1. Field of the Invention
The present invention relates to a recording disk cartridge that houses a recording disk medium in a cartridge case and a disk drive for recording data on and reproducing the data from the recording disk cartridge.
2. Description of the Related Art
Conventionally, a recording disk cartridge is known that houses in a cartridge case: a recording disk medium such as a flexible magnetic disk medium where magnetic layers are formed on both faces of a disk-form support body consisting of such a polyester sheet; magneto-optical disk medium; and a phase-change disk medium. These pieces of recording disk media are made to be higher density recording year by year; and their recording track width is becoming narrower and their recording length shorter. Therefore, a read error is apt to occur in a magnetic disk cartridge only if a slight amount of dust intervenes between the magnetic disk medium and a magnetic head. In addition, although the optical disk medium is said to be comparatively strong for dust, in higher recording density, as a result of increase in a numerical aperture of a lens of an optical pickup, it becomes necessary to approach the lens to the medium, and after all the read error is apt to occur due to the dust.
As a portion through which dust invades a recording disk cartridge are found an access opening provided at a cartridge case in order to make a magnetic head and an optical pickup access a recording disk medium; and a chucking center hole provided at a center of the cartridge case in order to couple a spindle of a disk drive with the recording disk medium. Then a conventional recording disk cartridge is configured so as to close the access opening and the center hole in no use thereof in order to prevent dust from invading inside of its cartridge case (for example, see Japanese Patent Laid-Open Publication No. 2004-013921, 2002-063778, and 2004-348885).
However, because in the conventional recording disk cartridge a shutter for closing the access opening and the chucking center hole is actuated outside the cartridge case, there is a possibility that the shutter is hooked into other things and opens in any of taking along and keeping the cartridge. In addition, because the conventional recording disk cartridge is designed so that the shutter can easily be contacted from outside, there is also a possibility that the shutter is carelessly opened. Then, because in the conventional recording disk cartridge the access opening is provided on an upper face or/and lower face of the cartridge case in parallel with the recording disk medium, the medium is largely exposed and becomes a state of being easily tainted and damaged when the shutter opens. Furthermore, because in the conventional recording disk cartridge the access opening is provided on the upper face or/and the lower face of the cartridge case, there is also a problem that a rigidity of the cartridge case is lowered and that it is difficult to make the case thinner.
Further, it is desirable that such a recording disk cartridge provides a sure access of a head of a disk drive to a recording disk medium.
Consequently, a recording disk cartridge is strongly requested that prevents dust from invading inside of a cartridge case, and a recording disk medium from being tainted and damaged as much as possible, and has a structure that is easy to be thinned, wherein access of a head of a disk drive to the recording disk medium is surely performed.
An aspect of the present invention provides a recording disk cartridge including a recording disk medium and a cartridge case for housing the recording disk medium, comprising: a base frame comprising: sidewalls of the cartridge case for substantially surrounding a radial directional outside of the recording disk medium and; side opening for exposing the recording disk medium to the outside; a lower plate disposed below the recording disk medium for configuring a lower wall of the cartridge case, the lower plate having a center hole for coupling a spindle of a disk drive to the recording disk medium; an upper plate disposed above the recording disk medium for configuring an upper wall of the cartridge case; a rotary shutter for opening and closing the side opening by a rotation movement thereof within the cartridge case; a swing shutter disposed between the recording disk medium and the lower plate and engaging with the rotary shutter for swinging in response to a rotational movement of the rotary shutter to open and close the center hole; and a ramp member for guiding a head of the disk drive toward a recording face of the recording medium.
In accordance with such the recording disk cartridge the side opening that makes the recording disk media being exposed to the outside, that is, the access opening for a magnetic head and an optical pickup accessing the recording disk media are provided at the base frame that forms the sidewall of the cartridge case; and the upper plate and the lower plate configure the upper wall and lower wall of the cartridge case, respectively, and occlude the upper side and lower side of the base frame. Therefore, it is prevented that the rigidity of the cartridge case is lowered due to the formation of the access opening on any of the upper face and the lower face. In addition, because the access opening is formed only at the sidewall, even when a user opens the rotary shutter that opens and closes the opening, she or he can only see a rim of an outer perimeter of the recording disk media from the opening and it is difficult for her or him to directly touch a recording face of the recording disk media. Therefore, the recording face of the recording disk media can be prevented from being tainted and damaged. In addition, because a size of the access opening suffices to be minimum, it is difficult for dust to invade inside of the cartridge case.
