CN105759936A - Power-saving method and system for wearable electronic device - Google Patents

Abstract

The invention discloses a power-saving method and system for a wearable electronic device. The method comprises the steps that if the current time is within a preset dormant time quantum, the current geographical position of the wearable electronic device is acquired; the geographical position is sent to a remote mobile terminal bound with the wearable electronic device; the normal state of the wearable electronic device is switched to a dormant state. The normal state of the wearable electronic device is switched to the dormant state within the preset dormant time quantum, the geographical position of the wearable electronic device is sent to the remote mobile terminal bound with the wearable electronic device when the normal state is switched to the dormant state, a power consumption module is turned off, the power consumption of the wearable electronic device is effectively reduced, the runtime is prolonged, and the user experience is improved.

Description

The electricity saving method of a kind of Wearable electronic equipment and system

Technical field

The present invention relates to smart machine power conservation techniques field, particularly relate to electricity saving method and the system of a kind of Wearable electronic equipment.

Background technology

Development along with technology, Wearable electronic equipment is also day by day popularized, but for Wearable electronic equipment, the cruising time of usual Wearable electronic equipment is shorter, prior art generally adopt the method increasing battery capacity extend cruising time, but the volume that this method can make Wearable electronic equipment is consequently increased, being not easy to user and use, Consumer's Experience is very bad；The process chip using low dominant frequency in the power consumption to a certain degree reducing Wearable electronic equipment, but owing to the processing speed processing chip of low dominant frequency is slow, can largely reduce the speed of service of Wearable electronic equipment simultaneously；Cancel the SIM function of Wearable electronic equipment to reduce the power consumption of Wearable electronic equipment, then Wearable electronic equipment can only lean on bluetooth connection mobile phone to converse, less stable；Said method all can not well realize, while ensureing the Consumer's Experience of Wearable electronic equipment, reducing the power consumption of Wearable electronic equipment, extends cruising time.

Summary of the invention

Wearable electronic equipment is switched to resting state by normal condition by the present invention in preset dormancy time section, switched to by normal condition, between resting state, Wearable electronic equipment geographical position is sent the remote mobile terminal extremely bound with this Wearable electronic equipment, close power consumption module, effectively reduce the power consumption of Wearable electronic equipment, extend cruising time, improve Consumer's Experience simultaneously.

For reaching this purpose, the present invention by the following technical solutions:

First aspect, the present invention proposes the electricity saving method of a kind of Wearable electronic equipment, including:

If a. current time is in preset dormancy time section；

B. the geographical position that described Wearable electronic equipment is current is obtained；

C. described geographical position is sent the remote mobile terminal extremely bound with this Wearable electronic equipment；

D. described Wearable electronic equipment is switched to resting state by normal condition.

Wherein, described normal condition is particularly as follows: run the primary processor of described Wearable electronic equipment, sim module, GPS module, multi-axial sensor and HUB chip；Described resting state is particularly as follows: run multi-axial sensor and the HUB chip of described Wearable electronic equipment, the primary processor of described Wearable electronic equipment out of service, sim module and GPS module.

Wherein, described described Wearable electronic equipment is switched to resting state by normal condition after, also include:

Determine that described Wearable electronic equipment moves；

Described Wearable electronic equipment is switched to normal condition by resting state；

Determine described Wearable electronic equipment stop motion, return step a.

Wherein, described described Wearable electronic equipment stop motion is determined particularly as follows: detect that time of described Wearable electronic equipment stop motion is be more than or equal to preset time threshold value, it is determined that described Wearable electronic equipment stop motion.

Wherein, described described Wearable electronic equipment is switched to resting state by normal condition after, also include:

Receive call instruction, run described sim module, converse；

Determine end of conversation, return step a.

Wherein, described described Wearable electronic equipment is switched to resting state by normal condition after, also include:

If current time is not in preset dormancy time section；

Described Wearable electronic equipment is switched to normal condition by resting state.

Wherein, also include:

Judge whether described wearing electronic equipment is worn, if so, then described Wearable electronic equipment is set to normal condition；If it is not, then described Wearable electronic equipment is set to resting state.

