METHOD FOR PRODUCING A HEARING AID WITH AN ANTENNA MODULE, AND HEARING AID

Abstract

A hearing aid, in particular an in-the-ear hearing aid, has a housing in which an antenna module is arranged. The antenna module has a winding and a receptacle space in which an electronic component, such as an earphone, is arranged. The antenna module is prefabricated in that an assembly body is provided to which a magnetic layer and then the winding are applied. The assembly body defines the receptacle space and is designed for this purpose optionally as a tubular hollow body having a cavity forming the receptacle space or the assembly body is alternatively removed so that the receptacle space is formed by the removal. The electrical component is then inserted into the receptacle space of the prefabricated antenna module and the unit, consisting of the component and the antenna module, is placed in the housing.

Claims

1. A method for producing a hearing aid with a housing and an antenna module arranged in the housing, the antenna module having a receptacle space, and an electronic component of the hearing aid arranged in the receptacle space, the method comprising: producing a prefinished antenna module by: providing an assembly body; applying a magnetic layer to the assembly body and subsequently applying a winding to the assembly body; the assembly body defining the receptacle space; alternatively forming the assembly body as a sleeve-shaped hollow body having a cavity defining the receptacle space or removing the assembly body to define the receptacle space being a free space formed by a removal of the assembly body; subsequently introducing the electrical component into the receptacle space of the prefinished antenna module; and placing a unit formed by the electrical component and the antenna module into the housing.

2. The method according to claim 1, wherein the receptacle space and the electrical component extend in a longitudinal direction and each has a length and wherein the magnetic layer has at least one tab, which extends beyond the length of the receptacle space or the electrical component, and which delimits an intermediate space in the housing.

3. The method according to claim 1, which comprises forming an electrical shielding layer.

4. The method according to claim 1, which comprises providing an assembly body having a greater length than the electrical component.

5. The method according to claim 1, which comprises providing an assembly body having a winding region and a tab region adjoining thereon, and laying the at least one tab in a strip shape at the tab region.

6. The method according to claim 5, wherein the assembly body has a stop protruding in the radial direction opposite the tab region and adjoining the winding region.

7. The method according to claim 1, which comprises providing an adapter housing and pushing the adapter housing over a winding region and the winding located therein, or around which the winding is applied.

8. The method according to claim 1, which comprises providing a printed circuit board with contact surfaces, laying the printed circuit board on the assembly body and subsequently applying the winding and contacting the winding with the contact surfaces.

9. The method according to claim 8, which comprises providing the printed circuit board with a shielding layer.

10. The method according to claim 1, which comprises providing the assembly body formed as a hollow body and pushing the hollow body over the component, wherein the magnetic layer is arranged between the hollow body and the component.

11. The method according to claim 10, which comprises providing the hollow body with connection points for connecting a wire.

12. A method for producing an antenna module for a hearing aid, the antenna module having a receptacle space for receiving an electronic component, the method comprising: providing an assembly body; applying a magnetic layer to the assembly body and subsequently applying a winding to the assembly body; and defining the receptacle space with the assembly body by alternatively: forming the assembly body as a hollow body having a cavity defining the receptacle space or removing the assembly body to create a free space defining the receptacle space.

13. A hearing aid, comprising: a housing; at least one electrical component arranged in said housing and extending in a longitudinal direction; an antenna module disposed in said housing, said antenna module being formed with a receptacle space in which said electrical component is arranged and said antenna module having a winding that is at least indirectly arranged on said electrical component and having a magnetic layer arranged between said winding and said electrical component; said magnetic layer having a subsection arranged on said electrical component and at least one tab adjoining said subsection in the longitudinal direction, said at least one tab protruding in the longitudinal direction beyond said electrical component, and said tab delimiting an intermediate space adjoining said electrical component in the longitudinal direction.

14. The hearing aid according to claim 13, which comprises an adapter housing that is slipped at least partially over said electrical component and passes through a wall of said housing.

15. The hearing aid according to claim 14, wherein said adapter housing is formed with a stop abutting against the wall of said housing.