In addition, the swing shutter for opening and closing the chucking center hole is positioned between the lower plate and the flexible disk, that is, more inside than the lower plate, and thereby, other things are not hooked into the shutter in any of taking along and housing the recording disk cartridge.
Further, such the recording disk cartridge includes the ramp member for guiding the head of the disk drive toward the recording face of a recording disk medium, so that, although an opening for access is made to have a minimum size, the access of the head to the recording disk media is surely performed.
Meanwhile, although because the disk drive usually accesses a chuck portion of the recording disk media from below, the side where there exists the center hole for the access is made below for convenience in the upper plate and the lower plate in the present invention, it goes without saying that the lower plate of the invention can be used with being directed in a horizontal direction or upward.
In the recording disk cartridge mentioned above, the ramp member may be supported by the base frame and disposed between the lower plate and the upper plate.
If the ramp member is disposed between the lower plate and the upper plate as mentioned above, the ramp member is not exposed to the upper and lower sides of the cartridge case, which prevents the ramp member from being hooked by other things during guiding and/or storing.
In the recording disk cartridge mentioned above, preferably, the base frame is formed of a wear resistant resin, and the ramp is integrally molded with the base frame. Among the wear resistant resins, for example, is cited an engineering plastic such as PolyOxyEther. Further, a surface of the ramp member may be subject to a hard plating process.
In addition, in the recording disk cartridge mentioned above, the ramp member may be formed of a wear resistant material different from that of the base frame 10. Preferably, this wear resistant material is a metal or a ceramic.
In the recording disk cartridge, the rotary shutter may close and open the side opening inside the ramp member.
In such the recording disk cartridge, the ramp member is disposed outside the rotary shutter which closes the side opening. In other wards, the rotary shutter can define a minimum space in the cartridge case for preventing the recording disk medium from being tainted and damaged, as well as the ramp member is disposed outside the space, so that a limitation in size of the ramp member is relaxed with an increased degree of freedom in designing.
In the recording disk cartridge the rotary shutter is preferably disposed inside the base frame, and an outer perimeter of the shutter is preferably positioned more inside than rims of the lower plate and the upper plate.
Thus, because if the rotary shutter is disposed inside the base frame, the shutter is not surely exposed outside the cartridge case, it is prevented that other thing are hooked into the shutter in any of taking along and keeping the recording disk cartridge, and that the shutter is opened without a schedule. In addition, if the outer perimeter of the rotary shutter is positioned more inside than the rims of the lower plate and the upper plate, an unexpected actuation of the rotary shutter can be more surely prevented.
In the recording disk cartridge it can be designed to configure that the rotary shutter has a reinforcement plate at the side of the lower plate and that the swing shutter swings in response to the rotational movement of the rotary shutter by being engaged in the reinforcement plate.
Thus, by the rotary shutter having the reinforcement plate, a stable movement of the rotary shutter is enabled.
In addition, in the configuration having such a reinforcement plate, it can be configured that the reinforcement plate has an engagement protrusion that protrudes toward the swing shutter, and that the shutter has an engagement depression or an engagement hole engaged in the engagement protrusion so as to swing in response to the rotational movement of the rotary shutter. Or else, it may also be configured that the swing shutter has an engagement protrusion that protrudes toward the reinforcement plate, and that the reinforcement plate has an engagement depression or an engagement hole engaged in the engagement protrusion so as to swing the swing shutter in response to the rotational movement of the rotary shutter.
By designing the configuration of moving the swing shutter with such the protrusion and the depression or the hole, the reinforcement plate and the swing shutter can be manufactured by simple methods inclusive of press punching, half-punching, drawing, and the like.
The recording disk cartridge can be configured so that: the rotary shutter has a driven gear at its outer perimeter that is engaged in a drive gear, which the disk drive has, and performs the rotational movement; and the base frame has an opening for actuating the shutter for exposing the driven gear sideward.
In addition, the side opening can be provided in an orthogonal direction for a direction where the recording disk cartridge is inserted in the disk drive.
