The invention relates to a microphone protective device for preventing the entry of dirt and/or moisture into a sound inlet opening of a microphone, comprising a dirt and/or moisture-repelling membrane and/or a membrane impermeable to dirt and/or moisture.
The invention further relates to a hearing aid device with a corresponding microphone protective device as well as a microphone unit with a microphone and a microphone protective device.
The microphone protective device is designed to prevent the entry of dirt and/or moisture into a microphone as completely as possible. Furthermore the microphone protective device should attenuate an acoustic input signal into the microphone as little as possible. Above and beyond this the microphone protective device should remain effective for as long as possible and especially not clog up. These requirements can only be fulfilled if a comparatively large surface is provided for the membrane of the microphone protective device. However this runs counter to the aim of miniaturization of hearing aid devices. In particular with hearing aid devices with a number of microphones, only a relatively narrowly restricted area can be made available for each microphone for the microphone protective device on the housing surface of the hearing aid device.
Microphone protective devices are known which have a grating provided with a water-repellent coating. Although these only have a slight attenuation, they only provide a comparatively small water head for this as regards water tightness.
Furthermore microphone protective devices with flat, (micro) porous membranes are known, which make a high water column possible, but need a relatively large membrane surface for a low attenuation. E.g. publication EP 310 866 A1 describes a microphone protective device with a membrane made of Gore-Tex Material impermeable to dirt and water.
The object of the present invention is to specify a microphone protective device, especially for a hearing aid device which, with a comparatively low space requirement, provides a high level of waterproofing and low acoustic attenuation.
This object is achieved by a microphone protective device with the features as claimed.
The microphone protective device according to the invention comprises a dirt and/or moisture-repelling or dirt and/or water-impermeable membrane, which prevents the entry of dirt and/or moisture into the microphone. In this case the membrane is embodied at least in parts in a cylindrical shell shape or is disposed on a cylindrical shell surface for achieving a comparatively large surface with low space requirements on the housing surface of an electro-acoustic device for which the microphone protective device is provided.
In connection with the invention “cylindrical-shell-shaped” or “cylindrical”, means that at least one part of the membrane forms a cylindrical shell. The base surface of the cylinder can have any given form. Advantageous however are a circular, rectangular, especially square, or elliptical base surface. A cavity, which however has at least one open side, i.e. not enclosed by the membrane, is thus formed by the membrane. The membrane thus does not form a completely closed cylindrical surface. Preferably the at least one open side is also not closed off by another material or cover element. As an alternative the open side can however also be covered for example by a “large-mesh” grating compared with the grating. The open side is the base and/or the cover surface of the cylinder formed by the membrane. The cylindrical shell design can be produced for example by a flat, rectangular membrane being rolled up.
As an alternative to the direct cylindrical-shell-shaped embodiment of the membrane, at least one membrane which does not form a complete cylindrical shell can be applied to a carrier, especially a cylindrical-shell-shaped carrier, so that the membrane lies on a cylindrical shell surface or at least partly forms this surface. For example in this way a number of “small” membranes can be disposed on a cylindrical-shell-shaped carrier. The carrier in this case is permeable to air and also acoustically transparent at least partly in sections, especially in the area of the membranes.
The invention offers the advantage that at least essentially only space is needed on the housing surface of the electro-acoustic device for the membrane protection device for an (open) end (base or cover surface of the cylinder) of the membrane embodied in a cylindrical shell shape. This makes it possible to reduce the space required on the housing surface of the electro-acoustic device, although a comparatively large effective surface of the membrane is effective in protecting the microphone.
Preferably the microphone protective device as a unit is embodied from a likewise cylindrical-shell-shaped outer envelope and the membrane disposed therein. The microphone protective device thus has the structure of a double-wall tube. The outer envelope in this case preferably acts as a membrane carrier. The membrane carrier simplifies the fitting and the replacement of the membrane in relation to an electro-acoustic device.
By the outer envelope having a greater diameter than the membrane surrounded thereby, the membrane and the outer envelope are advantageously able to be spaced apart from one another. They preferably have the same axis of symmetry. At the ends of the tubular membrane or envelope the area between the membrane and the envelope is preferably closed off, e.g. through correspondingly shaped sections on the envelope, so that neither dirt nor moisture can penetrate into the space between the membrane and the envelope.
