CN106452488A - Wearable device and energy saving method thereof - Google Patents

Abstract

The invention discloses a wearable device. The wearable device comprises a wearable device body and a wearable part; and the wearable part can be worn on a user body. The wearable device comprises a judging module used for judging whether the wearable part is worn on the user body when the wearable device is in a wakeup state; and a sleeping module used for controlling the wearable device to enter a sleeping state when the wearable part is not worn on the user body. The invention also discloses an energy saving method of the wearable device for saving electric quantity consumed by the wearable device and prolonging time endurance of the wearable device.

Description

A kind of Wearable and the power-economizing method of Wearable

Technical field

The present invention relates to a kind of Wearable electronic equipment technical field, more particularly, to a kind of Wearable and Wearable set The technical field of standby power-economizing method.

Background technology

Flourishing with Wearable electronic equipment technology, all kinds of Wearable electronic equipment incorporate people's with just striding Life.Such as：In startup procedure, people's custom wears intelligent earphone formula wearing electronic equipment；Monitor process in sport health In, people are also accustomed to wearing the Wearable electronic equipment of such as intelligent watch or Intelligent bracelet etc.These Wearable electronics set The standby life giving people brings great convenience, but these Wearables are because keep detection work shape always for a long time State, electric quantity consumption is big, and cruising time is short.

Therefore, it is necessary to provide a kind of wearing that can improve cruising time while not affecting normally to detect work Formula equipment electronic equipment and be applied to this Wearable electronic equipment to improve the control method in cruising time.

Content of the invention

Present invention is primarily targeted at proposing the power-economizing method of a kind of Wearable and Wearable it is intended to solve , because keeping for a long time detecting working condition, electric quantity consumption is big for existing Wearable, cruising time short technical problem.

For achieving the above object, a kind of Wearable that the present invention provides, including a Wearable body and a pendant Wear part, this wearable components can be worn on user, described system includes：

Judge module, for when described Wearable is in wake-up states, judging whether described wearable components are worn Wear with user；

Sleep block, for when described wearable components are not worn on user, controlling described Wearable Enter resting state.

Alternatively, described equipment also includes a detecting module, for detecting human pulse.

Alternatively, described sleep block, is additionally operable to, when described detecting module does not detect human pulse, control described Wearable enters resting state.

Alternatively, described wearable components include：One first fastener and one second fastener；Described wearable components are not worn Situation with user includes, and described first fastener and the second fastener are in released state.

Alternatively, described wearable components are additionally provided with a pressure transducer, and described wearable components are not worn on user Situation with it includes, and described pressure transducer does not sense a preset pressure.

Compared to prior art, Wearable proposed by the invention is passed through to judge the described pendant of described Wearable Wear whether part is worn on user, when described wearable components are not worn on user, control described Wearable Equipment enters and judges dormancy condition, that is, make Wearable in the case of not using, and enters resting state to save wearing The electricity that formula equipment is consumed, improves the cruising time of Wearable.

Additionally, for achieving the above object, the present invention also proposes a kind of power-economizing method of Wearable, be applied to described in wear Wear on formula equipment, described Wearable includes a Wearable and wearable components it is characterised in that methods described includes：

When described Wearable is in wake-up states, judge whether described wearable components are worn on user；

When described wearable components are not worn on user, described Wearable is controlled to enter resting state.

Alternatively, methods described also includes：Detecting human pulse.

Alternatively, methods described also includes：When not detecting human pulse, control described Wearable to enter and stop Dormancy state.

Alternatively, described wearable components include one first fastener and one second fastener；Described wearable components are not worn Situation with user includes, and described first fastener and the second fastener are in released state.

Alternatively, described wearable components are additionally provided with a pressure transducer, and described wearable components are not worn on user Situation with it includes, and described pressure transducer does not sense a preset pressure.

Compared to prior art, Wearable proposed by the invention is passed through to judge the described pendant of described Wearable Wear whether part is worn on user, when described wearable components are not worn on user, control described Wearable Equipment enters and judges dormancy condition, that is, make Wearable in the case of not using, and enters resting state to save wearing The electricity that formula equipment is consumed, improves the cruising time of Wearable.

Brief description

Fig. 1 is the hardware architecture diagram of an optional mobile terminal realizing each embodiment of the present invention；

Fig. 2 is the wireless communication system schematic diagram of mobile terminal as shown in Figure 1；

Fig. 3 is the module diagram of Wearable one embodiment of the present invention；

Fig. 4 is the Wearable schematic diagram in one embodiment of the invention；

Fig. 5 is the schematic flow sheet of Wearable power-economizing method of the present invention；

Fig. 6 is the first embodiment schematic flow sheet of Wearable power-economizing method of the present invention；

Fig. 7 is the second embodiment schematic flow sheet of Wearable power-economizing method of the present invention；

Fig. 8 is the 3rd embodiment schematic flow sheet of Wearable power-economizing method of the present invention.

Reference：

The realization of the object of the invention, functional characteristics and advantage will be described further in conjunction with the embodiments referring to the drawings.

Specific embodiment

It should be appreciated that specific embodiment described herein, only in order to explain the present invention, is not intended to limit the present invention.

Realize the mobile terminal 1 00 of each embodiment of the present invention referring now to Description of Drawings.In follow-up description, make With being used for the suffix of such as " module ", " part " or " unit " that represent element only for being conducive to the explanation of the present invention, its Body does not have specific meaning.Therefore, " module " and " part " can mixedly use.

