SU857766A1 - Pressure pickup - Google Patents

Description

(54) PRESSURE SENSOR

t

The invention relates to a measuring, engineering, and is intended to measure fluctuations in the pressure of a gas or liquid in systems with a large range of pressure variations.

A pressure sensor is known that includes a housing with a cylindrical sensitive element CO "located inside it.

A pressure sensor is known that contains a cylindrical element with optical fiber wound onto it and incorporated into an interferometer.

A disadvantage of the known pressure sensor is a C1 decrease in the measurement accuracy of pressure fluctuations with an increase in the average component of the measured pressure.

The purpose of the invention is to improve the accuracy of measuring pressure fluctuations while simultaneously measuring average pressure.

The goal is achieved by the fact that the pressure sensor is equipped with a hermetic housing, inside which is fixed along the perimeter of the ends of the chins

The element is made in the form of an elastic tube with a calibrated orifice, the tube cavity being connected to the source of the measured pressure.

The drawing shows the proposed.

The pressure sensor contains an elastic

10 a tube 1 on which the fiber 2 is wound. The elastic tube 1 is placed in a rigid hermetic body 3, the cavity 4 of which is connected to the cavity 5 of the elastic tube 1 by means of a calibrated hole 6. Besides

In addition, the cavity 5 of the elastic tube 1 is connected to the source 7 of the measured pressure. The size of the calibrated hole 6 is chosen in accordance with

Claims (2)

X) the working medium so that the pressure equalization time in cavities 4 and 5 is much longer than the period of the lowest frequency pressure fluctuations created by the source 7 of the measured pressure. The light window 2 is included in the measuring circuit, which can be used as an interferometer that includes an MDHO-chromatic optical source 8 of optical of the first type installed at the input of the optical fiber 2, for example a laser optically connected to the sensor 9 of the reference signal, which used the second optical fiber 10 , the photodetector P is installed at the output of the optical fibers 2 and 10 and recording unit 12 connected to the output of the photodetector and connected to the display unit 13. The sensor works as follows: The medium whose pressure is measured fills the cavity 5 of the elastic tube 1 and through the calibrated hole 6 also fills the cavity A of a rigid hermetic; the housing 3, where the optical fiber 2 is located. Moreover, the pressure fluctuations from the source 7 are transmitted only to the cavity 5, and in the cavity 4, due to the presence of a calibrated orifice 6, the average pressure is always established. On the photodetector 11 is mixed in the optical radiation from the source 8, passing through the fiber 2, and the second fiber 10. In this case, the magnitude of the signal on the display unit 13 is proportional to the reframett coefficient of the fiber. Coefficient pre.) # 1. the fiber is determined by the pressure acting on it, and also depends on the degree of deformation of the fiber. If there are no fluctuations in block 13, the signal is generated that is proportional to the average pressure acting on the optical fiber 2. When a fluctuation occurs, the signal from the average pressure remains and an additional signal is added, depending on the value of the pressure pulsation. The pressure fluctuations in the source 7 of the measured pressure are transmitted only to the cavity 5 of the elastic tube 1. The deformation of the elastic walls of the tube and, accordingly, the deformation of the fiber 2, expresses. The last design leads to elongation with a simultaneous 8 64 change in the fiber refractive index 2 This change is recorded with the help of an interferometric device. When the pressure of the medium changes, due to the presence of a calibrated orifice 6, the pressure in cavities 5 and 4 is compared and the accuracy of the measurement is measured maintained at the originally established high level determined by the high accuracy of the optical fiber interference measurement system, which is proportional to the length of the optical fiber 2 used. When using an elastic tube with an outer diameter of 3 cm and a height of 3.5 cm, the optical fiber in a protective sheath with an external diameter of 1 mm length of the fiber may exceed 3m. This ensures the registration of minimum pressure settings in thousandths of mm Hg. regardless of the absolute value of the average pressure (from units of mm Hg to hundreds of atmospheres). The proposed device has high sensitivity and measurement accuracy, which ensures simultaneous accurate measurement of the average pressure value and the magnitude of its fluctuations. Pressure sensor, comprising a cylindrical element with optical fiber wound on it included in an interferometer, characterized in that, in order to improve accuracy and pressure fluctuations with simultaneous measurement of average pressure, it is equipped with a hermetic casing inside which a cylindrical element is fixed around the perimeter of the ends, performed in the form of an elastic tube with a calibrated orifice, the tube cavity communicating with the source of the measured pressure. Sources of information taken into account in the examination 1. The author's certificate of the USSR №.651214, кп. Q01L 9/08, 04/25/72 2.Electronics letters vl4, 1978, No. 14, p. 419-422 (prototype).