Earphone device

Abstract

An earphone device includes a housing having a driver unit, and a sound guide tube mounted on a front surface of the housing to protrude from the front surface, in which the sound guide tube is disposed at a position deviated from a center position of the housing.

Claims

1. An earphone device comprising: a driver unit; a housing; a sound guide tube mounted on a front portion of the housing to protrude from the front portion, wherein the sound guide tube is at a position deviated from a center position of the housing, and wherein the position of the front portion of the housing is fixed with respect to the rest of the housing; and a cushion member interposed between the driver unit and an opening that connects an interior of the housing to an exterior of the housing, in which the cushion member is spaced from the driver unit, wherein a center line of the housing and a center line of the sound guide tube meet at a point behind the driver unit and the center line of the housing intersects a portion of the cushion member.

2. The earphone device of claim 1, wherein the sound guide tube includes a sound guide tip, and wherein a distance between a center point of the sound guide tube tip and the center line of the housing is no less than 3 mm and no more than 7 mm.

3. The earphone device according to claim 1, wherein an angle between the center line of the housing and the center line of the sound guide tube is no less than 10° and no more than 60°.

4. The earphone device according to claim 1, wherein the sound guide tube has a tip made of flexible material.

5. The earphone device according to claim 1, wherein the opening is at the front portion of the housing.

6. The earphone device according to claim 1, wherein the front portion of the housing is fixed onto a rear portion of the housing, and further comprising: a projecting portion projecting from the rear portion of the housing.

7. The earphone device according to claim 6, wherein the projecting portion includes a cylindrical type shape.

8. The earphone device according to claim 6, wherein the projecting portion is a cord retainer configured to retain a cord.

9. The earphone device according to claim 6, wherein at least a part of the projecting portion is located at outside of a cavum conchae when the earphone device is worn by a user.

10. The earphone device according to claim 1, further comprising: an annular part provided around a periphery of the housing.

11. The earphone device according to claim 1, wherein the front portion of the housing is fixed onto a rear portion of the housing, and further comprising: an annular part provided at a connecting portion of the front portion and the rear portion.

12. The earphone device according to claim 1, wherein the earphone is configured to generate sound corresponding to an audio signal supplied from a music player.

13. The earphone device of claim 1, further comprising: a cord connected to the driver unit.

14. The earphone device of claim 1, further comprising: an earpiece mounted on a tip portion of the sound guide tube, the earpiece being formed using a flexible material.

15. The earphone device of claim 14, wherein the earpiece has a flange profile that deforms corresponding to a profile of an external auditory meatus.

16. The earphone device of claim 14, wherein, when the earpiece is fixed to an external auditory meatus, the earpiece deforms corresponding to a profile of the external auditory meatus and is closely attached to the external auditory meatus.

17. The earphone device of claim 1, wherein a front portion of the housing presses the driver unit toward a rear portion of the housing flexibly with the cushion member.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is a lateral elevational view showing an earphone device according to an embodiment of the present invention.

(2) FIG. 2 is a rear elevational view showing the earphone device according to the embodiment of the present invention.

(3) FIG. 3 is a bottom plan view showing the earphone device according to the embodiment of the present invention.

(4) FIG. 4 is a cross section viewed from the top showing a left earphone unit of the earphone device according to the embodiment of the present invention.

(5) FIG. 5 is a cross section viewed from the lateral side showing the left earphone unit of the earphone device according to the embodiment of the present invention.

(6) FIG. 6 is a cross section viewed from the rear side showing the left earphone unit of the earphone device according to the embodiment of the present invention.

(7) FIG. 7 is a schematic illustration used for description of offset and tilt of the earphone device.

(8) FIG. 8 is a top plan view showing a measurement earphone device.

(9) FIG. 9 is a lateral elevational view showing the measurement earphone device in a fitting state.

(10) FIG. 10 is a top plan view showing the measurement earphone device in the fitting state.

(11) FIG. 11 is a table showing measurement results.

(12) FIG. 12 is a lateral elevational view showing the earphone device in the fitting state.

(13) FIG. 13 is a cross section viewed from the top showing the earphone device in the fitting state.

(14) FIG. 14 is a schematic illustration used for description of offset and tilt of a sound guide tube according to another embodiment.

(15) FIGS. 15A to 15C are schematic illustrations each showing a structure of an earphone device of a related art.