The side opening, i.e., the access opening, is made in the orthogonal direction for the direction where the recording disk cartridge is inserted in the disk drive, and thereby, such an arm-like magnetic head and optical pickup proceeding within the cartridge case from the access opening can be disposed in a side direction (orthogonal direction) for the insertion direction, and a depth of the disk drive can be made small. In addition, because a butt portion can be held enough within the disk drive when the recording disk cartridge is inserted, even if there exists a user that forcibly pushes the cartridge, it is difficult for any of the recording disk cartridge and the disk drive to malfunction.
In addition, in the recording disk cartridge the base frame and the lower plate, or the base frame and the upper plate may be integrally molded. Thus by making the configuration integrally molded, it is enabled to reduce a number of components and to thereby reduce cost. Furthermore, it is available to design to divide the base frame, to integrally mold one part of the base frame and the lower plate, and to integrally mold the other part of the base frame and the upper plate. Thus, by dividing the base frame, it becomes easy to manufacture a base frame of a complicated form and that of an undercut form.
In addition, by configuring a portion for closing the chucking center hole with a single member, the hole is occluded by the single member disposed inside, and it becomes difficult for an outside thing to be hooked into the swing shutter.
According to the present invention, a rigidity of the cartridge case can be improved, and it is prevented that the recording disk medium is tainted and damaged, and that other thing is hooked into the shutter. In addition, the access of the head of a disk drive can be surely performed.
The object and features of the present invention will become more readily apparent from the following detailed description taken in conjunction with the accompanying drawings in which:
The same or corresponding elements or parts are designated with like references throughout the drawings.
Here will be described an embodiment of the present invention in detail, referring to drawings as needed. In the embodiment will be described a case of a magnetic disk cartridge where magnetic disk media is adopted as an example of recording disk media.
As shown in
In the cartridge case C an external form thereof is a substantially rectangular card-form in a plan view. One corner of the rectangle is cut off like a chamfer and forms a chamfer portion C1, and is made a marker for an insertion direction into the disk drive D. Although the insertion direction is set to become the right-front direction in the plan view, it is not limited thereto.
In an orthogonal direction for the insertion direction, at a side portion in the right direction in
The access opening C2 is closed by a rotary shutter 40 in no use of the magnetic disk cartridge 1, for example, in keeping the cartridge 1, and is opened in use by rotating the shutter 40.
As shown in
Next will be described the magnetic disk cartridge 1 in detail, referring to FIGS. 3 to 8.
As shown in
As shown in
The base frame 10 is designed to be divided into a main frame 10X and a subframe 10Y. The subframe 10Y is a slit-like member configuring an upper side of the shutter actuation opening C4. A left edge 10L of the main frame 10X corresponds to the subframe 10Y, and is formed to be thinner in order to form the shutter actuation opening C4 (the left edge 10L is assumed to be a “thin piece portion 12a”). At both ends of the left edge 10L of the main frame 10X are formed joint pedestals 12b higher than the thin piece portion 12a by one step. By connecting the subframe 10Y to the joint pedestals 12b, the shutter actuation opening C4 like the slit is formed between the thin piece portion 12a and the subframe 10Y (see
Meanwhile, a height of the joint pedestals 12b is set so that an upper face 13a of the subframe 10Y becomes a same height as upper faces 13a of the main frame 10X. In addition, in the embodiment although the base frame 10 is designed to connect two members of the main frame 10X and the subframe 10Y, they may also be integrally molded and be designed to be divided into not less than three members.
In addition, at rims of an outer perimeter of the base frame 10 are formed ribs 14 across substantially all outer perimeter toward up/down directions. Heights of the ribs 14 from the upper faces 13a and lower face 13b of the base frame 10 are designed to be same as or higher than each thickness of the lower plate 20 and the upper plate 30. Therefore, if the lower plate 20 and the upper plate 30 are joined with the base frame 10, a rim 29 of the lower plate 20 and a rim 39 of the upper plate 30 are concealed by the ribs 14 as shown in
From such the meaning, it is preferable that the heights of the ribs 14 from the respective upper faces 13a and lower face 13b of the base frame 10 are higher than respective thicknesses of the upper plate 30 and the lower plate 20.
As shown in
At rear of the depression 15 of the base frame 10 is formed a joint through hole 16 penetrated in up/down directions. The joint through hole 16 is used when the lower plate 20 and the upper plate 30 are jointed.
