CN110732091A

CN110732091A - Neck-shoulder type wearing equipment

Info

Publication number: CN110732091A
Application number: CN201911210053.5A
Authority: CN
Inventors: 王元聪; 吴恒
Original assignee: Shenzhen Magnet Technology Co Ltd
Current assignee: Shenzhen Magnet Technology Co Ltd
Priority date: 2019-12-02
Filing date: 2019-12-02
Publication date: 2020-01-31

Abstract

neck-shoulder wearable devices are disclosed, which comprise a substantially C-shaped or U-shaped support structure, a 0 th extension arm extending from an end of the support structure , a second extension arm extending from another end of the support structure 1, 3 or more storage bins disposed in the 2 th extension arm and/or the second extension arm, the storage bins configured to store aromatherapy material, or more exhaust fans disposed in the th extension arm and/or the second extension arm, or more air inlets disposed in the th extension arm and/or the second extension arm, and may also comprise or more acoustic elements, a substantially C-shaped or U-shaped support structure, a th extension arm extending from an end of the th extension arm of the support structure, a second extension arm extending from a second end of the support structure, wherein the acoustic elements are disposed in the nd and/or the second extension arm, and a compact, audio-based, and therapy aid device is provided.

Description

Neck-shoulder type wearing equipment

Technical Field

The invention relates to an auxiliary physiotherapy and audio equipment capable of being worn on neck and shoulder parts.

Background

With the rapid development of electronic technology, various forms of auxiliary physical therapy devices and audio devices are beginning to be miniaturized and diversified.

The far infrared auxiliary physiotherapy equipment and the aroma equipment which are common in the market are large in size and basically driven by alternating current, the auxiliary audio equipment with the voice communication and music functions is common, such as game earphones, but the structural design tends to be homogeneous, and the product function list .

Therefore, there is a demand for miniaturization, convenience, and integration of multiple functions in the auxiliary physical therapy and audio equipment.

Disclosure of Invention

In order to solve the technical problems, the invention adopts the following technical scheme:

according to an aspect of the invention, a neck-shoulder wearing apparatus is protected, comprising:

a support structure that is substantially C-shaped or U-shaped;

a extending arm extending from an end of the support structure ;

a second extension arm extending from another end of the support structure;

or more storage bins disposed in the th extension arm and/or the second extension arm, the storage bins configured to store fragrance material;

or more exhaust fans disposed in the th extension arm and/or the second extension arm, wherein the exhaust fan has a vent opening located on the surface of the th extension arm and facing outward when the exhaust fan is disposed in the th extension arm, and the exhaust fan has a vent opening located on the surface of the second extension arm and facing outward when the exhaust fan is disposed in the second extension arm;

or more air inlets disposed in the th extension arm and/or the second extension arm, wherein the air inlets have a vent opening facing outwardly and toward the other surface of the th extension arm when the air inlets are disposed in the th extension arm and have a vent opening facing outwardly and toward the other surface of the second extension arm when the air inlets are disposed in the second extension arm;

the storage bin is positioned in a channel between the air inlet and the exhaust fan corresponding to the position in the th extension arm and/or the second extension arm, and the storage bin is communicated with the or more air inlets and also communicated with the or more exhaust fans through an air gap arranged in the channel.

, wherein the exhaust fan is positioned on the upper surface of the th extension arm when the exhaust fan is positioned in the th extension arm and the exhaust fan is positioned on the upper surface of the second extension arm when the exhaust fan is positioned in the second extension arm;

the air inlet is disposed in the th extension arm with its vent opening facing the side surface of the th extension arm, and the air inlet is disposed in the second extension arm with its vent opening facing the side surface of the second extension arm.

, it further includes or more far infrared emitters disposed on the and/or the second extension arm.

