CN103905953A - Processing method and wearable electronic device - Google Patents

Abstract

The invention discloses a processing method and a wearable electronic device. The processing method is applied to the wearable electronic device. The wearable electronic device comprises a first structure used for being worn on the body of a user and a second structure. The method comprises the following steps: when the wearable electronic device is worn on the body of a user through the first structure, the second structure is in a first state; a control instruction is received; and the second structure is switched from the first state to a second state in response to the control instruction, wherein the audio output of the wearable electronic device sensed by the user when the second structure is in the second state is better than the audio output of the wearable electronic device sensed by the user when the second structure is in the first state.

Description

A kind of processing method and Wearable electronic equipment

Technical field

The present invention relates to electronic applications, relate in particular to a kind of processing method and Wearable electronic equipment.

Background technology

When user listens in audio file or communication process at use electronic equipment, surrounding environment can constantly change, therefore the noise in environment also constantly changes thereupon, and the variation of noise is irregular, may enter into extremely noisy outdoor environment from very quiet environment suddenly, also may be from noisy outdoor environment to extreme quietly indoor environment, at this moment wait, manual operation that can only be based on user, changes the volume of electronic equipment from outside, so that reach the comfortable volume value of user

Because volume can not regulate automatically, during from extremely noisy environment to very quiet environment, ear can be subject to great volume and impact, and causes ear's discomfort; On the contrary, enter noisy environment from quiet environment, although the impact that ear is subject to is less, need to find the button that regulates volume, in moving process, brought inconvenience.For example user is with in mobile phone communication process, from more quiet classroom to outdoor movement, ambient sound just changes to high-decibel from low decibel suddenly, change at the indoor Headphone volume that can catch because of ambient sound value, receiver sound becomes can not hear clearly, by the also inconvenient volume that manually changes receiver in process.That gives user passes through to have brought inconvenience.

But the inventor realizing in the process of invention technical scheme in the embodiment of the present invention, finds that above-mentioned technology at least exists following technical problem:

Because electronic equipment in prior art can only change by detecting user's operation the output volume of electronic equipment, so that user obtains suitable volume value, so, exist when ambient condition information changes, can not automatically change the technical problem that audio frequency that user hears is exported according to the change of ambient condition information.

Due in prior art when the environment change, can not automatically change according to the variation of environment the output sound value of electronic equipment, so, exist Wearable electronic equipment not provide and the technical problem of the corresponding audio frequency output of environmental voice information around to user.

Summary of the invention

The invention provides a kind of processing method and Wearable electronic equipment, for solving prior art when the environment change, can not automatically change according to the variation of environment the technical problem of the volume value that user hears.

On the one hand, the present invention provides a kind of processing method by the application's a embodiment, and described processing method is applied to Wearable electronic equipment, and described Wearable electronic equipment comprises: for wearing the first structure on user's body, and second structure, described method comprises:

In the time that described Wearable electronic equipment is worn on described user's body by described the first structure, described the second structure is in the first state;

Receive a control command;

Respond described control command, described the second structure is switched to the second state from described the first state, wherein, described in the time that user described in described the second structure is during in described the second state senses that the audio frequency output of described Wearable electronic equipment is better than described the second structure in described the first state, user senses the audio frequency output of described Wearable electronic equipment.

Preferably, described reception one control command, comprising:

Receive described control command from the electronic equipment being connected with described Wearable electronic equipment, described control command is the control command that ambient condition information that the described electronic equipment being connected with described Wearable electronic equipment senses generates.

Preferably, described Wearable electronic equipment is built-in with a voice collection device, and wherein, described reception one control command, comprising:

The ambient condition information sensing by described voice collection device;

The described control command generating according to described ambient condition information.

Preferably, the described control command of described response, is switched to the second state by described the second structure from described the first state, is specially:

By control command described in the second structural response being integrated with described the first structure, described the second structure is switched to the second state from described the first state.

Preferably, the described control command of described response, is switched to the second state by described the second structure from described the first state, is specially:

By being arranged on control command described in described first structural the second structural response, described the second structure is switched to the second state from described the first state.

Preferably, in the described control command of described response, before described the second structure is switched to the second state from described the first state, described method also comprises:

Respond described control command, the output sound value of the voice output unit of the electronic equipment that described and described Wearable electronic equipment is connected is adjusted to second volume value different with described the first volume value from the first volume value.

