 of the lower shell 15. That is, similarly to the first opening 25, the second opening 42 is set at the center of the flat surface 40, and a table opening 42a through which the turntable is put in and out, and the diameter of the table opening 42a. There are head openings 42b and 42b which are set on both sides in the direction and are opposed to one optical head at a time.
[0038]
The radially outer ends of the head openings 42 b and 42 b are formed so as to be continuous with the ring portion 41. As a result, the ring portion 41 is formed with a connecting portion 41 a having a height that does not protrude toward the lower shell 15 side relative to the information recording surface, which is the lower surface of the optical disc 11 stored in the disc storage chamber 16. Further, a support edge portion 40b that supports the inner non-recording area 29b of the optical disc 11 from below in a free state is provided on the inner peripheral edge of the flat surface portion 40 surrounding the table opening 42a.
[0039]
Further, a gear portion 43 having a large number of teeth is provided on the outer peripheral surface of the ring portion 41 of the middle shell 14 over a predetermined range in the circumferential direction. As shown in FIG. 13, the gear portion 43 is opened when the cartridge housing 12 is assembled in a state where the second opening portion 42 of the middle shell 14 is aligned with the first opening portion 25 of the lower shell 15. The position facing the window 30 is set. The range of the gear portion 43 is set to be an angle range that is slightly larger than the rotation angle of the middle shell 14.
[0040]
That is, as shown in FIGS. 15 to 19, when the pair of shutter members 18a and 18b in which the second opening 42 is inclined to the maximum with respect to the first opening 25 are completely closed, the gears One end in the circumferential direction of the portion 43 is exposed to the opening window 30. When the pair of shutter members 18a and 18b in which the middle shell 14 rotates by a predetermined angle and the second opening 42 overlaps the first opening 25 is fully opened, the circumference of the gear portion 43 is increased. The other end of the direction is exposed to the opening window 30.
[0041]
On the outer side of one end of the gear portion 43 of the middle shell 14, a stopper portion 44 that limits the amount of rotational movement of the middle shell 14 is provided so as to protrude outward in the radial direction. Thus, since the gear part 43 and the stopper part 44 protrude outside from the outer peripheral surface of the ring part 41, contact with the stopper part 44 or the like is avoided at the corresponding parts of the upper shell 13 and the lower upper shell 15. Relief grooves 45a and 45b are provided for permitting the passage of the lead.
[0042]
Further, on one end face of the ring portion 41, arc-shaped cam portions 46 (portions represented by a number of points in FIG. 5) that are continuous at a predetermined length at three locations in the circumferential direction are provided. These cam portions 46 are respectively engaged with the three cam grooves 22 of the upper shell 13 in a state in which the middle shell 14 is assembled to the upper shell 13. By rotating the inner shell 14 by a predetermined angle, the cam portions 46 are respectively mounted on the three lift-up portions 23.
[0043]
Further, on the other end surface of the ring portion 41 of the middle shell 14, arc-shaped ridge portions 47 projecting on the opposite side to the cam portion 46 are provided at two locations. These protrusions 47 and 47 restrict the movement of the pair of shutter members 18a and 18b outward in the radial direction. In order to avoid contact with these protrusions 47, 47, as shown in FIG. 6, one shield part 26a, 26a of the upper shell 13 is provided with a relief groove 48 extending in the circumferential direction.
[0044]
Further, the flat surface portion 40 of the middle shell 14 is provided with a pair of support holes 49 and 49 for rotatably supporting the pair of shutter members 18a and 18b in the plane direction. The pair of support holes 49 and 49 are set one by one so as to be symmetric with respect to one edge of the head openings 42b and 42b with the table opening 42a as the center.
[0045]
The shutter mechanism 18 attached to the middle shell 14 through the pair of support holes 49, 49 is composed of a pair of shutter members 18a, 18b having the same shape and size. The pair of shutter members 18a and 18b has a shape and a structure as shown in FIGS. That is, the pair of shutter members 18a and 18b is formed of a thin plate having a substantially semicircular shape. A step portion 50 formed with a predetermined length in a direction orthogonal to the chord line is provided at a substantially central portion of the chord side of each shutter member 18a, 18b. Side joint portions 50a and concave side joint portions 50b are formed.
[0046]
Furthermore, the joint portions 50a and 50b of the shutter members 18a and 18b are respectively provided with flange portions 51a and 51b that project in a hook shape in a direction perpendicular to the extending direction of the strings. Thus, in the pair of shutter members 18a and 18b, the end surface of the convex side joint portion 50a and the end surface of the concave side joint portion 50b are opposed to each other, and the flange portion 51a of the convex side joint portion 50a is opposed to the concave side joint portion 50b. It overlaps with the collar part 51b, respectively. A shaft portion 52 that protrudes toward the flange portion 51 is provided on the shaft attachment portion 50c, which is the end of the shutter members 18a and 18b on the side of the convex joint 50a.