Although it is preferable to select the wear resistant resin such as PolyOxyEther as a material of the base frame 10 from easiness of molding a complicated form in this embodiment, it is also available to select metal, ceramics, and the like.
As shown in
The protrusion 21 is formed into a cylindrical form by barring process. Outside the protrusion 21 is fitted a bearing 51 of the swing shutter 50, and in an inner cylindrical portion 21a is fitted a pull-out stopper pin 63.
The evasion groove 22 is positioned on concentric arc with the chucking center hole C3. This is because the engagement protrusion 42c concentrically rotates with center of the cartridge case C (center of the magnetic disk media DM), following a rotational movement of the rotary shutter 40. A depth of the evasion groove 22 may have a depth that can evade an interference with the engagement protrusion 42c. Meanwhile, in a case that the upper face 20a of the lower plate 20 (equivalent to an inner face of the cartridge case C) is sufficiently smooth, a friction by sliding contact between the engagement protrusion 42c and the lower plate 20, and a wear powder does not occur, the evasion groove 22 may not be provided.
In the vicinity of the right-front of the lower plate 20 is formed a joint claw portion 23. The portion 23 generates a joint force of the base frame 10 and the lower plate 20 by being pressed into the joint through hole 16 of the base frame 10. Although as a joint of the base frame 10 and the lower plate 20 there exist methods such as use of an adhesive, pressed-fit-in of the lower plate 20 and the ribs 14, and thermal caulking after forming a caulking protrusion at the base frame 10 and fitting it in an appropriate opening of the lower plate 20, a method thereof is not specifically limited.
The upper plate 30 is a substantially rectangular plate member configuring the upper wall of the cartridge case C, and at a right-front corner thereof the chamfer portion C1′ is formed, imitating the chamfer portion C. A size of the upper plate 30 in the plan view is slightly larger than the rotary shutter 40, and the outer perimeter of the rotary shutter 40 is positioned more inside than the rim portion of the upper plate 30. At corner of a lower face 30a of the upper plate 30 is formed a protrusion 31 for fixing the center core 61 in no use of the magnetic disk cartridge 1. In addition, in the vicinity of the right-front corner of the upper plate 30 is formed a joint claw portion 33 protruding downward, corresponding to the joint through hole 16. The joint claw portion 33 generates a joint force of the base frame 10 and the upper plate 30 by being pressed into the joint through hole 16 of the base frame 10. A joint of the base frame 10 and the upper plate 30 can also be performed by other methods same as those of the base frame 10 and the lower plate 20.
To the lower face 30a of the upper plate 30, a portion equivalent to an inner face of the cartridge case C, are affixed liners 65 for cleaning a flexible disk FD. As a material of the liners 65 are preferably used a non-woven cloth, a sheet where an ultra high molecular polyethylene is foamed, and the like. The liners 65 are a circular sheet-form member and has at center thereof a circular through hole 65a matching a size of the center core 61. In addition, matching a movement range of the swing arm SA, a cutoff 65b is formed for preventing an interference with the swing arm SA.
Although the material of the lower plate 20 and the upper plate 30 is not specifically limited, a needed rigidity thereof can be ensured, even if they are thin, by configuring at least one or preferably both with metal, for example, stainless steel.
In addition, the base frame 10, the lower plate 20, and the upper plate 30 are not configured as respective separate members; but the base frame 10 and the lower plate 20 may also be integrally molded by a resin, an aluminum alloy, and a magnesium alloy; and the base frame 10 and the upper plate 30 may also be integrally molded by these materials.
Furthermore, in a case that a form of the base frame 10 is complicated and has an undercut form, it is also available to integrally mold one part of the base frame 10, for example, the main frame 10X and the lower plate 20; and to integrally mold the other part of the base frame 10, for example, the subframe 10Y and the upper plate 30. Thus, by designing the base frame 10 as a divided configuration, die-cutting is made smooth, and thereby it is enabled to heighten a form accuracy of a product.
The rotary shutter 40 comprises a C-letter shutter member 41 and a reinforcement plate 42 jointed to a lower side of the member 41.
The shutter member 41 is a member by injection-molding, for example, a resin, wherein as shown in
As shown in
Meanwhile, although the sliding contact rib 41b is not limited to one formed as a continuous rib and can be formed like an intermittent protrusion, the rib 41b is preferably like the continuous rib in order to prevent dust from invading the cartridge case C from outside.