, it also comprises or more acoustic elements, including at least of microphone, throat microphone and horn;

wherein the microphone is located at the free end of the th extension arm and/or at the free end or upper surface of the second extension arm;

the throat microphone is positioned at the th extension arm and/or the second extension arm, and faces the direction outside the lower surface of the th extension arm and/or the direction outside the lower surface of the second extension arm, and the outer surface of the throat microphone protrudes from the lower surface of the th extension arm and/or the lower surface of the second extension arm;

the horn is arranged on the th extension arm and/or the second extension arm and is a universal horn, a directional horn or a bone conduction horn, when the horn is a universal horn or a directional horn, the horn faces to the outer direction of the upper surface of the th extension arm and/or the outer direction of the upper surface of the second extension arm, when the horn is a bone conduction horn, the horn faces to the outer direction of the lower surface of the th extension arm and/or the outer direction of the lower surface of the second extension arm, and the outer surface of the bone conduction horn protrudes out of the lower surface of the th extension arm and/or the lower surface of the second extension arm.

The touch control panel is arranged on the th extension arm and/or the second extension arm and is configured to collect touch control interactive operation of a user.

The multifunctional extension arm also comprises or a plurality of sensors which are arranged on the th extension arm and/or the second extension arm and are configured to acquire wearing states of a user, wherein the sensors face the outer direction of the lower surface of the th extension arm and/or the outer direction of the lower surface of the second extension arm.

The system also comprises or more wireless transceivers used as communication ports of audio signals or control signals, wherein the wireless transceivers adopt or more wireless communication interfaces comprising Bluetooth, GSM, CDMA, UMTS, EV-DO, WiMAX, LTE, NFC and non-standard protocol wireless radio frequency communication interfaces.

The device also comprises or more of the following operation interfaces, namely an audio interface, a power interface, a magnetic contact interface, a wireless charging interface and a USB/TF/SD interface, wherein the audio interface comprises an interface configured to receive audio signals and/or an interface driving external audio playing equipment, and the external audio playing equipment is external in-ear earphones, external headphones, external bone conduction earphones or external sound equipment.

The neck shoulder wearing equipment selects different sound sources through the light touch keys in a switching way, and the different sound sources comprise a microphone, a throat microphone, an interface for receiving audio signals and or a plurality of wireless transceivers;

or the neck-shoulder wearing equipment switches and selects different sound playing elements through the light touch key, and the different sound playing elements comprise a general loudspeaker, a directional loudspeaker and a bone conduction loudspeaker;

or the neck-shoulder wearing equipment further switches and selects different sound output interfaces through the light touch key, and the different sound output interfaces comprise an interface for driving external audio playing equipment and or a plurality of wireless transceivers.

The video acquisition interface is arranged on the upper surface of the th extension arm and/or the second extension arm and is configured to acquire video information in front of a user, including gesture information of the user, road condition information in front of the user and/or background information.

The sound processing device also comprises a touch control panel and/or a light touch key arranged on the upper surface of the th extension arm and/or the second extension arm, and is used for adjusting sound processing parameters including gain, frequency response and at least of mute, play and power-off through touch control operation and/or light touch operation of a user.

The touch input board and/or the light touch key are/is configured to be used for adjusting the exhaust fan control parameters through user touch operation and/or light touch operation, wherein the exhaust fan control parameters comprise exhaust speed, exhaust stopping and exhaust starting.

The support structure is internally provided with a shaping component which is bent to have a fixed shape, or an elastic component which is bent to restore the original shape, and two free ends of the shaping component/the elastic component respectively extend to the th extension arm and the second extension arm.

According to a second aspect of the invention, the invention also protects an neck-shoulder wearing device comprising:

or more acoustic elements, the acoustic elements being at least of a microphone, a throat microphone, a horn;

a support structure that is substantially C-shaped or U-shaped;

a extending arm extending from an th end of the support structure;

a second extension arm extending from a second end of the support structure;

the acoustic element is arranged in the th extension arm and/or the second extension arm, and a sound hole for transmitting sound signals is formed in the surface of the th extension arm and/or the second extension arm.

, the microphone is located at the free end of the extension arm and/or the free end of the second extension arm, or at the upper surface of the extension arm and facing in an outward direction and/or at the upper surface of the second extension arm facing in an outward direction.

