SU1076955A1 - Device for inspecting wear resistance of protective coating for magnetic disks - Google Patents

Abstract

DEVICE FOR KOF TPOLYA DURABILITY OF COATINGS magnetic disks, contain zhaschee base with mounted thereon with the rotor drive faceplate and the pressing plate, fixed to the rotor spindle, and a spring-loaded counterbody ,, oglichayuschees in that, in order to increase reliability, it introduced a pair of wedge-shaped plates installed with a gap between the faceplate and pressing the washer on their periphery. xJD / I -11Z 4j O5 SO ate

Description

The invention relates to computer technology and can be used in the manufacture of magnetic disks external for? commemorative devices.

A device for measuring the wear resistance of coatings is known. It postoyav- with ⁵ hydrochloric load and speed counterface known hardness slides along the test surface during a certain time. The depth of the hole left by the counterbody in the coating determines the wear resistance (0 of the coating [1].

The disadvantage of this device is unsatisfactory reliability.

Closest to the proposed is a device containing a base, the rotor drive and the faceplate mounted on the drive spindle. A motor with a carriage is mounted on the base, which moves the counterbody in the form of a floating magnetic head. The magnetic head is spring-loaded so that its contact area, with a predetermined 2Q force / force, presses on the surface of the test disk, which is pressed against the faceplate with a washer using fixing screws.

The principle of action of the known device is that when the disk rotates in the area of contact with the counterbody, 25 destruction of the disk coating occurs. Following the trace, it is possible to evaluate the wear resistance of the coating [2] A disadvantage of the known device is also unsatisfactory reliability.

The purpose of the invention - an increase ^{of 30} NOSTA reliable device for monitoring the wear resistance of the protective coatings of magnetic disks.

The goal is achieved in that the device for monitoring the wear-resistant coating of magnetic disks, holding base ³⁵ co-mounted with its drive rotora.s faceplate and the pressing plate, fixed to the rotor spindle, and a spring-loaded counterbody, introduced a pair of wedge-shaped plates, 4θ established with a gap between the faceplate and the pressure plate on their periphery.

The drawing shows a device for monitoring the wear resistance of the protective coatings of magnetic disks.

The device comprises a base 1, drive 2 rotors, a faceplate 3 mounted on the drive spindle 4, a motor carriage 5, a spring-loaded counterbody 6, mounted on a lever 7. The contact body 8 of the counterbody acts on the test sample 9, secured by a clamping washer 10 and fixing pints II between a pair of wedge-shaped plates 12 and 13. The engine moves the counterbody towards the rotor drive spindle. The spring-loaded counterbody contacts the surface of the test sample with its contact area. _t

Plates 12 and 13 serve to clamp the samples in an inclined position.

The device operates as follows.

When one of the rotating samples 9 approaches the counterbody 6, the contact pad 8 hits the inclined surface of the sample, from which the counterbody spring is compressed, and the contact pad begins to slide up the surface of the moving sample 9. As the spring moves toward the edge, the spring is more and more compressed and, accordingly, the pressure on sample 9 increases. When the edge of the sample is reached, the contact area slides down, taking the initial level.

The device is implemented on the basis of an electromechanical unit of a removable magnetic disk drive. A set of rectangular duralumin plates 12 and 13 with a wedge-shaped cross section was made for inclined installation of samples with dimensions of 66 mm X 56 mm X 2 mm.

All plates 12 are located on the faceplate 3 symmetrically with respect to the axis of rotation and to each other by the angle of the wedge along the direction of the upcoming rotation. Each of the plates 12 is laid on the sample with the test surface up. Then, for each sample, it is laid on the plate 13 with an angle against the direction of rotation. The clamping washer 10 is superimposed on top, and the entire system is compressed by the fixing screws 11.

The counterbody 6 (spring-loaded rod) is installed so that the lowest point of its contact pad is 2 mm above the faceplate 3. The contact pad 8 is a cemented steel pad and has a diameter of 1 mm,

In the device, it is possible to smoothly adjust the counterbody pressure on the samples, the speed of rotation of the samples, as a result of which the reliability of the device when monitoring wear resistance, protective coatings of magnetic disks is significantly increased.

Compiled by V. Kostin Editor A, Vlasenko Order 758/48 Tehred I. Veres Corrector And / Circulation 575 Subscription

VNIIIPI of the USSR State Committee for Inventions and Discoveries

113035, Moscow, Zh — 35, Raushskaya nab., D. 4/5

Branch of the PPP "Patent", Uzhhorod, st. Project, 4

Claims (1)

DEVICE FOR MONITORING THE DURABILITY OF PROTECTIVE COATINGS OF MAGNETIC DISKS, containing a base with a rotor drive mounted on it with a faceplate and a clamping washer, mounted on the rotor spindle, and a spring-loaded counterbody, characterized in that, in order to increase reliability, wedges are inserted into it installed with a gap between the faceplate and the pressure plate on their periphery. i 07 () 955