SU556340A1 - Optical level gauge - Google Patents

Description

one

The invention relates to the field of level measurement technology and can be used to measure the level of liquids having different optical densities.

Optical level gauges are known that contain a light source and a photodetector located on opposite sides of the vessel, and showing a device associated with the photodetector 1.

These level gauges have drawbacks, such as low measurement accuracy and a large dependence of measurement accuracy on changes in the optical density of the medium, contamination of the light guide windows and changes in the supply voltage.

The closest of the optical gauges of the invention according to the technical essence is gauge 2. This gauge contains a source and a photodetector, a turbidity indicator, a tracking system, a recording device, an oscillator with electrodes and piezoelectric vibrators installed in the optical fiber windows.

However, such a level gauge has a low measurement accuracy due to the presence of a large number of elements and, accordingly, a complex structure.

The purpose of the invention is to improve the measurement accuracy and simplify the design.

This is achieved by the fact that the photoelectric receiver is made in the form of a rasnolol ennyx on the same level of the optical wedge, expanding upwards, and optical glass with photoelectric cells superimposed on their faces at one angle to the light flux, which are connected to logarithmic amplifiers, the outputs of which are connected

a difference unit connected to one of the inputs of the other difference unit, the second input of which is supplied with a reference voltage.

FIG. Figure 1 shows a schematic diagram of a photocetum; in fig. 2 - connection diagram of measuring elements; in fig. 3 - principle of operation of the photodetector of the optical level gauge.

The optical level gauge consists of a vessel 1 with a liquid installed in the windows 2 of the light source 3 and the photodetector 4. The photodetector 4 is designed as an optical wedge 5 extending upwards and located on the same level of the optical wedge 5,

Claims (2)

with photodetectors 7 and 8, nalennyh on their faces, Photoreceivers 7 and 8 are connected to photocurrent converters 9 and 10, made B as log-amplifiers connected by outputs to difference unit 11, which through the second difference unit 12, to which the reference voltage is applied Woa, connected to the display device 13. Zfnefmener works as follows. The liquid level in vessel 1 darkens the photodetectors 7 and 8, dividing the area of each photodetector into an illuminated (above the liquid level) and a dark one (below the liquid level). When the level in the vessel changes, the illuminated and darkened areas of the photodetectors 7 and 8 change, resulting in a change in the output signal from the difference unit I. This signal is compared in the difference unit 12 with the reference lump / 7op. and a spread signal, proportional to the change in level, is applied to the indicating device 13. The zero value of the level is set by selecting the reference voltage Uon. measurements. This is due to the fact that the output signal from the photodetector 7 is compared with the signal from the photodetector 8. The output signal of the photodetector 7 depends both on the ratio of the illuminated and darkened areas, and on the optical density of the wedge located in front of the illuminated area. The output signal of the photodetector 8 depends only on the ratio of the illuminated and darkened areas. When subtracting one signal from another, all side factors affecting the measurement accuracy are excluded, since they act equally on both photodetectors. The output signal from the difference block And in this case contains the dependence of the illumination of the photodetector 7 only on the density of the optical wedge 5, which is proportional to the liquid level. Claims of the invention An optical level gauge comprising a source and a photoelectric iriam of light mounted on diametrically opposite sides of a vessel with a liquid, and a photocurrent conversion circuit connected to an indicating device, characterized in that, in order to improve the accuracy of measurement and amplification of the structure, a photoelectric receiver made in the form of an optical wedge razolozhenny at the same level, expanding to the top, and optical glass with photos superimposed on their faces at one angle to the light flux elements that are connected to the photocurrent conversion circuit, made in the form of logarithmic amplifiers, to the outputs of which a difference block is connected, connected to one of the inputs of the other difference block, to the second input of which a reference voltage is applied. Sources of information taken into account during the examination: 1.Litvak V.I. Photoelectric sensors in control systems, control and regulation. M., Iauka, 1966, p. 228-229, fig. 5.32. 2. Avt. St. No. 356471, cl. G 01 f 23/22, 1971 (irototi). eight FIG. I