[0047]
By fitting the shaft portion 52 into the support hole 49 of the flat portion 40, the shutter members 18a and 18b are rotatably attached to the middle shell 14, respectively. At this time, the pair of shutter members 18a and 18b are attached with their chord sides facing each other. As a result, as shown in FIG. 7, when the pair of shutter members 18a and 18b are rotated so as to be separated from each other, the joint portions 50a and 50b of the shutter members 18a and 18b are parallel to each other. The shutter members 18a and 18b are placed so as to be hidden on the semicircular piece 40a.
[0048]
On the other hand, by rotating the pair of shutter members 18a and 18b inward, the joint portions 50a and 50b of the shutter members 18a and 18b are moved in parallel in the approaching direction. Then, by bringing the joint portions 50a, 50b of the pair of shutter members 18a, 18b into contact with each other, as shown in FIG. 8, the shielding portion that is substantially circular by the pair of shutter members 18a, 18b is the second. It is formed at the center of the opening 42.
[0049]
Furthermore, the joint portions 50a and 50b of the shutter members 18a and 18b are respectively provided with flange portions 51a and 51b that project in a hook shape in a direction perpendicular to the extending direction of the strings. Thus, in the pair of shutter members 18a and 18b, the end surface of the convex side joint portion 50a and the end surface of the concave side joint portion 50b are opposed to each other, and the flange portion 51a of the convex side joint portion 50a is opposed to the concave side joint portion 50b. It overlaps with the collar part 51b, respectively. The shaft attachment portion 50c, which is the end portion of the shutter side members 18a and 18b on the string side side on the convex side joining portion 50a side, has a flange portion. 51a Protruding to the side Fulcrum Each of the shaft portions 52 is provided.
[0050]
Examples of the material of the upper shell 13, the middle shell 14, the lower shell 15, and the shutter members 18a and 18b having the above-described configuration include ABS resin (acrylonitrile / butadiene / styrene resin), HIPS (high impact polystyrene), and the like. These synthetic resins are preferred. However, other synthetic resins can be applied, and aluminum alloys, stainless steel, and other metal materials can also be used.
[0051]
The above-described middle shell 14, the operation convex portions 27a and 27b, a rack bar 70 described later, and the like constitute a shutter opening / closing mechanism. The support hole 49 and the shaft portion 52 constitute a rotational coupling portion, and the operation convex portions 27a and 27b and the opening / closing groove 53 constitute a moving coupling portion. Although not shown, the disk recording medium device 10 is provided with an erroneous erasure prevention mechanism for preventing erroneous erasure of information recorded on a recording medium such as an optical disk, for example, at the rear corner of the cartridge housing 12 or the like. It can also be configured. Such an erroneous erasure prevention mechanism can be constituted by, for example, an operation window that opens on the back surface of the cartridge housing 12 and an erroneous erasure prevention piece that is mounted so that the operation window can be opened and closed.
[0052]
The disk recording medium device 10 having the above-described configuration can be easily assembled as follows, for example. As shown in FIG. 1, the assembly operation of the disk recording medium device 10 is performed with the upper shell 13 disposed below.
[0053]
First, the optical disk 11 is placed in the upper recessed portion 19 a of the upper shell 13. At this time, the optical disk 11 is inserted into the upper recessed portion 19a with the surface with the center hub 28 facing down. Next, the opening side of the middle shell 14 is fitted into the upper recessed portion 19 a so as to cover the optical disk 11. As a result, the optical disk 11 is rotatably stored in a disk storage chamber 16 formed by the middle shell 14 and the upper shell 13. At this time, the direction in which the second opening 42 of the middle shell 14 extends matches the front-rear direction of the upper shell 13, and one end of the gear portion 43 faces the opening window 30.
[0054]
Next, the shutter mechanism 18 is assembled to the middle shell 14. In this state, the chord sides of the pair of shutter members 18a and 18b are opposed to each other, and the shaft portion 52 is fitted into the support hole 49 of the flat portion 40 in this state. Then, the shutter members 18a and 18b are separated from each other so as to overlap with the semicircular pieces 40a of the middle shell 14, respectively. At the same time or before and after this, the lock member 32 is attached to the support shaft 35 of the lock storage portion 33. At this time, the spring piece 38 of the lock member 32 is brought into contact with the inner surface of the front edge portion 13 a of the upper shell 13, and the input portion 37 is projected from the opening hole 34 into the guide groove 31 by the spring force of the spring piece 38.
[0055]
Next, the lower shell 15 is put on the middle shell 14 including the shutter mechanism 18, and the lower shell 15 is overlapped with the upper shell 13. At this time, the positioning convex portions 24 a and 24 b of the lower shell 15 are fitted into the positioning concave portions 21 a and 21 b of the upper shell 13. Thereby, the lower shell 15 is automatically positioned with respect to the upper shell 13.
[0056]
At this time, by arranging the pair of shutter members 18a and 18b at the above-described positions, the pair of operation convex portions 27a and 27b provided in the lower recessed portion 19b of the lower shell 15 are replaced with the pair of opening and closing grooves 53 and 53 respectively. Therefore, without worrying about the position of the pair of opening / closing grooves 53, 53, the pair of operation convex portions 27 a, 27 b can be engaged with the pair of opening / closing grooves 53, 53 only by overlapping the lower shell 15 on the upper shell 13. be able to.
