JP3512533B2 - Disk-shaped recording medium - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a disk-shaped recording medium used for, for example, a magnetic disk cartridge. 2. Description of the Related Art A conventional disk-shaped recording medium is obtained by fixing a drawn disk-shaped center hub at the center of a magnetic disk as described in, for example, Japanese Utility Model Publication No. 60-6938. A disk-shaped recording medium is formed, and the disk-shaped recording medium is rotatably housed in a flat type cartridge case to form a magnetic disk cartridge. When the magnetic disk cartridge is mounted on a drive device, a spindle and a drive pin of the drive device are inserted into a center hole and a drive pin insertion hole of the center hub, respectively. A center hub that is placed on a table and has magnetism by permanent magnets installed on the outer periphery of the receiving table is magnetically attracted and fixed to the drive device side. [0004] The conventional disk-shaped recording medium has the following problems. . The center bottom surface of the center hub is supported by the cradle of the drive device, but its area is relatively small, and the magnetic pole surface of the permanent magnet installed on the outer periphery of the cradle slightly steps down from the top surface of the cradle. Therefore, a gap is formed between the magnetic pole surface and the lower surface of the center hub. Therefore, when the disk-shaped recording medium is inserted in an oblique state, it may be magnetically attracted and fixed in an oblique state, causing a chucking error. [0006] Due to the drawing process when manufacturing the center hub, it is difficult to obtain the flatness of the disc bonding surface at the center hub flange. For this reason, when the disk-shaped recording medium is rotated, the magnetic disk fluctuates, the contact with the magnetic head is deteriorated, and the output is reduced. SUMMARY OF THE INVENTION An object of the present invention is to provide a disk-shaped recording medium which solves the above-mentioned drawbacks of the prior art, does not cause a chucking error or the like, has good contact with a head, and has stable output characteristics. It is in. According to the present invention, in order to achieve the above object, a center hub is fixed to a central portion of a recording disk such as a magnetic disk, and the center hub contacts a receiving surface of a drive device. In a disk-shaped recording medium having an abutting surface that is in contact with and a magnetically attracted surface facing a permanent magnet for fixing of a drive device, the center hub is a flat disk-shaped magnetic metal plate. And a synthetic resin annular body outsert molded to the magnetic metal plate, and a radially inner portion of the magnetic metal plate from the synthetic resin annular body becomes the suction surface, and the synthetic resin <br/> The lower surface of the annular body is the contact surface and is in front of the magnetic metal plate.
The surface of a portion protruding radially outward from the synthetic resin-made body is a joint surface with the recording disk. According to the present invention, as described above, the contact surface of the center hub is provided in a ring shape outside the suction surface in the radial direction so as to surround the suction surface, so that the range (area) of the contact surface is reduced. In addition to being expanded and having a contact surface substantially near the outer peripheral portion of the center hub, the disk-shaped recording medium can be always mounted in a stable state with respect to the drive device, thereby eliminating a chucking error and operating. Reliability can be improved. Further, by using a flat disk-shaped magnetic metal plate, the flatness of the joint surface with the disk can be reliably ensured, so that when the disk-shaped recording medium is rotated, the vertical vibration of the recording disk is reduced. Less and good contact with the head. Further, if the lower surface of the annular body serves as a contact surface and the surface of the magnetic metal plate portion projecting radially outward from the annular body serves as a joint surface with the recording disk, the contact surface (drive device) (The vertical positioning surface with respect to the recording disk), so that the positioning accuracy of the recording disk with respect to the drive device in the vertical direction is improved, and the contact state with the head is improved. ing. Next, an embodiment of the present invention will be described with reference to the drawings.
FIG. 1 is a longitudinal sectional view of a main part of a magnetic disk cartridge according to an embodiment, FIG. 2 is a plan view of a center hub used for the magnetic disk cartridge, and FIG. 3 is a partial longitudinal view showing a state where the magnetic disk cartridge is mounted on a drive device. FIG. FIG. 1 is a sectional view taken along line XX of FIG. As shown in FIG. 1, the magnetic disk cartridge includes a disk-shaped recording medium 1, a cartridge case 2 rotatably storing the disk-shaped recording medium 1, a cleaning sheet 3 disposed on the inner surface of the cartridge case 2, and a cartridge case 2. It mainly comprises a shirt (not shown) that opens and closes a head insertion port provided with a head. The disk-shaped recording medium 1 comprises a thin and flexible magnetic disk 4 and a center hub 5 fixed to the center of the disk by an adhesive or the like. Further, the center hub 5 is composed of a flat disk-shaped magnetic metal plate 6 made of, for example, a magnetic stainless steel plate, and an annular body 7 made of a synthetic resin (for example, polybutylene terephthalate) formed by outsert molding. . The annular body 7 has an inner annular body 7a having a spindle insertion hole 8 at the center, and an outer annular body 