On the other hand, the present invention provides a kind of Wearable electronic equipment by another embodiment of the application, comprise for wearing the first structure on user's body, and the second structure, described electronic equipment comprises:

Control module, for receiving a control command;

Switch unit, be used for responding described control command for described the second structure is switched to the second state from described the first state, wherein, described in the time that user described in described the second structure is during in described the second state senses that the audio frequency output of described Wearable electronic equipment is better than described the second structure in described the first state, user senses the audio frequency output of described Wearable electronic equipment.

Preferably, described control module, is specially:

The first receiving element, for receiving described control command from the electronic equipment being connected with described Wearable electronic equipment, the control command that the ambient condition information that the electronic equipment that described control command is connected with described Wearable electronic equipment described in being senses generates.

Preferably, described electronic equipment also comprises: be built-in with a voice collection device, for the ambient condition information sensing by described voice collection device; The described control command generating according to described ambient condition information.

Preferably, described switch unit, is specially:

The second structure with described the first structure is integrated, for responding described control command, is switched to the second state by described the second structure from described the first state.

Preferably, described the second structure is specially:

Deformation apparatus, while being built in user's ear, responds described control command, and the volume of described deformation apparatus can expand or dwindle.

Preferably, described switch unit, is specially:

Be arranged on described first structural the second structure, for responding described control command, described the second structure be switched to the second state from described the first state.

Preferably, described the first structure comprises:

The first receiver;

The second receiver;

Receiver framework, for connecting described the first receiver and described the second receiver.

Preferably, described the second structure specifically comprises:

Torsion spring;

Power set;

Jockey, connects described power set and described torsion spring;

Wherein, respond described control command by described power set, to loosen or to strain described jockey, so that described jockey pulls torsion spring to adjust the angle between described the first receiver and described receiver framework and described the second receiver and described receiver framework.

Preferably, described electronic equipment also comprises:

Adjustment unit, arrange in described the first structure, be used for responding described control command, the output sound value of the voice output unit of the electronic equipment that described and described Wearable electronic equipment is connected is adjusted to second volume value different with described the first volume value from the first volume value.

The one or more technical schemes that provide in the embodiment of the present application, at least have following technique effect or advantage:

1, owing to having adopted in the time that described Wearable electronic equipment is worn on described user's body by described the first structure, described the second structure is in the first state, receive a control command, respond described control command, described the second structure is switched to the technical scheme of the second state from described the first state, so, efficiently solve in prior art in the time that environmental information around changes, can not automatically change according to the change of ambient condition information the technical problem of the audio frequency output that user hears, and then, when the second structure that has realized Wearable electronic equipment is switched to the second state by the first state, user senses that the audio frequency output of Wearable electronic equipment is better than the second structure user in the time of the first state and senses the technique effect of the audio frequency output of Wearable electronic equipment.

2, owing to having adopted the control command that is connected induction environmental information generation control the second structure around according to Wearable electronic equipment or with Wearable electronic equipment, this control command of the second structural response is switched to the technical scheme of the second state from the first state, so, efficiently solve Wearable electronic equipment in prior art and can not provide the technical problem of exporting with the corresponding audio frequency of environmental voice information around to user.And then, realize Wearable electronic equipment and can switch according to environmental voice information around the state of the second structure, the technique effect that provides the audio frequency with ambient condition information corresponding to export to user.

Accompanying drawing explanation

Fig. 1 is the structural representation of the Wearable electronic equipment in the embodiment of the present application;

Fig. 2 is the flow chart of the processing method in the embodiment of the present application;

Fig. 3 is the structural representation of the headphone in the embodiment of the present application;

Fig. 4 is the high-level schematic functional block diagram of the wear-type electronic equipment in the embodiment of the present application;

Fig. 5 is the structure chart of a headphone in the embodiment of the present application;

Fig. 6 is the structure chart of another headphone in the embodiment of the present application;

Fig. 7 A-Fig. 7 B is during the application implements, the schematic diagram by the angle between the first receiver and earphone framework from the first angle adjustment to the second angle.

