阅读说明：本技术 耳承、制造耳承的方法以及使用耳承的方法 (Ear piece, method of manufacturing ear piece, and method of using ear piece ) 是由 K·J·柯克帕特里克 于 2018-01-05 设计创作，主要内容包括：耳承、制造耳承的方法以及使用耳承的方法。一种耳承,所述耳承包括耳内支承件、与该耳内支承件联接的突出部件以及设置在所述突出部件上并且位于耳朵的外耳道内部的柔性体,以及可塑耳承材料,所述可塑耳承材料可围绕所述耳内支承件塑形以符合耳朵的耳廓并且可固化以提供所述耳承的固定构型。(Ear pieces, methods of making ear pieces, and methods of using ear pieces. An earring comprising an in-ear support, a protruding component coupled with the in-ear support, and a flexible body disposed on the protruding component and inside an external auditory canal of an ear, and a moldable earring material moldable about the in-ear support to conform to an auricle of the ear and curable to provide a fixed configuration of the earring.)

1. An ear piece, comprising:

an in-ear support having an outer surface opposite an inner surface, the outer surface and the inner surface each extending to an in-ear support peripheral edge;

a protruding member extending outwardly from the inner surface of the in-ear support; and

a flexible body disposed around the protruding component, the flexible body being disposable inside an external auditory canal of an ear while the in-ear support is engaged to a pinna of the ear; and

moldable earpiece material, moldable earpiece material can surround the in-the-ear support is molded in order to accord with the ear the auricle, moldable earpiece material can press the fixed configuration solidification of earpiece.

2. The earpiece according to claim 1, wherein the flexible body has a length disposed between a flexible body first end disposed adjacent the inner surface of the in-the-ear support and a flexible body second end disposed distal from the inner surface of the in-the-ear support, and further comprising a channel communicating between the outer surface of the in-the-ear support and the flexible body second end.

3. The earpiece according to claim 2, further comprising an in-ear support conduit disposed in the in-ear support, the in-ear support conduit communicating between the outer surface and the inner surface of the in-ear support.

4. The ear bearing according to claim 3, wherein said in-ear bearing tube extends outwardly a distance from said outer surface of said in-ear bearing.

5. The earpiece according to claim 4, wherein the in-ear support tube extending outwardly the distance from the outer surface defines a tube outer surface engageable by the moldable earpiece material.

6. The earpiece according to claim 5, wherein the in-ear device comprises a body and a sound transmission member, wherein the in-ear device retained in the in-ear support conduit projects the sound transmission member a distance outwardly from the inner surface of the in-ear support to provide the projecting member.

7. The earpiece according to claim 6, wherein the in-ear support tube has a tube inner surface adapted to releasably retain an in-ear device.

8. The ear bearing according to claim 7, further comprising an in-ear device releasably retained by said in-ear support tube.

9. The earpiece according to claim 8, wherein said in-ear device is selected from the group consisting of: an earphone; ear plugs; an earplug; an earphone plug; an eardrum; an ear sealing air bag; and in-ear hearing aids.

10. The earpiece according to claim 9, wherein the in-ear device comprises a portion of a device located outside the ear.

11. The earpiece according to claim 10, wherein said device is selected from the group consisting of: a headset; a headset; a telephone;a headset; a wireless headset; and a hearing aid.

12. The earpiece according to claim 11, wherein the moldable earpiece material comprises a one-component moldable earpiece material.

13. The earpiece according to claim 12, wherein the one-component moldable earpiece material is selected from the group consisting of: ethylene vinyl acetate; polycaprolactone; and room temperature vulcanizing silicone.

14. The earpiece of claim 13, wherein the one-component moldable earpiece material includes an amount of polycaprolactone polymer having a number average molecular weight of about 37,000 to 80,000 grams/mole.

15. The earpiece according to claim 11, wherein the moldable earpiece material comprises a plasticizer and a curing agent, wherein a combination of the plasticizer and the curing agent is curable in the fixed configuration of the earpiece.

16. The earpiece according to claim 15, wherein the plasticizer and the curing agent include a cross-linkable polymer and a catalyst.

17. The earpiece according to claim 16, wherein the crosslinkable polymer includes a polymer including at least one hydrolyzable silane group, and wherein the catalyst includes one or more of metal salts of organic carboxylic acids.

18. The earpiece according to claim 17, wherein said cross-linkable polymer comprises one or more of: a silane-modified polyoxyalkylene; a polyolefin; poly (meth) acrylates; a polyurethane; a polyamide; and a polysiloxane, and the metal salt of the organic carboxylic acid comprises one or more of a platinum salt, a tin salt, or a copper salt of the organic carboxylic acid.

19. The earpiece of claim 18, wherein the crosslinkable polymer includes polydimethylsiloxane, and wherein the catalyst includes platinum (0) -1, 3-divinyl 1,1,3, 3-tetramethyldisiloxane.

20. The earpiece of claim 19, wherein the plasticizer comprises SILPURANAnd wherein the CURING agent comprises SILPURAN CURING

21. The earpiece according to claim 20, further comprising one or more aperture components communicating between the outer surface and the inner surface of the in-ear bearing.

22. The earpiece according to claim 21, further comprising an adhesive component disposed on the in-the-ear support, the adhesive component configured to increase adhesion of the moldable earpiece material to the in-the-ear support.

23. A method of manufacturing an earpiece, the method comprising:

constructing an in-ear support having an outer surface opposite an inner surface, the outer surface and the inner surface each extending to an in-ear support peripheral edge;

extending a protruding member outwardly from the inner surface of the in-ear support;

disposing a flexible body around the protruding component, the flexible body being disposable inside an external auditory canal of an ear while the in-ear support is engaged to a pinna of the ear; and

molding moldable earpiece material around the in-ear support to conform to the pinna of the ear, the moldable earpiece material capable of curing in accordance with a fixed configuration of the earpiece.

24. The method of manufacturing an ear piece according to claim 23, wherein the flexible body has a length disposed between a flexible body first end disposed adjacent to the inner surface of the in-ear support and a flexible body second end disposed away from the inner surface of the in-ear support, and further comprising: communicating the outer surface of the in-ear support with a channel between the flexible body second end.

25. The method of manufacturing an ear piece according to claim 24, further comprising: an in-ear support conduit is disposed in the in-ear support and communicates between the outer surface and the inner surface of the in-ear support.

