CA2002803A1 - Electroacoustic transducer - Google Patents

Abstract

ABSTRACT DESCRIPTION

- The present invention relates to an electro- transducer acoustic, comprising at least one element (2) susceptible to emit ions when brought to a potential electric sufficiently high, said element being arranged between two first electrodes (4,5), one parallel to the other, connected to a modulator (6), between which is likely to be created a modulated electric field acting on said ions.

- According to the invention, it comprises at least one second electrode (8,9) which is brought to an electrical potential such that an ion flow (10) is created between said emitter ion (2) and said second electrode (8,9), and which is disposed in the vicinity of said ion emitting element (2) of so that said modulated electric field acts on said ion flow (10).

- The invention applies to acoustic speakers.

- Figure 1.

Description

~ O ~ 3 1 The present invention relates to an electro-acoustics, as well as an acoustic enclosure comprising at minus such a transducer.

We already know, by the French patent application ~ ais n ~

2 246 151, an electroacoustic transducer comprising a wire capable of emitting ions when worn on a sufficiently high potential, said wire being arranged between two electrodes, parallel to each other, connected to a modulator, between which is likely to be created a modulated electric field acting on said ions. Said ions are then set in motion and transmit, by collisions, the energy thus acquired to neutral molecules surrounding, producing a sound at the frequency-of the field modulated electric. However, in this case, the show ion is very localized, in the immediate vicinity of the wire, so that the results obtained are hardly satisfactory in practice.

The object of the present invention is to avoid these drawbacks.
nients, and concerns an electroacoustic transducer whose efficiency is greatly improved.

For this purpose, the electroacoustic transducer, of the type comprising at least one element capable of emitting ions when brought to an electrical potential sufficiently high, said element being arranged between two first electrodes, parallel to each other, connected to a modulator, between which is likely to be created a modulated electric field acting on said ions, is remarkable, according to the invention, in that it comprises plus at least a second electrode which is brought to a electrical potential such that an ion flow is created between said ion emitter and said second electrode, and which is arranged in the vicinity of said ion emitting element of so that said modulated electric field acts on said ion flow.

1 Thus, said ~ lux of ions plays the role of a membrane vibrant immaterial. Indeed, the ionized fluid, created between the ion emitting element and the second electrode, is attracted to the first electrodes to the rhythm of the modulation, thus generating acoustic pressures in the air.

In the case where said ion emitting element is a wire, advantageously, said second parallel electrodes are provided on either side of said wire respectively, said second electrodes being orthogonal to said first electrodes. Preferably, said seconds electrodes are arranged at equal distances from said wire.
The latter, in particular in stainless steel or platinum, can have a diameter between 20 and 50 micrometers.

In the case where said ion emitting element is a tip, i.e. a plurality of second electrodes punctual are arranged in a fan around said point, or said second electrode has approximati-vement the shape of a horseshoe surrounding said point.

According to another characteristic of the invention, said first electrodes are arranged at equal distances of said ion emitting element.

Advantageously, said first electrodes are grids of rigid textile material covered with carbon.

Preferably, said ion emitting element is brought to a negative potential of the order of -4, 'kV at least.

The figures in the attached drawing will make it clear how the invention can be realized. In these figures, identical references denote similar elements.

~ 132 ~ 3 1 Figures 1 and 2 illustrate a first example of a sation of the electroacoustic transducer of the invention, wherein the ion emitting element is a wire.

Figures 3 and 4, and 5 and 6 illustrate, respectively, two variants of a second embodiment of the electroacoustic transducer of the invention, in which the ion emitting element is a point.

Referring to Figures 1 and 2, the transducer electroacoustic 1 has a wire 2, connected to a source high voltage 3, capable of emitting ions when brought to a sufficient electrical potential high, for example a negative potential of the order ~ e - at least 4.5 kV, negative potential giving no discharge noises. Wire 2 is arranged between two first electrodes 4,5, parallel to each other, connected to a modulator 6 via a transformer 7. A modulated electric c ~ amp can thus be created between the two electrodes 4,5, to act on said ions. The electrodes 4.5 are advantageously produced in the form of grids of rigid textile material covered with carbon. As a result, the formation of arcs in presence of strong modulations is extremely rare, and these do not are not maintained as they would be with grids metallic.