Embodiment

The embodiment of the present application is by providing a kind of processing method and Wearable electronic equipment, solved in prior art in the time that ambient condition information changes, and can not automatically change according to the change of ambient condition information the technical problem of the volume value that user hears.

Technical scheme in the embodiment of the present application is the technical problem that solves above-mentioned Wearable electronic equipment and can not automatically change according to the change of ambient condition information the volume value that user hears, general thought is as follows:

Described Wearable electronic equipment comprises: for wearing the first structure on user's body, and second structure, described method comprises: in the time that described Wearable electronic equipment is worn on described user's body by described the first structure, described the second structure is in the first state; Receive a control command; Respond described control command, described the second structure is switched to the second state from described the first state, wherein, described in the time that user described in described the second structure is during in described the second state senses that the audio frequency output of described Wearable electronic equipment is better than described the second structure in described the first state, user senses the audio frequency output of described Wearable electronic equipment.

By having adopted Wearable electronic equipment response control command, the second structure is switched to the mode of the second state from the first state, efficiently solve in prior art in the time that environmental information around changes, can not automatically change according to the change of ambient condition information the technical problem of the audio frequency output that user hears, and then, when the second structure that has realized Wearable electronic equipment is switched to the second state by the first state, Wearable electronic equipment is in the time of the second state, the audio frequency output that user senses Wearable electronic equipment is because the second structure user when the first state senses the technique effect of the audio frequency output of Wearable electronic equipment.

In order better to understand technique scheme, below in conjunction with Figure of description and concrete execution mode, technique scheme is described in detail.

On the one hand, the present invention provides a kind of processing method by the application one embodiment, described processing method is applied to Wearable electronic equipment, this Wearable electronic equipment is specifically as follows headphone, In-Ear Headphones etc., as shown in Figure 1, this Wearable electronic equipment comprises: for wearing the first structure 10 on user's body, and the second structure 20.

As shown in Figure 2, the method comprises the steps:

S101: in the time that described Wearable electronic equipment is worn on described user's body by described the first structure, described the second structure is in the first state;

S102: receive a control command;

S103: respond described control command, described the second structure is switched to the second state from described the first state, wherein, described in the time that user described in described the second structure is during in described the second state senses that the audio frequency output of described Wearable electronic equipment is better than described the second structure in described the first state, user senses the audio frequency output of described Wearable electronic equipment.

For example, user is using Wearable electronic equipment to listen an audio file, this is fixed on the first structure by this Wearable electronic equipment this Wearable electronic equipment on user's head, under current ambient condition information, first, execution step S101: in the time that described Wearable electronic equipment is worn on described user's body by described the first structure, described the second structure is in the first state.

Then, execution step S102, that is: reception one control command.

Concrete, control command is specially the control information generating according to the ambient condition information of this Wearable electronic equipment, for generating corresponding control command according to the ambient condition information of this Wearable electronic equipment.Be which kind of electronic equipment according to concrete this Wearable electronic equipment, control command is different control command, for example, when this Wearable electronics is headphone, control command is second structure of tightening up headphone corresponding with the ambient condition information of this headphone or the control command of loosening the second structure of headphone.And for example, when this Wearable electronic equipment is In-Ear Headphones, control command is the expansion corresponding with the ambient condition information of this In-Ear Headphones or the control command of dwindling the second structure.

In specific implementation process, above-mentioned control command can be generated by this Wearable electronic equipment oneself, can be also that other electronic equipments that are connected by wired or wireless mode with this Wearable electronic equipment generate, and the application does not do concrete restriction.

Point situation is elaborated to the generative process of above-mentioned control command below.

The first, control command is generated by this Wearable electronic equipment oneself, and under this execution mode, Wearable electronic equipment is provided with a voice collection device, and this voice collection device can sense ambient condition information.So in this case, control command specifically obtains as follows:

First the ambient condition information, sensing by described voice collection device;

Then the described control command, generating according to described ambient condition information.

