Source: http://patents.com/us-10021475.html
Timestamp: 2018-11-18 17:15:24
Document Index: 153062158

Matched Legal Cases: ['arts 5', 'arts 5', 'arts 5', 'art 5', 'art 5', 'arts 5', 'arts 5', 'art 5', 'art 5', 'arts 5', 'arts 7', 'art 5', 'art 7', 'art 7', 'art 5', 'art 7', 'art 5', 'art 7', 'arts 5', 'arts 5', 'arts 5', 'arts 5', 'art 5', 'arts 7', 'arts 7']

US Patent # 1,002,1475. Headset - Patents.com
United States Patent 10,021,475
Koido , et al. July 10, 2018
A headset supported on a head of a wearer while passing around the head includes a bone conduction speaker, a contact type microphone, a frame that supports the bone conduction speaker and has elasticity, and a movable part configured to change a distance between the bone conduction microphone and the frame. This configuration can provide a headset that is easily worn by the wearer.
Koido; Teppei (Osaka, JP), Nakao; Suguru (Hyogo, JP), Kunimoto; Hirosi (Osaka, JP), Yamashita; Shuji (Nara, JP)
Family ID: 59066871
15/277,292
US 20170180841 A1 Jun 22, 2017
Dec 21, 2015 [JP] 2015-248165
Jul 13, 2016 [JP] 2016-138501
Current CPC Class: H04R 1/1041 (20130101); H04R 1/105 (20130101); H04R 1/46 (20130101); H04R 25/606 (20130101); H04R 2460/13 (20130101)
Current International Class: H04R 1/10 (20060101); H04R 1/46 (20060101)
Field of Search: ;381/71.11,71.6,151,312,380,324 ;455/11.1,575.2 ;600/23,418 ;700/94 ;704/231
9264793 February 2016 Brown
9438988 September 2016 Campbell
9622000 April 2017 Horii
9681222 June 2017 Park
9740842 August 2017 Wong
2004/0197002 October 2004 Atsumi et al.
2004/0229667 November 2004 Tsai
2005/0197565 September 2005 Yagi
2009/0185699 July 2009 Kim
2011/0170718 July 2011 Fukuda
2011/0293105 December 2011 Arie
2011/0301729 December 2011 Heiman
2012/0087519 April 2012 Emilsson
2013/0196721 August 2013 Waterman
2013/0288596 October 2013 Suzuki
2015/0289052 October 2015 Takeda
2015/0373450 December 2015 Black
2016/0037272 February 2016 Gebert
2016/0142818 May 2016 Park
2017/0180841 June 2017 Koido
11-331970 Nov 1999 JP
2003-018683 Jan 2003 JP
2004-032340 Jan 2004 JP
2008-263383 Oct 2008 JP
2012-123456 Jun 2012 JP
1. A headset comprising: a bone conduction speaker; a contact type microphone; a frame that supports the bone conduction speaker and has elasticity; and a movable part configured to change a distance between the contact type microphone and the frame, wherein the movable part includes a rotatable mechanism that allows the movable part to press the contact type microphone against a wearer that wears the headset.
2. The headset according to claim 1, wherein the frame supports a pair of the bone conduction speakers from parts below ears of the wearer when the headset is worn.
3. The headset according to claim 1, further comprising hooks to be respectively hooked to ears of the wearer.
4. The headset according to claim 1, wherein the contact type microphone includes a pharynx microphone.
5. The headset according to claim 1, wherein the contact type microphone is placed so as to be located in an interior side of the frame.
6. The headset according to claim 1, wherein the frame supports a pair of the contact type microphones, and a pair of the movable parts are configured to change distances between the pair of the contact type microphones and the frame respectively.
7. The headset according to claim 1, wherein the movable part has elasticity and presses the contact type microphone against the wearer with the elasticity.
8. The headset according to claim 1, wherein the movable part includes a connecting member that connects the contact type microphone to the rotatable mechanism.
9. The headset according to claim 8, wherein a width of the connecting member on a side of the rotatable mechanism is larger than a width of the connecting member on a side of the contact type microphone.
