EP3192281A1 - Hearing instrument with power supply unit, and power supply unit for a hearing instrument - Google Patents

Abstract

The invention relates to a hearing instrument (1) with a power supply unit, comprising a hearing device rear housing (2), at least one microphone (3), a receiver (4), an earpiece connection means or an acoustic tube (5), an earpiece (6), a power supply unit (20), and a signal processing unit (7). The invention is characterized in that the power supply unit (20) comprises a rechargeable energy supply means (22) and an actuating and control means (24), and the hearing instrument comprises a switching means (26). The switching means (26) is designed to assume at least two switch states, and the actuating and control means (24) is designed to actuate a switched-off state of the hearing instrument (1) depending on the switch state of the switching means (26). The invention further relates to a corresponding power supply unit (20) for a hearing instrument (1).

Description

description

Hearing instrument with power supply unit and Stromversor ^¬ supply unit for a hearing instrument

The present invention relates to a hearing aid with power supply unit. Moreover, ahead ^¬ invention relates to a power supply unit for a hearing ^¬ instrument.

Hearing instruments can be designed as hearing aids. A hearing ^¬ device serves to supply a hearing-impaired person with acoustic environment signals, which are processed to compensate for or treatment of the respective hearing impairment and amplified. It comprises in principle one or more input ^{walls ¬} ler, a signal processing device with an amplifying device or an amplifier and an output transducer. The input transducer is usually a sound receiver, such as a microphone, and / or an electromagnetic receiver, such as an induction coil. The output transducer is usually as an electro-acoustic transducer, such as miniature speakers, or as an electromechanical transducer, eg bone conduction, realized. He is also referred to as a handset or receiver. The output transducer generates output signals that are sent to the patient's hearing and during the hearing

Patients generate a hearing perception. The amplifier is usually integrated in the signal processing device. The power supply of the hearing aid is currently performed by a insertable into the hearing aid housing battery. The essential electronic components of a hearing aid are in the

Usually arranged on a printed circuit board as a circuit board or connected thereto.

Except as a hearing aid that the compensation of a weakened th hearing, commonly referred as deafness ^¬ net serves, hearing instruments can be designed as a so-called Tinni- tus masker. Tinnitus maskers are used to treat tinnitus patients. They generate from the respective hearing impairment and depending on the principle of action also dependent on ambient noise acoustic output ^¬ signals that can contribute to reducing the perception of annoying tinnitus or other ear noises. In the following, the term hearing instrument should also be understood to mean tinnitus maskers and other such devices.

Hearing aids are known in various basic housing configurations. For in-the-ear (in-the-ear) hearing aids, an enclosure containing all the functional components, including the microphone and receiver, is mostly worn in the ear canal. Completely-in-Canal (CiC) hearing aids are similar to the IdO hearing aids, but are fully worn in the ear canal. In BTE hearing aids (behind-the-ear, behind-the-ear) a housing with components such as battery and signal processing device is worn behind the ear and a flexible sound tube, also referred to as a tube, directs the acoustic output signals of a receiver from Ge ^¬ housing to the auditory canal. RiC-BtE hearing aids (receiver-in-canal hearing-the-ear) are similar to BTE hearing aids, but the receiver is carried in the ear canal, and instead of a sound tube that sends acoustic signals to an earpiece, conducts a flexible one referred to as cable receiver tube or Hö ^¬ rerverbindungsmittel electrical signals to a receiver, which is mounted on the front cable.

In addition to good acoustic properties, which are favored for example by high-quality input transducers, output transducers and a good signal processing device, today's hearing instruments are increasingly esthetically and cos ^¬ metically demanding. In particular Hörinstru ^¬ ments should be as inconspicuous as possible to wear. Furthermore, there is often the danger that hearing instruments may be damaged by penetrating fluids, such as sweat. Another requirement for a modern hearing instrument relates to the ease of use of the now equipped with many Funk ^¬ tions devices. The topic of ease of use also includes hearing instruments with little maintenance, For example, in relation to the handling of the energy supply of the hearing instrument, should require.

The object of the present invention is now to provide a hearing instrument that requires little maintenance compared to conventional hearing instruments and that is well protected against sweat in particular.

The invention solves this problem with a hearing instrument having a power supply unit with the features of the independent claims and a power supply unit for a hearing instrument with the features of claim 14. Advantageous embodiments are described in subclaims.