(16) FIGS. 16A and 16B are cross sections viewed from the top each showing the earphone device of the related art in the fitting state.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

(17) An embodiment of the present invention will be described below with reference to the attached drawings.

1. External Configuration of Earphone Device

(18) In FIGS. 1 to 3, an earphone device 1 according to an embodiment of the present invention is shown. The earphone device 1 includes an earpiece 3 having a shape corresponding to an external auditory meatus of a user in a fitting state, a substantially cylindrical sound guide tube 4 provided in the earpiece 3, a substantially spherical housing 5 in which the sound guide tube 4 is mounted, a substantially cylindrical cord retainer 6 integrally provided with the housing 5, and a cord 7 connected to a driver unit disposed in the housing 5.

(19) FIG. 1 is a lateral elevational view showing the earphone device in the Y-Z plane. FIG. 2 is a rear elevational view showing the earphone device 1 in the X-Z plane. FIG. 3 is a bottom plan view showing the earphone device 1 in the X-Y plane.

(20) As shown in FIG. 1, the earphone device 1 vibrates a diaphragm (not shown) disposed in the driver unit (not shown) accommodated in the housing 5 in accordance with audio signals supplied from a portable music player or the like (not shown) through the cord 7 connected to the player, varies a compression state of air present at the front of the diaphragm, and thus may generate sound corresponding to the audio signals.

(21) The cord retainer 6 of the earphone device 1 fixes a drawn position of the cord 7 being drawn from the housing 5, and allows the user to pinch the cord retainer 6 with finger tips when the user wears the earphone device 1.

(22) As shown in FIGS. 1 and 3, the cylindrical sound guide tube 4 integrated to and protrudes from a front surface of the housing 5, so that sound is guided to an external auditory meatus 23 (FIG. 16) from a sound guide tube tip 4A in the fitting state of the earphone device 1.

(23) The sound guide tube 4 uses ABS (Acrylonitril Butadiene Styrene) resin as its material. Accordingly, the sound output from the housing 5 may be guided to the external auditory meatus 23 while substantially no sound leaks outside.

(24) The earpiece 3 uses silicon rubber as its material, thus having flexibility. In the fitting state of the earphone device 1, the earpiece 3 may deform corresponding to a profile of the external auditory meatus 23 and may be closely attached thereto, so that substantially no sound, which is guided from the sound guide tube 4, leaks outside.

2. Internal Configuration of Earphone Device

(25) Next, the internal configuration of the earphone device 1 will be described below with reference to FIGS. 4 to 6 in which the same numerals are applied to the components corresponding to those in FIG. 1.

(26) FIG. 4 is a cross section viewed from the top showing the earphone device 1 taken along the line IV-IV. FIG. 5 is a cross section viewed from the lateral side showing the earphone device 1 taken along the line V-V. FIG. 6 is a cross section viewed from the rear side showing the earphone device 1 taken along the line VI-VI.

(27) As shown in FIGS. 4 and 5, the housing 5 includes a housing front portion 5A and a housing rear portion 5B made of plastic and connected to each other by ultrasonic welding to reliably keep the inner space of the housing 5 airtight.

(28) A number of holes 98 and 99 may be provided.

(29) When the housing front portion 5A and the housing rear portion 5B are connected to each other by ultrasonic welding, resin which melts at the welding may leak outside. To protect and conceal such resin, the housing 5 is sealed with an annular rubber 16.

(30) The housing 5 has a width W1 which is larger than the width W2 (FIG. 16A) of the housing 33 of the related art. Accordingly, a diaphragm 15 larger than the diaphragm (not shown) of the housing 33 of the related art may be accommodated in the housing 5.

(31) As shown in FIGS. 5 and 6, the cord retainer 6 accommodates a cord knot 11 of the cord 7 to function as a stopper that prevents the cord 7 from slipping out of the housing 5 when the cord 7 is pulled.

