CN1997241A - Nose bone conduction communication transfer and peripheral device - Google Patents

Abstract

This invention relates to nasal bone conductive communication and its circle device, which comprises the following parts: nasal bone input device with first oscillator to convert sound into sound signals; wire communication device connected with nasal input device to receive the sound signal and to connect one communion and outside sound signals; nasal transmission device with second oscillator to receive the wire communication sound signal converted into oscillator to ear part; load tool device to support each device.

Description

Nasal bone conduction communication transmission and peripheral device

Technical Field

The present invention relates to a nasal bone conduction communication transmission and peripheral device, and more particularly, to a nasal bone conduction communication transmission and peripheral device capable of making and receiving a call by oscillating and cooperating with a wired communication device.

Background

Wireless earphones or hearing aids, which transmit sound through air, but generally direct sound through air into the ear, often fail to eliminate external background sound sources, and therefore use bone-or skin-conducted oscillators to generate sound.

Taiwan patent publication No. 463517 discloses a transceiver device using a bone conduction type speaker, which comprises a bone conduction type speaker part, a microphone part and a driving circuit housing part, and is connectable to a telephone or a transceiver, wherein the bone conduction type speaker part is configured to be attachable to any position on the face when the microphone part is placed near the mouth. However, the arrangement of the abutment to any position on the face does not necessarily have a bone conduction effect.

The other known contact type indirect sound wave bone conduction device placed on the neck can eliminate part of background sound, but the tone quality of the transmitted sound is turbid due to the contact of the throat, and meanwhile, the device is clamped on the neck and is easy to slide, so that the device is inconvenient and not attractive.

In another known bone conduction type glasses hearing aid, an oscillator is placed at the rear end of an ear of a glasses frame to receive sound, although background sound can be eliminated, the problem of hearing can only be solved, sound cannot be produced, and due to long-term use, a glasses foot frame can be loosened and cannot be attached to an ear bone, so that the hearing aid effect is greatly reduced; in recent years, mobile machines such as mobile phones and the like are popularized and frequently used, wireless Bluetooth hands-free communication devices are popular, and the problem of listening and speaking when the mobile machines are used is solved, however, external background sound cannot be avoided, the ear-clamping type hearing aid is uncomfortable after being worn for a long time, thick and heavy glasses foot rests are not attractive, sweat is easy to flow behind ears to disable the hearing aid, and the hearing aid is easy to fall off during sports.

Disclosure of Invention

The invention aims to provide a nasal bone conduction communication transmission and peripheral device which sends and receives a call through a nasal bone conduction oscillator and is matched with a wired communication transmission device.

Another objective of the present invention is to provide a nasal bone conduction communication transmission and peripheral device connected to the speaking and receiving end of the wired communication transmission device through a carrier device.

Another object of the present invention is to provide a nasal bone conduction communication transmission and peripheral device with hearing aid function by using a microphone in combination with a wired communication transmission device.

It is still another object of the present invention to provide a nasal bone conduction communication transmission and peripheral device with intercom function by using a transmission device and a wired communication transmission device.

It is another object of the present invention to provide a nasal bone conduction communication transmission and peripheral device with a handsfree function by an oscillator in cooperation with a wired communication transmission device.

Another object of the present invention is to provide a nasal bone conduction communication transmission and peripheral device with hearing aid or intercom or earphone or hands-free receiver function.

It is still another object of the present invention to provide a nasal bone conduction wireless controller connectable to a communicator or a broadcasting device.

It is still another object of the present invention to provide a device with voice recognition to form a multifunctional nasal bone conduction communication transmission and peripheral device with language learning, translation or singing learning.

It is another objective of the present invention to provide a device with voice recognition and/or voice control to form a safety and remote control device with recognition and/or voice control functions.

The invention provides a nasal bone conduction communication transmission and peripheral device, at least comprising:

a bone conduction input device having an oscillator for converting a sound to be transmitted into a sound signal;

the wired communication transmission device is electrically connected with the bone conduction input device to receive the sound signal; and electrically connecting the communicator or the broadcasting device to transmit and/or receive external sound signals;

a carrier device for carrying the above devices;

wherein, the wired communication transmission device is electrically connected with the bone conduction input device to receive the sound signal; and the wire is connected with the communicator or the broadcasting device for transmission; the carrier device is a carrier placed on the nose, so that the bone conduction input device carried by the carrier device is in close contact with the bone skin of the nose, converts sound waves into sound signals by the bone conduction input device, and transmits the sound signals to the wired communication transmission device to be electrically connected to an external communicator or a broadcasting device for sending.

The bone conduction input device is a user speaking device.

The carrier device can be glasses, diving glasses, goggles, nose masks, hoods, patches, nose clips, glasses with movable clips, or can be attached to the nose bone and skin.

The wired communication transmission device is connected with a wire controller in a wired mode.

The wired controller at least comprises a connector, a power supply, a volume adjuster, a sound source switcher, a signal processor, an alarm and a power switch.

The volume adjuster is used to adjust the volume.

The sound source switcher is used for switching the sound source of the speaker or the bone conduction input device; the sound signal collected by the speaker and/or the sound signal collected by the bone conduction input device are connected to the speaker of the broadcasting device, so that the external broadcasting function can be formed, and the external broadcasting function can be applied to a protective mask, an oxygen mask, a broadcasting system and the like.

The signal processor is used for processing the received or transmitted electronic signal.

The connector is used to connect the communication device and the wired controller.

The nasal bone conduction wired controller can be externally connected with the communicator through a connector or internally arranged in the communicator.

The broadcasting device at least comprises a loudspeaker.

The invention provides a nasal bone conduction communication transmission and peripheral device, at least comprising:

the wired communication transmission device is used for receiving the external sound signal;

a bone conduction output device having an oscillator; for receiving the external sound signal transmitted by the wired communication transmission device and converting the sound signal into an oscillation wave, the oscillation wave being transmitted to the ear by nasal bone conduction; and

a carrier device for carrying the above devices;

wherein, the wired communication transmission device is connected with an external transmission device and/or a sound player in a wired way; the bone conduction output device receives an external sound signal transmitted by the wire communication transmission device, converts the sound signal into an oscillating wave and transmits the oscillating wave to the ear through the nasal bone conduction.

The bone conduction output device is a user listening device.

The carrier device can be glasses, diving glasses, goggles, nose masks, hoods, patches, nose clips, glasses with movable clips, or can be attached to the nose bone and skin.

The wired communication transmission device is further provided with a microphone, and the microphone is used for collecting sound and transmitting the collected sound signal to the bone conduction output device, so that the device has the function of a hearing aid;

the wired communication transmission device is connected with a wire controller in a wired mode.

The wired controller at least comprises a connector, a power supply, a volume adjuster, a sound source switcher, a signal processor, an alarm and a power switch.

The volume adjuster is used to adjust the volume.

The audio switch is used to switch the audio source of the speaker or the bone conduction input device.

The signal processor is used for processing the received or transmitted electronic signal.

The connector is used to connect the communication device and the wired controller.

The nasal bone conduction wired controller can be externally connected with the communicator through a connector or internally arranged in the communicator.

The nasal bone conduction wired controller can be matched with the connection of MP3 players, iPod, walkman, computers, radio recorders, audio or television, communicators, broadcasts and other audio products, so that the combination of the wired communication transmission device and the bone conduction output device forms the function of a listening earphone.

The wired communication transmission device is further provided with a microphone for collecting sound and transmitting the collected signal to the bone conduction output device, so that the nasal bone conduction communication transmission device has a hearing aid function.