A basic idea of the invention is a hearing device with egg ^¬ ner power supply unit comprising a Hörgeräterumpfge- housing, at least one microphone, a receiver, a handset connection means and a sound tube, an ear piece, a power supply unit and a signal processing unit. The power supply unit comprises a repeated aufladba ^¬ res power supply means and a control and Kontrollmit ^¬ tel, the hearing device comprises a switching means, said switching means being adapted to accept at least two switching states. The control and monitoring means is designed to control a switch-off state of the hearing instrument as a function of the switching state of the switching means.

To achieve the object of the invention has this

Basic idea of the invention in addition to known components of a hearing aid, such as a hearing aid housing, at least one microphone, a receiver, a receiver connection means or a sound tube, an ear piece and a signal processing unit, via a power supply unit with a repeatedly rechargeable power ^¬ means and a control and control means, and a switching ^¬ medium. The switching means can assume at least two switching states, wherein, depending on the switching state of the switching means Tels, the control and monitoring means can put the hearing instrument in ei ^¬ nen shutdown. By using a repeatedly rechargeable energy supply means, such as a rechargeable battery, a battery pack or a capacitor, the maintenance of the hearing instrument can be simplified because the power supply means for loading in the hearing instrument can ver ^¬ remain. Commonly employed not wiederaufladba ^¬ re batteries after they have their electrical energy given off ^¬ be replaced by new ones. These customarily, an integrated into the hearing body housing battery ^¬ flap is opened, thereby dirt can be a ^¬ invade the hearing instrument. Battery flaps usually additionally fulfill the function of connecting or disconnecting the battery with the electronics of the hearing instrument. The run with the repeated auflad- cash power supply means hearing instrument ver ^¬ adds a command and control means, also known as Ener ^¬ gieverwaltungsmittel, Eng. Power Management Means or Power Management Modules, can be referred to, and over that

Switching means whose state can be queried by the control and monitoring means. The switching means is in a certain, predetermined state, the monitoring and control means switches the hearing instrument in a Abschaltzu ^¬ stand, which is characterized by no or a very low Leistungsauf ^¬ acquisition by the hearing instrument. The signal processing unit may comprise all electronic functions except, if applicable, power management functions.

It is conceivable that the repeatedly rechargeable energy supply means of the hearing instrument in the off state is rechargeable.

For example, the hearing instrument can be placed in the off state in a charging cradle and charged by an inductive charging process, which is controlled or regulated in particular by the control and monitoring ^¬ medium. _π

 5

Preferably, the control and monitoring means for controlling at least one connection between the power supply ^¬ medium and the signal processing unit in response to the switching state of the switching means designed.

Control may in particular mean an interruption of the connection between the power supply means and the signal processing unit ^¬ so that no Leistungsentnah ^¬ me occurs.

In an advantageous development, the power supply unit to protect against contamination permanently within the Hörgeräterumpfgehäuses can be arranged or arranged. Under permanent here is the duration of several or many

To understand charging or operating cycles or the life or service life of the energy supply means. A perma ^¬ nent duration limited to batteries from being removed if they are "empty". A great advantage of repeatedly charging energy supply means compared to disposable batteries is that they do not have to be removed after the discharge and thus that the requirement of a battery door ent falls ^¬ . Further connections of the power supply means may be installed within the hearing aid housing or, if necessary, be accessible only from small outside contact surfaces, whereby the risk of contamination of the interior of the Hörgeräterumpfgehäuses is greatly reduced.

In a further advantageous embodiment, the switching means comprises a means of the group of buttons, switches, wire connection and influenced by a magnetic field switch.

A button may for example comprise a kind of flip-flop, so that an actuation of the button can be stored. Thus, pushing and releasing the button may define a first switching state and a second pressing and releasing the button may indicate a second switching state define. This can control the switching status of the hearing instrument from ^¬ the command and control means as a function of the switching states of the switching means. The switching means may be designed as a wire connection, through which a

Circuit can be closed or opened. A switch which can be influenced by a magnetic field is, for example, a per se known reed switch or reed contact, in which contact tongues of mostly an iron-nickel alloy are magnetically actuated and thus establish a connection.

With particular advantage, the switching means can be operated by a Nut ^¬ zer.

With this feature, press the switch means and set the hearing instrument in the From ^¬ switching state a user, such as a hearing aid, if it ^¬ In game does not need the hearing instrument to.

It is proposed that the switching means comprises an openable lid that fits the surface of the flap in the CLOSED state ^¬ Senen adapted to the shape of the hearing aid fuselage housing.