The throat microphone may be located on the th extension arm and/or the second extension arm in a direction outward of the lower surface of the th extension arm and/or outward of the lower surface of the second extension arm, with the throat microphone outer surface protruding above the lower surface of the th extension arm and/or the lower surface of the second extension arm.

, the horn comprises a universal horn, a directional horn and/or a bone conduction horn, the universal horn and the directional horn are oriented in a direction outside of the upper surface of the th extension arm and/or outside of the upper surface of the second extension arm, the bone conduction horn is oriented in a direction outside of the lower surface of the th extension arm and/or outside of the lower surface of the second extension arm, and the outer surface of the bone conduction horn protrudes from the lower surface of the th extension arm and/or the lower surface of the second extension arm.

The vehicle seat further comprises or more sensors arranged on the th extension arm and/or the second extension arm and configured to acquire wearing conditions of a user, wherein the sensors face the direction outside the lower surface of the th extension arm and/or the direction outside the lower surface of the second extension arm.

or more wireless transceivers are also included as communication ports for audio or control signals, which employ or more wireless communication interfaces including Bluetooth, GSM, CDMA, UMTS, EV-DO, WiMAX, LTE, NFC and non-standard protocol wireless radio frequency communication interfaces.

The wireless charging system further comprises or more using operation interfaces, wherein the using operation interfaces comprise at least of an audio interface, a power supply interface, a magnetic contact interface, a wireless charging interface and a USB/TF/SD interface, the audio interface comprises an interface configured to receive audio signals and an interface configured to drive external audio playing equipment, and the external audio playing equipment comprises an external in-ear earphone, an external headset, an external bone conduction earphone or an external sound box.

The voice processing system also comprises a touch input board and/or a light touch key which are arranged on the upper surface of the th extension arm and/or the second extension arm and are used for adjusting voice processing parameters including gain, frequency response, mute, play and power-off through touch operation and/or light touch operation of a user.

The neck-shoulder type wearable equipment integrates a small-sized physiotherapy equipment comprising a storage bin, an air inlet and an exhaust fan or a physiotherapy equipment with an additional acoustic element by taking a C-shaped or U-shaped support structure as a structure main body, combining a -th extension arm extending from the -th end of the support structure and a second extension arm extending from the second end of the support structure as a structure carrier, and is designed to integrate far infrared auxiliary physiotherapy, aroma physiotherapy combining voice and auxiliary pickup function combining music, so that the miniaturization, the convenience and the integration of the auxiliary physiotherapy and audio equipment are realized, a hidden effect is achieved to a certain extent on , the structure is attractive, the psychological needs of partial users are met, and the user experience is improved.

Drawings

FIG. 1 is a perspective view of an version of the neck-shoulder wearable device of the present invention;

FIG. 2 is a second perspective view of an th embodiment of the neck-shoulder wearable device of the present invention;

FIG. 3 is a perspective view of a second embodiment of the neck-shoulder wearable device of the present invention;

FIG. 4 is a second perspective view of a second embodiment of the neck-shoulder wearable apparatus of the present invention;

FIG. 5 is a perspective view of a third embodiment of the neck-and-shoulder harness of the present invention;

FIG. 6 is a second perspective view of a third embodiment of the neck and shoulder harness apparatus of the present invention;

figure 7 is a cross-sectional view of a neck-shoulder wearable device support structure of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only partial embodiments of of the present invention, rather than all embodiments.

The reference numbers and components in the drawings are as follows:

system 100 generally has a C-shaped or U-shaped support structure 101

Far

infrared emitters

102, 103,

horns

105, 106

Exhaust fans

109, 110 of

storage bins

107, 108

Air inlets

111, 112

microphones

113, 114

Touch input panel

115, 116 taps key 117

Power interface 118 uses operational interface 119

Throat microphones

120, 121

proximity sensors

122, 123

Bone conduction horns

124, 125

The extension arm 201 of the , the second extension arm 202

extension arm free end 203 and second extension arm free end 204

Video capture interfaces 301, 302

The embodiment of the invention protects neck-shoulder wearing devices, and according to the specific implementation form of the product of the invention, the neck-shoulder wearing device can be implemented as a miniaturized and convenient neck-shoulder wearing auxiliary physiotherapy device integrated with an audio device, such as the embodiment shown in fig. 1 and 2, or as a simplified miniaturized and convenient neck-shoulder wearing auxiliary physiotherapy device, such as the embodiment shown in fig. 3 and 4, or as a simplified neck-shoulder wearing audio device.