7b provided at a predetermined interval radially outward from the inner annular body 7a. A V-groove-shaped positioning surface 9 extending in a direction substantially perpendicular to the disk surface is formed on the inner peripheral surface of the inner annular body 7a. The lower surface of the outer annular body 7b protrudes downward from the lower surface of the magnetic metal plate 6 by a predetermined dimension (slightly longer than the height of the permanent magnet 10 described later) to form a flat contact surface 11 (see FIG. 1). . A plurality of through holes 12 are formed at substantially equal intervals along the circumferential direction at positions facing the inner annular body 7a and the outer annular body 7b of the magnetic metal plate 6, respectively. The inner annular body 7a and the outer annular body 7b are outsert molded so as not to come off from the magnetic metal plate 6. A fan-shaped drive pin insertion hole 13 is provided between the inner annular body 7a and the outer annular body 7b of the magnetic metal plate 6 and near the positioning surface 9. The upper surface or the lower surface (the upper surface in this embodiment) of the outer peripheral portion of the magnetic metal plate 6 protruding from the outer annular body 7b is the disk joining surface 14 (see FIG. 2). As shown in FIG. 3, the drive device has a flat surface extending to a position facing the outer annular body 7b on the outer periphery of the spindle 15, and the permanent magnet 1 is disposed on the flat surface.
0 are provided, and the drive pins 17 protrude from the flat surface. As shown in FIG. 2, the permanent magnet 10 is provided so as to be opposed to and close to the portion of the magnetic metal plate 6 exposed from between the inner annular body 7a and the outer annular body 7b. The area shown is an attraction surface 18 that is magnetically attracted by the permanent magnet 10. The annular portion of the flat surface outside the permanent magnet 10 becomes the receiving surface 16 and faces the contact surface 11 of the outer annular body 7b. Therefore, even when the disc-shaped recording medium 1 is mounted on the drive device at an angle, the disc-shaped recording medium 1 is horizontally received by the receiving surface 16 in a wide range,
The disk-shaped recording medium 1 is centered by being securely supported by the permanent magnet 10 and causing the peripheral surface of the spindle 15 to contact the positioning surface 9 based on the rotational moment of the drive pin 17. In the above embodiment, a disk-shaped recording medium for magnetic recording has been described. However, the present invention is not limited to this, and is applicable to, for example, a disk-shaped recording medium for optical recording or optical-magnetic recording. It is. According to the present invention, as described above, the contact surface of the center hub is provided in a ring shape outside the suction surface in the radial direction of the suction surface so as to surround the suction surface. ) Is expanded, and the contact surface is substantially near the outer periphery of the center hub, so that the disk-shaped recording medium can be always mounted in a stable state with respect to the drive device, thereby eliminating the chucking error. Thus, the operation reliability can be improved. Further, by using a flat disk-shaped magnetic metal plate, the flatness of the joint surface with the disk can be reliably ensured, so that when the disk-shaped recording medium is rotated, the vertical vibration of the recording disk is reduced. Less and good contact with the head. Further, if the lower surface of the annular body is a contact surface, and the surface of the magnetic metal plate portion projecting radially outward from the annular body is a joint surface with the recording disk, the contact surface (drive device) (The vertical positioning surface with respect to the recording disk), so that the positioning accuracy of the recording disk with respect to the drive device in the vertical direction is improved, and the contact state with the head is improved. ing.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a longitudinal sectional view of a main part of a magnetic disk cartridge according to an embodiment of the present invention. FIG. 2 is a plan view of a center hub used for the magnetic disk cartridge. FIG. 3 is a partial longitudinal sectional view showing a state where the magnetic disk cartridge is mounted on a drive device. [Description of Signs] 1 Disk-shaped recording medium 2 Cartridge case 4 Magnetic disk 5 Center hub 6 Magnetic metal plate 7a Inner annular body 7b Outer annular body 8 Spindle insertion hole 9 Positioning surface 10 Permanent magnet 11 Contact surface 13 Drive pin insertion hole 14 Disc joining surface 15 Spindle 16 Receiving surface 17 Drive pin 18 Suction surface

──────────────────────────────────────────────────続 き Continued on front page (58) Field surveyed (Int.Cl. ⁷ , DB name) G11B 23/00 601

Claims (1)

(1) A center hub is fixed to a center portion of a recording disk, and a contact surface where the center hub abuts a receiving surface of the drive device; and a permanent magnet for fixing the drive device. A disk-shaped recording medium having a suction surface that is magnetically sucked in opposition to the center hub, wherein the center hub is made of a flat disk-shaped magnetic metal plate and a synthetic resin formed by outsert molding on the magnetic metal plate. Of the magnetic metal plate made of the synthetic resin
Radially inner portion the annular body becomes the suction surface, wherein
The lower surface of the synthetic resin ring body becomes the abutment surface, and wherein the surface of the synthetic resin portion projecting radially outwardly from the annular body of the magnetic metal plate with the bonding surface of the recording disc Disk-shaped recording medium.