Second aspect, the present invention proposes the another kind of electricity saving method of the electricity saving method comprising above-mentioned Wearable electronic equipment, also includes:

Judge whether described wearing electronic equipment is worn, if so, then described Wearable electronic equipment is set to normal condition；If it is not, then described Wearable electronic equipment is set to resting state.

The third aspect, the present invention proposes the electricity-saving system of a kind of Wearable electronic equipment, arranges module including very first time detection module, position acquisition module, position sending module and first；

Described very first time detection module: for determining that current time is in preset dormancy time section；

Described position acquisition module: for obtaining the geographical position that described Wearable electronic equipment is current；

Described position sending module: for described geographical position being sent the remote mobile terminal extremely bound with this Wearable electronic equipment；

Described first arranges module: for described Wearable electronic equipment is switched to resting state by normal condition.

Wherein, the electricity-saving system of the Wearable electronic equipment that the present invention proposes also includes moving detection module, stop motion detection module, sim module opening module, conversing confirms that module, the second time detecting module and second arrange module；

Described move detection module: be used for determining that described Wearable electronic equipment moves；

Described stop motion detection module: be used for determining described Wearable electronic equipment stop motion；

Described sim module opening module: be used for receiving call instruction, run described sim module, converse；

Described call confirms module: be used for determining end of conversation；

Described second time detecting module: for determining that current time is not in preset dormancy time section；

Described second arranges module: for described Wearable electronic equipment is switched to normal condition by resting state.

Fourth aspect, the present invention proposes the another kind of electricity-saving system of the electricity-saving system comprising above-mentioned Wearable electronic equipment；Additionally include wearing detection module；

Described wear detection module: be used for judging whether described wearing electronic equipment is worn, if so, then described Wearable electronic equipment be set to normal condition；If it is not, then described Wearable electronic equipment is set to resting state.

The method have the benefit that the present invention is determined by current time in preset dormancy time section；Obtain the geographical position that described Wearable electronic equipment is current；Described geographical position is sent the remote mobile terminal extremely bound with this Wearable electronic equipment；Described Wearable electronic equipment is switched to resting state by normal condition；In preset dormancy time section, Wearable electronic equipment is switched to resting state by normal condition, switched to by normal condition, between resting state, Wearable electronic equipment geographical position is sent the remote mobile terminal extremely bound with this Wearable electronic equipment, close power consumption module, effectively reduce the power consumption of Wearable electronic equipment, extend cruising time, improve Consumer's Experience simultaneously.

Accompanying drawing explanation

Fig. 1 is the method flow diagram of the embodiment of the method one of the electricity saving method of the Wearable electronic equipment that the present invention proposes.

Fig. 2 is the method flow diagram of the embodiment of the method two of the electricity saving method of the Wearable electronic equipment that the present invention proposes.

Fig. 3 is the method flow diagram of the embodiment of the method three of the electricity saving method of the Wearable electronic equipment that the present invention proposes.

Fig. 4 is the method flow diagram of the embodiment of the method four of the electricity saving method of the Wearable electronic equipment that the present invention proposes.

Fig. 5 is the method flow diagram of the embodiment of the method five of the electricity saving method of the Wearable electronic equipment that the present invention proposes.

Fig. 6 is the functional block diagram of the system embodiment one of the electricity-saving system of the Wearable electronic equipment that the present invention proposes.

Fig. 7 is the functional block diagram of the system embodiment two of the electricity-saving system of the Wearable electronic equipment that the present invention proposes.

Fig. 8 is the functional block diagram of the system embodiment three of the electricity-saving system of the Wearable electronic equipment that the present invention proposes.

Fig. 9 is the functional block diagram of the system embodiment four of the electricity-saving system of the Wearable electronic equipment that the present invention proposes.

Figure 10 is the functional block diagram of the system embodiment ten of the electricity-saving system of the Wearable electronic equipment that the present invention proposes.

Detailed description of the invention

Below in conjunction with accompanying drawing, further illustrate technical scheme by specific embodiment.

Embodiment one

Reference Fig. 1, the electricity saving method of a kind of Wearable electronic equipment, including:

If S101 current time is in preset dormancy time section.