26. The method of manufacturing an ear piece according to claim 25, further comprising: extending the in-ear support tube a distance outwardly from the outer surface of the in-ear support.

27. A method of manufacturing an ear bearing according to claim 26, wherein the in-ear support tube extends outwardly a distance from the outer surface, the method further comprising: defining an outer surface of the tube engageable by the moldable earpiece material.

28. The method of manufacturing an ear piece according to claim 27, wherein the in-ear device comprises a body and a sound transmission member, wherein the in-ear device is retained in the in-ear support tube, the method further comprising: projecting the sound transmission member outwardly a distance from the inner surface of the in-ear support to provide the projecting member extending outwardly from the inner surface of the in-ear support.

29. The method of manufacturing an ear piece according to claim 28, further comprising: the in-ear support tube is adapted to have a tube inner surface for releasably retaining an in-ear device.

30. A method of manufacturing an ear piece according to claim 29, said method further comprising: an in-ear device is releasably retained by the in-ear support tube.

31. The method of making an earpiece according to claim 30, wherein said in-ear device is selected from the group consisting of: an earphone; ear plugs; an earplug; an earphone plug; an eardrum; an ear sealing air bag; and in-ear hearing aids.

32. The method of manufacturing an earpiece according to claim 31, wherein the in-ear device further comprises a portion of a device located outside the ear.

33. The method of manufacturing an ear piece according to claim 32, further comprising: from belowSelecting the device from the group consisting of: a headset; a headset; a telephone;a headset; a wireless headset; and a hearing aid.

34. The method of making an earpiece according to claim 33, wherein the moldable earpiece material comprises a one-component moldable earpiece material.

35. The method of manufacturing an ear piece according to claim 34, further comprising: the one-part moldable earpiece material is selected from the group consisting of: ethylene vinyl acetate; polycaprolactone; and room temperature vulcanizing silicone.

36. The method of making an ear piece according to claim 35, wherein said one-component moldable ear piece material comprises an amount of polycaprolactone polymer having a number average molecular weight of about 37,000 to 80,000 grams/mole.

37. The method of manufacturing an earpiece according to claim 36, wherein the moldable earpiece material includes a plasticizer and a curing agent, the method further comprising: combining the plasticizer and the curing agent capable of curing in the secured configuration of the earpiece.

38. The method of manufacturing an earpiece according to claim 37, wherein the plasticizer and the curing agent include a cross-linkable polymer and a catalyst.

39. The method of making an earpiece according to claim 38, wherein the cross-linkable polymer includes a polymer including at least one hydrolyzable silane group, and wherein the catalyst includes one or more of metal salts of organic carboxylic acids.

40. The method of making an earpiece according to claim 39, wherein said cross-linkable polymer includes one or more of: a silane-modified polyoxyalkylene; a polyolefin; poly (meth) acrylates; a polyurethane; a polyamide; and a polysiloxane, and the metal salt of the organic carboxylic acid comprises one or more of a platinum salt, a tin salt, or a copper salt of the organic carboxylic acid.

41. The method of making an earpiece according to claim 40, wherein the cross-linkable polymer includes polydimethylsiloxane, and wherein the catalyst includes platinum (0) -1, 3-divinyl 1,1,3, 3-tetramethyldisiloxane.

42. The method of making an earpiece as set forth in claim 41, wherein the plasticizer comprises SILPURANAnd wherein the CURING agent comprises SILPURAN CURING

43. A method of using an earpiece, the method comprising:

obtaining an earpiece comprising:

an in-ear support having an outer surface opposite an inner surface, the outer surface and the inner surface each extending to an in-ear support peripheral edge;

a protruding member extending outwardly from the inner surface of the in-ear support; and

a flexible body disposed around the protruding component, the flexible body being disposable inside an external auditory canal of an ear while the in-ear support is engaged to a pinna of the ear; and

a moldable earpiece material moldable about the in-ear support to conform to the pinna of the ear, the moldable earpiece material being curable in a fixed configuration of the earpiece;

disposing the flexible body in the external auditory canal of the ear;

adjusting the in-ear support within the pinna of the ear, wherein the inner surface of the in-ear support is disposed generally adjacent to the external ear canal opening;

compressively engaging the moldable earpiece material around the in-the-ear support;

conforming the moldable earpiece material to the pinna of the ear; and

curing the moldable earpiece material to provide a fixed configuration of the earpiece.

44. The method of using an earpiece according to claim 43, further comprising:

obtaining an in-ear support member conduit;

configuring the in-ear support tube to releasably retain an in-ear device;

releasably retaining the in-ear device to the in-ear support tube.

45. The method of using an earpiece according to claim 44, further comprising:

releasably retaining the in-ear device to the in-ear support, wherein the in-ear device comprises a body releasably retained to the in-ear support tube and a sound delivery member extending outwardly a distance from the inner surface of the in-ear support; and

removably coupling the flexible body around the sound transfer component.

46. The method of using an ear piece according to claim 45, wherein said in-ear device is selected from the group consisting of: an earphone; ear plugs; an earplug; an earphone plug; an eardrum; an ear sealing air bag; and in-ear hearing aids.

47. The method of using an earpiece according to claim 46, wherein the in-ear device further comprises a portion of a device located outside the ear.

48. The method of using an earpiece according to claim 47, further comprising: selecting the device from the group consisting of: a headset; a headset; a telephone;a headset; a wireless headset; and a hearing aid.

49. A method for using an earpiece as set forth in claim 48, wherein the moldable earpiece material comprises a one-component moldable earpiece material.

50. A method of using an earpiece as claimed in claim 49, further comprising: the one-part moldable earpiece material is selected from the group consisting of: ethylene vinyl acetate; polycaprolactone; and room temperature vulcanizing silicone.

51. The method of using an ear piece according to claim 50, wherein said one-component moldable ear piece material comprises an amount of polycaprolactone polymer having a number average molecular weight of about 37,000 to 80,000 g/mole.

52. The method of using an earpiece according to claim 51, wherein the moldable earpiece material includes a plasticizer and a curing agent, the method further comprising: combining the plasticizer and the curing agent capable of curing in the secured configuration of the earpiece.

53. A method of using an earpiece as claimed in claim 52, wherein the plasticizer and the curing agent include a cross-linkable polymer and a catalyst.

