DE1218083B - Mechanical frequency filter, consisting of rectangular plates as resonance bodies that can be excited to surface shear vibrations - Google Patents

Description

Mechanical frequency filter, consisting of square-wave, surface shear vibrations excitable plates as a resonance body The invention relates to a mechanical frequency filter, that of rectangular plates that can be excited to shear surface vibrations as resonance bodies exists, which are connected by coupling elements executing flexural vibrations.

In the case of a known mechanical filter, these are too shear vibrations excitable plate-shaped resonance body arranged in a plane so that the Narrow sides of larger surface area are facing each other. Coupling this Resonators are made either by short pieces of wire that carry out bending vibrations or by means of coupling straps that are subject to both bending and shearing will. The proportion of flexural vibrations in the total vibration of the coupling belts depends on their length-to-width ratio (Swiss patent specification 277 467).

Another known mechanical filter exhibits surface shear vibrations excitable strip-shaped resonators that follow one another in a plane so that that the narrow sides of the smaller area face each other. The resonators these filters are coupled by thin rods that have a very low coupling factor of the resonators (U.S. Patent 2,696,590).

Furthermore, a mechanical filter already belongs to the state of the art Technology, in which surface shear vibrations executing circular disk-shaped Resonators are arranged in parallel planes so that their end faces face each other. The elliptically deforming with their oscillations Resonators are each coupled by a round cross-section, whose . , axis lies on the same straight line as the axes. he resonators (U.S. Patent 2,696,590).

Finally, a mechanical filter has already been described in which As a vibrating body, resonators arranged in parallel planes are plate-like serve, which are excited to the second harmonic of that c torsional bending vibration, for which vibrational deflections of the slab within the slat plane are characteristic are. With this Schwin-L ingsform only the center of each broad side remains ccer swaying plate at rest. The coupling elements of the resonators are continuous, Wires carrying bending vibrations are provided (Swiss patent specification 267 220).

Based on these known filters, all of which are at least in some of the points listed below are in need of improvement, arises the invention has the object of specifying a mechanical frequency filter that on the one hand has high mechanical stability and is particularly easy to hold, on the other hand, however, a very simple production is also permitted. The new Filters use an easily manageable coupling of the individual resonance bodies, in addition, the coupling factor from link to link is easily defined can be set to any desired value. Training is also required and arrangement of the resonance body in such a way that a particularly extensive suppression unwanted secondary resonance is guaranteed without impairment the permeability of the main frequency is to be feared.

The filter according to the invention satisfies all of these requirements belongs to the group of mechanical sieve arrangements, which consist of rectangular, Plates that can be excited to surface shear vibrations as resonance bodies and from bending vibrations executing coupling elements are constructed by the combination of the following well-known features: a) Arrangement of the excitable surface shear vibrations Sound box in parallel planes, b) Use of continuous wires as coupling elements.

This combination according to the invention once brings the advantage of the very easy calculability of the coupling factor. The coupling factor can go further Dimensions by changing the attachment points of the coupling wires on the resonance bodies can be changed and set differently within the filter. aside from that the arrangement according to the invention is characterized by a particularly easy manufacturing process which is very suitable for production in automatically operating machines. It is a compact structure achievable with high mechanical stability, which has a low sensitivity to vibrations. From a series of mounting options can best meet the requirements of the individual case appropriate to be selected.

It has also been shown that the filter according to the invention known closest measures to reduce the secondary ripple Resonators to be traced back disturbance phenomena already lead to the goal.

In the drawings, F i g. 1 one to surface shear vibrations excited resonance plate, FIG. 2 a and 2 b two embodiments of the filter according to the invention.

It is known that a bar-shaped piezoelectric crystal plate can be excited to longitudinal vibrations by means of a square-shaped piezoelectric crystal plate which emanates from one of the two narrow sides of smaller surface area near a short edge and runs perpendicular to this narrow side. The in FIG. 1 reproduced. Excite cuboid plate 1 to shear surface vibrations by means of an electromechanical transducer which emits longitudinal vibrations. In Fig. 1, such a transducer is illustrated schematically as a magnetostrictive transducer 9, the magnetostrictive component of which is premagnetized by a permanent magnet. In the plate 1, the movement node plane 10 is formed, which extends perpendicular to the plate plane and parallel to the plate edges of the greatest length. The upper part of the plate 1 resulting from this nodal plane thus executes opposite the lower shear vibrations in the plane of the plate. The natural resonance frequency of such a plate excited to surface shear vibrations results from the formula This means = shear resonance frequency, K = 2.088 for the fundamental wave, b = plate width, Gs = shear modulus, o = density, E = modulus of elasticity.

Since plates that cause surface shear vibrations are the plate width and the plate length is not decisive for the natural resonance frequency for plates excited in their fundamental wave even at high frequencies portable dimensions. A plate from the under the registered trademark name "Ni-Span C" known alloy with a width b of 4.6 mm has z. B. a shear surface resonance frequency of about 400 kHz. The thermoformable and curable Alloy »Ni-Span C« consists of about 42% nickel and is characterized by high Tensile strength as well as a constant in the temperature range from -45 to 94 ° C Modulus of elasticity.

The F i g. 2 a and 2 b show two exemplary embodiments of the filter according to the invention with three 'resonance plates excited to surface shear vibrations 1, 2, 3 arranged in parallel planes in accordance with the teachings of the invention and connected by continuous homogeneous wires 4, 5, 6, 7 as coupling elements are. The wires 4 to 7 are on two opposite narrow sides of the soundboard 1, 2, 3 welded or soldered on.

In the embodiment according to FIG. 2 a are those for the plates 1, 2, 3 provided coupling wires 4 to 7 welded to those narrow sides of the plate, which run parallel to the nodal plane 10 of the plates. Since along these narrow sides the surface shear vibrations occur with the greatest amplitude, results in this design of the filter for the plates maximum coupling factors.

In the embodiment according to FIG. 2 b are the coupling wires 4, 5, 6, 7 on the narrow sides of the plates that run perpendicular to the nodal plane 10 1, 2, 3 welded on at a distance x from the nodal plane. By choosing the right routes x for each plate is a certain coupling factor for each successive one Plates realizable. Through the grading of the coupling factors that can be brought about in this way the individual resonance bodies within a filter can be the respective Requirements for the course of the filter transmission curve with comparatively low Meet effort.

Claims (2)

Claims: 1. Mechanical frequency filter, consisting of rectangular, Plates that can be excited to surface shear vibrations as resonance bodies, which are caused by bending vibrations executing coupling elements are connected, characterized by the combination the following, per se known features: a) Arrangement of the surface shear vibrations excitable sound box in parallel planes, b) use of continuous wires as coupling elements. 2. Mechanical frequency filter according to claim 1, characterized in that, in order to achieve couplings with different coupling factors between the individual resonance bodies, the connecting wires passing through are attached to points on the resonator surfaces whose distances from the resonator node planes correspond to the respectively required amount of coupling factors. Documents considered: German Patent No. 912709; Swiss patents No. 267 210, 277 467; U.S. Patent Nos. 2,696,590, 2,493,145; Proceedings of the Institute of Radio Engineers, Vol. 45, No. 1, pp. 5-16 (January 1957).