Obtain the current time at this Wearable electronic equipment place, current time is judged, it is determined that current time is in preset dormancy time section.

Preset dormancy time section is not particularly limited by the present invention, preset dormancy time section includes class period section and sack time section, wherein class period section and sack time section can be adjusted according to the actual daily schedule of user, in the present embodiment, sack time section is point in morning 6 in the 8 o'clock to second day evening, class period section is thirty at morning 8 to noon 11, and thirty in the 2 pm to afternoon 4；If the current time at this Wearable electronic equipment place is in above-mentioned sack time section or in class period section, it is current time in preset dormancy time section.

S102, obtain the geographical position that described Wearable electronic equipment is current.

Positioned by GPS, obtain the geographical position that now Wearable electronic equipment is current.

S103, the remote mobile terminal that the transmission of described geographical position is extremely bound with this Wearable electronic equipment.

If this Wearable electronic equipment is child's Wearable electronic equipment, then the remote mobile terminal bound with this Wearable electronic equipment is the mobile terminal of the head of a family.

The geographical position of child's Wearable electronic equipment is sent the mobile terminal to the head of a family, avoid after child's Wearable electronic equipment is set to resting state, the head of a family cannot know the on-site situation of child in time, make the head of a family can know the location of child at any time, allow the head of a family feel more relieved, largely improve Consumer's Experience.

S104, described Wearable electronic equipment is switched to resting state by normal condition.

After the geographical position of Wearable electronic equipment is sent the remote mobile terminal extremely bound with this Wearable electronic equipment, Wearable electronic equipment is switched to resting state by normal condition, reduce the power consumption of Wearable electronic equipment.

In the present embodiment, normal condition is specially and runs the primary processor of described Wearable electronic equipment, sim module, GPS module, multi-axial sensor and HUB chip, and now Wearable electronic equipment is properly functioning, and power consumption is higher；In the present embodiment, resting state is specially the multi-axial sensor and HUB chip that run described Wearable electronic equipment, the primary processor of described Wearable electronic equipment out of service, sim module and GPS module, three bigger for power consumption modules are closed, retain HUB chip as coprocessor, while ensure that the speed of service of Wearable electronic equipment, retain multi-axial sensor, in time the kinestate of Wearable electronic equipment can be detected, the operational module of necessity is remained while farthest reducing the power consumption of Wearable electronic equipment, the speed of service making Wearable electronic equipment will not reduce too much.

If the present embodiment is determined by current time in preset dormancy time section；Obtain the geographical position that described Wearable electronic equipment is current；Described geographical position is sent the remote mobile terminal extremely bound with this Wearable electronic equipment；Described Wearable electronic equipment is switched to resting state by normal condition；In preset dormancy time section, Wearable electronic equipment is switched to resting state by normal condition, switched to by normal condition, between resting state, Wearable electronic equipment geographical position is sent the remote mobile terminal extremely bound with this Wearable electronic equipment, close power consumption module, effectively reduce the power consumption of Wearable electronic equipment, extend cruising time, improve Consumer's Experience simultaneously.

Embodiment two

With reference to Fig. 2, it is preferred that the electricity saving method of the Wearable electronic equipment that the present embodiment proposes, including:

If S201 current time is in preset dormancy time section.

S202, obtain the geographical position that described Wearable electronic equipment is current.

S203, the remote mobile terminal that the transmission of described geographical position is extremely bound with this Wearable electronic equipment.

S204, described Wearable electronic equipment is switched to resting state by normal condition.

Herein, step S201, step S202, step S203 are identical with step S101, step S102, step S103 and step S104 respectively with step S204, repeat no more herein.

S205, determine that described Wearable electronic equipment moves.

Detect that this Wearable electronic equipment moves by multi-axial sensor, then illustrate that user there occurs motion, if now also keeping resting state may affect the use of user.

Wherein, Wearable electronic equipment moves and includes detecting that swing by a relatively large margin or horizontal movement etc. occur this Wearable electronic equipment.

S206, described Wearable electronic equipment is switched to normal condition by resting state.