Mobile terminal 1 00 can be implemented in a variety of manners.For example, the terminal described in the present invention can include such as wearing Wear formula equipment, mobile phone, smart phone, notebook computer, digit broadcasting receiver, PDA (personal digital assistant), PAD (flat Plate computer), PMP (portable media player), the mobile terminal of guider etc. and such as digital TV, desk-top calculating The fixed terminal of machine etc..Hereinafter it is assumed that terminal is mobile terminal.However, it will be understood by those skilled in the art that, except spy Yong Yu not move outside the element of purpose, construction according to the embodiment of the present invention can also apply to the end of fixed type End.

Fig. 1 is that the hardware configuration of the mobile terminal realizing each embodiment of the present invention is illustrated.

Mobile terminal 1 00 can include, but not limited to wireless communication unit 110, input block 120, user input unit 130th, sensing unit 140, output unit 150, memorizer 160, interface unit 170, controller 180 and power subsystem 190.Fig. 1 Show the mobile terminal 1 00 with various assemblies, it should be understood that being not required for implementing all assemblies illustrating.Can Alternatively to implement more or less of assembly.Will be discussed in more detail below the element of mobile terminal.

Wireless communication unit 110 generally includes one or more assemblies, and it allows mobile terminal 1 00 and wireless communication system Or the radio communication between network.For example, wireless communication unit can include broadcasting reception module, mobile communication module 111, At least one of wireless Internet module 112, short range communication module and location information module 113.

Broadcasting reception module receives broadcast singal via broadcast channel from external broadcast management server and/or broadcast is related Information.Broadcast channel can include satellite channel and/or terrestrial channel.Broadcast management server can be to generate and send broadcast The server of signal and/or broadcast related information or receive before generate broadcast singal and/or broadcast related information and Send it to the server of terminal.Broadcast singal can include TV broadcast singal, radio signals, data broadcasting signal Etc..And, broadcast singal may further include the broadcast singal combining with TV or radio signals.The related letter of broadcast Breath can also provide via mobile communications network, and in this case, broadcast related information can be by mobile communication module 111 To receive.Broadcast singal can exist in a variety of manners, and for example, it can be with the electronic programming of DMB (DMB) The form of guide (EPG), the electronic service guidebooks (ESG) of digital video broadcast-handheld (DVB-H) etc. and exist.Broadcast reception Module can be broadcasted by using various types of broadcast system receipt signals.Especially, broadcasting reception module can be by making With such as multimedia broadcasting-ground (DMB-T), DMB-satellite (DMB-S), DVB-hand-held (DVB-H), forward link media (MediaFLO^@) Radio Data System, received terrestrial digital broadcasting integrated service (ISDB-T) etc. Deng digit broadcasting system receive digital broadcasting.Broadcasting reception module may be constructed such that and is adapted to provide for the various wide of broadcast singal Broadcast system and above-mentioned digit broadcasting system.The broadcast singal receiving via broadcasting reception module 111 and/or broadcast related information Can be stored in memorizer 160 (or other types of storage medium).

Mobile communication module 111 sends radio signals to base station (for example, access point, node B etc.), exterior terminal And at least one of server and/or receive from it radio signal.Such radio signal can include voice and lead to Words signal, video calling signal or the various types of data sending and/or receiving according to text and/or Multimedia Message.

Wireless Internet module 112 supports the Wi-Fi (Wireless Internet Access) of mobile terminal.This module can be internally or externally It is couple to terminal.Wi-Fi (Wireless Internet Access) technology involved by this module can include WLAN (WLAN) (Wi-Fi), Wibro (WiMAX), Wimax (worldwide interoperability for microwave accesses), HSDPA (high-speed downlink packet access) etc..

Short range communication module is the module for supporting junction service.Some examples of short-range communication technology include bluetooth^TM、 RF identification (RFID), Infrared Data Association (IrDA), ultra broadband (UWB), purple honeybee^TMEtc..

Location information module 113 be for check or obtain mobile terminal positional information module.Location information module Typical case be GPS (global positioning system).According to current technology, GPS module calculates from three or more satellites Range information and correct time information and for the Information application triangulation calculating, thus according to longitude, latitude and Highly accurately calculate three-dimensional current location information.Currently, the method for calculating position and temporal information uses three satellites And the position calculating by using an other satellite correction and the error of temporal information.Additionally, GPS module can be led to Carry out calculating speed information after Continuous plus current location information in real time.

Input block 120 is used for receiving audio or video signal.Input block 120 can include camera 121 and mike 122, camera 121 is to the static images being obtained by image capture apparatus in Video Capture pattern or image capture mode or video View data processed.Picture frame after process may be displayed on display unit 151.Figure after processing through camera 121 As frame can be stored in memorizer 160 (or other storage medium) or is transmitted via wireless communication unit 110, permissible There is provided two or more cameras 121 according to the construction of mobile terminal.Mike 122 can telephone calling model, logging mode, Sound (voice data) is received via mike in speech recognition mode etc. operational mode, and can be by such sound Manage as voice data.Audio frequency (voice) data after process can be converted in the case of telephone calling model can be via movement Communication module 112 is sent to the form output of mobile communication base station.Mike 122 can be implemented various types of noises and eliminate (or suppression) algorithm is to eliminate the noise that (or suppression) produces or interference in reception with during sending audio signal.

