SU1383119A1 - Pressure pickup - Google Patents

Abstract

The invention relates to instrumentation technology and allows for smooth adjustment of the sensitivity of the sensor. The elastic sensor j 1 is made in the form of a thin (wall cylinder, on the surface of which a working strain gauge 2 is placed in the annular cavity. A cylindrical cup 4 is screwed on the external thread at the end of the cylinder, creating a force for pulling the elastic element 1. Under the influence of the measured pressure, the electrical resistance of the tensile resistors 2 changes due to the length of their base. In the non-deformable cylindrical section of the element 1, temperature-compensated resistance strain gages are glued 3. 3 Il. (L

Description

00 tX)

with

;about

The invention relates to instrumentation engineering, in particular to pressure sensors with strain gauge bodies.

The aim of the invention is to provide a smooth sensitivity adjustment.

FIG. 1 shows the sensor section; Figs. 2 and 3 show graphical dependencies between relative deformations on a tightening and a radius of a concave surface, respectively.

The device contains an elastic element 1 with working 2 and thermal compensating 3 strain gauges, a cylindrical cup 4 with an internal thread and a protective casing 5, on which the plug connector 7 is fastened with screws 6, the strain gauges are connected to the plug connector with the help of lead wires 8 passing through drilling in the elastic element 1 and the channel in the glass.

The elastic element 1 is a thin-walled cylinder with a massive base, which is also a fitting for supplying the measured pressure,. ,

At the base, the elastic element IV has a thread on which a protective screw 5 is screwed. ends with a thickening with an external thread on which a cylindrical cup 4 is screwed.

The pressure sensor works as follows

The cavity-elastic element 1 communicates through the fitting with the measured pressure, under the influence of which deformations occur in the specified element, causing a change in the length of the base of the strain gages 2, which leads to a change in the electrical resistance of the latter, recorded by the secondary apparatus. When moving the cup 4 along the thread, its end surface abuts against the base and creates a tightening force (stretching) of the elastic element 1, which leads to a change in the sensitivity of the elastic element.

When measuring pressure losses in individual sections of the pipeline in valves or seals, it is advisable to use two pressure sensors included in one measurement circuit (one strain gauge from each transducer). In this case, the main task is to provide transducers with the same sensitivity of elastic elements. Otherwise, significant errors cannot be avoided. The identity of the characteristics of both sensors is obtained on the calibration bench by moving the pressure cup 4 for a transducer with greater sensitivity.

As follows from the graphs, for specific geometric parameters of an elastic element, with an increase in tightening force to YUN, the sensitivity changes by 5%, and with a change in the radius of the concave surface from O, 1 to 3 cm, by 15%,

The use of the proposed invention will allow the serial production of standardized sensors with a wide range of sensitivity adjustment, significantly improving the accuracy and quality of measurements.

Claims (1)

Invention Formula A pressure sensor containing an elastic element in the form of a hollow thin-walled cylinder with a hermetically sealed ionism and a fi sh tensor, characterized in that in order to ensure a smooth sensitivity adjustment, it is equipped with a cylindrical cup mounted outside the thin-walled cylinder, aligned with and connected to it An annular depression is made on the surface of the cylinder with the end of the cylinder with the help of a threaded joint; Yu Yu Yu 104 105 FIG. 2 -15 -10 -5 at 0.5 W 7.5 2D 2.5 3.0 R, CM Fi. H