Acoustic absorption device, especially for low frequency, capable of being submerged

Acoustic absorption device, especially for low frequency, capable of being submerged

The invention relates to devices enabling acoustic waves to be absorbed. It consists of a device comprising a viscoelastic layer (101) surmounted by a set of substantially adjoining punches (101). The acoustic waves are received on the plane surface of the punches and cause, via their projecting rou...

Ausführliche Beschreibung

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Bibliographische Detailangaben
Hauptverfasser: LAGIER MICHEL, THANNBERGER ROGER
Format: Patent
Sprache:eng ; fre
Schlagworte:
ACOUSTICS
ACOUSTICS NOT OTHERWISE PROVIDED FOR
METHODS OR DEVICES FOR PROTECTING AGAINST, OR FOR DAMPING,NOISE OR OTHER ACOUSTIC WAVES IN GENERAL
MUSICAL INSTRUMENTS
PHYSICS
SOUND-PRODUCING DEVICES
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Beschreibung
Zusammenfassung:The invention relates to devices enabling acoustic waves to be absorbed. It consists of a device comprising a viscoelastic layer (101) surmounted by a set of substantially adjoining punches (101). The acoustic waves are received on the plane surface of the punches and cause, via their projecting rounded surface, the excitation of the viscoelastic layer, where they are dissipated by reason of losses due to the glassy state/elastic state transition. Under the effect of the pressure due to the inversion the punches sink more and more deeply in and the area of contact with the layer increases, thus limiting the sinking-in of these punches and hence the risks of destruction of the device. It allows absorption of low frequencies to be obtained over a wide band at the cost of some sacrifice in the anechoism factor. L'invention concerne les dispositifs permettant d'absorber les ondes acoustiques. Elle consiste en un dispositif comprenant une couche viscoélastique (101) surmontée d'un ensemble de poinçons (101) sensiblement jointifs. Les ondes acoustiques sont reçues sur la surface plane des poinçons et viennent exciter par leur surface arrondie saillante la couche viscoélastique, ou ils se dissipent en raison des pertes dues à la transition état vitreux/état élastique. Sous l'effet de la pression due à l'inversion les poinçons s'enfoncent de plus en plus profondément et la surface de contact avec la couche augmente, ce qui limite l'enfoncement de ces poinçons et donc les risques de destruction du dispositif. Elle permet d'obtenir une absorption des basses fréquences sur une large bande au prix d'un certain sacrifice sur le taux d'anéchoïsme.