SU777731A1 - Magnetic tape cuiding device - Google Patents

Description

The invention relates to instrumentation and can be used as a device with which the magnetic tape travels with increased accuracy, and also 5 as a device with which you can measure the unevenness of the tape.

A device is known made with a piezoelectric transducer and a control unit 10 which simultaneously performs two functions, that is, a function for monitoring recorded signals and a function for guiding the movement of a magnetic tape element [1]. This device, due to the use of a rather complicated control unit and a piezoelectric transducer with a complex design, allows for correcting the position of the magnetic tape in all directions with an amplitude close to 0.5 μm. A device 20 of this kind works reliably and accurately, but the complexity of its design requires a lot of labor for adjustment and further operation.

Closest to the invention is a device for directing the movement of a magnetic tape, comprising a guide rack made with a piezoelectric transducer connected to a control unit [2]. This device makes it possible to correct the position of a moving magnetic tape, but to an insufficient degree and at a relatively low speed, especially if the magnetic tape is skewed.

The aim of the invention is to accelerate the return to the initial position of the moving magnetic tape when it is skewed.

This is achieved due to the fact that the device is equipped with a second guide rack and two matching cascades connected between the piezoelectric transducer of this rack and the individual outputs of the control unit.

The drawing schematically shows the described device.

The guide rack 1, having the form of a cylinder, is made with a damper 2 located in the annular groove 3, and with piezoelectric transducers 4 and 5, mounted on the ends of the rack. The signals to the piezoelectric transducers come from the control unit 6, which contains the displacement sensors 7, 8, 9 and 10, mounted on the edges of the magnetic tape I. Sensors 7 and 8 are connected to the transducer 12, and the sensors 9 and 10 to the transducer 13. Both transducers receive control signals from the generator 14. The second rack 15 also has piezoelectric transducers 16, 17, the last of which is connected to the control unit through a matching stage 18, and the first through a matching stage 19. There is also a damper 20 in the second rack.

During the movement of the magnetic tape, transverse and distorted displacements can occur, which lead to the loss of some of the information recorded on the magnetic tape. But when the generator 14 is turned on and when the sensors are operating on the piezoelectric transducers, voltages arise which tend to propagate from the periphery to the center of the rack. In this case, the occurrence of standing waves. To avoid such an effect, a damper is used in the racks, and due to the fact that a second similar rack is used, it is possible to quickly return the magnetic tape to its original position when a skew effect occurs, since the skew signal, firstly, is applied immediately to all piezoelectric transducers, and secondly, the racks are spaced apart at the bottom of the rabbishoyoy among themselves in the direction of movement of the magnetic tape.

In the described device, it is enough to connect measuring or indicator devices to the sensors (not shown in the drawing) or introduce additional sensors installed after the racks (not shown in the drawing) so that this device can simultaneously carry out the measurement function of a TAPE magnetic tape in the guide racks section.

The increased uniformity of the movement of the magnetic tape, as well as the versatility of the device, make it economically feasible.

Claims (1)

Claim A device for driving directions of a magnetic tape, comprising a guide post made with a piezoelectric transducer connected to a control unit, characterized in that, in order to accelerate the return to the initial position of the moving magnetic tape when it skews, it is provided with a second guide post and two matching stages, included between the piezoelectric transducer of the rack and the individual outputs of the control unit.