CN107634570A - Power control management method of wearable device and wearable device - Google Patents

Power control management method of wearable device and wearable device Download PDF

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Publication number
CN107634570A
CN107634570A CN201711050448.4A CN201711050448A CN107634570A CN 107634570 A CN107634570 A CN 107634570A CN 201711050448 A CN201711050448 A CN 201711050448A CN 107634570 A CN107634570 A CN 107634570A
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China
Prior art keywords
generation module
wearable device
energy
electricity
electricity generation
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CN201711050448.4A
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Chinese (zh)
Inventor
朱向军
钟宇文
陈泽伟
李飞行
刘火根
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Guangdong Genius Technology Co Ltd
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Guangdong Genius Technology Co Ltd
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Priority to CN201711050448.4A priority Critical patent/CN107634570A/en
Publication of CN107634570A publication Critical patent/CN107634570A/en
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Abstract

The embodiment of the invention relates to the technical field of wearable equipment, and discloses a power supply control management method of wearable equipment and the wearable equipment, wherein the method comprises the following steps: detecting whether generating energy used for generating power is acquired or not through a power generation module of the wearable device power generation module group, wherein the generating energy comprises solar energy, temperature difference energy or motion energy; when any power generation module of the power generation module group detects corresponding power generation energy, controlling any power generation module to convert the detected corresponding power generation energy into electric energy and storing the electric energy into a corresponding capacitor of the wearable equipment capacitor group; when the electric quantity of at least one capacitor of the capacitor bank is larger than a preset threshold value, controlling a charging circuit of the wearable device to select a target capacitor with the electric quantity larger than the preset threshold value from the capacitor bank to supply power to a battery of the wearable device; by implementing the embodiment of the invention, the wearable equipment can be charged conveniently and quickly, and the endurance is effectively continued, so that the use experience of a user is improved.

Description

The power supply management method and wearable device of a kind of wearable device
Technical field
The present invention relates to wearable device technical field, and in particular to a kind of power supply management method of wearable device And wearable device.
Background technology
The wearable devices such as intelligent watch are liked and received extensively by user, except common offer Time Service, communication Outside function, moreover it can be used to the health supervision of the physiological parameter such as walking step number, mobile payment and heart rate of counting user.Can Wearable device is commonly equipped with charger, is charged by contact or wireless induction type, but this charging modes, it is necessary to User is often with charger, even if with charger, no power supply can not also realize charging so that in wearable device continuation of the journey It is disconnected, many inconvenience are brought to user, for example cause wearable device to be shut down because electricity exhausts so that user misses important phone Or important information etc..
The content of the invention
The embodiment of the invention discloses the power supply management method and wearable device of a kind of wearable device, for solving Certainly wearable device charging is inconvenient to the technical problem for causing continuation of the journey to be interrupted in the prior art.
First aspect present invention discloses a kind of power supply management method of wearable device, it may include:
Detect whether to get the power generation energy resource for generating, institute by the electricity generation module of wearable device electricity generation module group Stating power generation energy resource and including solar energy, the temperature difference energy or the motion energy, the electricity generation module group includes three electricity generation modules, one Electricity generation module corresponds to a kind of power generation energy resource;
Corresponding to being detected in any electricity generation module of the electricity generation module group during power generation energy resource, any generating is controlled The corresponding power generation energy resource detected is converted into electric energy by module, and by the power storage to the wearable device capacitance group Corresponding electric capacity in, the capacitance group includes three electric capacity, the corresponding electricity generation module of one electric capacity;
When the electricity of at least one electric capacity of the capacitance group is more than predetermined threshold value, filling for the wearable device is controlled Circuit selects an electricity more than the electricity that the target capacitance of the predetermined threshold value is the wearable device from the capacitance group Pond powers.