Specifically, in the time bringing into use this Wearable electronic equipment output audio file, the voice collection device that is built in this Wearable electronic equipment is responded to the ambient condition information of this Wearable electronic equipment, concrete, ambient condition information is: in the time that user moves to second environment from first environment, the environmental voice information of the first environment that voice collection device gathers is to the change value of the environmental voice information of the second environment gathering.Then the change value based on environmental voice information generates control command.If this Wearable electronic equipment is headphone, ambient condition information shows that moving to second environment from first environment is environmental voice information while increasing, generates and tightens up the control command of the second structure; Peripheral information information shows that moving to second environment from first environment is environmental voice information while reducing, generates the instruction of loosening the second structure.If this Wearable electronic equipment is In-Ear Headphones, ambient condition information shows that moving to second environment from first environment is environmental voice information while increasing, generates and expands the control command of the second structure; Peripheral information information shows that moving to second environment from first environment is environmental voice information while reducing, generates the instruction of dwindling the second structure.

For example, when user wears this Wearable electronic equipment from quiet indoor moving to noisy outdoor, the voice collection device collection being built in this Wearable electronic equipment senses that this Wearable electronic equipment ambient condition information is that environmental voice information has increased X decibel, then, based on this environmental voice information added value X decibel, generate the control command of switching the second structure.

In specific implementation process, obtain ambient condition information and have two kinds of execution modes at least, one is as environmental voice information around by user voice information (Se), user voice information and environmental voice information are not distinguished, so, in this enforcement execution mode, a voice collection device is set on this Wearable electronic equipment, in the time using this Wearable electronic equipment, detect the environmental voice information of this Wearable electronic equipment place environment always, then obtain ambient condition information in the change based on environmental voice information.Another kind of is difference user voice information and environmental voice information around, so, in this embodiment, this voice collection device is specifically as follows two microphones, one is placed in the inner side of this Wearable electronic equipment, and for detection of user voice information (Si), one is placed in the outside of this Wearable electronic equipment, for detection of environmental voice information (Se), then the difference based on user voice information and environmental voice information is determined the environmental voice information of current environment.Then in the time of environment change, the change of the environmental voice information based on obtaining obtains ambient condition information.

The second, control command is by generating with the wired or wireless electronic equipment that is connected of this Wearable electronic equipment, this electronic equipment is can be to the MP3 of this Wearable electronic equipment output audio, mobile phone etc., described control command is the control command that ambient condition information that the described electronic equipment being connected with described Wearable electronic equipment senses generates.Under this execution mode, Wearable electronic equipment receives the control command of the electronic equipment transmission being connected with described Wearable electronic equipment.

For the electronic equipment being connected with Wearable electronic equipment, on this electronic equipment, be provided with at least one voice collection device, for the ambient condition information of this Wearable electronic equipment of Real-time Collection.

Specifically, after electronic equipment is connected to this Wearable electronic equipment, be built in voice collection device in this electronic equipment and respond to the ambient condition information of this Wearable electronic equipment, then, generate control command based on the ambient condition information sensing, then Wearable electronic equipment, sends this control command to Wearable electronic equipment, so that can the control command based on receiving switch the state of the second structure.

Specifically, in the time bringing into use this Wearable electronic equipment output audio file, voice collection device in the electronic equipment being connected with this Wearable electronic equipment is responded to the ambient condition information of this Wearable electronic equipment, generates control command based on this ambient condition information.In specific implementation process, the execution mode that generates control command with the electronic equipment of this Wearable electronic equipment can be identical with the execution mode of Wearable electronic equipment self generation control command, a voice collection device specifically can be set, two voice collection device also can be set, so, owing to the execution mode that generates control command being described in detail in the first execution mode, so, do not repeat them here.

Obtaining after control command based on above-mentioned one or more embodiment, then, execution step S103, that is: respond described control command, described the second structure is switched to the second state from described the first state, wherein, described in the time that user described in described the second structure is during in described the second state senses that the audio frequency output of described Wearable electronic equipment is better than described the second structure in described the first state, user senses the audio frequency output of described Wearable electronic equipment.

In specific implementation process, be headphone or In-Ear Headphones based on this Wearable electronic equipment, the second structure is to there being two kinds of different structures, and then, the second corresponding different structures, step S103 specifically has following two kinds of different execution modes.

The first, when this Wearable electronic equipment is headphone, the first structure is the supporting construction of headphone, so that the first structure can be fixed to headphone on user's head, the second structure is the adjustment structure of headphone, and the second structure is in the first structure, now, by being arranged on control command described in described first structural the second structural response, described the second structure is switched to the second state from described the first state.

