DE102007037876B3 - Hearing device with pressure compensation for transducers - Google Patents

Abstract

The Components of a hearing device and in particular a hearing aid better opposite environmental influences protected become. Therefore, a hearing device with at least one acoustic transducer (10), e.g. Listener, in a converter housing (11) provided for receiving or delivering a sound, wherein a sound opening (12) in the converter housing (11) through which a sound is picked up or emitted by a sound becomes, with an air-impermeable membrane (13) is closed. A pressure compensation device (20) is to the converter housing (11) connected or integrated to the converter housing (11), so that the pressures on both sides of the membrane (13) are compensated.

Description

The The present invention relates to a hearing device with at least an acoustic transducer in a transducer housing for receiving or dispensing a sound, with a sound opening in the converter housing, through which a sound to be recorded or a sound to be transmitted passes, with an airtight Membrane is closed. The term hearing device is used here in particular a hearing aid, but any other ear-portable, sound-emitting device, such as a headset, headphones and the like understood.

Hearing aids are portable hearing aids that for the care of the hearing impaired serve. To meet the numerous individual needs, are different types of hearing aids such as behind-the-ear hearing aids (BTE), Hearing aid with external Listener (RIC: receiver in the canal) and in-the-ear hearing aids (IdO), z. B. Concha hearing aids or Channel hearing aids (ITE, CIC), provided. The hearing aids listed by way of example are on the outer ear or worn in the ear canal. About that In addition, there are bone conduction hearing aids on the market, implantable or vibrotactile hearing aids available. there the stimulation of the damaged hearing is either mechanical or electric.

Hearing aids have in principle as essential components an input transducer, an amplifier and an output transducer. The input transducer is usually a sound receiver, z. As a microphone, and / or an electromagnetic receiver, for. B. an induction coil. The output transducer is usually used as an electroacoustic transducer, z. As miniature speaker, or as an electromechanical transducer, z. B. bone conduction, realized. The amplifier is usually integrated in a signal processing unit. This basic structure is in 1 using the example of a behind-the-ear hearing aid. In a hearing aid housing 1 To carry behind the ear are one or more microphones 2 built-in for recording the sound from the environment. A signal processing unit 3 also in the hearing aid housing 1 is integrated, processes the microphone signals and amplifies them. The output signal of the signal processing unit 3 goes to a speaker or listener 4 transmitted, which emits an acoustic signal. The sound is optionally transmitted via a sound tube, which is fixed with an earmold in the ear canal, to the eardrum of the device carrier. The power supply of the hearing aid and in particular the signal processing unit 3 done by a likewise in the hearing aid housing 1 integrated battery 5 ,

Hearing aids can usually not be sealed hermetically sealed, because of the difference of the outer and internal air pressure the membranes of the microphones and the handset would be biased. Under The term "membrane" is here the electro-acoustic active membrane or the cover membrane to protect against penetration of liquid or understood particles.

The external air pressure depends on the height above that Sea level, depending on the weather and the temperature, during the Pressure on the inside of the membrane in a closed converter housing and constant temperature would remain the same. This would make a Force exerted on the membrane which are also destroying of the converter can.

The Microphones and loudspeakers therefore have an air compensation opening, so that both sides of the membrane experience the same pressure. The Hearing aid housing is over a another gas-permeable membrane with the outside space connected. The disadvantage of this construction is that water vapor is through this membrane can enter the interior of the hearing aid and thus on the Air relief openings also in the converter itself. Condensed the steam, so can the corrode sensitive metal parts.

From the patent DE 10 2006 008 044 B3 is known in the ear portable hearing aid with a ventilation duct. The barometric pressure equalization in a sound channel between a listener and a cerumen protection device with a gas-tight membrane is achieved by a pressure equalization channel, which opens into the sound channel. The pressure equalization channel connects the sound channel with the outside area or a ventilation channel.

The The object of the present invention is therefore the components a hearing device better against environmental influences to protect.

According to the invention this Task solved by a hearing device with at least one acoustic transducer in a converter housing for receiving or for delivering a sound, wherein a sound opening in the converter housing, through a sound to be picked up or passed through passes, with an airtight Membrane is closed, and wherein a pressure compensation device to the converter housing connected or integrated into the converter housing, so that the pressures can be compensated on both sides of the membrane. It owns the Converter together with the pressure compensation device a variable, gas-tight sealed volume.

