JP2565154B2 - Magnetic disk - Google Patents

Description

The present invention relates to a magnetic disk in which a flexible magnetic sheet is attached to the surface of a rigid disk-shaped substrate.

[Outline of Invention]

The present invention relates to a magnetic disk in which a magnetic sheet is attached by applying tension to at least one surface of a disk-shaped substrate having convex portions on the inner and outer circumferences, and the substrate is a breathable sintered body. Therefore, for example, it is not possible to cope with depressurization at the time of transportation, and it is intended to improve reliability and performance.

[Conventional technology]

As a magnetic disk that is a disk-shaped magnetic recording medium,
So-called hard disks that use metal alloys or ceramics for substrates, and flexible disks (so-called floppy disks) that use flexible resin films such as polyester and polyimide for substrates are well known. For example, external devices such as computers and word processors. Widely used as a storage medium.

By the way, these hard disks or floppy disks have advantages and disadvantages in terms of contact with a magnetic head and dimensional stability.

Therefore, in recent years, as described in, for example, Japanese Patent Laid-Open No. 61-151838, a magnetic disk having the characteristics of the above-mentioned hard disk and floppy disk, that is, a magnetic disk having flexibility on the surface of a rigid disk-shaped substrate is used. A magnetic disk with a sheet attached has been proposed.

The magnetic disk is composed of a rigid disk-shaped substrate and a thin polymer film appropriately attached to the peripheral portion of the substrate, so that the magnetic head does not directly hit the hard substrate. It is superior to the hard disk in that it has a flat recording surface that can be deformed to accommodate irregularities on the head surface, and the like. On the other hand, the magnetic disk is superior to the floppy disk in that it does not require a pressure pad and the recording surface has substantially the same dimensional stability as the rigid substrate to which it is attached.

However, since the magnetic disk has a shape in which a magnetic sheet is attached by applying tension to at least one surface of a substrate provided with convex portions on the inner and outer circumferences of a disk-shaped disk,
A gap is formed between the magnetic sheet and the disk, and air is sealed in that portion. Therefore, for example, when the atmospheric pressure changes or the temperature changes in various states such as during transportation or use of the magnetic disk, a pressure difference is generated in the gap between the magnetic sheet and the disk, and air in the gap is generated. The expansion or contraction adversely affects the tension of the magnetic sheet and the adhesion of the magnetic sheet to the disk, and causes an accident such as damage to the magnetic sheet. In particular, when considering the transportation of the magnetic disk by aircraft,
It becomes a big problem. In addition, the presence of air sealed in the gap between the magnetic sheet and the disk causes resonance vibration in the magnetic sheet or disk from the viewpoint of kinematics, which may cause abnormal operation during recording / reproduction. Cause problems.

Therefore, in order to solve the above-mentioned problems, for example, in the case of a single-sided magnetic disk, a hole is made in a substrate to which a magnetic sheet is attached so that a sealed portion can be removed to freely cope with a change in atmospheric pressure. You can take the However, this method has problems that it cannot support a double-sided disk and that the manufacturing process of the substrate becomes complicated.

Further, in the case of a double-sided magnetic disk, for example, a method can be adopted in which a pinhole is formed in the magnetic sheet itself so that the sealed portion can be eliminated to freely cope with changes in the atmospheric pressure. However, when the pinholes are formed in the magnetic sheet, a space for forming the pinholes is required, which is not only disadvantageous from the viewpoint of increasing the recording density, but also anxiety about strength remains.

[Problems to be solved by the invention]

As described above, in a magnetic disk of a type in which a magnetic sheet is attached to a rigid substrate, a gap is formed between the magnetic sheet and the substrate, and air is sealed in that portion.

Therefore, for example, when the atmospheric pressure or the temperature changes, a pressure difference is generated in the gap portion between the magnetic sheet and the disk, and the air in the gap portion expands or contracts, damaging the magnetic sheet, or the gap portion. The air present in the magnetic field causes unnecessary resonance vibration in the magnetic sheet or disk from a dynamic point of view, and causes various problems in recording and reproducing.

Further, when trying to solve the above-mentioned problems by taking a method such as removing a hermetically sealed portion and forming a hole in a substrate or a magnetic sheet so as to freely cope with a change in external atmospheric pressure, there is a problem in manufacturing or strength. Occurs.

Therefore, the present invention has been proposed in view of the above-mentioned conventional circumstances, and provides a magnetic disk that eliminates the airtight state between the substrate and the magnetic sheet, and can cope with changes in external pressure during transportation and the like. Therefore, it is an object of the present invention to provide a magnetic disk excellent in reliability and productivity.

[Means for solving problems]

In order to achieve the above-mentioned object, the present invention provides a magnetic disk in which a magnetic sheet is attached by applying tension to at least one surface of a disk-shaped substrate having convex portions on the inner and outer circumferences, and the substrate is ventilated. It is characterized in that it is a polyarylate resin sintered body having properties.

Sintered polyarylate resin has a porosity of about 35 to 40%, and most of them has about 70%, and even if pressure changes due to external atmospheric pressure or temperature changes, it is porous and air flows freely through the pores. It is in a possible state and can sufficiently cope with the pressure difference. In the above sintered body,
A porosity of 5% or more is sufficient.

By producing a magnetic disk substrate using such a sintered body having air permeability, the air existing in the gap between the magnetic film and the disk is freely vented, and expansion,
Since the state change such as shrinkage does not occur, problems such as damage to the magnetic film can be solved.

[Action]

By using a breathable polyarylate resin sintered body for the substrate, the air existing in the gap between the magnetic sheet and the substrate is freely ventilated through the substrate, so that the pressure difference due to pressure change and temperature change is eliminated. It will not be received and will not damage the magnetic sheet. Further, the polyarylate resin is excellent in mechanical strength and has extremely excellent recovery characteristics, and therefore, is highly suitable as a substrate of a magnetic disk.

