CN204833155U - Integral type audio playback equipment - Google Patents

Abstract

The utility model discloses an integral type audio playback equipment, including first roof beam portion, first ear and second ear, first roof beam portion connects between first ear and the second ear, first ear includes first earlap, first speaker, audio signal treatment circuit, CPU, memory and radio communication circuit to and be located the touch -sensitive screen in the first earlap outside, second ear includes second earlap, second speaker, power supply device, touch -control board support circuit to and be located the touch -control board in the second earlap outside. The utility model discloses an integral type audio playback equipment can realize all functions such as audio frequency selection, audio playback and playback control, all operating functions of having integrateed tin, having selected, broadcast, and the operation is simple and easy, and convenient to carry.

Description

Integral type audio-frequence player device

Technical field

The utility model relates to audio signal processing technique, particularly relates to a kind of integral type audio-frequence player device.

Background technology

Existing music player devices or be simple music player, the Walkman walkman personal music player of such as Sony, the iPod music player of apple or implant the music player or the application of music class etc. of smart mobile phone.When using above-mentioned music player devices to listen song, user needs extra frames connecting with headphone or similar devices just can hear music.When listening to the music especially out of doors, user needs to wear music player, earphone and audio connecting cord, wears loaded down with trivial details, and is not easy to operation.

Utility model content

For solving the technical matters of existing existence, the utility model provides a kind of integral type audio-frequence player device.

For achieving the above object, the technical solution of the utility model is achieved in that

A kind of integral type audio-frequence player device, described equipment comprises: Tou Liangbu, the first ear and the second ear, and Tou Liangbu is connected between described first ear and the second ear;

Wherein, cabling is provided with in described head beam portion;

Described first ear comprises the first auricular concha, is wrapped in the first loudspeaker of described first auricular concha inside, audio signal processing circuit, CPU, storer and radio communication circuit, and is positioned at the touch-screen outside described first auricular concha; Described touch-screen, storer, radio communication circuit, audio signal processing circuit are electrically connected with described CPU respectively, and described first loudspeaker is electrically connected with described audio signal processing circuit;

Described second ear comprises the second auricular concha, be wrapped in the second loudspeaker of described second auricular concha inside, power supply device, Trackpad support circuit, and the Trackpad be positioned at outside described second auricular concha, described Trackpad and described Trackpad support that circuit is electrically connected, and described Trackpad supports that circuit is electrically connected with described CPU by the cabling of inside, described head beam portion; Described second loudspeaker is electrically connected with described audio signal processing circuit by the cabling of inside, head beam portion; Described power supply device is electrically connected with other all devices of described second ear, and is electrically connected with all devices of described first ear by the cabling of inside, head beam portion.

Wherein, described audio signal processing circuit and described Trackpad are electrically connected with described CPU by built-in integrated circuit I2C interface.

Wherein, described first ear also comprises inertial sensor and/or locating device; Described inertial sensor is electrically connected with described CPU, and is connected with described power supply device by the cabling of inside, described head beam portion; Described locating device is electrically connected with described CPU.

Wherein, described inertial sensor comprises: acceleration transducer and/or gyroscope; Described acceleration transducer and/or gyroscope adopt two-in-one 6 axle chips, are electrically connected with described CPU by I2C.

Wherein, described radio communication circuit comprises: cellular communication unit and/or wifi communication unit and/or bluetooth-communication unit; Described cellular communication unit and/or wifi communication unit and/or bluetooth-communication unit are electrically connected with described CPU respectively.

Wherein, described second ear also comprises: heart rate sensor, and described heart rate sensor is electrically connected with described CPU by the cabling of inside, described head beam portion; And/or described second ear also comprises: feeler; Described feeler is electrically connected with described CPU by the cabling of inside, described head beam portion.

Wherein, described heart rate sensor and/or feeler are electrically connected with described CPU by I2C interface.

Wherein, described first ear also comprises: the first audio signal reception device, and described first audio signal reception device is electrically connected with described CPU; And/or described second ear also comprises: the second audio signal reception device, described second audio signal reception device is electrically connected with described CPU by the cabling of inside, described head beam portion.