As shown in
The reinforcement plate 42 is a member for reinforcing a rigidity of the shutter member 41 and forming an engagement portion (engagement protrusion 42c in the embodiment) for transmitting a movement of the rotary shutter 40 to the swing shutter 50. If the shutter member 41 has a sufficient rigidity and the engagement portion for engaging in the swing shutter 50, the reinforcement plate 42 is not always necessary.
In addition, because the center hole 42a is enough if the center core 61 passes through it, it may be formed larger than in the embodiment, and for example, may also be a continuous opening into the cutoff 42b.
Furthermore, because the cutoff 42b is something for facilitating the swing arm SA to proceed into the cartridge case C, it is not always necessary if there exists a space for the swing arm SA proceeding into the cartridge case C.
The swing shutter 50 is a member for opening and closing the chucking center hole C3 of the lower plate 20 as shown in
At the base of the swing shutter 50 is formed the bearing 51 molded into a cylindrical form. The bearing 51 fits outside the protrusion 21 of the lower plate 20; the swing shutter 50 is swingably supported by the lower plate 20 through a shaft. The pull-out stopper pin 63 is fitted in the inner cylindrical portion 21a of the protrusion 21, and thereby, the swing shutter 50 fitted outside the protrusion 21 of the lower plate 20 is prevented to drop off from the lower plate 20. Meanwhile, the pull-out stopper pin 63 comprises a pin portion 63a and a head portion 63b, and an outer perimeter of the head portion 63b is designed to be an approximately same diameter as that of the bearing 51.
In the swing shutter 50 is formed an engagement hole portion 52 like a substantially long hole. The engagement hole portion 52 engages in the engagement protrusion 42c and plays a function of transmitting the rotational movement of the engagement protrusion 42c to the swing shutter 50. Although the engagement protrusion 42c engaged in the engagement hole portion 52 has a possibility that a tip (lower end) of the protrusion 42c slightly protrudes below the engagement hole portion 52, a smooth movement of the rotary shutter 40 is not blocked because the protruded portion is housed in the evasion groove 22.
In the embodiment, although the engagement hole portion 52 is formed as a through hole, it may also be an engagement portion not limited to the through hole. For example, the engagement hole portion 52 may be formed as not the through hole but a groove (engagement groove portion), and the groove and the through hole are opened to the rim portion of the swing shutter 50. In addition, although the engagement of the rotary shutter 40 and the swing shutter 50 is performed by the engagement protrusion 42c of the shutter 40 and the engagement hole portion 52 of the swing shutter 50, the relation of the protrusion/depression may be reversed. In other words, it is also available to provide the swing shutter 50 with an engagement protrusion protruded toward the rotary shutter 40 and to form in the rotary shutter 40 an engagement hole portion or engagement groove for engaging in the engagement protrusion.
The outer perimeter of the head portion 63b of the pull-out stopper pin 63 and the bearing 51 are designed like one continuous shaft by being formed to be a same diameter, and the continuous shaft supports the lock spring 64 for stopping an unneeded rotation of the rotary shutter 40 in no use of the magnetic disk cartridge 1.
The lock spring 64 comprises a lock leg portion 64a, a spring leg portion 64b, a lock release leg portion 64c, and a bearing portion 64d for making the pull-out stopper pin 63 supports these through the shaft. In the lock spring 64, as shown in
As shown in
The flexible disk FD is a disc form having a circular opening FD1 at center thereof, and is generally designed to be provided with a magnetic layer on both faces or one face of a support body consisting of a resin film and the like such as polyester. As a material and layer configuration of the support body and the magnetic layer can be used conventionally known ones, selecting as needed; they are not specifically limited.
The center core 61 is a member jointed to the opening FD1 by an affixation member 62 and having a rigidity to some extent. The center core 61 is generally composed of a plated steel plate and a magnetic material such as magnetic stainless steel so that the spindle SP of the disk drive D can be attracted by magnetism.
The center core 61 comprises, as shown in
The center core 61 is disposed, making a smaller diameter side of the chuck portion 61a downside, and the flexible disk FD is affixed from downside in the flange portion 61b, that is, a side where the chuck portion 61a protrudes.