As an alternative embodiment, in first aspect present invention, three electricity generation modules are respectively the sun Energy electricity generation module, temperature-difference power generation module and mechanical kinetic energy electricity generation module, the solar electrical energy generation module are used to detect the sun Can, the temperature-difference power generation module is used to detect the temperature difference energy, and the mechanical kinetic energy electricity generation module is used to detect the motion Energy, the electricity generation module by wearable device electricity generation module group detect whether to get the power generation energy resource for generating, Including:
Sunray is detected by the solar electrical energy generation module of the wearable device electricity generation module group, detected During the sunray, determine that the solar electrical energy generation module detects the solar energy, be not detected by the sunray When, determine that the solar electrical energy generation module is not detected by the solar energy;
And the wearable device is detected by the temperature-difference power generation module of the wearable device electricity generation module group Upper surface and the external contact face of the wearable device housing bottom whether there is temperature difference, detect the presence of the temperature When poor, determine that the temperature-difference power generation module detects the temperature difference energy, detect the temperature difference is not present when, determine institute State temperature-difference power generation module and be not detected by the temperature difference energy;
It is and described wearable by the mechanical kinetic energy electricity generation module detection of the wearable device electricity generation module group Whether equipment moves, and when detecting that the wearable device moves, determines the mechanical kinetic energy electricity generation module inspection The motion energy is measured, when being not detected by the wearable device and moving, determines the mechanical kinetic energy electricity generation module It is not detected by the motion energy.
As an alternative embodiment, in first aspect present invention, it is described to be generated electricity by the wearable device The temperature-difference power generation module detection wearable device upper surface of module group is outer with the wearable device housing bottom Portion's contact surface whether there is temperature difference, including:
Detect whether the wearable device is in by wearing state;
When the wearable device is in by wearing state, pass through the temperature of the wearable device electricity generation module group Whether user's skin that the poor electricity generation module detection wearable device upper surface contacts with the wearable device housing bottom Temperature difference be present.
As an alternative embodiment, in first aspect present invention, in the target capacitance to described wearable During the battery powered of equipment, methods described also includes:
In battery powered of the target capacitance to the wearable device, the residue of the target capacitance is monitored in real time The output electricity of electricity and the target capacitance;
Judge whether the dump energy is less than or equal to the predetermined threshold value;
When the dump energy is less than or equal to the predetermined threshold value, the output electricity is obtained, and will be described defeated Go out electricity to count into cycle electricity;
When default measurement period reaches, according to user of the cycle coulometric analysis user in the measurement period Amount of exercise, user open air duration and user's body metabolic rate.
As an alternative embodiment, in first aspect present invention, it is described when default measurement period reaches, According to user movement amount, user open air duration and user's body generation of the cycle coulometric analysis user in the measurement period After thanking to rate, methods described also includes:
Judge whether the user movement amount reaches default amount of exercise threshold value, do not reached in the user movement amount described During default amount of exercise threshold value, motion prompting is carried out;And
Judge whether user open air duration meets preset duration, duration does not meet described pre- in the user open air If during duration, carry out outdoor exercises prompting;And
Judge whether the user's body metabolic rate belongs to default eubolism rate scope, be metabolized in the user's body When rate is not belonging to the default eubolism rate scope, healthalert is carried out.
Second aspect of the present invention discloses a kind of wearable device, it may include:
Detection control unit, it is used for for detecting whether to get by the electricity generation module of wearable device electricity generation module group The power generation energy resource of generating, the power generation energy resource, which includes solar energy, the temperature difference energy or the motion energy, the electricity generation module group, to be included Three electricity generation modules, an electricity generation module correspond to a kind of power generation energy resource;
TCU transfer control unit, for determining that any electricity generation module of the electricity generation module group is examined in the detection control unit Corresponding to measuring during power generation energy resource, control any electricity generation module that the corresponding power generation energy resource detected is converted into electric energy, with And by the corresponding electric capacity of the power storage to the wearable device capacitance group, the capacitance group includes three electric capacity, institute State the corresponding electricity generation module of an electric capacity;
Supply control unit, when the electricity at least one electric capacity in the capacitance group is more than predetermined threshold value, control The charging circuit of the wearable device selected from the capacitance group electricity be more than the predetermined threshold value target capacitance for The battery powered of the wearable device.