The present invention is further illustrated at in conjunction with various embodiments of the present invention.

In the th embodiment shown in fig. 1 and 2, the invention mainly comprises the following parts:

the part includes a support structure 101 that is generally C-shaped or U-shaped, a th extension arm 201 extending from a end of the support structure 101, and a second extension arm 202 extending from another end of the support structure, wherein the th extension arm 201 and the second extension arm 202 smoothly engage with the surface of the support structure 101, enhancing the aesthetic appearance of the device and the comfort of wearing.

The supporting structure 101 and the two extension arms form a main body part of the whole equipment, and the head of a user can be sleeved in the middle supporting structure 101, so that the two extension arms are respectively positioned on the left shoulder and the right shoulder, in order to enhance the wearing comfort of the embodiment of the invention, the cross sections of the supporting structure 101, the th extension arm 201 and the second extension arm 202 are approximately flat and hollow structures, as shown in fig. 7.

The C-shaped or U-shaped supporting structure 101 can be provided with a shaping component or an elastic component, two free ends of the shaping component or the elastic component respectively extend to the th extension arm 201 and the second extension arm 202, the shaping component is used for memorizing the bent and deformed shape and keeping the shaped shape after the supporting structure 101 is bent and deformed, so that different users can bend the equipment into a personalized shape, and the elastic component can restore the original shape after being bent, so that the deformation of the whole equipment is avoided.

For example, the shape memory alloy can be selected as the material of the shaped/resilient member of the support structure 101, and include memory alloys such as Au-Cd, Ag-Cd, Cu-Zn-Al, Cu-Zn-Sn, Cu-Zn-Si, Cu-Sn, Cu-Zn-Ga, In-Ti, Au-Cu-Zn, NiAl, Fe-Pt, Ti-Ni-Pd, Ti-Nb, U-Nb, and Fe-Mn-Si, and stainless steel wire, iron wire, copper wire, etc.

The second part comprises a storage bin 107 arranged in an th extension arm 201, a storage bin 108 arranged in a second extension arm 202, an exhaust fan 109 arranged in a th extension arm 201, an exhaust fan 110 arranged in the second extension arm 202, an air inlet 111 arranged in a th extension arm 201, an air inlet 112 arranged in the second extension arm 202, and or more built-in batteries for supplying power to other electric appliances such as the

exhaust fans

109, 110, etc. the

storage bins

108, 109 store champignon material which can be liquid, gas or solid.

In the th embodiment shown in fig. 1 and 2, the extension arm 201 is provided with storage bins 107, exhaust fans 109 and air inlets 111, and the second extension arm 202 is provided with storage bins 108, exhaust fans 110 and air inlets 112.

When the neck-shoulder wearing equipment starts the operation of the exhaust fan in the embodiment, the exhaust fan drives air to enter from the air inlet 111, then passes through the storage bin 107 and finally exhausts the air flow with the fragrance smell out of the equipment through the exhaust fan 109.

Further , the second portion may further include far infrared emitters 102 disposed inside the support structure 101 near the th extension arm 201, and far infrared emitters 103 near the second extension arm 201. the present invention provides the user with near infrared, short infrared, and medium infrared or more infrared therapies, wherein the near infrared wavelength is between 0.75 and 1.4 microns, the short infrared wavelength is between 1.4 and 3 microns, and the medium infrared wavelength is between 3 and 8 microns, through the far

infrared emitters

102 and 103.

When this equipment realized champignon physiotherapy function, can dispose above or a plurality of far infrared transmitter, provide infrared physiotherapy function in step .

