SU451901A1 - Device for controlling the kinematic error of gears - Google Patents

Description

(54) DEVICE FOR MONITORING THE KINEMATIC ERROR OF TOOTH TRANSMISSION

3

A dog turns on raster disks of photoelectric sensors. Frequency counter. 16, the frequency of the pulses from the photodiode 5 is determined. The drive is then adjusted so that the frequency meter indicates the frequency that the oscillator 1O produces at a fixed frequency. The LED 8 emits light pulses in antiphase-related relation to iiiymjca. Vi, detected by photodiode 5. Due to the fact that the raster disk of sensor 2 rotates unevenly, impyJPSA are selected on photodiode 4, the duration of which is proportional to the kinematic error of the driving link. The pulses from the photodiode 1 4 in the converter 12 are converted by li voltage, proportional to the width of the pulses and, therefore, to the kinematic g 01 solution of the leading link, and are fed to the comparison circuit 14.

The frequency of the adjustable frequency oscillator is set to the frequency of the pulses measured by the photodiode 6 s to; With the help of the frequency meter 16. The LED 9, downstream from this generator, also flashs out in antiphase with respect to the pulses of the photodiode 6. On the photodiode 7, there appear pulses whose width is jfopUHoiiajiLna to the sum of the errors of the leading ijiiOHii and the controlled engagement. Through the conversion of 13, where the pulse width

converted to voltage, the signal will also go to the comparison circuit 14 ..

At the output of the comparison circuit, a signal proportional to the kinematic error of the gearing engagement is detected, which is recorded by the recording device 15. In addition, the signal from the converter 12 can also be fed directly to the recording device and the error of the driving link can be recorded.

Subject invention

A device for monitoring the kinematic error of gears, containing photoelectric raster sensors and comparison and recording units installed on the drive and driven shafts of the gears, in order to simplify the measurement process and improve accuracy, it is equipped with a frequency meter and oscillators of retrofit and fixed frequencies, and the sensors are provided with electrically connected to the frequency meter by switching. You also use photodiodes and a LED 1.W, of which the LED of the drive shaft sensor is connected to a fixed-frequency generator, ri is not connected to the sensor of the output shaft to the adjustable frequency carrier.