User input unit 130 can generate key input data to control each of mobile terminal according to the order of user input Plant operation.User input unit 130 allows the various types of information of user input, and can include keyboard, metal dome, touch Plate (for example, detection due to touched and lead to resistance, pressure, the change of electric capacity etc. sensitive component), roller, rocking bar etc. Deng.Especially, when touch pad is superimposed upon on display unit 151 as a layer, touch screen can be formed.

Sensing unit 140 detect mobile terminal 1 00 current state, (for example, mobile terminal 1 00 open or close shape State, Wearable is untied or the state that brings etc.), the position of mobile terminal 1 00, user for mobile terminal 1 00 contact The presence or absence of (that is, touch input), the orientation of mobile terminal 1 00, the acceleration or deceleration movement of mobile terminal 1 00 and direction etc., And generate order or the signal of the operation for controlling mobile terminal 1 00.Sensing unit 140 can include range sensor 141st, pressure transducer 142 and heart rate detector 143, the concrete condition with reference to Wearable below this is retouched State.

Interface unit 170 is connected, with mobile terminal 1 00, the interface that can pass through as at least one external device (ED).For example, External device (ED) can include wired or wireless head-band earphone port, external power source (or battery charger) port, wired or nothing Line FPDP, memory card port, the port of device for connection with identification module, audio input/output (I/O) end Mouth, video i/o port, ear port etc..Identification module can be storage for verifying that user uses each of mobile terminal 1 00 Kind of information and subscriber identification module (UIM), client identification module (SIM), Universal Subscriber identification module (USIM) can be included Etc..In addition, the device (hereinafter referred to as " identifying device ") with identification module can take the form of smart card, therefore, know Other device can be connected with mobile terminal 1 00 via port or other attachment means.Interface unit 170 can be used for reception and is derived from The input (for example, data message, electric power etc.) of the external device (ED) and input receiving is transferred in mobile terminal 1 00 One or more elements or can be used for transmission data between mobile terminal and external device (ED).

In addition, when mobile terminal 1 00 is connected with external base, interface unit 170 can serve as allowing by it by electricity Power provides the path of mobile terminal 1 00 from base or can serve as allowing the various command signals from base input to pass through it It is transferred to the path of mobile terminal.May serve as identifying that mobile terminal is from the various command signals of base input or electric power The no signal being accurately fitted within base.Output unit 150 is configured to defeated with the offer of vision, audio frequency and/or tactile manner Go out signal (for example, audio signal, video signal, alarm signal, vibration signal etc.).Output unit 150 can include showing Unit 151, dio Output Modules 152, alarm unit 153 etc..

Display unit 151 may be displayed on the information processing in mobile terminal 1 00.For example, when mobile terminal 1 00 is in electricity During words call mode, display unit 151 can show (for example, text messaging, the multimedia file that communicate with call or other Download etc.) related user interface (UI) or graphic user interface (GUI).When mobile terminal 1 00 is in video calling pattern Or during image capture mode, display unit 151 can show the image of capture and/or the image of reception, illustrate video or figure UI or GUI of picture and correlation function etc..

Meanwhile, when display unit 151 and the touch pad touch screen with formation superposed on one another as a layer, display unit 151 can serve as input equipment and output device.Display unit 151 can include liquid crystal display (LCD), thin film transistor (TFT) In LCD (TFT-LCD), Organic Light Emitting Diode (OLED) display, flexible display, three-dimensional (3D) display etc. at least A kind of.Some in these display may be constructed such that transparence to allow user from outside viewing, and this is properly termed as transparent Display, typical transparent display can be, for example, TOLED (transparent organic light emitting diode) display etc..According to specific The embodiment wanted, mobile terminal 1 00 can include two or more display units (or other display device), for example, moves Dynamic terminal can include outernal display unit (not shown) and inner display unit (not shown).Touch screen can be used for detection and touches Input pressure and touch input position and touch input area.

Dio Output Modules 152 can mobile terminal be in call signal reception pattern, call mode, logging mode, When under the isotypes such as speech recognition mode, broadcast reception mode, that wireless communication unit 110 is received or in memorizer 160 The voice data transducing audio signal of middle storage and be output as sound.And, dio Output Modules 152 can provide and move The audio output (for example, call signal receives sound, message sink sound etc.) of the specific function correlation of terminal 100 execution. Dio Output Modules 152 can include speaker, buzzer etc..

Alarm unit 153 can provide output to notify event to mobile terminal 1 00.Typical event is permissible Including calling reception, message sink, key signals input, touch input etc..In addition to audio or video output, alarm unit 153 can provide output in a different manner with the generation of notification event.For example, alarm unit 153 can be in the form of vibrating Output is provided, enters when communicating (incomingcommunication) when receiving calling, message or some other, alarm list Unit 153 can provide tactile output (that is, vibrating) to notify to user.By providing such tactile output, even if When the mobile phone of user is in the pocket of user, user also can recognize that the generation of various events.Alarm unit 153 The output of the generation of notification event can be provided via display unit 151 or dio Output Modules 152.

Memorizer 160 can store software program of the process being executed by controller 180 and control operation etc., or can Temporarily to store oneself data (for example, telephone directory, message, still image, video etc.) through exporting or will export.And And, memorizer 160 can be to store the vibration of various modes with regard to exporting and audio signal when touching and being applied to touch screen Data.