Including a microphone 113 disposed in the th extension arm 201, a microphone 114 disposed in the second extension arm 202, a throat microphone 120 disposed in the th extension arm 201, a throat microphone 121 disposed in the second extension arm 202, a horn 105 disposed in the th extension arm 201, a horn 106 disposed in the th extension arm 201, or more wireless transceivers disposed in the support structure 101/or the th extension arm 201/or the second extension arm 202, a user interface 119 disposed on the free end 204 of the second extension arm, a touch pad 115 disposed on the upper surface of the th extension arm 201 and a touch pad 116 disposed on the upper surface of the second extension arm 202, a proximity sensor 122 disposed on the th extension arm 201, a proximity sensor 123 disposed on the th extension arm 202, a touch pad 117 disposed on the second extension arm 202, a touch pad disposed on the second extension arm 202, and a video capture interface 201/302 disposed on the second extension arm 202.

The microphone 113 faces the upper surface of the th extension arm 201 and faces outward to be perpendicular to the upper surface as much as possible, the microphone 114 faces the upper surface of the second extension arm 202 and faces outward to be perpendicular to the upper surface as much as possible, the throat microphone 120 faces the lower surface of the th extension arm 201 and faces outward to be perpendicular to the upper surface as much as possible, and the outer surface of the throat microphone 120 protrudes out of the lower surface of the th extension arm 201.

The speaker 105 is disposed in the th extension arm 201, further the speaker 105 may include a general speaker and a directional speaker, and may also include a bone conduction speaker, when a general speaker or directional speaker is used, the speaker 105 is disposed within the th extension arm 201 adjacent to the upper surface and may be oriented in a vertically outward direction toward the upper surface of the th extension arm 201, when a bone conduction speaker is used, the bone conduction speaker 124 is disposed within the th extension arm 201 adjacent to the lower surface and may be oriented in a vertically outward direction toward the lower surface of the th extension arm 201, the bone conduction speaker 125 is disposed within the th extension arm 202 adjacent to the lower surface and may be oriented in a vertically outward direction toward the lower surface of the th extension arm 202.

or more wireless transceivers arranged in the support structure 101/ extension arm 201/or the second extension arm 202 can be configured as communication ports for audio signals or control signals, and or more wireless communication interfaces including Bluetooth, GSM, CDMA, UMTS, EV-DO, WiMAX, LTE, NFC, and non-standard protocol wireless radio frequency communication interfaces can be wirelessly connected to communication devices such as mobile phones to acquire information such as audio files.

Wherein the use operation interface 119 provided on the free end 204 of the second extension arm provides more convenient operation for the present invention; the usage operation interface 119 includes, but is not limited to, an audio interface, a power interface, a magnetic attraction contact interface, a wireless charging interface, and a USB/TF/SD interface. The audio interface provided by the operation interface 119 may be an interface for directly receiving an audio signal, and may also include an interface configured to drive an external audio playback device; the external audio playing device comprises an external in-ear earphone, an external headset, an external bone conduction earphone, an external sound box and the like.

The power interface, the magnetic contact interface and the wireless charging interface which are arranged on the operation interface 119 are used for charging or more built-in batteries.

The USB/TF/SD interface arranged by the operation interface 119 can realize data access when the equipment works.

The touch pad 115 is located on the upper surface of the th extension arm 201, the touch pad 116 is located on the upper surface of the th extension arm 202, the proximity sensor 122 is located on the lower surface of the th extension arm 201 and can face the small surface of the th extension arm 201 in the outward vertical direction, and the proximity sensor 123 is located on the lower surface of the second extension arm 202 and can face the small surface of the th extension arm in the outward vertical direction.

Using the touch button 117, different sound sources can be selected by controlling the configuration switch of the main board, including the

microphones

113 and 114, the

throat microphones

120 and 121, the interface for receiving audio signals, or more wireless transceivers, and different sound playing components can be selected by controlling the configuration switch of the main board, including the speakers 105 and 106 (universal speakers, directional speakers, bone conduction speakers), and different sound output interfaces can be selected by controlling the configuration switch of the main board, including the interface for driving the external audio playing device, and or more wireless transceivers.