As an alternative embodiment, in second aspect of the present invention, three electricity generation modules are respectively the sun Energy electricity generation module, temperature-difference power generation module and mechanical kinetic energy electricity generation module, the solar electrical energy generation module are used to detect the sun Can, the temperature-difference power generation module is used to detect the temperature difference energy, and the mechanical kinetic energy electricity generation module is used to detect the motion Energy, the detection control unit include:
First detection unit, for being detected by the solar electrical energy generation module of the wearable device electricity generation module group Sunray, when detecting the sunray, determine that the solar electrical energy generation module detects the solar energy, do not examining When measuring the sunray, determine that the solar electrical energy generation module is not detected by the solar energy;
And second detection unit, for the temperature-difference power generation module by the wearable device electricity generation module group Detect the wearable device upper surface and the external contact face of the wearable device housing bottom and whether there is temperature difference, When detecting the presence of the temperature difference, determine that the temperature-difference power generation module detects the temperature difference energy, be not present detecting During the temperature difference, determine that the temperature-difference power generation module is not detected by the temperature difference energy;
And the 3rd detection unit, for being generated electricity by the mechanical kinetic energy of the wearable device electricity generation module group Module detects whether the wearable device moves, when detecting that the wearable device moves, it is determined that described Mechanical kinetic energy electricity generation module detects the motion energy, when being not detected by the wearable device and moving, determines institute State mechanical kinetic energy electricity generation module and be not detected by the motion energy.
As an alternative embodiment, in second aspect of the present invention, second detection unit is used to pass through The temperature-difference power generation module of the wearable device electricity generation module group detects the wearable device upper surface and worn with described The external contact face for wearing apparatus casing bottom is specially with the presence or absence of the mode of temperature difference:
Second detection unit, for detecting whether the wearable device is in by wearing state;Worn described When wearing equipment in by wearing state, by described in the temperature-difference power generation module detection of the wearable device electricity generation module group User's skin that wearable device upper surface contacts with the wearable device housing bottom whether there is temperature difference.
As an alternative embodiment, in second aspect of the present invention, the wearable device also includes:
Electric quantity monitoring unit, in battery powered of the target capacitance to the wearable device, in real time described in monitoring The output electricity of the dump energy of target capacitance and the target capacitance;And judge the dump energy whether be less than or Equal to the predetermined threshold value;And when the dump energy is less than or equal to the predetermined threshold value, obtain the output electricity Amount, and the output electricity is counted into cycle electricity;
Analytic unit, for when the electric quantity monitoring unit reaches in default measurement period, according to cycle electricity User movement amount, user open air duration and user's body metabolic rate of the amount analysis user in the measurement period.
As an alternative embodiment, in second aspect of the present invention, the wearable device also includes:
Reminding unit, for when the analytic unit reaches in default measurement period, being divided according to the cycle electricity After analysing user movement amount of the user in the measurement period, user open air duration and user's body metabolic rate, described in judgement Whether user movement amount reaches default amount of exercise threshold value, and the default amount of exercise threshold value is not reached in the user movement amount When, carry out motion prompting;And judge whether user open air duration meets preset duration, in the user open air, duration does not have Have when meeting the preset duration, carry out outdoor exercises prompting;And judge whether the user's body metabolic rate belongs to default Eubolism rate scope, when the user's body metabolic rate is not belonging to the default eubolism rate scope, be good for Wake up Kandy.
Third aspect present invention discloses a kind of wearable device, it may include:
It is stored with the memory of executable program code;
The processor coupled with the memory;
The processor calls the executable program code stored in the memory, performs such as first party of the present invention The power supply management method of wearable device described in face.
Fourth aspect present invention discloses a kind of computer-readable recording medium, and it is stored based on electronic data interchange Calculation machine program, wherein, the computer program causes computer to perform wearable device as described in the first aspect of the invention Power supply management method.
Compared with prior art, the embodiment of the present invention has the advantages that:
In embodiments of the present invention, detect whether to get by the electricity generation module of wearable device electricity generation module group and be used for The power generation energy resource of generating, the power generation energy resource, which includes solar energy, the temperature difference energy or the motion energy, the electricity generation module group, includes three Electricity generation module, an electricity generation module correspond to a kind of power generation energy resource;Corresponding to being detected in any electricity generation module of electricity generation module group During power generation energy resource, control any electricity generation module that the corresponding power generation energy resource detected is converted into electric energy, and by power storage extremely In the corresponding electric capacity of capacitance group, an electricity generation module correspond to an electric capacity in capacitance group, and one is then selected from capacitance group The target capacitance that electricity is more than predetermined threshold value is the battery powered of wearable device;As can be seen that in embodiments of the present invention, can Wearable device can utilize solar energy, the temperature difference energy or the motion energy to generate electricity, and so as to be battery powered, abandon on conventional art Charger charging technique, wearable device can be allowed to obtain electricity supplement under any usage scenario, set to be wearable Standby convenient charging, ensures that wearable device is uninterruptedly continued a journey, to improve user experience sense as far as possible.
