Compressible ear tip
First Claim
Patent Images
1. An ear tip adapted to deliver sound to a canal of a human ear, which ear tip comprises:
- (a) a first section adapted to couple with a sound-transmitting device, and(b) a second section connected to and in open communication with the first section, the second section comprising (1) walls defining a bulbous second section having a region of greatest outside diameter and a convex inner surface, which inner surface defines a hollow inner chamber having an inside diameter and a preselected length, and (2) a outlet port adapted for open communication with the ear canal;
whereinthe second section presents a surface for contact with the ear;
the walls have a hardness in a range between (1) a lower limit above that hardness which will allow loss of open communication between the ear and the sound-transmitting device when the ear tip is in place in the ear, and (2) an upper limit of about 90 Shore A;
the second section is deformable under an axial force in a range between about 8 ounces and 12 ounces from a relaxed state to a compressed state, in which compressed state the ear-contacting surface is of substantially greater area than in the relaxed state;
the sound section is adapted to conform in the compressed state to the external acoustic meatus of the ear;
a maximum outside diameter of the second section is at least about 0.40 inches; and
the ear tip exhibits a compression diameter increase of at least about 10% under an axial force of 12 ounces.
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Accused Products
Abstract
An ear tip for use with a stethoscope, audio headset or like device, the ear tip being of a construction and design that provides substantial deformation of the ear tip under normal stethoscope pressures such that in use the ear tip is seated comfortably and conformably against the ear canal opening.
78 Citations
12 Claims
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1. An ear tip adapted to deliver sound to a canal of a human ear, which ear tip comprises:
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(a) a first section adapted to couple with a sound-transmitting device, and (b) a second section connected to and in open communication with the first section, the second section comprising (1) walls defining a bulbous second section having a region of greatest outside diameter and a convex inner surface, which inner surface defines a hollow inner chamber having an inside diameter and a preselected length, and (2) a outlet port adapted for open communication with the ear canal; wherein the second section presents a surface for contact with the ear; the walls have a hardness in a range between (1) a lower limit above that hardness which will allow loss of open communication between the ear and the sound-transmitting device when the ear tip is in place in the ear, and (2) an upper limit of about 90 Shore A; the second section is deformable under an axial force in a range between about 8 ounces and 12 ounces from a relaxed state to a compressed state, in which compressed state the ear-contacting surface is of substantially greater area than in the relaxed state; the sound section is adapted to conform in the compressed state to the external acoustic meatus of the ear; a maximum outside diameter of the second section is at least about 0.40 inches; and the ear tip exhibits a compression diameter increase of at least about 10% under an axial force of 12 ounces. - View Dependent Claims (5, 6, 7, 8, 9, 10, 11, 12)
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2. An ear tip adapted to deliver sound to a canal of a human ear, which ear tip comprises:
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(a) a first section adapted to couple with a sound-transmitting device, and (b) a second section connected to and in open communication with the first section, the second section comprising (1) walls defining a bulbous second section having a region of greatest outside diameter and, a convex inner surface, which inner surface defines a hollow inner chamber having an inside diameter and a preselected length, and (2) a outlet port adapted for open communication with the ear canal; wherein the second section presents a surface for contact with the ear; the walls have a hardness in a range between (1) a lower limit above that hardness which will allow loss of open communication between the ear and the sound-transmitting device when the ear tip is in place in the ear, and (2) an upper limit of about 90 Shore A; the second section is deformable under an axial force in a range between about 8 ounces and 12 ounces from a relaxed state to a compressed state, in which compressed state the ear-contacting surface is of substantially greater area than in the relaxed state; the second section is adapted to conform in the compressed state to the external acoustic meatus of the ear; a ratio of (i) the length of the hollow inner chamber to (ii) the inside diameter of the second section measured at the region of greatest outside diameter of the second section is less than about 1.2; and the ear tip exhibits a compression distance factor of at least about 0.5 inches under an axial force of 8 ounces.
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3. An ear tip adapted to deliver sound to a canal of a human ear, which ear tip comprises:
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(a) a first section adapted to couple with a sound-transmitting device, and (b) a second section connected to and in open communication with the first section, the second section comprising (1) walls defining a bulbous second section having a region of greatest outside diameter and, a convex inner surface, which inner surface defines a hollow inner chamber having an inside diameter and a preselected length and (2) a outlet port adapted for open communication with the ear canal; wherein the second section presents a surface for contact with the ear; the walls have a hardness in a range between (1) a lower limit above that hardness which will allow loss of open communication between the ear and the sound-transmitting device when the ear tip is in place in the ear, and (2) an upper limit of about 90 Shore A; the second section is deformable under an axial force in a range between about 8 ounces and 12 ounces from a relaxed state to a compressed state, in which compressed state the ear-contacting surface is of substantially greater area than in the relaxed state; the second section is adapted to conform in the compressed state to the external acoustic meatus of the ear; the second section has a maximum outside diameter of at least about 0.40 inches; a ratio of (i) the inside diameter of the second section measured at the region of greatest outside diameter of the second section to (ii) the greatest outside diameter of the second section is between about 0.6 and about 0.95; and a ratio of (i) the length of the hollow inner chamber to (ii) the inside diameter of the second section measured at the point of greatest outside diameter of the second section is less than about 1.5.
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4. An ear tip adapted to deliver sound to a canal of a human ear, which ear tip comprises:
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(a) a first section adapted to couple with a sound-transmitting device, and (b) a second section connected to and in open communication with the first section, the second section comprising (1) walls defining a bulbous second section having a region of greatest outside diameter and a convex inner surface, which inner surface defines a hollow inner chamber having an inside diameter and a preselected length, and (2) a outlet port adapted for open communication with the ear canal; wherein the second section presents a surface for contact with the ear; the walls have a hardness in a range between (1) a lower limit above that hardness which will allow loss of open communication between the ear and the sound-transmitting device when the ear tip is in place in the ear, and (2) an upper limit of about 90 Shore A; the second section is deformable under an axial force in a range between about 8 ounces and 12 ounces from a relaxed state to a compressed state, in which compressed state the ear-contacting surface is of substantially greater area than in the relaxed state; the second section is adapted to conform in the compressed state to the external acoustic meatus of the ear; and the walls have a minimum thickness in the region of greatest outside diameter of the second section and a greater thickness in a region nearer the outlet port, such that the ear tip bulges in the region of greatest outside diameter of the second section when the ear tip is subjected to an axial force in the range between about 8 ounces and 12 ounces.
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Specification