DE19612013A1 - Piezoelectric wide-band transducer e.g. for measuring sound waves in solids - Google Patents

Abstract

The piezoelectric transducer has an integrated preamplifier, a contact plate, on the under side of which is provided with a spherical projection in the centre for a selective coupling to a body being tested. On the top side of the contact plate several piezoelectric converter elements are fitted. These piezoelectric elements are cylindrical in shape of equal or different thickness, and of equal or different diameter and/or plate shaped with the same or different thickness and equal or different side lengths. The elements are applied in such a way, that their centre points lie concentric around the centre point of the contact plate. The piezoelectric elements are arranged equidistant to each other.

Description

It is known that piezoelectric wall for measuring structure-borne noise find use. There are resonance recorders and broadband distinguish converter.

Cylindrical and plate-shaped piezoelectric elements convert me mechanical vibrations into electrical vibrations, which are called electrical Voltage can be tapped at the converter. Depending on theirs geometric dimensions, they react to mechanical vibrations certain frequencies with particularly strong electrical vibrations. These frequencies are called resonance frequencies. The fat of the element determines the resonance frequency of the so-called thicknesses Vibrations, the diameter or the side length determine the reso frequency with radial or planar vibrations. Besides the reason resonances also have higher-frequency harmonics. Dependent of the damping is the sensitivity of the elements to the resonance set many times higher than for the other frequencies.

Resonance recorders work with a high resonance frequency Sensitivity, however, only in a narrow frequency range.

Broadband converters use the effect that the width at high attenuation the frequency range in which the transducer is sensitive, who enlarged that can. However, this is accompanied by a loss of sensitivity. A another possibility is in a frequency range far from Re resonance frequencies to work. But the improved width is also possible here bandiness at the expense of greatly reduced sensitivity.

In order to avoid disturbances of the often only low generated voltages, is often a preamplifier integrated in the converter in broadband converters ker used. The piezoelectric transducer element is often on a con clock plate attached, which is the contact between the converter and the examining object. For targeted, almost punctiform, to Coupling to the measurement object is on the underside of the contact plate usually a conical or spherical bulge in the middle.

The invention specified in patent claim 1 is based on the problem de that the physical properties of piezoelectric transducer elements a broadband transmission behavior with an evenly high emp Exclude sensitivity, as it occurs at the resonance points. this has as a result that sound waves with a frequency at which the used Transducer has only a low sensitivity, vibrations in the transducer can excite a resonance frequency that depends on the frequency of sound wave can sometimes be very different. This often happens with transien th signals that are the subject of sound emission analysis. The frequency in this case the sound wave is incorrectly determined.

This problem is solved by the feature described in claim 1 le diminished.

The solution is to use multiple transducer elements. A Sound wave, which is almost a conical or spherical bulge generated in the contact plate from a point, spreads therefore circular over the contact plate and reaches the individual Transducer elements as these are arranged concentrically around the center of the plate are, at the same time. The dimensions of the transducer elements are ge chooses that each have a different resonance frequency. The overlay of the Frequency responses of the individual transducer elements then add up to one Broadband with high sensitivity. The dimensioning of the individual Elements still depends on the width of the resonance peaks of each Elements. The concentric arrangement ensures that the individual generated voltages due to the same signal propagation times none Show phase shifts. The generated voltages are in egg added and amplified in a suitable integrated preamplifier. As a result the converter described has a compared to known methods fundamentally improved broadband along with the high sensitivity the piezoelectric transducer elements in the area of resonance fre own quenz. The resonance frequencies are as follows calculates.

The basic resonance frequency f _{d of} the thickness resonance of cylindrical piezoelectric transducer elements is inversely proportional to their thickness d. With the material-dependent constants N frequency _d, the relationship f _d = _d N / d is obtained.

The basic resonance frequency f _{p of} the radial resonance of cylindrical piezoelectric transducer elements is inversely proportional to their diameter d. With the material-dependent constants frequency N _p together the menhang f _p = N _p / d is obtained.

The geometric dimensions and the number of transducer elements according to the requirements regarding the required frequency range chosen.

The invention is industrially applicable in sound measurement technology.

An embodiment of the invention is shown in the drawing and is described in more detail below.

The drawing shows

• 1st Supply lines to the inputs of the preamplifier
• 2nd Imaginary circle on which the centers of the transducer elements lie
• 3rd Transducer element with a diameter of 6 mm
• 4th Transducer element with a diameter of 7 mm
• 5 . Contact plate
• 6 . Transducer element with a diameter of 5.5 mm
• 7 . Transducer element with a diameter of 6.5 mm
• 8 . Spherical bulge in the middle of the bottom of the contact plate.

The number of transducer elements used and the geometric Ab measurements depend on the special requirements. Here is used as a case game described a transducer with 4 transducer elements, their radial oscillation conditions can be exploited.

Piezoelectric transducer elements made of BaF4 are used. Is z. B. broadband transmission behavior between about 200 and 300 kHz GE wishes, the diameter of the piezoelectric transducer elements ( 3 , 4 , 6 , 7 ) are chosen such that their radial resonance frequencies are at 220, 240, 260 and 280 kHz. The sensitivity of a transducer element in the loading range of a resonance frequency is characterized in that it rises steeply shortly before the resonance frequency and drops steeply shortly thereafter. By attaching the elements to the contact plate, the area of greatly increased sensitivity is already widening. By superimposing the 4 resonance ranges, the sensitivity of the transducer is very high within the selected frequency interval with only slight fluctuations. The frequency ranges of low sensitivity are therefore missing, which in other transducers falsify the measured frequency compared to the actual frequency.

According to Bergmann (Bergmann, Der Ultrasound, S. Hirzel Verlag Stuttgart, 5th ed. 1949, page 467), the selected resonance frequencies include transducer elements with the diameters 7 mm (4), 6.5 mm (7), 6 mm (3 ) and 5.5 mm (6). A thickness of 1 mm is chosen. The diameter of the circle ( 2 ), the center of which corresponds to the center of the contact plate ( 5 ), is chosen such that there is a distance of about 2 mm between the transducer elements, the centers of which lie on the circle ( 2 ). The circle ( 2 ) thus has a diameter of 12 mm. The contact plate ( 5 ) with the spherical bulge ( 8 ) is made from a material that is as similar as possible to the test specimen, in this case steel. The contact plate ( 5 ) is placed on electrical ground. The transducer elements ( 3 , 4 , 6 , 7 ) are electrically connected to the contact plate, for. B. with conductive adhesive. The undersides of the transducer elements are therefore also on electrical ground. The voltage generated when sound waves hit the top of the piezoelectric transducer elements is applied via lines ( 1 ) for addition to the inputs of the preamplifier, which is to be selected in a suitable manner.

Claims (2)

Piezoelectric broadband transducer for measuring sound waves in solids

• - with integrated preamplifier
• with a contact plate, on the underside of which there is a conical or spherical bulge in the middle for the defined coupling of the transducer to the body to be examined,

characterized by the following features:

• - Several piezoelectric transducer elements are attached to the top of the contact plate
• - These piezoelectric elements are cylindrical in shape of the same or different thickness and the same or different diameter and / or plate-like shape of the same or different thickness and the same or different side lengths
• - These piezoelectric elements are mounted such that their centers are concentric around the center of the contact plate
• - These piezoelectric elements are equidistant from one another.