JP2674067B2 - optical disk - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION A. Field of Industrial Application The present invention relates to an optical disc that is mounted in a magnetic clamp type disc rotation drive device and is rotated. B. Summary of the Invention By configuring the magnetic plate and the ring-shaped member made of synthetic resin formed on the disk hub, the disk hub can be securely attached to the disk substrate without dimensional error, and the flatness of the magnet facing surface of the disk hub can be ensured. While maintaining the above, it is possible to provide an optical disc in which the facing area can be increased and the disc can be reliably rotated integrally with the disc rotation drive device.

C. Conventional Technology Conventionally, it is possible to record and / or reproduce an information signal by using optical recording and / or reproducing means, and use recording and / or reproducing means composed of optical means and magnetic means. 2. Description of the Related Art There is used an optical disc capable of recording and / or reproducing an information signal.

In order to record and / or reproduce an information signal on an optical disc, a disc rotation drive device for rotating the optical disc is known to employ a magnet clamp system. As shown in FIG. 4, this magnet clamp type disk rotation drive device has a magnet 33 for generating a uniform magnetic field arranged in a disk table 32 formed around a center spindle 31. A hub 41 made of a metal plate, which is a magnetic body, is attached to the center of the main surface of the disk to magnetically attract the hub 41 to integrate the optical disk 40 with the disk table 32 for rotational operation.

As shown in FIG. 4, the hub 41 attached to the central portion of the main surface of the disc substrate 42 constituting the optical disc 40 is composed of a protrusion 44 having a spindle hole 43 in the center and a flange portion 45 provided on the outer periphery thereof. A central hole 46 provided in the central portion of the disc substrate 42 is inserted from the non-recording surface 42a side of the information signal, and is joined to the disc substrate 42 at the flange portion 45 by a photocurable adhesive or the like. Is known.

The surface of the protruding portion 44 of the hub 41 is made to face the magnet 33 in the disk table 32, and the protruding portion 44 is magnetically attracted to the magnet 33, whereby the disk table 32 and the optical disk 40 are integrated. It is designed to be rotatable. At this time, at the rotational height position of the optical disc 40 on the disc table 33, the reference surface 34 provided on the outer peripheral side of the disc table 32 is the disc substrate 42.
Positioning is carried out by abutting on the non-signal recording area 42b provided on the inner peripheral side.

D. PROBLEMS TO BE SOLVED BY THE INVENTION By the way, the optical disc configured as described above has a stable suction force with respect to the disc table so that it can be rotated integrally with the disc table when mounted on the disc table. Must be installed. Also,
The spindle hole in the hub must be properly centered with respect to the disk substrate.

Therefore, in order to maintain a stable attractive force and centering accuracy, it is necessary to eliminate the variation of the H ₀ dimension shown in FIG. 4 and always allow the protruding portion of the hub to face the magnet at a fixed position. is there. Specifically, the above H ₀
It is desirable that the dimensional error is about ± 0.05 mm.

However, since the hub attached to the center of the disc substrate and the metal plate are punched and pressed, and so-called deep drawing is performed to form the shape as described above,
Actually, the flange portion is deformed and processed by springback etc. as shown in FIGS. 5A and 5B after processing,
In many cases, parallelism cannot be maintained with respect to the inner peripheral side joint portion of the disk substrate. Therefore, H _{1 in} Figures 5A and 5B
As indicated by H ₂ and H ₂ , the mounting height position H ₀ of the hub with respect to the disk substrate cannot be kept constant, and it is difficult to set the joining position within a certain dimensional error.

Further, it is not possible to secure a sufficient bonding surface 45a at the disc substrate and this flange portion, and it is not possible to perform bonding with sufficient strength.

Further, since the hub has the protrusion and the flange formed by deep drawing the metal plate, the thickness of the metal plate cannot be increased. Therefore, wear is likely to occur due to repeated insertion and removal of the spindle shaft on the side of the disk rotation driving device in the spindle hole.