54. A method of using an earpiece as set forth in claim 53, wherein the cross-linkable polymer includes a polymer including at least one hydrolyzable silane group, and wherein the catalyst includes one or more of metal salts of an organic carboxylic acid.

55. A method of using an earpiece as claimed in claim 54, wherein the cross-linkable polymer includes one or more of: a silane-modified polyoxyalkylene; a polyolefin; poly (meth) acrylates; a polyurethane; a polyamide; and a polysiloxane, and the metal salt of the organic carboxylic acid comprises one or more of a platinum salt, a tin salt, or a copper salt of the organic carboxylic acid.

56. The method of using an earpiece as recited in claim 55, wherein the crosslinkable polymer includes polydimethylsiloxane, and wherein the catalyst includes platinum (0) -1, 3-divinyl-1, 1,3, 3-tetramethyldisiloxane.

57. The method of using an earpiece as set forth in claim 56, wherein the plasticizer comprises SILPURANAnd wherein the CURING agent comprises SILPURAN CURING

Technical Field

An ear piece (ear piece) comprising: an in-the-ear support positionable within a pinna of an ear; a protruding member extending a distance outwardly from the in-ear support; and a flexible body coupled around the protruding component and configured to engage an external auditory canal of an ear while the in-ear support is positioned within a pinna of the ear; and a moldable earpiece material moldable about the in-ear support to conform to an auricle of an ear and curable to provide a fixed configuration of the earpiece.

Background

Because conventional earpieces may not be configured for the pinna of a wearer's ear, the earpieces may not remain in fixed engagement with the pinna of the ear, or the earpieces may not be properly aligned with the external ear canal, or positioning or retaining the earpieces within the pinna of the ear may be uncomfortable for the wearer.

In addition, various ear plugs (earpegs) or in-ear devices (such as medical devices, earphones, hearing aids, cellular phones, etc.) for preventing or delivering sound to the ear include, in part, in-ear devices that do not have a pinna configuration for the ear of the individual wearer, such as earphones (earphones), ear plugs (earpegs), ear plugs (earlobes), ear barrels (ear barrels), and the like.

The present invention provides the advantages of a shapeable earpiece that conforms to the pinna of a wearer's ear and that can retain or removably retain an in-ear device to overcome, in whole or in part, some of the aforementioned disadvantages associated with conventional in-ear devices.

Disclosure of Invention

It may therefore be a broad object of the invention to provide an earpiece comprising one or more of: an in-ear support engageable to a pinna of an ear; a protruding member extending outwardly from an inner surface of the in-ear support; a flexible body disposed around the protruding component and positionable within an external auditory canal of an ear while the in-ear support is engaged with an auricle of the ear; and a moldable earpiece material moldable about the in-ear support to conform to an auricle of the ear and curable to provide a fixed configuration of the earpiece.

It may be another broad object of the invention to provide a method of manufacturing an ear piece, the method comprising one or more of the following steps: obtaining an in-ear support; coupling a protruding member extending outwardly from an inner surface of the in-ear support; disposing a flexible body around the protruding component and configured to engage inside an external auditory canal of an ear; providing a moldable earpiece material moldable about the in-the-ear support to conform to an auricle of an ear, and the method may further comprise one or more of the following steps: creating a channel in communication between an outer surface of the in-ear support and the second end of the flexible body; and coupling an in-ear support tube configured to removably retain an in-ear device to the in-ear support.

Another broad object of the invention can be to provide a method of shaping an ear piece, the method comprising one or more of the following steps: obtaining an in-ear support having a protruding member extending outwardly from an inner surface and a flexible body disposed about the protruding member; engaging the in-ear support with the pinna of the ear and simultaneously engaging the flexible body with the external auditory canal of the ear; shaping a moldable earpiece material around the in-the-ear support to conform to an auricle of an ear and curing the moldable earpiece material to provide a fixed configuration of the earpiece that conforms to the auricle of the ear.

Naturally, further objects of the invention are disclosed throughout the description, the drawings, the photographs and other scope of the claims.

Drawings

Fig. 1 is a perspective view of a particular embodiment of an in-ear support, a protruding member coupled to the in-ear support, and a flexible body coupled around the protruding member.

Fig. 2 is a side view of a particular embodiment of an in-the-ear support, a protruding member, and a flexible body.

Fig. 3 is a front view of a particular embodiment of an in-the-ear support, a protruding member, and a flexible body.

Fig. 4 is an exploded perspective view of a particular embodiment of an in-the-ear support, protruding member, and flexible body.

Fig. 5 is a cross-sectional side view of a particular embodiment of the in-ear support, protruding member, and flexible body shown in fig. 3.

FIG. 6A is a specific embodiment of a one-component moldable earpiece material "A".

FIG. 6B is another specific embodiment of a moldable earpiece material, comprising a plasticizer "A" and a curing agent "B" that can be combined to produce a moldable earpiece material "AB".

Fig. 7 is an illustration of a particular embodiment of an in-the-ear support, a protruding component, and a flexible body, wherein the flexible body is disposed in the external auditory canal of an ear while the in-the-ear support is engaged with the pinna of the ear.

Fig. 8 is a particular embodiment of an in-the-ear support having patterned surface features as adhesive features.

FIG. 9A is a specific embodiment of a moldable earpiece material containing a tackifier "C" as the adhesive component.

FIG. 9B is another specific embodiment of a moldable earpiece material having a tackifier "C" as the adhesive component.

FIG. 10 is a cross-sectional side view of the ear and a particular embodiment of the in-ear support, protruding component, and flexible body, showing the in-ear support engaged with the pinna of the ear while the flexible body is disposed in the external auditory canal of the ear.

Fig. 11 is a cross-sectional side view of the ear and a particular embodiment of the in-ear support, protruding component and flexible body engaging the ear as shown in fig. 10, and further illustrating a moldable earpiece material (a or AB) moldable engaging the in-ear support and the pinna of the ear.

Fig. 12 is a cross-sectional side view of the ear and a particular embodiment of the in-ear support engaged with the ear, protruding member, and flexible body shown in fig. 11, and further illustrating a moldable earpiece material (a or AB) surrounding the in-ear support and shaped to the pinna contour of the ear to provide a fixed configuration of the earpiece.