Memorizer 160 can include the storage medium of at least one type, and described storage medium includes flash memory, hard disk, many Media card, card-type memorizer (for example, SD or DX memorizer etc.), random access storage device (RAM), static random-access storage Device (SRAM), read only memory (ROM), Electrically Erasable Read Only Memory (EEPROM), programmable read only memory (PROM), magnetic storage, disk, CD etc..And, mobile terminal 1 00 can execute memorizer with by network connection The network storage device cooperation of 160 store function.

Controller 180 generally controls the overall operation of mobile terminal.For example, controller 180 execution and voice call, data The related control of communication, video calling etc. and process.In addition, controller 180 can be included for reproducing (or playback) many matchmakers The multi-media module of volume data, multi-media module can construct in controller 180, or it is so structured that and controller 180 Separate.The handwriting input executing on the touchscreen or picture can be drawn defeated with execution pattern identifying processing by controller 180 Enter to be identified as character or image.

Power subsystem 190 receives external power or internal power under the control of controller 180 and provides operation each unit Suitable electric power needed for part and assembly.

Various embodiment described herein can be with using such as computer software, hardware or its any combination of calculating Machine computer-readable recording medium is implementing.Hardware is implemented, embodiment described herein can be by using application-specific IC (ASIC), digital signal processor (DSP), digital signal processing device (DSPD), programmable logic device (PLD), scene can Program gate array (FPGA), processor, controller, microcontroller, microprocessor, be designed to execute function described herein At least one in electronic unit implementing, in some cases, can be implemented in controller 180 by such embodiment. Software is implemented, the embodiment of such as process or function can with allow to execute the single of at least one function or operation Software module is implementing.Software code can be come by the software application (or program) write with any suitable programming language Implement, software code can be stored in memorizer 160 and be executed by controller 180.

So far, oneself is through describing mobile terminal according to its function.Below, for the sake of brevity, such as all kinds of shiftings will be described Wearable in dynamic terminal is as an example.Therefore, the present invention can be applied to any kind of mobile terminal, and does not limit In Wearable mobile terminal.

As shown in Figure 1 mobile terminal 1 00 may be constructed such that using via frame or packet transmission data all if any Line and wireless communication system and satellite-based communication system are operating.

The communication system being wherein operable to according to the mobile terminal of the present invention referring now to Fig. 2 description.

Such communication system can use different air interfaces and/or physical layer.For example, used by communication system Air interface includes such as frequency division multiple access (FDMA), time division multiple acess (TDMA), CDMA (CDMA) and universal mobile communications system System (UMTS) (especially, Long Term Evolution (LTE)), global system for mobile communications (GSM) etc..As non-limiting example, under The description in face is related to cdma communication system, but such teaching is equally applicable to other types of system.

With reference to Fig. 2, cdma wireless communication system can include multiple mobile terminal 1s 00, multiple base station (BS) 270, base station Controller (BSC) 275 and mobile switching centre (MSC) 280.MSC280 is configured to and Public Switched Telephony Network (PSTN) 290 formation interfaces.MSC280 is also structured to and can form interface via the BSC275 that back haul link is couple to base station 270. If back haul link can construct according to any one in the interface that Ganji knows, described interface includes such as E1/T1, ATM, IP, PPP, frame relay, HDSL, ADSL or xDSL.It will be appreciated that system as shown in Figure 2 can include multiple BSC2750.

Each BS270 can service one or more subregions (or region), by the sky of multidirectional antenna or sensing specific direction Each subregion that line covers is radially away from BS270.Or, each subregion can by for diversity reception two or more Antenna covers.Each BS270 may be constructed such that support multiple frequency distribution, and the distribution of each frequency has specific frequency spectrum (for example, 1.25MHz, 5MHz etc.).

Intersecting that subregion and frequency are distributed can be referred to as CDMA Channel.BS270 can also be referred to as base station transceiver System (BTS) or other equivalent terms.In this case, term " base station " can be used for broadly representing single BSC275 and at least one BS270.Base station can also be referred to as " cellular station ".Or, each subregion of specific BS270 can be claimed For multiple cellular stations.

As shown in Figure 2, broadcast singal is sent to the mobile terminal of operation in system by broadcsting transmitter (BT) 295 100.Broadcasting reception module 111 is arranged at mobile terminal 1 00 to receive the broadcast being sent by BT295 as shown in Figure 1 Signal.In fig. 2 it is shown that several global positioning system (GPS) satellites 200.Satellite 300 helps position multiple mobile terminals At least one of 100.

In fig. 2, depict multiple satellites 200, it is understood that be, it is possible to use any number of satellite obtains useful Location information.GPS module is generally configured to coordinate with satellite 200 to obtain the location information wanted as shown in Figure 1. Substitute GPS tracking technique or outside GPS tracking technique, it is possible to use other skills of the position of mobile terminal can be followed the tracks of Art.In addition, at least one gps satellite 200 can optionally or additionally process satellite dmb transmission.

As a typical operation of wireless communication system, BS270 receives the reverse link from various mobile terminal 1s 00 Signal.Mobile terminal 1 00 generally participates in call, information receiving and transmitting and other types of communication.Each of certain base station 270 reception is anti- Processed in specific BS270 to link signal.The data obtaining is forwarded to the BSC275 of correlation.BSC provides call Resource allocation and the mobile management function of including the coordination of soft switching process between BS270.BSC275 is also by the number receiving According to being routed to MSC280, it provides the extra route service for forming interface with PSTN290.Similarly, PSTN290 with MSC280 forms interface, and MSC and BSC275 form interface, and BSC275 correspondingly controls BS270 with by forward link signals It is sent to mobile terminal 1 00.