10. The headset according to claim 8, wherein: the connecting member includes two bars, and each of the two bars connects the contact type microphone to the rotatable mechanism.
11. The headset according to claim 10, wherein a distance between the two bars on a side of the rotatable mechanism is larger than a distance between the two bars on a side of the contact type microphone.
12. The headset according to claim 8, wherein: the frame includes an inner surface that faces the wearer when the wearer wears the headset, and the connecting member is attached to the contact type microphone in an area of an inner surface side of the frame.
13. The headset according to claim 12, wherein: the frame includes an outer surface opposite to the inner surface, and the connecting member is attached to the rotatable mechanism at a portion of an outer surface side of the frame.
14. The headset according to claim 12, wherein the rotatable mechanism is configured such that the contact type microphone rotates only in the area of the inner surface side of the frame.
15. The headset according to claim 1, wherein the rotatable mechanism is configured such that the contact type microphone rotates around an axis that crosses a part of the frame where the rotating mechanism is attached to the frame.
16. A headset comprising: a bone conduction speaker; a contact type microphone; a frame that supports the bone conduction speaker and has elasticity; and a movable part that connects the contact type microphone to the frame, wherein the movable part is configured to slide along the frame.
17. A headset comprising: two bone conduction speakers; a first contact type microphone and a second contact type microphone; a frame that supports the bone conduction speakers and has elasticity; a first movable part that connects the first contact type microphone to the frame; and a second movable part that connects the second contact type microphone to the frame, wherein the first and second movable parts are configured to rotate the first and second contact type microphones such that the first and second contact type microphones clamp a wearer from both sides, when the headset is worn by the wearer.
The present disclosure relates to a headset using bone conduction.
Unexamined Japanese Patent Publication No. 2008-263383 discloses a headset. The headset includes a microphone and a speaker.
The present disclosure provides a headset that is easily worn by a wearer.
The headset of the present disclosure is a headset supported on a head of the wearer while passing around the head, and includes a bone conduction speaker, a contact type microphone, a frame that supports the bone conduction speaker and has elasticity, and a movable part configured to change a distance between the contact type microphone and the frame.
The headset of the present disclosure can provide a headset that is easily worn by the wearer.
FIG. 1 is an external view of a headset of an exemplary embodiment;
FIG. 2 is an image diagram of the headset of the exemplary embodiment, in a worn state;
FIG. 3 is an operation diagram of movable parts of the exemplary embodiment;
FIG. 4 is an operation diagram of the movable parts of the exemplary embodiment;
FIG. 5 is an operation diagram of microphones of the exemplary embodiment; and
FIG. 6 is an external view of a headset of another exemplary embodiment.
Hereinafter, exemplary embodiments will be described in detail, with reference to drawings as appropriate. Here, any detailed description which is more than necessary may be omitted. For example, the detailed description of a well-known matter or the repeated description with respect to the substantially same configuration may be omitted. All of such omissions are intended to facilitate understanding by those skilled in the art by preventing the following description from becoming unnecessarily redundant.
It is noted that, the appended drawings and the following description are provided for those skilled in the art to fully understand the present disclosure, and it is not intended to limit the subject matter described in the claims by the appended drawings and the following description.
Hereafter, an exemplary embodiment will be described with reference to FIGS. 1 to 5.
FIG. 1 is an external view of a headset of the exemplary embodiment. In FIG. 1, headset 1 includes microphones 2, speakers 3, frame 4, movable parts 5, and hooks 6.
Each microphone 2 is a contact type microphone. The contact type microphone includes a pharynx microphone that collects voice by tightly sticking the microphone on a throat of a wearer, a bone conduction microphone that obtains voice of the wearer by utilizing bone conduction, and the like. Although two microphones (contact type microphones) are disposed as microphones 2 of the present disclosure, so as to obtain voice from both right and left sides of the wearer, single microphone 2 may be used.