Wherein, described first audio signal reception device and/or the second audio signal reception device comprise two microphones respectively, and a microphone is for gathering environmental noise, and another microphone is for gathering the voice as echo signal.

Wherein, described first ear also comprises: control module, and described control module is be stored in the operating system in the computer-readable medium of described CPU;

Described control module comprises: human-computer interaction module, execution control module; Wherein, described human-computer interaction module, for providing the user interface that presented by described touch-screen and receiving user instruction; Described execution control module, the user instruction for receiving based on user interface on described touch-screen controls described CPU and performs corresponding action; And the gesture data for being transmitted by described Trackpad is converted to Play Control instruction and controls described CPU and performs.

Wherein, described audio signal processing circuit comprises digital-to-analogue conversion chip and power amplifier chips, described digital-to-analogue conversion chip one end is electrically connected with described CPU, the other end is electrically connected with one end of described power amplifier chips, and the other end of described power amplifier chips is electrically connected with described first loudspeaker, the second loudspeaker.

Wherein, described Trackpad is condenser type matrix Trackpad.

The integral type audio-frequence player device of the utility model embodiment, individual equipment can realize all functions such as audio selection, audio frequency broadcasting and Play Control, is integrated with all operations function of listening, selecting, broadcasting, operates simple and easy, and easy to carry.

The set of the utility model embodiment music player itself, audio process, interpersonal interactive module and sound-producing device etc., user only needs the utility model embodiment equipment can realize listening the demand of song.

Accompanying drawing explanation

In accompanying drawing (it is not necessarily drawn in proportion), similar Reference numeral can describe similar parts in different views.The similar reference numerals with different letter suffix can represent the different examples of similar parts.Accompanying drawing generally shows each embodiment discussed herein by way of example and not limitation.

Fig. 1 is the one-piece construction schematic diagram of the utility model embodiment integral type audio-frequence player device;

Fig. 2 is the composition structural representation of the utility model embodiment integral type audio-frequence player device;

Fig. 3 is the schematic diagram of user interface on the utility model embodiment integral type audio-frequence player device touch-screen;

Fig. 4 is the mode of operation schematic diagram of the utility model embodiment integral type audio-frequence player device Trackpad;

Fig. 5 is the schematic flow sheet of the utility model embodiment integral type audio-frequence player device audio frequency playing method.

Embodiment

The utility model embodiment provides a kind of integral type audio-frequence player device, and preferably, as shown in Figure 1, the one-piece construction of described equipment can be rendered as the structure of a headphone, also can adopt other similar structure, repeat no more.

This equipment comprises: left ear 11, auris dextra portion 12 and head beam portion 13, and described left ear 11 is connected by head beam portion 13 with between auris dextra portion 12, and head beam portion 13 is between described left ear 11 and auris dextra portion 12.

Inside, described head beam portion 13 is provided with cabling, for being electrically connected with the electron device in auris dextra portion 12 by the electron device of left ear 11.

Concrete, as shown in Figure 2, described left ear 11 comprises left auricular concha, CPU, audio signal processing circuit, the first loudspeaker, radio communication circuit, touch-screen, locating device and storer, wherein, CPU, audio signal processing circuit, the first loudspeaker, radio communication circuit, locating device, acceleration transducer are all wrapped in the inside of described left auricular concha, touch-screen is positioned at the outside of described left auricular concha, user-friendly position.Described touch-screen, storer, radio communication circuit, audio signal processing circuit are electrically connected with described CPU respectively, and described first loudspeaker is electrically connected with described audio signal processing circuit.

Described auris dextra portion 12 comprises auris dextra shell, the second loudspeaker, power supply device, Trackpad support circuit and Trackpad, wherein, it is inner that Trackpad supports that circuit, power supply device and the second loudspeaker are all wrapped in described auris dextra shell, Trackpad is positioned at the outside of described auris dextra shell, user-friendly position.Trackpad and Trackpad support that circuit is electrically connected, and Trackpad supports that circuit is electrically connected with CPU by the cabling of inside, head beam portion; Second loudspeaker is electrically connected with audio signal processing circuit by the cabling of inside, head beam portion; Power supply device is electrically connected with other all devices of described second ear, and is electrically connected with all devices of described first ear by the cabling of inside, head beam portion.