16. The hearing aid according to claim 13, further comprising a printed circuit board having contact surfaces in electrical contact with said winding.

17. The hearing aid according to claim 16, wherein said printed circuit board has a winding section and a tab section, said contact surfaces are arranged in said winding section and conductor tracks extend from said contact surfaces into said tab section.

18. The hearing aid according to claim 16, wherein said magnetic layer is placed between said printed circuit board and said winding and said magnetic layer is formed with windows in a region of said contact surfaces for contacting said winding.

19. The hearing aid according to claim 13, further comprising a printed circuit board having a winding section and at least one tab section, wherein said winding section is arranged in a region of said electrical component and a tab of said magnetic layer is arranged on said at least one tab section.

20. The hearing aid according to claim 13, wherein said winding extends in the longitudinal direction over a given winding length, which is shorter than a length of said electrical component and wherein said winding is arranged in a region of an inner end of said electrical component.

Description

BRIEF DESCRIPTION OF THE FIGURES

[0077] FIG. 1 shows an illustration of a housing of an ITE hearing aid device having an antenna arrangement inserted therein;

[0078] FIGS. 2A-2G are perspective illustrations to explain a first variant of the production of an antenna module;

[0079] FIG. 3A is a perspective illustration to explain a second variant of the production of an antenna module;

[0080] FIG. 3B is a plan view of a printed circuit board used for the variant of FIG. 3A;

[0081] FIGS. 4A-4D show illustrations to explain a third variant of the production of an antenna module;

[0082] FIGS. 5A-5D show illustrations to explain a fourth variant of the production of an antenna module; and

[0083] FIGS. 6A-6D show illustrations to explain a fifth variant of the production of an antenna module.

[0084] Identically acting parts are provided with identical reference signs throughout the figures.

DETAILED DESCRIPTION OF THE INVENTION

[0085] Referring now to the figures of the drawing in detail and first, in particular, to FIG. 1 thereof, there is shown a partial view of an ITE (in-the-ear) hearing aid device 1. The device has a housing 2. The housing 2 has a first housing section 2A and a second housing section 2B adjoining thereon. The first housing section 2A extends from an eardrum-side end in the direction toward the second housing section 2B, which ends at a side facing away from the eardrum side. The first housing section 2A is designed to be at least partially inserted into the auditory canal of a person, who may be hearing-impaired. Starting from the first housing section 2A, the second housing section 2B adjoins thereon and widens as a whole. This also forms a widening interior 4.

[0086] The second housing section 2B has a comparatively extensive opening at the end. This is typically terminated by a so-called faceplate, thus a component carrier on which connections, operating elements, or also hearing components are often arranged. Further components (partially not illustrated further here), such as battery, signal processing unit, microphones, etc. are arranged in the housing 2.

[0087] The first housing section 2A has an opening 6 on the eardrum side at the end, from which sound exits in the direction toward the eardrum. A receiver 8 is typically inserted in the first housing section 2A as an electrical component, which extends at least somewhat into the opening 6 (the receiver 8 is not shown in FIG. 1). An antenna module 7 also referred to as an antenna arrangement is thus inserted inside the housing 2, which has as essential components a shielding foil 10 and a winding 12 formed as a coil. The winding 12 and a part of the shielding foil 10 enclose a receptacle space 11, in which the receiver 8 is arranged in the installed state. The winding 12 is only arranged in the region of the receiver 8 here. This and thus the receptacle space 11 enclosed by the winding 12 extend here in a longitudinal direction 14, which is oriented away from the eardrum side of the housing 2.

[0088] The shielding foil 10 generally has a subsection 16, which is laid circumferentially around the receiver 8. Viewed approximately in the longitudinal direction 14, individual (shielding) tabs 18, in which the shielding foil 10 is extended, adjoin this subsection 16. In the typical design of the receiver 8 as a cuboid component, one cuboid side is extended in each case by a respective tab 18. The individual tabs 18 are separated from one another at least outside the subsection 16. The winding 12 is only arranged around the shielding foil 10 in the region of the subsection 16.