The present invention further provides a nasal bone conduction communication transmission system, which at least comprises:

a transmission device; and

a wired communication transmission device connected to the transmission device by wire and used for receiving the external sound signal;

bone conduction output device, which has oscillator to receive the external sound signal transmitted by the wire communication transmission device and convert the sound signal into oscillation wave, the oscillation wave is transmitted to ear by nasal bone conduction; and

a carrier device for carrying the transmission device, the bone conduction output device and the wired communication transmission device;

wherein, the wired communication transmission device is connected with the transmission device and/or the sound player in a wired way; the bone conduction output device receives an external sound signal transmitted by the wire communication transmission device, converts the sound signal into an oscillating wave and transmits the oscillating wave to the ear through the nasal bone conduction.

The carrier device can be glasses, diving glasses, goggles, nose masks, hoods, patches, nose clips, glasses with movable clips, or can be attached to the nose bone and skin.

The wired communication transmission device is further provided with a microphone for collecting sound and transmitting the collected sound signal to the bone conduction output device, so that the device of the invention has a hearing aid function.

The wired communication transmission device is connected with a wire controller in a wired mode.

The wired controller at least comprises a connector, a power supply, a volume adjuster, a sound source switcher, a signal processor, an alarm and a power switch.

The volume adjuster is used to adjust the volume.

The audio switch is used to switch the audio source of the speaker or the bone conduction output device.

The signal processor is used for processing the received or transmitted electronic signal.

The connector is used to connect the communication device and the wired controller.

The nasal bone conduction wired controller can be externally connected with the communicator through a connector or internally arranged in the communicator.

The transmission device is provided with a communicator which is a communication transmission product such as a mobile phone, a PDA, a computer, a microwave, RF, infrared transmitter, an electronic signal transceiver, a wireless broadband network transmitter and the like.

The wired controller can be matched with a sound player, such as: the connection of MP3 player, iPod, walkman, computer, radio recorder, stereo set or TV set makes the combination of the wired communication transmission device and the bone conduction input device form the earphone function of listening.

The present invention further provides a nasal bone conduction voice recognition device and/or voice control device and system, which at least comprises:

the voice recognition device and/or the voice control device can be arranged outside or can be arranged in the transmission device or the communicator in whole or in part, and is connected with the transmission device and the wired or wireless communication transmission device in a wired or wireless way, and the recognition data of the voice recognition device and/or the voice control device comes from the wired or wireless communication transmission device;

a transmission device;

a bone conduction input device having an oscillator for converting a sound to be transmitted into a sound signal;

the wired or wireless communication transmission device is electrically connected with the bone conduction input device to receive the sound signal, and is also connected with the transmission device, the voice recognition device and/or the voice control device in a wired or wireless way and/or receives an external sound signal;

a carrier device for carrying the bone conduction input device and the wired or wireless communication transmission device;

the bone conduction input device converts sound waves into sound signals and then transmits the sound signals to the transmission device to make sound; wired or wireless communication transmission device, wired and/or wireless connection transmission device, and

a voice recognition device and/or a voice control device; the sound emitted after the resonance of the nasal cavity can provide clear voice for voice recognition and/or voice control device recognition.

The carrier device can be glasses, diving glasses, goggles, nose masks, hoods, patches, nose clips, glasses with movable clips, or can be attached to the nose bone and skin.

The wireless communication transmission device at least comprises: the device comprises a power supply, a power switch, an alarm, a transmission line, an antenna, a signal processing device, a signal processor, a microphone, a sound source switcher, a frequency converter module, a radio frequency signal transmitting module and a radio frequency signal amplifier.

The wireless communication transmission device transmits or transmits wireless signals according to a Bluetooth wired communication protocol, microwave reception, RF transmission, or a wireless broadband network.

The transmission device is provided with a communicator, wherein the communicator is a mobile phone, a PDA, a computer, a microwave/RF related product, an infrared transmitter, an electronic signal transceiver, a wireless broadband network transmitter and other communication transmission products.

The above nasal bone conduction voice recognition device and/or voice control device and system have a wireless controller, which at least comprises:

the device comprises a power supply, a signal processor, a volume adjuster, a sound source switcher, an alarm, an antenna, a radio frequency signal receiving module, a frequency tuner module, a transmission line and a power switch.

The frequency resetting module of the wireless communication transmission device and the frequency resetting module of the wireless controller reset the frequency, and when the frequencies are the same, the wireless communication transmission device has the function of being used by a plurality of people in the same occasion; the frequency counter module can also set one or more public frequencies of use so that the user can form a POC (push to talk over cellular) mode when in use.

The present invention further provides a nasal bone conduction wireless controller, which at least comprises:

power supply, volume adjuster, antenna, radio frequency signal transmitting module, frequency tuner module, connector, and

a wireless communication transmission device electrically connected to the bone conduction output device;

a bone conduction output device having an oscillator; for receiving the external sound signal transmitted by the wireless communication transmission device and converting the sound signal into an oscillation wave, the oscillation wave being transmitted to the ear by nasal bone conduction; and

a carrier device for carrying the bone conduction output device and the wireless communication transmission device;

wherein, the nasal bone conduction wireless controller is connected with the external sound signal transmitted by the wireless communication transmission device in a wireless connection mode, so that the bone conduction output device converts the sound signal into an oscillation wave and transmits the oscillation wave to the ear through the nasal bone conduction; the carrier device is a carrier placed on the nose, and is used for enabling the bone conduction output device carried by the carrier device to be in close contact with the bone skin of the nose so as to form the function of nasal bone conduction listening.

In the nasal bone conduction wireless controller, the frequency resetting module of at least two or more users resets the frequency, and when the frequencies are the same, the nasal bone conduction wireless controller has the function of being used by a plurality of people in the same occasion; the frequency synthesizer module can also set one or more public use frequencies so that the user can form one-to-many broadcasting modes such as listening and speaking, listening to classes, listening to channels and playing games when using the frequency synthesizer module.

The nasal bone conduction wireless controller can be matched with the connection of audio products such as an MP3 player, an iPod, a walkman, a computer, a radio recorder, a stereo or a television and the like, so that the wireless communication transmission device and the bone conduction output device are combined to form the function of a listening earphone.

The nasal bone conduction wireless controller is further provided with at least one microphone, and the microphone is used for collecting sound and transmitting collected signals to the bone conduction output device, so that the nasal bone conduction communication transmission device has a hearing aid function.

The nasal bone conduction wireless controller can be externally connected with the communicator through a connector or internally arranged in the communicator.

The present invention further provides a nasal bone conduction wireless controller, which at least comprises:

power supply, volume adjuster, antenna, radio frequency signal transmitting module, frequency tuner module, connector, and

a bone conduction input device having an oscillator for converting a sound to be transmitted into a sound signal;

the wireless communication transmission device is electrically connected with the bone conduction input device to receive the sound signal; the wireless connection communicator or the broadcasting device transmits and/or receives external sound signals;

a carrier device for carrying the bone conduction input device and the wireless communication transmission device;

wherein, the nasal bone conduction wireless controller is connected with the sound signal transmitted by the bone conduction input device in a wireless connection mode, so that the sound signal is converted into an oscillation wave, and the oscillation wave is transmitted to the ear part by the nasal bone conduction; the carrier device is a carrier placed on the nose, and is used for enabling the bone conduction input device carried by the carrier device to be in close contact with the bone skin of the nose so as to form a function of nasal bone conduction listening.

The nasal bone conduction wireless controller, wherein the broadcasting device at least comprises a speaker.

In the nasal bone conduction wireless controller, the frequency resetting module of at least two or more users resets the frequency, and when the frequencies are the same, the nasal bone conduction wireless controller has the function of being used by a plurality of people in the same occasion; the frequency counter module can also set one or more public use frequencies so that a user can form a POC (push to talk over cellular) mode when using the frequency counter module.

The nasal bone conduction wireless controller can be connected with a communicator or a broadcasting device, and can also be internally arranged in the communicator or the broadcasting device.

