SU1185134A1 - Pressure fluctuation tpansducer - Google Patents

Abstract

A PULSE PRESSURE SENSOR, containing a static pressure compensated membrane converter in the form of a sealed box, an oscillating circuit with means for controlling its impedance, characterized in that, in order to improve the accuracy by eliminating the effect of a change in static pressure, it is provided with a fixed relative to the sealed box a static total pressure component sensor whose movable element is associated with an impedance control means laziness of the oscillatory circuit in accordance with the variation of the static pressure component. SL medium.

Description

l 1 (ta / ffla

ffjxrfjrfffffreffffffffff.rffffffffffff. rrfrff.rffi

73 figure 1

YU

11185

The invention relates to a measurement technique and can be used to measure pressure pulsations in gases and liquids.

The aim of the invention is to increase the accuracy of the sensor by eliminating the effect of a change in static pressure.

FIG. 1 shows schematically a pulsation sensor of a disk on which O is applied an auxiliary lining electrically connected with the working lining, general view; in fig. 2 is the same as FIG. 3 - the same, the option is an increased scale.15

The membrane 1 with the working electrode 2, made in the form of a disk, form an electrical capacitance system connected in parallel with the flat inductance coil 3. The electrode 2 and the coil 3 20 are mounted on a ceramic base 4 connected to the housing 5. The ferrite disk 6, on which the auxiliary electrode 7 (metallic layer) is applied, forms the auxiliary facing. The disk 6 is connected with the coil 3 by means of a corrugated annular membrane 1, the auxiliary electrode 7 and the electrode 2 are electrically connected between the coaxial contact, and the diaphragm 8, which is the elastic element of the auxiliary sensor — the static component of the total pressure, together with disk 6,. the housing 5 and the base 4 form an auxiliary hermetic cavity.

The cavity formed by the housing 5, together with the cover 9, is divided into two parts by a sealed elastic diaphragm 10 preventing the Q from falling into the cavity between the membrane 1 and the electrode 2, which communicates with the cavity between the partition 11 and the diaphragm 10 by means of channel 12, and external environment - 45 using the throttle channel 13. C. With a secondary apparatus, the sensor is connected by means of a cable 14.

When exposed to the sensor simultaneously pulsation and static1342

Which component of the pressure of the membrane 1, due to the equalization of the average pressure in the sensor cavity and the static pressure of the external environment provided by the throttle channel 13, bends only from the effect of the pulsating component of the total pressure. Since the ferrite disk 6, together with the auxiliary electrode 7, due to the elastic properties of the diaphragm 8 and the tightness of the cavity formed by this membrane together with the disk 6, the housing 5 and the base 4, mixes when the static pressure changes, simultaneously with the change of the static component of the total pressure the characteristic resistance of the resonant circuit formed by the membrane 1 by the electrodes 2 and 7, the partition 11 and the coil 3, also changes accordingly, thereby compensating for the change in sensitivity caused by By changing the elastic properties of the membrane 1 - the air enclosed between this membrane and the electrode 2. At the same time, due to the presence of the throttle channel 12, through which the cavity of the primary transducer, formed mainly by the membrane 1 and electrode 2, communicates with the rest of the sensor cavity, the pulsation component is full the pressure does not affect the diaphragm 8.

If a resonant oscillation exciter loaded onto the recording equipment through a linear frequency detector with a wide dynamic range and a differentiating chain is used as a secondary converter, then to change the characteristic resistance, it is enough to influence too much of one of the contour branches, for example, inductance, which eliminates the need for using an auxiliary electrode 7 and a partition 11.

Claims (1)

PRESSURE PULSATION SENSOR, comprising a static pressure compensated diaphragm transducer in the form of a sealed box, an oscillating circuit with means for controlling its impedance, characterized in that, in order to improve accuracy by eliminating the influence of static pressure changes, it is equipped with an auxiliary relative to the sealed box sensor of the static component of the total pressure, the movable element of which is connected with a means of regulating the impedance oscillatory circuit according to a change in the static component of pressure. Wednesday. Figure 1 SU „11851 1 185134