(32) As shown in FIGS. 4 and 5, a driver unit 12 accommodated in the housing rear portion 5B of the housing 5 includes a magnetic circuit having a magnet 13A, a plate 13B and a yoke 13C; a voice coil 14 inserted to a magnetic gap defined between the plate 13B and the yoke 13C; a disk-like diaphragm 15 attached to the voice coil 14; and a porous, metallic circular protection plate 20 spaced from the diaphragm 15 by a certain distance. The housing front portion 5A is disposed at a front circular opening of the housing rear portion 5B opposing the protection plate 20, with a cushion member 5C made from a rubber plate or the like interposed therebetween. The housing front portion 5A presses the driver unit 12 toward the housing rear portion 5B flexibly with the cushion member 50, and hence, the housing 5 may accommodate the driver unit 12 without rattling. The diaphragm 15 is driven in accordance with the audio signals input to the voice coil 14 through the cord 7, the compression state of air present at the front of the diaphragm 15 varies, and the sound corresponding to the audio signals is guided outside through the sound guide tube 4.

3. Offset and Angle Determination Method of Sound Guide Tube

(33) When the earphone device 1 (FIG. 3) is compared with the earphone device 30 (FIG. 15C) of the related art, the sound guide tube 4 protruding from the front surface of the housing 5 is attached to be deviated in the X-axis direction from a center line of the driver unit 12, i.e., a center line L1 of the housing 5. Namely, the sound guide tube 4 is offset in the X-axis direction by a predetermined offset amount with reference to the center line L1 of the housing 5.

(34) In addition, when the earphone device 1 is compared with the earphone device 30 of the related art, the sound guide tube tip 4A is directed in a direction away from the centerline L1 of the housing 5. Namely, the sound guide tube 4 tilts relative to the Y-axis by a predetermined angle (hereinafter, referred to as a tilt angle).

(35) The offset amount and the tilt angle of the sound guide tube 4 will be described with reference to FIG. 7 which is a cross section viewed from the top showing the earphone device 1 taken along the line VII-VII.

(36) The center line L1 of the housing 5 is plotted by connecting a center point of the front surface of the housing front portion 5A (hereinafter, referred to as a housing front portion midpoint P1) and a center point of the rear surface of the cord retainer 6 (hereinafter, referred to as a cord retainer midpoint P2). A center axis line L2 of the sound guide tube 4 is plotted by passing through a center point of the sound guide tube tip 4A (hereinafter, referred to as a sound guide tube tip midpoint P3). An intersection point P5 is determined by the center axis line L2 of the sound guide tube 4 and the center line L1 of the housing 5. Hence, a tilt angle AR1 is defined about the intersection point P5 as a tilt of the sound guide tube 4 with respect to the housing 5. An intersection point is determined by the center axis line L2 of the sound guide tube 4 and the housing front portion 5A (hereinafter, referred to as a sound guide tube base point P4). Hence, an offset amount OF1 is given by a distance from the center line L1 to the base point P4 in the X-axis direction in the X-Y plane.

3-1. Offset Determination Method of Sound Guide Tube

(37) With this offset determination method, the offset amount OF1 is determined by measurement using a dummy ear produced by making a mold of an ear of an actual person. In this embodiment, the offset amount OF1 is determined as 5 mm for instance.

3-2. Tilt Angle Determination Method of Sound Guide Tube

(38) Next, a procedure for determining an angle for the tilt angle AR1 of the sound guide tube 4 with respect to the front surface of the housing 5, will be described.

(39) In this tilt angle determination method, as shown in FIG. 8, a measurement earphone device 8 is prepared. The measurement earphone device 8 has a metering rod 17 bonded to the rear surface of the cord retainer 6. For example, the offset amount OF1 of the measurement earphone device 8 is determined as 5 mm, and the tilt angle of the sound guide tube 4 with respect to the front surface of the housing 5 is determined as 40°.

(40) Then, in this tilt angle determination method, subject persons are randomly selected for measurement, each person wears the measurement earphone device 8 as shown in FIG. 9, and tilt angles AR2 of the metering rod 17 with respect to a lateral surface of a head of each person in an fitting state of the measurement earphone device 8 as shown in FIG. 10.

(41) Further, in the tilt angle determination method, measurement results of the tilt angles AR2 are aggregated, a mean value of the tilt angle AR2 is obtained, and the tilt angle AR1 of the sound guide tube 4 is obtained by subtracting the mean value of the tilt angles AR2 from 40° which is the tilt angle of the sound guide tube 4 of the measurement earphone device 8 with respect to the front surface of the housing 5.

(42) In this tilt angle determination method, the above-described measurement of the tilt angle AR2 is applied to each of the randomly selected 33 subject persons, the measurement results are put into a table shown in FIG. 11, and the mean value of the tilt angles AR2 is obtained. The mean value of the tilt angles AR2 becomes 7°, the mean value 7° of the tilt angles AR2 is subtracted from the tilt angle 40° of the measurement earphone device 8, and the tilt angle AR1 of the sound guide tube 4 is determined as 33°.