Advantageously, such a hermetic Sealing the electro-acoustic transducer of a hearing possible. The membrane of the converter, its housing and a variable (outer) volume namely form a gas-tight closed space. This makes it possible to prevent, in particular, water vapor from attacking parts of the converter.

The Pressure compensation device, for example, a tubular element have, on the one hand connected to the converter housing and on the other open, with a liquid, the two ends of the tubular Airtight separates elements in the tubular element is freely movable. By the liquid volume that can be moved in a tube or a hose lets up simple way a volume change to reach.

alternative or additionally the pressure compensation device may have a bellows whose Volume changes with ambient pressure. Especially with larger pressure differences can it may be advantageous to use a bellows. In changeable Dynamics of pressure changes It may be possible Cheap be, both a bellows and the tubular element with movable liquid use.

Of the Transducer of the hearing device can be a listener or be a microphone. It is an advantage for both components to create a pressure balance and at the same time for hermetic Lock to ensure.

at a special embodiment owns the hearing device a microphone and a handset each as an acoustic transducer, wherein the pressure compensation device the converter housing connects both converters. Naturally it is also possible for many Microphones to provide a common pressure compensation device. Thus, it is not necessary that for each individual converter separate pressure compensation device must be provided.

Corresponding Another preferred embodiment has the pressure compensation device one outwards airtight space in which at least one electronic component the hearing device is housed. In particular, this can be at least one electronic component an amplifier circuit or a battery. The pressure compensation device with hermetic outward enclosed space is also used here for the function, more Components of the hearing device before environmental influences to protect.

The The present invention will be further explained with reference to the accompanying drawings, in which: show:

1 the basic structure of a hearing device according to the prior art;

2 a schematic representation of a transducer with tube element for pressure equalization;

3 a schematic representation of a transducer with bellows for pressure equalization and

4 a schematic representation of a hearing aid with a plurality of hermetically sealed electronic components.

The below described embodiments represent preferred embodiments of the present invention.

2 shows a listener 10 with a receiver housing 11 , The listener 10 serves as an electroacoustic transducer for a hearing device and in particular for a hearing aid. The receiver housing 11 has a sound opening 12 passing through a membrane 13 is hermetically sealed. The membrane 13 either serves only as a cover membrane to protect against contamination or as an electro-acoustically active membrane.

The converter housing or receiver housing 11 has another opening 14 to which a hose 15 is connected as a tubular element. In the hose 15 there is a liquid plug 16 in the interior of the hose 15 is freely movable. Only at the ends of the hose 15 are gas permeable membranes 17 and 18 that prevent the liquid clogging 16 can leave the hose.

The air volume 19 , on the one hand by the airtight membrane 13 in the receiver housing 11 and on the other hand through the liquid plug 16 in the hose 15 is limited, due to the mobility of the plug 16 variable. The external or ambient pressure is in 2 indicated with p _a . He does not just rule outside the listener's enclosure 11 , but also in the piece of tubing between the liquid plug 16 (eg oil) and the membrane 17 holding the free end of the hose 15 concludes. Inside the receiver housing 11 as well as inside the hose 15 from the receiver housing 11 to the liquid plug 16 the internal pressure p _i prevails. As the liquid plug 16 in the hose 15 is freely movable, pressure equalization takes place, so that: p i = p a

In 3 a further embodiment of an acoustic transducer for a hearing device according to the invention is shown. Again, that is receiver housing 11 through a membrane 13 at the sound opening 12 locked. At the further opening 14 Here is instead of a hose a spring or bellows 20 connected. He is except for the opening 14 closed. The floor 21 the bellows 20 is movable, so the volume 22 through the hearing aid 11 and the bellows 20 is included, is variable. The pressure inside this closed volume 22 is here again designated by p _i , while the external pressure is indicated by p _a . As pressure equalization device ensures the bellows 20 that pressure equalization takes place and again: p _i = p _a .