Based on above-mentioned mobile terminal hardware configuration and communication system, each embodiment of present system is proposed.

First, the present invention proposes a kind of Wearable 300, and this Wearable 300 includes Wearable body 400 And wearable components 410, described Wearable 300 constitutes a part for above-mentioned mobile terminal 1 00 or mobile terminal 1 00.

As shown in figure 3, the module diagram of the embodiment of Wearable one of the present invention.

In the present embodiment, described Wearable can be divided into one or more modules, one or more of Module is stored in described memorizer 160, and by one or more controllers (the described controller 180 in the present embodiment) institute Execution, to complete the present invention.For example, in figure 3, described Wearable 300 can be divided into judge module 301, stop Dormancy module 302, detecting module 303.Module alleged by the present invention refers to a kind of series of computation machine that can complete specific function Programmed instruction section, is more suitable for describing the application process of described Wearable 300 than program.

Hereinafter the concrete function of just above-mentioned each functional module 301-303 is described in detail.

Described judge module 301, for when described Wearable is in wake-up states, judging that described wearable components are No it is worn on user.In the present embodiment, wake-up states are described Wearable just in working order, for example intelligently The wake-up states of wrist-watch are in the heart rate detecting user or kinestate etc..In the present embodiment, user can according to oneself Demand is respectively provided with the program of described Wearable 300 needs operation and in the dormant state described wearing in the awake state Formula equipment 300 needs the program run.

Described sleep block 302, described for when described wearable components 410 are not worn on user, controlling Wearable 300 enters resting state.

Specifically, with described judge module judges that described wearable components 410 are not worn on user, then control described Wearable 300 dormancy, to save the electricity of described Wearable 300, and provides the continuation of the journey of described Wearable 300 Time.Specifically can judge in the following manner.

In the present embodiment, described Wearable 300 also includes a detecting module 303, described Wearable configuration There is heart rate detector 143, detecting module 303 utilizes heart rate detector 143 to detect human pulse.

When described detecting module 303 does not detect the pulse of human body, can determine whether out that Wearable 300 is not worn on With human body.It should be noted that in the present embodiment, Wearable do not detect human pulse can determine whether described in wear The formula equipment of wearing is not worn on user, or can be understood as Wearable electricity low without detect human body arteries and veins Fight, at this moment, control Wearable 300 to enter resting state, to save electricity.

You need to add is that, in other embodiments, judge module 301 can be by judging user wears described in whether taking off Wear formula equipment 300, to determine whether to meet a sleep operation condition.

In certain embodiments, the Wearable 300 with reference to shown in Fig. 4, this Wearable 300 can be an intelligence Wrist-watch, described Wearable 300 includes a Wearable body 400 and wearable components 410, wherein in wearable components 410 It is provided with one first fastener 411 and one second fastener 412, during normal use, wearable components 410 are worn on certain portion of human body On position, in the present embodiment, this Wearable 300 is looped around human arm by wearable components 410, then passes through the first fastener 411 and the second fastener 412 fasten locking be worn on human arm.In the present embodiment, described sleep operation condition is to work as institute When stating Wearable 300 and being in wake-up states, described first fastener 411 is separated with described second fastener 412, that is, unties button It is believed that taking off described Wearable 300 during part, described Wearable 300 is controlled to enter resting state.

You need to add is that, in further embodiments, described Wearable can be glasses or be worn on human body Whether the electronic equipment on other positions, can be by judging the wearable components 410 of described Wearable 300 away from people's body Position or judge by other detection modes whether described Wearable 300 is removed, if being removed, meet dormancy Operating condition.

It should be noted that in the present embodiment, described first fastener 411 is separated for 412 with the described second button, permissible By installing a range sensor 141 in described first fastener 411 with described second fastener 412, that is, when described range sensor 141 detect the distance between described first fastener 411 and second fastener 412 be more than preset distance when, can determine whether described in wear Part 410 is disengaged, and described Wearable 300 is removed.In other embodiments, described range sensor 141 can be Infrared sensor, is arranged on described wearable components 410 or described Wearable body 400, for detecting Wearable With the distance of human body, detect that Wearable 300 and the distance of human body are more than predeterminable range when described range sensor 141 When, it is judged as taking off Wearable 300, to meet sleep operation condition.Certainly, in some other embodiment, described One fastener 411 buckles in the second fastener 412, and setting one pressure transducer 142 around described second fastener 412, when described When pressure transducer 142 detects described first fastener 411 and gives a pressure, it is buckling state, when described pressure transducer 142 When failing to detect pressure, described wearable components 410 are disengaged, and that is, described Wearable 300 is removed, and meets described dormancy Operating condition.In addition, for when described Wearable is intelligent glasses, described pressure transducer 142 may be provided in nose frame Or in ear mount, to detect whether to be subject to the pressure from the bridge of the nose or ear to judge whether to take off intelligent glasses to meet described dormancy Operation operating condition.

Certainly, in further embodiments, described sleep operation condition by arranging an operation button or can pass through mobile phone Virtual key on APP carrys out control operation, is entered come Wearable described in operational control by button or software push buttons and stops Dormancy state.

