SU608101A1 - Thermoanemometric sensor - Google Patents

Description

The inventions relate to the measurement technique and can be used in measuring the parameters of stationary gas and liquid media (pressure, composition) in experimental aero-hydrodiamiamics.

Known semiconductor thermo-anemometric sensors, which have received a wide response in measurement technology 1.

A wire thermo-anemometric sensor of direct heating is known, containing a metal filament, current leads and contactors (2) as a sensitive element.

The disadvantage of the wire hot-wire anemometer sensor of direct heating is its sensitivity to measure the parameters of stationary gas and liquid media (for example, pressure, composition).

The purpose of the invention is to increase the sensitivity of the wire tri-oemometric sensor when measuring parameters of static gas and liquid media.

For this, in the proposed device, the current leads are made in the form of bimetallic plates that are in contact with the contactors in fastening the filament.

In the drawing is the sensor assembly design.

The wire thermo-anemometric sensor contains a sensitive element in the form of a thin metal filament I, tokoprdpody 2 and 3 in the form of bimetallic plates in contact with the contactors 4 and 5 in the place of attachment of the thread.

The supply circuits EI and E2 are included in the circuits of contactors 4 and 5, and the supply circuit EZ is included in the circuit of a metallic wire.

The sensor works as follows

The sensing element in the form of a metallic filament 1 is connected with the help of current leads 2 and 3 in the form of bimetallic plates and is fed to the E-filament power source, due to the current flowing through it, it is heated and its temperature is determined by the conditions of heat exchange with the environment. Consequently, the resistance of a metal thread depends on the power dissipation factor of the thread under specified conditions of its heat exchange with the environment. Heat transfer conditions

in particular, they can be determined by the pressure of the environment, its composition, density, and so on.

The power sources of the contactors 4 and 5 heat the current leads 2 and 3 in the form of bimetallic plates, which bend and break the corresponding circuits of the power sources E and E2. After breaking the electric circuit, each of the bimetallic plates begins to cool, returning to its original position. After the bimetallic plate comes into contact with the contactor, heating of the electrical power supply starts, and the whole cycle repeats. The metal thread comes into oscillatory motion with respect to the environment due to the periodic oscillations of the current leads in the form of bimetallic plates.

The oscillatory movement of the thread of the medium leads to the fact that a change in the coefficient of scattering of the thread results in a component determined by a change in the forced convection of the thread when the parameters of stationary gas and liquid media change.

Claims (2)

1.Shashkov A.G. Thermistors and their application, M., “Energy. 1967, p. 296. 2. Maine V. V. Kin, E. G. Donchenko. Electronic Systems for Automated Measurement of Fluid and Gas Flow Characteristics, Moscow, Energiya, 1970, p. eight.