[0057]
Thereafter, the lower shell 15 is fastened and fixed to the upper shell 13 using a plurality of fixing screws. Thereby, the assembly work of the disk recording medium device 10 is completed. In this case, the joining surface of the upper shell 13 and the lower shell 15 can be directly joined by using, for example, an adhesive or the like without using a fixing means made of another member such as a fixing screw. As described above, according to the disk recording medium device 10 of the present embodiment, the number of components used is small, and the assembly work can be performed very easily.
[0058]
In this case, the joint portions 50a and 50b of the pair of shutter members 18a and 18b are provided with flange portions 51a and 51b having a thickness of about half, respectively, and these flange portions 51a and 51b are the other joint portions 50a. , 50b. Therefore, since the whole joining part 50a, 50b is piled up moderately, the labyrinth effect was produced and it could be set as the structure where dust, dust, etc. do not enter easily over the full length of joining part 50a, 50b.
[0059]
In addition, when the joint portions 50a and 50b are pressed inward, the external force applied to the joint portions 50a and 50b is received by the flange portions 51a and 51b located on the inner side. Therefore, the engagement state between the joint portions 50a and 50b can be strengthened by the flange portions 51a and 51b, the deformation of the shutter member can be prevented, and the invasion of dust, dust and the like can be more reliably prevented. Can do.
[0060]
Before the disc recording medium device 10 having the above-described configuration is mounted in the disc drive device, the state is as shown in FIG. That is, the pair of shutter members 18 a and 18 b of the shutter mechanism 18 has the first opening 25 and the middle shell 14 of the lower shell 15 due to its own weight, friction force generated between the lower shell 15 and the middle shell 14, or the like. The second opening 42 is completely closed (closed position). Further, the three cam portions 46 of the middle shell 14 jump out of the three cam grooves 22 of the upper shell 13 and ride on the lift-up portion 23. Therefore, the pair of shutter members 18a and 18b are in a state of being sandwiched from both sides by the upper shell 13 and the middle shell 14 as shown in FIG. 21A.
[0061]
Further, as shown in FIG. 13 and the like, the stopper portion 36 is engaged with the gear portion 43 of the middle shell 14 by the spring force of the spring piece 38 of the lock member 32. Therefore, the pair of shutter members 18a and 18b are in a state of being double-locked by the clamping mechanism based on the lifting and lowering operation of the cam and the lock mechanism of the lock member 32. Therefore, the closed state of the first and second openings 25 and 42 by the shutter mechanism 18 can be reliably maintained, and the shutter mechanism 18 can be reliably prevented from being accidentally opened due to vibration or the like. Can do.
[0062]
As shown in FIGS. 25 and 26, the disk recording medium device 10 in such a state is inserted into the disk drive device 60, and the shutter opening / closing mechanism provided in the disk drive device 60 causes the lock member 32 to move. The locked state is released. Thereafter, the shutter mechanism 18 is opened by the shutter opening / closing mechanism, and the first and second openings 25 and 42 are completely opened (open position). The opening / closing operation of the shutter mechanism 18 will be described in detail later.
[0063]
Next, the disk drive device 60 will be described. As shown in FIGS. 25 and 26, the disk drive device 60 includes an outer case 61 formed of a hollow casing, a recording / reproducing apparatus main body 62 housed in the outer case 61, and the like. . The exterior case 61 includes a case main body 63 that is open on the upper surface and the front surface, a case lid 64 that is detachably attached to the upper portion so as to close the upper surface of the case main body 63, and the case main body 63 and the case lid 64. A front panel 65 and the like are detachably attached to the front part so as to close the front surface.
[0064]
Legs 63 a projecting downward are provided at four locations of the case body 63. The disk drive device 60 is supported by these legs 63a and attached to appropriate positions. The front panel 65 is composed of a horizontally long plate-like member, and a horizontally long cartridge inlet / outlet 66 is provided on the front panel 65. The cartridge inlet / outlet 66 is formed to have a size approximately the same as the size of the front side of the disk recording medium device 10. The cartridge entrance 66 is normally closed by an open / close door 67 disposed inside thereof.
[0065]
The opening / closing door 67 is pressed by the front part of the disk recording medium device 10 and inserted to a predetermined position as shown in FIG. Thereby, the disk recording medium device 10 is automatically taken in by a loading mechanism (not shown). Then, the disk recording medium device 10 conveyed by the loading mechanism is positioned and fixed at a predetermined position in the disk drive device 60. At the same time or before and after this, the shutter mechanism 18 is operated by the shutter opening / closing mechanism provided in the disk drive device 60, and the first and second openings 25, 42 are completely opened (open position).
[0066]
Thereafter, the turntable 68 a of the disk rotation driving device 68 and the optical head 69 a of the optical pickup device 69 enter the opened first and second openings 25 and 42. Then, the turntable 68a engages with the center hole 11a of the optical disc 11, and the center hub 28 is attracted and held by a magnet built in the turntable 68a. Simultaneously or before and after this, the optical head 69a approaches the information recording area 29a of the optical disc 11 to a predetermined position. Thereby, the recording and reproducing operation of the information signal with respect to the optical disk 11 by the disk drive device 60 becomes possible.