It should be noted that in the present embodiment, after described Wearable 300 enters resting state, by waking up Mechanism, that is, when meeting wake-up condition, controls described Wearable 300 to enter wake-up states.In some other embodiment, Described wake-up can manually control to realize.

Specifically, the judgement of described wake-up condition can be detected by the integrated heart rate detector 143 of detecting module 303 During human pulse, it is judged as meeting wake-up condition.In other embodiments, for example can be set by setting a wakeup time 7 points of morning is wakeup time, that is, 7 points of moment of morning be judged as meeting wake-up condition.

You need to add is that, with continued reference to Fig. 4, in one embodiment, described Wearable 300 is an intelligent watch, Described Wearable 300 includes a Wearable body 400 and wearable components 410, and wherein said wearable components 410 set again It is equipped with one first fastener 411 and one second fastener 412, described first fastener 411 is less than in advance with the distance of described second fastener 412 If distance, or when the pressure transducer 142 of setting senses preset pressure on the second fastener 412, then meet wake-up condition.

In the present embodiment, when the heart rate detector 143 of described Wearable 300 can detect human pulse, then full Sufficient wake-up condition, controls described Wearable 300 to enter wake-up states.In other embodiments, described Wearable 300 Including a Wearable body 400 and wearable components 410, one first fastener 411 and is set wherein in wearable components 410 Second fastener 412, described first fastener 411 is fastened with described second fastener 412, that is, meet dormancy condition, controls described wearing Formula equipment 300 enters wake-up states.In other embodiments, for example, described wearable device 300 is intelligent glasses, described One pressure transducer 142 is arranged on the nose frame of intelligent glasses, when described pressure transducer senses preset pressure, is then judged as Wake-up states, control described Wearable 300 to enter wake-up states.A range sensor 142 can also be passed through, when distance passes When sensor 142 senses the distance of described Wearable 300 and human body and is less than a predeterminable range, then it is judged as wake-up condition, Described Wearable 300 is controlled to enter wake-up states.

By above-mentioned functions module 301-302, Wearable 300 proposed by the invention judges institute by judge module Whether the wearable components 410 stating Wearable 300 are worn on user, when described wearable components 410 are not worn on When with user, automatically control described Wearable 300 and enter resting state, to save the electricity of described Wearable 300, carry The cruising time of high described Wearable 300.

Pass through again to arrange a wake-up mechanism, Wearable 300 that is, proposed by the invention judges mould by wake-up condition Block judges whether described Wearable 300 meets wake-up condition, when meeting wake-up condition, automatically controls described Wearable and sets Standby 300 entrance wake-up states, to improve Consumer's Experience.

Further, present invention also offers a kind of power-economizing method of Wearable.

As shown in figure 5, being the schematic flow sheet of Wearable power-economizing method of the present invention.

Step S510, when described Wearable 300 is in wake-up states, judges described wearable components 410 whether It is worn on user.Continue executing with step S520.

Step S520, when described wearable components 410 are not worn on user, controls described Wearable to enter Resting state.

Based on said method step, in the present embodiment, according to different demands, the step of the flow chart shown in Fig. 5 can To omit or to increase, or substituted.For example, it may be the method manually waking up is realized waking up Wearable.At other In embodiment, the Wearable for resting state additionally provides a kind of wake-up mechanism, meets in Wearable 300 and calls out During awake condition, described Wearable 300 is controlled to enter wake-up states.

Based on said method step, the first embodiment of Wearable power-economizing method of the present invention is proposed.

As shown in fig. 6, the first embodiment schematic flow sheet for Wearable power-economizing method of the present invention.At this In embodiment, according to different demands, the execution sequence of the step in the flow chart shown in Fig. 6 can change, and some steps can To omit.

Step S610, Wearable is in wake-up states (working condition).

It should be noted that described wake-up states are described Wearable just in working order, such as intelligent watch Wake-up states be in the detection heart rate of user or kinestate etc..User can be separately positioned on wake-up according to the demand of oneself Under state described Wearable 300 need the program run and in the dormant state described Wearable 300 need to run Program.Continue executing with S720.

Step S620, whether described Wearable detects human pulse.

Specifically, detect human pulse by being integrated in the heart rate detector 143 of Wearable.If so, then continue to return Return step S620；If it is not, then execution step S630.

It should be noted that when human pulse can not be detected, you can think not worn of described Wearable Wear with user.

Step S630, controls described Wearable to enter resting state.

Generally, when detecting human pulse, described Wearable may be taken off or electricity by user Relatively low, now, automatically control described Wearable 300 and enter resting state, to save the electricity of described Wearable 300 Amount, improves the cruising time of described Wearable 300.

It should be noted that the foundation based on dormancy mechanism for the present embodiment, also set up a wake-up mechanism, continued executing with S640.

Step S640, whether detecting meets wake-up condition.

You need to add is that, when the wake-up condition described in the present embodiment could be arranged to detect human pulse, as Meet wake-up condition.In other embodiments, described wake-up condition can be by the software push buttons on button or mobile phone A PP Lai Start, to meet wake-up condition.If it is not, continuing return to step S640；If so, then execution step S650.

Step S650, controls described Wearable 300 to enter wake-up states.

In the present embodiment, by being integrated in the heart rate detector 143 of described Wearable 300, human body arteries and veins is detected Fight, then judge to meet wake-up condition, otherwise, then judge to meet dormancy condition.In other embodiments, detecting module can be passed through 303 detecting human pulse.