FIG. 13 is a perspective view of a particular embodiment of an earpiece in a secured configuration in an ear.

Fig. 14 is an exploded view of a particular embodiment of an in-ear support, a protruding member extending outwardly from the in-ear support, and a flexible body coupled around the protruding member and an in-ear support tube disposed within the in-ear support configured to removably retain an in-ear device.

Fig. 15 is a perspective view of the particular embodiment of fig. 14 including an in-ear support, a protruding member, a flexible body, and an in-ear support tube removably retaining an in-ear device.

Fig. 16 is a cross-sectional side view 16-16 of a particular embodiment of an in-ear support, protruding member, flexible body having an in-ear support tube removably retaining an in-ear device.

Fig. 17 is a cross-sectional side view of a particular embodiment of an ear and an in-ear support having an in-ear support tube removably retaining an in-ear device, a protruding member, and a flexible body coupled around and engaging the external ear canal, and further illustrating a moldable ear support material (a or AB) surrounding the in-ear support and shaped to the contour of the pinna of the ear to provide a fixed configuration of the ear support.

Fig. 18 is a perspective view of a particular embodiment of a securing configuration of an ear piece for retaining an in-ear device in an ear.

Fig. 19 is an exploded view of a particular embodiment of an in-ear support having an in-ear support tube configured to removably retain an in-ear device having a body and a sound delivery component, wherein the sound delivery component is extendable through the in-ear support tube to provide a protruding component, and a flexible body removably coupled to the protruding component.

Fig. 20 is a perspective view of a particular embodiment of an in-ear support having an in-ear support tube removably retaining an in-ear device having a body and a sound transfer member extending outwardly from the in-ear support to provide a protruding member, and a flexible body removably coupled to the protruding member.

Fig. 21 is a cross-sectional side view 21-21 of a particular embodiment of an in-ear support having an in-ear support tube holding an in-ear device having a sound transfer member extending outwardly from the in-ear support to provide the protruding member, and a flexible body removably coupled to the protruding member.

Fig. 22 is a cross-sectional side view of a particular embodiment of an ear and an in-ear support having an in-ear support tube holding an in-ear device with a sound delivery member extending outwardly from the in-ear support to provide the protruding member, and also illustrating a moldable earpiece material (a or AB) surrounding the in-ear support and contoured to the pinna of the ear to provide a fixed configuration of the earpiece, and a flexible body engaged with the ear.

FIG. 23 is a perspective view of a particular embodiment of an earpiece in a secured configuration in an ear.

Fig. 24 is an exploded view of a particular embodiment of an in-ear support having an in-ear support tube that extends outwardly a distance from an outer surface of the in-ear support and is configured to removably retain an in-ear device having a body and a sound delivery component, wherein the sound delivery component is extendable outwardly from an inner surface of the in-ear support to provide a protruding component, and a flexible body removably coupled to the protruding component.

Fig. 25 is a perspective view of a particular embodiment of an in-ear support having an in-ear support tube that extends outwardly a distance from an outer surface of the in-ear support and removably retains an in-ear device having a body and a sound delivery member that extends outwardly from an inner surface of the in-ear support to provide a protruding member, and a flexible body removably coupled to the protruding member.

Fig. 26 is a cross-sectional side view 26-26 of a particular embodiment of an in-ear support having an in-ear support tube holding an in-ear device having a sound transfer member extending outwardly from the in-ear support to provide the protruding member, and a flexible body removably coupled to the protruding member.

Fig. 27 is a cross-sectional side view of a particular embodiment having an in-the-ear support holding an in-the-ear support tube of an in-the-ear device having a sound delivery member extending outwardly from the in-the-ear support to provide the protruding member, and a flexible body engaging the outer auditory canal of the ear, and further illustrating a moldable ear support material (a or AB) surrounding the in-the-ear support and shaped to the contour of the pinna of the ear to provide a fixed configuration of the ear support.

FIG. 28 is a perspective view of a particular embodiment of an earpiece in a secured configuration in an ear.

Fig. 29 is an exploded view of a particular embodiment of an in-ear support having an in-ear support tube including a flexible elastomeric insert configured to removably retain an in-ear device, a protruding component extending outwardly from an inner surface of the in-ear support, and a flexible body removably coupled to the protruding component.

Fig. 30 is a perspective view of a particular embodiment of an in-ear support having an in-ear support tube including a flexible elastomeric insert removably retaining an in-ear device, a protruding member extending outwardly from the in-ear support, and a flexible body removably coupled to the protruding member.

Fig. 31 is a cross-sectional side view 31-31 of the particular embodiment of the in-ear support shown in fig. 30 having an in-ear support tube including a flexible elastomeric insert retaining an in-ear device.

Detailed Description

Referring generally to fig. 1-31, particular embodiments of the earpiece (1) may include one or more of the following: an in-ear bearing (2), a protruding part (3), a flexible body (4) and a moldable earpiece material (5). The in-ear support (2) may have an outer surface (6) opposite the inner surface (7), wherein each surface extends to an in-ear support peripheral edge (8). An in-ear support (2) extending to an in-ear support peripheral edge (8) may be configured to be positioned within an auricle (9) of an ear (10). With respect to certain embodiments, the in-ear support (2) may be positioned within the region of the pinna (9) of the ear (10) that is anatomically defined by the antihelix (11), tragus (12), antitragus (13), and concha (14), also referred to herein as concha bowl (15), and at the same time defines an inner surface (7) of the in-ear support (2) that has sufficient area to prevent access to the external auditory meatus opening (16) (as shown in the example of fig. 7). For the purposes of the present invention, the term "external auditory canal (17)" refers to the portion of the ear canal (or auditory canal) that communicates between the pinna (9) and tympanic membrane (19) of the ear (10). For the purposes of the present invention, the term "pinna (9)" refers to the region of the ear (10) located outside the external auditory canal (17) (also referred to as the "concha"), which includes the external ear bowl (15) and extends to the peripheral edge (20) of the ear (10).

Referring now primarily to fig. 3 and 7, in connection with certain embodiments, the in-ear support (2) may be configured to be positioned in the outer ear bowl (15) while the flexible body (4) is engaged with the outer ear canal (17). While the in-ear support peripheral edge (8) of the embodiment shown in fig. 3 and 7 generally defines a quadrilateral having a pair of linear opposing sides (21) interconnected by a pair of arcuate sides (22), this example of the configuration of the in-ear support (2) is not intended to exclude other configurations of the in-ear support (2) in which the in-ear support peripheral edge (8) may generally define a circle, an ellipse, a triangle, or other configurations that may be disposed in the pinna (9) of the ear (10), more particularly, within the concha bowl (15).