Users of hearing instruments are accustomed to selecting a function of the hearing instrument, for example, by opening a battery door of a standard hearing instrument. Even if a battery door as such is no longer necessary as such by one of the hearing instruments according to the invention, it may be advantageous to a battery flap-like

Switching means, i. a switching means with an apparent

Flap to provide to maintain a familiar operation on the Öff ^¬ nen and closing this flap. A flap with adapted to the shape of the hearing body housing upper ^¬ surface, ie a surface that substantially matches the shape of the hearing body housing is complacent and can help prevent injury and damage. A further advantageous embodiment provides that the switching means in the open state includes a switching state to ^¬, in which a line connection is interrupted at least.

An interrupted line connection is advantageous since it is possible to achieve ^¬ high resistance, which promotes a shutdown with low power draw. In an alternative embodiment of the invention, the switching means is additionally designed for opening and closing at least one connection between the power supply means and the signal processing unit. By means of a switching means, for example a wire bridge, which can interrupt an electrical connection, for example a connection to a positive operating voltage, between the energy supply means, eg an accumulator, and the signal processing unit, eg an electronic circuit, an effective cut-off state can be achieved.

It is conceivable that the switching means is adapted for opening and closing ^¬ SEN of three or four connections, in which two connections for connecting the power supply means to the signal processing unit and / or to the monitoring and control means are designed.

Three electrical connections two electrical compounds may relate to a positive and a negative operating voltage, the third electrical connection may embodiment example ^¬ to a contact of the control and monitoring means ge ^¬ leads be of steu ^¬ ert the shutdown of the hearing device. Four electrical connections For example, two electrical connections can again relate to a positive and a negative operating voltage, and the third and fourth electrical connections can, for example, connect two contacts of the control and monitoring means and thus control the switch-off state of the hearing instrument. In an advantageous development of the invention, the switching means on a first component and a second component wherein the first component of the switching means is arranged at a first component of the hearing device, and where disposed on a second component of the hearing device, wherein the second component of the switching means ^¬. By a Re ^¬ lativbewegung between the first component of the hearing instrument and the second component of the hearing aid, the switching state of the switching means can be changed.

In this embodiment of the invention, the switching means consists of two components or parts which are arranged on different objects or components of the hearing instrument, wherein the components can perform a relative movement to each other. For example, the switching means may be a contact pin which can be inserted into a spring clip or a plug connector which can be closed or revealed by the relative movement. The components of the switching means can be arranged for example on the power supply unit ^¬, on or in the hearing aid housing body or on or in a battery-flap-like flap. The relative movement may be a pushing movement or a turning or tilting movement.

In a further advantageous embodiment, the hearing instrument has at least one sealing device. Due to this sealing device, the switching means is sealable at least in a ge ^¬ closed switching state.

Silicone-containing sealing rings or sealing caps, for example, protect the switching device against dirt, moisture and sweat. If the switching means designed in two parts and is based the closing operation of the switching means on a relative movement of the two parts, the sealing effect, for example, during a closing operation by ei ^¬ NEN positive contact of the sealing ring can be made with a part of the switching means. In a further advantageous embodiment, the hearing instrument has at least one sealing device and an activatable limiting means. By means of the activated limiting means, the relative movement between the first component of the hearing instrument and the second component of the hearing instrument is limited, and the sealing means seals the switching means in an open switching state. A limiting means limits a relative movement between the two components of the hearing instrument, without affecting the switching action of the circuit means. With the feature of this embodiment it is achieved that the sealing means, even in the open switching state, ie when the deflection of the relative movement is generally greater than in a closed switching state, the sealing effect of

Sealing device still exists. A limiting means may for example be a mechanical stop. The limiting ^¬ medium limited only in an activated state move the gauge. In a non-activated state, the relative movement of two components of the hearing instrument can therefore be greater and the sealing effect of the sealing device need not necessarily be maintained. This may result in three states of the hearing instrument: a first, in which the switching means is in a closed state and the

Switching means is sealed by the sealing device, ei ^¬ NEN second, wherein the switching means is in an open state and the switching means is sealed by the sealing ^{¬ off} and a third, wherein the switching means is in an open state and the switching means by the sealing means not sealed.

It has proved to be advantageous if the energy supply means comprises an accumulator which comprises lithium.

