SU1368676A1 - Pressure transducer - Google Patents

Abstract

The invention relates to instrumentation technology and can be. used to measure dynamic pressure in fast flowing transient processes. The purpose of the invention is to increase the sensitivity. Dynamic pressure acts on the membrane 5 of the sensor and is transmitted through the gasket 4 to the piezoelectric discs 3. The resulting electrical charge is removed from the working surfaces of the piezoelectric discs 3 and transmitted to the secondary devices via the electrode 6. 1 il. (L CA: O) 00 O5 M O)

Description

The invention relates to instrumentation technology and can be used to measure dynamic pressure during fast transient processes, as well as to study shock waves in pipelines of hydraulic automation systems.

The purpose of the invention is to increase sensitivity.

The drawing shows a structural diagram of a pressure sensor.

The sensor includes a housing 1, a sleeve

based on the lower end surface of the electrode. At the same time, the full fit of the workers f. the surfaces of the electrode and the lower disk-piezo element and the minimum electrical resistance of the contact between them, which contributes to obtaining an enhanced output signal and, therefore, high sensitivity.

The sensor works as follows.

Dynamic pressure acts on the membrane 5 of the sensor and is transmitted through the gasket 4 to the piezoelectric element 2 installed in the internal screw-hole 3. The body electrics arising at the same time, the piezoelectric discs 3, the gasket 4 which is placed between the membrane 5 and the lower disk - by the element, the electrode 6, the set charge is removed from the working surfaces of the piezo-element disks and transferred by means of the electrode 6 via the conductor 7 to the secondary devices.

based on the lower end surface of the electrode. In this case, complete adherence of the working surfaces of the electrode and the lower disk-piezoelectric element and the minimum electrical resistance of the contact between them is formed, which contributes to obtaining an increased output signal and, consequently, high sensitivity.

The sensor works as follows.

The dynamic pressure acts on the membrane 5 of the sensor and is transmitted through the gasket 4 to the piezoelectric elements 3. The resulting electrical

The charging charge is removed from the working surfaces of the piezoelectric discs and transmitted through the conductor 7 with the help of the electrode 6 to the secondary devices.

The sensor can work without amplifiers using conductor 7 with secondary devices, and the clamping element in the form of a sleeve with an external thread 8. The membrane 5 is made as a single unit with the housing 1. Due to the perpendicularity of the inner surface of the membrane 5 axis the housing bore is provided with a fixed position in space (perpendicular to the axis of the bore) of the upper surface of the lower piezoelectric disk

The sleeve 2, which is installed in the sensor housing together with the upper disk-piezo element and electrode 6, is initially based on the inner-, ggo equal to the internal diameter of the outer surface of the housing opening, bar d, length 1 ,, is set under pressure from On landing, along the inner surface of the pressing sleeve 8, passes over the nano holes of the hull.

Noah equipment.

Claims (1)

Invention Formula A pressure sensor comprising a housing with an internal opening and a membrane which overlaps it, which is made in one piece with the housing, and successively installed in the opening a piezoelectric element in the form of a disk, a sleeve and a clamping element, which is designed so that, in order to increase sensitivity, the sleeve is made in the form of a cylinder, the diameter of which is