Referring now primarily to fig. 7 and 10, the in-ear support (2) may be configured to be disposed in the concha bowl (15) and retained in the concha bowl (15) by contact of the antihelix (11), antitragus (13) or tragus (12) with a corresponding portion of the in-ear support (2). As shown in the example of fig. 7, the top portion (23) of the inner ear support peripheral edge (8) may be disposed behind the antihelix (11), and the lower portion (24) of the inner ear support peripheral edge (8) may be disposed behind the antitragus (13) and the tragus (12).

Embodiments of the in-ear support (2) may be manufactured, formed or molded from a variety of rigid or elastic thermoplastics including, but not necessarily limited to, acrylic, nylon, acrylonitrile butadiene styrene, polylactic acid, polybenzimidazole, polycarbonate, polyethersulfone, polyethylene, urethane, silicone or combinations of these.

Referring now primarily to fig. 4 and 5, particular embodiments of the ear piece (1) may further comprise a protruding member (3) extending outwardly from a location on the inner surface (7) of the in-ear support (2) that aligns the protruding member (3) within the outer ear canal (17) while the in-ear support (2) is disposed within the pinna (9) or concha bowl (15) of the ear (10). In connection with certain embodiments, the protruding part (3) may be disposed, coupled or directly coupled to the inner surface (7) of the in-the-ear support (2) at a location where the protruding part (3) extends into the external ear canal (17) while the in-the-ear support (2) is disposed within the external ear bowl (15) such that the inner surface (7) is adjacent to the external ear canal opening (16). As illustrated in fig. 4 and 5, the location from which the protruding element (3) may extend (the bottom of the inner surface (7) of the in-ear support (2)) may be near the in-ear support peripheral edge (8). The protruding part (3) may be configured as a solid or tubular elongated member having a circular, oval, square, rectangular or otherwise cross-sectional configuration that may be arranged in the outer ear canal (17).

The protruding part (3) may comprise the same or a different material as the in-ear support (2), and in connection with a particular embodiment, the in-ear support (2) and the protruding part (3) may, but need not, be manufactured, formed or shaped in an integral manner.

Again, referring generally to fig. 1-5 and 10-31, particular embodiments of the ear piece (1) may, but need not, include a flexible body (4) disposed about the protruding component (3). The flexible body (4) may be disposed inside the external auditory canal (17) of the ear (10) while the in-ear support (2) is engaged within the pinna (9) or the external auditory canal bowl (15) with the inner surface (7) adjacent to the external auditory canal opening (16). Embodiments of the flexible body (4) may, but need not, include any one or combination of pliable materials or balloons, such as foam, foam rubber, or hydrogel, that are deformably compressible when engaged with the external ear canal (17) and return to an original configuration when separated from the surface of the external ear canal (17). In connection with certain embodiments, the flexible body (4) may also include a continuous smooth outer surface (25).

In relation to a particular embodiment, the flexible body (4) may be, but need not be, integral with the protruding part (3), or in relation to other embodiments, the flexible body (4) is removably coupled or connected to the protruding part (3), as shown in the example of fig. 4. In particular embodiments where the flexible body (4) is removably coupled to the protruding component (3), the flexible body (4) may include a channel (26), the channel (26) being disposed in the flexible body (4) and configured to accept the protruding component (3). As shown in fig. 5, the protruding member (3) may be configured as a solid cylinder that may be insertedly disposed in the flexible body passage (26) of the flexible body (4). With particular embodiments, the flexible body (4) may further include a flexible body conduit (27), the flexible body conduit (27) having a flexible body conduit inner surface (28) defining a flexible body channel (26) and an outer surface (29) engaging the flexible body (4). The flexible body conduit (27) may further include an annular flange (30) extending radially outward from the channel first end (31) toward the outer surface (29) of the flexible body (4). With particular embodiments, the flexible body conduit (27) and the annular flange (30) may comprise one piece. In other particular embodiments, as shown in fig. 1 and 3, the flexible body conduit (27) may, but need not, include two components, wherein a first component (32) includes the flexible body conduit (27) disposed within the channel (26) of the flexible body (4), and a second component (33) includes an annular flange (30) coupled to the flexible body first end (34) and extending radially outward from the first component (32) disposed in the channel (26) toward the outer surface (29) of the flexible body (4).

Referring now primarily to fig. 6A and 6B and fig. 11-13, 17, 18, 22, 23, 27 and 28, particular embodiments of the earpiece (1) may also, but need not, include a moldable earpiece material (5). The moldable earpiece material (5) may be molded around the in-the-ear support (2) to conform to the pinna (9) or the concha bowl (15) of the ear (10). The moldable earpiece material (5) may, but need not, be a single compound (35) (shown as compound "a" in fig. 6A).

In connection with other embodiments, the moldable ear piece material (5) may, but need not, comprise a two-part moldable ear piece material (37) comprising or consisting of a plasticizer (38) (shown as compound "a" in fig. 6B) that may be combined with a curing agent (39) (shown as compound "B" in fig. 6B) that may be mixed together prior to molding to form a single mixed compound (40) (shown as compound "AB" in fig. 6B) that can be molded around or to the in-ear support (2) or adhered to the in-ear support (2) (shown as fig. 11 and 12 a) by forcibly pressing the single mixed compound (40) onto or around the in-ear support (2), Shown in the examples of fig. 17 and 18, fig. 22 and 23, and fig. 27 and 28). Meanwhile, the moldable earpiece material (5), whether a one-part moldable earpiece material (36) or a two-component moldable earpiece material (37) for providing a single compound mix (40), may be molded onto the contour of the pinna (9) or the external ear bowl (15) of the ear (10) (as shown in the examples of fig. 12 and 13, 17 and 18, and 22 and 23). After shaping around the in-the-ear support (2), the single compound (35) or single compound mixture (40) may then be cured at ambient temperature (at a temperature above or below ambient temperature) for a period of time to provide a fixed configuration of the moldable ear support material (5) (as shown in the examples of fig. 13, 18, and 23).

