EP1432281A2 - Electroacoustic miniature transducer for a hearing-aid device - Google Patents

Abstract

The electro acoustic miniature transducer has a transducer membrane (4) that is provided with an oil repellent and/or biofilm inhibitive coating (7), whose thickness is less than 10 microns. Either one side or both sides of the membrane are provided with the coating.

Description

The invention relates to a miniature electroacoustic transducer with a traveling membrane for use in a hearing aid.

Hearing aids are used to convert acoustic signals into electrical signals and for converting electrical signals miniature transducers in acoustic signals (Microphones or earphones) are used. For use in hearing aids are particularly interested in miniature electroacoustic transducers special in terms of size and efficiency Requirements.

DE 100 13 673 A1 describes a micromechanical electroacoustic Known converter, according to the silicon semiconductor technology known manufacturing process is. The converter has at least one carrier body as well a piezoelectric layer on the top and bottom there is one electrode each. It is at least one of the electrodes over the piezoelectric layer continued and at least partly as elastic Membrane and carrier layer formed. This makes it unnecessary a membrane and carrier layer of low elasticity Semiconductor material. The different layers in the known electroacoustic transducers are because of their electrical Properties (function as an electrode or as a piezoelectric Layer) or because of their function as a carrier layer available.

When used in a hearing aid, they are electro-acoustic Miniature transducers exposed to extreme external influences. Moisture, fats or especially act on microphones Alcohols. The listeners, however, are primarily through the listener channel mainly gaseous, liquid or solid wax parts exposed, but also moisture (sweat) reaches the Handset. It can also be found in the sound channels of the electroacoustic miniature transducers accumulate dirt particles. Overall, moisture and pollution often result failure of the electroacoustic miniature transducer and the entire hearing system.

To avoid contamination, electro-acoustic Miniature transducers and in particular sound channels of the miniature transducers so far partly through elaborate covers (sieves, Grid etc.) protected, which are exchanged at regular intervals or need to be cleaned. This means one subsequent effort for the user.

The electroacoustic miniature transducers are also often unprotected used so by exposure to humidity in practice problems with microphones often occur, e.g. a loss of sensitivity or a change the transfer function through moisture absorption Microphone diaphragm, oxidation etc.

A large number of surface coatings are from the prior art known through which a dirt, moisture or oil-repellent effect can be achieved. For example, from DE 195 44 763 A1 the use of a coating composition known, the polycondensates based on one or more capable of hydrolytic polycondensation Compounds of elements M of main groups III to V and subgroups II to IV of the Periodic Table of the Elements contains, in these polycondensates at least a part of the central atoms M each have at least one organic Group G containing at least 2 aliphatic carbon atoms to which at least one fluorine atom is bound is, either directly over one of the carbon atoms or is bound via a connecting group A, for coating of surfaces made of metal, plastics, optionally modified Natural materials, ceramics, concrete, clay and / or glass.

Surface coatings are also known develop a bactericidal or fungicidal effect. This effect can for example contained in the coating Silver ions are based, which diffuse to the layer surface. Such coatings are used, for example, for sterilization medical instruments used.

A condenser microphone is known from US 2002/0181725 A1 known in which the membrane with a hydrophobic layer is provided to prevent the membrane from attaching to the attached to the back of the microphone. there is the distance between the membrane and the back Capacitor plate smaller than 10µm.

The object of the present invention is the adherence of Dirt particles within an electro-acoustic Miniature transducers used in hearing aids prevent.

This task is done with a miniature electroacoustic transducer with a hiking membrane for use in one Hearing aid solved in that the transducer membrane with an oliophobic and / or biofilm-inhibiting coating is provided, the layer thickness of which is less than 10 μm.

Furthermore, the task with an electroacoustic Miniature converter solved that the housing at least partially with an oliophobic and / or biofilm-inhibiting Coating is provided. It also does the job in an electroacoustic miniature transducer with at least solved a sound channel in that the sound channel at least partially with an oliophobic and / or biofilm-inhibiting Coating is provided.