[0067]
The recording / reproducing device main body 62 of the disk drive device 60 is configured to include, for example, components shown in FIG. That is, the recording / reproducing apparatus main body 62 includes three control devices, that is, a system controller S1, a memory controller S5, and a drive controller D1.
[0068]
The system controller S1 and the memory controller S5 are directly connected, and a read-only storage device (ROM) S2 and a read / write storage device (RAM) S3 are connected to the connection line. Further, the memory controller S5 is connected to the memory S4 and an encoder S6 and a decoder S7 for MPEG2 (moving image compression system applied to 3M to 40 Mbps existing TV broadcasting, HDTV, broadband ISDN, etc.). . Furthermore, a control panel S8 and a remote control receiver S9 are connected to the system controller S1.
[0069]
Further, an error correction processing circuit (ECC) D4 is connected to the drive controller D1, and a storage device (ROM) D2 and a storage device (RAM) D3, a servo circuit D6 and an address decoder D7 are connected to the connection line. It is connected. Further, a recording error determination circuit D8 for determining a recording error is connected to the drive controller D1. The drive controller D1 is connected to the system controller S1 via a command interface.
[0070]
The correction processing circuit D4 is connected to the memory controller S5 via the data interface and is also connected to the modulation / demodulation circuit D5. The modem circuit D5 is connected to the optical head 69a of the optical pickup device 69. Further, the servo circuit D6 is connected to a spindle motor 68 which is a disk rotation driving device, an optical pickup device 69, and a recording error judgment circuit D8. The optical pickup device 69 is connected to an address decoder D7, and the address decoder D7 is also connected to a recording error judgment circuit D8.
[0071]
When the disk recording medium device 10 is inserted from the cartridge inlet / outlet 66 of the disk drive device 60 having such a configuration, as shown in FIG. 13, a rack bar showing a specific example of a shutter opening / closing mechanism built in the disk drive device 60 70 (see FIG. 25) enters the guide groove 31 provided on one side surface of the disk recording medium device 10. As a result, the input portion 37 of the lock member 32 protruding into the guide groove 31 is pushed into the lock storage portion 33 by the pressing force of the rack bar 70 against the urging force of the spring piece 38. Further, when the rack bar 70 moves relatively forward, the tip of the gear portion 70 a is engaged with the gear portion 43 of the middle shell 14.
[0072]
When the gear portion 43 is engaged with the gear portion 70 a of the rack bar 70, the middle shell 14 is rotated according to the amount of movement of the rack bar 70 as shown in FIGS. 13 to 19. 13 and 14 show a state before the gear portion 70a of the rack bar 70 is engaged with the gear portion 43 of the middle shell 14. FIG. In this state, the convex-side joint portion 50a and the concave-side joint portion 50b of the pair of shutter members 18a and 18b are abutted against each other and are in close contact with each other.
[0073]
At this time, since the second opening 42 of the middle shell 14 is inclined with respect to the first opening 25 of the lower shell 15, only the central portion where both the openings 25 and 42 overlap is opened. However, the first and second openings 25 and 42 are closed by a pair of shutter members 18a and 18b. Therefore, there is no possibility that dust, dust or the like enters the disk storage chamber 16 from the overlapping portion of the first and second openings 25 and 42.
[0074]
Further, a shaft mounting portion 50c of the pair of shutter members 18a and 18b is interposed in a portion where the first opening portion 25 and the second opening portion 42 are approaching at an acute angle, and the shaft mounting portion 50c. Is located inside one shielding part 26b and eliminates the gap. Moreover, the closing piece 55 is interposed inside the other shielding part 26a, and this closing piece 55 is located inside the other shielding part 26a to eliminate the gap.
[0075]
Furthermore, the open / close grooves 53 provided in the pair of shutter members 18a and 18b are closed by the lower shell 15, respectively. Therefore, since all the gaps leading from the first opening 25 of the lower shell 15 to the second opening 42 of the middle shell 14 are completely closed by the pair of shutter members 18a and 18b, the first and first There is no possibility that dust, dust or the like enters the disk storage chamber 16 through the two opening portions 25 and 42.
[0076]
From this state, the gear portion 70a of the rack bar 70 enters the guide groove 31 corresponding to the insertion operation of the disk recording medium device 10, and the meshing between the gear portion 70a and the gear portion 43 of the middle shell 14 is started. In FIG. 13, the middle shell 14 is rotated counterclockwise. In this case, in an initial state in which the middle shell 14 starts rotating, the cam portion 46 rides on the lift-up portion 23 and is paired with the upper shell 13 as shown in FIGS. 20C and 21A. Since 18a and 18b are sandwiched, a relatively large force is required for the rotation of the middle shell 14.
[0077]
As shown in FIGS. 20B and 21B, the cam portion 46 passes through the lift-up portion 23 and moves into the cam groove 22 as shown in FIGS. When entering, the frictional force of the cam portion 46 disappears. Therefore, the subsequent rotation of the middle shell 14 can be performed extremely lightly and smoothly. At this time, the shaft portions 52 of the pair of shutter members 18a and 18b are similarly rotated by the rotation of the middle shell 14, while the opening and closing groove 53 provided on the other end side is provided with the operation convex portions 27a and 27a of the lower shell 15. 27b is slidably engaged with each other.