Prior to describing the ramp member R, will be described briefly a disk drive D. The disk drive D comprises, as described earlier, the spindle SP, the magnetic heads H, and the swing arms SA, as well as comprises, as shown in
The disk drive D has a pair of the swing arms SA to allow the magnetic heads H to access front and rear faces of the magnetic disk medium DM. The swing arms SA swing around a swing axis AX (clockwise in
The magnetic heads H are disposed to face each other at tips of the swing arms SA. These magnetic heads H pinch the magnetic disk medium DM between the front and rear faces thereof and are actuated by a plate spring part (not shown) to approach to each other.
To these swing arms SA are attached extending plates SA1 as shown in
The arm parking member 112 holds the swing arms SA at a standby position where the swing arm SA is inhibited to be load on the magnetic disk medium DM and comprises a mounting part 112c and a plate member 112b as shown in
Further, in this disk drive D, when the swing arms SA swing toward the cartridge case C, the protrusion parts P of the extending plates SA1 are removed from the channels 112a, which releases the held swing arms SA. Then, in this disk drive D, the swing arms SA further swing to move the magnetic heads H toward the side of the spindle SP so as to pinch the plate member 112b of the arm parking member 112.
Next will be described the ramp member R. The ramp member R moves the magnetic heads H, entering the magnetic disk cartridge 1 through the access opening C2 formed in the base frame 10 toward recording faces of the magnetic disk medium DM.
The ramp member R comprises a body 24 formed in a substantially rectangular parallelepiped and a plate-like support. The body 24 is connected to an end face 10Z (see
Between a lower face 24a of the body 24 and the lower plate 20 and between an upper face of the body 24 and the upper plate 30 are provided gaps allowing the swing arms SA to pass there. The protrusion parts P of the extending plate SA1 (swing arms SA) are provided with a sliding contact with the lower face 24a and the upper face 24b of the body 24.
An end face 24c of the body 24, exposed to the outside at the opening of the access opening C2, has the same form as an end face 112d (see
At an end of the body 24 at a side of the magnetic disk medium DM are formed a slant face 24d following the lower face 24a and a slant face 24e following the upper face 24b. These slant faces 24d and 24e have such inclinations which intersect with each other in a direction toward the magnetic disk medium DM. In other words, the slant faces 24d and 24e are inclined so as to approach to recording faces of the magnetic disk medium DM as a point thereon gradually approaches to the magnetic disk medium DM.
The support member 25 has a thickness lower than that of the body 24 to provide clearances for the magnetic heads H while the swing arms SA pass there.
The magnetic disk cartridge 1 thus configured is used as follows:
In addition,
In the magnetic disk cartridge 1, as shown in
When the magnetic disk cartridge 1 is inserted in the disk drive D, it is inserted with its front directed to an insertion direction shown in
If the rotary shutter 40 rotates, the engagement protrusion 42c (see
At this time, because the rotary shutter 40 contacts the lower plate 20 at the sliding contact rib 41b formed along a circumference as shown in
In this event, the plate member 112b of the arm parking member 112 has, as shown in
Then, the spindle SP of the disk drive D couples the center core 61 by magnetic attraction, and holds the magnetic disk media DM. At this time the center protrusion SP1 of the spindle SP engages in the center hole 61c of the center core 61, and thereby, the center is matched. In addition, the flexible disk FD is substantially positioned at a center in the up/down directions (thickness directions) of the cartridge case C. Therefore, when the magnetic disk media DM is rotated, an air flow above/below the flexible disk FD becomes stable, and a face vibration of the disk FD is suppressed.
Next, the magnetic disk media DM starts to rotate by the rotation of the spindle SP. In this event, the protrusion parts P of the extending plate SA1 of the swing arms SA at the standby condition fit into the channels 112a of the arm parking member 112 as shown in
After data recording/reproducing is performed by the magnetic head H, the swing arm SA retracts from the cartridge case C, and the head H is unloaded. In this event, the magnetic heads H of the swing arms SA are unloaded from the magnetic disk medium DM through a reversed processes shown in
When the magnetic disk cartridge 1 is removed from the disk drive D, a reverse operation for the insertion is performed. More specifically, by a movement of pulling the magnetic disk cartridge 1 out of the disk drive D, the drive gear 110 rotates the rotary shutter 40 in a closing direction thereof, and by the rotational movement, the engagement protrusion 42c of the rotary shutter 40 engages with the engagement hole portion 52 of the swing shutter 50, pushes and moves the swing shutter 50, and swings the shutter 50 counterclockwise in
In addition, the drive gear 110 is removed from the groove 18 from the state of
In accordance with the magnetic disk cartridge 1 of the embodiment thus described, the following effects are obtained.
