RU1812463C - Fiber-optical pressure meter - Google Patents

Abstract

The invention relates to instrumentation and can be used to measure absolute, differential and gauge pressures of liquids and gases. Goal: expand the functionality and increase the sensitivity of the sensor. SUMMARY OF THE INVENTION: in addition to a membrane sensitive element fixed in a housing with a working chamber, the first and reference fiber-optic converters, made in the form of emitting and receiving optical fibers with a light source, photodetectors and an electronic converter unit, the fiber-optic pressure sensor contains a second a working chamber with a second membrane sensitive element and a second fiber-optic transducer, identical to the first and connected to the network source. The working chambers are installed on both sides of the supporting reflective surface located in the center of the sensor housing, opposite which the end of the reference transducer is located. The cavity of the sensor housing is evacuated to a pressure of 10 2-10 mmHg. Art. The ends of the first and second converters are made in the form of two concentric rings formed by the ends of the optical fibers. The inner ring is formed by emitting, and the outer-receiving fibers. 1 s P. f-ly, 3 ill. w yo

Description

The invention relates to instrumentation and can be used to measure absolute, differential and gauge pressures of liquids and gases.

The aim of the invention is to enhance the functionality. An additional goal is to increase the sensitivity of the sensor.

The goal is achieved in that the sensor is equipped with a second working chamber with a second membrane sensing element and a second fiber optic transducer identical to the first and connected to the light source, while the working chambers are mounted on both sides of the supporting reflective surface located in the center of the sensor housing, opposite which the end face of the reference fiber-optic converter is located, and the cavity of the sensor housing is evacuated to a pressure value of mmHg.

The goal is also achieved by the fact that the ends of the first and second fiber-optic converters are made in the form of two concentric rings formed by the ends of the optical fibers, the inner ring being formed by radiating optical fibers and the outer one by receiving ones.

In FIG. 1 shows a schematic diagram of a fiber optic sensor dc00

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laziness; in FIG. 2 is a diagram of the working and reference converters; in FIG. 3 - the location of the fibers at the ends of the transducers.

The sensor (Fig. 1) contains a radiation source 1 to which a fiber optic path 2 is connected, consisting of two working 3, 4 and a reference 5 of fiber optic converters, a holder 6, in which the ends of the fiber optic converters are fixed, inserted into the cavity of the housing 7. The ends of the working converters 3 and 4 are installed opposite the centers of two membranes 8 and 9, mounted in two working chambers 10 and 11, and the end of the supporting transducer 5 is placed opposite the supporting reflective surface 12. which is limited by an annular light protection - hydrochloric partition 14, as well as three of the photodetector 14, 15i 16 L three will strengthen 17,18 and 19 two signal divider 20 and an output amplifier 21 and the difference signal 22.

Converters 3. 4 and 5 (Fig. 2) include a radiation source 1, emitting 23 and receiving 24 optical fibers, ends 26, 27 and 28 of the bundles and photodetectors 14; 15 and 16.::

The ends 26 and 27 (Fig. 3) of the working fiber-optic converters 3 and 4 are made in the form of two concentric rings formed by the ends of the optical fibers 23. 24..

The fiber optic pressure sensor operates as follows. The light from the radiation source 1 is transmitted through the optical fibers to the ends of the converters 3, 4, 5 and through the emitting ends to the membranes 8, 9 and the reference reflective surface 12. The reflected light is transmitted through the receiving optical fibers to photodetectors 14-16, the signals from which are fed to amplifiers 17 -19, then into dividers 20, 21, which are designed to maintain the output signal nocTofltf when the input optical power changes. Next, the signal is separated, part of it is output for recording the values of the pressures PI and Pr in the chambers 10, 11, and the second part of the signal is fed to the amplifier 22, where the signals are subtracted after the dividers 20, 21.

The output signal contains differential pressure information.

The described sensor provides enhanced functionality and has a fairly high sensitivity.

FORMULA AND ZOBRETEN

Claims (2)

1. Fiber optic pressure sensor containing a membrane sensing element mounted in a housing with working chamber, the first and reference fiber-optic converters, made in the form of emitting and receiving optical fibers with a light source, photodetectors and a block of electronic converters, and the ends of the optical fibers are fixed in the holder located in the cavity of the housing, and their ends are located in one plane, the optical fibers of the first fiber optical converter mounted opposite the center of the membrane sensitive element with a reflective surface, and located between the supporting reflective surface and the holder is located coaxially supporting to the fiber-optic converter of the annular Light-shielding partition, which is so that in order to expand the functionality, it is equipped with a second working chamber with a second a membrane sensing element and a second fiber-optic transducer, identical to the first and connected to a light source, while the working chambers are installed on both sides of the supporting reflective surface located in the center of the sensor housing, opposite which the end of the reference fiber-optic converter is located, and the cavity of the sensor housing evacuated to pressure values mmHg. Art. 2. The sensor according to claim 1, with the exception that, in order to increase the sensitivity of the sensor, the ends of the first and second fiber-optic converters made in the form of two concentric rings formed by the ends of the optical fibers, the inner ring being formed by radiating optical fibers, and the outer one by receiving ones. .-; / -. -, .- Editor Compiled by I. Sumso in Tehred M. Morgenthal fU3 Proofreader N. Revska