(43) In this embodiment, the above-described measurement of the tilt angle AR2 has been applied to each of the 33 persons.

(44) Therefore, the earphone device 1 may provide comfortable fitting for a user having an ear with a normal shape, by determining the position and the tilt angle of the protrusion of the sound guide tube 4 with respect to the housing according to the above-mentioned offset determination method and the tilt angle determination method, even when the width W1 of the housing 5 is larger than the width W2 of the housing 33 of the related art.

4. Fitting of Earphone Device

(45) The earphone device 1 fits in the user's ear when the earpiece 3 is inserted to the external auditory meatus 23. FIG. 12 shows the earphone device 1 in the fitting state. FIG. 13 is a cross section viewed from the top showing the earphone device 1 taken along the line XIII-XIII in the fitting state.

(46) As shown in FIG. 13, in the fitting state of the earphone device 1, the housing 5 is located in a cavum conchae 21 indicated by a bold dotted line, and the earpiece 3 deforms corresponding to the shape of the external auditory meatus 23 when the flexible earpiece 3 is inserted to the external auditory meatus 23. Accordingly, the earphone device 1 may be attached closely to the external auditory meatus 23 and maintain the fitting state for a long time.

(47) In the earphone device 1, the width W1 of the housing 5 is larger than the width W2 of the housing 33 of the earphone device 30 (FIG. 16A) of the related art. Accordingly, the diaphragm 15 (FIG. 4) provided in the driver unit accommodated in the housing 5 may also increase in size as compared with the related art. In particular, the diaphragm 15 of the earphone device 1 may have an aperture K (FIG. 4) of 13.5 mm while the earphone device 30 of the related art has an aperture of 9 mm. Accordingly, in a case where 1 kHz sound is output with 1 mW power, it has been proved that the sensitivity of the earphone device 1 may increase by 6 to 8 dB as compared with that of the earphone device 30 of the related art.

(48) In this case, the sound guide tube 4 has an inside diameter t1 of 3.6 mm and an outside diameter t2 of 6.3 mm, the earpiece 3 has an outside diameter t3 of 12 mm, and the housing 5 has a width W1 of 15.5 mm.

5. Action and Effect

(49) With the above-described configuration, in the earphone device 1, the sound guide tube 4 (FIG. 7) is offset in the X-axis direction by the offset amount OF1 with reference to the center line L1 of the housing 5, and the sound guide tube tip midpoint P3 is directed in the direction away from the center line L1. Accordingly, even when the earphone device 1 employs the housing 5 having the width W1 which is larger than the width W2 of the housing 33 of the earphone device 30 of the related art, the user may wear the earphone device 1 without the housing 5 abutting on the tragus 22 (FIG. 13) of the user.

(50) In addition, in the earphone device 1, the offset amount OF1 and the tilt angle AR1 are determined on the basis of the mean value of the actual measurement results. Accordingly, when the user having the ear of the normal shape wears the earphone device 1, the housing 5 would not abut on the tragus 22, and hence it may be prevented that the user may not wear the earphone device 1 or the user feels difficulty for wearing it, thereby providing comfortable fitting.

(51) In addition, in the earphone device 1, the housing 5 has the width W1 (FIG. 13) which is larger than the width W2 (FIG. 16A) of the housing 33 of the earphone device 30 of the related art. Accordingly, the diaphragm 15 (FIG. 4) accommodated in the housing 5 may increase in size, and that the earphone device 1 may provide high-quality sound with effective bass sound as compared with the earphone device 30 of the related art.

(52) In addition, in the earphone device 1, the sound guide tube 4 is offset from the housing 5, and tilts by the tilt angle AR1. Accordingly, even when the housing 5 and the diaphragm 15 increase in size, the earpiece 3 may be closely attached to the external auditory meatus 23 (FIG. 13) to maintain the fitting state, the earphone device 1 may provide comfortable fitting for the user and high-quality sound.

(53) In addition, the earphone device 1 does not have a band over the top of the head or a hanger over the top of the ear. Accordingly, the earphone device 1 improves usability by addressing the disadvantages such as making the user's hair untidy, or not being portable, due to the provision of the band over the head of the user as disclosed in Japanese Examined Patent Application Publication No. 6-59120.

