This application is based upon and claims the benefit of priority of the prior Japanese Patent Application No. 2012-574, filed on Jan. 5, 2012, the entire contents of which are incorporated herein by reference.
The embodiments discussed herein are related to a cartridge tape and a drive device for the cartridge tape.
A large-capacity external storage for use in large-scale computer equipment includes a library device. The library device contains many cartridges in each of which a magnetic tape medium is incorporated. The cartridge is conveyed to a tape drive by a conveying mechanism, and data is read from and written into the tape medium. The library device includes a plurality of tape drives or optical disk drives.
A reel hub around which a magnetic tape is wound is contained within a casing of a cartridge tape used in the library device. A leader pin is attached to a leading end of the magnetic tape, and the leader pin is positioned inside a tape outlet that is opened and closed by a door. A mechanism for opening and closing the door is called a shutter mechanism. The shutter mechanism has the dustproof function. When the cartridge is conveyed into the drive device, the door is opened and the magnetic tape is led out.
Related art is disclosed in Japanese Laid-open Patent Publication No. 11-339433.
According to one aspect of the embodiments, a cartridge tape includes: a casing including a magnetic tape; and a reel hub disposed inside the casing; the reel hub includes: a cylindrical portion around which the magnetic tape is wound; and an annular multipolar magnet to rotate the reel hub when a rotating magnetic field is applied outside a wall of the casing.
The object and advantages of the invention will be realized and attained by means of the elements and combinations particularly pointed out in the claims.
It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not restrictive of the invention, as claimed.
A spring receiver for receiving an upper end portion of the reel spring 2 and a projection for fitting with a stopper 3S to stop rotation of the reel lock 3, the stopper 3S being protruded on an upper surface of the reel lock 3, are provided on an inner wall surface of the upper shell 1. The projection may have a crossed shape in a horizontal section. A lower end portion of the reel spring 2 is positioned around the stopper 3S on the reel lock 3. Near an outer periphery of a lower surface of the reel lock 3, a checking gear is provided to be engaged with a checking projection, which is provided on the reel hub 6, thereby locking rotation of the reel hub 6.
The reel hub 6 includes a cylindrical portion 6C at a central portion thereof. The magnetic tape 13 may be wound around the cylindrical portion 6C. The flange 5 attached to an upper end of the cylindrical portion 6C may keep the magnetic tape 13, which is wound around the reel hub 6, from slipping off from the reel hub 6. On a bottom surface of the cylindrical portion 6C, the checking projection is provided to be engaged with the checking gear, which is provided on the lower surface of the reel lock 3, thereby locking rotation of the reel hub 6. The checking gear provided on the lower surface of the reel lock 3 may be provided to extend over an entire circumference of the lower surface of the reel lock 3 near the outer periphery thereof. The checking projection for locking rotation of the reel hub 6 may be not provided in a state extending over an entire circumference of the bottom surface of the cylindrical portion 6C.
The spider 4 and the reel lock 3 are inserted inside the cylindrical portion 6C that is provided in the central portion of the reel hub 6. A ring-shaped gear is provided on a rear surface of the reel hub 6. The gear is disposed within a hole 7A that is formed in a central portion of the lower shell 7. The door 9 for opening and closing the tape outlet 12 is attached to, in a state biased by a door spring 8, the tape outlets 12 that are provided at substantially the same height of the side surfaces of the upper shell 1 and the lower shell 7. In
For example, as illustrated in
The spider 4 and the reel lock 3, both inserted inside the cylindrical portion 6C of the reel hub 6, are biased by the reel spring 2 and are pressed against the bottom surface of the cylindrical portion 6C of the reel hub 6. In the biased state, the checking gear 3L provided near the outer periphery of the lower surface of the reel lock 3 is engaged with the checking projection 6L that is provided on the bottom surface of the cylindrical portion 6C of the reel hub 6. Therefore, the reel hub 6 is not rotated even when the reel hub 6 is caused to rotate through a hole 7A in the lower shell 7.
The spider 4 may be, e.g., a triangular plate-like member with legs 4L projecting from its lower surface at three apexes, as illustrated in
When the cartridge tape 10 is descended by the loader mechanism 21 and the cartridge tape 10 is placed on the reel motor 22, the drive gear 25 of the reel motor 22 is meshed with the gear 6G projecting from the lower surface of the reel hub 6. Upon the drive gear 25 meshing with the gear 6G of the reel hub 6, the three legs 4L of the spider 4, projecting into the portions where the gear 6G is not present, are each pressed by the drive gear 25.
With the three legs 4L of the spider 4 being each pressed by the drive gear 25, the spider 4 is moved upwards to press the reel lock 3 positioned on the spider 4. The reel lock 3 pressed by the spider 4 is ascended while compressing the reel spring 2, whereby the spider 4 is also ascended. Therefore, the checking gear 3L provided on the lower surface of the reel lock 3 is disengaged from the checking projection 6L that is provided on the bottom surface of the cylindrical portion 6C of the reel hub 6. In that state, because the reel hub 6 is not locked by the reel lock 3, the reel hub 6 is rotated by the drive gear 25 of the reel motor 22.