The invention also provides a device and a system for transmitting back the nasal bone conduction data, which at least comprises:

the data processing device can be arranged outside or in the transmission device or the communicator; the device stores data comprising: data such as voice, language, music, text, etc.; the data processing device can be a device which can store data such as a computer, a PDA, an NB, a compact disc or a memory card or a portable disk or a mobile hard disk or an MP3 or an iPod and the like; and

a transmission device;

a bone conduction input device having a first oscillator for converting a sound to be transmitted into a sound signal;

a bone conduction output device having a second oscillator for receiving the sound signal transmitted by the wireless communication, converting the sound signal into an oscillation wave, and transmitting the oscillation wave to the ear by nasal bone conduction;

a wired or wireless communication transmission device electrically connected to the bone conduction output device for receiving the external sound signal transmitted by the wired or wireless communication transmission device and converting the sound signal into an oscillation wave, so that the oscillation wave is transmitted to the ear by nasal bone conduction; the voice recognition device and/or the voice control device are/is connected with an external transmission device, a voice recognition device and/or a voice control device in a wired or wireless mode, and/or an external sound signal is received;

a carrier device for carrying the bone conduction output device, the bone conduction input device and the wired or wireless communication transmission device;

the bone conduction input device converts sound waves into sound signals, and transmits the sound signals to the communication transmission device for being sent by a transmission device which is connected with the outside through a wire or wirelessly; the oscillation wave of the bone conduction output device is transmitted to the ear through the nasal bone conduction, and the data obtained by the data processing device is transmitted back to the wired or wireless communication transmission device through the nasal bone conduction data returning device and the system.

The carrier device can be glasses, diving glasses, goggles, nose masks, hoods, patches, nose clips, glasses with movable clips, or can be attached to the nose bone and skin.

The wireless communication transmission device at least comprises: the device comprises a power supply, a power switch, an alarm, a transmission line, an antenna, a signal processing device, a signal processor, a microphone, a sound source switcher, a volume adjuster, a frequency tuner module, a radio frequency signal receiving module, a radio frequency signal transmitting module, a radio frequency signal amplifier and an electronic filtering module.

The wireless communication transmission device transmits or transmits wireless signals according to a Bluetooth wired communication protocol, microwave reception, RF transmission, or a wireless broadband network.

The transmission device is provided with a communicator, wherein the communicator is a mobile phone, a PDA, a computer, a microwave/RF related product, an infrared transmitter, an electronic signal transceiver, a wireless broadband network transmitter and other communication transmission products.

The above-mentioned nasal bone conduction data returning device and system have wireless controllers, it includes at least: the device comprises a power supply, a signal processor, a volume adjuster, an alarm, an antenna, a radio frequency signal receiving module, a radio frequency signal transmitting module, a frequency aligner module, a connector and a power switch.

The frequency resetting module of the wireless communication transmission device and the frequency resetting module of the wireless controller reset the frequency, and when the frequencies are the same, the wireless communication transmission device has the function of being used by a plurality of people in the same occasion; the frequency counter module can also set one or more public use frequencies so that a user can form a POC (push to talk over cellular) mode when using the frequency counter module, or a one-to-many broadcast mode which can only be listened to, such as listening to, speaking, class, channel and playing.

The present invention further provides a device and a system for identifying nasal bone conduction voice and/or returning acoustic control nasal bone conduction data, at least comprising:

a transmission device;

the voice recognition device and/or the voice control device can be arranged outside or wholly or partially arranged in the transmission device or the communicator, and is connected with the transmission device and the wired or wireless communication transmission device in a wired or wireless way, the recognition data comes from the wired or wireless communication transmission device, and the comparison data comes from the data stored by the data processing device;

the data processing device is an external device or is arranged in the communicator, and the device at least comprises the following stored comparison data: data such as voice, language, music, text, etc.; the data processing device can be a device which can store data such as a computer, a PDA, an NB, a compact disc or a memory card or a portable disk or a mobile hard disk or an MP3 or an iPod and the like; and

a bone conduction input device having a first oscillator for converting a sound to be transmitted into a sound signal;

a bone conduction output device having a second oscillator for receiving the sound signal transmitted by the wireless communication, converting the sound signal into an oscillation wave, and transmitting the oscillation wave to the ear by nasal bone conduction;

the wired or wireless communication transmission device is electrically connected with the bone conduction input device and the bone conduction output device, and is connected with the transmission device, the voice recognition device and/or the voice control device and the data processing device in a wired or wireless way, and/or receives external sound signals; and

the carrier device is used for carrying the bone conduction input device, the bone conduction output device and the wired or wireless communication transmission device.

Wherein,

the carrier device is a carrier placed on the nose, and is used for enabling the bone conduction output device and the bone conduction input device which are carried by the carrier device to be in close contact with the bone skin of the nose and transmitting the oscillation wave of the bone conduction output device to the ear through the nasal bone conduction; the bone conduction input device converts the sound wave into a sound signal and then transmits the sound signal to the communication transmission device to make sound; the sound emitted after the nasal cavity resonance can provide clear voice for the voice recognition device to recognize, and if the voice control device is used, the voice control device can also receive clear and correct voice control instructions; meanwhile, the programming software of the voice recognition device can capture the data stored in the data processing device to compare the voice information received by the wired or wireless communication transmission device, and the compared information is transmitted back to the wired or wireless communication transmission device through the nasal bone conduction data return device and the system; if the voice control device is connected, the returned data is the data which needs to be controlled or selected by the voice control device.

The carrier device can be glasses, diving glasses, goggles, nose masks, hoods, patches, nose clips, glasses with movable clips, or can be attached to the nose bone and skin.

The wireless communication transmission device at least comprises: the device comprises a power supply, a power switch, an alarm, a transmission line, an antenna, a signal processing device, a signal processor, a microphone, a sound source switcher, a volume adjuster, a frequency tuner module, a radio frequency signal receiving module, a radio frequency signal transmitting module, a radio frequency signal amplifier and an electronic filtering module.

The wireless communication transmission device transmits or transmits wireless signals according to a Bluetooth wired communication protocol, microwave reception, RF transmission, or a wireless broadband network.

The transmission device is provided with a communicator, wherein the communicator is a mobile phone, a PDA, a computer, a microwave/RF related product, an infrared transmitter, an electronic signal transceiver, a wireless broadband network transmitter and other communication transmission products.

The data returned by the voice recognition device is data which needs to be compared through voice recognition, and comprises: speech correction, language translation, voice training, singing learning, or gate control, among other data.

The data returned by the voice control device is data which needs to be controlled or selected by the voice control device, and the method comprises the following steps: security systems, digital home appliance systems, surveillance systems, telemedicine systems, home care systems, distance teaching systems, mass transit and management systems, remote control systems, automated operation systems, telematics systems, video conferencing systems, and the like.

The above-mentioned nasal bone conduction speech recognition and/or acoustic control nasal bone conduction data passback device and system, have wireless controllers, it includes at least:

the device comprises a power supply, a signal processor, a volume adjuster, a sound source switcher, an alarm, an antenna, a radio frequency signal receiving module, a radio frequency signal transmitting module, a frequency tuner module, a transmission line and a power switch.

The frequency resetting module of the wireless communication transmission device and the frequency resetting module of the wireless controller reset the frequency, and when the frequencies are the same, the wireless communication transmission device has the function of being used by a plurality of people in the same occasion; the frequency counter module can also set one or more public use frequencies so that a user can form a POC (push to talk over cellular) mode or a one-to-many broadcast mode which can only listen, such as listening, speaking, listening, and playing.

Drawings

Fig. 1 is a block diagram of a nasal bone conduction communication transmission device and system according to the present invention.

FIG. 2 is a diagram of the application of the nasal bone conduction communication transmission device in a clip-on-glasses type carrier.

Fig. 3 is a layout of a speaker of the nasal bone conduction communication transmission device in a glasses frame.

