SU1270542A1 - Displacement frequency transducer - Google Patents

Abstract

The invention relates to a measurement technique and makes it possible to increase the reliability of a frequency displacement sensor by increasing its resistance to mechanical effects. The frequency displacement sensor includes a housing 1, a rod reznnator 4, two electromagnets 2 and 3 installed in the plane of the free end of the resonator 4, and a movable membrane 7, the center 6 of which is located in the plane of the projections 9 its corrugation. When a controlled object is moved or when the pressure changes from the outside of the membrane 7, its center touches the free end of the resonator, which causes its oscillations to break down 2 or more.

Description

The invention relates to a measurement technique and can be used to control the limiting displacement under conditions of mechanical effects on an object of control, for example, in a gaseous main line of an x-hydrogen-oxygen electrochemical generator.

The aim of the invention is to increase the reliability of the sensor by increasing the resistance to mechanical stress.

In FIG. 1, a frequency displacement transducer is schematically depicted, a section; in fig. 2 - the same, with the pre (the full movement of the control object,

The frequency displacement sensor includes a housing 1 in which an electromechanical converter is placed, made in the form of a pair of facing ones. one to the other polarized electromagnets 2 and 3 and a core cavity 4 located in the gap between them. Magneto wires of electromagnets 2 and 3 are U-shaped 6 of the corrugated membrane 7. The membrane 7. is mounted on one side to the root .sa 1 and is fixed on the periphery, and in the opposite end of the body a core cavity 4 is fixed to the console 4. The center 6 of the corrugated membrane 7 is located en in plane 8 passing through the forming protrusions

9 its corrugation.

The frequency motion sensor operates as follows.

With the help of electromagnets 2 and 3, oscillations of the rod resonator are excited and maintained at their own frequency. When moving

a control object (not shown) or, for example, when the pressure on the outer side of the membrane changes, the center 6 of the corrugated membrane 7 is in contact with the end 5 of the free end

resonator 4, which causes srsh oscillations of the resonator. As a result, the electrical parameters of the electromagnets 2 and 3 of the converter are changed, and an informative signal is generated on the presence of the limit movement. When moving the center 6 of the membrane 7 in the opposite direction, the mechanical contact between this center

and the end 5 of the free end of the resonator 4 is picked up and the oscillations of the resonator 4 are resumed.

Due to the installation of electromagnets in the plane of the end face 5 of the free end of the rod resonator 4, the reliability of the sensor operation under the conditions of mechanical effects is affected. The implementation of the membrane with a flat center,. located in a plane passing through the formation of protrusions of its corrugations reduces the mass of the membrane, which also increases the functional reliability of the sensor.

Claims (1)

Invention Formula A frequency displacement transducer comprising a housing and an electromechanical converter disposed therein, made in the form of a pair of polarized electrons facing one another; (5 magnets and a rod-shaped resonator located in the gap between them with an adjustable natural frequency, mounted on the body of the cantilever, characterized in that, in order to increase reliability by increasing the resistance to mechanical stress, it is equipped with a corrugated membrane, the flat center of which is located in the plane passing through the corrugations forming its protrusions, and is separated by a gap from the end of the free end of the rod resonator, in the plane, which electromagnets are mounted