[0089] Adjoining the subsection 16, the tabs 18 widen, so that thus an intermediate space 20 formed between them—viewed in the longitudinal direction 14—widens. To enable this, the respective tabs 18 the respective tab 18 is, for example, bent or curved at the transition between a respective tab 18 to the subsection 16.

[0090] In particular, the individual tabs 18 cling to an inner wall 24 of the housing 2, especially in the region of the second, widening housing section 2B. The tabs 18 are preferably fastened at least in points or also in a planar manner on the inner wall, in particular by adhesive bonding.

[0091] The shielding foil 10 is formed in multiple layers and has at least two layers, namely a magnetic layer 26, which is formed in particular by one or more ferrite foils, and an electrical shielding layer 28, which is formed in particular by a foil or layer having good electrical conductivity. The electrically conductive material is in particular copper. The electrical shielding layer is oriented here in the direction toward the receiver 8 and the magnetic layer 26 is arranged between the electrical shielding layer 28 and the winding 12.

[0092] In a first embodiment variant, the shielding foil 10 is formed by the electrical shielding layer 28, in particular copper foil, and the magnetic layer 26 attached thereon, in particular by adhesive bonding. This layer is applied, for example, over the full surface to the shielding layer 28. The magnetic layer 26 is preferably formed, however, by individual strips extending in the longitudinal direction, which are applied individually to the electrical shielding layer (in particular copper foil) 28. These individual strips 30 are each foil-like strips, especially ferrite foil strips.

[0093] The production of the antenna module 7 and different embodiment variants of the antenna module 7 are explained in more detail hereinafter on the basis of FIGS. 2-6.

[0094] In all variants described hereinafter, an assembly body 40 is used, which is used either solely as an auxiliary element and is removed after the production of the antenna module 7 (variant according to FIG. 2), or it is part of the antenna module 7 (embodiment variant according to FIGS. 3-6). In principle, the production of the antenna module 7 is carried out without the receiver 8. Alternatively thereto, the different configurations as are shown in FIGS. 2-6 can also in principle be achieved with the use of the receiver 8 during the production, however.

[0095] In the embodiment variant of FIG. 2, in particular a solid assembly body 40 is used, which extends in the longitudinal direction 14. On its eardrum-side end, it has a stop 42, which is adjoined first by a winding region 44 and then a tab region 46. The assembly body 40 has a length L1, which is longer than a length L2 of the receiver 8. In the tab region 46, the cuboid assembly body 40 has a web on each of the longitudinal edges, so that a groove or depression 48 is formed on each cuboid side in the tab region 46.

[0096] In a first step, the shielding foil 10 is laid around the assembly body 40. The shielding foil 10 is in particular a slotted foil comparable to the shielding foil 10, as shown in FIG. 2A. The eardrum-side subregion 16 is circumferential and a free tab 18 protrudes on each cuboid side.

[0097] In the illustrated exemplary embodiment, the stop 42 is part of a stop element which is pluggable into the remaining assembly body 40 by means of a pin. This stop element is removed in the next installation step (FIG. 2D). An adapter housing 50 is then pushed over the winding region 44 from the eardrum-side end. The adapter housing 50 has a sound outlet nozzle 52 at the eardrum-side end. In the next step shown in FIG. 2F, finally the assembly body 40 is removed, so that the antenna module 7 is formed. In the receptacle space 11 now exposed by the assembly body 40, the receiver 8 is subsequently plugged in. The cross-sectional contour of the receptacle space 11 and thus also of the assembly body 40 is adapted to that of the receiver 8, so that it fits precisely fitted in the receptacle space 11 except for required installation tolerances.

[0098] The structural unit thus prepared consisting of antenna module 7 and receiver 8 is subsequently inserted into the housing 2. The sound outlet nozzle 52 passes through the eardrum-side opening 6 of the housing 2. The inner wall 24 of the housing 2 in the region of the opening 6 circumferentially encloses the adapter housing 50.