Resting state in step S206 is identical with the resting state in step S104 and normal condition with normal condition, is reverse step with step S204, repeats no more herein.

S207, determine described Wearable electronic equipment stop motion, return step S201.

Determine this Wearable electronic equipment stop motion, it is possible to be set to, when multi-axial sensor detects this Wearable electronic equipment stop motion, namely determine Wearable electronic equipment stop motion；Can also pass through to arrange preset time threshold value, when detecting that time of described Wearable electronic equipment stop motion is be more than or equal to preset time threshold value, just determine described Wearable electronic equipment stop motion.User can carry out selecting and regulating according to the actual demand of oneself.

The occurrence of preset time threshold value is not limited by the present invention, and user can be adjusted according to the actual demand of oneself, and in the present embodiment, preset time threshold value can be 3 minutes, 5 minutes or 10 minutes.

After determining Wearable electronic equipment stop motion by multi-axial sensor, return step S201.

The present embodiment adds the process step when Wearable electronic equipment moves on the basis of embodiment one, when Wearable electronic equipment moves, Wearable electronic equipment is switched to normal condition by resting state when determining, make user that the use of Wearable electronic equipment to be unaffected, when Wearable electronic equipment stop motion, return again to step S201, if current time is in preset dormancy time section, again repeat step S201, step S202, step S203 and step S204, described Wearable electronic equipment is switched to resting state by normal condition again, reduce Wearable electronic equipment energy consumption.

Embodiment three

With reference to Fig. 3, it is preferred that the electricity saving method of the Wearable electronic equipment that the present embodiment proposes, including: if S301 current time is in preset dormancy time section.

S302, obtain the geographical position that described Wearable electronic equipment is current.

S303, the remote mobile terminal that the transmission of described geographical position is extremely bound with this Wearable electronic equipment.

S304, described Wearable electronic equipment is switched to resting state by normal condition.

Herein, step S301, step S302, step S303 are identical with step S101, step S102, step S103 and step S104 respectively with step S304, repeat no more herein.

S305, receive call instruction, run described sim module, converse.

Wearable electronic equipment in a dormant state time, if having special status or emergency to need call, user can send needs call instruction, Wearable electronic equipment receives call instruction and then runs sim module for conversing, wherein, run sim module for running SIM temporarily, after the conversation is over sim module out of service again.

Preferably, Wearable electronic equipment runs sim module and primary processor after receiving call instruction, is conducive to improving further the speed of service of Wearable electronic equipment during call.

S306, determine end of conversation, return step S301.

After end of conversation, call is hung up, and Wearable electronic equipment determines end of conversation, again return to step S301, if meeting has normal condition to switch to the condition of resting state Wearable electronic equipment, then again Wearable electronic equipment is switched to resting state, reduce the purpose of energy consumption.

The present embodiment adds when user needs process step when conversing temporarily on the basis of embodiment one, send when user needs and converses and need call instruction, Wearable electronic equipment receives call instruction and then runs sim module for conversing, step S301, step S302, step S303 and step S304 is again repeated after determining end of conversation, described Wearable electronic equipment is switched to again resting state, reduces Wearable electronic equipment energy consumption.

Embodiment four

With reference to Fig. 4, it is preferred that the electricity saving method of the Wearable electronic equipment that the present embodiment proposes, including:

If S401 current time is in preset dormancy time section.

S402, obtain the geographical position that described Wearable electronic equipment is current.

S403, the remote mobile terminal that the transmission of described geographical position is extremely bound with this Wearable electronic equipment.

S404, described Wearable electronic equipment is switched to resting state by normal condition.

Herein, step S401, step S402, step S403 are identical with step S101, step S102, step S103 and step S104 respectively with step S404, repeat no more herein.

If S405 current time is not in preset dormancy time section.

Again obtain the current time at this Wearable electronic equipment place, current time is judged, it is determined that current time is not in preset dormancy time section.

The dormancy time section preset herein dormancy time section preset with step S101 in embodiment one is identical, repeats no more.

S406, described Wearable electronic equipment is switched to normal condition by resting state.

If determining in step S405, current time is not in preset dormancy time section, then switched to normal condition by Wearable electronic equipment by resting state, make user that the use of Wearable electronic equipment is unaffected.