By above-mentioned steps S610-S630, Wearable power-economizing method provided by the present invention is by whether detect Pulse, when detecting pulse, controls described Wearable to enter resting state, to save described Wearable 300 electricity, improves the cruising time of described Wearable 300.

Pass through above-mentioned steps S640-S650, the awakening method that the present invention provides again, automatically control the Wearable of resting state Equipment 300 enters wake-up states, improves Consumer's Experience.

Based on said method step it is also proposed that the second embodiment of Wearable power-economizing method of the present invention.

As shown in fig. 7, the second embodiment schematic flow sheet for Wearable power-economizing method of the present invention.At this In embodiment, according to different demands, the execution sequence of the step in the flow chart shown in Fig. 7 can change, and some steps can To omit.

Step S710, Wearable is in wake-up states (working condition).

It should be noted that described wake-up states are described Wearable just in working order, such as intelligent watch Wake-up states be in the detection heart rate of user or kinestate etc..User can be separately positioned on wake-up according to the demand of oneself Under state described Wearable 300 need the program run and in the dormant state described Wearable 300 need to run Program.Continue executing with S720.

Step S720, judges whether the pressure transducer of described wearable components 410 senses a preset pressure.If so, then Return to step S720；If it is not, then continuing executing with step S730.

Specifically, in the present embodiment, described Wearable 300 is intelligent glasses, and described pressure transducer 142 can set Put in nose frame or in ear mount, to detect whether to be subject to the pressure from the bridge of the nose or ear, determine whether to take off intelligent glasses.? In other embodiment, described Wearable 300 is intelligent watch, and with continued reference to Fig. 4, described Wearable 300 includes one Wearable body 400 and wearable components 410, described wearable components 410 are provided with one first fastener 411 and one second fastener 412, described first fastener 411 user buckles in the second fastener 412, and the surrounding of described second fastener 412 is provided with pressure sensing Device 142, when described first fastener 411 buckles in the second fastener 412, described pressure transducer senses 142 to one preset pressure, Step S720, judges whether the pressure transducer around described second fastener 411 senses the default pressure from the first fastener 411 Power.If so, then return to step S720；If it is not, then continuing executing with step S730.

Step S730, controls described Wearable 300 to enter resting state.

You need to add is that, generally, when described Wearable 300 meets described sleep operation condition, control Make described Wearable 300 and enter resting state, to save the electricity of described Wearable 300, improve described Wearable The cruising time of equipment 300.In the present embodiment, meet sleep operation condition, can be the pressure transducer of wearable components 410 Do not sense a preset pressure.In other embodiments, described sleep operation condition can be by arranging an operation button or logical Cross the software on mobile phone APP and carry out control operation, that is, when the software virtual key of described operation button or mobile phone A PP is pressed, then Meet sleep operation condition.In further embodiments, described sleep operation condition can also be by described Wearable 300 The hardware of configuration coordinates other operations of software execution.

It should be noted that the foundation based on dormancy mechanism for the present embodiment, also set up a wake-up mechanism, continued executing with S740.

Step S740, whether detecting meets wake-up condition.

It should be noted that when the wake-up condition described in the present embodiment could be arranged to detect human pulse, as Meet wake-up condition.In other embodiments, described wake-up condition can be by the software push buttons on button or mobile phone A PP Lai Start, to meet wake-up condition.If it is not, continuing return to step S740；If so, then execution step S750.

Step S750, controls described Wearable 300 to enter wake-up states.

In the present embodiment, by being integrated in the heart rate detector 143 of described Wearable 300, human body arteries and veins is detected Fight, then judge to meet wake-up condition, otherwise, then judge to meet dormancy condition.In other embodiments, detecting module can be passed through 3011 detecting human pulse.

By above-mentioned steps S710-S730, Wearable power-economizing method provided by the present invention is stopped by whether meeting Dormancy operating condition, when meeting sleep operation condition, controls described Wearable to enter resting state, to save described wearing The electricity of formula equipment 300, improves the cruising time of described Wearable 300.

Pass through above-mentioned steps S740-S750, the awakening method that the present invention provides again, automatically control the Wearable of resting state Equipment 300 enters wake-up states, improves Consumer's Experience.

Based on said method step it is also proposed that the 3rd embodiment of Wearable power-economizing method of the present invention.

As shown in figure 8, the 3rd embodiment schematic flow sheet for Wearable power-economizing method of the present invention.At this In embodiment, according to different demands, the execution sequence of the step in the flow chart shown in Fig. 8 can change, and some steps can To omit.

Step S810, Wearable is in wake-up states (working condition).

It should be noted that described wake-up states are described Wearable just in working order, such as intelligent watch Wake-up states be in the detection heart rate of user or kinestate etc..User can be separately positioned on wake-up according to the demand of oneself Under state described Wearable 300 need the program run and in the dormant state described Wearable 300 need to run Program.Continue executing with S820.

Please also refer to Fig. 4, step S820, the wearable components 410 of described Wearable 300 are provided with one first button Part 411 and one second fastener 412, judge whether described first fastener 411 is in released state with described second fastener 412.

Specifically, it is illustrated in figure 4 a Wearable schematic diagram, this Wearable 300 can be an intelligent watch, Described Wearable 300 includes a Wearable body 400 and wearable components 410, is wherein provided with wearable components 410 One first fastener 411 and one second fastener 412, during normal use, wearable components are worn on a part of human body, at this In embodiment, this Wearable 300 is looped around human arm by wearable components 410, then passes through the first fastener 411 and second Fastener 412 fastens locking and is worn on human arm.