When a metal plate is punched and pressed for deep drawing, burrs 47 are formed on the outer peripheral edge of the hub after punching as shown in FIG. If this burr 47 is not removed, the inner surface of the cartridge half that accommodates the optical disk 40 to which this hub is attached may be scraped off during the rotating operation, and the generation of shavings causes an error in recording and / or reproducing an information signal. This may adversely affect the reliability of the recording / reproducing characteristics of the information signal. for that reason,
This increases the number of steps for removing the burr 47, which may cause deterioration of work efficiency.

Further, in forming the protrusion by deep drawing, cracks are likely to occur in the curved portion of the metal plate unless the curved portion has a large arc r. Therefore, as shown in FIG. 4, there is also a problem that the disk hub surface W ₁ facing the magnet in the disk table is reduced with respect to the magnet surface W ₂ .

Therefore, the present invention solves the above-mentioned problems by forming the disk hub from the magnetic plate formed in a flat plate shape and the ring-shaped member made of synthetic resin without forming the disk hub by deep drawing. It is proposed for the purpose of providing a resolvable optical disc.

E. Means for Solving the Problems In order to solve the above problems and achieve the above object, the optical disc according to the present invention is formed of a synthetic resin having a recording layer in which an information signal is recorded and having a central hole. Disc substrate, a magnetic plate mounting portion fitted in the center hole, and a flange portion having a diameter larger than the center hole are integrally formed of a synthetic resin, and the flange portion is bonded to the joint surface side of the disc substrate. A disk hub having a ring-shaped member in which a recess for absorbing the agent is formed, and a substantially flat plate-shaped magnetic plate that is attached to the tip end side of the magnetic plate attachment portion and is magnetically attracted to the magnet of the disk rotation driving device. Prepare The disk hub has a tip end side on which the magnetic plate is attached projected toward one surface side of the disk substrate to fit the magnetic plate attachment portion into the center hole,
The flange portion is attached to the other surface side of the disk substrate by being joined with an adhesive.

F. Action The disk hub to which a magnetic plate formed in a flat plate shape is attached is attached to a disk substrate made of synthetic resin via a ring-shaped member made of synthetic resin. When the disc hub is joined to the disc substrate, the excess adhesive is absorbed by the concave portion for absorbing the adhesive provided in the flange portion.

The magnetic plate magnetically attracted by the magnet of the disk rotation driving device is attached to the disk substrate via a ring member made of synthetic resin without directly contacting the disk substrate.

G. Embodiment Hereinafter, a preferred embodiment of the present invention will be described with reference to the drawings.

The optical disc 1 to which the present invention is applied is a one-sided use type in which an information signal is recorded only on one side.

The optical disc 1 according to the present invention has a ring-shaped member 3 and a magnetic material in order to clamp the optical disc 1 to the disc rotation drive device 20 at the center of the main surface on the signal recording surface side of a disc substrate 2 formed in a disc shape. A disk hub 5 composed of a metal plate 4 made of is attached.

The disk substrate 2 to which the disk hub 5 is attached is
A synthetic resin or glass material having a light-transmitting property, such as a glass material, is formed into a disc shape, and a recording layer, a reflective film, and a protective film layer are laminated on one side, and an information signal is transmitted on one side thereof. It can be recorded or played back. A center hole 6 is formed in the center of the disc substrate 2.

As shown in FIGS. 1 and 2, the disc hub 5 attached to the central portion of the disc substrate 2 is magnetically attracted to the magnet 23 of the disc table 22 in order to clamp the disc substrate 2 to the disc rotation drive device 20. And a ring-shaped member 3 made of synthetic resin for attaching and supporting the metal plate 4 to the disk substrate 2.

The metal plate 4 is formed by punching into a flat disk shape, and has a spindle hole 7 at the center of the main surface thereof, with which the center spindle 21 of the disk rotation drive device 20 engages. Further, as shown in FIGS. 3A and 3B, the outer periphery of the metal plate 4 is half-blanked to provide a stepped portion 8, and the stepped portion 8 is insert-molded to the ring-shaped member 3. A plurality of notched recesses 9 for improving the resin surroundings when integrally attached by
Is provided.