(54) With the above-described configuration, the earphone device 1 may provide comfortable fitting and further high-quality sound.

6. Modifications

(55) While the earpiece 3 employs as its material silicon rubber in the above-described embodiment, the present invention is not limited thereto. For example, the earpiece 3 may use a material such as urethane resin or acrylic resin.

(56) While the sound guide tube 4 employs as its material ABS resin in the above-described embodiment, the present invention is not limited thereto. For example, the sound guide tube 4 may use a resin such as polypropylene or polystyrene.

(57) While the sound guide tube 4 employs as its material ABS resin solely in the above-described embodiment, the present invention is not limited thereto. For example, the sound guide tube 4 may use elastomer resin for its base portion, and flexible material such as ABS resin for the residual portions other than the base portion, namely, a material of the sound guide tube 4 may be prepared by coinjection molding.

(58) In such a case, since the sound guide tube 4 is flexible at the portions other than the base portion, the sound guide tube tip 4A may be bent. Accordingly, when the earphone device 1 fits in the user's ear, the sound guide tube 4 and the earpiece 3 may be bent toward a proper direction so that the user feels more comfortable in fitting.

(59) While the diaphragm 15 has the aperture K (FIG. 4) of 13.5 mm in the above-described embodiment, the present invention is not limited thereto. For example, the aperture K may be 13.6 mm, 13.4 mm, and the like, as long as the housing 5 may be located within the cavum conchae 21 (FIG. 13). In such a case, the earphone device 1 may provide the improved fitting comfortability and high-quality sound for the user similarly to the case where the diaphragm 15 has the aperture K of 13.5 mm.

(60) While the tilt angle AR1 of the sound guide tube 4 is determined as 33° in the above-described embodiment, the present invention is not limited thereto. For example, the tilt angle AR1 may be any in a range from 10° to 60°, the range being derived from the number of subject persons and the measurement results. However, majority of the subject persons feel comfortable when wearing the earphone device 1 when the tilt angle AR1 falls within a range from 30° to 50°.

(61) While the offset amount OF1 is determined as 5 mm in the above-described embodiment, the present invention is not limited thereto. Even when the earphone device 1 is applied to various people, including a young woman having a small ear, a man, such as an American or European person, having relatively big ear, and the like, without limiting to the above-described 33 subject persons, majority of people feel comfortable with an offset amount OF1 in a range from 3 to 7 mm when wearing the earphone device 1 for a long time.

(62) While the tilt angle AR1 is an angle about the intersection point P5 defined by the center axis line L2 of the sound guide tube 4 and the center line L1 of the housing 5 in the above-described embodiment, the present invention is not limited thereto. For example, as shown in FIG. 14 which is the cross section viewed from the top showing the earphone device 1 taken along the line XIV-XIV, the tilt angle AR1 may be an angle about an intersection point P6 defined by a line L3 passing through the sound guide tube tip midpoint P3 and the center line L1 of the housing 5.

(63) While the offset amount OF1 is a distance extending in the X-axis direction from the center line L1 to the sound guide tube base point P4 in the above-described embodiment, the present invention is not limited thereto. For example, as shown in FIG. 14 which is the cross section viewed from the top showing the earphone device 1 taken along the line XIV-XIV, the offset amount OF1 may be any distance extending in the X-axis direction from the center line L1 to one of characteristic points present within the sound guide tube 4, such as a distance extending in the X-axis direction from the center line L1 to the sound guide tube tip midpoint P3.

(64) The earpiece 3 may vary in size to be detachably attached to the sound guide tube 4. In particular, the outside diameter t3 of the earpiece 3 may include sizes of 10, 12, and 14 mm, to allow the user who wears it may select the earpiece 3 in accordance with the size of the user's external auditory meatus (earhole), thereby further improving the fitting comfortability. While the earphone device 1 as an exemplary earphone device is configured by the housing 5 as an exemplary housing and the sound guide tube 4 as an exemplary sound guide tube, the present invention is not limited thereto. An earphone device may be configured by one of various types of housings and one of various types of sound guide tubes.

(65) It should be understood by those skilled in the art that various modifications, combinations, sub-combinations and alterations may occur depending on design requirements and other factors insofar as they are within the scope of the appended claims or the equivalents thereof.