Using the touch keys 117, the control board may be configured to adjust sound processing parameters including gain, frequency response, also mute, play, and shut down via or via or more touch keys, and control parameters of the

exhaust fans

109 and 110, including exhaust speed, also stop exhaust and start exhaust.

The present invention can also adjust the sound processing parameters, including gain, frequency response, also including mute, play and shut down, by controlling the motherboard to configure the

touch input boards

115 and 116; the control parameters of the

exhaust fans

109 and 110, including the exhaust speed, also including stopping and starting exhaust, may also be adjusted by controlling the motherboard configuration.

The wearing state of a user is acquired by controlling the main

board configuration sensors

122 and 123, specifically, whether the main board configuration sensors are in contact with or are far away from the position between human bodies is detected through the proximity sensors, whether the main board configuration sensors are worn is judged, if the main board configuration sensors are worn, starting can be achieved through the control board, or if the main board configuration sensors are far away from the position between the human bodies, power distribution is judged to be cancelled, and the main board configuration sensors can be turned off or stand-by through the control board.

The video capture interfaces 301 and 302 capture video information in front of the user, including gesture information of the user, road condition information in front of the user, and background information. In the embodiment of the present invention, the user gesture information collected by the video collection interfaces 301 and 302 can be used as the interactive input information of the system 100, and the collected road condition information and background information in front of the user can be used as the working state reference information of the system 100.

The third part of the functional modules can realize voice pickup, voice communication and voice playing functions as required while performing the physiotherapy, and comprises the functions of voice pickup through the

microphones

113 and 114 and the

throat microphones

120 and 121, voice communication with external equipment through or more wireless transceivers and audio interfaces, and voice playing through the

loudspeakers

105 and 106 and the

bone conduction loudspeakers

124 and 125.

The third type of functional module enables wireless/wired communication of audio signals and control signals by using the operation interface 119 while performing therapy.

The third kind of functional module can realize user interaction operation through the

touch input boards

115 and 116, the light touch keys 117 and the video acquisition interfaces 301 and 302 while performing therapy.

In a second embodiment, shown in fig. 3 and 4, the apparatus comprises:

or more acoustic elements of at least type microphone, throat microphone, horn, support structure 101 of substantially C-or U-shape, extending from th end of support structure 101 extending from second end 202, wherein the acoustic elements are disposed in extending arm 201 and/or said second extending arm 202 and the surface of extending arm 201 and/or second extending arm 202 thereof is provided with a sound hole for transmission of sound signals.

In this embodiment, when the

speakers

105 and 106 are directional speakers or external bone conduction speakers, the

microphones

113 and 114 can be operated in a pickup mode to extract ambient sound and conduct the ambient sound to the user through the directional speakers, or can be connected to an external audio playing device through an audio interface to conduct the sound to the user.

The system 100, which is composed of the components of the present embodiment, forms shoulder-neck hearing aid devices due to the arrangement of the acoustic elements, and the user can realize the hearing aid effect by wearing the shoulder-neck wearing device.

According to specific needs, the device may further include

touch input panels

115 and 116, touch buttons 117, a power interface 118, a user interface 119,

proximity sensors

122 and 123, far

infrared emitters

102 and 103, or more wireless transceivers disposed in the support structure 101//second extension arm 201/202, video capture interfaces 301 and 302 disposed on the upper surface of the /second extension arm 201/202, and or more internal batteries, which are provided in the embodiment, the device may also include

storage bins

107 and 108,

exhaust fans

109 and 110,

air inlets

111 and 112, etc., which may have the same or similar structure design and aromatherapy functions as the embodiment.

Similarly, the user interactively operates the system 100 through the

touch input panels

115 and 116, touches the buttons 117, and uses the operation interface 119 to set the control parameters of the

exhaust fans

109 and 110, including the exhaust speed, and also including stopping and starting exhaust. In addition, the user can perform gesture interactive operation on the system 100 through the video capture interfaces 301 and 302.

