JPH06101182B2 - Recording or playback device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention uses a recording or reproducing apparatus, particularly a flexible magnetic disk as a record carrier, and stabilizes a portion of the disk that passes through a recording or reproducing magnetic head. The present invention relates to a recording or reproducing apparatus having a stabilizing member provided so as to face the head through the disk for the purpose of maintaining a good contact relationship between the disk and the head.

[Outline of disclosure]

The present specification and drawings are provided so as to face a magnetic head via a flexible magnetic disk that is a record carrier, and at the time of rotation of the disk, stabilize at least a portion of the disk that passes through the head. In a recording or reproducing apparatus provided with a stabilizing member to be made stable, by forming the stabilizing member from a conductive resin, the processing accuracy of the stabilizing member is improved, and the processing is facilitated, thereby improving performance. Disclosed is a technique capable of providing a good and inexpensive recording or reproducing apparatus.

[Conventional technology]

In a recording or reproducing apparatus using a flexible magnetic disk, when a recording or reproducing magnetic head (hereinafter abbreviated as “head”) is brought close to a high-speed rotating flexible magnetic disk, the air flow generated by the rotation of the disk is generated. The contact state between the head and the disk cannot be maintained stably and satisfactorily, so that the recording and reproducing performance is deteriorated.

In order to solve this, a stabilizing member is provided on the opposite side of the head through the disk, and the air flow generated by the disk is caused not only between the head and the disk but also between the stabilizing member and the disk and Efforts have been made to maintain stable and good contact with the disk.

[Problems to be solved by the invention]

By the way, such a stabilizing member is often formed by using a metal material such as aluminum as a measure against electrostatic charging. However, when a metal material is used, it is important to consider the machining. Inevitably, it was not possible to obtain an inexpensive product because it was inevitable to mass-produce and the processing cost was high. Especially, when the shape becomes relatively complicated in consideration of the influence of the pressure due to the air flow, this tendency becomes more and more remarkable, and along with this, it is difficult to obtain satisfactory performance due to processing restrictions. There was also a face.

Therefore, the present invention improves the processing accuracy of the stable member,
In addition, it is an object of the present invention to provide an inexpensive recording or reproducing apparatus which has good performance and is easy to process.

[Means for solving problems]

In order to solve the above problems, a feature of the present invention is that a magnetic head (4) and a head (4) facing a magnetic head (4) as a record carrier are opposed to each other. A recording or reproducing apparatus provided with a stabilizing member (10) for stabilizing at least a portion of the disk that passes through the head when the disk rotates, wherein the disk of the stabilizing member (10) is provided. A concave groove portion (11) for escaping the movement of the head is formed at a position on the surface facing the head, and the concave groove portion has a width that increases from the outer peripheral portion of the disk toward the central portion. On the surface of the stabilizing member (11) facing the disk, which is on the downstream side of the groove in the rotation direction of the disk, a plurality of grooves are formed substantially parallel to the groove (11). Recessed groove portions (13,15) and convex portions (12,14,16) are alternately formed. The convex portion (12,14,16) faces the disk in the disc rotation direction. An inclined surface is formed, and the stabilizing member (11) is
It is a recording or reproducing device which is entirely made of a conductive resin.

[Action]

By forming the stable member with a conductive resin, the processing cost can be significantly reduced, and even a complicated shape can be mass-produced with high accuracy.

Further, since it is a conductive resin, it is easy to take measures against electrostatic charging.

In addition, taking advantage of the ease of molding, considering the shape of the deformation of the disk when the disk is rotated with the magnetic head in contact, the head escape formed at the position facing the head of the stabilizing member. The concave groove part of is widened as it goes to the center of the disk, and further, by forming a plurality of convex parts and concave groove parts for preventing the disk from floating and stabilizing it on the downstream side in the disk rotation direction, It is possible to achieve high disk stability.

〔Example〕

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

In FIG. 1, reference numeral 1 denotes a flexible magnetic disk as a record carrier, and a center core 2 made of, for example, plastic is attached to the center of the flexible magnetic disk, and a disk rotation motor 18 is provided in a center hole 3 of the center core 2. It is mounted on the rotary spindle 19 and rotated, for example, in the direction of arrow A in the figure. A magnetic head 4 for recording or reproduction is supported by a head moving table 7 (FIG. 2), and is moved by the moving table 7 in the radial direction of the disk 1 as shown by an arrow B. As a result, when recording a signal, a circular or circular recording track is formed on the recording surface of the disk. Reference numeral 10 is a stabilizing plate as a stabilizing member provided in a relationship facing the head 4 through the disk 1 for the purpose of stabilizing the portion of the disk 1 that passes through the head 4, the details of which will be described later. Reference numeral 5 is a restriction plate also provided on the side of the head 4, and is arranged so as to face the stabilizer plate 10 with the disk 1 in between, and the head 4 projects through the opening 6.