FIG. 4 is a block diagram of a wireless communication transmission system of the nasal bone conduction voice recognition device and/or the voice control device according to the present invention.

FIG. 5 is a diagram of the application of the wired communication transmission carrier of the nasal bone conduction voice recognition device and/or the voice control device according to the present invention.

Fig. 6 is a block diagram of a wireless communication transmission system of the nasal bone conduction data backhaul device according to the present invention.

Fig. 7 is a diagram of the application of the wired communication transmission carrier of the nasal bone conduction data transmission device of the present invention.

FIG. 8 is a block diagram of a nasal bone conduction broadcasting device according to the present invention.

Fig. 9 is a block diagram of a nasal bone conduction wireless adjuster according to the present invention.

[ description of main reference symbols ]

100-nasal bone conduction communication transmission device

1-bone conduction output device

2-bone conduction input device

3-wired communication transmission device

4-wireless communication transmission device

5- -transmission device

6-spectacles

7- -Embedded Main body Shell

8-clamp seat

9-clip

10-oscillator

20-oscillator

21-antenna

22-frequency detector module

23- -radio frequency signal receiving Module

24-radio frequency signal transmitting module

25- -radio frequency signal amplifier

26-electronic filtering module

32-volume adjuster

33-microphone

34-sound source switcher

35- - -loudspeaker

36- -Signal processor

37-signal processing device

38-broadcasting device

46- -transmission line

47- - -mains switch

48- -power supply

49-alarm

50-communicator

51- -Wired controller

52-connector

53- -Wireless controller

61- -nose pad support

70-speech recognition device

80-sound control device

90-data processing device

200-nasal bone conduction voice recognition device and/or voice control device

300-nasal bone conduction data back transmission device

400-nasal bone conduction broadcasting device

500-nasal bone conduction wireless controller

Detailed Description

Referring to fig. 1, a block diagram of a nasal bone conduction communication transmission device and system according to the present invention is shown. The nasal bone conduction communication transmission device 100 of the present invention at least comprises: a bone conduction output device 1 having an oscillator 10; a bone conduction input device 2 having an oscillator 20; a wired communication transmission device 3, the wired communication transmission device 3 at least comprises a speaker 33; and a carrier device (please refer to fig. 2 and fig. 3) for carrying the above devices and placing the devices on the nose, wherein the wired communication transmission device 3 is connected with a transmission device 5 by a wire, the transmission device 5 is a communication product with functions of connection, transmission, etc., the transmission device 5 is composed of a communicator 50 connected with a wired controller 51, and the communicator 50 and the wired controller 51 are electrically connected through a connector 52.

In the embodiment, the wired controller 51 is further provided with a power switch 47, a power supply 48 and an alarm 49, the power switch 47 is used for selectively turning on or off the nasal bone conduction communication transmission device of the present invention, the power supply 48 is used for supplying power required by the device, the power supply 48 is a general battery or a fuel cell or a device capable of supplying power, the alarm 49 is used for automatically giving an alarm when the power supply reaches a low supply amount so as to remind a user of replacing the battery, the signal processor 36 is used for processing the received or transmitted electronic signal, the communication device 50 is a mobile phone or a PDA or other wireless or communication transmission products with communication capability, and the connector 52 can be designed into a wired jack, a PCMCIA card and a USB socket.

With continued reference to fig. 1, the bone conduction output device 1 is placed on the nose of the user, and the bone conduction output device 1 is in close contact with the bone skin of the nose. The oscillator 10 of the bone conduction output device 1 converts the sound signal from the wired communication transmission device 3 into an oscillation wave, and the oscillation wave is transmitted to the ear by nasal bone conduction to form a listening function. The bone conduction input device 2 is also placed on the nose of the user, and the bone conduction input device 2 is in close contact with the nasal skin. The oscillator 20 of the bone conduction input device 2 converts the oscillation wave into an acoustic signal to perform a speech function. The transmission device 5 transmits the voice information to the bone conduction output device 1 and receives the voice information of the bone conduction input device 2 through the wired communication transmission device 3, the communicator 50 of the transmission device 5 is connected with the wired controller 51 through the connector 52, and the wired communication transmission device 3 electrically connects the bone conduction input device 2 and the bone conduction output device 1 to transmit and receive the wired signal.

The nasal bone conduction communication transmission device 100 of the present invention has the functions of wired communication transmission hands-free phone, wired interphone, hearing aid, earphone, etc.

The volume adjuster 32 of the transmission device 5 is used to adjust the volume. The microphone 33 of the wired communication transmission device 3 is used to collect sound and transmit the collected signal to the bone conduction output device 1, so that the nasal bone conduction communication transmission device 100 functions as a hearing aid.

When the nasal bone conduction communication transmitter 100 of the present invention is used as a hearing aid, the function of speaking is switched by the speaker 33 of the wired communication transmitter 3 via the sound source switch 34, so that the voice signal of the transmission device 5 can not enter temporarily, and only the voice is collected by the speaker 33, if the transmission device 5 has the communication electronic signal to enter, after processed by the signal processor 36, the sound source switch 34 automatically cuts off the sound source of the speaker 33, and then automatically changes to the function mode of hands-free phone, when the communication electronic signal is finished, the hearing aid mode is automatically switched, and the collected sound signal is transmitted to the bone conduction output device 1, the sound signal is converted into an oscillation wave by the oscillator 10 of the bone conduction output device 1, and then the oscillation wave is conducted through the nose and the nose bone to achieve the listening function, so that the hearing aid mode of the listening function is completed.

When the nasal bone conduction communication transmission device 100 of the present invention is in the earphone function mode, the transmission device 5 is used to communicate with a product to be used, such as: the MP3 player iPod, walkman, computer, radio recorder, stereo set, television and other audio information products are connected, and the wired controller 51 transmits the audio information to the wired communication transmission device 3 to have the function of earphone.

In various embodiments of the present invention, the carrier device is a pair of glasses, goggles, nose mask, face mask, hood, patch, nose clip, or any other device that allows the device to be attached to the nasal skin. The communicator 50 of the transmission device 5 can be a mobile phone, PDA, computer, wireless intercom, or various wireless communication products such as RF, microwave, infrared transmitter, wireless broadband network transmitter, etc., and the wired controller 51 of the transmission device 5 can also be built in the communicator 50 without being connected to the communicator 50 through the connector 52.

In another embodiment of the present invention, the nasal bone conduction communication transmission device 100 and the wired controller 51 can be combined into a product, which is regarded as a nasal bone conduction communication transmission system.

Referring to fig. 2 in conjunction with fig. 1, a carrier (which can be clipped on glasses) of a movable clip of the nasal bone conduction communication transmission device 100 of the present invention is shown, which at least comprises: a pair of glasses 6, the glasses 6 having a pair of nose pad holders 61; a holder 8 is clamped on the glasses 6, at least one clip 9 is arranged behind the holder 8, the wired communication transmission device 3 and the microphone 33 are arranged in the holder 8; a transmission line 46 is connected to the wired communication transmission device 3 and externally connected to the wired controller 51 and the communicator 50.

Referring to fig. 3, the speaker 33 of the cable communication transmission device 3 can also be disposed at the corner of the left/right frame to enhance the sound reception effect of the left side, the left side and the right side.

Referring to FIG. 4, a block diagram of a nasal bone conduction speech recognition device and/or a voice control device according to the present invention is shown. The present invention provides a nasal bone conduction voice recognition device and/or voice control device 200, at least comprising: a bone conduction input device 2 having an oscillator 20; a wireless communication transmission device 4, the wireless communication transmission device 4 at least comprises a signal processing device 37, a signal processor 36, a speaker 33, an audio switch 34 and an antenna 21; and a carrier device, which carries the above devices and is placed on the nose, wherein the wireless communication transmission device 4 establishes wireless connection with a transmission device 5, the transmission device 5 is a wireless communication product with functions of connection, transmission and frequency matching, and the transmission device 5 is composed of a communicator 50 connected with a wireless controller 53, and the communicator 50 and the wireless controller 53 complete electrical connection through a connector 52; the communicator 50 is a mobile phone, PDA, computer, and microwave/RF related products, infrared transmitter, electronic signal transceiver, wireless broadband network transmitter, etc; the communication device 50 is connected to the voice recognition device 70 and the voice control device 80 wirelessly, so as to achieve the nasal bone conduction voice recognition device and/or the voice control device 200 of the present invention.