In addition, since the polyarylate resin sintered body having air permeability on the substrate can be easily molded by an ordinary molding technique, the manufacture of the substrate can be simplified.

〔Example〕

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

As shown in FIG. 1, the magnetic disk of this embodiment is constructed by bonding a magnetic sheet (10) to both sides of a rigid disk-shaped substrate (1) with an adhesive by applying a certain tension. is there.

Here, the substrate (1) includes a center core portion (2) for mounting on a spindle shaft of a recording / reproducing apparatus (not shown) and a supporting portion (3) for holding a magnetic sheet (10), Along the outermost peripheral edge and the innermost peripheral portion of both sides of the support portion (3), an annular protrusion (4) having an annular shape,
(5), (6) and (7) are provided. Conversely speaking, the support portion (3) is formed with wide and shallow grooves (8) and (9) on both surfaces thereof. The magnetic sheet (10) is provided between the outermost peripheral annular convex portion (4) and the innermost peripheral annular convex portion (6) or the outermost peripheral annular convex portion (5). ) And the annular convex portion (7) of the innermost peripheral portion are stretched with a predetermined gap.
In addition, the above-mentioned gap, that is, the groove (8) of the support portion (3),
(9) is formed as an escape groove for relaxing the head contact of the magnetic head of the recording / reproducing apparatus, and its shape is not particularly limited.

The magnetic sheet (10) is a flexible base film such as a polyethylene terephthalate film or a polyimide film having a magnetic layer formed on its surface.
The supporting portion (3) is bonded with an acrylic adhesive, an epoxy adhesive, or the like. Of course, the adhesive is not limited to this and may be any adhesive. The magnetic layer formed on the surface of the magnetic sheet (10) is composed of γ-Fe ₂ O ₃
A magnetic powder such as a ferromagnetic oxide powder such as Fe or a ferromagnetic metal powder such as Fe may be dispersed and applied in a binder resin, or a ferromagnetic metal thin film such as a Co-Ni alloy may be vapor-deposited. Alternatively, it may be deposited by a vacuum thin film forming technique such as sputtering.

On the other hand, the disk-shaped substrate (1) was produced in this example by a thermoplastic aromatic polyester resin composed of aromatic dicarboxylic acid and divalent phenol, that is, a sintered body of polyarylate resin. .

An example of the basic structural unit of the polyarylate resin is as follows.

As described above, since the polyarylate resin is a structural unit in which structurally rigid aromatic nuclei are linked by a mobile ester bond, it is basically extremely tough and highly heat resistant. It has a high heat resistance that can withstand a normal temperature of 130 ° C.

In addition, because it is non-crystalline, it has excellent transparency, and because it does not crystallize due to changes in heat, solvents and other environments, and changes over time, changes in appearance and changes in various performances are very small, and it also has excellent recovery characteristics. It has features such as

Further, the polyarylate resin has a coefficient of thermal expansion close to that of a metal material used as a substrate material of a general hard disk, so that dimensional accuracy is very stable.

The above-mentioned sintered body of polyarylate resin is easily produced by pressurizing and heating powder or the like of polyarylate resin to bond the particles to each other. Actually, a substrate (1) made of a sintered body was produced by placing powder of polyarylate resin in a mold and sintering it.

The produced polyarylate resin sintered body had a spongy composition and had air permeability. Generally, a sintered body of polyarylate resin has an extremely high porosity and has a very high porosity of 34 to 70%, but the porosity of the manufactured substrate (1) is about 50%, It showed good air permeability. The porosity of the polyarylate resin can be selected so that desired characteristics can be obtained, and thus the degree of freedom is high.

By using the polyarylate resin having excellent porosity as the substrate material as described above, the substrate (1)
Air in the gaps, that is, the grooves (8) and (9) formed between the magnetic sheet (10) and the magnetic sheet (10) can freely flow,
Therefore, it is not affected by the pressure difference caused by pressure change, temperature change, etc. Therefore, the groove (8),
Since the air in (9) neither expands nor contracts, it does not damage the magnetic sheet, and the reliability and performance of the magnetic disk can be prevented from deteriorating.

〔The invention's effect〕

As is clear from the above description, the magnetic disk according to the present invention uses the air-permeable polyarylate resin sintered body as the substrate, so that the air existing in the gap between the magnetic sheet and the disk passes through the substrate. Since it is freely ventilated, the pressure difference due to pressure change and temperature change is not applied and the magnetic sheet is not damaged.

Further, the polyarylate resin sintered body having air permeability is
The polyarylate resin can be easily molded by a normal molding technique, and the polyarylate resin has excellent mechanical strength and excellent recovery characteristics, and thus is highly suitable as a substrate for a magnetic disk.

Further, since the substrate itself has air permeability, the manufacturing process can be simplified without the step of forming a hole in the substrate or a pinhole in the magnetic sheet.

[Brief description of drawings]

FIG. 1 is a schematic sectional view showing a structural example of a magnetic disk to which the present invention is applied. 1 ...... Substrate 2 ...... Center core part 3 ...... Support part 4,5 ...... Outermost peripheral annular convex part 6, 7 ...... Innermost peripheral annular convex part 8, 9 ...... Groove 10 ...... Magnetic sheet

Claims (1)

(57) [Claims] 1. A magnetic disk comprising a disk-shaped substrate having protrusions on the inner and outer circumferences and a magnetic sheet attached to at least one surface of the disc-shaped substrate by applying tension to the substrate. A magnetic disk characterized by being a body.