In FIG. 2, reference numeral 11 is a recessed portion provided at a substantially central portion of the stabilizer plate 10 for allowing the head 4 to escape.
The magnetic disk 1 is formed so as to have a depth and a width that are sufficient to be maintained at about atmospheric pressure in the rotating state.

As shown in FIG. 3, the shape of the head relief recess 11 formed on the surface of the stabilizer 10 facing the disk is such that the disk center side opening width d ₁ is wider than the disk outer peripheral side opening width d ₂ . It has a unique shape. This is because the deformation of the disk 1 caused by the protrusion of the head 4 in the disk circumferential direction is
As shown in FIGS. 4 (A) and 4 (B), under the influence of the center / core 2, the disk 1 is wide on the rotation center side and becomes narrower as it goes away from the center in the radial direction. This makes it possible to obtain a stable and good contact state in the entire movement region of the head 4.

Reference numerals 13 and 15 are convex portions sequentially provided on the downstream side of the concave portion 11 in the rotation direction A of the disk 1, and these have a constant opening width. At, they are shaped so that they are maintained at about atmospheric pressure. 12, 14 and 16 are these recesses 13
The heights of the protrusions are divided by 15 and 15, and the heights of the protrusions decrease toward the downstream side of the stabilizer 10. That is, the surface with respect to the magnetic disk 1 is inclined. These ridges
Regarding the relationship between the inclination angles of the surfaces of 12, 14 and 16 facing the magnetic disk 1, the angle formed with respect to the rotation reference surface of the magnetic disk 1, that is, the surface orthogonal to the rotation axis of the disk rotation motor 18 is the convex portion. 12 is the largest, convex part 14 is next, and convex part 16
Is set to the smallest. In other words, the stabilizer plate 10
The angle formed by the inclined surfaces of the convex portions 12, 14, 16 with respect to the rotation reference plane is set to decrease toward the downstream end of the. This is because, as shown in FIG. 2, the magnetic disk 1 is deformed so that, in its rotating state, the magnetic disk 1 is inclined so as to be closer to a portion facing the magnetic head 4, so that the convex portions 12, 14, 16 are The gap between the inclined surface and the magnetic disk 1 is
In order to generate the required positive pressure between the two, the gaps at the edge portions 12e, 14e, 16e of each inclined surface are minimum, and the gap is maintained at the required size over the entire surface of each inclined surface. This is to make the shape of the gap substantially wedge-shaped. Further, each of the edge portions 12e, 14e, 16e can be on the same plane, and the surface of the convex portion 17 on the upstream side, which will be described later, facing the magnetic disk 1 can also be on the same plane. The edge portions 12e, 14e, 16e may be formed so as to have a lower height, that is, the edge portion 12e, 14e, 16e, that is, the edge portion 12e, 14e, 16e.

Reference numeral 17 denotes a convex portion on the upstream side of the stabilizer 10, and in this example, the surface facing the magnetic disk 1 is not inclined and is parallel to the rotation reference surface.

The arrow C in FIG. 3 indicates the direction of the center core 2 of the disk 1.

Next, in the rotating state of the magnetic disk 1, the airflow pressure between the stabilizer 10 and the magnetic disk 1 having the above-mentioned configuration and the second
The operation of the illustrated apparatus will be described. During rotation of the magnetic disk 1, the magnetic head 4 projects toward the magnetic disk 1 side, and in the convex portion 17 on the upstream side of the stabilizer 10, the gap with the magnetic disk 1 gradually narrows toward the downstream side, and the edge portion 18e
Will be the smallest. The air flow flowing through the wedge-shaped gap generates a positive pressure, and the magnetic disc 1 is pushed down toward the regulation plate 5. In the recess 11 for the escape of the head 4, the gap with the magnetic disk 1 is sufficiently large, so that the atmospheric pressure becomes almost atmospheric pressure, and the magnetic disk 1 receives almost no external force due to the air flow. Further, depending on the shape (depth and width) of the recess 11, the recess
Negative pressure can be avoided at 11.

In the convex portion 12 on the downstream side of the stabilizer plate 10, due to the shape of the inclined surface facing the magnetic disk 1, the gap between them is the smallest at the edge portion 12e, and like the convex portion 17 on the upstream side, a wedge-shaped gap. Are formed, and the air flow flowing there generates a positive pressure.
In the next concave portion 13, the atmospheric pressure is maintained in the same manner as the concave portion 11, and the generation of negative pressure can be avoided. Convex parts on the further downstream side 14,1
At 6 and the recess 15, the same air flow pressure state as described above is obtained. Therefore, the magnetic disk 1 is pushed down in the direction of the regulation plate 6 by the positive pressure successively generated at the convex portions 12, 14, 16.