In a third embodiment shown in fig. 5 and 6, the apparatus comprises the same components as the second embodiment, but the

speakers

105 and 106 of this embodiment can use a common speaker or a directional speaker to realize sound playing, and the

microphones

113 and 114 or the

throat microphones

102 and 121 can operate in a voice mode to pick up the voice of the user and perform communication.

The system 100 formed by the components of the present embodiment realizes the functions of voice pickup, voice playing, voice communication, data communication, etc., and realizes the function of a shoulder-neck earphone. The user performs interactive operations on the system 100 through the

touch input panels

115 and 116, the touch keys 117, and the operation interface 119, such as adjusting sound processing parameters including gain, frequency response, and also including mute, play, and power off. In addition, the user can perform gesture interactive operation on the system 100 through the video capture interfaces 301 and 302.

Similar to the second embodiment, the device of the present embodiment can also add corresponding structures to achieve various functions such as aromatherapy physiotherapy.

It will be apparent to those skilled in the art that many more simplifications, substitutions and deletions of functional blocks may be made without departing from the spirit of the invention, which is intended to provide further understanding of the invention at in conjunction with the detailed description of the specific embodiments, so as not to limit the scope of the invention.

Claims

1. Equipment is worn to neck shoulder formula, its characterized in that includes:

a support structure that is substantially C-shaped or U-shaped;

a extending arm extending from an end of the support structure ;

a second extension arm extending from another end of the support structure;

2. The neck shoulder worn apparatus of claim 1, wherein the exhaust fan, when disposed in the extension arm, has its vent located on the upper surface of the extension arm, and wherein the exhaust fan, when disposed in the second extension arm, has its vent located on the upper surface of the second extension arm;

3. The neck shoulder harness of claim 1 further comprising or more far infrared emitters disposed on the extension arm and/or the second extension arm.

4. The neck-shoulder wearing apparatus of , further comprising or more acoustic elements, at least of a microphone, a throat microphone and a horn;

5. The neck-shoulder wearable device of any of , of claims 1-3, further comprising a touch input pad disposed on the th extension arm and/or the second extension arm configured to capture user touch interactions.

6. The neck shoulder harness of any one of of claims 1-3, further comprising or more sensors disposed on the th and/or second extension arm configured to capture wearing status of a user, the sensors being directed outwardly of a lower surface of the th and/or second extension arm.

7. The neck-shoulder wearable device of any of claims 1-3, further comprising or more wireless transceivers as communication ports for audio or control signals, the wireless transceivers employing or more wireless communication interfaces including Bluetooth, GSM, CDMA, UMTS, EV-DO, WiMAX, LTE, NFC, and non-standard protocol wireless radio frequency communication interfaces.

8. The neck-shoulder worn device of any one of claims 1-3, further comprising or more of an audio interface, a power interface, a magnetic contact interface, a wireless charging interface, and a USB/TF/SD interface for use in connection with an operating interface, wherein the audio interface comprises an interface configured to receive audio signals and/or an interface to drive an external audio playback device, the external audio playback device being an external in-ear headphone, an external headset, an external bone conduction headphone, or an external stereo.

9. The neck-shoulder wearing apparatus as claimed in any one of , further comprising or more tact buttons disposed on the th extension arm and/or the second extension arm, wherein the neck-shoulder wearing apparatus switches to select different sound sources through the tact buttons, wherein the different sound sources include a microphone, a throat microphone, an interface for receiving audio signals, or more wireless transceivers;

10. The neck-shoulder worn device of any of claims , further comprising a video capture interface disposed on an upper surface of the th extension arm and/or the second extension arm and configured to capture video information of a user's front including user gesture information, user front traffic information, and/or background information.

11. The neck-shoulder wearable device of of claims 1-3, further comprising a touch input pad and/or a tap button disposed on an upper surface of the th and/or second extension arm for user touch and/or tap manipulation to adjust sound processing parameters including gain, frequency response, and at least of mute, play, and power off.

12. The neck-shoulder worn device of claim 11, wherein the touch input panel and/or the tap button are configured for user touch operation and/or tap operation to adjust the exhaust fan control parameter, including exhaust speed, and also including exhaust stop and exhaust start.