In embodiments including a moldable earpiece material (5) comprising or consisting of a single compound (35), the single compound (35) may comprise or consist of one or more of the following: ethylene vinyl acetate, polycaprolactone, silicone and other thermoplastic materials. The single compound (35) moldable earpiece material (5) is transformed from a moldable state to a fixed state by exposure to external factors, such as humidity, temperature or ultraviolet light.

As one illustrative example, a single compound (35) may be an amount of polycaprolactone polymer (CAS No.:24989-40-4) having the characteristics set forth in table 1; however, this exemplary embodiment is not intended to exclude the use of other thermoplastic polymers suitable for use with embodiments of the earpiece (1).

TABLE 1 physical Properties of polycaprolactone thermoplastic polymers

The polycaprolactone polymer can be heated to achieve a shapeable condition, shaped around the in-the-ear support (2), and contoured to the configuration of the pinna (9) or the outer ear bowl (15) and cooled to achieve a fixed configuration of the earpiece (1).

Polycaprolactone polymers impart good resistance to water, oil, solvents and chlorine. Polycaprolactone polymers are also compatible with various other materials (collectively "blends"), such as: starch, which imparts higher biodegradability; colorants such as alcohol dyes or acrylic colorants; powders, such as acrylic powders; particles of plastics, copolymer plastics, metals, bismuth oxychloride or glitter, etc. (alone or in various combinations). Polycaprolactone polymers are non-toxic and are approved by the U.S. food and drug administration for specific applications in the human body.

In embodiments comprising a moldable earpiece material (5) comprising or consisting of a single compound blend (40), the single compound blend (40) may comprise a crosslinkable polymer (compound "a") having at least one hydrolysable silane group, the crosslinkable polymer being selected from the group comprising or consisting of: silane-modified polyoxyalkylenes, polyolefins, poly (meth) acrylates, polyurethanes, polyamides, and polysiloxanes, silicone putty partially hydrolyzed alkyl silicates, or combinations of these, and catalysts (compound "B") comprising: a metal salt of an organic carboxylic acid catalyst, wherein the metal comprises or consists of one or more of platinum, tin, copper or other metals.

One illustrative example of a single compound (40) comprising a plasticizer (38) and a curing agent (39) includes a polydimethylsiloxane polymer and a platinum (0) -1, 3-divinyl-1, 1,3, 3-tetramethyldisiloxane curing agent (39). Another illustrative example of a single hybrid compound (40) comprising a plasticizer (38) and a curing agent (39) includes two proprietary compounds, silicone putty a side and silicone putty B side, manufactured by Radians, inc.

Yet another illustrative example includes8020 solid silicone rubber can be cured by a platinum catalyst available from Wacker Chemie AG.

Table 2.8020 physical Properties

Referring now generally to fig. 1-31, embodiments of the in-ear bearing (2) may, but need not, include one or more bore components (41) that communicate between the outer surface (6) and the inner surface (7) of the in-ear bearing (2). As shown in the example of fig. 11 and 12, moldable earpiece material (5) may be passed through the aperture component (41) to encase the outer surface (6) and the inner surface (7) of the in-the-ear support (2), and also to allow the moldable earpiece material (5) to conform to the pinna (9) or the outer ear bowl (15) of the ear (10). Additionally, by engaging the moldable earpiece material (5) with the one or more aperture components (41), a greater surface area of the in-the-ear support (2) can be integrated with the moldable earpiece material (5) than if the moldable earpiece material (5) only engaged the outer surface (6), thereby making it less likely that the solidified moldable earpiece material (5) will fully or partially separate from the in-the-ear support (2).

Referring now primarily to fig. 8, embodiments of the in-ear support (2) may, but need not, include an adhesive member (42). With respect to certain embodiments, the adhesive member (42) may be configured as a patterned surface member (44) disposed on or in the outer surface (6) or the inner surface (7) of the in-ear support (2). The patterned surface feature (44) may provide an irregular or uniform pattern, texture, or roughness sufficient to immobilize the moldable earpiece material (5) or reduce the range of movement of the moldable earpiece material (5) on or around the in-the-ear support (2). With some embodiments, the patterned surface feature (44) may provide a groove disposed in the in-the-ear support (2), which groove may function to insulate the moldable earpiece material (5) (as shown in fig. 8), or a protrusion extending outward from the in-the-ear support (2) to penetrate the moldable earpiece material (5), or a combination of both. The patterned surface feature (44) may be integral with the in-the-ear support (2) or may be applied to the in-the-ear support (2) as a layer or as a single component.

Referring now primarily to fig. 9A and 9B, in relation to a particular embodiment of the in-the-ear support (2), the adhesive component (42) may include a tackifier (43) (shown as compound "C" in fig. 9A and 9B) incorporated into the moldable ear support material (5) or applied to the inner surface (7) or outer surface (6) of the in-the-ear support (2) to increase the tackiness or adhesiveness of the moldable ear support material (5) or the in-the-ear support (2). As illustrative examples, the tackifier (43) may include or consist of one or more of a rosin resin, a hydrocarbon resin, a terpene resin, or other similar material.

Referring now to fig. 14-31 in general, particular embodiments of the earpiece (1) may be provided separately from but usable with one or more of a variety of in-ear devices (45),for example: earphones, ear plugs, sealed balloons (sealing balloons), ear plugs, ear tubes, ear speakers (ear speakers), and in-ear hearing aids, among others. In relation to particular embodiments, the in-ear device (45) may be part of a wearable apparatus or part of an apparatus located outside the ear (10), such as: a headset (headset), a headset (head phone), a telephone set,Headphones, wireless headphones, hearing aids, medical devices, and the like.

Particular embodiments of an ear bearing (1) that can be used with an in-ear device (45) may include an in-ear bearing conduit (46) that communicates between an outer surface (6) of the in-ear bearing (2) and an inner surface (7) of the in-ear bearing (2). The in-ear support tube (46) may have an in-ear support tube inner surface (47), the in-ear support tube inner surface (47) being configured to retain or releasably retain the in-ear device (45) in the ear bearing (1) and defining an in-ear support channel (48). The configuration of the in-ear support tube inner surface (47) of the in-ear support tube (46) can vary from embodiment to retain or releasably retain various configurations of the in-ear device (45), the wide range of configurations including: those configurations of an in-ear device (45) having a main body (49) and a sound transmission member (50) extending outwardly from the main body (49) (as shown in the examples of fig. 19 to 28), or those configurations of an in-ear device (45) having a main body (49) but no sound transmission member (50) extending outwardly from the main body (49) (as shown in the examples of fig. 14 to 18 and 29 to 31).