Lithium-containing accumulators are, for example, lithium-ion accumulators and lithium-polymer accumulators. These have a high energy density and a high charging efficiency. grad, making them very well suited for hearing instruments. The disadvantage is that they are sensitive, for example, with respect to the operation, in particular the discharge currents and the Entladehubs, and the charge, in particular the end-of-charge voltage and the strength of the charging currents, and are therefore monitored as possible in these modes, for example by a control and monitoring means. In particular, if a Hörin ^¬ instrument for a long period of time, for example, during storage before the sale is not used, one of the previously described hearing instruments of the invention is of great advantage, as brought by bringing the hearing instrument in the Abschaltzu ^¬ stand a deep discharge and thus Degradation or even destruction of the accumulator can be avoided. Another basic idea of the invention is a power supply unit for a hearing instrument, comprising a repeatedly chargeable energy supply means and a control and monitoring means, wherein the power supply unit together with a hearing aid housing, at least one microphone, a receiver, a receiver connection means or a

Sound tube, an ear piece, a signal processing unit and a switching means forms one of the hearing instruments described above. This basic idea of the invention describes a Stromver ^¬ sorgungseinheit which is locatable in a hearing instrument and a lithium-ion battery, a repeatedly chargeable power supply means, for example, and a monitoring and control means comprising the reading out of a state of a switching means a shutdown of the Hörinstru ^¬ ment can control. Further embodiments of this basic idea result from analogous transfers of features from the previously described embodiments of the hearing instruments according to the invention.

The embodiments described in more detail below represent preferred embodiments of the present invention. Further advantageous developments will become apparent from the following figures, including description. 1 shows schematically and by way of example a hearing aid according to the invention

 Prior art in a plan view;

Fig. 2 schematically and by way of example an inventive

 Hearing instrument in a plan view;

3 schematically and by way of example a power supply ^¬ unit and a switching means for controlling the power supply unit; Fig. 4 shows schematically and by way of example a switching means for

Controlling a power supply unit which controls Ver ^¬ connections between a power supply means, and a monitoring and control means; Fig. 5 schematically and by way of example a switching means for

Controlling a power supply unit, which Ver ^¬ connections between a power supply means and a signal processing unit controls; 6 shows schematically and by way of example a switching means with three ports in an opened state;

Fig. 7 shows schematically and by way of example a switching means with three ports in a conducting state;

8 shows schematically and by way of example a switching means with four ports in an opened state;

9 shows schematically and by way of example a switching means with four ports in a conducting state; 10 shows schematically and exemplarily an inventive hearing device with a switch means in a ge ^¬ closed, sealed condition.

Fig. 11 schematically and by way of example an inventive

Hearing device with a switch means in a offe ^¬ NEN, sealed condition; Fig. 12 schematically and by way of example an inventive

Hearing device with a switching means in an offe ^¬ nen, unsealed condition.

Figure 1 shows schematically a behind-the-ear hearing aid 1 'according to the prior art. It comprises a behind the auricle 17 of a hearing aid to be worn hearing aids body housing 2. In the hearing device body housing 2, in addition to electro ^¬ African components standardized to a Signalverarbeitungsein- are summarized 7 ', two microphones 3, a Batte ^¬ rie 12 ^λ and a Receiver 4 arranged. The acoustic signal generated by the receiver 4 is passed through a sound tube 5 to an ear piece 6, which is inserted into an ear canal 18 of the hearing aid wearer. At Hörgeräterumpfgehäuse 2, a control element 11 is arranged, which can affect the Signalverarbei ^¬ processing unit 1 '.

In Figure 2 is schematically and exemplarily a erfindungsge ^¬ mäßes Hörmittel 1, here a behind-the-ear hearing aid, shown in a plan view. It comprises a to be worn behind a Ohrmu ^¬ shel 17 of a hearing device wearer Hörgeräterumpf- housing 2, two microphones 3, a receiver 4, a sound ^¬ hose 5, an earpiece 6, a power supply unit 20 and a signal processing unit 7, the electronic com- ponents comprising , The acoustic ^¬ Sig nal generated by the receiver 4 passes ^¬ ge through the sound tube 5 to the earpiece 6, which is inserted into an ear canal 18 of the hearing device wearer. On Hörgeräterumpfgehäuse 2 is a control element 11th arranged, which can influence the signal processing unit 7. The power supply unit 20 includes a non Darge ^¬ notified repeatedly rechargeable power supply means, here a lithium polymer battery, and a command and control means. The hearing instrument 1 further includes

Switching means comprising a flap 28. The Schaltmit ^¬ tel is set for the adoption of at least two switching states ^¬ and the control and monitoring means is adapted to control a switch-off state of the hearing instrument 1 in response to the switching state of the switching means. The power ^¬ supply unit 20 is arranged to protect from contamination perma nent ^¬ within the hearing aid housing body. 2 The surface of the open flap 28 of the switching means is adapted in the closed state to the shape of the Hörgeräterumpfgehäu- ses 2.