Brief description of the drawings
Technical scheme in order to illustrate the embodiments of the present invention more clearly, it will use below required in embodiment Accompanying drawing is briefly described, it should be apparent that, drawings in the following description are only some embodiments of the present invention, for ability For the those of ordinary skill of domain, on the premise of not paying creative work, it can also be obtained according to these accompanying drawings other attached Figure.
Fig. 1 is the part-structure schematic diagram of wearable device disclosed in the embodiment of the present invention;
Fig. 2 is the schematic flow sheet of the power supply management method of wearable device disclosed in the embodiment of the present invention;
Fig. 3 is another schematic flow sheet of the power supply management method of wearable device disclosed in the embodiment of the present invention;
Fig. 4 is electricity figure provided in an embodiment of the present invention;
Fig. 5 is the structural representation of wearable device disclosed in the embodiment of the present invention;
Fig. 6 is another structural representation of wearable device disclosed in the embodiment of the present invention;
Fig. 7 is another structural representation of wearable device disclosed in the embodiment of the present invention;
Fig. 8 is another structural representation of wearable device disclosed in the embodiment of the present invention.
Embodiment
Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear, complete Site preparation describes, it is clear that described embodiment is only part of the embodiment of the present invention, rather than whole embodiments.Based on this Embodiment in invention, the every other reality that those of ordinary skill in the art are obtained under the premise of creative work is not made Example is applied, belongs to the scope of protection of the invention.
It should be noted that term " first ", " second ", " the 3rd " in description and claims of this specification etc. It is for distinguishing different objects, rather than for describing particular order.The term " comprising " and " having " of the embodiment of the present invention And their any deformation, it is intended that cover it is non-exclusive include, for example, containing series of steps or the mistake of unit Journey, method, system, product or equipment are not necessarily limited to those steps clearly listed or unit, but may include unclear It is that ground is listed or for the intrinsic other steps of these processes, method, product or equipment or unit.
The embodiment of the invention discloses a kind of power supply management method of wearable device, for for wearable device just Victory power supply, keeps continuation of the journey, improves user experience sense.The embodiment of the present invention also accordingly discloses a kind of wearable device.
Wearable device provided in an embodiment of the present invention includes but are not limited to intelligent watch, Intelligent bracelet etc., wearable The operating system of equipment may include but be not limited to Android operation system, IOS, Symbian (Saipan) operations system System, Black Berry (blackberry, blueberry) operating system, Windows Phone8 operating systems etc., the embodiment of the present invention does not limit.
Referring to Fig. 1, Fig. 1 is the part-structure schematic diagram of wearable device disclosed in the embodiment of the present invention, shown in Fig. 1 Wearable device may include:Electricity generation module group, capacitance group, switch selecting module, charging circuit, battery and processor (Central Processing Unit, CPU) etc..In Fig. 1, electricity generation module group includes three electricity generation modules, respectively solar power generation mould Block, temperature-difference power generation module and mechanical kinetic energy electricity generation module;Capacitance group includes three electric capacity, the corresponding generating mould of each electric capacity Block, the electric energy for generating electricity to obtain for storing electricity generation module.Switch selecting module is connected with three electric capacity respectively, and CPU is by opening Close module selects electric capacity to charge the battery from capacitance group.
It is, of course, also possible to understand, the wearable device also includes RF circuits, reception and transmission for information.Generally, RF Circuit includes but is not limited to antenna, at least one amplifier, transceiver, coupler, low-noise amplifier (Low Noise Amplifier, LNA), duplexer etc..In addition, RF circuits can also be communicated by radio communication with network and other equipment.On Any communication standard or agreement, including but not limited to GSM, GPRS, CDMA, WCDMA, LTE, electronics can be used by stating radio communication Mail, Short Message Service (Short Messaging Service, abbreviation SMS) etc..Wearable device can also include storage Device, input block, display unit, voicefrequency circuit, loudspeaker, WIFI module etc., this is no longer going to repeat them.