[0099] The antenna module 7, especially the winding 12, fundamentally has to be electrically connected to a non-illustrated further electronic component. To simplify the assembly of this electrical connection, in the embodiment variant according to FIG. 3, in particular a printed circuit board 54 is provided (FIG. 3B), this is, for example, shown in FIG. 3B as a strip-shaped element formed in the longitudinal direction 14, which is only formed to be arranged on one cuboid side. The printed circuit board 54 has an eardrum-side winding section 56 and a tab section 58 adjoining thereon in the longitudinal direction 14. The printed circuit board 54 is in particular a flexible printed circuit board foil. The tab section 58 can especially be curved or bent over in relation to the winding section 56, as shown by the dashed line.

[0100] For the production, the printed circuit board 54 is first laid on the assembly body 40. The assembly body can be, for example, the embodiment variant shown in FIG. 2. Subsequently, the magnetic layer 26 is applied and then the winding 12 is applied. The magnetic layer 26 is, for example, a slotted ferrite foil or also individual ferrite strips.

[0101] The printed circuit board 54 preferably has contact surfaces 60 spaced apart from one another in the longitudinal direction 14. The distance between these two contact surfaces 60 is greater than or equal to a winding length L3 of the winding 12. Winding ends (not shown in greater detail here) of the winding 12 are electrically contacted on these contact surfaces 60 by welding or soldering.

[0102] A conductor track 62 originates from each contact surface 60, which extends in the longitudinal direction 14 up into the tab section 58 and ends there at the end in particular at connection points 64 formed as connection pads. These are in particular arranged at the same height, but on the opposite side of the printed circuit board 4 in comparison to the contact surfaces 60. In the installed state, the connection points 64 are therefore oriented inward toward the intermediate space 20. They are typically used to connect a contact wire, which is then led to a further electronic component.

[0103] As can be inferred especially in conjunction with FIG. 3A, the magnetic layer 26 has windows 66 in the region of the contact surfaces 60 to enable the contacting of the winding ends with the contact surfaces 60.

[0104] According to one preferred variant, the printed circuit board 54 has a metal layer, which is full surface in particular, in particular a copper layer, and is thus designed to be multilayer as a whole. This copper layer in particular forms the electrical shielding layer 28, so that a simple (ferrite) foil is used for the magnetic layer 26, for example.

[0105] The following embodiment variants according to FIGS. 4-6 each show an assembly body 40 formed as a hollow body, which remains in the antenna module 7.

[0106] In the production variant according to FIG. 4, the assembly body 40 is formed as a sleeve, in particular made of an insulating material (plastic sleeve) (FIG. 4B); the winding 12 is wound around this, wherein connection points 64 are formed on one cuboid side. The magnetic layer 26, in particular the shielding foil 10, is laid directly around the receiver 8 in this embodiment variant. The unit thus prepared made up of receiver 8 and shielding foil 10 is subsequently inserted into the antenna module 7.

[0107] The eardrum-side end face of the receiver 8 can be seen in FIG. 4C. At this point, the receiver 8 has a sound outlet nozzle 53. At the opposite end, which is oriented in the installed state toward the intermediate space 20, a connection side is formed having multiple contact connections, which are also connected to a control unit to form electrical contacts and via which the activation of the receiver 8 takes place.

[0108] An embodiment variant modified from FIG. 4 is shown in FIG. 5. The assembly body 40 is again formed as a sleeve-shaped hollow body, in this exemplary embodiment preferably from an electrically conductive material, in particular from metal. The shielding foil 10 and then the winding 12 is first attached around this. In the receptacle space 7, which is formed in each case by the cavity of the assembly body 40, the receiver 8 is then inserted, as in the variant of FIG. 4. FIGS. 4D and 5D each show sectional illustrations of these two variants for the antenna module 7.

[0109] As can be seen especially on the basis of FIG. 4D, it is provided in one preferred variant that the winding length L3 of the winding 12 is less in some embodiment variants than the length L2 of the receiver 8. The winding 12 is in particular arranged here at an inner end of the receiver 8. This is understood as the end of the receiver 8 oriented toward the intermediate space 20, which thus faces away from the eardrum side.

