SU1081659A1 - Apparatus for transporting magnetic tape - Google Patents

Abstract

THE DEVICE FOR TRANSPORTATION OF THE MAGNETIC TAPE, containing a drive shaft with a flywheel fixed on it, mounted in slide bearings and supported at one end, made in the form of a hemisphere, on a hinge, which is an oscillation concentrator, interacting with a piezoceramic element connected to a source of periodic pressure. , characterized in that, in order to reduce the oscillations of the magnetic tape during its transportation and increase the uniformity of the speed of its movement, a switch is inserted into it Only, the vibration concentrator is a torsional vibration concentrator, and the piezoceramic element is made in the form of a ring with partitioned electrodes, opposite pairs are connected in antiphase and connected to a periodic voltage source via a switch, while the piezoceramic element is coupled to the concentrator in two diametrically opposite parts. the surface of the cylindrical surface is symmetrical with respect to the line of separation of sec (L-rationed electrodes constituting the fourth Part of this surface. 00 O5 ate co. FIG.

Description

The invention relates to instrumentation engineering, in particular to devices for transporting storage media. A device for transporting a magnetic tape is known, comprising a disk mounted on a shaft mounted in a rotational bearing, a pad and piezoelectric crystals connected to a source of periodic voltage 1. A disadvantage of the device is that when excited, in order to reduce friction losses, axial vibration of the drive shaft inevitably excites the vibrations of the transported magnetic tape in the direction of the axis of rotation of the drive shaft, which leads to a decrease in the accuracy of recording and reproducing information ui The closest to the invention in the technical essence is a device for transporting a magnetic tape, which contains a shaft with a flywheel attached to it, mounted in slide bearings and supported at one end, made in the form of a hemisphere, on a hinge, which is a vibration concentrator (longitudinal) interacting with a piezoceramic element connected to a source of periodic voltage. The capstan of the drive shaft is made in the form of a half-wave concentrator of longitudinal oscillations coupled with a piezoceramic element connected to a source of periodic voltage and exciting a standing wave of longitudinal oscillations in the axial direction of the drive shaft 2. In a known device the oscillation of the drive shaft in the axial direction inevitably drives t to vibrations of the magnetic tape in the direction of the axis of the drive shaft and to the distortion of the recording and reproduction of information. The aim of the invention is to reduce the oscillation of the magnetic tape during its transportation and to increase the uniformity of the speed of its movement. The goal is achieved in that into a device for transporting a magnetic tape. containing a drive shaft with a fixed flywheel mounted in sliding sliders and supported by one end, made in the form of a hemisphere, on a pad, which is an oscillation concentrator that interacts with a piezoceramic element connected to a periodic voltage source, a switch, a concentrator, is inserted oscillations is a torsional oscillation concentrator, and the piezoceramic element is designed as a ring with sectioned electrodes, the opposite pairs of which are They are connected to the source of a periodic voltage through a switch, the piezoceramic element being coupled to the concentrator in two diametrically opposite sections of the cylindrical surface symmetrically with respect to the separation line of the partitioned electrodes constituting the fourth part of this surface. FIG. 1 shows a device for transporting a magnetic tape; in fig. 2 shows the connection of the electrodes of the piezoceramic ring element (view A in FIG. 1). The device contains a driving shaft -1 with a flywheel 2 fixed on it, mounted in sliding bearings 3, a piezoceramic element made in the form of a ring 4 with axial polarization and electrodes deposited on its end surfaces, a stand made in the form of a torsion hub 5 fluctuations, and the source of 6 periodic voltage. Each electrode is divided by mutually perpendicular diametral lines, for example, into four identical sectors 7–10 (in Fig. 2, the sectors of the visible electrodes are indicated). The pairs of sectors 7 and 9, 8 and 10 are electrically connected to diametrically opposite pairs of sectors located on the reverse surfaces of the converter and connected to the source 6 of the periodic voltage, respectively, through the first 11, 12 and second 13, 14 pairs of switchable contacts of the switch 15. Concentrator 5 torsional vibrations are coupled with an annular transducer (piezoceramic element) 4 in two diametrically opposite sections jg „, 7 of its inner surface 18, with sections 16 and 17 symmetrically located 1 relative The separation lines of sectors, electrodes and make up one odd surface 18. The magnitude and position of sections 16 and 17 are selected from the condition that the oscillating pulse pairs coincide with the direction of rotation of the drive shaft. The device operates as follows. Periodic voltage from source 6 is supplied through a pair sectors 7 and 9 to the piezoceramic element 4, in which, due to the antiphase connection of the electrodes, asymmetric modes of mainly tangential oscillations in the plane of the ring are established. The dimensions of the ring 4 and the frequency of the supply voltage are chosen so that it establishes an asymmetrical mode of predominantly tangential oscillations in the form of standing waves with two nodes. The oscillations of the element 4 through the sections 16 and, 17 excite the torsional vibration of the concentrator .5, while in the contact zone of the concentrator 5 with the driving shaft 1 tangential longitudinal and transverse vibrations in the direction of rotation of the driving shaft 1 are excited, which significantly reduce the moment of frictional forces in the pit and increase the uniformity of transport of the magnetic tape. The proposed device provides the possibility of reversing the transport of magnetic tape. To eliminate the anisotropy of friction forces in the contact of the drive shaft 1 with the sensor 5 when reversing due to the asymmetry of the vibration excited in the contact zone by means of the switch 15 through a pair of contacts 13 and 14 from the source 6 of periodic voltage, power is supplied to a pair of sectors 8 and 10. In this case, the phase of tangential oscillations of the ring element 4 rotates by 90 ° in the plane of the ring relative to the phase of tangential oscillations excited by the connection of sectors 7 and 9, respectively, the turns are nye oscillation concentrator 5 and the tangential direction of the vibration in the contact zone concentrator 5 with the driving shaft 1. Thereby is achieved a symmetric tape motion parameters during reversal. Introduction of an annular piezoceramic element with sectioned electrodes to the device with a circuit for connecting to a source of periodic voltage and a torsional oscillator concentrator allows to initiate tangential vibrations in the contact zone of the subroutine with the drive shaft. reducing frictional forces, and at the same time significantly reducing the vibrations of the belt in the direction of the axis of the drive shaft.

FIG, g

Claims (1)

DEVICE FOR TRANSPORTING A MAGNETIC TAPE, comprising a drive shaft with a flywheel fixed on it, mounted in sliding bearings and supported by one end made in the form of a hemisphere, on a thrust bearing, which is a vibration concentrator interacting with a piezoceramic element connected to a periodic voltage source, characterized in that, in order to reduce the oscillations of the magnetic tape during its transportation and increase the uniformity of the speed of its movement, a switch is inserted into it, the oscillation concentrator is a torsion vibration concentrator, and the piezoceramic element is made in the form of a ring with sectioned electrodes, the opposite pairs of which are connected in phase and connected to the periodic voltage source via a switch, while the piezoceramic element is paired with the concentrator in two diametrically opposite sections of the cylindrical surface of the symmetrical < g is relative to the separation line of the sectioned electrodes making up the fourth part of this ited. Fig.) SU, „, 1081659 1,081659