Firstly, because the access opening C2 is not provided at the lower plate 20 and the upper plate 30 and is formed at a side portion, to be more precise, the side portion of the base frame 10, the opening of the cartridge case C suffices to be minimum and it is difficult for dust to invade the magnetic disk cartridge 1. In addition, because the magnetic disk cartridge 1 is enabled to only front the side face of the magnetic disk media DM from the access opening C2 and not enabled to directly touch the recording face of the flexible disk FD with a hand and the like, it does not also occur to abruptly taint and damage the flexible disk FD. Accordingly, in the magnetic disk cartridge 1 an error is difficult to occur by the dust, and the taint and damage.
Further, this magnetic disk cartridge 1 is provided with the ramp member R for guiding the magnetic heads H of the disk drive D toward the recording faces of the magnetic disk medium DM, which provides a surer access of the magnetic heads H to the magnetic disk medium DM even if the size of the access opening C2 is minimized.
In addition, the magnetic disk cartridge 1 is designed to dispose the ramp member R supported by the base frame 10 between the lower plate 20 and the upper plate 30, so that the ramp member R is not exposed to the upper and lower sides of the cartridge case C, which prevents the ramp member R from hooking other things during guiding and keeping.
Furthermore, the magnetic disk cartridge 1 is designed to open and close the access opening C2 inside the ramp member R. More specifically, the ramp member R is disposed outside the rotary shutter 40 when the access opening C2 is closed with the rotary shutter 40. As a result, the magnetic disk cartridge 1 can be designed to define a minimum space for preventing the recording disk medium DM from being tainted and damaged by the rotary shutter 40, as well as the ramp member R is disposed outside the space, which relaxes limitation in the side of the ramp member R to increases a degree of freedom in its design.
Because the rotary shutter 40 is disposed inside the base frame 10 and the outer perimeter of the shutter 40 is disposed more inside than the rim portions of the lower plate 20 and the upper plate 30, the shutter 40 is not hooked from outside and moved in no use of the magnetic disk cartridge 1.
In addition, because the swing shutter 50 is actuated inside the lower plate 20 and closes the chucking center hole C3, it is not hooked into an outside thing and does not abruptly open. Particularly, because the swing shutter 50 is designed so as to close the chucking center hole C3 with a single member, it is difficult to be hooked into an outside thing.
Because the ribs 14 formed around the base frame 10 are disposed at the perimeters of the lower plate 20 and the upper plate 30 and the height of the ribs 14 is larger than the thicknesses of the lower plate 20 and the upper plate 30, their rims 29 and 39 are not hooked into an outside thing.
Because the rotary shutter 40 contacts the lower plate 20 by the sliding contact rib 41b formed along the circumference, a smooth rotational movement is enabled. Furthermore, because the part of the sliding contact rib 41b is cut off not to prevent the swing movement of the swing shutter 50 and forms the window portion 41b′, the movement of the shutter 50 is also good.
In addition, because the rotary shutter 40 has the reinforcement plate 42 at the side of the lower plate 20, a stable rotational movement is enabled.
Furthermore, the rotational movement of the rotary shutter 40 is transmitted to the swing movement of the swing shutter 50 by the engagement of the engagement protrusion 42c formed at the reinforcement plate 42 and the engagement hole portion 52 of the swing shutter 50, and the rotary shutter 40 and the swing shutter 50 can be simultaneously moved only by the operation of moving the rotary shutter 40 from outside. Although the engagement protrusion 42c slightly protrudes from the engagement hole portion 52 in some case, because an interference between the protruded portion and the lower plate 20 can be evaded by the evasion groove 22 formed at the lower plate 20, the smooth rotational movement of the rotary shutter 40 is ensured, and it is also enabled to prevent the occurrence of dust due to the contact of the engagement protrusion 42c and the lower plate 20.