In the embodiment, the wireless communication transmission device 4 is further provided with a power switch 47, a power supply 48 and an alarm 49, the power switch 47 selectively turns on or off the nasal bone conduction voice recognition device and/or the voice control device 200 of the present invention, the power supply 48 provides the power required by the device, the power supply 48 is a general battery or a fuel cell or a device capable of supplying power, the alarm 49 automatically gives an alarm to remind the user to replace the battery when the power supply reaches a low supply amount, and the connector 52 can be designed into a type with different purposes such as an earphone jack, a PCMCIA card and a USB socket.

With continued reference to fig. 4, the bone conduction input device 2 is placed over the nose of the user with the bone conduction input device 2 in intimate contact with the nasal bone. The oscillator 20 of the bone conduction input device 2 converts the oscillation wave into an acoustic signal to perform a speech function. The transmission device 5 receives the electronic information of the bone conduction input device 2 through the wireless communication transmission device 4, and the wireless communication transmission device 4 is electrically connected with the bone conduction input device 2; the communicator 50 of the transmission device 5 is connected with the wireless controller 53 through the connector 52, and inputs the voice signal into the voice recognition device 70 and/or the voice control device 80, so as to achieve the nasal bone conduction voice recognition device and/or the voice control device 200 of the present invention; the recognition device 70 and the voice control device 80 are conventional speech recognition and voice control techniques, and will not be described herein.

The nasal bone conduction voice recognition device and/or the voice control device 200 of the invention has a transmission device 5, a wireless controller 53 of the transmission device 5 has a signal processor 36, a radio frequency signal receiving module 23, an antenna 21, a frequency counter module 22, a power switch 47, a power supply 48 and an alarm 49, the wireless controller 53 establishes wireless connection with a wireless communication transmission device 4 according to a bluetooth wireless communication protocol or RF related products or microwave, wireless broadband network transmitter, and the wireless communication transmission device 4 has a power supply 48, a power switch 47 and an alarm 49; the signal processing device 37 is used to process the electronic signals for communication, and the signal processor 36 is used to process the received or transmitted electronic signals. The wireless communication transmission device 4 has an antenna 21, a frequency-matching device module 22, a radio frequency signal transmitting module 24 and a radio frequency signal amplifier 25; the frequency converter module 22 is a device prepared for the change and setting rule of radio communication frequency, and can change the frequency between the radio communication so as to mutually transmit the radio information. When the frequency is interfered during the communication, if the frequencies of the frequency synthesizer module 22 of the wireless communication transmission device 4 and the frequency synthesizer module 22 of the wireless controller 53 are not reset to be the same, the nasal bone conduction voice recognition device and/or the voice control device 200 of the present invention cannot function for multiple people in the same occasion. The rf signal receiving module 23 is a receiver for transmitting radio signals, the rf signal transmitting module 24 is a transmitter for transmitting radio signals, the rf signal amplifier 25 amplifies the radio signals and then outputs the amplified signals to avoid signal attenuation, and the electronic filtering module 26 filters noise by passing sound signals through a filter to enhance the stability of the sound signals. The volume adjuster 32 of the wireless communication transmission device 4 is used to adjust the volume.

In various embodiments of the present invention, the carrier device is eyeglasses, goggles, nose mask, hood, patch, nose clip, or any other device that allows the device to be attached to the nasal skin. The signal processor 36 may be integrated into an integrated circuit product, and the wireless controller 53 of the transmission device 5 may be disposed in the communicator 50 without being connected to the communicator 50 through the connector 52.

In another embodiment of the present invention, the nasal bone conduction voice recognition device and/or the voice control device 200 and the wireless controller 53 can be combined into a product as a nasal bone conduction wireless communication transmission system.

Referring to fig. 5, a carrier (which can be clipped on glasses) of a movable clip of the nasal bone conduction communication transmission device 100 of the present invention is shown, which comprises: a pair of glasses 6, the glasses 6 having a pair of nose pad holders 61; a holder 8 is clamped on the glasses 6, at least one clip 9 is arranged behind the holder 8, the wired communication transmission device 3 and the microphone 33 are arranged in the holder 8; a transmission line 46 connected to the wired communication transmission device 3 and externally connected to the wired controller 51 and the communicator 50; the voice signal is inputted into the voice recognition device 70 and/or the voice control device 80 through the communicator 50, so as to achieve the nasal bone conduction voice recognition device and/or the voice control device 200 of the present invention.

The nasal bone conduction voice recognition device and/or the voice control device 200 of the present invention can also embed the holder 8 into the glasses in a manner of embedding, so as to achieve an integral formation and be more convenient and beautiful.

Referring to fig. 6, a block diagram of the nasal bone conduction data returning device of the present invention is shown. The nasal bone conduction data returning device 300 of the present invention at least comprises: a bone conduction input device 2 having an oscillator 20; a bone conduction output device 1 having an oscillator 10; a wireless communication transmission device 4, the wireless communication transmission device 4 at least comprises a signal processing device 37, a signal processor 36, a volume adjuster 32, a speaker 33, an audio switch 34 and an antenna 21; and a carrier device (please refer to fig. 7) for carrying the above devices and placing the devices on the nose, wherein the wireless communication transmission device 4 establishes wireless connection with a transmission device 5, the transmission device 5 is a wireless communication product with functions of connection, transmission and frequency matching, and the transmission device 5 is composed of a communicator 50 interfacing with a wireless controller 53, and the communicator 50 and the wireless controller 53 complete electrical connection through a connector 52; the communicator 50 is a mobile phone, PDA, computer, and microwave/RF related products, infrared transmitter, electronic signal transceiver, wireless broadband network transmitter, etc; the communicator 50 is connected to the voice recognition device 70, the voice control device 80 and the data processing device 90 in a wireless manner, so as to achieve the nasal bone conduction data transmission device 300 of the present invention.

In the embodiment, the wireless communication transmission device 4 is further provided with a power switch 47, a power supply 48 and an alarm 49, the power switch 47 selectively turns on or off the nasal bone conduction data transmission device 300 of the present invention, the power supply 48 provides the power required by the device, the power supply 48 is a general battery or a fuel cell or a device capable of supplying power, the alarm 49 automatically gives an alarm to remind the user to replace the battery when the power supply reaches a low supply amount, and the connector 52 can be designed into a type with different purposes such as an earphone jack, a PCMCIA card and a USB socket.

Please continue to refer to fig. 6, which shows the nasal bone conduction data transmission device 300A; the bone conduction input device 2 is placed on the nose of a user, and the bone conduction input device 2 is in close contact with the bone skin of the nose; the oscillator 20 of the bone conduction input device 2 converts the oscillation wave into an acoustic signal to perform a speech function. The transmission device 5 is used for receiving the electronic information of the bone conduction input device 2 through the wireless communication transmission device 4, and the wireless communication transmission device 4 is electrically connected with the bone conduction input device 2; after the communicator 50 of the transmission device 5 is queried by the built-in option function module of the communicator 50 and/or the manager of the data processing device 90, the communicator 50 directly obtains the data to be listened by the user from the data processing device 90, and then transmits the data back to the wireless communication transmission device 4 through the communicator 50 and/or the wireless controller 53; the bone conduction output device 1 closely contacted with the nasal bone skin converts the sound signal from the wireless communication transmission device 4 into an oscillating wave, and then the oscillating wave is transmitted to the ear by the nasal bone conduction to form a listening function, so as to achieve the effect of returning data to a user; the returned data includes: music, presentations, stories, etc. voice data.