To prevent the membrane coming into contact with the envelope, the area between the membrane and the envelope can also be filled with an acoustically-transparent material, for example an expanded foam.
In order to further prevent the penetration of dirt into an open end of the membrane embodied in a cylindrical shell shape, the open end can also be provided with a protective cover preferably embodied in an essentially disk shape. This protective cover consists e.g. of a comparatively coarse protective grating compared to the membrane, which prevents coarse dirt particles reaching the membrane.
To connect the microphone protective device to a microphone a microphone connection opening is advantageously located in the outer envelope of the microphone protective device.
The inventive microphone protective device is particularly well suited for installation in a hearing aid device, since in hearing aid devices in general the aim is to miniaturize the devices as much as possible and the microphone protective device in accordance with the invention only occupies relatively little space on the surface of the housing of a hearing aid device concerned. The inventive microphone protective device is however not restricted to installation in a hearing aid device. Instead said device can also be built into other electro-acoustic devices, especially communication devices such as mobile telephones, headsets, PDAs etc.
In particular with a hearing aid device able to be worn behind the ear, with a housing with a left housing side and a right housing side embodied symmetrically thereto, a microphone protective device in accordance with the invention can be built into the hearing aid device and dimensioned such that a first open end of the membrane embodied in the shape of a cylindrical shell opens out into the left housing side and a second end of the membrane embodied in the shape of a cylindrical shell opens out into the right housing side of the hearing aid device concerned. The membrane thus has the shape of a tube open on both sides. The membrane embodied in the shape of the tube thus forms a channel through the hearing device from one housing side to the other. This has the advantage that a membrane embodied in this way is especially easy to clean and to replace if required. A suitable tool can then be especially easily inserted into the channel formed by the membrane, namely for cleaning or replacing the membrane. Different hearing aid devices for supplying the left or the right here can then be created in a simple manner by the respective microphone openings being closed on one housing side e.g. glued over.
In an embodiment of the invention the envelope surrounding the membrane of the microphone protective device is embodied in one piece with the housing of the hearing aid device. The membrane is then inserted, e.g. glued into the correspondingly embodied completed housing.
A further embodiment of the invention provides for a microphone unit with a microphone and a microphone protective device connected thereto in accordance with the invention to have one unit.
The invention will be explained in greater detail below with reference to the exemplary embodiments, in which:
In a state in which the microphone protective device 22 is built into an electro-acoustic device, especially a hearing aid device, essentially only the space for the open end of the membrane 24 embodied in the shape of a cylindrical shell visible from
The structure of the microphone protective device 22 and the connection to the microphone 21 are further illustrated by the cross-sectional diagram in accordance with
As well as the advantages already stated, the inventive microphone protective device also offers the advantage that vibrations exerted on the microphone protective device and especially its membrane, which for example, with a microphone protective device disposed in a hearing aid device, can be transmitted from a receiver likewise disposed there, can be largely compensated for. Thus for a movement at right angles to the axis of symmetry of the cylindrical-shell-shaped membrane, a part area of the membrane relative to the envelope is moved towards the envelope and a second part area of the envelope opposite this part area within the envelope is moved away from the envelope. In this way movements transmitted to the membrane by the movement (vibration) of the envelope are mutually compensated for in respect of their effect.
As well as the advantages already mentioned, the inventive arrangement has the further advantage that the membrane is not directly accessible from outside and therefore for example cannot be touched accidentally with the fingers. On the one hand this avoids unpleasant noises caused by touching it and in addition the membrane is better protected from mechanical stress than would be the case for a membrane disposed on the surface of the device.
In addition the arrangement shown has a further advantage: The receive point of a microphone usually lies roughly in the middle of each sound entry opening in the housing of a device concerned. Since only comparatively little space is required on the housing surface in the invention in relation to the desired membrane surface, the sound entry openings belonging to different microphones can lie very close to one another. Therefore acoustically very short microphone arrays, i.e. microphones with a small acoustically-relevant spacing can be constructed.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP2010/062172 | 8/20/2010 | WO | 00 | 2/20/2013 |
Publishing Document | Publishing Date | Country | Kind |
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WO2012/022382 | 2/23/2012 | WO | A |
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Number | Date | Country | |
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20130148832 A1 | Jun 2013 | US |