SU1401315A1 - Vibration testing installation - Google Patents

Abstract

The invention relates to a testing technique and is intended for use in testing vibration measuring transducers. The purpose of the invention is to simplify the construction, reduce the weight and size, and increase the effective vibrational power. For this purpose, in a device for eliminating bending vibrations of the end of the concentrator 2 of the magnetostrictive or piezoelectric exciter I oscillations, the loading mass 4 is elastically suspended through the half-wave plate 3 to the concentrator. This eliminates the need for a special hub support containing a significant amount of acoustically matched elements of an oscillating system. 4 il.

Description

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The invention relates to a testing technique, namely magnetostrictive or piezoelectric vibration installations for the calibration of vibration measuring transducers.

The purpose of the invention is to simplify the construction, reduce the weight and size, and increase the effective vibrational power.

FIG. a schematic representation of the installation; in fig. 2 - diagram of phodol oscillations of an exciter exciter with a concentrator; in fig. 3 — plot of 1 flexural oscillations of the exciter of oscillations with a concentrator; in fig. 4 is a plot of bending oscillations of a half-wave plate.

The installation contains a magnetostriction (or piezoelectric) oscillation exciter with concentrator 2, a device for eliminating bending vibrations of the end of concentrator 2, including a half-bore plate 3, preferably round, connected to the free end of the concentrator, and a loading mass 4, which is connected to an external circuit the plates 3 and, without being connected to any external support device, appear to be resiliently suspended to the concentrator through the plate, and located below the inoperative end of the exciter 1 is oscillated an elastic pad 5 minutes with an acoustic impedance close to zero. At the end of the concentrator 2, the model and newly constructed vibration measuring transducers 6 and 7 are mounted symmetrically. In the specific example, the oscillation exciter 1 magnetostrictor is made in the form of a set of 47 cm long plates of permalo, the concentrator 2 is made of titanium alloy and has a length of 49.3 cm (these dimensions correspond to the length of the longitudinal wave at a frequency of 5000 Hz for these materials). The wide part of the concentrator has dimensions 12x-12cm, the upper narrow part has a length of 3 cm and a diameter of 3 cm. The loading mass 4 is made as one piece with a circular plate 3, for which in a diameter of 15 cm and a height of 4 cm | made concentric with a notch with a diameter of 8.8 cm and a depth of 3.5 cm. The elastic of the insert with a thickness of 8 cm is made of 1-rollone.

The installation works as follows.

When longitudinal oscillations of the concentrator 2 are excited, the loading mass 4, due to its large inertia, practically remains at rest. In plate 3

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resonant bending oscillations of the same frequency are excited, and the amplitude of which is equal to the amplitude of the longitudinal oscillations of the free end of the concentrator 2, therefore the loading mass does not affect the longitudinal oscillations of the concentrator. For bending vibrations, the presence of mass is the cause of the inertial forces directed against the transverse displacements and, thus, significantly reducing their magnitude. Close to the attachment of the end of the concentrator 2 to the central part of the plate 3, a bending vibration unit is formed (Fig. 3). As a result, only the specified longitudinal vibrations act on the vibration measuring transducers 6 and 7.

Due to the use of a gasket 5, the acoustic impedance of which is close to zero, leakage of vibration power at the base is practically eliminated, since the acoustic wave is almost completely reflected from the interface between the end of the magnetostrictor and the gasket.

The invention eliminates the need for a hub used in a known device that contains a significant amount of acoustically matched elements. This provides a simplified design, reducing weight and size. In addition, the almost inevitable

0 in a known device, the loss of vibrational power due to the non-absolute acoustic consistency of the elements of the oscillatory system.

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Claims (1)

Invention Formula Vibration calibration installation containing a magnetostriction or piezoelectric exciter with a concentrator, the end of which serves to suspend the installation of exemplary and verified vibration measuring transducers, and a device for eliminating the bending vibrations of the end of the concentrator, including a half-wave plate connected to the free end of the concentrator, and loading 45 mass connected with the outer contour of the plate, characterized in that, in order to simplify the design, reduce the weight and size and increase the useful vibrational power, the load mass is elastically suspended to the concentrator through 50 lug wave plate. (Reg. 2 rig. (Pui.