SU1379670A1 - Stand for testing gears - Google Patents

Abstract

The invention relates to mechanical engineering and can be used in life tests of gears. The purpose of the invention is to improve the accuracy of reproducing operating loading conditions. The bench contains a direct current drive motor 1, kinematically connected to the input shaft 2 of the test gear 3, a loader 4 kinematically connected to the output shaft 5 of the test gear 3, and a drive motor control system 1 and a loader 4 that cyclically changes the frequency of rotation of the drive motor 1 when the load is switched on and off 4. 1 or „

Description

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The invention relates to mechanical engineering and can be used in resource tests of gears with

The purpose of the invention is to improve the accuracy of reproducing operating loading conditions.

The drawing shows a structural scheme of the stand.

The stand contains a drive motor 1, kinematically connected to the input shaft 2 of the tested gear 3, a loader A, kinematically connected to the output shaft 5 of the test gear 3, the drive electric motor control unit 6, produced in the form of a thyristor voltage converter supplying the core winding and excitation winding (not shown), load control unit 7 A, rotational speed sensor 8, kinematically connected to drive motor 1, generator connected in series 9 pulse reversible counter 10, the converter 11 is a code analogue and amplifier 12, the output of which is connected to the drive motor control unit 6. The bench also contains a one-way limiter 13 to the maximum, the input of which is connected to the input of the rotation speed sensor 8, and the output to the subtrac the input of the reversible counter 10, one-way limiter 14 on the minimum, the input of which is connected to the output of the rotational speed sensor 8, and the output to the summing input of the reversing counter 10 and to the counting input of the counter 15, the output of which is connected to the input of the first 16 and second 17 decoders, the outputs of the latter are connected respectively to the on and off input of the loader control unit 7. The output of the second decoder 17 is connected to a switch of the power supply unit (not shown).

When the machine is turned on due to the installation capacitances in the reversible counter 10 and the counter 15, a state corresponding to logical O is established. At the first moment of the stand start-up, the driving motor 1 does not rotate, therefore there is no voltage at the output of the rotation frequency sensor 8. The one-sided limiter 14 at the minimum forms the output voltage to the summing input of the reversible counter 10. As a result, the pulses from the output of the generator 9 pulses to the input of the reversing counter 10 are summed by it. Constantly increasing binary code from the output of the reversible counter 10 is fed to the input of the converter 11

The Q code is analog, where it is converted to analog voltage. Analog voltage from the output of converter 11 is a code — the analog is fed to the input of amplifier 12, from the output of which a signal is fed to the input of control unit 6 by a driving electric motor 1, which converts a smoothly growing control signal to a smoothly increasing high power voltage,

Q is supplying a 1-way electric motor 1, which begins to rotate, smoothly increasing the rotational speed of the input shaft 2 of the test gear 3 and the rotational speed sensor 8.

5 The voltage at the output of the rotational speed sensor 8 begins to increase. After a certain time, the voltage at the output of the rotational speed sensor 8 reaches the limit threshold

0 one-way limiter 14 at the minimum. The signal at the output of the latter disappears, but the reverse

the counter 10 continues to sum the pulses arriving at its input,

since the control signal is not supplied to the subtracting input of this signal. After a certain time, the voltage at the output of the rotational frequency sensor 8 reaches the limiting threshold of the one-way limiter 13 at the maximum, which in this case forms on. its output, the signal to the subtracting input of the reversible counter 10. As a result, the pulses from the output of the generator 9 pulses start to subtract, causing the rotation frequency of the drive motor 1 to decrease. At this, the voltage at the output of the rotation speed sensor 8 begins to decrease. how

As soon as this voltage reaches the threshold for limiting the one-sided limiter 14 to the minimum, the reversible counter 10 is switched to the summation state, and

The process of cycling the rotational speed of the drive motor occurs as described. Thus, the transmission test 3 is carried out at idle.

Each time when the one-way limiter 14 triggers on the minimum, the signal from its output goes to the counting input of counter 15, which counts the number of cycles of change in the rotation frequency of the drive motor 1. As the number of these cycles reaches a certain value, determined by the encoding law of the first decoder 16, the output of the latter, a signal is generated, which is fed to the enable input of the control unit 7 by the loader 4, which activates the loader 4. Thus, the transmission test 3 n oh load. As soon as the number of cycles of varying the rotational speed of the drive motor 1 reaches the value determined by the coding law of the second decoder 17, a signal is output at its output to the switching input of the load control unit 7, switching the load loader 4, and the power switch stand

Claims (1)

Invention Formula A gear test bench containing a drive motor kinematically connected to the input shaft of the gear under test, loading the body kinematically connected to the output shaft of the gear being tested five 0 five 0 five drive motor control unit, load control unit, rotational speed sensor, kinematically connected to the drive motor, pulse generator, series-connected reversing counter, converter code — analogue and amplifier, first and second decoders, and so that, in order to increase the reproduction accuracy of the operating loading modes, it is equipped with a one-way maximum limiter, the input of which is connected to the output of the rotational speed sensor, and the output to you a reversible counter input input, a one-way minimum limiter, whose input is connected to the output of the speed sensor, and an output to a summing input of the reversible counter, and a counter, the counting input of which is connected to the output of the one-way minimum limiter, and output to the first and second inputs decoders, while the output of the pulse generator is connected to the input of the reversible counter, the output of the amplifier is connected to the control unit of the drive motor, the output of the first decoder is connected to the input of the switch eye, control nagruzhatelem and vghod second decoder - to the input of the control unit turning off nagruzhatelem.