SU868323A1 - Device for measuring parameters of carrier tape movement - Google Patents

Description

(54). METHOD OF MEASUREMENT OF PARAMETERS OF MOTION OF THE TAPE MEDIA INFORMATION

one

The invention relates to a measurement technique, in particular, to methods for measuring strain and other characteristics of solids, in particular tape media.

A known method for measuring the motion parameters of a tape carrier, which consists of recording a cone siglogram onto a stationary carrier, setting the carrier in motion, reproducing the gram signal using two synchronously scanning beams of two electron beam tubes, forms pulses the moments of intersection of the control waveform by the beam and measure the time intervals between their leading edges, according to which the longitudinal deformation of the tape carrier is judged at 1.

 The disadvantages of this method are: the low measurement accuracy and complexity of the method, associated with the presence of two electron-tube tubes, as well as the impossibility of measuring other than the longitudinal deformation of other motion parameters of the tape information carrier, such as lateral deformation, degree of anisotropy and velocity of the carrier .one

The closest to the technical essence and the achieved positive effect to the proposed is a method of measuring the parameters of the movement of the tape information carrier, which means that a control signal / recording of the carrier is recorded on a fixed carrier and reproduced by scanning the electron beam tube across the carrier with a metal-fiber screen, generate pulses at the moments of the intersection of the control signal by a beam,

15 converts the duration of the indicated pulses into a code by which the motion parameters of the tape carrier 2 are judged.

20

The disadvantages of this method are the relatively low accuracy and comparative complexity of the implementation of the method, as well as the impossibility of measuring other than longitudinal deformation.

25 other parameters of the movement of the information media tape.

The purpose of the invention is to improve the measurement accuracy, simplify the method and expand its functional capabilities.

This goal is achieved by the fact that the control waveform is nano t in the form of two unequal arallograms, scanning is performed in mutually opposite directions, inclined towards the direction of movement of the carrier, the large sides of the parallelograms are mutually perpendicular, and the smaller ones are parallel to the scanning directions.

The drawing shows a block diagram of an apparatus for carrying out the proposed method.

A device for carrying out a method for measuring the parameters of the movement of a tape carrier comprises a cathode ray tube of 1 second. metal-. a horse-shield and a counter-electrode 2 rigidly connected with it, on which the tape carrier 3 slides, on which a control signalgram is recorded in the form of an electrostatic charge, the contours of which form two unequal parallelograms 4 and 5. In addition, the device contains a high-voltage source 6, connected to the cathode of the electron-beam tube 1, a sweep generator 7, generating triangular current pulses and connected to the deflecting system of the tube 1, resistor 8, amplifier 9, time converter 10 shaft, code, operational unit 11 and recorder 12. Counter electrode 2 is grounded through resistor 8 and through amplifier 9 is connected to converter 10 input, the output of which is connected to block 11 input, the output of which, in turn, is connected to resistor, 12, scanning tube tube 1 is carried out along the longitudinal axis of the tube 1 and the counter electrode 2 in mutually opposite directions inclined towards the direction of movement of the carrier. 3 and the angle θ composing with it. The large sides of the parallelograms are arranged perpendicularly, and the smaller sides are parallel to the scanning directions.

The method is carried out as follows.

The sweep generator 7 and the high-voltage source 6, by applying signals to the frame and the deflecting system of the electron-beam tube 1, respectively, provide for scanning the beam through the electrodes of the metal-fiber screen of the tube 1, changing their value. The latter achieves a breakdown voltage, as a result of which electrostatic charge is transferred to the carrier 3. If the scan is carried out over sections of the recorded control waveform in the form of two parallelograms 4 and 5, with a residual potential, a charge is transferred to the carrier 3, the value of which is different from.

the magnitude of the charge transferred at the moments of the beam's motion along the uncharged portions of the carrier 3. The deposited charge in the form of current partially flows down the electric circuit containing the carrier 3, the counter electrode 2, the resistor 8 - the housing. At the moments of intersection by the beam of parallelograms 4 and 5, pulses are formed on resistor 8, the duration of which is equal to the scanning time of the beam on parallelograms 4 and 5. The pulses formed on resistor 8 are fed to amplifier 9 and then to the input of block 10, where their durations are converted to code. Operational unit 11 calculates the speed of movement of the carrier, longitudinal and transverse deformation and the degree of anisotropy of the elastic properties of the tape information carrier according to the formulas derived from the geometry and configuration of the device, and the recorder 12 displays the specified values graphically.

The application of the invention makes it possible to increase the measurement accuracy and simplify the method of determining the motion parameters of the tape information carrier by using only one measurement channel, as well as expanding the functionality of the method, providing measurement. As well as the transverse deformation, speed of movement and anisotropy of the elastic properties of the tape information carrier due to a note of the control waveform in the form of a two parallelogram. mov.

Claims (2)

1. The author's certificate of the USSR I 605077, class, G-11 In 9/08, 1976. 2. Authors certificate USSR 669403 ,. cl. G 11 B 27/10, 1971 (prototype).