Figure 3 shows schematically and exemplarily a power supply unit 20 and switching means 26 for controlling the power supply unit 20. The power supply unit 20 in turn comprises a power supply means 22 to In ^¬ play an accumulator, and a monitoring and control means 24, for example an electronic circuit. The Schaltmit ^¬ tel 26, here a switch or a closer, can assume two states in this embodiment, an open or high-impedance and a closed or conductive state. The control and monitoring means 24 is designed, depending on the switching state of the switching means 26, a shut-off state of a hearing instrument, here schematically by a signal processing unit 7, as a consumer of electrical power of the hearing instrument, indicated to control. The control takes place in this embodiment, characterized in that when detecting the open state of the Schaltmit ^{¬ means} 26 supply lines, for example, a positive and a negative supply voltage, from the power supply means 22 to the signal processing unit 7 by the control and monitoring means 24 are interrupted indicated by two open switches in the control and Kontrollmit ^¬ tel 24. By opening the electrical connections the signal processing unit 7 de-energized and the Hörinstru ^¬ ment is in a shutdown.

In Figure 4 is schematically, and by way of example a Schaltmit- tel 26 for controlling a power supply unit 20 that again a power supply means 22, and a monitoring and control means 24, for example, an electronic circuit to summarizes ^¬ shown. The switching means 26 has three switches which control connections between the power supply means 22 and the control and monitoring means 24. In FIG. 4, the switches are shown in a non-conductive or open state. Supply lines, for example a positive and a negative supply voltage, from the power supply means 22 to the control and monitoring means 24 are interrupted, as is a control line, indicated by a signal which is applied to the top of the control and monitoring ^¬ means 24. By this de-energized state of the STEU ^¬ ER and control means 24 is a signal processing unit 7, as essential current sink of a hearing device, is also de-energized and is located in a Abschaltzu ^¬ stand.

Figure 5 schematically shows another example of a switching ^¬ means 26 20 for controlling a power supply unit, the power supply unit 20 includes a repeated boots, ^¬ bares power supply means 22 such as an accumulator, and a monitoring and control means 24. By Schaltmit ^¬ tel 26 may electric Controlled connections between the power supply means 22 and a signal processing unit 7, ie open or closed, are. In the illustrated state, the signal processing unit 7, in particular the power supply lines, is disconnected from the power supply means 22, whereby the hearing instrument is in a shutdown state. At the same time is also a control line, indicated by a signal at the top of the

Control and monitoring means 24 is applied, high impedance, whereby the control and monitoring means 24 itself in a shutdown state can go over, in which the control and monitoring means 24 receives no or very little electrical power.

It is also conceivable that the repeatedly chargeable energy sorgungsmittel 22 of the hearing device is in the off on ^¬ loadable. For example, the hearing instrument in Ab can ^¬ switching state be placed in a charging cradle and loaded by an inductive charging process which is regulated in particular by the command and control means 24.

In Figure 6 and Figure 7 schematically and in ^¬ way of example are provided a switch means 26 with three ports in a geöff ^¬ Neten state or in a conductive state is ^¬. By the switching means 26, a connector 35 of a positive operating voltage of a Energieversorgungsmit ^¬ means of a connector 34 of a positive operating voltage of a power supply unit 20 and a terminal 31 to a negative operating voltage of the power supply means to a terminal 30 to a negative operating voltage of the

Power supply unit 20 connected. Similarly, the An ^¬ circuit 31 of the negative operating voltage of the power supply means with a control terminal 32 of the Stromversor ^¬ supply unit 20 is connected. In a closed state of the switching means 26, the negative operating voltage of the power supply means to the Kontrollan ^¬ circuit 32 is thus applied, in an open state of the control terminal 32 is high impedance. The power supply unit 20, in particular ^¬ sondere a monitoring and control means of the power supply ^¬ unit 20 may vary depending on the switching state of the

Switching means 26 control a shutdown of a Hörinstru ^¬ ment.