Audio-source obtains audio digital signals through CPU encoding and decoding process, audio digital signals is converted to audio analog signals through audio signal processing circuit again and amplifies, audio analog signals after amplification sends into the first loudspeaker and the second loudspeaker, and the audio analog signals after amplification is converted to sound and plays by the first loudspeaker and the second loudspeaker.

Concrete, radio communication circuit can comprise: honeybee cellular communication unit and/or wifi communication unit and/or bluetooth-communication unit; Described cellular communication unit and/or wifi communication unit and/or bluetooth-communication unit are electrically connected with described CPU respectively.Wherein, cellular communication unit can support the multiple cellular network such as 3G, 4G; Wifi communication unit can carry out network service based on different procotols, as RTP (RTP, Real-timeTransportProtocol), stream format host-host protocol (MMS, MicrosoftMediaServerprotocol), crossfire communications protocol (RTSP, RealTimeStreamingProtocol) etc.; Bluetooth-communication unit can support that current device is mutual with the blue-teeth data of equipment nearby.

CPU also comprises computer-readable medium, this computer-readable medium stores the operating system of a customization, operation and the calculating of operating system complete on CPU.This operating system can be considered to a control module, can perform audio player operation according to user instruction control CPU.This operating system comprises human-computer interaction module, and this human-computer interaction module provides one for the user interface of man-machine interaction, and this user interface presents on the touch-screen of left ear, can receive user instruction and send CPU to.This operating system also comprises execution control module, for generating CPU steering order and control CPU performs corresponding action, here instruction can comprise the audio-source generated based on described user instruction and obtain instruction, also Play Control instruction can be comprised, the Play Control instructions such as the instruction that such as volume steering order, audio file switching command, the instruction of Voice command On/Off, broadcasting suspend/start.Particularly, perform control module and perform corresponding action for controlling described CPU based on the user instruction of user interface reception on described touch-screen; And the gesture data for being transmitted by described Trackpad is converted to Play Control instruction and controls described CPU and performs.

Be described in detail for the selection of audio-source and the user interface of touch-screen below.

Audio-source can be the audio file stored in memory, also can be the audio stream obtained from network side by cordless communication network.Audio-source can be selected as required by user oneself.Particularly, user can select audio-source by the user interface on touch-screen.Such as, if user have selected local music, then touch-screen is transferred to CPU by selecting the user instruction of local music, CPU reads corresponding audio file according to user instruction and plays from storer, if user have selected Online Music, then touch-screen is transferred to CPU by selecting the user instruction of Online Music, and CPU obtains audio stream by radio communication circuit from network side and plays.

Particularly, the user interface on left ear touch-screen presents audio-source and selects the page, selects the page has multiple user interface element, perform the operation of audio-source selection for user in audio-source.Such as, as shown in Figure 3, select the page presents four elements, i.e. " search ", " play history ", " local music " and " my song list " in audio-source, the corresponding a kind of audio-source option of each element.

User's click " search " afterwards touch-screen presents the searched page of Online Music, user is after the enterprising line search operation of searched page, touch-screen presents result of page searching further, this result of page searching presents at least one selectable music file or music file list in mobile communication, user selects the music file that will play or music file list in mobile communication, the user instruction of music is play in input, then CPU receives corresponding user instruction, the music file selected based on user on result of page searching or the network address of music file list in mobile communication, obtain corresponding audio-source by wireless network and play.

" play history " have recorded the history file list that user plays recently, user's click " play history " afterwards touch-screen presents the play history page, this play history page presents at least one history file list, user selects the history file list that will play at the play history page, the user instruction of music is play in input, then CPU receives corresponding user instruction, the history file list selected according to user is read corresponding audio-source and plays from storer, or the network address of recording in the history file list based on user's selection obtains corresponding audio-source by wireless network and plays.

