SU1006953A1 - Piezoelectric pressure gauge - Google Patents

Abstract

PIEZOELECTRIC MANOMETER: containing a piezoelectric element installed in the housing, a membrane, an alternating voltage source and a measuring MTTTt I measuring device, characterized in that a part of the plate protrudes beyond the limits of the body, while the part of the plate, which is full in the body, is polarized in thickness and covered over the main electrodes, one of KOTOI DC itself, and the other Without the input of the measuring device connected to the alternating voltage source, the part of the plate protruding beyond the enclosure is polarized along and located with a gap relative to the membrane that covers it from (L on both sides and is attached to the cantilever / SI 1 I and) O) CO C71 M 0

Description

The invention relates to instrumentation engineering, in particular piezoelectric transducers, and can be used to measure the pressure of gases and liquids. .

Piezoelectric manometers are known for measuring static and dynamic pressures 11.

The closest to the invention according to the technical essence and the achieved result is a piezoelectric pressure gauge, which contains a piezo element installed in the housing, a membrane, a variable voltage source and a measuring device 2.

However, the known device is not inherently high sensitivity and stability of indications. The whole invention is to increase the sensitivity and stability of a piezoelectric pressure gauge.

This goal is achieved by the fact that, in a manometer, a piezoelectric element is made in (a video plate fixed tightly in the housing so that a part of the plate protrudes beyond the limits of the case, while the part of the plate located in the case is polarized in thickness and covered on the main planes with electrodes of which directly, and the second through the input of the measuring device, is connected to a source of alternating voltage, and the part of the plate protruding beyond the body is polarized along and located with a gap relative to the membrane, which is Tyva it from both sides and is attached to the body of a cantilever.

The drawing schematically shows a piezoelectric pressure gauge.

The piezoelectric element 1 is made of piezoceramics with a high electromechanical coupling coefficient, for example, of ceramic lead zirconate titanate. It has the shape of a plate, a part of which is covered with electrodes 2 and is polarized in this part in thickness. The remaining part is polarized along the plate (the polarization is shown by arrows and indices P in the drawing). Using a polyurethane washer 3, the piezoelectric element is fixed in an airtight casing 4. Tonka Mambrana 5, on both sides, covers a part of the piezoelectric element. Source frequency variable

the voltage is chosen from the condition that the current at the input of the measuring device is equal to half the current corresponding to the frequency of the first resonance of longitudinal oscillations along the plate. 5 When the source 7 is turned on, its voltage through the input resistance of the measuring device 6 is applied to the electrodes 2. Due to the inverse piezoelectric effect in the piezoelectric element 1, longitudinal oscillations are excited along the plate. The greater the amplitude of these oscillations, the more current flows at the input of the measuring instrument. On the other hand, the mechanical oscillations S due to the direct piezoelectric effect are transformed into an electric alternating potential on the surface of the piezoelectric element, not covered with electrodes. In the gap between the piezoelectric element 1 and the membrane 5, the potential, creates an electrical intensity, the magnitude of which varies with the gap. In turn, the electrical intensity in the gap determines the current at the input of the measuring device 6, the gap. is a function of the pressure of the environment, e.g. air. Thus, the information on the change in ambient pressure is the amplitude of the current at the input of the measuring instrument.

Since the maximum slope of the current versus pressure is observed approximately in the middle of the right slope of the resonance curve, the operating frequency is chosen from the condition that 5 the nominal current at the load is equal to the current corresponding to the resonance frequency.

Due to the fact that the proposed piezoelectric pressure gauge is a device of parametric type, where the generator 7 is an alternating voltage source 7, the sensitivity of such an instrument is very high. The stability of the parameter ceramics, ki. The inclusion of two such sensors by known schemes for compensating for temperature and time instability eliminates the influence of these factors on the stable operation of the device. The lack of relationship between sense of vitality and stability of readings allows both parameters to be significantly increased with respect to the prototype.

Claims (1)

Piezoelectric manometer: containing a piezoelectric element, a membrane, a source of alternating voltage and a measuring device installed in the housing, characterized in that, in order to increase the sensitivity and stability of readings, the piezoelectric element is made in the form of a plate fixed tightly in the case so that part of the plate protrudes outside the housing, while the part of the plate located in the housing is polarized in thickness and covered on the main planes with electrodes, one of which is directly and the other through the input The measuring device is connected to an AC voltage source, and the part of the plate protruding beyond the housing is polarized along and located with a gap relative to the membrane, which covers it from two sides and is attached to the housing cantilever. „.SU. ,,, 1006953