If the present embodiment add on the basis of embodiment one current time not in preset dormancy time section time process step, when current time is not in preset dormancy time section, Wearable electronic equipment is switched to normal condition by resting state, makes user that the use of Wearable electronic equipment is unaffected.

Embodiment five

With reference to Fig. 5, it is preferred that the electricity saving method of the Wearable electronic equipment that the present embodiment proposes, also include:

S501, judge whether described wearing electronic equipment is worn.

The detection method in the present invention, the situation of wearing of Wearable electronic equipment detected is not particularly limited.

It is wear situation by what light sense chip and electric capacity contact detected Wearable electronic equipment that the situation of wearing of Wearable electronic equipment carries out in the present embodiment the method that detection adopts, if light sensation chip detection is blocked to light, and electric capacity contact detects contact skin, then determine that this Wearable electronic equipment is worn, otherwise determine that this Wearable electronic equipment is not worn.

S502, if so, then described Wearable electronic equipment is set to normal condition.

If the judged result in step S501 is worn for this Wearable electronic equipment, then this Wearable electronic equipment is set to normal condition, allows users to normally use Wearable electronic equipment.

S503 is if it is not, be then set to resting state by described Wearable electronic equipment.

If the judged result in step S501 is not worn for this Wearable electronic equipment, then this Wearable electronic equipment is set to resting state, reduces the power consumption of Wearable electronic equipment, extend the stand-by time of Wearable electronic equipment.

The present embodiment achieves the treatment situation when Wearable electronic equipment is not worn all, if Wearable electronic equipment is worn, then this Wearable electronic equipment is set to normal condition, allows users to normally use Wearable electronic equipment；If Wearable electronic equipment is not worn, then this Wearable electronic equipment is set to resting state, reduces the power consumption of Wearable electronic equipment, extend the stand-by time of Wearable electronic equipment.

In the present invention, embodiment two to embodiment five is the optimal way improved on the basis of embodiment one, and meanwhile, embodiment two to embodiment five can combine mutually as technical scheme arranged side by side and form new technical scheme.

Embodiment six

With reference to Fig. 6, present embodiments provide the electricity-saving system of a kind of Wearable electronic equipment, module 104 is set including very first time detection module 101, position acquisition module 102, position sending module 103 and first.

Very first time detection module 101: for determining that current time is whether in preset dormancy time section.

Obtained the current time at this Wearable electronic equipment place by very first time detection module 101, current time is judged, it is determined that current time is in preset dormancy time section.

Preset dormancy time section is not particularly limited by the present invention, preset dormancy time section includes class period section and sack time section, wherein class period section and sack time section can be adjusted according to the actual daily schedule of user, in the present embodiment, sack time section is point in morning 6 in the 8 o'clock to second day evening, class period section is thirty at morning 8 to noon 11, and thirty in the 2 pm to afternoon 4；If the current time at this Wearable electronic equipment place is in above-mentioned sack time section or in class period section, it is current time in preset dormancy time section.

Position acquisition module 102: for obtaining the geographical position that described Wearable electronic equipment is current.

Positioned by GPS, obtain the geographical position that now Wearable electronic equipment is current.

Position sending module 103: for described geographical position being sent the remote mobile terminal extremely bound with this Wearable electronic equipment.

If this Wearable electronic equipment is child's Wearable electronic equipment, then the remote mobile terminal bound with this Wearable electronic equipment is the mobile terminal of the head of a family.

The geographical position of child's Wearable electronic equipment is sent the mobile terminal to the head of a family, avoid after child's Wearable electronic equipment is set to resting state, the head of a family cannot know the on-site situation of child in time, make the head of a family can know the location of child at any time, allow the head of a family feel more relieved, largely improve Consumer's Experience.

First arranges module 104: for described Wearable electronic equipment is switched to resting state by normal condition.

After the geographical position of Wearable electronic equipment is sent the remote mobile terminal extremely bound with this Wearable electronic equipment, Wearable electronic equipment is switched to resting state by normal condition, reduce the power consumption of Wearable electronic equipment.

