SU720498A1 - Magnetic tape storage - Google Patents

Description

one

The invention relates to instrumentation and can be used as a storage device in electronic computers and other devices.

A magnetic tape drive is known, in which the latter is located on coils mounted on the under-roller assemblies driven by autonomous electric motors 1.

However, in these accumulators, a very complex electronic circuit is used to track the position of the tape and the uniformity of its movement, which includes a feedback circuit. The increased complexity of the circuit increases energy consumption and reduces the reliability of the drive in operation.

The closest technical sushi to the proposed is a magnetic tape drive, containing two under-roller assemblies, each of which is associated with a separate electric motor (EDG), an EDG control unit and a source of reference signals connected to it 2.

This accumulator can create the required modes of operation of the belt moving mechanism, but the reliability of this accumulator is small, as well as the lack of efficiency in terms of energy and material indicators.

The purpose of the invention is to increase the reliability of the drive and its cost.

This is achieved by introducing a frequency selector in the magnetic tape drive, two two-track raster disks rigidly connected to the EDG shafts and two photo-optical systems interacting with these disks, the first of which are designed to combine the image of the first raster track of the first a disk with a portion of the second raster track of the second disc, a second one with the possibility of combining an image of a portion of the first raster track of the second raster disc with a portion of the second raster track of the first raster Trova disk. Frequency selector output connected to second input

the EDG control unit, and the different inputs of the same selector, to the photosensors of both photo-optical systems. In the frequency selector, a frequency discriminator is entered, two key connected to its outputs

circuits and an assembly unit connected to the outputs of these circuits, the output of which is connected to the second input of the EDG control unit.

FIG. 1 schematically shows the proposed drive; in fig. 2 is a block diagram of a frequency selector; in fig. 3 - raster disk.

Coils 1 and 2 are rotated by EDG 3 and, 4 simultaneously with a raster disk 5, having tracks 6 and 7, and with a raster disk 8 having tracks 9 and 10. Light source 11 through a mirror-lens device 12 acts on a photosensor 13 and the light source 14 through a mirror-lens device 15 is connected to a photo sensor 16. Frequency selector 17 and reference signal source 18 are connected to different inputs of EDG control unit 19 3 and 4. Frequency selector consists of frequency discriminator 20 connected to its outputs of key circuits 2 and 22 and block 23 of the assembly. Inputs 24 and 25 of the frequency selector are connected to the photosensors 16 and 13, respectively, and output 26 to the control unit.

The drive works as follows.

When the magnetic tape 27 comes from the coil 2 to the coil 1, located respectively on the under-the-wheel assemblies 28 and 29, the EDG 3 plays the role of a driving motor, and the EDG 4 acts as a braking motor. The raster discs also rotate simultaneously. The angular rotational speeds of the coils are equal when the radii of the tape rolls located on these rolls are equal. In all other cases, the angular rotational speeds of the coils are different. The raster discs have the same speed, modulating the radiant energy from the light source. Due to the difference in the angular velocities of these discs and the number of divisions in tracks 6 and 7 or 9 and 10, there are different pulse frequencies at the outputs of the photosensors. If at the input 24 the frequency of the pulses is less than at the input 25, then the discriminator opens the key circuit 21 and closes the circuit 22. The pulses through the assembly block 23 fall on the EDG control block 19. At the same time, reference signals come to this unit from source 18 and, after comparing them with signals from circuit 21, voltage is applied to EDG 3 or 4 so that

minimize the difference that occurred at block 19.

The advantage of the proposed accumulator is the reduction in the number of electronic components. This increases the reliability of the drive and reduces power consumption.

Claims (2)

1. A magnetic tape drive containing two under-roller assemblies, each of which is associated with a separate electric motor, an electric motor control unit and a source connected to it reference signals, characterized in that, in order to increase the reliability of its operation and efficiency, a frequency selector is inserted in the drive, which are rigidly connected to the shafts of electric motors two two-track P raster discs and two photo-optical systems interacting with these discs, the first of them being designed to combine the image of a portion of the first raster track of the first disc with a portion of the second raster track; image area of the first raster track of the second raster disk with the area of the second raster track of the first raster disk, the output frequency The selector switch 0 is connected to the second input of the motor control unit, and the different inputs of the same selector are connected to the outputs of the photosensors of both photo-optical systems. 2. A magnetic tape drive according to claim 1, characterized in that a frequency discriminator is inserted into the frequency selector, connected to its outputs are two key circuits and an assembly unit connected to the outputs of these circuits, the output of which is connected to the second input of the engine control unit . Sources of information taken into account in the examination 1. US Patent No. 3704401, cl. 318-7, j pub. 1972. 2. Tape drive, model EU-5091, TU E13.060.014 MRP USSR (prototype).