Referring now primarily to fig. 14-18, in relation to a particular embodiment that can be used with an in-ear device (45) without an extended sound transmission member (50), an in-ear support (2) may include an in-ear support tube (46) having an in-ear support tube inner surface (47), the in-ear support tube (46) communicating between an in-ear support tube first end (51) at an outer surface (6) of the in-ear support (2) in an open position and an in-ear support tube second end (52) at a flexible body second end (53) in an open position and defining an in-ear support channel (48). An in-ear support tube (46) may be configured near the in-ear support tube first end (51) to releasably retain the in-ear device (45). The configuration of the in-ear support tube inner surface (47) can be varied between embodiments to retain or releasably retain various configurations of an in-ear device (45). An in-ear support conduit channel (48) communicates from an outer surface (6) of the in-ear support (2) to an inner surface (7) of the in-ear support (2), through the protruding member (3) and through the flexible body (4) to the flexible body second end (53) to transmit sound from an in-ear device (45) releasably retained at the in-ear support conduit first end (51) to the flexible body second end (53).

Referring now to fig. 19 through 28 in general, regarding particular embodiments that can be used with an in-ear device (45) that includes a sound transmission component (50) that protrudes outward from a body (49) of the in-ear device (45), the protruding component (3) that extends outward from the inner surface (7) of the in-ear support (2) can include the sound transmission component (50) of the in-ear device (45) or can be replaced by the sound transmission component (50) of the in-ear device (45), and the flexible body (4) can be removably coupled to the sound transmission component (50) of the in-ear device (45). In connection with these embodiments, the channel (26) provided in the flexible body (4) may be configured to insertedly receive partially or fully the sound transmission member (50) of the in-ear device (45).

Referring now primarily to fig. 19-23, in connection with a particular embodiment of an ear bearing (1) housing an in-ear device (45) having a sound-transmitting member (50) extending outwardly from a main body (49), an in-ear support tube (46) may have an in-ear support tube first end (51) disposed at an outer surface (6) of the in-ear support (2) and an in-ear support tube second end (52) disposed at an inner surface (7) of the in-ear support (2). The in-ear support tube inner surface (47) can be configured to releasably retain a body (49) of an in-ear device (45), and the sound delivery member (50) extends outwardly from the inner surface (7) of the in-ear support (2). An in-ear support conduit channel (48) communicates from an outer surface (6) of the in-ear support (2) to an inner surface (7) of the in-ear support (2) and through the flexible body (4) to open at the flexible body second end (53) to convey sound from an in-ear device (45) releasably retained at the in-ear support conduit first end (51) to the flexible body second end (53).

Referring now primarily to fig. 24-28, in connection with certain embodiments, the in-ear support (2) may, but need not, include a tubular member (56), the tubular member (56) extending a distance outwardly from the outer surface (6) of the in-ear support (2) to correspondingly position the in-ear support tube first end (51) a distance outwardly from the outer surface (6) of the in-ear support (2). An in-ear support tube inner surface (47) of the tubular member (56) may be configured to releasably retain a body (49) of an in-ear device (45). Regarding those in-ear devices (45) having a sound-transmitting member (50) extending outwardly a distance from an inner surface (7) of the in-ear support (2), the sound-transmitting member (50) extending outwardly from an inner in-ear support conduit surface (47) may be insertedly received in the flexible body (4), and a conduit channel (48) communicating from an outer surface (6) of the in-ear support (2) to the inner surface (7) of the in-ear support (2), passing through the flexible body (4) to open at the flexible body second end (53) to transmit sound from the in-ear device (45) releasably retained at the in-ear support conduit first end (51) to the flexible body second end (53).

As described above and illustrated again in fig. 17, 18, 22, 23, 27 and 28, particular embodiments of an earpiece (1) including an in-ear device (45) may include a moldable earpiece material (5), the moldable earpiece material (5) being moldable about the in-ear support (2) to conform to the pinna (9) of the ear (10). The configurations of the embodiments shown in fig. 24-28 confer the advantage of molding the moldable earpiece material (5) around a tubular member (56) extending outwardly from the outer surface (6) of the in-the-ear bearing (2) to avoid or reduce the amount of moldable earpiece material (5) entering the in-the-ear bearing conduit channel (48) or to avoid or reduce the amount of moldable earpiece material (5) contacting the in-the-ear device (45).

Referring now to fig. 29-31, embodiments may, but need not, include a flexible elastomeric insert (54) removably coupled to the in-the-ear support tube (46) proximate the in-the-ear support tube first end (51) to provide a flexible elastomeric insert inner surface (55) configured to retain or releasably retain the in-the-ear device (45) in the in-the-ear support (2) or the ear support (1). The plurality of flexible elastomeric inserts (54) may provide a plurality of different configurations of the flexible elastomeric inner surface (55) to retain or releasably retain a corresponding plurality of different configurations of the body (49) of the in-ear device (45). By interchanging flexible elastomeric inserts (54) removably coupled within the in-the-ear support tube (46), a plurality of different configurations of the flexible elastomeric inner surface (55) may be achieved in one configuration of the in-the-ear support tube (46), such that a corresponding plurality of differently configured in-the-ear devices (45) may be releasably retained. While the exemplary flexible elastomeric insert shown in fig. 29-31 has a particular thickness, this is not intended to exclude embodiments having greater or lesser thicknesses, and the thickness of particular embodiments may be as great as is needed to retain the in-ear device (45) in the in-ear support tube (46) or ear piece (1).

Referring now to fig. 1-31 in general, and to fig. 10, 11 and 12 in more detail, a method of using an earpiece (1) may include: obtaining an ear piece (1), the ear piece (1) comprising: an in-ear bearing (2), a protruding part (3), a flexible body (4) arranged around the protruding part (3), and a moldable earpiece material (5); -arranging the flexible body (4) in the external auditory canal (17) of the ear (10); adjusting an in-ear support (2) within a pinna (9) or concha bowl (15), the in-ear support (2) having an in-ear support inner surface (7) disposed generally adjacent to an external auditory canal opening (16); engaging the moldable earpiece material (5) around the in-the-ear support (2) in a pressing manner such that the moldable earpiece material (5) conforms to the pinna (9) or concha bowl (15) of the ear (10); and curing the moldable earpiece material (5) to provide a fixed configuration of the earpiece (1); the in-ear bearing (2), the protruding part (3), the flexible body (4) and the moldable earpiece material (5) have been described above.