Specifically, as shown in Figure 3, the first structure of headphone comprises the first receiver 101, the second receiver 102, and the earphone framework 103 of connection the second receiver 101 and the second receiver 101, the second structure comprises torsion spring 201, power set 202, and the jockey 203 of connection torsion spring 201 and power set 202.

, when the control command generating in step S102 is when tightening up instruction, this tightens up instruction power set 202 responses, Tighten connection device 203, so that jockey 203 pulls torsion spring 201, thereby whole the second structure is tightened to the second state from the first state, and then, angle between described the first receiver and described receiver framework and described the second receiver and described receiver framework reduces, therefore, it is tightr that the first receiver and the second receiver and user's ear is fitted, to reduce the impact of surrounding environment acoustic information on user, allow the volume value of the audio frequency output that user hears increase, thereby while realizing user from quiet environment to noisy environment, sense the more excellent technique effect of audio frequency output of headphone.Contrary, the control command generating in step S102 is when loosening instruction, this loosens instruction power set 202 responses, loosen jockey 203, so that torsion spring recovers, thereby the second structure relax to the second state from the first state, thereby the angle between described the first receiver and described receiver framework and described the second receiver and described receiver framework increases, to increase the impact of surrounding environment acoustic information on user, the volume value of the audio frequency output that user hears reduces, thereby realize user while moving to quiet environment from noisy environment, sense the more excellent technique effect of audio frequency output of headphone.

The second, when this Wearable electronic equipment is In-Ear Headphones, the first structure and the second structure are integrated, the first structure (or second structure) both user In-Ear Headphones is fixed in user's ear, can self adjust again, to be switched to the second state from the first state.Now, by control command described in the second structural response being integrated with described the first structure, described the second structure is switched to the second state from described the first state.

Specifically, this first structure (or second structure) is specially deformation apparatus, be built in user's ear,, when the control command generating in step S102 is that while expanding instruction, this deformation apparatus expands, to expand the second state to from the first state, enter user's ear to reduce surrounding environment acoustic information, allow the volume value of the audio frequency output that user hears increase.When the control command generating in step S102 is when dwindling instruction, this deformation apparatus dwindles, to narrow down to the second state from the first state.Increase environmental voice information and enter user's ear, allow the volume value of the audio frequency output that user hears increase and arrive.Thereby the technique effect of the audio frequency output that realizes the In-Ear Headphones that user the senses volume value corresponding with environmental voice information.

In specific implementation process, in the described control command of described response, before described the second structure is switched to the second state from described the first state, described method also comprises:

Respond described control command, the output sound value of the voice output unit of the electronic equipment that described and described Wearable electronic equipment is connected is adjusted to second volume value different with described the first volume value from the first volume value.

Specifically,, after sensing ambient condition information, except the second structure of Wearable electronic equipment is switched to the second state from the first state, also adjust the output sound value of the voice output unit of the electronic equipment being connected with the formula electronic equipment of can wearing.Be specially: when the ambient condition information sensing is environmental voice information increase, output sound value is increased to the second volume value from the first volume value, the surrounding environment environmental information sensing is environmental voice information while reducing, and output sound value is reduced to the second volume value from the first volume value.Then, then by the second structure of Wearable electronic equipment be switched to the second state from the first state.Based on this execution mode, can make user obtain the more suitably technique effect of the volume value of audio frequency output.

On the other hand, the present invention provides a kind of Wearable electronic equipment by another embodiment of the application, comprise for wearing the first structure 10 on user's body, and the second structure 20.

As shown in Figure 4, this electronic equipment comprises following structure:

Control module 401, for receiving a control command;

Switch unit 402, be used for responding described control command for described the second structure is switched to the second state from described the first state, wherein, described in the time that user described in described the second structure 20 is during in described the second state senses that the audio frequency output of described Wearable electronic equipment is better than described the second structure 20 in described the first state, user senses the audio frequency output of described Wearable electronic equipment.

Further, in specific implementation process, described control module, is specially:

The first receiving element, for receiving described control command from the electronic equipment being connected with described Wearable electronic equipment, the control command that the ambient condition information that the electronic equipment that described control command is connected with described Wearable electronic equipment described in being senses generates.