For the above reason, the magnetic disk 1 is pushed down in the direction of the regulating plate 5 without generating a negative pressure on both the upstream side and the downstream side of the stabilizer 10, and its shape in the rotating state is the portion facing the magnetic head 4. The magnetic disk 1 is prevented from coming into contact with the stabilizer 10 by forming a substantially symmetrical shape on the upstream side and the downstream side with respect to the boundary.

In addition to the above, as shown in FIG. 3, the shape of the head relief recess 11 is a deformed shape (1a) of the disk 1 due to the protrusion of the head 4 shown in FIGS. 4 (A) and 4 (B). Therefore, the air flow between the stabilizer 10 and the disk becomes almost uniform in all areas, and the contact state between the head 4 and the disk 1 at each moving position of the head 4 is extremely high. It will be good.

By the way, in this case, since the convex portions 12, 14 and 16 are provided in parallel to the downstream ridgeline 11e of the concave groove portion 11, the position with respect to the disk 1 is just as shown by the broken line in FIG. 4 (A). On the other hand, the air flow generated by the rotation of the disk 1 has a large component (arrow E) going outward from the tangential direction of the disk 1 due to the centrifugal force. 14 and 16 are close to orthogonal,
Therefore, a sufficient positive pressure can be efficiently obtained by the inclined surfaces of the convex portions 12, 14 and 16.

In this embodiment, at least the stabilizer 10 facing the head 4 is formed by molding a conductive resin, and the conductive resin is, for example, polyphenylene sulfide containing carbon fiber ( The content rate is 30 wt%). That is, since it is formed by molding the conductive resin, it is possible to maintain high accuracy and keep the processing cost low even if the shape is complicated and the accuracy is severe as shown in FIG. or,
It is extremely mass-produced. Moreover, since it has conductivity (conductivity of 10 ^-1 Ωcm), electrostatic charging can be prevented by electrically grounding it by an appropriate means as shown in FIG.

In addition, when the disk 1 is started or stopped, the stabilizer
Although the contact between the disk 10 and the disk 1 is unavoidable, it also has excellent wear resistance, so that the surface of the stabilizer 10 facing the disk is less likely to be damaged.

[Advantages of the Invention] As described above, according to the present invention, it is possible to improve the processing accuracy of a stable member by a simple means and to facilitate the processing, and thus, to perform recording or recording that requires such a stable member. There is an effect that the performance of the reproducing apparatus can be made good and the cost can be reduced.

In addition, considering the shape of the deformation of the disk, the recess groove for head escape formed at the position facing the head of the stabilizing member,
By increasing the width toward the center of the disk, and further forming a plurality of convex and concave grooves that prevent the disk from floating and stabilize it on the downstream side in the disk rotation direction, a more disk stabilizing function is achieved. It is possible to raise it.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an exploded perspective view of an embodiment of the present invention, particularly a main part relating to the present invention, and FIG. 2 is a sectional view taken along line DD of FIG. 1 of the apparatus of FIG. Fig. 3 is a perspective view of the stabilizer shown in Figs. 1 and 2 as seen from the side facing the disc, and Figs. 4 (A) and 4 (B) show the deformation of the disc due to the protrusion of the head. 3A and 3B are a plan view and a perspective view of a disc for explanation. 1 ... Flexible magnetic disk, 4 ... Recording or reproducing magnetic head, 5 ... Restriction plate, 10 ... Stabilizer plate, 18 ... Motor, 19 ... Spindle.

Claims (1)

[Claims] 1. A magnetic head (4) and a flexible magnetic disk (1), which is a record carrier, are provided so as to face the head, and at the time of rotation of the disk, at least the head of the disk is passed. A recording or reproducing apparatus provided with a stabilizing member (10) for stabilizing a portion to be moved, the head being moved to a position facing the head on a surface of the stabilizing member (10) facing the disk. A concave groove portion (11) for escaping the concave groove portion is formed. The concave groove portion is formed so that the width becomes wider from the outer peripheral portion of the disk toward the central portion, and the concave groove portion in the rotational direction of the disk is formed. On the surface of the stabilizing member (11) on the downstream side facing the disk, a plurality of concave groove portions (13, 15) and convex portions (12, 14, 16) are formed substantially parallel to the concave groove portion (11). Alternately formed and above The surface facing the said disc of the protrusions (12, 14, 16) is formed inclined surface inclined to the disc rotation direction, and the stabilizing member (11),
A recording or reproducing device characterized in that the whole is formed of a conductive resin.