Embodiment one
Based on the introduction of accompanying drawing 1, technical solution of the present invention will be carried out specifically from wearable device angle below It is bright.
Referring to Fig. 2, the flow that Fig. 2 is the power supply management method of wearable device disclosed in the embodiment of the present invention is shown It is intended to;As shown in Fig. 2 a kind of power supply management method of wearable device may include:
201st, wearable device detects whether to get the generating energy for generating by the electricity generation module of electricity generation module group Source, the power generation energy resource, which includes solar energy, the temperature difference energy or the motion energy, the electricity generation module group, includes three electricity generation modules, and one Individual electricity generation module corresponds to a kind of power generation energy resource.Wherein, if there is any electricity generation module to detect power generation energy resource, step 202 is turned to;If When all electricity generation modules are not detected by power generation energy resource, terminate the flow.
It is appreciated that in embodiments of the present invention, three electricity generation modules are provided with wearable device, can be utilized respectively Solar energy, the temperature difference energy or the motion energy are generated electricity, can be under any usage scenario of wearable device by extraneous energy Source is converted into electric energy, so as to be battery powered, ensures that battery can uninterruptedly continue a journey.Wherein, three electricity generation modules can be simultaneously Detect that power generation energy resource is generated electricity, either any two or any one detect that power generation energy resource is generated electricity.
With reference to the introduction of accompanying drawing 1, above-mentioned electricity generation module is solar electrical energy generation module, temperature-difference power generation module and mechanical kinetic energy hair Electric module, i.e. solar electrical energy generation module are used to detect solar energy and convert solar energy into electric energy, and the temperature-difference power generation module is used for Detect the temperature difference energy and the temperature difference energy is converted into electric energy, the mechanical kinetic energy electricity generation module is used to detect kinergety and will transported Energy is converted into electric energy.
For solar electrical energy generation module, wearable device detects whether to obtain by the electricity generation module of electricity generation module group Specifically included to the power generation energy resource for generating:Wearable device detects sunray by solar electrical energy generation module, is detecting During to sunray, determine that solar electrical energy generation module detects solar energy, when being not detected by sunray, determine that solar energy is sent out Electric module is not detected by solar energy.In this embodiment, the sunray of outside is detected in real time by solar electrical energy generation module, So as to obtain solar energy.
In some enforceable modes, solar electrical energy generation module can be thin-film solar cells, and light shines film On solar cell, illumination is directly converted into electric energy using photovoltaic effect.
Certainly, solar electrical energy generation module can also use silicon materials, or multi-junction gallium arsenide in addition to using thin-film material Material, wherein, the generating efficiency of multi-junction gallium arsenide material is higher, can not have to be directly under the sun, by sunray Side is to be able to detect that illumination and be converted into electric energy, such as, as long as the window that wearable device is placed in against outside can Illumination is detected, obtains electric energy, continuation of the journey charging is provided for battery.
In other enforceable modes, solar electrical energy generation module can be solar panels (such as flexible solar battery Plate), the protective layer of light-transmissive is provided with the top of solar electrical energy generation module, and be disposed at wearable device watchcase On outer surface or it is disposed on the outer surface of watchband.When light is shone on solar panels, using photovoltaic effect by light According to being directly changed into electric energy.
For temperature-difference power generation module, wearable device detects whether to get by the electricity generation module of electricity generation module group Power generation energy resource for generating specifically includes:Wearable device detects wearable set by the temperature-difference power generation module of electricity generation module group Standby upper surface and the external contact face of wearable device housing bottom whether there is temperature difference, when detecting the presence of temperature difference, Determine that the temperature-difference power generation module detects the temperature difference energy, detect temperature difference is not present when, determine the temperature-difference power generation module not Detect the temperature difference energy.In this embodiment, wearable device can pass through user's body temperature and outside thermo-electric generation so that use Family also can guarantee that continuation of the journey under temperature is compared with low environment.