With continued reference to fig. 6, the bone conduction data transmission devices 300B and 300C are shown, the bone conduction input device 2 is placed on the nose of the user, and the bone conduction input device 2 is in close contact with the skin of the nose. The oscillator 20 of the bone conduction input device 2 converts the oscillation wave into an acoustic signal to perform a speech function. The transmission device 5 is used for receiving the electronic information of the bone conduction input device 2 through the wireless communication transmission device 4, and the wireless communication transmission device 4 is electrically connected with the bone conduction input device 2; the communicator 50 of the transmission device 5 obtains the right to enter the data processing device 90 through the identification processing of the voice identification device 70, and directly obtains the data from the data processing device 90, then compares the data of the data processing device 90 with the voice signal of the user through voice identification, and then returns the compared error information or translated data to the user through the communicator 50 and the wireless controller 53; the bone conduction output device 1 closely contacted with the nasal bone skin converts the sound signal from the wireless communication transmission device 4 into an oscillating wave, and then the oscillating wave is transmitted to the ear by the nasal bone conduction to form a listening function, so as to achieve the effect of returning data to a user; the returned data is data which needs to be subjected to voice recognition comparison, and comprises the following steps: speech correction, language translation, voice training, singing learning, or gate control, among other data.

With continued reference to fig. 6, the bone conduction data transmission devices 300B, 300D and 300E are placed on the nose of the user, and the bone conduction input device 2 is in close contact with the skin of the nose. The oscillator 20 of the bone conduction input device 2 converts the oscillation wave into an acoustic signal to perform a speech function. The transmission device 5 receives the electronic information of the bone conduction input device 2 through the wireless communication transmission device 4, and the wireless communication transmission device 4 is electrically connected with the bone conduction input device 2; the communicator 50 of the transmission device 5 obtains the access right through the recognition of the voice recognition device 70, obtains the required data from the data processing device 90 through the voice control device 80, and returns the data through the communicator 50 and the wireless controller 53; the bone conduction output device 1 closely contacted with the nasal bone skin converts the sound signal from the wireless communication transmission device 4 into an oscillating wave, and then the oscillating wave is transmitted to the ear by the nasal bone conduction to form a listening function, so as to achieve the effect of returning data to a user; the returned data is data which needs to be controlled or selected by the voice control device, and the method comprises the following steps: security systems, digital home appliance systems, surveillance systems, telemedicine systems, home care systems, distance teaching systems, mass transit and management systems, remote control systems, automated operation systems, telematics systems, video conferencing systems, and the like.

The nasal bone conduction data return device 300 of the present invention has a transmission device 5, a wireless controller 53 of the transmission device 5 has a signal processor 36, a radio frequency signal receiving module 23, a radio frequency signal transmitting module 24, an antenna 21, a frequency counter module 22, a power switch 47, a power supply 48 and an alarm 49, and the wireless controller 53 establishes a wireless connection with a wireless communication transmission device 4 according to a bluetooth wireless communication protocol or an RF-related product or a microwave or a transmission wireless signal, a wireless broadband network transmitter, and the wireless communication transmission device 4 has a power supply 48, a power switch 47 and an alarm 49; the signal processing device 37 is used to process the electronic signals for communication, and the signal processor 36 is used to process the received or transmitted electronic signals. The wireless communication transmission device 4 is provided with an antenna 21, a frequency synthesizer module 22, a radio frequency signal receiving module 23, a radio frequency signal transmitting module 24, a radio frequency signal amplifier 25 and an electronic filtering module 26; the frequency-matching module 22 is a device prepared for the change and setting rule of radio communication frequency, and can make the frequency-matching between the radio communication consistent so as to mutually hand over the radio information. When the frequency is interfered during the communication, if the frequencies of the frequency counter module 22 of the wireless communication transmission device 4 and the frequency counter module 22 of the wireless controller 53 are not re-set to be the same, the nasal bone conduction data backhaul device 300 of the present invention cannot function for multiple people in the same occasion. The rf signal receiving module 23 is a receiver for radio signal transmission, the rf signal transmitting module 24 is a transmitter for radio signal transmission, the rf signal amplifier 25 amplifies the radio signal and then outputs the amplified radio signal, so as to avoid signal attenuation, and the electronic filtering module 26 filters the sound signal through a filter to filter noise and enhance the stability of the sound signal. The volume adjuster 32 of the wireless communication transmission device 4 is used to adjust the volume.

In various embodiments of the present invention, the carrier device is a pair of glasses, goggles, nose mask, hood, patch, nose clip, or any other device that allows the device to be attached to the nasal skin. The signal processor 36 may be integrated into an integrated circuit product, and the wireless controller 53 of the transmission device 5 may be disposed in the communicator 50 without being connected to the communicator 50 through the connector 52.

In another embodiment of the present invention, the nasal bone conduction data backhaul device 300 and the wireless controller 53 can be combined into a product as a nasal bone conduction wireless communication transmission system.

Referring to fig. 7, a carrier (which can be clipped on glasses) of a movable clip of the nasal bone conduction communication transmission device 100 of the present invention is shown, which comprises: a pair of glasses 6, the glasses 6 having a pair of nose pad holders 61; a holder 8 is clamped on the glasses 6, at least one clip 9 is arranged behind the holder 8, the wired communication transmission device 3 and the microphone 33 are arranged in the holder 8; a transmission line 46 connected to the wired communication transmission device 3 and externally connected to the wireless controller 53 and the communicator 50; the communication device 50 inputs the voice signal into the voice recognition device 70, the voice control device 80 and/or the data processing device 90, so as to achieve the nasal bone conduction data transmission device 300 of the present invention.

The nasal bone conduction data transmission device 300 of the present invention can also embed the holder 8 into the main body case 7 into the glasses instead of embedding, so as to achieve a more convenient and beautiful integral molding.

Please refer to the nasal bone conduction broadcasting device 400 of fig. 8, which shows the wired communication transmission device 3 of the present invention electrically connected to a bone conduction input device 2 and wired to a broadcasting device 38; the broadcasting device 38 has a speaker 35; in addition, the wired communication transmission device 3 of the present invention can be electrically connected to the communicator 50 to form a one-to-many broadcast mode that can only listen, such as listening to talk, lecture, channel, and playing.

Referring to fig. 9, a nasal bone conduction wireless controller 500 is shown, in which the wireless communication transmission device 4 of the present invention is electrically connected to a bone conduction input device 2 and wirelessly connected to a wireless controller 53; the wireless controller 53 is connected to a broadcasting device 38 via a transmission line 46, the broadcasting device 38 has a speaker 35; the wireless controller 53 may be externally connected to or internally installed in the broadcasting device 38; the wireless communication transmission device 4 of the present invention can also be electrically connected to the communicator 50 to form a one-to-many broadcast mode that can only listen, such as listening to talk, listening to class, listening to channel, and listening to game.

With reference to fig. 9 and fig. 6, the wireless controller 53 at least includes a signal processor 36, a radio frequency signal receiving module 23, a radio frequency signal transmitting module 24, an antenna 21, a frequency counter module 22, a power switch 47, a power supply 48, a volume adjuster 32 and an alarm 49, the wireless controller 53 establishes a wireless connection with the wireless communication transmission device 4 according to a bluetooth wireless communication protocol or an RF-related product or a microwave, wireless broadband network transmitter, and the wireless communication transmission device 4 at least includes the power supply 48, the power switch 47, the alarm 49, a signal processing device 37, the signal processor 36, the radio frequency signal receiving module 23, the radio frequency signal transmitting module 24, the antenna 21 and the frequency counter module 22; the signal processing device 37 is used to process the electronic signals for communication, and the signal processor 36 is used to process the received or transmitted electronic signals. The wireless controller 53 is used for cooperating with the bone conduction output device 1 (listening), and comprises a volume adjuster 32; the volume adjuster 32 is not required for use with the bone conduction input device 2.