[0110] The winding 12 is therefore spaced apart from the eardrum-side end of the receiver 8. The structural unit having the antenna module 7 and the receiver 8 is thus kept compact at the eardrum-side end, so that in this region the housing 2, which the structural unit also encloses, is also as compact as possible to occupy as little installation space as possible in the region of the upper channel. This variant is of particular interest in particular in the variants shown in FIGS. 4 and 5, in which the assembly body 40 remains as an additional component in the antenna module.

[0111] FIG. 6 shows a special variant, in which the adapter housing 50 at the same time defines the assembly body 40 formed as a hollow body. Therein, the winding 12 is wound on the outside of the adapter housing 50. A printed circuit board 54, is preferably again provided in this variant for contacting the winding 12, which has connection points 64 at the ends.

[0112] As can be seen especially from the cross-sectional illustration of FIG. 6D, the connection points 64 and the printed circuit board 54 are preferably only attached at the end on the adapter housing 50 and preferably on a somewhat raised web.

[0113] Toward the eardrum side, the adapter housing 50 has a stop 68, which is circumferential in particular and defines a stop for the housing 2. This means that the antenna module 7 is inserted from the front into the opening 6 of the housing 2 up to this circumferential stop 68. The remaining part therefore protrudes out of the housing 2. In the exemplary embodiment, for example, ¼ or more of the length of the adapter housing 50 protrudes out of the housing 2.

[0114] The winding 12 is applied in the region between the stop 68 and the opposite end of the adapter housing 80. In the exemplary embodiment, a circumferential depression is formed in the adapter housing, in which the winding 12 is inserted.

[0115] The adapter housing 50 again has a sound outlet nozzle 52, into which the sound outlet nozzle 53 of the receiver 8 is inserted. In particular an ear mold is placed on this sound outlet nozzle 52 of the adapter housing 50. This sound outlet nozzle 52 is preferably a separate part, which is used on a front end of the adapter housing 50. Alternatively, the sound outlet nozzle 52 is formed as an extruded component.

[0116] The invention was explained in more detail above in conjunction with an ITE hearing aid device. In principle, the antenna module 7 described here may also be transferred to other hearing aid devices and also in general especially to hearing aids wearable on the head. These are also understood in particular as headsets, wearables, etc. The electrical component accommodated by the antenna module 7 does not necessarily have to be the receiver 8. The antenna module 7 described here is preferably used for data transmission in the megahertz range. In addition, it is additionally or also alternatively used for inductive charging or also as a telecoil.

[0117] The invention is therefore not restricted to the exemplary embodiments described here. Rather, other variants can be derived therefrom without leaving the subject matter of the invention. In particular, all individual features described in conjunction with the exemplary embodiments are combinable with one another in other ways without leaving the subject matter of the invention.

[0118] The following is a summary list of reference numerals and the corresponding structure used in the above description of the invention: [0119] 1 hearing aid [0120] 2 housing [0121] 2A first housing section [0122] 2B second housing section [0123] 4 interior [0124] 6 opening [0125] 7 antenna arrangement [0126] 8 receiver [0127] 10 shielding foil [0128] 11 receptacle space [0129] 12 winding [0130] 14 longitudinal direction [0131] 16 subsection [0132] 18 tabs [0133] 20 intermediate space [0134] 24 inner wall [0135] 26 magnetic layer [0136] 28 electrical shielding layer [0137] 40 assembly body [0138] 42 stop [0139] 44 winding region [0140] 46 tab region [0141] 48 depression [0142] 50 adapter housing [0143] 52 sound outlet nozzle of the adapter housing [0144] 53 sound outlet nozzle of the receiver [0145] 54 printed circuit board [0146] 56 winding section [0147] 58 tab section [0148] 60 contact surface [0149] 62 conductor track [0150] 64 connection point [0151] 66 window [0152] 68 circumferential stop [0153] L1 length of assembly body [0154] L2 length of the receiver [0155] L3 winding length