[0078]
The pair of operation convex portions 27a and 27b are provided on the lower shell 15, and the operation convex portions 27a and 27b do not move. On the other hand, the opening / closing groove 53 follows the rotation of the shutter members 18a and 18b, and the shaft 52 and the operation protrusion 27b (or 27a) so as to be able to move relative to the operation protrusions 27a and 27b. Is extended in a direction S connecting the two. Therefore, the operation convex portion 27b (or 27a) moves in the opening / closing groove 53 toward the shaft portion 52 in accordance with the rotation amount of the shutter members 18a and 18b. Thereby, in each shutter member 18a, 18b, the shaft part 52 moves to the corresponding operation convex part 27b (or 27a) side.
[0079]
As a result, the shutter members 18a and 18b are moved from the state shown in FIG. 15 to the corresponding semicircular pieces 40a of the middle shell 14 as shown in FIG. 19 through the states shown in FIGS. . At this time, the joint portions 50a and 50b of the two shutter members 18a and 18b move in parallel while always maintaining a parallel state. Thereby, each shutter member 18a, 18b will be in the state which overlaps with the semicircle piece 40a, and as shown in FIG. 9 etc., the 1st and 2nd opening parts 25 and 42 are completely open | released. Therefore, a part of the optical disk 11 stored in the disk storage chamber 16 is exposed by the first and second openings 25 and 42.
[0080]
As a result, as shown in FIG. 12, the turntable 68a and the optical head 69a can be inserted into the first and second openings 25 and 42. Therefore, by moving the turntable 68a or the like to the disk cartridge 10 side or moving the disk cartridge 10 to the turntable 68a side, the turntable 68a enters the central table openings 25a and 42a, and the optical head 69a enters the head openings 25b and 42b on both sides.
[0081]
As a result, the optical disk 11 is mounted and chucked on the turntable 68a, and the optical head 69a faces the information recording area 29a of the optical disk 11 with a predetermined interval. Thereby, it is possible to reproduce or record the information signal on the information recording area 29a of the optical disc 11 by the disc drive device 60.
[0082]
Therefore, the recording / reproducing apparatus main body 62 is operated, and the optical disk 11 is rotated through the turntable 68 a by driving the spindle motor 68. At the same time or before and after this, laser light is emitted from the optical head 69a by driving the optical pickup device 69, whereby an information signal recorded in advance in the information recording area 29a is read, or the information recording area 29a is read. New information signals can be written. As a result, the information signal is reproduced or recorded by the recording / reproducing apparatus main body 62.
[0083]
After the information signal is reproduced or recorded as described above, for example, by operating a cartridge ejection button (not shown) provided in the disk drive device 60, the disk recording medium device 10 is operated through the operation of the loading mechanism. Are ejected from the disk drive device 60. That is, when the disc recording medium device 10 moves toward the cartridge inlet / outlet 66 side by the discharging operation of the loading mechanism, the rack bar 70 is relatively moved backward.
[0084]
By the backward movement of the rack bar 70, the middle shell 14 and the pair of shutter members 18a and 18b perform the reverse operation of the above-described insertion. That is, from the state in which the pair of shutter members 18a and 18b shown in FIG. 19 is completely opened (open position), the middle shell 14 and the pair of shutter members 18a and 18b are rotated clockwise, and FIGS. After the state of FIG. 16, the state changes to the state of FIG. In the state of FIGS. 19 to 15, since the cam portion 46 of the middle shell 14 is in the cam groove 22, the middle shell 14 can be rotated with a light force F.
[0085]
Next, when the middle shell 14 changes from the state of FIG. 15 to the state of FIG. 13 (closed position), the cam portion 46 rides on the lift-up portion 23 and then rides on the lift-up portion 23. Thereafter, the frictional force described above is applied to the rotation of the middle shell 14. And just before reaching the closed state of FIG. 13, the operation convex part 27b (or 27a) moves the opening-and-closing groove | channel 53 to the outermost part, contacts the elastic piece 54, and presses this. Thereby, the spring force X is generated in the elastic piece 54 by the pressing force of the operation convex portion 27b (or 27a). Due to the spring force X of the elastic piece 54, a pressing force Y acting on the other shutter member 18a (or 18b) is generated in the central step 50.
[0086]
Since the pressure contact force Y is generated in both the pair of shutter members 18a and 18b, the sealing performance of the pair of shutter members 18a and 18b is further enhanced by the mutual pressure contact force Y. Accordingly, it is possible to improve dust resistance at the joint between the pair of shutter members 18a and 18b, and to more effectively prevent dust and dust from entering the disk storage chamber 16.