In the present embodiment, normal condition is specially and runs the primary processor of described Wearable electronic equipment, sim module, GPS module, multi-axial sensor and HUB chip, and now Wearable electronic equipment is properly functioning, and power consumption is higher；In the present embodiment, resting state is specially the multi-axial sensor and HUB chip that run described Wearable electronic equipment, the primary processor of described Wearable electronic equipment out of service, sim module and GPS module, three bigger for power consumption modules are closed, retain HUB chip as coprocessor, while ensure that the speed of service of Wearable electronic equipment, retain multi-axial sensor, in time the kinestate of Wearable electronic equipment can be detected, the operational module of necessity is remained while farthest reducing the power consumption of Wearable electronic equipment, the speed of service making Wearable electronic equipment will not reduce too much.

If the present embodiment is determined by current time in preset dormancy time section；Obtain the geographical position that described Wearable electronic equipment is current；Described geographical position is sent the remote mobile terminal extremely bound with this Wearable electronic equipment；Described Wearable electronic equipment is switched to resting state by normal condition；In preset dormancy time section, Wearable electronic equipment is switched to resting state by normal condition, switched to by normal condition, between resting state, Wearable electronic equipment geographical position is sent the remote mobile terminal extremely bound with this Wearable electronic equipment, close power consumption module, effectively reduce the power consumption of Wearable electronic equipment, extend cruising time, improve Consumer's Experience simultaneously.

Embodiment seven

With reference to Fig. 7, present embodiments provide the electricity-saving system of another kind of Wearable electronic equipment, including very first time detection module 201, position acquisition module 202, position sending module 203, first module 204 is set, moves detection module 205, second module 206 and stop motion detection module 207 are set.

Very first time detection module 201: for determining that current time is whether in preset dormancy time section.

Position acquisition module 202: for obtaining the geographical position that described Wearable electronic equipment is current.

Position sending module 203: for described geographical position being sent the remote mobile terminal extremely bound with this Wearable electronic equipment.

First arranges module 204: for described Wearable electronic equipment is switched to resting state by normal condition.

Move detection module 205: be used for determining that described Wearable electronic equipment moves.

Detect that this Wearable electronic equipment moves by multi-axial sensor, then illustrate that user there occurs motion, if now also keeping resting state may affect the use of user.

Wherein, Wearable electronic equipment moves and includes detecting that swing by a relatively large margin or horizontal movement etc. occur this Wearable electronic equipment.

Second arranges module 206: for described Wearable electronic equipment is switched to normal condition by resting state.

Stop motion detection module 207: be used for determining described Wearable electronic equipment stop motion.

Determine this Wearable electronic equipment stop motion, it is possible to be set to, when multi-axial sensor detects this Wearable electronic equipment stop motion, namely determine Wearable electronic equipment stop motion；Can also pass through to arrange preset time threshold value, when detecting that time of described Wearable electronic equipment stop motion is be more than or equal to preset time threshold value, just determine described Wearable electronic equipment stop motion.User can carry out selecting and regulating according to the actual demand of oneself.

The occurrence of preset time threshold value is not limited by the present invention, and user can be adjusted according to the actual demand of oneself, and in the present embodiment, preset time threshold value can be 3 minutes, 5 minutes or 10 minutes.

Embodiment adds and move detection module 205, second module 206 and stop motion detection module 207 are set, situation about can Wearable electronic equipment be moved processes, when Wearable electronic equipment moves, Wearable electronic equipment is switched to normal condition by resting state when determining, make user that the use of Wearable electronic equipment to be unaffected.

Embodiment eight

With reference to Fig. 8, present embodiments provide the electricity-saving system of another kind of Wearable electronic equipment, including very first time detection module 301, position acquisition module 302, position sending module 303, first module 304, sim module opening module 305 and call are set confirm module 306.

Very first time detection module 301: for determining that current time is whether in preset dormancy time section.

Position acquisition module 302: for obtaining the geographical position that described Wearable electronic equipment is current.

Position sending module 303: for described geographical position being sent the remote mobile terminal extremely bound with this Wearable electronic equipment.