Each speaker 3 is a bone conduction speaker that conducts sound to the wearer by utilizing bone conduction. Although two speakers are disposed as speakers 3 of the present disclosure, so as to conduct sound from both right and left sides of the wearer, single speaker 3 may be disposed.
Frame 4 is directly attached with speakers 3, and is disposed between two ears of the wearer passing around the head of the wearer.
Further, frame 4 has elasticity and is supported to the wearer with the elasticity. Specifically, when the wearer does not wear headset 1, frame 4 is smaller than the head of the wearer. When the wearer wears headset 1, frame 4 is expanded outward, and is supported to the wearer with its restoring force.
Further, frame 4 is adapted to extend from the part below one of the two ears of the wearer to the other while passing around a rear part of the head of the wearer. Frame 4 has a shape along an upper part of the head, as frame 4 extends from both parts below the two ears to the rear part of the head. This configuration allows frame 4 not to touch a collar or a rear part of a body of the wearer, even when the wearer turns his or her head upward.
Movable parts 5 have elasticity and press both microphones 2 against the wearer with the elasticity. As will be described in detail later, the wearer can change positions of microphones 2 by moving movable parts 5.
Here, each movable part 5 has a space in a center thereof. This configuration secures flexibility in a twisting direction (a rotary direction around a straight line connecting each microphone 2 and a portion at which each corresponding movable part 5 is mounted on frame 4), and causes force to be applied in an inward direction of frame 4 (laterally pressing direction).
As illustrated in FIG. 1, movable parts 5 preferably have a curved shape such that only microphones 2 can be pressed against the wearer.
Hooks 6 are to be hooked on the ears of the wearer to prevent headset 1 from being out of alignment. Each hook 6 is formed of silicon rubber including a wire or the like in a center thereof and is designed to fit a shape of each ear of the wearer. Further, each hook 6 is made thinner than frame 4 to allow glasses, goggles, or the like to be hooked on the ears together with hooks 6. Here, hooks 6 may have other shapes or may be formed of other materials.
FIG. 2 is an image diagram of the headset of the exemplary embodiment, in a worn state. That is, FIG. 2 illustrates an image in which the wearer wears headset 1.
FIGS. 3 and 4 are operation diagrams of the movable parts of the exemplary embodiment. FIG. 3 illustrates positions of microphones 2 when headset 1 is worn. FIG. 4 illustrates positions of microphones 2 when headset 1 is not worn.
FIG. 5 is an operation diagram of the microphones of the exemplary embodiment.
In a case of the pharynx microphones used, each microphone 2 is mounted so as to be located around area A in FIG. 2, that is, around an area extending from a part below each ear to a part behind each ear, in order to obtain spoken voice by utilizing voice vibration generated near the throat of the wearer. Whereas in a case of the bone conduction microphones used, each microphone 2 is mounted within area A in FIG. 2, in order to obtain spoken voice by utilizing bone conduction.
Speakers 3 are mounted to be respectively placed near the ears. A shape of each speaker 3 is designed such that each speaker 3 is placed in intimate contact with a tragus of the wearer. With such a shape, sound caused by bone conduction is more easily conducted, and is more easily heard by the wearer.
It is noted that, microphones 2 are fixed to the head from both sides of the wearer with the elasticity of frame 4 and movable parts 5, and speakers 3 are fixed to the head from both sides of the wearer with the elasticity of frame 4.
Further, each movable part 5 is configured to support each corresponding microphone 2 from a part behind each corresponding ear.
A movement of each movable part 5 of headset 1 configured above will be described in detail with reference to FIGS. 3 to 5.
Movable parts 5 include rotatable parts 7, and each movable part 5 is rotatable around each corresponding rotatable part 7. As illustrated in FIG. 3, in a state of headset 1 worn by the wearer, each microphone 2 is located at a position apart from frame 4, to be close to each corresponding ear. That is, each microphone 2 is placed so as to be located in an interior side of frame 4. Placing each microphone 2 at this position allows each microphone 2 to be pressed to an appropriate area (area A in FIG. 2), when the wearer wears headset 1.