Specifically, in the present embodiment, described first fastener 411 is separated for 412 with the described second button, can pass through Described first fastener 411 installs a range sensor 141 with described second fastener 412, that is, when described range sensor 141 detects To the distance between described first fastener 411 and the second fastener 412 be more than preset distance when, can determine whether that described fastener is disengaged. In other embodiments, described range sensor 141 can be infrared sensor, and setting is set with wearable components 410 or Wearable On standby body 400, for detecting the distance of Wearable and human body, detect Wearable when described range sensor 141 When the distance of equipment 300 and human body is more than predeterminable range, it is judged as that the first fastener 411 and the second fastener 412 are in released state. Certainly, in some other embodiment, described first fastener 411 buckles in the second fastener 412, in described second fastener 412 Around setting one pressure transducer 142, when described pressure transducer 142 detects described first fastener 411 and gives a pressure, For buckling state, when described pressure transducer 142 fails to detect pressure, described wearable components 410 are disengaged, and that is, described wear Wear formula equipment 300 to be removed, meet described sleep operation condition.

Step S820 is judged as YES, then return to step S820,；If it is not, then execution step S830.

Step S830, continues to determine whether to detect human pulse, if it is not, then return to step S830；If it is not, then executing step Rapid S840.

It should be noted that generally, when described Wearable 300 meets the first fastener 411 and the second fastener 412 when being in released state, then it is believed that user takes off Wearable 300, meet sleep operation condition, in order to prevent by mistake Sentence, the present embodiment, increase and one judge step S830, to further confirm that described Wearable 300 is not worn on user With.

Step S840, controls described Wearable to enter resting state.

Specifically, be removed and detect less than human pulse when judging described Wearable 300, then judge described in wear Wear formula equipment 300 and meet dormancy condition, control described Wearable 300 to enter resting state, set with saving described Wearable Standby 300 electricity, improves the cruising time of described Wearable 300.

The present embodiment, by above-mentioned steps S810-S840, Wearable power-economizing method provided by the present invention is by being No satisfaction the first fastener 411 is separated with the second fastener 412 and meets when not detecting two conditions of human pulse, wears described in control Wear formula equipment and enter resting state, to save the electricity of described Wearable 300, improve the continuous of described Wearable 300 ETS estimated time of sailing.

The embodiments of the present invention are for illustration only, do not represent the quality of embodiment.

Through the above description of the embodiments, those skilled in the art can be understood that above-described embodiment side Method can be realized by the mode of software plus necessary general hardware platform naturally it is also possible to pass through hardware, but in many cases The former is more preferably embodiment.Based on such understanding, technical scheme is substantially done to prior art in other words Go out partly can embodying in the form of software product of contribution, this computer software product is stored in a storage medium In (as ROM/RAM, magnetic disc, CD), including some instructions with so that a station terminal equipment (can be mobile phone, computer, clothes Business device, air-conditioner, or network equipment etc.) method described in execution each embodiment of the present invention.

These are only the preferred embodiments of the present invention, not thereby limit the present invention the scope of the claims, every using this Equivalent structure or equivalent flow conversion that bright description and accompanying drawing content are made, or directly or indirectly it is used in other related skills Art field, is included within the scope of the present invention.

Claims (10)

1. a kind of Wearable, including a Wearable body and wearable components, described wearable components can be worn It is characterised in that described equipment includes with user：

Judge module, for when described Wearable is in wake-up states, judging whether described wearable components are worn on With user；

Sleep block, for when described wearable components are not worn on user, controlling described Wearable to enter Resting state.

2. Wearable as claimed in claim 1, it is characterised in that described equipment also includes a detecting module, is used for detecing Survey human pulse.

3. Wearable as claimed in claim 2, it is characterised in that described sleep block, is additionally operable to when described detecting mould When block does not detect human pulse, described Wearable is controlled to enter resting state.

4. Wearable as claimed in claim 1 is it is characterised in that described wearable components include：One first fastener and one Second fastener；The situation that described wearable components are not worn on user includes, at described first fastener and the second fastener In released state.

5. Wearable as claimed in claim 1 is it is characterised in that described wearable components are additionally provided with a pressure sensing Device, the situation that described wearable components are not worn on user includes, and described pressure transducer does not sense one and presets Pressure.

6. a kind of power-economizing method of Wearable, is applied in described Wearable, described Wearable includes wearing Wear formula apparatus body and wearable components it is characterised in that methods described includes：

When described Wearable is in wake-up states, judge whether described wearable components are worn on user；

When described wearable components are not worn on user, described Wearable is controlled to enter resting state.

7. the power-economizing method of Wearable as claimed in claim 6 is it is characterised in that methods described also includes：Detecting people Body pulse.

8. Wearable power-economizing method as claimed in claim 7 is it is characterised in that methods described also includes：When not detecing When measuring human pulse, described Wearable is controlled to enter resting state.

9. the Wearable power-economizing method described in as claimed in claim 6 is it is characterised in that described wearable components include one One fastener and one second fastener；The situation that described wearable components are not worn on user includes, described first fastener with Second fastener is in released state.

10. Wearable power-economizing method as claimed in claim 6 is it is characterised in that described wearable components are additionally provided with one Pressure transducer, the situation that described wearable components are not worn on user includes, and described pressure transducer does not sense To a preset pressure.