FIG. 8 and FIG. 9 respectively show schematically and by way of example a switching means 26 with four ports in an opened state or in a conducting state.

By the switching means 26 are a terminal 35 of a positi ^¬ ven operating voltage of a power supply means with ei ^¬ nem terminal 34 a positive operating voltage Power supply unit 20 and a terminal 31 of a negati ^¬ ven operating voltage of the power supply means with a terminal 30 of a negative operating voltage of the power supply unit 20 connectable. As it is by a

Wire bridge 33 a control ^terminal 32 of the power supply ^¬ unit 20 with another control terminal 32 ^λ the

Power supply unit 20 connected. In a closed state of the switching means 26 is thus concluded the Kontrollan ^¬ circuit 32 ^λ to the further control terminal 32 are short-circuited, in an open state of the control terminal 32 and the other control terminal are high impedance. The power supply unit 20, in particular a monitoring and control means of the power supply unit 20 can, in depen ^¬ dependence on the switching state of the switching means 26 a switch-off state control of a hearing device.

FIG. 10, FIG. 11 and FIG. 12 each show schematically and by way of example a hearing device 1 according to the invention, here a behind-the-ear hearing device, with a switching means 26 in a closed, sealed state, in an open, sealed state and in FIG an open, unsealed condition. The hearing aid 1 comprises inter alia a Hörge ^¬ councils body housing 2 and a power supply unit 20 which is connected to a flap 28th The Stromversorgungsein- standardized 20 includes a not-shown repeatedly aufladba ^¬ res power supply means such as a lithium-ion battery, and a non-illustrated control and Cont ^¬ roll medium. Although the power supply unit 20 need not be accessible in the usual use of a hearing instrument user, the flap 28 is similar to a battery door of a conventional hearing aid designed to provide the user with a familiar operation of the hearing aid. In particular, the flap 28 comprises an axis 29 through which a Relativbewe ^¬ tion of the flap 28 is executable. In this exemplary embodiment, the switching means 26 consists of two components or parts which are arranged on different objects or components of the hearing instrument 1. The first component 26 ^{λ of} the switching means 26, here pins, is at the current Supply unit 20 is arranged, the second component 26 ^{λ λ of} the switching means 26, here a spring clip, is arranged on the hearing device body ^¬ housing 2. In the Darge in Figure 10 ^¬ erected state, the flap 28 is closed and the upper surface of the flap 28 is adapted to the shape of the hearing device body housing 2 in the closed state. The hearing instrument 1 has two sealing devices, by which the Schaltmit ^¬ tel 26 is sealed in the closed switching state. The first sealing device 40 is a sealing lip made of rubber, which is arranged on the flap 28 and in the closed state of the flap 28 circumferentially clings to the inside of the Hörge ^¬ räterumpfgehäuses 2. The second Dichteinrich ^¬ device 42 is a silicone-containing sealing ring, which is arranged in the interior of the hearing aid housing 2 and circumferentially form-fitting manner a part of the power supply unit 20, at the end of the first part 26 ^{λ of} the switching means 26 angeord ^¬ net seals. A limiting means 44 in the form of a tongue, which is arranged on the flap 28, engages in the hearing aid housing 2. In the closed state of the hearing instrument 1 have a slot 46 of the Begrenzungsmit ^{¬ means} 44 and a pin 48, which is arranged on the hearing aid housing 2 and ^¬ engages in the slot 46, for solving the problem of the invention no essential function. 11 shows the hearing device 1 of figure 10 in a ^¬ of fenen, sealed condition. The respective components with associated reference numerals of both figures are the same. In this state, the flap 28 is slightly opened. The opening that results from a relative movement 50, is sufficient to the switching means 26 from the closed state to the of ^¬ fenen state, which is characterized in that the first component 26 ^λ of the switching means 26 is not in contact with the second component 26 ^{λ λ of} the switching means 26 is to over ^¬ lead. The switching means 26 can thus be operated, controlled or influenced by a user. The relative movement 50 is limited by the limiting means 44, since the Zap ^¬ fen 48 at one end of the slot 46 of the ^{Begrenzungsmit ¬ means} 44 blocks further opening of the flap 28. In the- sem state, the switching means 26 is opened and the flap 28 is open, but nevertheless the hearing instrument 1 is in a sealed state, because by the limitation of the relative movement 50 by the limiting means 44, the first sealing means 40 and the second sealing means 42 perform the same sealing function as in the closed state. That is, even in the open state of the switching means 26, the power supply unit 20 and in particular the switching means 26 are protected against dirt, moisture and sweat, wherein the switching action of the circuit means 26 is not affected by the limiting means 44. In contrast to conventional hearing instruments that need to be opened to replace empty batteries, this state can be maintained over many charging cycles of the power supply unit 20.