" my song list " have recorded user-defined music file list in mobile communication, user's click " my song list " afterwards touch-screen presents my song single-page, my song single-page presents at least one user-defined music file list in mobile communication, user selects the music file list in mobile communication that will play in my song single-page, the user instruction of music is play in input, then CPU receives corresponding user instruction, the music file list in mobile communication selected according to user reads corresponding audio-source and plays from storer, or the network address of recording in the music file list in mobile communication based on user's selection obtains corresponding audio-source by wireless network and plays.

In playing process, the user interface on touch-screen presents the broadcasting page, this broadcasting page presents the relevant information of the music file of current broadcasting, as singer's relevant information, musical designation, also can present the element such as playing progress rate hurdle, volume control group.The user interface of the utility model embodiment is supported to repeat no more other similar pages equally.

In practical application, the touch-screen of left ear can adopt the LCD display of 3.2 inches, wears multi-touch function screen outside display screen.

Play Control has been come jointly mainly through the Trackpad and CPU being positioned at auris dextra portion.The Trackpad in auris dextra portion is responded to gesture and relevant information is sent to CPU to realize Play Control.Particularly, the connected mode of Trackpad and CPU adopts built-in integrated circuit (I2C, Inter-IntegratedCircuit) bus protocol, Trackpad is condenser type matrix Trackpad, identified the gesture of user operation by the variation track following the tracks of electric capacity on finger capacitance matrix, such as advancing slip, rear cunning, upper cunning, glide, click, the gesture operation such as double-click.The operating gesture of Trackpad induction user, and the gesture data obtained is passed through built-in integrated circuit (I2C, Inter-IntegratedCircuit) CPU is sent to, gesture data is converted to Play Control instruction based on the mapping relations preset by the control module on CPU, and control CPU performs the action of corresponding audio frequency Play Control.Corresponding Play Control instruction can comprise audio file switch (as next, upper one first), volume control (as volume increase, volume down), the instruction such as broadcasting time-out/beginning, On/Off Voice command.As shown in Figure 4, for an example of mapping relations between gesture and Play Control instruction, wherein, in the gesture correspondence of slide anteroposterior, one is first/next instruction, slide up and down the instruction of corresponding volume increase and decrease, rotate the instruction of the gesture of sliding then corresponding " fast browsing title of the song song list or singer's list or other list information ".

Under regard to the utility model embodiment integral type audio-frequence player device composition structure optimal way be described in detail.

As shown in Figure 2, the integral type audio-frequence player device of the utility model embodiment, can also comprise sensor.Such as, integral type audio-frequence player device can comprise inertial sensor, feeler, heart rate sensor etc.

Particularly, inertial sensor can arrange left ear, and be wrapped in left auricular concha inner, inertial sensor comprises acceleration transducer and/or gyroscope.Inertial sensor is connected with CPU, is connected on CPU by I2C interface.After user selects the motion detection function of equipment also to open, inertial sensor detects the motor behavior of user in real time, and send the exercise data obtained to CPU, the algorithm generating Play Control instruction based on exercise data is realized by the operating system on CPU and control module, this algorithm can be that control module passes through to resolve exercise data acquisition movement rhythm, in the storer of this locality, the audio file of coupling is searched again based on movement rhythm, or the audio file of coupling is searched by radio communication circuit access network, and presented finding audio file by the user interface on auris dextra portion touch-screen, to be pushed to user.Said process can be controlled by user interface or other modes such as button etc. by user.In practical application, acceleration transducer and/or gyroscope can adopt two-in-one 6 axle chips, are connected with CPU by I2C interface, to detect motor behavior when user wears audio-frequence player device in real time.In practical application, body language (nod, shake the head) control play content and/or the playing process of user can also be responded to by inertial sensor.Particularly, the body language of user, by resolving exercise data, is converted to steering order and control CPU performs corresponding action by control module.