The wireless communication transmission device 4 at least comprises an antenna 21, a frequency-matching device module 22, a radio-frequency signal receiving module 23, a radio-frequency signal transmitting module 24, a radio-frequency signal amplifier 25 and an electronic filtering module 26; the frequency-matching module 22 is a device prepared for the change and setting rule of radio communication frequency, and can make the frequency-matching between the radio communication consistent so as to mutually hand over the radio information. When the frequency is interfered during the communication, if the frequencies of the frequency synthesizer module 22 of the wireless communication transmission device 4 and the frequency synthesizer module 22 of the wireless controller 53 are not reset to be the same, the wireless controller 53 of the present invention cannot perform the function of multiple users in the same situation; the transponder module 22 may also set one or more public frequencies of use so that the user can use the transponder in POC (push to talk over cellular) mode or in listen-only one-to-many (push to talk) broadcast mode, such as listening and speaking.

Referring to fig. 4, the rf signal receiving module 23 is a receiver for radio signal transmission, the rf signal transmitting module 24 is a transmitter for radio signal transmission, the rf signal amplifier 25 amplifies the radio signal and then outputs the amplified radio signal to avoid signal attenuation, and the electronic filtering module 26 filters the sound signal through a filter to filter noise and enhance the stability of the sound signal. The volume adjuster 32 of the wireless communication transmission device 4 is used to adjust the volume.

Referring to fig. 1, the wired controller 51 includes a power switch 47, a power supply 48 and an alarm 49, the power switch 47 selects to turn on or off the nasal bone conduction communication transmission device of the present invention, the power supply 48 provides the power required by the device, the power supply 48 is a general battery or fuel cell or a device capable of supplying power, the alarm 49 automatically gives an alarm when the power supply reaches a low supply amount to remind the user to replace the battery, the signal processor 36 processes the received or transmitted electronic signal, the communicator 50 is a mobile phone or PDA with communication capability, a wireless broadband network transmitter or other wireless or wired communication transmission products, and the connector 52 can be designed into a type with different purposes such as earphone jack, PCMCIA card and USB socket; the transmission device 5 transmits the voice information to the bone conduction output device 1 and receives the voice information of the bone conduction input device 2 through the wired communication transmission device 3, the communicator 50 of the transmission device 5 is connected with the wired controller 51 through the connector 52, and the wired communication transmission device 3 is electrically connected with the bone conduction input device 2 and the bone conduction output device 1 to transmit and receive the wired signal; the volume adjuster 32 of the transmission device 5 is used to adjust the volume. The microphone 33 of the wired communication transmission device 3 is used to collect sound and transmit the collected signal to the bone conduction output device 1, so that the nasal bone conduction communication transmission device 100 has the function of hearing aid; the wired controller 51 may also be built into the communicator 50 without being connected to the communicator 50 through the connector 52.

Having described preferred embodiments of the invention in detail, it will be apparent to those skilled in the art that various changes and modifications can be made therein without departing from the scope and spirit of the appended claims, and it is not limited to the described embodiments.

Claims (22)

1. A nasal bone conduction communication transmission and peripheral device, comprising:

a bone conduction input device having an oscillator for converting a sound to be transmitted into a sound signal;

the wired communication transmission device is electrically connected with the bone conduction input device to receive the sound signal; and electrically connecting the communicator or the broadcasting device to transmit and/or receive external sound signals;

a carrier device for carrying the above devices;

wherein, the wired communication transmission device is electrically connected with the bone conduction input device to receive the sound signal; and the wire is connected with the communicator or the broadcasting device for transmission; the carrier device is a carrier placed on the nose, so that the bone conduction input device carried by the carrier device is in close contact with the bone skin of the nose, converts sound waves into sound signals by the bone conduction input device, and transmits the sound signals to the wired communication transmission device to be electrically connected to an external communicator or a broadcasting device for sending.

2. The nasal bone conduction communication transmission and peripheral device of claim 1, wherein the carrier device is glasses, goggles, nose mask, face mask, hood, patch, nose clip, glasses with removable clip, or a device that allows the device to be attached to the nasal bone.

3. A nasal bone conduction communication transmission and peripheral device, comprising:

the wired communication transmission device is used for receiving the external sound signal;

a bone conduction output device having an oscillator; for receiving the external sound signal transmitted by the wired communication transmission device and converting the sound signal into an oscillation wave, the oscillation wave being transmitted to the ear by nasal bone conduction; and

a carrier device for carrying the above devices;

it is characterized in that the wired communication transmission device is connected with an external transmission device and/or a sound player in a wired way; the bone conduction output device receives an external sound signal transmitted by the wire communication transmission device, converts the sound signal into an oscillating wave and transmits the oscillating wave to the ear through the nasal bone conduction.

4. The nasal bone conduction communication transmission and peripheral device of claim 3, wherein the carrier device is glasses, goggles, nose mask, face mask, hood, patch, nose clip, glasses with removable clip, or a device that allows the device to be attached to the nasal bone.

5. A nasal bone conduction communication transmission system, comprising:

a transmission device; and

a wired communication transmission device connected to the transmission device by wire and used for receiving the external sound signal;

bone conduction output device, which has oscillator to receive the external sound signal transmitted by the wire communication transmission device and convert the sound signal into oscillation wave, the oscillation wave is transmitted to ear by nasal bone conduction; and

a carrier device for carrying the bone conduction output device and the wired communication transmission device;

it is characterized in that the wired communication transmission device is connected with the transmission device and/or the sound player in a wired way; the bone conduction output device receives an external sound signal transmitted by the wire communication transmission device, converts the sound signal into an oscillating wave and transmits the oscillating wave to the ear through the nasal bone conduction.

6. The nasal bone conduction wire communication transmission system according to claim 5, wherein the carrier device is glasses, goggles, nose mask, mouth mask, face mask, head cover, patch, nose clip, glasses with movable clip, or a device for attaching the device to the nasal bone.

7. A nasal bone conduction voice recognition device and/or voice control device and system, at least comprising:

the voice recognition device and/or the voice control device can be arranged outside or can be arranged in the transmission device or the communicator in whole or in part, and is connected with the transmission device and the wired or wireless communication transmission device in a wired or wireless way, and the recognition data of the voice recognition device and/or the voice control device comes from the wired or wireless communication transmission device;

a transmission device;

the bone conduction input device is provided with an oscillator and is used for converting the sound to be transmitted into a sound signal;

the wired or wireless communication transmission device is electrically connected with the bone conduction input device to receive the sound signal, and is also connected with the transmission device, the voice recognition device and/or the voice control device in a wired or wireless way and/or receives an external sound signal;

a carrier device for carrying the bone conduction input device and the wired or wireless communication transmission device;

the bone conduction input device converts sound waves into sound signals and then transmits the sound signals to the transmission device to make sound; wired or wireless communication transmission device, wired and/or wireless connection transmission device, and

a voice recognition device and/or a voice control device; the sound emitted after the resonance of the nasal cavity can provide clear voice for voice recognition and/or voice control device recognition.

8. The device and/or system of claim 7 wherein the carrier device is glasses, goggles, nose mask, face mask, head cover, patch, nose clip, glasses with movable clip, or a device that allows the device to be attached to the nasal bone.

9. The device and/or system of claim 7 wherein the transmission device further comprises a wired or wireless controller.

10. The nasal bone conduction voice recognition device and/or the voice control device and system according to claims 7 and 9, wherein the frequency converter module of the wireless communication transmission device and the frequency converter module of the wireless controller are reset to have the same frequency, so that a plurality of users can use the same frequency; the frequency counter module can also set one or more public use frequencies so that the user can form a POC mode when in use.