In certain embodiments, as illustrated in fig. 17, 18, 22, 23, 27, and 28, the method of using the earpiece (1) may further include: an in-ear support tube (46) having an in-ear support tube (46) is obtained, the in-ear support tube (46) being configured to releasably retain an in-ear device (45) as described above, and to releasably retain the in-ear device (45) to the in-ear support tube (46). With respect to certain embodiments, the method may further comprise: the body (49) of the in-ear device (45) is releasably retained to the in-ear support tube (46), and the sound delivery component (50) extends outwardly a distance from the inner surface (7) of the in-ear support (2) and the flexible body (4) is removably coupled around the sound delivery component (50).

From the foregoing it will be readily appreciated that the basic concept of the invention may be embodied in various forms. The present invention relates to numerous and varied embodiments of earpieces that can be used to produce earpieces by the above-described processes.

Thus, the particular embodiments or features of the invention disclosed by this specification or shown in the drawings or tables accompanying this application are not intended to be limiting but rather to illustrate the numerous and varied embodiments generally covered by this invention or equivalents covered by any particular feature related to this invention. Additionally, a detailed description of a single embodiment or component of the invention may not explicitly describe all possible embodiments or components; the specification and drawings implicitly disclose a number of alternatives.

It should be understood that each component of an apparatus or each step of a method may be described by an apparatus term or a method term. Such terms may be substituted as desired to clarify the broad coverage to which the present invention is entitled. As just one example, it should be understood that all steps of a method may be disclosed as an action, a means for taking that action, or as a means for causing that action. Similarly, each component of a device may be disclosed as a physical component or an action that the physical component facilitates. As just one example, disclosure of "moldable earpiece material (5)" should be understood to encompass disclosure of the act of "molding the earpiece material" whether or not explicitly discussed, and conversely, if the act of "molding the earpiece material" is effectively disclosed, such disclosure should be understood to encompass disclosure of "moldable earpiece material (5)" and even "means for molding the earpiece material". These alternative terms for each component or step are to be understood to be explicitly included in the present specification.

In addition, with respect to each term used, it should be understood that unless the use of that term in this application is inconsistent with such interpretation, common Dictionary definitions should be understood to be included in the description of each term as contained in the Unabridged Dictionary, second edition of Random House Webster, each definition being incorporated herein by reference.

Furthermore, for the purposes of the present invention, the terms "a" or "an" entity refer to one or more of that entity; for example, "an earpiece" refers to one or more of the earpieces. Thus, the terms "a", "an", "one or more" and "at least one" may be used interchangeably herein.

All numerical values herein are assumed to be modified by the term "about," whether or not explicitly indicated. For the purposes of this invention, a range may be expressed as from "about" one particular value to "about" another particular value. When such a range is expressed, another embodiment includes from the one particular value to the other particular value. The recitation of numerical ranges by endpoints includes all numbers subsumed within that range. A numerical range of 1 to 5 includes, for example, numerical values of 1, 1.5, 2, 2.75, 3, 3.80, 4, 5, and so forth. It will be further understood that the endpoints of each of the ranges are significant both in relation to the other endpoint, and independently of the other endpoint. The term "about" generally refers to a range of numerical values that one of ordinary skill in the art would consider equivalent to the stated numerical value or to have the same function or result.

Similarly, the antecedent "substantially" largely, but not completely, means the same form, manner, or degree, and that a particular component will have a range of configurations as one of ordinary skill in the art would recognize as having the same function or result. When a particular feature is expressed as an approximation by the use of the antecedent "substantially," it should be understood that particular feature forms another embodiment.

Accordingly, it should be understood that the applicant claims at least: i) each earpiece disclosed and described herein, ii) the related methods disclosed and described, iii) similar examples, equivalents or even implicit variations of each of these devices and methods, iv) those alternative embodiments which implement each of the functions shown, disclosed or described, v) those alternative designs and methods which implement each of the functions shown are implicit to implement the functions disclosed and described, vi) each feature, component and step is shown as a separate and independent invention, vii) applications enhanced by the various systems or components disclosed, viii) the resulting product produced by such systems or components, ix) the methods and apparatus substantially as described above and with reference to any of the accompanying examples, x) various combinations and permutations of each of the previous components disclosed.

The background section of this patent application provides a statement as to the field of endeavor to which this invention pertains. This background section may also incorporate or contain an explanation of the subject matter of certain U.S. patents, patent applications, publications, or claimed inventions for the relevant information, problems, or concerns regarding the state of the art to which the invention pertains. No interpretation, inference, or other suggestion of any U.S. patent, patent application, publication, statement or other information cited or incorporated herein is intended or should be construed as an admission that such is prior art with respect to the present invention.

The claims, if any, set forth in this specification are hereby incorporated by reference as part of this description of the invention and the applicants expressly reserve the right to use all or a portion of such incorporated content of such claims as an additional description to support any or all of the claims, or any elements thereof or components thereof, and the applicants further expressly reserve the right to move any or all of the incorporated content of such claims, or any elements thereof or components thereof, as desired, into the claims, or vice versa, to define matter of protection sought in this application or any subsequent application or continuation, division or continuation of this application, or to obtain any benefit of the patent laws, rules, or regulations in any country or treaty, to reduce costs in accordance with the patent laws, rules, or regulations in any country or treaty, or to comply with patent laws, rules, or regulations of any country or treaty, and such content incorporated by reference should persist throughout the pendency of this application, including any subsequent continuation, divisional or partial continuation of this application, or any reissue or delay to this application.

The claims set forth in this specification are intended to describe the scope and limits of a limited number of preferred embodiments of the invention, if any, and should not be construed as the broadest embodiment of the invention or as a complete listing of embodiments of the invention that may be claimed. The applicant does not waive any right to develop further claims based on the description set out above as part of any continuation, division or continuation-in-part or similar application.