Feeler can be arranged on auris dextra portion, is wrapped in auris dextra shell, and feeler is connected with CPU by the inner cabling of head beam.When the contact induction function of equipment is opened, the contact of user to equipment responded in real time by feeler, and reportedly give CPU by the contact number detected, operating system on CPU and above-mentioned control module resolve contact data, judge the wearing state of audio-frequence player device, determine that audio-frequence player device is that to be in wearing state be also non-wearing state, and generated the Play Control instruction continuing to play or suspend music on the same day by preset software algorithm, control CPU performs corresponding instruction.

In addition, control module can also according to the duty of contact data switching device.Particularly, when feeler senses user's contact arrangement, give control module by contact condition data, control module is resolved described contact data and is waken up by equipment, is switched to duty from dormant state, with automatic opening device; When feeler senses that user leaves equipment, then give control module by contacting data accordingly, control module by device sleeps, is namely switched to dormant state from duty, with latching according to described contact data.So, when equipment on the shelf, equipment can enter dormant state, and wake-up device is carried out in the outside that user can dub left and right auricular concha.

Heart rate sensor can be arranged on auris dextra portion, and this heart rate sensor is connected with CPU by the inner cabling of head beam, detects the heart rate data of user in real time and sends CPU to.Particularly, in the utility model embodiment, heart rate sensor is connected with CPU by I2C interface, detect the cyclical variation of the intensity of the blood reflected light of user's ear capillary to be optically, calculate the heart rate of user during wearable device, and send the heart rate data obtained to CPU, operating system on CPU and described control module are resolved heart rate data and process according to related algorithm, the mood of prediction user, find the audio file mated with described heart rate data, and the audio file information found is presented by the user interface on touch-screen, to recommend the music matched with Current heart rate to user.

In equipment as shown in Figure 2, the circuit of the location determination capabilities that locating device support injection GPS (GPS) or other positioning systems provide and sensor.Power supply device can comprise the power supply device or battery that connect external power source.This battery can be accumulator, also can be rechargeable battery.

The integral type audio-frequence player device of the utility model embodiment can also comprise audio signal reception device, can arrange an audio signal reception device respectively in left ear and auris dextra portion, also only a position can arrange an audio signal reception device wherein.Audio signal reception device is electrically connected with CPU, especially, also can connect CPU by I2C interface, or can also be connected with audio signal processing circuit.This audio signal reception device can be a microphone, also can comprise two microphones.When audio signal reception device comprises two microphones, a microphone is for gathering environmental noise, and another microphone is for gathering the voice as echo signal.In practical application, audio signal reception device gathers environmental noise, and the voice gathered as echo signal, all send audio signal processing circuit to, audio signal processing circuit obtains effective speech data and gives the control module on CPU after carrying out noise reduction process based on environmental noise to the described voice as echo signal.User can carry out Voice command by described audio signal reception device to equipment.Particularly, audio signal reception device collection is as the voice of echo signal; Control module obtains speech data and also resolves, and generates corresponding instruction and the user interface controlled on described CPU or touch-screen performs corresponding action; Described instruction comprises: the user instruction that the user interface that touch-screen presents can receive, and/or Play Control instruction identical on Trackpad.Such as, user directly can say audio signal reception device " playing Liu Dehua " ice rain " ", and audio signal reception device gathers the voice of user, and speech data is delivered to CPU, and CPU generates voice command based on speech data, and control CPU play-overs the song that user specifies.Again such as, when equipment enters dormant state, user also can wake this equipment up by voice command.

In fact, audio signal processing circuit can comprise: digital-to-analogue conversion chip (DAC, and power amplifier chips Digitaltoanalogconverter), digital-to-analogue conversion chip one end is electrically connected with described CPU, the other end is electrically connected with one end of described power amplifier chips, and the other end of described power amplifier chips is electrically connected with described first loudspeaker, the second loudspeaker.Such as, song or voice document complete encoding and decoding at CPU and become digital signal, by I2S interface, digital signal is sent to digital-to-analogue conversion chip, digital-to-analogue conversion chip completes the conversion of digital signal to simulating signal, and the loudspeaker that last simulating signal delivers to left and right after power amplifier chips amplifies is play.