Further, in specific implementation process, described electronic equipment also comprises: be built-in with a voice collection device, for the ambient condition information sensing by described voice collection device; The described control command generating according to described ambient condition information.

Further, in specific implementation process, described switch unit, is specially:

The second structure 20 with described the first structure 10 is integrated, for responding described control command, is switched to the second state by described the second structure 20 from described the first state.

Further, in specific implementation process, described the second structure 20 is specially:

Deformation apparatus, while being built in user's ear, responds described control command, and the volume of described deformation apparatus can expand or dwindle.

Further, in specific implementation process, described switch unit, is specially:

Be arranged on the second structure 20 in described the first structure 10, for responding described control command, described the second structure 20 be switched to the second state from described the first state.

Further, in specific implementation process, as shown in Figure 5 or Figure 6, described the first structure 10 comprises:

The first receiver 101;

The second receiver 102;

Receiver framework 103, for connecting described the first receiver 101 and described the second receiver 102.

Further, in specific implementation process, as shown in Figure 5 or Figure 6, described the second structure 20 specifically comprises:

Torsion spring 201, the application does not make restriction to the shape of torsion spring.

Power set 202;

Jockey 203, connects described power set 202 and described torsion spring 201, is specifically as follows bracing wire, specifically adopts which kind of jockey, and the application does not limit.

Wherein, respond described control command by described power set 202, to loosen or to strain described jockey 203, so that described jockey 203 pulls torsion spring 201 to adjust the angle between described the first receiver 101 and described receiver framework 103 and described the second receiver 102 and described receiver framework 103.

Concrete, in the time that control command is carried out for tightening up, respond this and tighten up instruction, to tighten up jockey 203, so that described jockey 203 pulls torsion spring 201, reduce the angle between described the first receiver 101 and described receiver framework 103, with the first angle adjustment from as shown in Figure 7 A to the second angle as shown in Figure 7 B.When instruction is for sending instruction, contrary with above-mentioned process of tightening up, in embodiment of the method, be also described in detail, so, do not repeat them here.

Further, in specific implementation process, described electronic equipment also comprises:

Adjustment unit, arrange in described the first structure 10, be used for responding described control command, the output sound value of the voice output unit of the electronic equipment that described and described Wearable electronic equipment is connected is adjusted to second volume value different with described the first volume value from the first volume value.

The one or more technical schemes that provide in the embodiment of the present application, at least have following technique effect or advantage:

1, owing to having adopted in the time that described Wearable electronic equipment is worn on described user's body by described the first structure, described the second structure is in the first state, receive a control command, respond described control command, described the second structure is switched to the technical scheme of the second state from described the first state, so, efficiently solve in prior art in the time that environmental information around changes, can not automatically change according to the change of ambient condition information the technical problem of the audio frequency output that user hears, and then, when the second structure that has realized Wearable electronic equipment is switched to the second state by the first state, user senses that the audio frequency output of Wearable electronic equipment is better than the second structure user in the time of the first state and senses the technique effect of the audio frequency output of Wearable electronic equipment.

2, owing to having adopted the control command that is connected induction environmental information generation control the second structure around according to Wearable electronic equipment or with Wearable electronic equipment, this control command of the second structural response is switched to the technical scheme of the second state from the first state, so, efficiently solve Wearable electronic equipment in prior art and can not provide the technical problem of exporting with the corresponding audio frequency of environmental voice information around to user.And then, realize Wearable electronic equipment and can switch according to environmental voice information around the state of the second structure, the technique effect that provides the audio frequency with ambient condition information corresponding to export to user.

Although described the preferred embodiments of the present invention, once those skilled in the art obtain the basic creative concept of cicada, can make other change and modification to these embodiment.So claims are intended to be interpreted as comprising preferred embodiment and fall into all changes and the modification of the scope of the invention.

Obviously, those skilled in the art can carry out various changes and modification and not depart from the spirit and scope of the present invention the present invention.Like this, if within of the present invention these are revised and modification belongs to the scope of the claims in the present invention and equivalent technologies thereof, the present invention is also intended to comprise these changes and modification interior.