11. A nasal bone conduction wireless controller, comprising:

power supply, volume adjuster, antenna, radio frequency signal transmitting module, frequency tuner module, connector, and

a wireless communication transmission device electrically connected to the bone conduction output device;

a bone conduction output device having an oscillator; for receiving the external sound signal transmitted by the wireless communication transmission device and converting the sound signal into an oscillation wave, the oscillation wave being transmitted to the ear by nasal bone conduction; and

a carrier device for carrying the bone conduction output device and the wireless communication transmission device;

the nasal bone conduction wireless controller is connected with an external sound signal transmitted by the wireless communication transmission device in a wireless connection mode, so that the bone conduction output device converts the sound signal into an oscillation wave and transmits the oscillation wave to the ear through nasal bone conduction; the carrier device is a carrier placed on the nose, and is used for enabling the bone conduction output device carried by the carrier device to be in close contact with the bone skin of the nose so as to form the function of nasal bone conduction listening.

12. The nasal bone conduction wireless controller of claim 11, wherein the frequency of the frequency counter modules of at least two or more users is reset, and when the frequencies are the same, the controller has a function of being used by multiple persons on the same occasion; the frequency counter module can also set one or more public use frequencies so that a user forms a one-to-many broadcast mode when in use.

13. A nasal bone conduction wireless controller, comprising:

power supply, volume adjuster, antenna, radio frequency signal transmitting module, frequency tuner module, connector, and

a bone conduction input device having an oscillator for converting a sound to be transmitted into a sound signal;

the wireless communication transmission device is electrically connected with the bone conduction input device to receive the sound signal; the wireless connection communicator or the broadcasting device transmits and/or receives external sound signals;

a carrier device for carrying the bone conduction input device and the wireless communication transmission device;

the nasal bone conduction wireless controller is connected with the sound signal transmitted by the bone conduction input device in a wireless connection mode, so that the sound signal is converted into an oscillation wave, and the oscillation wave is transmitted to the ear through nasal bone conduction; the carrier device is a carrier placed on the nose, and is used for enabling the bone conduction input device carried by the carrier device to be in close contact with the bone skin of the nose so as to form a function of nasal bone conduction listening.

14. The nasal bone conduction wireless controller of claim 13, wherein the frequency of the frequency counter modules of at least two or more users is reset, and when the frequencies are the same, the controller has a function of being used by multiple persons on the same occasion; the frequency counter module can also set one or more public use frequencies so that the user can form a POC mode when in use.

15. A nasal bone conduction data returning device and system at least comprises:

the data processing device can be arranged outside or in the transmission device or the communicator; the device stores data comprising: data such as voice, language, music, text, etc.; the data processing device can be a device which can store data such as a computer, a PDA, an NB, a compact disc or a memory card or a portable disk or a mobile hard disk or an MP3 or an iPod and the like; and

a transmission device;

a bone conduction input device having a first oscillator for converting a sound to be transmitted into a sound signal;

a bone conduction output device having a second oscillator for receiving the sound signal transmitted by the wireless communication, converting the sound signal into an oscillation wave, and transmitting the oscillation wave to the ear by nasal bone conduction;

a wired or wireless communication transmission device electrically connected to the bone conduction output device for receiving the external sound signal transmitted by the wired or wireless communication transmission device and converting the sound signal into an oscillation wave, so that the oscillation wave is transmitted to the ear by nasal bone conduction; the voice recognition device and/or the voice control device are/is connected with an external transmission device, a voice recognition device and/or a voice control device in a wired or wireless mode, and/or an external sound signal is received;

a carrier device for carrying the bone conduction output device, the bone conduction input device and the wired or wireless communication transmission device;

the bone conduction input device converts sound waves into sound signals, and transmits the sound signals to a transmission device which is connected with the outside through a cable or a wireless way and is used for transmission; the oscillation wave of the bone conduction output device is transmitted to the ear through the nasal bone conduction, and the data obtained by the data processing device is transmitted back to the wired or wireless communication transmission device through the nasal bone conduction data returning device and the system.

16. The device and system for transmitting data back through nasal bone conduction according to claim 15, wherein the carrier device is glasses, goggles, nose mask, face mask, head cap, patch, nose clip, glasses with movable clip, or a device for attaching the device to the nasal bone.

17. The device and system of claim 15, wherein the transmission device further comprises a wired or wireless controller.

18. The device and system for transmitting back nasal bone conduction data as claimed in claims 15 and 17, wherein the frequency resetting module of the wireless communication transmission device and the frequency resetting module of the wireless controller are configured to reset the frequencies, and when the frequencies are the same, the device and system can be used by multiple persons on the same occasion; the frequency counter module may also set one or more public use frequencies so that the user may be in POC mode or, for example, listen-only one-to-many broadcast mode when in use.

19. A device and system for recognizing and/or transmitting data back by nasal bone conduction voice comprises:

a transmission device;

the voice recognition device and/or the voice control device can be arranged outside or wholly or partially arranged in the transmission device or the communicator, and is connected with the transmission device and the wired or wireless communication transmission device in a wired or wireless way, the recognition data comes from the wired or wireless communication transmission device, and the comparison data comes from the data stored by the data processing device;

the data processing device is an external device or is arranged in the communicator, and the device at least comprises the following stored comparison data: data such as voice, language, music, text, etc.; the data processing device can be a device which can store data such as a computer, a PDA, an NB, a compact disc or a memory card or a portable disk or a mobile hard disk or an MP3 or an iPod and the like; and

a bone conduction input device having a first oscillator for converting a sound to be transmitted into a sound signal;

a bone conduction output device having a second oscillator for receiving the sound signal transmitted by the wireless communication, converting the sound signal into an oscillation wave, and transmitting the oscillation wave to the ear by nasal bone conduction;

the wired or wireless communication transmission device is electrically connected with the bone conduction input device and the bone conduction output device, and is connected with the transmission device, the voice recognition device and/or the voice control device and the data processing device in a wired or wireless way, and/or receives external sound signals; and

the carrier device is used for carrying the bone conduction input device, the bone conduction output device and the wired or wireless communication transmission device.

The method is characterized in that:

the carrier device is a carrier placed on the nose, and is used for enabling the bone conduction output device and the bone conduction input device which are carried by the carrier device to be in close contact with the bone skin of the nose and transmitting the oscillation wave of the bone conduction output device to the ear through the nasal bone conduction; the bone conduction input device converts the sound wave into a sound signal and then transmits the sound signal to the communication transmission device to make sound; the sound emitted after the nasal cavity resonance can provide clear voice for the voice recognition device to recognize, and if the voice control device is used, the voice control device can also receive clear and correct voice control instructions; meanwhile, the programming software of the voice recognition device can capture the data stored in the data processing device to compare the voice information received by the wired or wireless communication transmission device, and the compared information is transmitted back to the wired or wireless communication transmission device through the nasal bone conduction data return device and the system; if the voice control device is connected, the returned data is the data which needs to be controlled or selected by the voice control device.

20. The nasal bone conduction data feedback device and system according to claim 19, wherein the carrier device is glasses, goggles, nose mask, mouth mask, face mask, head cover, patch, nose clip, glasses with movable clip, or a device that allows the device to be attached to the nasal bone.

21. The nasal bone conduction data backhaul device and system of claim 19, wherein said transmission device further comprises a wireless controller.

22. The device and system for transmitting back nasal bone conduction data according to claims 19 and 21, wherein the frequency setting module of the wireless communication transmission device and the frequency setting module of the wireless controller are frequency-reset, and when the frequencies are the same, the device and system have the function of being used by multiple persons on the same occasion; the frequency counter module can also set one or more public use frequencies so that the user can form a POC mode or a listen-only one-to-many broadcast mode when in use.

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