CS227655B2 - Stabilizing member for floppy disk of informative memory - Google Patents

Abstract

To avoid any wearing by friction, the stabilising element for the flexible, rotating storage disk is made with a surface which has no roughnesses. At the same time it is provided with a plurality of depressions, which prevent the storage disk from coming into contact in the state of rest with this entire surface facing it and prevent the development of adhesive forces, which can seriously disturb starting up. The depressions, which can be produced by any desired processes and be distributed in any desired way on the surface, contain small amounts of air, which accelerate the formation of a supporting air film between the stabilising element and the storage disk.

Description

BACKGROUND OF THE INVENTION The present invention relates to a stabilizing member for a flexible rotating memory disk of an information memory which is located in direct proximity to the disk perpendicular to its rotation axis and whose guide surface is provided with depressions for possible adhering forces.

Such devices have been known for some time and are described, for example, in U.S. Pat. Nos. 2,950,353 and 3,178,719 and in British Pat. Nos. 1,412,286 and 1,257,222. In the operation of one such apparatus, a rotating memory disk produces a moving air film between the disk and the stabilizing member. The Bernoulli pressure forces guarantee stable rotation of the disc if the air film is not disturbed to a greater extent.

It is apparent from the aforementioned documents that the plate used as a stabilizing member need not necessarily be planar, but can also be bent or angled.

In the rest state, the flexible storage disc now lies on the abutment member and touches it. Thus, when starting or stopping, there is a period when said air film is not yet. completely effective, and in this period, the memory disc moves as the surface contacts the stabilizing member. Depending on the surface of the stabilizing member, various problems may arise.

If the surface of the stabilizing member is smooth, the memory disk tends to adhere to it, so that it can only be released from it by applying more force. There is a risk that the disc will be damaged or its surface worn by friction. U.S. Pat. spisu ě. No. 3,951,264 discloses a memory cassette in which the memory disc is rotatably mounted above a flat plate.

Thus, the above mentioned difficulties arise during operation. '

Their effect is counteracted, for example, by reducing the surface of the stabilizing plate on which the contact is made by arranging the slots. In another embodiment, the remaining surface of the plate is provided with texture-like irregularities or roughened during manufacture to reduce adhesion of the memory disk.

The roughening of the surface of the stabilizing member, which is usually achieved by sandblasting, should be. in order to retain a small amount of air between the stabilizing member and the memory disk, which facilitates the formation of an air film when starting. At the same time, however, the contact surface of the memory disk suffers from wear due to these roughnesses. It is extremely difficult to control the surface quality grade of a slab that has been sandblasted. The surface quality can even be scaled from one plate to the next if the grit of the abrasive sand used has been mashed. In addition, the individual abrasive grains may remain in the surface of the stabilizing member.

Even if the surface quality achieved reaches a mean roughness of approximately 1.6 cc, deviations can still occur locally up to a height above 2 In addition to general wear on the surface of the memory disk, such unevennesses can still create deep scratches which become bending causes when the surface uses information for recording and reproduction.

However, if, on the other hand, to reduce wear and tear, and the faceplate is polished to a mirror shine, the lack of air between each other and the contacting surfaces causes the memory disk to adhere firmly to the opposite faceplate. These adhesion forces are sometimes so great that a weak drive motor will not even be enough to bring the memory disk into rotation. However, if the motor is strong enough to overcome these adhesion, there is a risk, as already mentioned, that the disk will deform when rotated.

This may result in distortion of the recording tracks or other recording errors and may damage other operation of the unit and this disc.

Subject USA. U.S. Pat. No. 3,951,264 can be considered as the prior art on which the invention is based and which is concerned with solving the above problems. There is an arbitrary multiplication between the two extremes mentioned above! scaling the surface of the surface, which can be chosen as a compromise between damage to the memory disk on a smooth surface by rotating it and wear on the rough surface. Both extremes, however, are known to be error-prone and short-lived, and the compromise mentioned does not promise a better solution.

