DE4010372C2 - - Google Patents

Description

The invention relates to a hearing aid, with one in the outer ear canal of an ear insert, with egg nem ventilation channel and one connected to a first earpiece Has sound channel.

In known hearing aids of the type mentioned at the beginning the earmold largely the outer ear canal of an ear soundproof sealed. A ventilation channel of the ear pass piece serves to ventilate the closed Section of the external ear canal. This is the responsibility of the Hearing aid felt pleasant. If the degree of hearing loss is large, that of the receiver of the hearing aid must also be closed portion of the external auditory canal Sound pressure. With increasing sound pressure also the intensity of the sound waves caused by the venti lation channel can escape to the outside. The ent softening sound waves reach the microphone of the hearing aid and lead to an unwanted feedback whistle. It will consequently with increasing sound pressure or with increasing degree hearing loss reaches a value after it has been exceeded the hearing impaired on the comfort of a ventilation duct must do without.

From DE 37 19 963 A1 it is against a protective device Known noise, at least one speaker and to attach at least one microphone inside a hollow plug, in the outer ear canal of the user's ears can be used. The speakers and microphones are in that Plug arranged in a common cavity that one of forms a continuous channel on the outside. From at least one of these microphones becomes the over the protection device too  Noise reaching this microphone is recorded and in phase opposition with the same amplitude and frequency over the Speakers given in the same channel of the plug protect the user's eardrums from noise.

DE 39 16 031 A1 describes an active vibration damping device known, recorded by a microphone Sound, e.g. B. noise, as an electrical signal via a matching filter the electrical signal path of a receiver (loudspeaker) is supplied as an electrical counter-vibration. Broadband to achieve this vibration damping device the microphone and the speaker have response times, which is much shorter than the duration of the shortest period of time damping vibration. In addition, the microphone and the Speakers within an earpiece at a distance from each other arranged that are shorter than the shortest wavelength the vibration to be damped or equal to zero.

The invention has for its object a hearing aid gangs mentioned type so that even when using the arrangement of a higher sound pressure in the external auditory canal a ventilation duct is possible.

This object is achieved by the features mentioned in claim 1 solved. By the second handset provided according to the invention,  which emits sound waves into the ventilation duct, which To counteract sound waves from the first listener, the In intensity of the sound waves penetrating to the outside is reduced will. After that it is possible to measure the sound pressure in the outer Ge further increase auditory canal before the unwanted feedback whistling occurs. The second handset can be heard from one device branched signal are fed, its phase position taking into account electrical and acoustic running times is rotated so that it through the ventilation duct outward sound waves of the first listener works.

In one essential development of the invention, the two earpiece via an amplifier with a microphone connected, the existing in the ventilation duct sound len of the first listener. That has the further we significant advantage that changes in frequency response when through the sound waves emitted by the first listener pass through the Ventilation duct mainly due to the small diameter this channel occur via the according to the further developed Invention micro acoustically coupled to the ventilation duct fon be detected. By using the additional microphone he seized frequency response changes within the ventilation duct will result in a further significant reduction in intensity tity of the exiting and feedback from the ventilation duct the sound waves causing the whistles. This Wei terbildung the invention can be considered as an active silencer be tested.

Further advantages and details of the invention emerge from the following description of an embodiment based on the drawing and in connection with the claims.

The drawing shows a schematic, sectional Dar position an earmold with ventilation channel of an invention appropriate hearing aid.  

A schematically drawn, known in the construction, for example behind the ear portable hearing aid 20 contains a first Hö rer 21 , which emits sound waves into an auditory canal 2 of an ear fitting 3 via an auditory tube 1 . The ear tip 3 of FIG. 1 is formed as a separate part and inserted into an external auditory canal of an ear. The earpiece 3 can also be designed as a housing or housing part of a hearing aid that can be worn in the ear, the components of which are completely or at least partially arranged in such an earpiece.

The sound waves emitted by the first listener occur at the point indicated by an arrow 4 from the sound channel 2 of the earmold 3 and enter the outer ear channel ( not shown ) which can be closed by the earmold 3 . At the point marked with an arrow 5 , the sound waves emerge from the closed section of the external auditory canal into a ventilation duct 6 and at an opposite side 7 of the earpiece 3 at a point marked with the arrow 8 from the ventilation duct 6 . As a result, these sound waves can reach the hearing aid microphone outside the hearing aid and cause feedback whistles.