[0087]
Thereafter, after the gear portion 70a of the rack bar 70 is disengaged from the gear portion 43, the rack rod 70 passes through the opening hole 34, whereby the input portion 37 of the lock member 32 projects into the guide groove 31 from the opening hole 34. Is done. At the same time, the stopper portion 36 moves inward and meshes with the gear portion 43. As a result, the middle shell 14 is locked by the lock member 32, and its rotation is stopped. As shown in FIGS. 10 and 11, the entire first and second openings 25 and 42 are completely closed by the pair of shutter members 18a and 18b (closed position).
[0088]
In this case, the pair of shutter members 18a and 18b rotated by the rotation of the middle shell 14 rotate on the plane portion 40 according to the rotation of the middle shell 14, but the joint portions 50a and 50b are parallel to each other. Move in parallel while maintaining the state. And since each junction part 50a, 50b is joined from the front which mutually opposes, a pair of shutter member 18a, 18b can be closed uniformly and reliably. As a result, the dustproof effect by the pair of shutter members 18a and 18b in the first and second openings 25 and 42 of the cartridge housing 12 can be enhanced, and a disk cartridge or the like having excellent dustproofness can be obtained.
[0089]
In addition, according to this embodiment, since the first and second openings 25 and 42 are configured to continue in the diametrical direction through the central part such as the middle shell, the two head parts are placed in the openings. A disc that is capable of performing two operations at the same time (for example, writing and reading information signals, writing or reading two locations at the same time), and can perform a plurality of functions at the same time. A cartridge, a disk recording medium device, and a disk recording and / or reproducing device can be provided.
[0090]
In the above-described embodiment, the example in which the first and second openings 25 and 42 are opened and closed by rotating the pair of shutter members 18a and 18b to move the joints in parallel with each other has been described. However, the movement of the pair of shutter members 18a and 18b is not limited to this. For example, the first and second openings 25 and 42 are moved by moving the pair of shutter members 18a and 18b in parallel from the beginning. It can also be configured to open and close.
[0091]
In the above-described embodiment, among the first and second openings 25 and 42 provided in the middle shell 14 and the lower shell 15, the head openings 25b and 42b corresponding to two optical heads are used as the table openings. An example in which the portions 25a and 42a are arranged so as to face each other across a straight line has been described. . Furthermore, a so-called disc caddy is constructed in which a part of the upper shell 13 is provided with an opening / closing lid so that the optical disc 11 in the disc storage chamber 16 is detachable from the cartridge housing 12. Also good.
[0092]
22 and 23 show a second embodiment of the disk recording medium device. The disk recording medium device 80 shown in this embodiment is of a one-head type in which an optical head is used for one disk drive device. As apparent from FIG. 22, the disk recording medium device 80 is different from the disk recording medium device 10 shown in FIG. Therefore, the same parts as those in FIG. 1 are denoted by the same reference numerals and the description thereof is omitted, and the opening 86 of the lower shell 85 having a different configuration will be described.
[0093]
The first opening 86 of the lower shell 85 is obtained by eliminating one head opening 25b from the first opening 25 of the lower shell 15, and the other shapes and configurations are the same. . By using the lower shell 85 for one head in place of the lower shell 15 for two heads, the disk recording medium device 80 for one head can be easily manufactured, and for one head and two heads. It can be easily handled. Moreover, according to this embodiment, it is possible to share the production and assembly line, and it is possible to appropriately respond to the needs of the consumers.
[0094]
As described above, the present invention is not limited to the above-described embodiment. For example, in the above-described embodiment, an example in which an optical disk is used as an information recording medium has been described. The present invention can be applied to various magnetic disks and other various disk-shaped recording media. Further, in the above-described embodiment, the example in which the recording and / or reproducing apparatus is applied to a recording / reproducing disk recording / reproducing apparatus has been described. However, the present invention can be applied to a disk recording apparatus or a disk reproducing apparatus capable of only recording or reproducing. Of course.
[0095]
In the above-described embodiment, an example in which the second opening 42 is provided in the middle shell 14 of the cartridge housing 12 and the first opening 25 is provided in the lower shell 15 has been described. . Further, a disk storage chamber may be formed by the middle shell and the lower shell, a disk-shaped recording medium may be stored in the disk storage chamber, and an opening may be provided in the upper shell.
[0096]
Furthermore, in the above-described embodiment, when opening and closing the shutter, the first and second openings 25 and 42 are opened and closed by moving the disk recording medium device 10 while fixing the shutter opening and closing means (rack bar). However, the present invention is not limited to this, and any configuration may be used as long as the shutter opening / closing means and the disk cartridge are relatively moved to rotate the pair of shutter members 18a and 18b. For example, after the disk recording medium device is fixed to the disk mounting portion, the shutter opening / closing means may be moved by a motor or the like to perform the opening / closing operation. As described above, the present invention can be variously modified without departing from the spirit of the present invention.
[0097]
【The invention's effect】
As described above, according to the disk cartridge of the present application, the cartridge housing having the disk storage chamber and the opening, and the pair of shutter members that open and close the opening, the pair of shutters according to the rotation of the middle shell. Since the members are moved while maintaining their joints in parallel with each other, the pair of shutter members are moved in parallel according to the rotation of the middle shell, and the openings are smoothly and reliably moved by the pair of shutter members. Can be opened and closed. Therefore, the gap between the joints of the pair of shutter members and the gap between the pair of shutter members and the cartridge housing can be made small to make it difficult for minute dust, dust, etc. to enter the disk storage chamber. In addition, the thickness can be reduced, the space efficiency is excellent, and the entire disk cartridge can be reduced in size and thickness.
