CS196049B1 - Connection of the electronic circuit for connecting the counters for evaluation of the torsion vibrations of the polymeres - Google Patents

Description

The invention aa relates to the wiring of an electronic circuit before connecting the counters for evaluating the torsional oscillations of the polymers.

Up to now, they have been recording optical and photographic methods, which are very laborious, lengthy and inaccurate. The beam of the slit lamp reflected off the mirror, oscillating in the plane of the cymograph along with the sample. Torsional oscillation oscillations were scanned on photographic paper, moving at a constant speed in the cmograph. After routine photo paper processing, the basic frequency data! and attenuated directly by measuring the distance with the ruler and counting, which was both inaccurate and expensive.

These drawbacks are eliminated by the wiring of the electronic circuit through the connection of the counters for evaluating the torsional oscillations of the polymers according to the invention, which consists in that two main photosensors and one auxiliary photo sensor are located in the plane of the light beam oscillator. The main sensors are connected via a summation member to the first forming circuit, the output of which is connected to the gate. The auxiliary photo sensor is also connected to the gate through the second shaping circuit and the blocking circuit, the output of which is connected to the memory. The memory is connected to a combination hitch with output signals for attenuation and period counters. Eignalization circuits and a blocking circuit are connected to the combination network.

The progress of the wiring of the electronic circuit according to the invention is mainly that

196 049

198 049 the circuit allows the connection of counters to measure the torsional oscillation characteristics of the polymers, thereby directly converting the oscillation characteristic to a digital form, thereby increasing accuracy, measuring speed and reducing the cost of the actual measurement. Furthermore, the circuit allows to omit the first oscillation to stabilize relaxation phenomena in the sample, to measure even more periods. The circuitry according to the invention allows the overall measurement automation and the possibility of automatic triggering of Salsle measurement.

The attached drawing is a circuit diagram of an electronic circuit for connecting counters for evaluating the torsional oscillations of the polymers of the invention.

The wiring according to the invention comprises two main photosensors S1 and S2 and one auxiliary photosensor S3. of which the main photosensors are connected to the gate H2 via the billet member H1 and the first forming circuit T01, and the auxiliary photosensor S3 is also connected to the gate H2 via the second forming circuit T02. The gate H2 is connected via a pamaf P to a KS combination with output signals Tv and Tp for attenuation and period counters. The signaling circuits SG and the blocking circuit B are connected to the KS combination meeting.

The function of the electronic circuit according to the invention is that if the light beam illuminates the auxiliary sensor S3. open the gate H2 and the signals from the main sensors S1. According to the state of memory P, the combination meeting KS produces output pulses Tu and Tp for the connected attenuation and period counters. Combination meeting KS also produces signals through auxiliary signaling circuits. Instead of counters, it is possible to connect converters to connect a printer or a punched tape to connect the electronic circuit and the data can be processed by a computer.

Claims (1)

Connection of an electronic circuit for the connection of counters for evaluation of torsional oscillations of polymers, characterized in that two main photosensors (S1 and S2) and one auxiliary (S3) are placed in the plane of oscillation of the light beam. The main sensors (S1 and S2) are connected via a summation element (H1) to a first forming circuit (T01), the output of which is connected to a gate (H2) and the auxiliary photo sensor (S3) is through a second forming circuit (102) and a locking circuit. B / also connected to a gate (H2), the output of which is connected to pamaf (P), which is connected to a combination eiet (KS) with output signals (Tu and Tp) of attenuation and period readers, and to a combination meeting (KS) the signaling circuits (SG) and the blocking circuit (B) are connected.