13. The neck shoulder harness of any one of wherein the support structure has a shape-retaining member that is bent to assume a fixed shape or a resilient member that is bent to assume its original shape, the free ends of the shape-retaining member/resilient member extending to the and second extension arms, respectively.

14, A neck-shoulder wearable device, comprising:

or more acoustic elements, the acoustic elements being at least of microphone, throat microphone, horn;

a support structure that is substantially C-shaped or U-shaped;

a extending arm extending from an th end of the support structure;

a second extension arm extending from a second end of the support structure;

15. The neck shoulder harness of claim 14 wherein the microphone is located at the free end of the th extension arm and/or the free end of the second extension arm, or at the upper surface of the th extension arm and facing in an outward direction and/or at the upper surface of the second extension arm facing in an outward direction.

16. The neck shoulder harness of claim 14 wherein the throat microphone is located on the th and/or second extension arm in a direction outward of the lower surface of the th and/or second extension arm, and the throat microphone outer surface protrudes beyond the lower surface of the th and/or second extension arm.

17. The neck shoulder harness of claim 14 wherein the horn comprises a universal horn, a directional horn and/or a bone conduction horn, the universal horn and the directional horn are oriented in a direction outward of an upper surface of the extension arm and/or outward of an upper surface of the second extension arm, the bone conduction horn is oriented in a direction outward of a lower surface of the extension arm and/or outward of a lower surface of the second extension arm, and the bone conduction horn outer surface protrudes above the lower surface of the extension arm and/or the lower surface of the second extension arm.

18. The neck shoulder harness of any one of of claims 14-17, further comprising or more far infrared emitters disposed on the and/or the second extension arm.

19. The neck-shoulder wearable device of any of , further comprising a touch input pad disposed on the extension arm and/or the second extension arm configured to capture user touch interactions.

20. The neck shoulder harness of any one of of claims 14-17, further comprising or more sensors disposed on the th and/or second extension arm configured to gather wearing conditions of a user, the sensors being directed outwardly of a lower surface of the th and/or second extension arm.

21. A neck-shoulder wearable device as claimed in further comprising wireless transceivers as communication ports for audio or control signals employing or more wireless communication interfaces including Bluetooth, GSM, CDMA, UMTS, EV-DO, WiMAX, LTE, NFC and non-standard protocol wireless radio frequency communication interfaces.

22. The neck-shoulder worn device of any one of claims , further comprising or more operational interfaces, including at least of an audio interface, a power interface, a magnetic contact interface, a wireless charging interface, and a USB/TF/SD interface, wherein the audio interface comprises an interface configured to receive audio signals and an interface configured to drive an external audio playback device, and wherein the external audio playback device comprises an external in-ear headphone, an external headset, an external bone conduction headset, or an external stereo.

23. The neck-shoulder worn device of any one of claims 14-17, further comprising or more touch buttons disposed on the th extension arm and/or the second extension arm, wherein the neck-shoulder worn device switches to select different sound sources through the touch buttons, wherein the different sound sources include a microphone, a throat microphone, an interface for receiving audio signals, or more wireless transceivers;

24. The neck-shoulder harness of any of claims further comprising a video capture interface disposed on an upper surface of the and/or the second extension arm and configured to capture video information of a user's front including user gesture information, user front traffic information, and/or background information.

25. The neck-shoulder wearable device of any of claims , further comprising a touch input pad and/or a tap button disposed on an upper surface of the extending arm and/or the second extending arm for user touch and/or tap manipulation to adjust sound processing parameters including gain, frequency response, and also mute, play, and power off.

26. The neck-shoulder worn device of claim 25, wherein the touch input panel and/or the tap button are configured for user touch operation and/or tap operation to adjust the exhaust fan control parameter, including exhaust speed, and also including exhaust stop and exhaust start.

27. The neck shoulder harness of any one of wherein a shape-retaining member is provided within the support structure that is bent to assume a fixed shape or a resilient member that is bent to assume its original shape, the free ends of the shape-retaining member/resilient member extending to the and second extension arms, respectively.