FIG. 12 shows the hearing instrument 1 of FIG. 10 and FIG. 11 in an open, unsealed condition. The respective components with associated reference characters of the three figures are the same. The limiting means 44 limits in an activated state, a relative movement of the flap 28. In a non-activated state, which can be brought from the figure 11 at ^¬ example by the removal of the pin 48, the relative motion 50 may be ^λ of the flap 28 is greater when the Relativbewe ^¬ supply 50 from the Figure 11, consists in this state, no sealing action by the first sealing means 40 or by the second sealing means 42. It is envisaged that this state in which the hearing device 1 is not protected from dirt and moisture , For example, for a program ^¬ tion of the hearing instrument by a hearing care professional or for the replacement of a defective power supply unit 20 is used. The transfer of the Begrenzungsmit ^¬ means of 44 of an active can be in a non-active state by appropriate design measures, such as what is necessary ^¬ nis of special tools, can be limited to specialists so that in daily use of the hearing device 1, only the occur in the Figure 10 and Figure 11 states shown in which the hearing instrument is sealed.

In summary, further embodiments and advantages of the invention will be described. Hearing instruments with a built-in hearing aid power supply unit, for example in the form of a so-called Li-Ion Power Module, for example, offer advantages in maintenance, since the power supply unit ^¬ protected embedded in the housing of the hearing instrument. Such a power supply unit advantageously has at least two operating modes: an active mode in which the hearing instrument is supplied with electrical energy and a switch-off mode in which the power supply unit is more or less switched off and no current flows. The shutdown mode is especially for warehousing, engl.

shelf life, important to avoid a deep discharge of a battery of the power supply unit. Also a user of the hearing instrument should be able to switch between these two operating modes. The invention describes several alternatives as to how advantageously control of the modes could be carried out.

In one embodiment of the invention, the power supply unit, also Engl. Power module called, a rechargeable power supply means, such as an accumulator, and a control and monitoring means, which may be implemented as an integrated, electrical circuit, for example in the form of a power management ICs. The power management IC may comprise a dedicated pin of the condition, such as depending ent ^¬ separates from a voltage value or a resistance value, whether the power supply unit and thus the Hörin ^¬ instrument in the active mode or in the power-down mode is operated. In one embodiment, the power supply unit is similar to a known ^¬ battery holder within a housing placed and a switching means is in the form of a known battery cover or battery lid. Since the power supply unit is such as a battery gewech ^¬ rare, they may be up to any contacts versie- be protected against sweat, moisture and other dirt. If the switching means in the form ei ^¬ ner battery door is slightly open, there is no contact between the power supply unit and contact holders of the hearing instrument, whereby the dedicated pin of the control and monitoring means is contactless and the power supply ^¬ unit placed in the off state. By closing the switch means in the form of a battery door contacts the power supply unit are pushed into the contact holders of Hörin- struments, whereby the dedicated pin of the command and control means contacted and Stromversorgungsein ^¬ ness leaves the shutdown.

Alternatively, an additional switch or a button on the hearing device may be arranged to enable the power supply ^¬ unit into a shutdown mode.

Claims

claims

, Hearing instrument (1) comprising

 a hearing aid housing (2),

 at least one microphone (3),

 a receiver (4),

 a receiver connection means or a sound tube (5),

an ear piece (6),

 - A power supply unit (20), and

 a signal processing unit (7),

 characterized,

^• that the power supply unit (20) is on again

chargeable energy supply means (22) and a control ^¬ and control means (24),

^• that the hearing device (1) gives a switching means (26) to ^¬, wherein the switching means (26) is adapted to accept we ^¬ nigstens two switching states,

^• that the control and monitoring means (24) is designed as a function of the switching state of the switching means (26) for controlling a switched-off state of the hearing device (1),

^• that the switching means (26) comprises a first component (26 ^λ ), which is arranged on a first component (2, 20, 28) of the hearing instrument (1) and that the switching ^¬ medium (26) a second component (26 ^λ having ^λ), which (to a second component 2, 20, 28) of the Hörinstru ^¬ mentes (1) is arranged and that by a relative ^¬ motion (50) between the first component (2, 20, (28) of the hearing device, 1) and the second component