It is an object of the present invention to provide a stabilizing member for an information memory with a flexible notifying disk, the surface of which, in cooperation with the memory disk, enables it to start without damaging force and at the same time does not cause disc surface wear. The surface quality of the stabilizing member is such that, at rest, there is sufficient air between it and the memory disk to reduce the adhesion forces to harmless levels. At the same time, however, any roughness is eliminated and the wear of the mating surfaces is minimized during the start-up and assembly periods.

The depressions are distributed as a regular grid pattern over the entire guide surface and the sum of the recessed areas is less than half of the entire guide surface.

According to a preferred embodiment of the invention, the grid pattern has a rectangular pitch of 1 mm.

According to another embodiment, each depression is circular, has a depth of 0.2 mm and a diameter of 0.7 mm. .

All of the above material. For example, a rolled sheet of aluminum alloy, sold under the designation NS4, of about 1.5 mm thickness is used to produce the stabilizer member. This sheet is cleaned according to conventional methods, freed of fat and deoxygenated. Since aluminum exposed to atmospheres rapidly oxidizes, the sheet metal surfaces must be protected by chromium plating. For example, the method described by ICI under the name Alochrom can be used. A dry film of film such as Riston supplied by Du Pont de Nemoours is not rolled onto both surfaces of the sheet, and the exposed edges are coated with a suitable protective varnish. The photovoltaic layer is then illuminated by a mask and a regularly raster dotted pattern, thereby shaping the wall shape and depressions that can be formed in the " area "

In order to facilitate the rolling of the photo film, a protective plastic film, e.g. Mlaa »is applied to the photo print. Then, the plastic film from the exposed layer - opium lacquer - is removed. The lacquer layer is then developed, washed and dried in the usual manner.

The Myrma coating ”is left on the back of the sheet as an additional protection for the photo film. The side of the sheet, which is protected by an unprotected and induced layer of photo-depression to form depressions, is now etched by spraying a ferrous chloride solution containing at least 3% hydrochloric acid at a temperature of about 20 ° C. This procedure takes approximately 12 minutes.

If, after washing and drying, undesirable residues are still found in the etched depressions, they can be removed, for example, by careful sanding prior to removal of the protective coating layer. If necessary, the depressions can also be treated again before removal of the depressant paint. Then, the photo paint layer is removed from the etched plate with acetone. The surface thus treated may eventually be provided with a slight polish or pioliture to compensate for any unevenness that might still exist between the unaltered surface of the board and the depressions etched therein.

It can be usefully used in the information memory of the above type for which upwardly bent stabilizing plates have been designed on both sides of the centers. The rotating flexible disk in this device is permanently bent up along two chords of the written circle. Since the disc tends to straighten as it starts to run, but is prevented by the plate bent upwards, there is a problem of disc wear due to contact with the possibly rough styling member of increased importance.

This problem becomes particularly important in this case, since the surface of the disc that is facing the stationary member is at the same time the area used for recording and reproduction. The stabilizing member according to the invention and the correspondingly reflective surface is an object of the present invention.

However, the present invention is not only suitable for application in the aforementioned pastry device, but is also useful in apparatuses with otherwise formed or flat stoichiometry members. The foil-lithographic procedure followed by etching to treat the surface of the stabilizing member may be replaced by any other suitable manufacturing process. This includes ooz! other stamping of the depressions by a strict punching tool in the press, usually machining as well as the use of electro-erosion.

Claims (3)

SUBJECT OF THE INVENTION CLAIMS 1. A stabilizing member for a flexible rotating memory disk of an information memory, which is located in direct proximity of the disk perpendicular to its axis of rotation and whose guide surface is provided with depressions for varying possible adhering forces, characterized in that the depressions are distributed as regular. the grid pattern over the entire guide surface and the sum of the recessed areas is less than half of the entire guide surface. 2. The stabilizer according to claim 1, wherein the grid pattern has a rectangular pitch of 1 mm. The stabilizing member according to claim 1, characterized in that each depression is circular,. it has a depth of 0.2 mm and a diameter of 0.7 mm.