SU1236426A1 - Device for testing equipment for checking sowing of seeds - Google Patents

Abstract

This invention relates to an automatic monitoring and control technique. The aim of the invention is to improve the accuracy of the device for testing seed control devices. Introduction of an optical modulator device installed perpendicular to the overall optical axis of a light source and a photodetector, the control of the light transmittance of which is dried by a digital circuit consisting of a pulse generator, a counter, a digital-to-analog converter and a digital indicator connected to the digital indicator It allows to check seeding control instruments with high accuracy - in principle, indications to one seed being sown. I il. (L N5 SA: O5 4 GcE O5

Description

This invention relates to an automatic monitoring and control technique and is intended for use in agricultural engineering in sensor testing systems for controlling photovoltaic seeding.

The purpose of the invention is to improve the accuracy of the device for testing seed control devices.

The drawing shows a functional diagram of the instrument and device under test.

The device under test 1 contains a light source 2 and a photodetector 3 located on the casing, its optical axis, and an amplifying and converting unit 4. A device for testing seed monitoring devices contains an optical modulator 5, an amplifier 6 with a variable (manually set) factor gain, digital-to-analog converter 7, opaque shutter 8, counter 9, button “Reset 10 connected to the reset input of counter 9, generator 11 pulses, button“ Check 12 connected to the start input of generator 11, decoder 13, indicator 14 and electr motor 15, with a shaft which is kinematically associated opaque shutter 8.

The device works as follows.

When the power is turned on, the counter 9 is set to the zero state, as a result of which the output of the digital-to-analog converter 7 is set to zero voltage corresponding to the normal light transmission of the optical modulator 5 interrupted by the shutter 8 rotated by the engine 15, which simulates the passage of the seeds through the device 1, and At the same time, the decoder 13 is set to the zero indication state. The optical modulator 5 does not prevent the passage of the light beam from the light source 2 to the photoreceiver 3 of the device under test 1, This indicates a normal process flow, and the output of the amplifier and converter unit 4 of the device under test is set to the logical state "O, the counter 9 starts counting, and the decoder 13 and the indicator 14

are in the "Information prohibition. As the number at the input of the digital-to-analog converter 7 increases, the voltage at its output increases stepwise, which causes (as changed by amplifier 6) a stepwise decrease in the light transmittance of the optical modulator 5. The fraction of the light flux falling on the photodetector 3 decreases and , reaching a critical value, triggers the tested device 1, since the logical "1" appears at its output, coming to the control input (input "Prohibition) of the generator 11 and to the input" Resolution of the decrypted display 13. Generator 11 stops generating pulses, and indicator 14 shows the number of counted pulses from generator 11, which is proportional to the critical transmittance of the optical modulator.

Q When you press the "Reset and Test" buttons, the measurement cycle is resumed.

Claims (1)

Invention Formula A device for checking seed control devices containing an opaque shutter, kinematically connected to the motor shaft and located between the light source and the photoreceiver of the device under test, perpendicular to their common optical axis, and an indicator that, in order to improve the accuracy of the device, it contains a decoder and a pulse generator connected in series, connected by a control input to the output of the instrument under test, a counter, a digital-to-analog converter, an amplifier with variable coders an amplification factor and an optical modulator mounted perpendicular to the common optical axis of the light source and photodetector, the inputs and outputs of the decoder being connected respectively to the outputs of the counter and the device under test and the inputs of the indicator.