SU1456791A1 - Transducer of torsional vibrations - Google Patents

Abstract

This invention relates to a measurement technique. The goal is to increase the accuracy of the torsional vibration sensor. The sensor contains a rod permanent magnet 1, in the annular groove of which an annular ferromagnetic core 3 is mounted with an measuring winding 4 fixed to the axis. This core is connected to the object 5 of the control through two vibration-proof blocks 6 and 7, mounted in the form of two pairs of flexible parallel plates, placed with one shift relative to the other by 90. The torsional vibrations of the control object 5 are transmitted through the vibration-insulating blocks to the core 3 and the measuring winding 4, on which a measuring signal is generated, depending on the amplitude and frequency of the torsional vibrations. The translational components of the vibration displacements are thus damped by the vibration insulating units 6 and 7. 3 sludge. with S (L M

Description

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The invention relates to a measurement technique and can be used to register torsional vibrations of buildings, for example, when conducting full-scale vibration tests.

The aim of the invention is to increase the accuracy of measuring torsional vibrations by eliminating the influence of translational vibration displacements.

FIG. 1 schematically shows a steep vibration sensor; in fig. 2 shows section A-A in FIG. one; in fig. 3 - design of air-insulated block.

The torsional vibration sensor contains a rod permanent magnet 1 mounted rotatably on axis 2 and made in the form of inertial mass with an annular groove in which an annular ferromagnetic core 3 is placed. On the ferromagnetic core 3 there is a measuring winding 4, the length of which is puts no more than half of the circumferential length of the ring core 3. This core is kinematically connected with the object 5 of the control through axis 2 and two vibration-insulating units 6 and 7, each of which is arranged in the form of 2 yx pairs of parallel flexible plates 8 and 9 arranged displaced by 90 ° relative to one another.

The sensor works as follows

1 rutile colds: the monitoring object's baths 5 through vibration insulating blocks 6 and 7 and axis 2 are transferred to an annular ferromagnetic core 3 with a measuring winding 4 placed on it. In this case, the permanent magnet 1, made in the form of an inertial mass, remains stationary. Due to the angular oscillations of the measuring winding 4 relative to the fixed magnet 1, the measuring current is generated at the output of this winding 4

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the signal depends on the amplitude and frequency of the angular oscillations of the object 5 control. Due to the fact that the flexible plates 8 and 9 of the vibro-insulating blocks 6 and 7 have significantly greater rigidity to bending loads in the longitudinal direction than in the transverse, the translational components of the vibration of the control object 5, which cause transverse bending of the plates 8 and 9, are damped by these plates, and its rotational oscillations are transmitted to the measuring winding 4 without changes. This eliminates the influence of the translational components of the vibration displacement of the object of control on the measurement result of its rotational oscillations and thereby increase the accuracy of the torsional vibration sensor.

Formula 11 invention

The torsional vibration sensor, containing a rod permanent magnet mounted on a single axis with the possibility of mutual angular movement, an annular ferromagnetic core and a measuring winding placed on it, characterized in that, in order to increase the measurement accuracy by eliminating the effect of translational vibration displacements, it is equipped with two vibration isolators units, each of which is made in the form of two pairs of flexible parallel plates installed one on another on the same axis, shifted by 90 They are designed to connect a ferromagnetic core through the same axis with the object of control, the permanent magnet is in the form of an inertial mass with an annular groove in which the ferromagnetic core is placed, and the length of the measuring winding does not exceed half of the circumferential length of the annular core.

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Claims (1)

Claim A torsional vibration sensor comprising a rod permanent magnet mounted on the same axis with the possibility of mutual angular movement, an annular ferromagnetic core and a measuring coil placed on it, characterized in that, in order to increase the measurement accuracy by eliminating the influence of translational vibration displacements, it is equipped with two vibration isolation blocks, each of which is made in the form of two pairs of flexible parallel plates mounted on the same axis with a shift of 90 'relative to the other and which intended for connection ferromagnetic core through the axle with the object of control, the permanent magnet is designed as a flywheel mass with an annular groove, wherein m ° ferromagnetic core is placed and the length of the measuring coil is less than half of the circumferential length of the annular core. Fig 2