SU1652813A1 - Liquid film thickness measuring device - Google Patents

Abstract

The invention relates to a device for measuring liquid films of n to be used in the power industry, trilogue and hydrodiamac (Gel of the invention is an extension of the field of application, namely, control of the thickness of films of liquids regardless of their accuracy and properties by changing the reflection conditions on the gas-liquid interface. A micrometric contact probe, at the contact end of which a svégonod is installed, passes its passage inside the probe, and mixes a perpendicularly controlled surface on which A second light guide with a photocoupler is installed at the point of contact of the probe. The outer end of the fiber is illuminated by a light source. The electric signal i of the receiver at the moment the liquid touches the film is amplified by an amplifier and recorded by the recorder. The device allows measurements of the film thickness of both electrically conductive and non-conductive liquids. 1 ill. (L

Description

The invention relates to a measuring device for them, a technique for them, and in particular to devices for changing the l / g of a film film of liquids, and the Drink hammer is used in energy. ghitop (hnicke and hydrodynamics.

The aim of the invention is to expand the field of application by controlling the thickness of the films of liquids regardless of their: physical properties due to the use of a change in the reflection condition at the gas-liquid interface.

The drawing shows the device, General view.

The device consists of a tubular micrometer probe 1, at the contact end of which a light guide 2 is installed, passing inside the zone D to the optical radiation source 3 and associated with it by an optical link. At the point of contact of the micrometer probe 1, on the irrigated surface A, a receiving light 5 is installed, which is connected to the photoreceiver via optical differentiation device (connected to the recorder v 8 via a differentiation amplifier 7.

The device is as follows.

05 SL N5

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The radiation from the source 3 enters the transmitting satellite 2, which is located in the tubular probe 1 and moves the perpendicularly controlled surface 4. When the light guide 2 moves in a gaseous medium, the power transmitted to the photodetector 6 and the output differentiating amplifier 7 no signal.

When the end face touches the liquid film 9, an abrupt increase in the radiation power transmitted to the photoreceiver 6 occurs due to a change in the reflection conditions at the end of the transmitting light guide 2.

A jump in the electrical signal at the output of the photopronger 6 results in the appearance of an electrical signal at the output of the differentiating amplifier, which is recorded by the recorder 8, and the value of the first count on the reading device of the micrometer probe 1 is recorded. The second value, which corresponds to the contact of the end of the light guide 2 with the receiving light guide 4, also is recorded on the reading device of the micrometer probe 1. The difference of these values will give the thickness of the liquid film.

The proposed device makes it possible to measure the film thickness of a liquid regardless of the dielectric properties of liquids, which expands the field of application of the device in comparison with the prototype.

Claims (1)

Invention Formula A device for measuring the film thickness of a liquid, containing a micrometer probe for contacting a controlled surface, and a recorder, characterized in that, in order to expand the field of application by controlling the film thickness of non-conductive liquids, it is provided with an optical radiation source, two optical fibers, a photodetector and differentiating amplifier, micrometer probe is made tubular and at its contact end is installed one of the optical fibers, which is fixed inside the probe and optical The ki is connected to the source, and another light guide is designed to be installed in a controlled surface at the point of contact of the probe and optically connected to a photodetector connected to the recorder via a differentiating amplifier.