During practical application, left auricular concha and auris dextra shell outside can also be provided with ear muff, to ensure the good fit of equipment and people's ear and to increase comfort.Left ear and auris dextra portion can exchange, and in use can arbitrarily wear, and specific implementation process is similar to the above process, repeats no more.In addition, integral type playback equipment of the present utility model can also comprise some user-friendly buttons, such as, controls the switch key of touch-screen, and/or controls switch key of Trackpad etc.Such as, in device instance as shown in Figure 1, at the switch key of an arranged outside touch-screen of left auricular concha, this switch key controls the opening and closing of touch-screen, is electrically connected with touch-screen.

The audio frequency playing method of the utility model embodiment integral type audio-frequence player device, as shown in Figure 5, described method comprises:

Step 501, CPU is from described storer or obtain audio-source by radio communication circuit;

Step 502, described audio-source is converted to digital signal and sends into audio signal processing circuit by CPU;

Step 503, described digital signal is converted to simulating signal by described audio signal processing circuit, and sends into the first loudspeaker and the second loudspeaker after described simulating signal being amplified;

Step 504, the simulating signal after described amplification is converted to sound and plays by described first loudspeaker and the second loudspeaker.

Wherein, described method can also comprise: the user interface on touch-screen receives user instruction and sends control module to; Control module, according to described user instruction, controls described CPU and reads audio file from described storer or obtain audio stream by radio communication circuit, obtain audio-source to make described CPU.

Wherein, described method can also comprise: Trackpad detects the operating gesture of user in real time, and gives control module by the gesture data of acquisition; Described gesture data is converted to Play Control instruction and controls described CPU and performs the action of corresponding audio frequency Play Control by control module; Described Play Control instruction comprise as give an order any one or multiple: audio file switching command, volume steering order, play stop/pause instruction, the instruction of Voice command On/Off.

Wherein, described method can also comprise: heart rate sensor detects the heart rate data of user in real time and sends described heart rate data to described control module; And/or inertial sensor detects the motor behavior of user in real time, and send the exercise data of acquisition to control module; And/or, the position of locating device user in real, and send the position data of user to control module; Control module resolves described heart rate data and/or exercise data and/or position data, the audio-source matched from the memory look-up of this locality or searched the audio-source matched by radio communication circuit in on-line search mode, and in the user interface of described touch-screen, present the relevant information of described audio-source.

Wherein, described method can also comprise: the contact of user to equipment responded in real time by feeler; When sensing user's contact arrangement, then give described control module by contact data; Control module resolves described contact data, generates to wake instruction up and control described CPU to be waken up by equipment.

Wherein, described method can also comprise: the first audio signal reception device and/or the second audio signal reception device collection are as the voice of echo signal; Control module obtains speech data and also resolves, and generates corresponding instruction and the user interface controlled on described CPU or touch-screen performs corresponding action; Described instruction comprises: the user instruction that the user interface that touch-screen presents can receive, and/or Play Control instruction identical on Trackpad.Here, the first audio signal reception device and/or the second audio signal reception device gather environmental noise, and gather the voice as echo signal; Audio signal processing circuit obtains effective speech data and gives described control module after carrying out noise reduction process based on described environmental noise to the described voice as echo signal.

The integral type audio-frequence player device of the utility model embodiment, individual equipment can realize all functions such as audio selection, audio frequency broadcasting and Play Control, is integrated with all operations function of listening, selecting, broadcasting, operates simple and easy, and easy to carry.Integral device can be run in an operating system, operating system has the user interface of highly customization, and matching with capacitive Trackpad, be convenient to user and complete common Play Control operation, as the selection of music, music etc. by various ways such as touch-control, voice, gestures.The integral type audio-frequence player device of the utility model embodiment can also based on the feedback of the human body physiological parameters such as the behavior of user, heart rate, better with people alternately, experience is more humane, personalized.The set of the utility model embodiment music player itself, audio process, interpersonal interactive module and sound-producing device etc., user only needs the utility model embodiment equipment can realize listening the demand of song.

The above, be only preferred embodiment of the present utility model, is not intended to limit protection domain of the present utility model.