[0098]
According to the disk recording medium device of the present application, the disk housing chamber and the cartridge housing having the opening, the disk-shaped recording medium, and the pair of shutter members for opening and closing the opening, the pair of the pair according to the rotation of the middle shell. Since the shutter members are configured to move while the respective joint portions are maintained in parallel with each other, the pair of shutter members are moved in parallel according to the rotation of the middle shell, and the openings are smoothed by the pair of shutter members. Opening / closing operation can be surely performed. Therefore, the gap between the joints of the pair of shutter members and the gap between the pair of shutter members and the cartridge housing can be made small to make it difficult for minute dust, dust, etc. to enter the disk storage chamber. In addition, the thickness can be reduced, the space efficiency is excellent, and the entire disk recording medium device can be reduced in size and thickness.
[Brief description of the drawings]
FIG. 1 is a disassembled perspective view showing a first embodiment of a disk recording medium device of the present invention, as viewed from the lower surface side.
FIG. 2 is a perspective view showing a state in which the disk recording medium device shown in FIG. 1 is viewed from the lower surface side and the shutter mechanism is closed and the opening is closed.
3 is a perspective view of the disk recording medium device shown in FIG. 1 as viewed from the lower surface side, showing a state in which a shutter mechanism is opened and an opening is opened. FIG.
4 is a plan view showing a lower surface of an upper shell of the disk recording medium device shown in FIG. 1. FIG.
5 is a plan view showing the lower surface of the middle shell of the disk recording medium device shown in FIG. 1. FIG.
6 is a plan view showing an upper surface of a lower shell of the disk recording medium device shown in FIG. 1. FIG.
7 is a perspective view showing a state in which a pair of shutter members attached to the middle shell of the disk recording medium device shown in FIG. 1 are opened and an opening is opened. FIG.
8 is a perspective view showing a state in which a pair of shutter members attached to the middle shell of the disk recording medium device shown in FIG. 1 are closed and an opening portion is closed. FIG.
9 is a perspective view showing a state in which a shutter mechanism is arranged in the lower shell of the disk recording medium device shown in FIG. 1, and a pair of shutter members are opened to open an opening. FIG.
10 is a perspective view showing a state in which a shutter mechanism is arranged on the lower shell of the disk recording medium device shown in FIG. 1, and a pair of shutter members are closed and an opening is closed. FIG.
FIG. 11 is a plan view of the same viewed from above.
FIG. 12 is an explanatory diagram showing a relationship with a turntable, in which a central portion of the disk recording medium device shown in FIG.
13 is an explanatory diagram showing an operational relationship between a cartridge housing and a shutter mechanism of the disk recording medium device shown in FIG. 1, and showing a state where a pair of shutter members are closed and an opening is completely closed.
14 is a plan view showing an external appearance of FIG. 13 viewed from the lower shell side. FIG.
15 is an explanatory view showing a state in which the middle shell is slightly rotated from the state of FIG. 13 and a pair of shutter members are slightly opened.
16 is an explanatory view showing a state in which the pair of shutter members are opened by further rotating the middle shell from the state of FIG.
17 is an explanatory view showing a state in which the middle shell is further rotated from the state of FIG. 16 and the pair of shutter members are further opened.
18 is an explanatory view showing a state in which the middle shell is further rotated from the state of FIG. 17 and the pair of shutter members are further opened. FIG.
19 is an explanatory view showing a state in which the middle shell is further rotated from the state of FIG. 18 and the pair of shutter members are completely opened.
FIGS. 20A and 20B are diagrams for explaining the raising and lowering operation of the middle shell relative to the upper shell when the disk cartridge shown in FIG. 1 is opened and closed. FIG. 20A is an exploded perspective view, FIG. It is a perspective view at the time of a raise.
21 is a sectional view showing a state in which the middle shell is raised and lowered when the disk cartridge shown in FIG. 20 is opened and closed. FIG. 21A is a sectional view showing a state where the cam portion of the middle shell rides on the lift-up portion of the upper shell; FIG. B is a cross-sectional view showing a state in which the cam portion of the middle shell has entered the cam groove of the upper shell.
FIG. 22 is an exploded perspective view showing the second embodiment of the disk recording medium device of the present invention, as viewed from the lower surface side.
FIG. 23 is a perspective view showing the disk recording medium device shown in FIG. 22 as viewed from the lower surface side and showing a state in which the shutter mechanism is closed and the opening is closed.
FIG. 24 is a block explanatory diagram showing an embodiment of a circuit configuration of a disk drive device in which the disk recording medium device of the present invention is used.
FIG. 25 is a perspective view showing a state before the disk recording medium device shown in FIG. 1 is inserted into the disk drive device in which the disk recording medium device of the present invention is used.
26 is a perspective view showing a state in which the disk recording medium device shown in FIG. 1 is inserted into a disk drive device in which the disk recording medium device of the present invention is used.
