SU553499A1 - Pressure measuring device - Google Patents

Description

When the zero output signal is calibrated, the pressure Lmm via the pneumatic line with a valve (not shown) through the nozzle d is fed into the chamber formed by the body 1 and the pressure elastic element 5. As a result of the equality of the effective areas of the malometric elastic elements 5 and 7, their permutation forces are compensated, and the output signal of the measuring adapter becomes equal to the nominal initial output signal of the device, ii otherwise the correction of this signal is made by known methods.

When testing the sensitivity of the device into the chamber formed by the manometric elastic elements b and /, a pneumatic line with a valve (not shown) through the nozzle 2 serves a predetermined pressure impulse of an inert medium (compressed air, nitrogen, etc.). Due to the inequality of the effective and areas of the manometric elastic elements b and Y, the measuring transducer 4 is affected by a well-defined, specified permutation effort, and the output signal of the device must also correspond to a predetermined value determined by the nominal sensitivity of the device. Otherwise, adjust the sensitivity of the device with known methods.

11 After both calibrations are carried out, the pressure in the above chambers is released and the device is reset.

The installation of an additional two gauge elastic elements and their location allows the formation of two additional defining chambers inside the device casing. To perform a zero output calibration, it is necessary to supply the measured medium from the process device, on which the device is installed, to the chamber formed by the housing and the pressure gauge elastic element installed on the side opposite to the measured medium, via a pneumatic line with a shut-off valve. In case of equality of the effective areas of the manometric elements installed on the side of the influence of the measured medium and on the opposite side, and with equal rigidity of the manometric elements installed on different sides with respect to the measuring transducer, the permutation forces acting on the measuring transducer from opposite sides will be equal to magnitude and inverse in direction and, thus, mutually compensated. Therefore, the sum of the forces acting on the measuring transducer and the iris will be equal to zero and the output signal of the transducer will correspond to the nominal zero output signal.

In order to carry out a sensitivity check, it is necessary to supply a chamber formed by gauge elements installed on the side of exposure to the measured medium using a pneumatic line and a check valve of known pressure. Due to the inequality of the effective areas of the manometric elements, the regulating force acting on the measuring transducer will not be equal to zero, but will be quite definite and will depend on the difference in the effective values of these gauge elements. Moreover, in the manufacture and

device setup can be defined like a measuring characteristic.

The ratio between the effective areas of the manometric elements set from the side of exposure to the measured pressure is 2 to 4, is determined by the need to ensure sufficient sensitivity when measuring the pressure of the process medium and when checking the sensitivity. With a ratio of effective areas, less

Two, the sensitivity of the device sharply decreases when pressure is applied to the chamber formed by pressure gauges mounted on the side of the measured medium. On the other hand, with an increase in the ratio of more than four, the rigidity of the gauge element with a lower effective area increases significantly, which leads to an equally noticeable decrease in the overall sensitivity of the device.

After the verification of the measurement characteristics, it is necessary to bring the device into operation. To do this, it is necessary to relieve pressure from the chamber formed by gauge elements mounted on the side of the influence of the measured medium, and from the chamber formed by the housing and the gauge element mounted on the side opposite to the influence of the measured medium.

The value of the measuring characteristics of the device under operating conditions and their deviation from the initial or nominal values allows to introduce the necessary corrections into the readings and, thereby, significantly increase the accuracy and reliability of the measurement of the technological parameter.

Using the device will allow remote testing of its zero output signal and sensitivity at

effects of variable measured pressure and, thus, significantly improve the accuracy and reliability of measurements, which is especially important when controlling the pressure of process plants, in which the removal of measuring devices is undesirable or impossible (in the presence of intense radio fields, during remote process management, for example, space objects, etc.).

Claims (2)

1. Author's certificate number 395737; G OIL 9/04, 1971 2. The author's certificate number 381934; G01L 19/06, 1971 prototype. Jjlf