Here, since a size of the head or the like varies for every wearer, a position of each microphone 2 in headset 1 varies for every wearer. However, the rotatable function of rotatable part 7 of each movable part 5 allows the position of each corresponding microphone 2 to be freely set in a rotary direction of rotatable part 7. Therefore, it becomes possible to adjust each microphone 2 so as to be located at a position within area A illustrated in FIG. 2 for every wearer.
If frame 4 is smaller than the head of the wearer and microphones 2 are fixed in the interior side of frame 4, the wearer needs to expand both frame 4 and microphones 2 outward in order to wear headset 1, resulting in inconvenience for the wearer.
Then, as illustrated in FIG. 4, each movable part 5 is rotated around each corresponding rotatable part 7 to place each microphone 2 close to frame 4. This configuration allows microphones 2 not to disturb wearing headset 1, and the wearer can wear headset 1 only by expanding frame 4. This facilitates wearing headset 1.
It is noted that, at this time, it is preferable that each microphone 2 is wide at a portion close to frame 4 and is thin at a portion far from frame 4 since headset 1 is easily placed in intimate contact with the wearer when the wearer wears headset 1.
Next, the positions of microphones 2 will be described in detail with reference to FIG. 5. With respect to microphones 2 and movable parts 5 in FIG. 5, positions denoted by solid lines correspond to the positions of microphones 2 and movable parts 5 in FIG. 4, and positions denoted by broken lines correspond to the positions of microphones 2 and movable parts 5 in FIG. 3.
As illustrated in FIG. 5, in a state in which headset 1 is worn, the wearer uses microphones 2 at the positions denoted by the broken lines, and presses each microphone 2 around area A illustrated in FIG. 2.
On the other hand, in a state in which headset 1 is about to be worn, the wearer moves microphones 2 to the positions denoted by the solid lines in FIG. 5. Microphones 2 moved to these positions are closer to frame 4, in comparison with the state in which headset 1 is worn (a distance between each microphone 2 and frame 4 can be changed). In addition, as illustrated in FIG. 5, microphones 2 located around a back part of the head of the wearer do not disturb wearing headset 1. Therefore, the wearer can easily wear headset 1.
Here, movable parts 5 change the positions of microphones 2 by rotation, but may change the positions of microphones 2 by sliding microphones 2 along frame 4, for example. Further, the positions of microphones 2 may be changed by folding back respective microphones 2 toward opposite sides to each other (outer sides of frame 4) while interposing frame 4. Alternatively, an arm of each movable part 5 may extend and retract, or slide.
However, taking easiness of wearing headset 1 into consideration, microphones 2 are more preferably made movable by using a single mechanical element that, for example, rotates microphones 2 around rotatable parts 7 as described above, without combining several mechanical elements including rotating microphones 2 around rotatable parts 7, sliding microphones 2, and the like.
As described above, in the exemplary embodiment, the positions of microphones 2 are made movable. This allows the wearer to easily wear headset 1, and to optimally adjust the positions of microphones 2.
As described above, the exemplary embodiment has been described as an exemplary technique disclosed in the present application. However, the technique in the present disclosure is not limited to the described exemplary embodiment, and can be applied to exemplary embodiments to which modifications, substitutions, additions, omissions, and the like are made.
Then, hereinafter, another exemplary embodiment will be described.
FIG. 6 is an external view of a headset of another exemplary embodiment. In FIG. 6, when glasses or goggles are not used together with headset 10, frame 11 of headset 10 may have a shape in which frame 11 is directly hooked on two ears.
Further, the frame is designed to pass around the rear part of the wearer, but the frame may be designed to pass around a top part of the head or the like. However, as described above, positions attached with microphones 2 are below the ears. Therefore, the configuration in which the frame passes close to parts below the ears is more preferable since the movable parts can be made smaller.
It is noted that, since the aforementioned exemplary embodiments are to exemplify the technique in the present disclosure, various modifications, substitutions, additions, and omissions may be performed within a scope of claims and equivalents to the claims.
The present disclosure can provide a headset that is easily worn by a wearer, and can be applied to a headset using contact type microphones.
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