The cartridge tape 10 may be used for the purpose of an archive in addition to backup of computer equipment. When the cartridge tape 10 is used for the purpose of an archive, a large number of cartridge tapes may be incorporated in the library device, and desired one of the cartridge tapes may be extracted by a robot.
When the write protect switch 18 slidable to the left and the right, illustrated in
In
In a space sandwiched between the upper shell 1 and the lower shell 70, there are disposed a reel spring 2, a reel lock 3, a spider 40, a flange 5, a reel hub 60, and a magnetic tape 13 wound around the reel hub 60. For example, as illustrated in
A spring receiver 1C for receiving an upper end portion of the reel spring 2 and a projection 1S for fitting with a stopper 3S, the stopper 3S being protruded on an upper surface of the reel lock 3, are provided on an inner wall surface of the upper shell 1. The projection 15 is fitted into the stopper 3S, and the stopper 3S is locked to be not rotated relative to the projection 1S. The lower end portion of the reel spring 2 is positioned around the stopper 3S of the reel lock 3, thus biasing the reel lock 3 toward the lower shell 70. Near an outer periphery of a lower surface of the reel lock 3, a checking gear 3L is provided to be engaged with a checking projection 6L, which is provided on the reel hub 60, thereby locking rotation of the reel hub 60. Constructions of the upper shell 1, the reel spring 2, the reel lock 3, the flange 5, and the magnetic tape 13, all illustrated in
The spider 40 and the reel lock 3, both inserted inside the cylindrical portion 62 of the reel hub 60, are biased by the reel spring 2 and are pressed against the bottom surface of the cylindrical portion 62 of the reel hub 60, the bottom surface being, e.g., the same as an upper surface 61 of the reel hub 60. In the biased state, the checking gear 3L provided near the outer periphery of the lower surface of the reel lock 3 is engaged with the checking projection 6L that is provided on the bottom surface of the cylindrical portion 62. Therefore, the reel hub 60 is not rotated.
The spider 40 may be, e.g., a triangular plate-like member with legs 41 projecting from its lower surface at three apexes, as illustrated in
As illustrated in
As illustrated in
The difference between the diameter of the circular columnar portion 71 and the diameter of the circular recess 74 may be a difference corresponding to a wall thickness of the circular columnar portion 71. The difference between the depth of the circular recess 74 and the height of the circular columnar portion 71 may be a difference corresponding to a wall thickness of a top wall of the circular columnar portion 71. A reel hub mounting shaft 72 is provided to project from a center of a top surface of the circular columnar portion 71, and a bearing 73, e.g., a ball bearing, is attached around the reel hub mounting shaft 72. A triangular pyramid-shaped projection 75 is provided at a center of the circular recess 74.
The reel hub 60 is mounted onto the lower shell 70 with the bearing mounting hole 66 fitted to the bearing 73 that is provided on the lower shell 70. In that state, as illustrated in
The rotating magnetic field generator 30 includes an electromagnet mounting ring 31 that serves as the yoke member, and a plurality of electromagnets 32 mounted in a radial pattern to the outer side of the electromagnet mounting ring 31. The respective heights of the permanent magnet 28, the electromagnet mounting ring 31, and the electromagnets 32 from the base 27 may be substantially comparable to each other. One end of coils wound over the plural electromagnets 32 is coupled to the control circuit built in the base 27. When the electromagnets 32 installed on the electromagnet mounting ring 31 are successively energized clockwise or counterclockwise by the control circuit, a rotating magnetic field is generated outside the electromagnets 32. The intensity of a magnetic force (electromagnetic force) generated from the electromagnets 32 may be set to such an extent as enabling the reel hub 60 to rotate without affecting the magnetized state of the magnetic tape 13.
When the cartridge tape 50 is inserted into the tape drive 20, the cartridge tape 50 is moved in the horizontal direction and then descended by a loader mechanism (not illustrated) to be placed on the reel motor 26. In the state where the cartridge tape 50 is placed on the reel motor 26, the engagement projection 75 projecting in the circular recess 74 of the lower shell 70 is received in the engagement recess 28A of the permanent magnet 28 mounted on the base 27 of the reel motor 26. With the engagement of the engagement recess 28A and the engagement projection 75, a center of the reel motor 26 is aligned with a center of rotation of the reel hub 60.
When the cartridge tape 50 is placed on the reel motor 26 within the tape drive 20, the permanent magnet 42 built in the spider 40 and the permanent magnet 28 mounted on the base 27 of the reel motor 20 are positioned such that their surfaces including the same polarity are opposed to each other, whereby a repulsive force is generated. The repulsive force generated between the permanent magnet 28 and the permanent magnet 42 causes the spider 40 to float from the upper surface 61 of the reel hub 60, thus pushing up the reel lock 3. Because the three legs 41 of the spider 40 are moved respectively in the spider-leg insertion holes 65, the reel lock 3 is vertically pushed up without being rotated.
