SU623121A1 - Absolute pressure gauge - Google Patents

Description

(54): ABSULATED PRESSURE MANOMETER

The invention relates to the field of instrumentation technology, in particular, to absolute pressure gauges, and can be used in systems of automatic control and pressure control in various technological processes. MaHOiwfeTpbi are known, which contain an elastic element and a mechanical strain gauge of an elastic element Sh. The disadvantage of such gauges is with low accuracy, low reliability and efficiency of intention. The closest in technical essence and the achieved result is a pressure gauge containing an elastic element and a transducer for moving it into an electrical signal 2. The disadvantage of a pressure gauge is a low measurement accuracy. The purpose of the invention is to improve the measurement accuracy and expand the range of measured pressures. This is achieved by adding additional pressure transducers with comparators I switchboard to the pressure gauge containing the pressure signal converter and the outputs of the converters and comparators are connected to the switch. The drawing shows the scheme described manometer. The pressure gauge contains a bellows system 1, a sensing element 2, the first measuring circuit 3, the second (bellows system 4, the second sensing element 5, the second measuring circuit 6, the K-th bellows system 7, the k-th sensing element 8, the k-th measuring circuit 9, first comparator Yu, comparator 11 and switch 12. Sensitive elements 2.5 and 6 are mechanically connected with bellows systems 1,4,7 respectively, and their high points are connected to the inputs of measuring circuits 3, 6 and 9. The outputs of circuits 3.6 and 9 are connected to the input of the switch 12. The outputs of the circuits 6.9 Nena respectively to the inputs 1D komparatrov n 11

the outputs of which are connected to the input of the switch 12.

The pressure gauge works as follows.

When measuring the absolute pressure, each bellows system 1.4 and 7 respectively interacts with sensitive elements 2,5,8, and signals from their outputs are fed to the inputs of measuring circuits 3,6 and 9, the outputs of which are connected to the inputs of the switch 12.

When the measured absolute pressure values lie within the permissible subrange, switch 12 connects measurement circuit 3 to the manometer output. When absolute pressure values lie within the second subrange, the first comparator 1O triggers at a predetermined signal level from the output of measuring circuit 6.

If there is a signal at the output of the comparator 10, the switch 12 disconnects the circuit 3 from the manometer output and connects the circuit 6.

When the values of the absolute pressure lying within the k-th subband, the comparator 11 is triggered by a given signal level from the output of the K-th measuring circuit 9.

In the presence of a signal at the output of the comparator 11 switch 12 disconnects from

the output of the manometer measuring circuit 3.6 to (K-1) -th inclusive and connects the measuring circuit 9.

The signal at the output of switch 12 is a measure of the measured absolute pressure.

This pressure gauge design expands the range of pressure measurements and increases the measurement accuracy.

Claims (2)

1. USSR Author's Certificate No. 572О1, cl. G O1 L 7 / O6, 1939. 2. Author's certificate of the USSR N9458721, cl. O 01 1 7/06, 1973.