FIG. 27 is a perspective view showing a conventional disk recording medium device.
[Explanation of symbols]
10, 80 disc cartridge, 11 optical disc (disc-shaped recording medium), 12 cartridge housing, 13 upper shell, 14 middle shell, 15, 85 lower shell, 16 disc storage chamber, 18a, 18b shutter member, 22 cam groove, 23 Lift-up part, 25, 42 opening part, 27a, 27b operation convex part, 30 opening window, 31 guide groove, 32 lock member, 36 stopper part, 37 input part, 38 spring piece, 43 gear part, 46 cam part, 50 Step part, 50a, 50b joint part, 51a, 51b collar part, 52 shaft part, 60 disc recording / reproducing device, 68 disc rotation drive device, 68a turntable, 69 optical pickup device, 69a optical head, 70 rack bar (shutter opening / closing) means)

Claims (12)

A disk storage chamber is formed between the upper shell and the middle shell or between the middle shell and the lower shell by overlapping the upper shell, the middle shell, and the lower shell, and the middle shell is formed between the upper shell and the lower shell. A cartridge housing rotatably supported by at least one and having a first opening formed in the upper shell or the lower shell and a second opening formed in the middle shell;
Each of the cartridge housings includes a joint portion that joins the first opening or the first opening and the second opening at a closed position to close the first opening, and according to the rotation of the middle shell. A pair of shutter members movable between the first opening or the first opening and the second opening to be opened and closed;
The pair of shutter members move in parallel with the joint portion maintaining a state parallel to each other in accordance with the rotation of the middle shell, whereby the first opening portion or the first opening portion and the second opening portion. A disc cartridge characterized by opening and closing the opening. The pair of shutter members are supported by at least one of the upper shell and the lower shell so as to be rotatable about a fulcrum corresponding to each shutter member. Disc cartridge. The disk cartridge according to claim 1, wherein the pair of shutter members are supported by the middle shell so as to be rotatable about a fulcrum corresponding to each shutter member. The pair of shutter members are each formed of a substantially semicircular plate, and the pair of shutter members has the middle shell having the second opening, the upper shell having the first opening, and the The disk cartridge according to claim 2 or 3, wherein the disk cartridge is disposed so as to face at least one surface side of the lower shell with the second opening or the first opening interposed therebetween. The pair of shutter members are rotatably supported by the middle shell on one side of the string side in each shutter member, and the upper shell or the guide member provided in the pair of shutter members respectively. 5. The disk cartridge according to claim 4, wherein a fulcrum provided on the lower shell is slidably engaged so that each joint is moved in parallel according to the rotation of the middle shell. The first opening is provided in at least one of the upper shell and the lower shell so as to be continuous in a linear direction through the respective central portions,
The second opening is provided in a straight line through the center of the middle shell,
The disk cartridge according to claim 1, wherein a plurality of optical heads can be inserted into and removed from the first opening and, if necessary, the second opening. A disk storage chamber is formed between the upper shell and the middle shell or between the middle shell and the lower shell by overlapping the upper shell, the middle shell, and the lower shell, and the middle shell is formed between the upper shell and the lower shell. A cartridge housing rotatably supported by at least one and having a first opening formed in the upper shell or the lower shell and a second opening formed in the middle shell;
A disk-shaped recording medium stored rotatably in the disk storage chamber;
Each of the cartridge housings includes a joint portion that joins the first opening or the first opening and the second opening at a closed position to close the first opening, and according to the rotation of the middle shell. A pair of shutter members movable between the first opening or the first opening and the second opening to be opened and closed;
The pair of shutter members move in parallel with the joint portion maintaining a state parallel to each other in accordance with the rotation of the middle shell, whereby the first opening portion or the first opening portion and the second opening portion. A disk recording medium device characterized in that the opening of the disc is opened and closed. The pair of shutter members are supported by at least one of the upper shell and the lower shell so as to be rotatable about a fulcrum corresponding to each shutter member. Disc recording medium device. The disk recording medium device according to claim 7, wherein the pair of shutter members are supported by the middle shell so as to be rotatable about a fulcrum corresponding to each shutter member. The pair of shutter members are each formed of a substantially semicircular plate, and the pair of shutter members has the middle shell having the second opening, the upper shell having the first opening, and the The disk recording medium device according to claim 8 or 9, wherein the disk recording medium device is disposed so as to face at least one surface side of the lower shell with the second opening or the first opening interposed therebetween. The pair of shutter members are rotatably supported by the middle shell on one side of the string side in each shutter member, and the upper shell or the guide member provided in the pair of shutter members respectively. 11. The disk recording medium device according to claim 10, wherein a fulcrum provided on the lower shell is slidably engaged, and each joint portion is translated in accordance with the rotation of the middle shell. . The first opening is provided in at least one of the upper shell and the lower shell so as to be continuous in a linear direction through the respective central portions,
The second opening is provided in a straight line through the center of the middle shell,
8. The disk recording medium device according to claim 7, wherein a plurality of optical heads can be inserted into and removed from the first opening and, if necessary, the second opening.

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