SU1553859A2 - Pressure-to-el signal converter - Google Patents

Abstract

The invention relates to instrumentation, namely, to sensors-sensors of a unified electrical signal, and is an improvement of the main a.s. N 575514. The purpose of the invention is to improve the measurement accuracy by reducing the temperature error. The plunger 6 is connected to the stem with the membrane 1 and is placed in the cavity of the coil 5 of the transformer converter. The bimetallic plate 8 is rigidly connected at one end to the screen of the transformer converter and the other to the magnetic shunt 7. A magnetic shunt is installed between the plunger 6 and the coil 5 of the transformer converter. A change in the ambient temperature introduces an additional error in the characteristic of the converter, at the same time it affects the thermo-bimetallic plate 8, which, changing its shape, automatically changes the position of the shunt, thereby compensating the temperature error. 1 il.

Description

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magnetic shunt 7. Magnetic shunt i is installed between the plunger 6 and the cushion 5 of the transformer converter. The change in ambient temperature introduces an additional error in the conversion characteristic.

The body at the same time acts on the thermo-bimetallic plate 8, which, by changing its shape, automatically changes the position of the shunt, thereby compensating for the temperature error. 1 il.

The invention relates to instrument engineering, in particular to devices-sensors of a unified electric signal, if it concerns an improvement of the converter according to the autor. N 57551.

The aim of the invention is to improve the measurement accuracy by decreasing the temperature error.

The drawing shows a circuit for converting a pressure to an electrical signal.

The converter consists of a membrane 1 placed in the housing 2, to which the separation tube 3 and the (ec-) transformer converter, consisting of the coil 5 and the plunger 6, made in the form of a piece of magnetic material, are directly attached. The plunger 6 is connected to the stem with a diaphragm 1 perceiving a measurable

Pressure. The magnetic shunt 7 connected to the body (screen) - | through the bimetallic plate 8 enters the internal cavity (air gap) of the transformer preformer. The shape of the magnetic shunt 7 is selected Experimentally on the prototype devices and for this design (and materials) ow € | tsya constant.

A constructive calculation of the thermo-Gallic plate 8 is made by g (after an experimental study of the compensation of the temperature error of the samples by changing the position of the magnetic shunt carried out with a micrometer.

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The Converter operates as follows.

When pressure is applied to the cavity under the diaphragm 1, the latter bends, pushes up the rod with plunger 6, which, displaced from the neutral position, causes a signal at the output of the transformer converter. The nonlinearity of the characteristic of the membrane 1 is compensated by the inverse nonlinearity caused by the magnetic shunt 7, and when the ambient temperature changes, the displacement of the plunger 6 relative to the coil 5 is compensated by moving the magnetic shunt 7 using a bimetallic plate 8.

A change in the ambient temperature introduces an additional error in the characteristic of the converter and at the same time affects the thermo-bimetallic plate, which, by changing its shape, automatically changes the position of the shunt, thereby compensating for the resulting temperature error.

Claims (1)

Invention Formula Pressure transducer to electrical signal according to auth.st. No. 57551, characterized in that, in order to improve the measurement accuracy by reducing the temperature error, it is provided with a bimetallic plate, one end rigidly connected to the screen of the transformer converter, and the other connected to a magnetic shunt.