PL85645B1 - - Google Patents

Description

The subject of the invention is an impulse torque meter designed to measure the maximum torque occurring during the measurement and which is used especially for testing a coupling. Torque meters are known in which the measuring signal is transmitted from a rotating shaft on which the torque is measured to stationary devices in a manner touchless. These are capacitive, magnetic or optical impulse torque meters, in which the magnitude of the measured torque is displayed in the form of pulses with modulated amplitude or width. The frequency of the pulses is many times greater than the shaft speed and usually does not affect the measurement. In the electronic system, the signal form is processed, where one of the signal forms is always a series of pulses with amplitude modulated. The application of this type of torque meters has so far only involved the measurement of longer lasting moments. With regard to short-term moments, such as, for example, when switching the coupling to an inertial load, the maximum torque was measured only by recording the dynamic waveform and then by reading the graph. It is a method that requires an additional, expensive recorder and requires a lot of effort when reading the results. So far, there is no torque meter with direct reading of the maximum torque for short-term measurement. The aim of the invention is to avoid this deficiency and to develop a pulse torque meter that allows the direct measurement of maximum short-term moments. This objective was achieved by the fact that a torque meter having an impulse dial assembly, impulse sensors, a pulse amplifier and the electrometric amplifier has a capacitor electrically connected to the output of the pulse amplifier through at least one blocking diode. The blocking resistance of the blocking diode is not less than the self-leakage resistance of the capacitor and the input resistance of the electrometric amplifier. The subject of the invention is illustrated in the example of the drawing, which shows the diagram of the torque measuring shaft. 2 and 3 pulses, which are processed and amplified in the known 2 85645 4-pulse amplifier. From the 4-pulse amplifier, we get pulses whose size is a measure of the measured torque. These pulses charge the capacitor 7 through the blocking diodes 5 and 6. The diodes are designed to prevent the discharge of the capacitor 7 by the resistance of the amplifier 4. The sum of the pulses from one short-term torque measurement must be sufficient quantitatively so that the capacitor 7 charges to the voltage that corresponds to the maximum voltage with a sufficient approximation. impulse voltage. The voltage measurement on the capacitor 7 is made with an electrometric amplifier 8 with an output meter 9. After measuring the short-term torque, the measurement result remains unchanged for a long time on the indicator 9. The capacitor 7 discharges through the reverse leakage of diodes 5 and 6 so slowly, that the measured value is displayed on the meter 9 long enough for it to be read. After reading, the result is canceled by discharging the capacitor 7. Short-circuit path of the key 10. PL

Claims (2)

Claims 1. Pulse torque meter, especially for measuring the maximum torque having a set of impulse discs mounted on coaxial shafts connected by an elastic element, pulse sensors, pulse amplifier and an electrometric amplifier, characterized by the fact that it has a capacitor (7) electrically connected to the output of the amplifier (4) pulses through at least one blocking diode (5 or 6). 2. Momentometer according to claims The method of claim 1, characterized in that the diode (5 or 6) impedance resistance is not less than the self-leakage resistance of the capacitor (7) and the input resistance of the electromagnetic amplifier (8). Wash. Typographer. UP PRL Edition 120 + 18. Price PLN 10 PL