The reel lock 3 pushed up by the spider 40 is ascended while compressing the reel spring 2. With the ascent of the reel lock 3, the checking gear 3L provided on the lower surface of the reel lock 3 is disengaged from the checking projection 6L that is provided on the bottom surface of the cylindrical portion 62 of the reel hub 60. In that state, because the reel hub 60 is not locked by the reel lock 3, the reel hub 60 is rotatable relative to the reel hub mounting shaft 72 that is projected from the bottom surface of the lower shell 70.
In the state where the cartridge tape 50 is placed on the reel motor 26 within the tape drive 20, the electromagnets 32 installed on the base 27 are positioned to face the annular multipolar magnet 64 that is mounted to the inner peripheral surface of the skirt 63 of the reel hub 60. When the electromagnets 32 installed on the base 27 are successively energized, the reel motor 26 generates the rotating magnetic field. Since the annular multipolar magnet 64 follows the rotating magnetic field, the reel hub 60 is rotated about the reel hub mounting shaft 72 serving as a rotation shaft. The bearing (ball bearing) 73 disposed between the reel hub mounting shaft 72 and the bearing mount hole 66 of the reel hub 60 smoothes the rotation of the reel hub 60.
The bottom surface of the lower shell 70 of the cartridge tape 50 does not have the hole 7A formed in the bottom surface of the cartridge tape 10, and the joined portions of the upper shell 1 and the lower shell 70 have a waterproof structure. Therefore, intrusion of foreign matters, e.g., water and sludge, into the inside of the cartridge tape 50 from the outside may be reduced. As in the cartridge tape 10, until the cartridge tape 50 is placed on the reel motor 27, the reel hub 60 is kept locked by the reel lock 3 and the reel hub 60 is not rotated.
The tape outlet 12 of the cartridge tape 10 may be an opening that is formed by cutting a part of an outer wall 7T of the lower shell 7. The tape outlet 12 includes a groove 7M for positioning of the leader pin 14, and a guide groove 7N along which the door 9 slides for opening and closing the tape outlet 12. When the tape outlet 12 is closed by the door 9, the leader pin 14 positioned in the groove 7M is located inside the door 9. The leader tape 17 is coupled to the leader pin 14, and the magnetic tape 13 coupled to the leader tape 17 is wound around the reel hub 6.
An inner wall 7C curving along the outer shape of the reel hub 6 is disposed inside the outer wall 7T of the lower shell 7 including the tape outlet 12. A connecting wall 7H is provided at a certain position between the inner wall 7C and the outer wall 7T. A door spring 8 is inserted between the connecting wall 7H and the door 9 such that the door 9 is held by the door spring 8 in a state closing the tape outlet 12. A boss 7B is formed at a free end of the inner wall 7C on the side closer to the tape outlet 12. A screw is inserted through the boss 7B, and the upper shell 1 and the lower shell 7 are joined to each other by the screw. Near the boss 7B, a projection 10RB may be formed corresponding to the back side of a reference hole 10R, illustrated in
A circular arc slide groove 76, illustrated in
When the tape outlet 12 is closed by the door 19, the leader pin 14 positioned in the groove 7M is located outside the door 19, and a leading end of the door 19 presses the leader tape 17, which is coupled to the leader pin 14, against the inner surfaces of the upper shell 1 and the lower shell 70. Accordingly, in the closed state of the door 19, a waterproof state is maintained between the leading end of the door 19 and each of the inner surfaces of the upper shell 1 and the lower shell 70.
With the structure of the tape outlet 12, a waterproof state is maintained between the door 19 and the upper shell 1 and between the door 19 and the lower shell 70 when the door 19 is in the closed state. In the closed state of the door 19, therefore, intrusion of foreign matters, such as water and sludge, into the inside of the cartridge tape 50 from the outside may be reduced due to the waterproof structure of the cartridge tape 50.
By recessing the bottom surface of the lower shell 70 in a circular shape into the inner side from the outer side, the circular columnar portion 71 may be formed on the inner side, and the circular recess 74 may be formed on the outer side. The skirt 63 may be formed at an outer peripheral portion of the reel hub 60, and the annular multipolar magnet 64 may be mounted to the inner peripheral surface of the skirt 63. Alternatively, the bottom surface of the lower shell 70 may be flat. In such a case, an annular multipolar magnet may be mounted to the lower side of the outer peripheral portion of the reel hub 60 in an orientation to face the bottom surface of the lower shell 70, and electromagnets mounted to the electromagnet mounting ring 31 of the reel motor 26 may be positioned to face upwards.
A cartridge tape having high sealing performance and a tape drive suitable for the cartridge tape are provided.
All examples and conditional language recited herein are intended for pedagogical purposes to aid the reader in understanding the invention and the concepts contributed by the inventor to furthering the art, and are to be construed as being without limitation to such specifically recited examples and conditions, nor does the organization of such examples in the specification relate to a showing of the superiority and inferiority of the invention. Although the embodiments of the present invention have been described in detail, it should be understood that the various changes, substitutions, and alterations could be made hereto without departing from the spirit and scope of the invention.
Number | Date | Country | Kind |
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2012-000574 | Jan 2012 | JP | national |