First arranges module 304: for described Wearable electronic equipment is switched to resting state by normal condition.

Sim module opening module 305: be used for receiving call instruction, run described sim module, converse.

Wearable electronic equipment in a dormant state time, if having special status or emergency to need call, user can send needs call instruction, Wearable electronic equipment receives call instruction and then runs sim module for conversing, wherein, run sim module for running SIM temporarily, after the conversation is over sim module out of service again.

Preferably, Wearable electronic equipment runs sim module and primary processor after receiving call instruction, is conducive to improving further the speed of service of Wearable electronic equipment during call.

Call confirms module 306: be used for determining end of conversation.

Embodiment adds sim module opening module 305 and call confirms module 306, can to needing the situation of interim call to process as user, sending when user needs and converses and need call instruction, Wearable electronic equipment receives call instruction and then runs sim module for conversing.

Embodiment nine

With reference to Fig. 9, present embodiments provide the electricity-saving system of another kind of Wearable electronic equipment, including very first time detection module 401, position acquisition module 402, position sending module 403, first module the 404, second time detecting module 405 and second is set module 406 is set.

Very first time detection module 401: for determining that current time is whether in preset dormancy time section.

Position acquisition module 402: for obtaining the geographical position that described Wearable electronic equipment is current.

Position sending module 403: for described geographical position being sent the remote mobile terminal extremely bound with this Wearable electronic equipment.

First arranges module 404: for described Wearable electronic equipment is switched to resting state by normal condition.

Second time detecting module 405: for determining that current time is not in preset dormancy time section.

Utilize the second time detecting module 405 again to obtain the current time at this Wearable electronic equipment place, current time is judged, it is determined that current time is not in preset dormancy time section.

Second arranges module 406: for described Wearable electronic equipment is switched to normal condition by resting state.

Determine that current time is not in preset dormancy time section, then switched to normal condition by Wearable electronic equipment by resting state, make user that the use of Wearable electronic equipment is unaffected.

The present embodiment adds the second time detecting module 405 and second on the basis of embodiment one and arranges module 406, for process current time not in preset dormancy time section time situation, if current time is not in preset dormancy time section, Wearable electronic equipment is switched to normal condition by resting state, makes user that the use of Wearable electronic equipment is unaffected.

Embodiment ten

With reference to Figure 10, present embodiments provide the electricity-saving system of another kind of Wearable electronic equipment, including wearing detection module 501, first arranging module 502 and second and arrange module 503.

Wear detection module 501: be used for judging whether described wearing electronic equipment is worn.

The detection method in the present invention, the situation of wearing of Wearable electronic equipment detected is not particularly limited.

It is wear situation by what light sense chip and electric capacity contact detected Wearable electronic equipment that the situation of wearing of Wearable electronic equipment carries out in the present embodiment the method that detection adopts, if light sensation chip detection is blocked to light, and electric capacity contact detects contact skin, then determine that this Wearable electronic equipment is worn, perform second subsequently and module 503 is set；Otherwise determine that this Wearable electronic equipment is not worn, perform first subsequently and module 502 is set.

First arranges module 502: described Wearable electronic equipment is set to resting state.

If the judged result wearing detection module 501 is not worn for this Wearable electronic equipment, then this Wearable electronic equipment is set to resting state, reduces the power consumption of Wearable electronic equipment, extend the stand-by time of Wearable electronic equipment.

Second arranges module 503: described Wearable electronic equipment is set to normal condition.

If the judged result wearing detection module 501 is worn for this Wearable electronic equipment, then this Wearable electronic equipment is set to normal condition, allows users to normally use Wearable electronic equipment.

The present embodiment is by wearing detection module 501, first arranging module 502 and second and arrange module 503 and can be processed by Wearable electronic equipment wearing state, if Wearable electronic equipment is worn, then this Wearable electronic equipment is set to normal condition, allows users to normally use Wearable electronic equipment；If Wearable electronic equipment is not worn, then this Wearable electronic equipment is set to resting state, reduces the power consumption of Wearable electronic equipment, extend the stand-by time of Wearable electronic equipment.

