SU374534A1 - ALL-UNION. V. Yablonsky and A. M. Rusakov - Google Patents

Description

one

This invention relates to a measurement technique.

Devices are known for: measuring the mechanical impedance, comprising an electrodynamic vibrator and a measuring head consisting of a housing connected to an oscillating element of the vibrator, a magnetic sticking to which the accelerometer is attached, and a dynamometer.

The purpose of the invention is to improve the measurement accuracy and expand the frequency range. This is achieved by the fact that the dynamometer is fixed in the cylindrical cavities of the base of the magnetic sticking. In this case, the installation plane of the dynamometer protrudes above the base plane of the magnetic sticking.

The dynamometer consists of several flat 5-amorphous piezoelectric elements of small diameter, located symmetrically relative to the central smallpox. Moreover, each piezoelectric element is connected to an electric adder and has a grounding electrode.

FIG. 1 shows the proposed device; in fig. 2 is a section along A-A in FIG. one; in fig. 3 - electric adder.

The measuring head consists of a body L of magnetic sticking, which is made in the form of an annular permanent magnet 2 glued together, a magnetic conductor 3 and a pole lining 4 with three pilindrical cavities serving as the base of the magnetic sticking; a magnetically conductive insert 5 with an accelerometer 6 fixed on it, mounted coaxially to washer 3 with the possibility of limited axial displacement; and dynamometer.

The dynamometer consists of three small diameters of flat bimorph piezoelectric elements 7, installed in cylindrical cavities of the base of the magnetic sticking with electrically conducting disks 8 and grounding electrodes 9.

The oscillating element JO of the electrodynamic vibrator 11 is, on the one hand, connected to the housing / measuring head, and on the other hand, to screws 12 with magnetic snapping. Electrical signals from individual piezoelectric elements of a dynamometer through connectors 13 are derived for the purpose of averaging to an electric adder (see Fig. 3) consisting of i-Rz variable resistances and a common resistance R. The metal braid of the wire M is grounded with electrodes 9 and the magnetically conductive insert 5 is fixed by spring rings 15. The air gap between the magnetic clamp and the plane of contact of the dynamometer with the object to be monitored 16 is 0.1 mm.

Oscillations excited by the vibrator 11,

transmitted through the housing /, magnetic clamping and piezoelectric elements of the dynamometer to the object under study 16. At the same time, an electric voltage proportional to the vibration force is generated on the surfaces of the piezoelectric elements 7, and the accelerometer-met. p 6 generates a signal proportional to the object’s vibration acceleration.

The magnitude of the mechanical impedance is defined as the ratio of the amplitudes of the disturbing force and vibration velocity. The phase angle between force and speed is determined using a phase-measuring instrument (not shown in the drawing).

Subject matter

Claims (2)

1. A device for measuring mechanical impedance containing electrodynamic a vibrator and a measuring head consisting of a body connected to an oscillating element of the vibrator, a magnetic grip to which an accelerometer is attached, and a dynamometer, characterized in that, in order to improve measurement accuracy and expand the frequency range, a dynamometer is fixed in cylindrical cavities the base of the magnetic sticking with the installation plane of the dynamometer protruding above the base of the magnetic sticking. 2. The device according to claim 1, characterized in that in it the dynamometer consists of several, arranged symmetrically with respect to the central axis, flat bimorph piezoelectric elements of small diameter, each piezoelectric element connected to an electric accumulator and has a grounding electrode.  Lt ff FIG. one Fig 3 R