SU1227956A1 - Photoelectron indicator device - Google Patents

Abstract

This invention relates to a measurement technique, in particular to a volume, flow or liquid level meter. The purpose of the invention is to increase the reliability of operation, the accuracy of control of a given parameter when exposed to external light radiation and the influence of climatic factors. The float 2 is placed in a glass float level indicator 1 located between the source 3 and the radiation receiver 4, made respectively on the infrared (IR) light-emitting diodes and the photodiode. In addition, the device contains a capacitor 5, a synchronous detector 6, a modulator 7, a photocurrent amplifier 8, an integrator amplifier 9 and a recording unit 10, the introduction of a modulator, a capacitor, a synchronous detector and an integrator amplifier, and the implementation of new connections allowed to use the modulation method of measurement and use the infrared LED as a radiation source. 1 il. (Lio to; about SP O5 F

Description

The invention relates to a volume, flow or level measuring instrument: a liquid and can be used in the design of photoelectric indicator devices of the float type in flow meters, liquid level sensors.

The aim of the invention is to increase the reliability of photoelectric devices, as well as their accuracy in controlling a given parameter (level or flow rate) under the influence of external light radiation and the influence of climatic factors by using a module and a young measurement method and using a light source as the source of radiation. infrared radiation diode, which has a sharply directed radiation pattern and sufficient power in a radiation pulse, eliminates the effect. azuets on the inner surface of the glass float level indicator for long term use and exposure to climatic factors.

The drawing shows the block diagram of the device.

The device consists of a glass pointer 1 of the float level with a scale in which the following is placed: pavok 2 between the radiation source 3 and the radiation receiver 4, which are made respectively on the infrared light-emitting diode and the photodiode radiation receiver 4 is connected through a capacitor 5 to the first input of the synchronous detector 6, and the second input is a synchronous detector 6 connected to the first output of the modulator 7, the second output of the modulator 7 is connected to the radiation source 3, the output of the synchronous detector 6 is connected via serially connected a photocurrent 8 and an integrator amplifier 9 are connected to a recording unit 10,

The device works as follows.

The radiation source 3 and the radiation receiver 4 are installed on the same optical axis with directional diagrams opposite to each other at a level corresponding to the monitored value of the fluid flow rate on the scale of the glass indicator 1 of the float level. By reducing the flow rate less than the controlled value of the float 2

in the glass float level indicator 1, the infrared light pulses emitted by the radiation source 3, which is powered by the modulator 7 by pulsed voltage of a certain duration and frequency, pass through the glass float indicator 1 and the liquid column in it and arrive at the radiation receiver 4, from which the pulsed photocurrent through the capacitor 5 is fed to the input of the synchronous detector 6. The pulsed photocurrent is fed to the input of the amplifier I of the photocurrent only at the time the pulses pi from the modulator 7 to the synchronous detector 6 and the radiation source 3, t, e, the pulsed photocurrent enters the photocurrent amplifier 8 synchronously with the angular momentum of the radiation emitted by the radiation source 3,

Photocurrent pulses are amplified by photocurrent amplifier 8 and fed to

integrator amplifier 9, which integrates photocurrent pulses.

When a certain voltage level is reached at the output, the amplifier-integrator 9 triggers the recording unit 10, indicating a reduction in the flow rate of a less controlled value.

When the flow rate increases to a controlled value, the float 2 in the glass indicator 1 of the float level rises up, blocks the infrared radiation beam from the radiation source 3, there is no pulsed photocurrent at the input of the radiation receiver 4, and the recording unit 10 does not work.

The device is protected from the influence of external light on its operation.

The external light radiation (continuous) J fed to the radiation receiver 4 causes a constant photocurrent at its output, which does not let the capacitor 5 connected between the radiation receiver 4 and the input of the synchronous detector 6 pass through, and the recording unit 10 does not work.

The device is protected from external pulsed light radiation by a synchronous detector 6, which ensures the transmission of a pulsed photocurrent only synchronously with the moment of light emitted by the source 3 of the radiation

Claims (1)

Invention Formula A photoelectronic indicator device containing a glass level indicator of the float, a float placed between the radiation source and the radiation receiver, a photocurrent amplifier and a recording unit, characterized in that, in order to control the accuracy of the fluid flow and increase reliability, a modulator and capacitor are inserted into it. . a synchronous detector and an integrator amplifier; the radiation source is connected to the first output of the modulator, the second output of which is connected to the first input of the synchronous detector, the second input of which is connected via a capacitor to the output of the receiver, and the output of the synchronous detector is connected with an amplifier-integrator, the output of which is connected to the recorder. by block.