4 schematically shows the most important components of a hearing aid within a hearing aid housing 23 , This hearing aid housing is stiff and not elastic. Therefore it is for the acoustic transducers, here the listener 10 and a microphone 24 , necessary that over an opening 25 the pressure in the hearing aid housing takes place. This opening 25 is with a gas permeable membrane 26 closed so that no contamination can enter the hearing aid. Thus, there is not only outside the hearing aid housing 23 but also in its interior the pressure p _a .

The microphone 24 has a microphone housing 27 and is with its sound inlet 28 so at a recess of the hearing aid housing 23 placed that sound unhindered into the microphone 24 can get. The sound inlet opening 28 is with a membrane 29 closed, which in turn is acoustically active or merely serves as a protective membrane against contamination. In any case, it is impermeable to air. So there is no pressure compensation over them.

As with the microphone 24 also points to the listener 10 the sound opening 12 to the outside and is as in the examples of 2 and 3 with the membrane 13 locked.

To the pressure equalization port 14 in the receiver housing 11 of the listener 10 here is a membrane structure 30 connected, in its interior also the battery 5 as well as the signal processing unit 3 or the corresponding amplifier chip. To the membrane structure 30 is still a pressure compensation opening 31 of the microphone 24 as well as a bellows 32 connected. This is not just the interior of the microphone 24 and the listener 10 , but also the amplifier chip 3 and the battery 5 hermetically sealed against environmental influences. It also arises inside the membrane structure 30 an internal pressure p _i . Because the internal volume 33 of the membrane structure 30 through the bellows 32 is again variable, a pressure equalization takes place, so that the following applies: p _i = p _a . The membranes 29 and 13 are therefore not biased by different internal and external pressures here.

As in the above examples, the outer surface of the bellows 20 . 32 or liquid grafting 16 Being in contact with the outside world experiences the same pressure as the membrane 13 . 29 of the respective converter.

Possibly the pressure compensation device can also be displaced with one another Piston, if necessary, also active, be realized.

to appraisal the necessary volume change for the Pressure equalization is the example given here that the air pressure at a height of 5000 m compared to the pressure at sea level in about halved. Around To be able to compensate for variation is a doubling of the volume of, for example, a transducer necessary.

In the embodiments shown above, a pressure equalization is possible without water vapor or other harmful gases, eg. B. with welding components, get into the interior of the converter or to the sensitive parts of the hearing aid. Unless the membranes 13 . 29 the converters are stable enough, a waterproof (protected against submersion) hearing aid can be realized.

Claims (7)

Hearing device with - at least one acoustic transducer ( 10 . 24 ) in a converter housing ( 11 . 27 ) for receiving or emitting a sound, wherein - a sound opening ( 12 . 28 ) in the transducer housing, through which a sound to be picked up or transmitted passes, with an air-impermeable membrane ( 13 . 29 ) is closed, and - a pressure compensation device to the converter housing ( 11 . 27 ) or in the converter housing ( 11 . 27 ) is integrated so that the pressures on both sides of the membrane ( 13 . 29 ) are compensated, characterized in that - the converter has a variable, gas-tight sealed volume together with the pressure compensation device. Hearing apparatus according to claim 1, wherein the pressure compensation device comprises a tubular element ( 15 ), on the one hand to the converter housing ( 11 . 27 ) and on the other hand is open, and wherein a liquid ( 16 ), which airtightly separates the two ends of the tubular element, in the tubular element (FIG. 15 ) is freely movable. Hearing apparatus according to claim 1 or 2, wherein the pressure compensation device comprises a bellows ( 20 ) whose volume changes with ambient pressure. Hearing apparatus according to one of the preceding claims, wherein the transducer ( 10 . 24 ) is a handset or a microphone. Hearing apparatus according to one of claims 1 to 3, comprising a microphone and a receiver each as an acoustic transducer ( 10 . 24 ), wherein the pressure compensation device, the converter housing ( 11 . 27 ) connects both transducers. Hearing apparatus according to one of the preceding claims, wherein the pressure compensation device comprises a hermetically sealed space ( 33 ), in which at least one electronic component of the hearing device is accommodated. Hearing apparatus according to claim 6, wherein the at least one electronic component comprises an amplifier circuit ( 3 ) or a battery ( 5 ).