SU972281A1 - Piezoelectric thermoreceiver - Google Patents

Description

(54) PIEZOELECTRIC TEP / V OPTIONEMIK

one

The invention relates to instrumentation engineering and is intended, in particular, to measure local pulsed energy effects.

A piezoelectric thermal receiver is known, comprising a housing with a piezoelectric plate placed in it with film metal electrodes deposited on its upper and lower surfaces, one of which is connected to a resistance measurement circuit.

The known thermal receiver is designed to simultaneously measure the pressure of the medium and its temperature, the magnitude of which makes it possible to judge the total heat flux 1.

The disadvantage of this device is the impossibility of measuring the radiant component of the heat flux.

The purpose of the invention is to enhance the functionality by measuring the radiant heat flux.

This goal is achieved by the fact that in a known piezoelectric thermal receiver comprising a housing with a piezoelectric plate placed in it with metal film electrodes deposited on its upper and lower surfaces, one of which is connected to a resistance measuring circuit, the electrodes are deposited ,

 widening them, while the second electrode is also connected to the resistance measurement circuit, and the plate itself is made of a transparent for radiant flux of material.

10 FIG. Figures 1 and 2 are respectively structural and measuring circuits of a piezoelectric thermal receiver.

The substrate 1, which is a polished piezoelectric plate made of a transparent for radiant

 The material flow (for example, piezoelectric quartz) with film metal electrodes 2 and 3 deposited on its upper and lower surfaces is placed on an insulating sleeve 4, in which electrical leads 5 and 6 are rigidly fixed. The latter are connected to contact areas of film metal electrodes 2 and 3. The insulating sleeve 4 is fastened in the metal housing 7 with a nut 8. The gasket 9 prevents the electrical leads 5 and 6 from being closed on the housing 7. With its lower surface, the substrate 1 rests on the projections of the insulation sleeve 4. velicheni heat flux absorbance film metal.ticheskim lower electrode 3 of the last pre-IU () is called. The substrate 1 itself should have a minimum absorption coefficient of the radiant flux. In a plane perpendicular to the heat flux, the metal film electrodes 2 and 3 are arranged with an offset that exceeds their width so that the top film metal electrode 2 does not obscure the bottom film metal electrode 3. ..

The device works as follows.

The heat flux is determined by measuring the electrical resistance of the metal film electrodes 2 and 3 proportional to their temperatures, the integral heat flux is determined by the temperature of the upper electrode 2, and the radiant heat flux is determined by the temperature of the lower metal film electrode 3. The potential difference due to the effect of pressure on the substrate 1 is reduced from any pair of electrical leads 5 to 6.

The device improves the efficiency and accuracy of measurements, since, in addition to measuring the temperature of the surface of the total heat flux and pressure at one measuring point, it allows for measuring radiant heat flux and introducing temperature correction into the measurement results.

Claims (1)

Invention Formula A piezoelectric thermal receiver, comprising a housing with a piezoelectric plate placed in it with film metal electrodes deposited on its upper and lower surfaces, one of which is connected to a resistance measurement circuit characterized in that, in order to enhance the functionality by measuring radiant heat flux, the electrodes are deposited on the surfaces of the plate with an offset m greater than their width, while the second electrode is also connected to the resistance measurement circuit, and the plate itself ina vsholnena of transparent material for the light flux. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 539237, cl. G 01 L 9/08, 1975 (prototype). L f /