Usually includes an electroacoustic miniature transducer for a hearing aid, a housing, a transducer membrane, the is excited to vibrate and a change between one causes acoustic and an electrical signal, and a sound channel for sound guidance between the interior of the housing and the exterior surrounding the housing. Instead of one Sound channel can also only be a housing opening to be available. Miniature transducers can be made through manufacturing processes are manufactured primarily from silicon semiconductor technology are known. These miniature transducers are in usually relatively insensitive to moisture, since both the starting material (silicon compounds) as well coatings required for the function of such miniature transducers, e.g. Metallizations to form the electrodes, are insensitive to moisture. Indeed have such miniature transducers due to their high rigidity of the transducer membranes acoustic disadvantages. The advantages The invention is therefore particularly effective in non-semiconductor technology manufactured miniature transducers made in usually a much more moisture-sensitive transducer membrane made of plastic material, e.g. Mylar.

Due to the small layer thickness of the coating, which is preferred in the nanometer range is sufficient Guarantees elasticity of the coating. This and the minor additional mass due to the extremely thin coating applied to the transducer membrane cause that the acoustic properties of the miniature transducer according to the invention compared to a miniature transducer with uncoated Only slightly deteriorate the converter membrane. Due to the moisture and dirt repellent properties according to the transducer membrane of an acoustic miniature transducer However, the invention retains its acoustic properties over the years, whereas conventional miniature converters subject to severe aging processes.

The coating is in particular a organic groups modified inorganic condensate Basis of a coating composition containing a hydrolyzate or precondensate from one or more hydrolyzable Compounds with at least one non-hydrolyzable substituent comprises, preferably at least part of organic groups of the condensate has fluorine atoms. additionally or alternatively, copper or silver colloids be included in the coating.

Such a plastic coating has the advantage that it can be made very thin. Usual layer thicknesses can when applying the coating in the micrometer range and after drying are in the nanometer range, which is why this coating is also referred to as a "nano-coating" becomes. The coating can also be carried out using common coating processes like diving, spraying or spreading muster. After a short, if necessary Such a layer is then usually dried UV light hardened. In the context of the invention Coating composition taking into account the intended Coating process chosen so that the Layer thickness in the dried state is less than 10 µm. Such a value can be due in particular to the solvent content the coating adjusted when applying become.

Because there is moisture and pollution in the converter membrane the invention at least sees a particularly negative effect a coating of the membrane side facing the sound passage opening aligned in the housing of the miniature converter is. However, both sides of the transducer membrane are advantageous coated. The best possible protection against intrusion of moisture in the transducer membrane is then given if the lateral surfaces of the through channels in the Transducer diaphragm, which are used for barometric pressure compensation, are coated. At least all the exposed ones, that is Areas of the converter membrane that are not clamped are thus coated and the sensitive transducer membrane is complete surrounded by a protective layer. So can moisture and dirt do not cause the transducer membrane to swell, which have a very negative impact on the acoustic properties would. The coating according to the invention prevented but not just the ingress of moisture and oil, but also dirt particles can no longer on the converter membrane be liable. Overall, the lifespan of a electroacoustic miniature transducer even under extreme external influences, such as when used in a hearing aid can occur, decidedly extended.

In one embodiment of the invention, in addition to the Transducer membrane also the housing, especially the inside of the housing, and the sound channel of the miniature transducer coated with the properties mentioned. The coating leads to a reduction in the surface energy, making dirt particles no longer permanent can accumulate. Liquid or solid foreign substances are so the coated surfaces. In particular can Cerumen parts are difficult to accumulate. Should still cerumen be deposited on the housing or the sound channel clog, this can be due to the lack of liability to the Surfaces are easily shaken out. A corresponding Shaping the sound channel or the housing makes this easier Shaking.

Furthermore, the hydro- and / or oliophobic surfaces prevent a capillary effect. Moisture is no longer so absorbed by capillaries.