The main surface portion 4a of the metal plate 4 is a disk rotation drive device.
The flatness is maintained with high accuracy so as to face the magnet 23 of the disk table 22 provided on the disk 20 and receive uniform magnetic attraction.

Next, the ring-shaped member 3 is attached to the center hole 6 of the disk substrate 2.
A magnetic plate mounting portion 12 that is fitted to the disk substrate 2 and projects to the one surface 2a side of the disk substrate 2, and a flange portion 10 joined to the peripheral edge of the center hole 6 on the other surface 2b side of the disk substrate 2.

The magnetic plate mounting portion 12 of the ring-shaped member 3 is formed in a cylindrical shape having a diameter that fits in the central hole 6 of the disk substrate 2 with a fine clearance c, and is formed around the outer periphery of the metal plate 4. The stepped portion 8 formed in the above is held by insert molding and integrally molded.

The flange portion 10 of the ring-shaped member 3 is formed so as to project from the outer periphery of the magnetic plate mounting portion 12. One side of the flange portion 10 has a disk substrate 2
And the flatness is maintained with high accuracy. Bonding surface of the flange portion 10 to the disk substrate 2
On the side of 10a, there is a concave portion for absorbing excess adhesive used when the disc hub 5 is joined to the disc substrate 2.
11 are provided. This concave portion 11 is shown in FIGS.
As shown in the figure, the flange portion 10 is formed at the base end portion which is the connecting portion side to the magnetic plate mounting portion 12.

The magnetic plate mounting portion 12 of the ring-shaped member 3 is concentrically provided with a groove portion 13 for lightening from the other surface side 2b so as to suppress deformation of the ring-shaped member 3 such as heat shrinkage due to temperature change. ing.

As described above, in the disk hub 5 including the ring-shaped member 3 and the metal plate 4, the magnetic plate mounting portion 12 is fitted into the central hole 6 from the other surface 2b which is the non-signal recording surface side of the disk substrate 2. The flange portion 10 is bonded to the peripheral edge of the center hole 6 on the other surface 2b side of the disk substrate 2 with an adhesive 14 such as an ultraviolet curing type. That is, in the disk hub 5, the tip end side of the magnetic plate mounting portion 12 to which the metal plate 4 is attached is projected to the one surface 2a side of the disk substrate 2, and the flange portion 10 is attached to the other surface 2b side of the disk substrate 2. When the disc hub 5 attached to the disc substrate 2 by being joined to the disc substrate 2 is joined to the disc substrate 2, within the clearance c between the center hole 6 and the outer circumference of the magnetic plate attachment portion 12, the disc substrate 2 is concentric or spiral. The center of the spindle hole 5 of the metal plate 4 is joined to the center of the recording track formed like a circle.

At the time of this joining, the excess adhesive 14 applied to the joining surface 10a of the disc hub 5 is absorbed by the concave portion 11 provided at the base end of the flange portion 10 and the ring-shaped member 3 to the disc substrate 2 is formed. It is possible to bond them uniformly.

Further, a flange portion 10 which is a joint portion of the disc hub 5 attached to the disc substrate 2 with the disc substrate 2.
However, since the parallelism is formed with high precision by the synthetic resin, the effective bonding area with the disk substrate 2 is greatly expanded as compared with the conventional one.

As described above, since the ring-shaped member 3 of the disc hub 5 is joined to the disc substrate 2 at a uniform mounting height position, the mounting height position of the disc substrate 2 and the metal plate 4 when the disc hub 5 is mounted. It is possible to prevent the error from occurring.

Therefore, the distance H between the magnet facing surface, which is the main surface 4a of the metal plate 4, and the one surface 2a serving as the information recording surface of the disk substrate 2 can be kept much more constant than in the conventional mounting means. Therefore, a stable suction force can be generated when the optical disk 1 is clamped by the disk rotation drive device 20, and a focus error of an optical recording and / or reproducing means can be used in recording and / or reproducing an information signal. Can be prevented.