 (2, 20, 28) of the hearing instrument (1) the switching state of the switching means (26) is changeable,

^• that the hearing device (1) at least one Dichteinrich ^¬ device (40, 42) and an activatable limiting means (46, 48), wherein by the Begrenzungsmit ^¬ tel (46, 48) in an activated state, the Relativbe ^¬ movement (50) between the first component (2, 20, 28) of the hearing instrument (1) and the second component

(2, 20, 28) of the hearing instrument (1) is limited, and wherein by the limitation of the relative movement (50) by the limiting means (46, 48) and by the

 Sealing means (40, 42) the switching means (26) is sealed in an open switching state, and

· That by the sealing device (40, 42) the Schaltmit ^¬ tel (26) is sealed in a closed switching state.

2. Hearing instrument according to claim 1, characterized in that a transfer of the limiting means (46, 48) is limited from the activated state to a non-activated state by constructive measures on skilled workers.

3. hearing instrument (1), comprising a hearing aid housing (2), at least one microphone (3), a receiver (4), a receiver connection means or a sound tube (5), a

Ear piece (6), a power supply unit (20) and a Sig ^¬ nalverarbeitungseinheit (7), characterized in that the power supply unit (20) comprises a repeatedly chargeable energy gieversorgungsmittel (22) and a control and Kontrollmit ^¬ tel (24) and that the hearing device (1) comprises a switching ^¬ medium (26), wherein the switching means (26) is adapted to accept at least two switching states, and that the monitoring and control means (24) as a function of the

Switching state of the switching means (26) for controlling a Ab ^¬ switching state of the hearing instrument (1), is designed.

4. Hearing instrument (1) according to one of claims 1 to 3, since ^¬ characterized in that the repeatedly rechargeable energy supply means (22) of the hearing instrument (1) in Abschaltzu ^¬ stand is rechargeable.

5. Hearing instrument (1) according to one of claims 1 to 4, characterized ^{¬ in} that the control and Kontrollmit- tel (24) for controlling at least one electrical connection between the power supply means (22) and the Sig ^¬ nalverarbeitungseinheit (7) depending on the Schaltzu ^¬ states of the switching means (26) is designed.

6. Hearing instrument (1) according to one of claims 1 to 5, since ^¬ characterized in that the power supply unit (20) for protection against contamination permanently within the hearing aid hull housing (2) can be arranged.

7. hearing instrument (1) according to one of claims 1 to 6, ^¬ characterized in that the switching means (26) comprises a means of the group of buttons, switches, wire connection and influenced by a magnetic field switch.

8. hearing instrument (1) according to one of claims 1 to 7, since ^¬ characterized in that the switching means (26) is operable by a user.

9. Hearing instrument (1) according to one of claims 1 to 8, since ^¬ characterized in that the switching means (26) has a

open flap (28), wherein the surface of the Klap ^¬ pe (28) is adapted in the closed state to the shape of the Hörgeräte- rümpfgehäuses (2).

10. hearing instrument (1) according to one of claims 1 to 9, ^¬ characterized in that the switching means (26) in the open ^¬ th state has a switching state in which at least one electrical line connection is interrupted.

11. Hearing instrument (1) according to claim 10, characterized in that the switching means (26) in addition to opening and closing at least one electrical connection between the power supply means (22) and the Signalverarbei ^¬ processing unit (7) is designed.

12. A hearing aid (1) according to claim 11, characterized in that the switching means is designed for opening and closing of three or four electrical connections, wherein two electrical connections for connecting the power supply means (22) to the signal processing unit (7) and / or with the control and monitoring means (24) are designed.

13. Hearing instrument (1) according to one of claims 1 to 12, since ^¬ characterized in that the energy supply means (22) comprises an accumulator which comprises lithium.

14. Power supply unit (20) for a hearing instrument (1), comprising a repeatedly rechargeable Energieversorgungsmit ^¬ tel (22) and a control and monitoring means (24), characterized in that the power supply unit (20) together with a Hörgeräterumpfgehäuse (2) , at least one micro ^¬ fon (3), a receiver (4), a handset connection means and a sound tube (5), an earpiece (6), a Sig nalverarbeitungseinheit (7) and a switching means (26) is a hearing device (1) according to one of claims 1 to 13 forms.