Claims (15)

1. a processing method, described processing method is applied to Wearable electronic equipment, it is characterized in that, and described Wearable electronic equipment comprises: for wearing the first structure on user's body, and the second structure, described method comprises:

In the time that described Wearable electronic equipment is worn on described user's body by described the first structure, described the second structure is in the first state;

Receive a control command;

Respond described control command, described the second structure is switched to the second state from described the first state, wherein, described in the time that user described in described the second structure is during in described the second state senses that the audio frequency output of described Wearable electronic equipment is better than described the second structure in described the first state, user senses the audio frequency output of described Wearable electronic equipment.

2. the method for claim 1, is characterized in that, described reception one control command, comprising:

Receive described control command from the electronic equipment being connected with described Wearable electronic equipment, described control command is the control command that ambient condition information that the described electronic equipment being connected with described Wearable electronic equipment senses generates.

3. the method for claim 1, is characterized in that, described Wearable electronic equipment is built-in with a voice collection device, and wherein, described reception one control command, comprising:

The ambient condition information sensing by described voice collection device;

The described control command generating according to described ambient condition information.

4. method as claimed in claim 2 or claim 3, is characterized in that, the described control command of described response, is switched to the second state by described the second structure from described the first state, is specially:

By control command described in the second structural response being integrated with described the first structure, described the second structure is switched to the second state from described the first state.

5. method as claimed in claim 2 or claim 3, is characterized in that, the described control command of described response, is switched to the second state by described the second structure from described the first state, is specially:

By being arranged on control command described in described first structural the second structural response, described the second structure is switched to the second state from described the first state.

6. method as claimed in claim 2 or claim 3, is characterized in that, in the described control command of described response, before described the second structure is switched to the second state from described the first state, described method also comprises:

Respond described control command, the output sound value of the voice output unit of the electronic equipment that described and described Wearable electronic equipment is connected is adjusted to second volume value different with described the first volume value from the first volume value.

7. a Wearable electronic equipment, comprises for wearing the first structure on user's body, and the second structure, it is characterized in that, described electronic equipment comprises:

Control module, for receiving a control command;

Switch unit, be used for responding described control command for described the second structure is switched to the second state from described the first state, wherein, described in the time that user described in described the second structure is during in described the second state senses that the audio frequency output of described Wearable electronic equipment is better than described the second structure in described the first state, user senses the audio frequency output of described Wearable electronic equipment.

8. electronic equipment as claimed in claim 7, is characterized in that, described control module, is specially:

The first receiving element, for receiving described control command from the electronic equipment being connected with described Wearable electronic equipment, the control command that the ambient condition information that the electronic equipment that described control command is connected with described Wearable electronic equipment described in being senses generates.

9. electronic equipment as claimed in claim 7, is characterized in that, described electronic equipment also comprises: be built-in with a voice collection device, for the ambient condition information sensing by described voice collection device; The described control command generating according to described ambient condition information.

10. electronic equipment as claimed in claim 8 or 9, is characterized in that, described switch unit, is specially:

The second structure with described the first structure is integrated, for responding described control command, is switched to the second state by described the second structure from described the first state.

11. electronic equipments as claimed in claim 10, is characterized in that, described the second structure is specially:

Deformation apparatus, while being built in user's ear, responds described control command, and the volume of described deformation apparatus can expand or dwindle.

12. electronic equipments as claimed in claim 8 or 9, is characterized in that, described switch unit, is specially:

Be arranged on described first structural the second structure, for responding described control command, described the second structure be switched to the second state from described the first state.

13. electronic equipments as claimed in claim 12, is characterized in that, described the first structure comprises:

The first receiver;

The second receiver;

Receiver framework, for connecting described the first receiver and described the second receiver.

14. electronic equipments described in 13 as claimed in claim, is characterized in that, described the second structure specifically comprises:

Torsion spring;

Power set;

Jockey, connects described power set and described torsion spring;

Wherein, respond described control command by described power set, to loosen or to strain described jockey, so that described jockey pulls torsion spring to adjust the angle between described the first receiver and described receiver framework and described the second receiver and described receiver framework.

15. electronic equipments as claimed in claim 8 or 9, is characterized in that, described electronic equipment also comprises:

Adjustment unit, arrange in described the first structure, be used for responding described control command, the output sound value of the voice output unit of the electronic equipment that described and described Wearable electronic equipment is connected is adjusted to second volume value different with described the first volume value from the first volume value.

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