The coating according to the invention has a preferred one Embodiment of the invention in addition to the hydrophobic and oliophobic also has a bactericidal and fungicidal effect. The moist and warm climate in the ear canal is ideal for growth of bacteria and fungi. In particular, electroacoustic Miniature transducers of hearing aids worn in the ear canal be affected by bacteria and fungi. In addition to damage to the converters themselves, this can also cause damage Inflammation caused by the hearing aid wearer. This negative effects can be caused by a bactericidal and Avoid fungicidal coating.

To achieve bactericidal and fungicidal properties the coating preferably contains silver ions. These will released and diffuse to the surface of the Layer, where they then take effect. They kill bacteria and fungi by blocking a certain enzyme, which the bacteria and fungi need for their metabolism.

Further details of the invention emerge from the following Description of an embodiment. there the figure shows a trained as a hearing aid microphone miniature electroacoustic transducer.

The hearing aid microphone according to the exemplary embodiment comprises a housing 1 with a sound nozzle 2, in which a rotating Bracket 3 attached to the housing 1, a microphone membrane 4 is. The microphone membrane 4 has small bores 5 for a barometric air balance and is opposite a counter electrode 6 clamped. The sound conversion is based in this type of miniature transducers based on the capacitive transducer principle.

According to the invention, the microphone membrane 4 is on both sides applied a thin coating 7. It is also advantageous the outer surface of the holes 5 covered with the coating 7, so that the microphone membrane is completely enveloped is.

The invention provides a coating composition for the coating before, in the dried out state the layer gives a layer thickness that does not exceed 10 µm. However, the layer thickness is preferably in the nanometer range, which is why the coating 7 also as a nano-coating referred to as. When coating miniature transducers it may be useful for nano-coatings Modify the usual coating process slightly. For example, the curing of the coating improves under UV light in air compared to the elastic properties the usual curing in nano-coatings Protective atmosphere.

Due to the elastic properties and the low mass of the Coating 7 influences the acoustic properties of the miniature converter at most insignificant. The coating 7 acts hydrophobic, oliophobic, bactericidal and fungicidal. As a result, neither moisture can enter the microphone membrane 4 oil still penetrate, causing oxidation and swelling the microphone membrane 4 can be prevented. Farther dirt particles do not stick to the microphone membrane 4. Bacteria or fungi also cannot settle on it. Overall, the microphone membrane 4 also retains under the extreme external conditions that a hearing aid prevail, their original acoustic properties.

The hearing aid microphone according to the exemplary embodiment is advantageous In addition to the microphone membrane 4, the inside of the housing and the inside of the sound channel 2 with the coating 7 provided. Here too the coating 7 shows the Advantages that dirt particles do not stick and thus provided that this is in the sound channel or the converter housing should penetrate, can be easily shaken out. In addition, penetrating into the hearing aid microphone Moisture will not damage the microphone. Overall, the lifespan of a hearing aid microphone significantly extended.

By adding a silver compound, the silver ions releases, the coating 7 also acts on bacteria and anti-fungal, making the settlement more harmful Bacteria or fungi inside the hearing aid microphone are prevented becomes. This can also damage the Prevent hearing aid microphones.

Claims (7)

Electroacoustic miniature transducer with a traveling membrane (4) for use in a hearing aid, characterized in that the transducer membrane (4) is provided with an oliophobic and / or biofilm-inhibiting coating (7), the layer thickness of which is less than 10 µm. Electroacoustic miniature transducer according to claim 1, characterized in that one side of the transducer membrane (4) is provided with the coating (7). Electroacoustic miniature transducer according to claim 1, characterized in that both sides of the transducer membrane (4) are provided with the coating (7). Electroacoustic miniature transducer according to claim 1, characterized in that the coating (7) envelops all exposed, that is not clamped areas of the transducer membrane (4). Electroacoustic miniature transducer with a housing (1), characterized in that the housing (1) is at least partially provided with an oliophobic and / or biofilm-inhibiting coating (7). Electroacoustic miniature transducer with at least one sound channel (2), characterized in that the sound channel (2) is at least partially provided with an oliophobic and / or biofilm-inhibiting coating (7). Miniature electroacoustic transducer according to claim 5 or 6, characterized in that the coating (7) is hydrophobic.

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