In addition, two second electrodes 8, 9, parallel to each other, connected to ground are arranged on the side and ~ other of said wire 2 respectively, said seconds electrodes 8,9 being orthogonal to said first electrodes 4.5. It should also be noted that the first 4.5 and ~ seconds 8.9 electrodes are advantageous-arranged at equal distances from the wire, respectively-so as to avoid creating an ionic wind when the application of the negative bias voltage.

2 ~ 303 1 The modulated electric field created between the first 4.5 electrodes thus acts on the ion flow 10, generated between wire 2 and the second electrodes 8.9, playing the role of an immaterial vibrating membrane. In others terms, the ionized fluid created between wire 2 and ground electrodes 8.9 is attracted to the grids 4.5 at rhythm of the modulation, thus producing pressures acoustic in the air.

In the two variants of the embodiment of the electroacoustic transducer 1 illustrated by the figures

3 to 6, the ion-emitting wire is replaced by a point.

The tip 11 is arranged in a support ring 12, of so that the tip 11a of it is in the center of said ring 12. As in the previous case, the tip 11 connected to a high voltage source 13, is susceptible to emit ions when brought to a potential electric high enough, for example a potential negative of the order of -4.5 kV. Also tip 11, and in particular the end 11a thereof, is arranged between first two electrodes 14,15, parallel to one the other, connected to a modulator 16 via of a transformer 17. These electrodes 14,15 are advantageously of the same type as the electrodes 4,5 previously described.

In a first variant illustrated by FIGS. 3 and

4, a plurality of second point electrodes 18 ~ per example three electrodes 18), connected to ground, are arranged in a fan around the tip 11a of the tip 11.
In the second variant illustrated by FIGS. 5 and 6, a second single electrode 19, connected to ground, roughly in the shape of a horseshoe surrounds the tip 11a of the tip 11.

~ 00 ~) 3

- 5 1 As in the previous case, the modulated electric field created between the first electrodes 14,15 and the tip 11 acts on the ion flow 20, generated between tip 2 and the second electrode (s) 18,19, playing the role of immaterial vibrating membrane.

Claims (10)

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The embodiments of the invention in respect of which an exclusive right of ownership or privilege is claimed, are defined as follows: 1 - Electroacoustic transducer, of the type comprising at least least one element capable of emitting ions when it is brought to a sufficiently high electric potential, said element being arranged in the vicinity of two first electrodes, parallel to each other, connected to a modulator, between which is likely to be created a modulated electric field acting on said ions, characterized in that said ion emitting element (2,11) is arranged between said two first electrodes (4.5;
14,15), and in that it is provided at least a second electrode (8.9; 18; 19) which is brought to a potential electric such that a flow of ions (10,20) is created between said ion emitter (2,11) and said second electrode (8,9; 18; 19), and which is arranged in the vicinity of said ion-emitting element (2,11) so that said field modulated electricity acts on said flow of ions (10,20). 2 - Electroacoustic transducer according to claim 1, wherein said ion emitting element is a wire, characterized in that two said second electrodes (8,9) parallel are provided on either side of said wire (2) respectively, said second electrodes (8,9) being orthogonal to said first electrodes (4.5). 3 - Electroacoustic transducer according to claim 2, characterized in that said second electrodes (8,9) are arranged at equal distances from said wire (2). 4 - Electroacoustic transducer according to claim 2 or claim 3, characterized in that said wire (2), preferably in stainless steel or platinum, has a diameter between 20 and 50 micrometers. 5 - Electroacoustic transducer according to claim 1, wherein said ion emitting element is a point, characterized in that a plurality of second electrodes points (18) are arranged in a fan around said tip (11). 6 - Electroacoustic transducer according to claim 1, wherein said ion emitting element is a point, characterized in that said second electrode (19) has approximately the shape of a horseshoe surrounding said tip (11). 7 - Electroacoustic transducer according to any of claims 1 to 6, characterized in that said first electrodes (4,5;14,15) are arranged at equal distances from said ion-emitting element (2.11). 8 - Electroacoustic transducer according to any of claims 1 to 7, characterized in that said first electrodes (4.5; 14.15) are grids made of rigid textile material covered with carbon. 9 - Electroacoustic transducer according to any of claims 1 to 8, characterized in that said ion emitting element (2,11) is brought to a negative potential of the order of -4.5 kV at less. 10 - Acoustic enclosure, characterized in that it comprises at least one transducer electroacoustic tor according to any one of claims 1 to 9.