SU1101885A1 - Pneumatic drive for disk-type or drum-type information mediums - Google Patents

Abstract

PNEUMATIC DRIVE OF INFORMATION MEDIUM OF DISK OR DRUM TYPE, containing a stationary hollow cup with air supply and air outlet channels, in which the rotor with information carrier is installed, characterized by the fact that, in order to shorten the acceleration time of the drive, a perforated ring was attached to the replica. rotor coaxially and with a gap, in the side surface of the ring the through holes are made at an angle to its diameter, and in the glass there are parallel and additional air supply channels. (L

Description

The invention relates to a magnetic recording technique, in particular to drives of information carriers in memory systems with floppy disks or magnetic drums.

A device in which the magnetic drum assembly contains a flexible hollow magnetic drum mounted coaxially on a stationary glass with air supply channels, and a compressed air supply system 1 is known.

This device is characterized by an insufficient amount of torque during start-up, due to the interaction of the compressed air being injected with the smooth surface of the rotating drum.

The closest to the technical essence and the achieved effect to the proposed is a device containing a fixed hollow cup with air supply and air vent ka1-1al.1i, in which the rotor with the information carrier 2 is installed.

The disadvantage of this device is a large acceleration time of the drive, due to the fact that the injection pressure. The compressed air hits the impeller and forms a turbulent flow, which slows down the acceleration of the drive rotor.

1 {spruce of invention - reduction of drive acceleration time.

The goal is achieved by the fact that a pneumatic drive of information carriers of disc or drum 11O1CH type, containing a stationary hollow cup with air supply and air exhaust channels, in which a rotor with information carrier is installed, is inserted a perforated ring fixed on the rotor coaxially and with a gap in the side surface of the ring is made at an angle to its diameter through holes, and in the glass - additional air supply channels parallel to them.

FIG. 1 shows the proposed drive, a front view with a partial cut; in fig. 2 shows a variant of fastening a perforated ring to the device rotor.

The drive contains a base 1, on which a pneumatic motor with a rotor 3 is mounted in a hollow glass 2 s. A flexible disk 5 is mounted on the rotor 3 by means of a hub 4. In a hollow glass 2, symmetrical air supply channels 6–8 and air discharge channel 1, channels 9- are made eleven.

A perforated ring 12 is fixed coaxially through the gap on the rotor 3 of the pneumatic actuator with openings 13, made at an angle of 37 ° to its tangent in the direction of rotation of the rotor 3. The optimal torque criterion is the maximum moment of rotation, but not enough. air jets and rotating surfaces. And the rotor rotation time increases with this. Due to the larger clutch surface of the compressed air jet, since the tip of the inner surfaces of the channels is chosen larger than the ring surface. In addition, the exhaust air does not impede rotation,

as it comes out through the channels and the gap is free, it does not form a turbulent flow. The total area of all openings 13 is 75 / o from the surface of the cochlea. The volume of the gap between the rotor 3 and the ring 12 selected a large volume of the channels 13 of the ring

12 in order to eliminate the formation of increased air pressure in the gap between the rotor 3 and the ring. The air supply channels 14 in the hollow cup 2 are made symmetrically and parallel to the holes 13 of the perforated ring 12. The latter is attached to the rotor 3, for example, by means of strips 15.

The device works as follows when compressed air is supplied to the air-feeding channels 68, an air flow is formed between the rotor 3 of the air motor and the hollow cup 2. The rotor 3 starts to rotate as the compressed air flows from the channels 14 to the surface of the canal; first 13 of the perforated ring 12,

at the same time, the working fluid freely passes through the channels 13, the gap between the rotor 3 and Ko.ibHOM 12 and Kafia.ibi 9-11 to the atmosphere without forming a turbulent flow and not interfering, i.e. not slowing down the rotation of the rotor 3. The compressed air supply through the channels 14 is carried out according to the requirements for the power supply system of aerostatic bearings, i.e. from a source (not shown) of "unlimited power.

The invention will allow to detect the rotor rotor torque for 20-30 minutes and get enough of its value at the initial moment of the device start-up at the same head of the incoming compressed air.

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Claims (1)

PNEUMATIC DRIVE OF INFORMATION DRIVES FOR DISK OR DRUM TYPE, containing a fixed hollow glass with air supply and exhaust channels, in which a rotor with a data carrier is installed, characterized in that, in order to reduce the acceleration time of the drive, a perforated ring fixed to the rotor is inserted into it with a gap, through holes are made at an angle to its diameter in the side surface of the ring, and additional air supply channels parallel to them are made in the glass. <o