SU1649612A1 - Disk memory - Google Patents

Abstract

The invention relates to instrument making and can be used in disk storage devices for microcomputers. The purpose of the invention is to improve the recording quality and stabilize the non-contact between the working surface of the magnetic head and the surface of the disk. The device comprises a drive shaft with a hub carrying a magnetic disk and a block of magnetic heads located on a rod fixed rotatably in a vertical plane and with an end resting on a fixed sheepskin. The supporting lyophobic end of the rod on the side of the fixed plate is made with lofilny areas of a certain area, on which the bases of the semi-droplet elements are placed from a liquid. The contacting with the semi-droplet elements of the surface-fixed plate is made of a lyofobka. 1 il.

Description

The invention relates to instrumentation and can be used in the apparatus for recording information on magnetic disks used in microcomputers.

The aim of the invention is to improve the recording quality and stabilize the non-contact between the working surface of the magnetic head and the surface of the disk.

The drawing shows the proposed device, the overall appearance.

The device contains a drive shaft 1 with a hub 2 on which a magnetic disk 3 is mounted. The drive shaft 1 is located in the opening of the base of the sealed cassette 4, on the basis of which the plate 5 is fixedly mounted. On the upper part of the cassette 4 it is pivotally in a vertical plane; 7, the carrying unit of switched floating magnetic heads 8, the other end of the rod 7, on the side of the fixed plate 5, has a lyophobic surface on which a certain area is made; the lyophilized areas on which it is based and there are half-cube elements 9 made of metallic liquid. The surface of the fixed contacting to the tops of the plucked elements

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plate 5 is made lyophobic. The rod 7 with a block of 8 magnetic heads can carry out a pivoting movement in a vertical plane, while the half-element 9 slides along the lyophobic surface of the fixed plate 5.

The essence of the invention lies in the fact that at the fixed points of the support end of the rod lyophilized areas are created, on which a metallic liquid is applied in the form of a half-drop. The metallic liquid can be made on the basis of gallium, potassium-sodium, mercury, or their eutectic. Due to the wetting phenomenon, a sufficient force of adhesion of the liquid half-drops to the lyophilized regions is created. Liquid elements take the form (in section) of a spherical segment. The height of a segment strictly depends on the size of its base (spot) of the semiclip, since the forces generated by the surface energy of the liquid tension depend on the volume of the liquid and the excess liquid does not hold. These conditions are characterized by the Bond number 1 and occur at a radius of the segment not exceeding 2 mm, therefore, by varying the size of the lyophilic sections, it is possible to achieve very accurate sizes and volumes of the semi-droplet elements that do not require mechanical treatment, which will guarantee a stable gap between the disk and block floating magnetic heads. Lyophobicity of solid surfaces can be accomplished using widely used

electroplating technologies: oxidation, nitridation, film coating, etc. The freeze-drying of local areas of solid surfaces is achieved by means of those cleaning processes of these areas: electrochemical cathode treatment in the electrolyte, glow discharge, ultrasonic treatment, laser irradiation, etc. After receiving the lyophilic areas at the end of the rod and the lyophobic surface of the support plate, it is necessary to position the semi-droplet elements on the lyophilic sites with metered volumes; remove excess liquid by shaking the rod. The height of the half-tip is determined by the calculation of the optimal gap between the disk and heads, this size (height of the half-tip)

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is determined by the area of the previously obtained lyophilic portion (spot) of the base of the semicrypt.

The supporting elastic-damping element, made on the basis of liquid metals, can work with non-mass suspensions of relatively small weight and used for mini-disks with floating heads.

In such a system with the inclusion of the disk, it is gradually accelerated to the working angular velocity. There is a lag phenomenon, i. E. during the period of acceleration, there is a discrepancy in frequency and amplitude of oscillations of the suspension with the heads and oscillations of the disk surface; Unsteady oscillations of the heads are perceived by semi-droplet liquid elements, as a result of which there is an insignificant amplitude oscillation of the heads lagging in phase from the oscillations of the disk, which excludes penetration of the heads into the surface of the disk. After the disk dials a constant operating speed, the heads float above the disk surface and the phase of the oscillations of the disk and the heads coincide, but the oscillations of the latter occur with an insignificant amplitude, as they are damped by liquid elements. When a disk storage device is turned off, the angular velocity of the disk decreases from working to full stop, the heads go out of the float mode above the disk surface and the previously described oscillatory process of the system repeats, and the disc and heads mismatch in phase but oscillations the latter are extinguished by semicraft elements and the heads do not penetrate into the surface of the disk.

Claims (1)

Invention Formula A disk storage device containing a drive shaft with a hub carrying a magnetic disk and 516 magnetic heads located on a rod fixed pivotally in a vertical plane. and an end supported on a fixed plate, characterized in that, in order to improve the recording quality and stabilize the non-contact between the working surface of the magnetic head and the surface of the disk, I support 2 " The common end of the rod on the side of the fixed plate is made with lyophilized sections, on which the inserted semi-droplet elements are placed from the liquid, and the surface of the fixed plate in contact with the semi-droplet elements is made lyophobic.