Wherein, the temperature expression external temperature of wearable device upper surface, and wearable device housing bottom and user's skin Skin is in contact, and can be generated electricity using caused obvious temperature difference between external temperature and user's skin.
Temperature-difference power generation module can use Bi2Te3Material.Will furthermore it is also possible to increase charge pump in temperature-difference power generation module The low-voltage and high-current that thermo-electric generation obtains gives corresponding electric capacity to charge, and temperature-difference power generation module uses temperature difference piece, is shaped as 10*6*2 (mm) temperature difference piece can provide about 0.6V and 150mA immediate current.
Further, wearable device first detects whether it is in by wearing state, if be in by wearing state, holds Row wearable device detects wearable device upper surface and wearable device housing by the temperature-difference power generation module of electricity generation module group The external contact face of bottom whether there is the step of temperature difference.
For mechanical kinetic energy electricity generation module, wearable device detects whether to obtain by the electricity generation module of electricity generation module group Get and specifically included for the power generation energy resource of generating:Wearable device detects wearable device by mechanical kinetic energy electricity generation module It is no to move, when detecting that wearable device moves, determine that mechanical kinetic energy electricity generation module detects the motion energy, When being not detected by wearable device and moving, determine that mechanical kinetic energy electricity generation module is not detected by the motion energy.As can be seen that User adorns oneself with wearable device motion or wearable device is positioned on body in motion, will all produce motion, together When driving mechanical kinetic energy power generation module on mechanical movement, produce the motion energy, and then convert thereof into electric energy.
Mechanical kinetic energy electricity generation module is rotated by using flying wheel band moving magnet or coil, during rotation cutting magnetic induction line or Person causes coil cutting magnetic induction line to generate electricity, wherein, about 0.5G acceleration can produce about 500uW power.
202nd, wearable device when any electricity generation module of electricity generation module group detects corresponding power generation energy resource, appoint by control The corresponding power generation energy resource detected is converted into electric energy by one electricity generation module, and by power storage to wearable device capacitance group In corresponding electric capacity, the capacitance group includes three electric capacity, the corresponding electricity generation module of an electric capacity.
With reference to accompanying drawing 1, by power storage to corresponding electric capacity after the generating of each electricity generation module, carried out using electric capacity temporary transient Storage, electric capacity can be utilized to ensure that battery is infinitely continued a journey to battery powered afterwards.
203rd, when the electricity of at least one electric capacity of capacitance group is more than predetermined threshold value, wearable device control charging circuit Selected from capacitance group an electricity be more than predetermined threshold value target capacitance be battery powered.
Wherein, when the electricity of electric capacity is more than predetermined threshold value, the CPU in wearable device controls charge capacity from capacitance group The target capacitance that one electricity of middle selection is more than predetermined threshold value is battery powered.CPU can be selected in capacitance group successively in sequence It is battery powered to select electric capacity, if the electric capacity of current order is largely less than or equal to predetermined threshold value, then judge successively next Whether individual electric capacity electricity is more than predetermined threshold value, is electricity as target capacitance if next electric capacity electricity is more than predetermined threshold value Pond is charged, if next electric capacity electricity is less than or equal to predetermined threshold value, judges ensuing electric capacity successively.
Wherein, CPU controls charging circuit selection electric capacity, and specifically, CPU controls the selecting switch module in accompanying drawing 1 to select Electric capacity, target capacitance, selecting switch, charging circuit and the battery for being then based on selection form a charge tunnel, filled for battery Electricity.
Wherein, charging circuit can be controlling switch either linear stable or switch voltage-stabilizing source, for electric capacity to During battery powered, capacitance voltage can be allowed to decline.Because electric capacity is when charging the battery, charging current is relatively large, can be with excellent Switch voltage-stabilizing source is selected, when can ensure that any electricity generation module in three kinds of electricity generation modules charges the battery, can be allowed on electric capacity Voltage decline.
