SU1282009A1 - Device for measuring non-uniformity of rotational speed of shaft - Google Patents

Abstract

The invention relates to a measurement technique and allows to increase the speed of the device. The potential from the output of the trigger 17 through the element OR 11 and the block 12 turns on the electromagnet 21. Corresponding}, the light beam turns around and forms signals at the outputs of the formers 9 and 10. The total-differential processing of the measured intervals determines the uneven speed of rotation of the shaft. The device allows the measurement of unequal rotation per shaft rotation, which reduces the measurement time. 3 il. with "

Description

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The invention relates to a measurement technique, namely, devices for measuring the unevenness of the speed of rotation of a shaft, and can be used to measure the unevenness of the speed of rotation, the drive shaft of a magnetic recording apparatus or electropigmentation device.

The purpose of the inventions is to increase the speed.

In Figures 1 and 2, a block diagram of the device is presented; FIG. 3 shows timing diagrams explaining the operation of the device.

The device contains a source of light 1, a sweep element 2, made with a mirror and a rod controlling the position of the mirror and a pin-play through the friction clutch 3 on and the shaft to be tested /,

3- pp) 1011 also contains photo receivers 5 and 6. Formers 7-10, element OR 11, block 12 of the conclusion, meter 13 of time intervals, the output of which grinds to be connected to processor 14, element 15 of delay, element OR 16, the grigger 17, the element And 18 and the element 19 delay. In addition, the device includes a bus. 20 launch, an electromagnet 21. performed with a bark 22, jjieHHbiM swiveled in support 23, and. return spring 24.

The device works in the following way.

By the start command (Fig. 3q) from the bus 20, Tpitri ep 17 is set to the zero state (Fig. 3S), and the driver 7 sets the control to the control unit (Fig. 38). Fig. 3g), in this case the bore 22 turns with and unfolds the bar of the unfolding element 2 and the mirror relative to the test shaft .4. From a slice of the control pulse from the element of the IPD 11 through the driver 8 to the input of the meter 13 time intervals, a start pulse is applied from (Fig. 3 9).

After the electromagnet is released, the bore 22 returns to its original position and the sweep element 2 begins to rotate together with the shaft-4, while the light beam of source 1 passes successively through the photo-receivers 5 and 6 and the output of the fflors 9 and 10

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The signals are measured (Figs. 3, 5), by the decay of which pulses are formed, between which the time interval is measured (Fig. 3i, k). The pulse from shaper 9 begins measuring the time interval and the zero state of trigger 17 is duplicated. By the impulse of shaper 10, the time interval measurement stops and a single trigger state 17 is set. The electromagnet 21 and the unwinding element 2 return to their initial state, turning in the direction opposite to the direction of rotation of the shaft 4, the light beam is accordingly turned and a signal is formed. ala at the outputs 9 and 10. Formers Summar.ao raziostnoy-processing the measured intervals determined by the unevenness of the shaft rotation speed.

The proposed device allows measuring unevenness per shaft revolution, which reduces the measurement time.

Claims (1)

Invention Formula Device for measuring the uneven speed of rotation of the shaft, containing a scanning element mounted on the test subject — a shaft, made with a mirror mounted at an angle of 45 ° to the axis of rotation and a barbell control the position of the mirror, horses. which is connected to the core of the electromac- -, due to the fact that, in order to increase speed, it is equipped with the third and fourth mN former, - the first and second OR elements and (First and second delay elements, with the first, second and third inputs of the time interval meter- iTOB p dklyucheny respectively to the outputs of the first, second, third n generators, outputs of the first and Hilti .vtorogo elements respectively connected to the input unit included Cheney. and to the first input flip-flop. 0 0 five 0 five 5.6 VLLZ.I