Because the center core 61 engages in the protrusion 31 in no use of the magnetic disk cartridge 1, the magnetic disk media DM is fixed and not damaged. Therefore, it is enabled to minimize a clearance between the magnetic disk media DM and the base frame 10, to enlarge the size of the media DM, and to enlarge a memory capacity thereof.
Because the access opening C2 is provided in an orthogonal direction for the insertion direction of the magnetic disk cartridge 1, right in the embodiment, it is enabled to dispose such the swing arm SA right and to lessen the depth of the disk drive D. Therefore, it is enabled to realize the disk drive D of a card type that is thinner and smaller in depth.
Thus although one embodiment of the present invention is described, the invention can be performed, changed as needed, and it goes without saying that the invention is not limited to the embodiment.
For example, the recording disk medium may also be optical disk media such as a magneto-optical disk and a phase-change disk, not limited to the magnetic disk medium, but a disk medium having a rigidity such as a DVD-DRAM, not limited to flexible disk media. In addition, although in the embodiment the swing shutter 50 is supported swingably by the lower plate 20, it may also be designed to be supported swingably by the upper plate 30 or the base frame 10. In addition, the drive gear 110 is not limited to one fixed within the disk drive D, and may also be rotationally driven one.
In the above-mentioned embodiment, the body 24 of the ramp member R guides the swing arm SA, moving the magnetic heads H to the recording faces of the magnetic disk medium DM. However, the present invention is not limited to this, but may be configured to have a load beam further extending from the tip of the swing arm SA to allow the body 24 to guide the load beam to move the magnetic heads H to the recording faces of the disk medium DM.
In the above-mentioned embodiment, the ramp member R is fixed to the base frame 10. However, the present invention is not limited to this, but may be configured to fix the ramp member R to the lower plate 20 or the upper plate 30.
In the above-mentioned embodiment, the ramp member R and the base frame 10 are integrally molded as shown in
In addition the ramp member R is preferably to be formed of a wear resistant material such as metal and ceramics. Further, as described earlier, the ramp member R is subject to the hard plating, and thus includes a hard plated layer 121 at a surface thereof as shown in
In addition, the ramp member R includes an inner edge extending coaxially with the recording disk medium DM as shown in a plan view of
Further, the base frame 10 has a rectangular shape and the recording disk medium DM has a circle in the plan view of, for example,
Furthermore, the ramp member R includes: a plate-like member as the body 24 disposed in parallel to the recording disk medium DM and extending from the side opening to a vicinity of the recording disk medium DM; the support as the support member 25 for supporting the plate-like member with respect to the base frame 10.
In addition, the recording disk medium DM includes first and second recording faces, the body (plate-like member) 24 is aligned with a center plane of the recording disk when the recording disk is loaded in the disk drive D as shown in
Moreover, the support member (planner support) 25 provides clearance spaces to allow the head H and anther head H to pass just above and just below the support, respectively as shown in
Further, a thickness of the body (plate-like member) 24 is greater than that of the support member (support) 25 in a thickness direction of the recording disk medium DM.
In addition, the ramp member R includes an end face 24c which is flush with a side surface of one of the side walls adjacent to the end face 24c of the base frame 10 to allow the recording disk cartridge 1 to be inserted into the disk drive D to couple the ramp member R to the arm parking member 112 of the disk drive D for parking the head H to receive the head H from the parking member 112 and guide the head H to the parking member 112.
Furthermore, the disk drive D includes: the head H for writing on and reading from the recording disk medium DM; the swing arm SA for holding the head H; the arm parking member 112 for parking the swing arm SA at a position apart from the recording disk medium DM; and an extending member SA1 extending from the swing arm SA for allowing the arm parking member 112 to park the swing arm SA.
In addition, the arm parking member 112 is made contact with the body (plate-like member) 24 and has a surface provided with a sliding contact with the extending member SA1 to guide the head H toward the recording disk medium DM in which the extending member SA1 slides on the surfaces of the arm parking member 112 and the body (plate-like member) 24, wherein the surface of the body 24 is flush with the surface of the arm parking member 112.
Further, the arm parking member 112 includes the fitting channels (V-shape channel) 112a for receiving the protrusion P.
Number | Date | Country | Kind |
---|---|---|---|
2005-082357 | Mar 2005 | JP | national |