According to the ear tip 3, the invention is directed to a second receiver 9, which is also the sound waves in the ventilation channel 6 outputs, which counteract the sound waves of the first receiver 21, entering at the position marked by the arrow 5 point in the VENTILA tion channel. 6 The receiver 9 is connected via an electrical line 10 to the output of an amplifier 11 , the sen input of which is connected via an electrical line 12 to a microphone 13 , which picks up sound waves from the first receiver in the ventilation channel 6 . The microphone 13 has two sound openings 14 and 15 , the continuous acoustic connection 16 forms a section of the ventilation channel 6 within the microphone. The microphone 13 and the receiver 9 are combined into a structural unit by a common housing 17 . Therefore, the receiver 9 also has the sound openings 14 and 15 , which are connected within the receiver to the continuous acoustic connection 16 , which forms a section of the ventilation duct. This unit, in conjunction with the amplifier 11, dampens the sound waves in the ventilation duct 6 . The microphone 13 and the amplifier 11 on the receiver 9 also generate sound waves, which cause the sound pressure to be reduced. As a result, the section 16 of the ventilation duct 6 enclosed by the housing 17 cannot be passed through without a significant reduction in the intensity of the sound waves. This unit therefore represents a type of active acoustic sound sink (silencer) with which a low acoustic impedance can be achieved. The amplifier 11 can also be integrated into the structural unit enclosed by the housing 17 , consisting of the receiver 9 and the microphone 13 . This unit can be acuically coupled inside or outside the earmold 3 to the ventilation channel 6 .

Referring to FIG. 1, the portion 16 is arranged of the ventilation channel 6 between a transducer element 18 of the second receiver 9, and a transducer element 19 of the opposite microphone. 13 It can also be advantageous to arrange the two sound transducer elements 18 and 19 adjacent to one another along the ventilation duct 6 , as a result of which sound propagation times can be better taken into account. The section 16 of the ventilation channel 6 would then first along the sound transducer element 18 of the second earphone 9 and then on the sound transducer element 19 of the microphone 13 adjacent to the second earphone 9 (seen in the opposite direction of arrows 5 and 8 ).

The sound-absorbing effect of the arrangement according to the invention of the receiver 9 , amplifier 11 and microphone 13 can be set to high frequencies, which are preferably amplified in the hearing device, e.g. B. with the help of egg nes high-pass filter. As a result, deep and un-amplified frequencies can pass through the ventilation duct undamped in a known and desired manner if necessary.

Claims (11)

1. Hearing aid with an earpiece ( 3 ) that can be inserted into the outer auditory canal of an ear, which has a ventilation channel ( 6 ) and a sound channel ( 2 ) that connects to a first earphone ( 21 ) and opens into the auditory canal, and with a second earphone ( 9 ), the sound waves in the ventilation channel ( 6 ), such that the sound waves of the second listener counteract the sound waves of the first listener and the intensity of the first listener ( 21 ) via the sound channel ( 2 ) and the ventilation channel ( 6 ) outside sound waves is reduced. 2. Hearing aid according to claim 1, wherein the second handset ( 9 ) via an amplifier ( 11 ) with a microphone ( 13 ) is electrically connected to the existing in the ventilation channel ( 6 ) Schallwel len of the first handset. 3. Hearing aid according to one of claims 1 or 2, wherein the second earpiece ( 9 ) has two sound openings ( 14 , 15 ) with an acoustic connection ( 16 ) within the second earpiece ( 9 ), which at the same time a section of the ventilation channel ( 6 ) forms. 4. Hearing aid according to one of claims 1 or 2, wherein the microphone ( 13 ) has two sound openings ( 14 , 15 ) with an acoustic connection ( 16 ) within the microphone ( 13 ), which at the same time a section of the ventilation channel ( 6 ) picture. 5. Hearing aid according to claim 2, wherein the second handset ( 9 ) and the microphone ( 13 ) are arranged as a unit in a common housing ( 17 ) to achieve a low acoustic impedance. 6. Hearing aid according to claim 3 to 5, wherein the common Ge housing ( 17 ) has the sound openings ( 14 , 15 ) with the acoustic connection ( 16 ) within the housing ( 17 ) which forms the section of the ventilation duct ( 6 ). 7. Hearing aid according to one of claims 1 to 6, in which the amplifier ( 11 ) is also arranged in the common housing ( 17 ). 8. Hearing aid according to claim 6, wherein the acoustic Ver connection ( 16 ) forming portion of the ventilation channel ( 6 ) between a sound transducer element ( 18 ) of the second earpiece ( 9 ) and a sound transducer element ( 19 ) of the opposite microphone ( 13 ) is arranged . 9. Hearing aid according to claim 6, wherein the connecting piece (16) of the ventilation channel (6) to a transducer element of the second receiver (9) and then element to a sound transducer (19) of the second receiver (9) adjacent microphone (18) ( 13 ) is guided along. 10. Hearing aid according to one of claims 1 to 9, in which little least the second earpiece ( 9 ) is arranged within the earmold ( 3 ). 11. Hearing aid according to one of claims 1 to 9, in which the unit formed from the second receiver ( 9 ), the microphone ( 13 ) and the amplifier ( 11 ) outside the earmold ( 3 ) to the ven tilation channel ( 6 ) acoustically coupled is.