Further, since it is not necessary to perform deep drawing on the metal plate 4 of the disc hub 5 as in the conventional case, the plate thickness of the metal plate 4 can be sufficiently taken, the suction force can be improved, and the spindle hole 7 can be formed. It is possible to improve the strength and prevent its wear.

Further, since the metal plate 4 is formed in a flat disc shape, the main surface side 4a can be easily polished, and its flatness can be maintained with high accuracy. Further, since the metal plate 4 is formed in a flat disk shape, the metal plate 4 can be made to face the entire area of the magnet 23, and the attraction area by the magnet 23 can be increased to improve the attraction force.

Furthermore, since the outer peripheral portion of the disc hub 5 is covered with the ring-shaped member 3 made of synthetic resin, the optical disc 1
The inner surface of the cartridge half for accommodating the optical disc 1 is not scraped off during the rotation operation of.

H. Effects of the Invention As described above, in the optical disc according to the present invention, the disc hub is composed of the magnetic plate formed in a flat plate shape and the ring-shaped member made of synthetic resin, and the ring-shaped member made of synthetic resin is interposed. Since it is bonded to a synthetic resin disc substrate, this disc hub can be attached to the disc substrate with high accuracy without dimensional errors.
It is possible to increase the facing area while maintaining the flatness of the magnet facing surface of the disk hub. Further, since the flange portion is provided with a concave portion on the joint surface side of the disc substrate for absorbing the adhesive used when the disc hub is joined to the disc substrate, the disc hub is more accurately attached to the disc substrate. Can be installed.

Therefore, it is possible to suppress the occurrence of inclination, generate a stable suction force, and mount the disc rotation drive device.
It is possible to suppress the occurrence of a focus error when recording and / or reproducing the information signal.

Further, since the disc hub is attached by bonding the synthetic resin disc substrate with the synthetic resin ring member, the difference in the coefficient of thermal expansion between the disc hub and the disc substrate can be reduced. Further, it is possible to suppress the influence of the difference in the thermal expansion length generated between the magnetic plate made of metal and the disk substrate made of synthetic resin, which have greatly different thermal expansion coefficients, and suppress the generation of distortion due to heat of the disk substrate. it can.

[Brief description of the drawings]

FIG. 1 is an exploded perspective view of an optical disc according to the present invention,
FIG. 2 is a cross-sectional view of essential parts showing a state in which the optical disk is clamped on the disk table of the disk rotation driving device. 3A and 3B are a partial plan view and a sectional view of a metal plate used in the optical disc according to the present invention. FIG. 4 is a sectional view of an essential part showing a state in which a conventional optical disc is clamped to a disc table of a disc rotation drive device, and FIGS. 5A and 5B are states in which a disc hub is joined to a disc substrate in a conventional optical disc. FIG. 6 is a cross-sectional view of an essential part of a disk hub used in a conventional optical disk. 1 ... Optical disc 2 ... Disc substrate 3 ... Ring-shaped member 4 ... Metal plate 5 ... Disc hub 6 ... Center hole 10 ... Flange

Claims (1)

(57) [Claims] 1. A disk substrate made of a synthetic resin having a recording layer on which an information signal is recorded and having a central hole, a magnetic plate mounting portion fitted in the central hole, and a diameter larger than the central hole. The flange portion is integrally formed of synthetic resin, and the ring-shaped member is provided with a concave portion for absorbing an adhesive on the joint surface side of the flange portion to the disk substrate, and is attached to the tip end side of the magnetic plate attaching portion. A disk hub having a substantially flat plate-shaped magnetic plate that is magnetically attracted to the magnet of the disk rotation drive device, wherein the disk hub has a tip end side on which the magnetic plate is attached on one surface side of the disk substrate. The magnetic plate mounting portion is fitted into the center hole, and the flange portion is attached to the other surface side of the disc substrate by an adhesive agent. Optical disk.