Claims (12)

1. an integral type audio-frequence player device, is characterized in that, described equipment comprises: Tou Liangbu, the first ear and the second ear, and Tou Liangbu is connected between described first ear and the second ear;

Wherein, cabling is provided with in described head beam portion;

Described first ear comprises the first auricular concha, is wrapped in the first loudspeaker of described first auricular concha inside, audio signal processing circuit, CPU, storer and radio communication circuit, and is positioned at the touch-screen outside described first auricular concha; Described touch-screen, storer, radio communication circuit, audio signal processing circuit are electrically connected with described CPU respectively, and described first loudspeaker is electrically connected with described audio signal processing circuit;

Described second ear comprises the second auricular concha, be wrapped in the second loudspeaker of described second auricular concha inside, power supply device, Trackpad support circuit, and the Trackpad be positioned at outside described second auricular concha, described Trackpad and described Trackpad support that circuit is electrically connected, and described Trackpad supports that circuit is electrically connected with described CPU by the cabling of inside, described head beam portion; Described second loudspeaker is electrically connected with described audio signal processing circuit by the cabling of inside, head beam portion; Described power supply device is electrically connected with other all devices of described second ear, and is electrically connected with all devices of described first ear by the cabling of inside, head beam portion.

2. equipment according to claim 1, is characterized in that, described audio signal processing circuit and described Trackpad are electrically connected with described CPU by built-in integrated circuit I2C interface.

3. equipment according to claim 1, is characterized in that, described first ear also comprises inertial sensor and/or locating device; Described inertial sensor is electrically connected with described CPU, and is connected with described power supply device by the cabling of inside, described head beam portion; Described locating device is electrically connected with described CPU.

4. equipment according to claim 3, is characterized in that, described inertial sensor comprises: acceleration transducer and/or gyroscope; Described acceleration transducer and/or gyroscope adopt two-in-one 6 axle chips, are electrically connected with described CPU by I2C.

5. equipment according to claim 1, is characterized in that, described radio communication circuit comprises: cellular communication unit and/or wifi communication unit and/or bluetooth-communication unit; Described cellular communication unit and/or wifi communication unit and/or bluetooth-communication unit are electrically connected with described CPU respectively.

6. equipment according to claim 1, is characterized in that, described second ear also comprises: heart rate sensor, and described heart rate sensor is electrically connected with described CPU by the cabling of inside, described head beam portion;

And/or described second ear also comprises: feeler; Described feeler is electrically connected with described CPU by the cabling of inside, described head beam portion.

7. equipment according to claim 6, is characterized in that, described heart rate sensor and/or feeler are electrically connected with described CPU by I2C interface.

8. equipment according to claim 1, is characterized in that, described first ear also comprises: the first audio signal reception device, and described first audio signal reception device is electrically connected with described CPU;

And/or described second ear also comprises: the second audio signal reception device, described second audio signal reception device is electrically connected with described CPU by the cabling of inside, described head beam portion.

9. equipment according to claim 8, is characterized in that, described first audio signal reception device and/or the second audio signal reception device comprise two microphones respectively, and a microphone is for gathering environmental noise, and another microphone is for gathering the voice as echo signal.

10. equipment according to claim 1, is characterized in that, described first ear also comprises: control module, and described control module is be stored in the operating system in the computer-readable medium of described CPU;

Described control module comprises: human-computer interaction module, execution control module; Wherein,

Described human-computer interaction module, for providing the user interface that presented by described touch-screen and receiving user instruction;

Described execution control module, the user instruction for receiving based on user interface on described touch-screen controls described CPU and performs corresponding action; And the gesture data for being transmitted by described Trackpad is converted to Play Control instruction and controls described CPU and performs.

11. equipment according to claim 1, it is characterized in that, described audio signal processing circuit comprises digital-to-analogue conversion chip and power amplifier chips, described digital-to-analogue conversion chip one end is electrically connected with described CPU, the other end is electrically connected with one end of described power amplifier chips, and the other end of described power amplifier chips is electrically connected with described first loudspeaker, the second loudspeaker.

12. equipment according to claim 1, is characterized in that, described Trackpad is condenser type matrix Trackpad.