Wearable electronic equipment is switched to resting state by normal condition by the present invention in preset dormancy time section, switched to by normal condition, between resting state, Wearable electronic equipment geographical position is sent the remote mobile terminal extremely bound with this Wearable electronic equipment, close power consumption module, effectively reduce the power consumption of Wearable electronic equipment, extend cruising time, improve Consumer's Experience simultaneously.

The know-why of the embodiment of the present invention is described above in association with specific embodiment; these describe and are intended merely to the principle explaining the embodiment of the present invention; and the restriction to embodiment of the present invention protection domain can not be construed to by any way; those skilled in the art need not pay performing creative labour can associate other detailed description of the invention of the embodiment of the present invention, and these modes fall within the protection domain of the embodiment of the present invention.

Claims (10)

1. the electricity saving method of a Wearable electronic equipment, it is characterised in that including:

If a. current time is in preset dormancy time section；

B. the geographical position that described Wearable electronic equipment is current is obtained；

C. described geographical position is sent the remote mobile terminal extremely bound with this Wearable electronic equipment；

D. described Wearable electronic equipment is switched to resting state by normal condition.

2. electricity saving method according to claim 1, it is characterised in that described normal condition is particularly as follows: run the primary processor of described Wearable electronic equipment, sim module, GPS module, multi-axial sensor and HUB chip；

Described resting state is particularly as follows: run multi-axial sensor and the HUB chip of described Wearable electronic equipment, the primary processor of described Wearable electronic equipment out of service, sim module and GPS module.

3. electricity saving method according to claim 2, it is characterised in that described described Wearable electronic equipment is switched to resting state by normal condition after, also include:

Determine that described Wearable electronic equipment moves；

Described Wearable electronic equipment is switched to normal condition by resting state；

Determine described Wearable electronic equipment stop motion, return step a.

4. electricity saving method according to claim 3, it is characterized in that, described determine described Wearable electronic equipment stop motion particularly as follows: detect that time of described Wearable electronic equipment stop motion is be more than or equal to preset time threshold value, it is determined that described Wearable electronic equipment stop motion.

5. electricity saving method according to claim 2, it is characterised in that described described Wearable electronic equipment is switched to resting state by normal condition after, also include:

Receive call instruction, run described sim module, converse；

Determine end of conversation, return step a.

6. electricity saving method according to claim 2, it is characterised in that described described Wearable electronic equipment is switched to resting state by normal condition after, also include:

If current time is not in preset dormancy time section；

Described Wearable electronic equipment is switched to normal condition by resting state.

7. one kind comprises electricity saving method described in claim 1-6 any one, it is characterised in that also include:

Judge whether described wearing electronic equipment is worn, if so, then described Wearable electronic equipment is set to normal condition；If it is not, then described Wearable electronic equipment is set to resting state.

8. the electricity-saving system of a Wearable electronic equipment, it is characterised in that include very first time detection module, position acquisition module, position sending module and first arrange module；

Described very first time detection module: for determining that current time is in preset dormancy time section；

Described position acquisition module: for obtaining the geographical position that described Wearable electronic equipment is current；

Described position sending module: for described geographical position being sent the remote mobile terminal extremely bound with this Wearable electronic equipment；

Described first arranges module: for described Wearable electronic equipment is switched to resting state by normal condition.

9. electricity-saving system according to claim 8, it is characterised in that also include moving detection module, stop motion detection module, sim module opening module, conversing confirms that module, the second time detecting module and second arrange module；

Described move detection module: be used for determining that described Wearable electronic equipment moves；

Described stop motion detection module: be used for determining described Wearable electronic equipment stop motion；

Described sim module opening module: be used for receiving call instruction, run described sim module, converse；

Described call confirms module: be used for determining end of conversation；

Described second time detecting module: for determining that current time is not in preset dormancy time section；

Described second arranges module: for described Wearable electronic equipment is switched to normal condition by resting state.

10. the electricity-saving system comprised described in claim 8 or 9, it is characterised in that also include wearing detection module；

Described wear detection module: be used for judging whether described wearing electronic equipment is worn, if so, then described Wearable electronic equipment be set to normal condition；If it is not, then described Wearable electronic equipment is set to resting state.