RU2222118C1 - Acoustic electrohydrodynamic loudspeaker with spherical audio-signal directivity pattern - Google Patents

Abstract

FIELD: acoustics. SUBSTANCE: proposed electrohydrodynamic loudspeaker has flexible liquid-filled spherical envelope accommodating hydraulic plunger whose piston is rigidly coupled with core of electromagnetic sound-vibration sensor. Plunger-sensor system is isolated inside spherical envelope from liquid, and power conductor leads are brought out of spherical envelope. Such mechanical design provides for spherical directivity pattern of sound waves in environment. EFFECT: improved sound quality. 1 cl, 1 dwg _

Description

 An acoustic electrohydrodynamic speaker having a spherical pattern of sound waves into the atmosphere is structurally an elastic ball / 1 / filled with liquid / 2 /, see drawing.

 A hydraulic plunger is placed inside the ball, the piston / 3 / of which is rigidly connected to the core / 4 / of the electromagnetic sensor of sound vibrations.

 The plunger system - the electromagnetic sensor is hermetically isolated from the fluid inside the ball. The supply wires of the electromagnet coil / 5 / are displayed behind the shell of the ball.

 The physics of the process takes place in the following sequence: when a low-frequency signal arrives at the coil of the electromagnet coil / 6 /, the core begins to oscillate, which the piston / 4 / repeats, transferring them to the liquid / 2 /.

 When the piston moves, the liquid / 2 / inside the ball changes in volume, as a result of which the surface of the ball changes in area, which creates sound waves propagating along the ball diagram.

 The proposed speaker makes it possible to sound large spaces and volumes with uniform sound at all points.

 This possibility is created due to the spherical orientation of sound waves.

 Having a spherical radiation pattern, deaf zones and hard to hear areas disappear. There is no need to install multiple speakers, the sound is soft and fully consistent with the phonetic data of the artist.

 Of particular interest is the option of using a speaker under water, where a high density of water compared to the atmosphere will transmit sound signals more accurately and over long distances. Such a connection can be used for underwater work of divers, scuba divers, etc.

 The acoustic capabilities of the proposed speaker provide an opportunity to hope for a wide range of its applications.

 An analog search was carried out over the past five years by countries: USA, Japan, France, England, Germany, etc. Direct analogues were not found.

Claims (1)

An acoustic electro-hydrodynamic speaker that provides the creation of a spherical radiation pattern of sound waves, containing an elastic spherical shell filled with liquid, inside of which there is a hydraulic plunger, the piston of which is rigidly connected to the core of the electromagnetic sound vibration sensor, while the plunger-electromagnetic sensor system inside the ball shell is isolated from the liquid , and the supply wires are displayed behind the spherical shell.