SU932311A1 - Pickup for measuring non-stationary pressures - Google Patents

Description

 . -one .

The invention relates to a technique for measuring temperature, pressure, and: gas density, and is intended to simultaneously measure the above-mentioned parameters of non-stationary gas-dynamic processes at one point.

Pressure sensors with a piezoelectric sensing element are known.

Closest to the proposed. is a piezoelectric sensor for measuring transient pressure, which has a spherical sensing body. an element made by piezoelectric ceramics, on the inner surface there is a layer of silver and an elastic thermal insulation layer, and a conductor connected to the inner silver layer 2.

The specified sensor does not allow temperature and pressure to be measured simultaneously at one point in the gas stream.

; The purpose of the invention is to provide the possibility of simultaneous measurement of temperature and pressure at one point of the unsteady gas flow.

Claims (2)

This goal is achieved by the fact that the pressure sensor is equipped with two microthermocouples with different thermal inertia with current leads installed in a dielectric liner made in the form of a cylinder with a spherical outer surface, which is fixed with a thermoelectric insulation The macaws are located in parallel grooves, on the outer surface of the liner, and a third of avka perpendicular to the first two, the insert is flush with the spherical piezo element, and insulated current leads are led out microthermocouples 3. 9 via a lead pipe in contact with an outer layer of silver piezoelement. FIG. 1 shows the proposed sensor for the study of non-stationary gas-dynamic processes, a section; in fig. 2 - location of microthermopairs. The sensor contains a piezoelectric element consisting of a spherical piezo ceramic sensitive element 1, inner 2, outer 3. The silver layers, the conductor connected to the inner silver layer, the role of another conductor connected through contact 5 to the outer silver layer, is performed by a metallic tube 6. The outer surface of the piezoelectric element is covered with thermo-insulating material 7- A dielectric insert .9 in the grooves 10 and 1 is installed in the hole of the spherical piezoelectric element by means of thermo-insulating material 8 1, micro thermocouples 12 and 13 are laid with different thermal inertia. The compensation wires 1 and 15 of the microthermocouples are led out, through the metal tube 6 under the working sections of the microthermocouples, another groove 16 is made perpendicular to the first two. The temperature of the unsteady gas-dynamic process and the density of the gas are determined by the known dependencies. The proposed sensor design favorably differs from the known one, since it allows the simultaneous determination of the temperature, pressure and density at one point of the gas flow, which is necessary for diagnostics of 1 non-stationary gas-dynamic processes. A sensor for measuring unsteady pressure, containing a hollow spherical piezo element, on the inner surface of which a silver layer is deposited, and on the outer surface — a silver layer and a thermal insulation layer, current leads and lead metal tube, which is different in that point of temperature and pressure gas flow, it is equipped with two microthermocouples with different thermal inertia with current leads installed in a dielectric insert made in as a cylinder with a spherical outer surface, which is fixed with thermoelectric insulation in an orifice made in a spherical piezoelectric element, the microthermocouples are placed in parallel grooves on the outer surface of the insert, the liner is flush mounted, with a spherical piezoelectric element, and the isolated current leads of the microthermopar are brought out through the outlet tube in contact with aruzhnym silver layer piezoelectric element. Sources of information taken into account during the examination 1. USSR author's certificate No. 538261, cl. G 01 .L 23/10 ,. 1965. 2. Acoustical Journal, 1959. v.5 issue. 1, s. (prototype) (Pu.f ten /five and. f in id A