In embodiments of the present invention, detect whether to get by the electricity generation module of wearable device electricity generation module group and be used for The power generation energy resource of generating, the power generation energy resource, which includes solar energy, the temperature difference energy or the motion energy, the electricity generation module group, includes three Electricity generation module, an electricity generation module correspond to a kind of power generation energy resource;Corresponding to being detected in any electricity generation module of electricity generation module group During power generation energy resource, control any electricity generation module that the corresponding power generation energy resource detected is converted into electric energy, and by power storage extremely In the corresponding electric capacity of capacitance group, an electricity generation module correspond to an electric capacity in capacitance group, and one is then selected from capacitance group The target capacitance that electricity is more than predetermined threshold value is the battery powered of wearable device;As can be seen that in embodiments of the present invention, can Wearable device can utilize solar energy, the temperature difference energy or the motion energy to generate electricity, and so as to be battery powered, abandon on conventional art Charger charging technique, wearable device can be allowed to obtain electricity supplement under any usage scenario, set to be wearable Standby convenient charging, ensures that wearable device is uninterruptedly continued a journey, to improve user experience sense as far as possible.
Embodiment two
Referring to Fig. 3, Fig. 3 is another stream of the power supply management method of wearable device disclosed in the embodiment of the present invention Journey schematic diagram;As shown in figure 3, a kind of power supply management method of wearable device may include:
301st, wearable device detects whether to get the generating energy for generating by the electricity generation module of electricity generation module group Source.Wherein, if there is any electricity generation module to detect power generation energy resource, step 302 is turned to;If all electricity generation modules are not detected by hair During electric energy, terminate the flow.
302nd, wearable device when any electricity generation module of electricity generation module group detects corresponding power generation energy resource, appoint by control The corresponding power generation energy resource detected is converted into electric energy, and the corresponding electric capacity by power storage to capacitance group by one electricity generation module In.
303rd, wearable device controls charging circuit when the electricity of at least one electric capacity of capacitance group is more than predetermined threshold value Selected from capacitance group an electricity be more than the predetermined threshold value target capacitance be battery powered.
It is appreciated that in order to protect electric capacity, the electricity of electric capacity is not less than predetermined threshold value as far as possible, if more than predetermined threshold value When, can be battery powered, it is ensured that battery can continue to continue a journey.
304th, when the target capacitance is to battery powered, the dump energy and mesh of the real-time monitoring objective electric capacity of wearable device Mark the output electricity of electric capacity.
It is appreciated that in some cycles, electric capacity can reflect the custom of user to the electricity that battery provides, such as by The getable electricity of the sun can represent user's outdoor activities situation, and the electricity that the temperature difference energy obtains is it can be shown that environment temperature Difference, the electricity that the motion energy obtains reflect the motion conditions of user.And then in embodiments of the present invention, wearable device exists When target capacitance is to battery powered, the output electricity of monitoring objective electric capacity is to obtain the custom of user, while monitoring objective electric capacity Dump energy.
305th, wearable device judges whether dump energy is less than or equal to predetermined threshold value.Wherein, it is small in dump energy When predetermined threshold value, step 306 is turned to;When dump energy is more than the predetermined threshold value, step 304 is turned to.
As an alternative embodiment, wearable device is when the target capacitance is to battery powered, wearable device The dump energy of real-time monitoring objective electric capacity and the output electricity of target capacitance specifically include:Wearable device is in the target capacitance During to battery powered, wearable device monitors the current electric quantity of battery, the dump energy of target capacitance and target capacitance in real time Export electricity, judge whether the current electric quantity of battery reaches default charge value, if reaching default charge value, stop to Battery charges, and turns to step 306;If not reaching default charge value, judge whether the dump energy of target capacitance is less than Or equal to predetermined threshold value, if the dump energy of target capacitance is less than or equal to predetermined threshold value, stop charging to battery, And turn to step 306.
It should be noted that actually when the electricity of target capacitance is equal to predetermined threshold value, step 306 is turned to, ensures mesh The electricity of mark electric capacity is not less than predetermined threshold value as far as possible.
306th, wearable device obtains the output electricity, and output electricity is counted into cycle electricity.
307th, wearable device is when default measurement period reaches, according to the cycle coulometric analysis user in measurement period Interior user movement amount, user open air duration and user's body metabolic rate.
As an alternative embodiment, wearable device when default measurement period reaches, divides according to cycle electricity After analysing user movement amount of the user in the measurement period, user open air duration and user's body metabolic rate, the user is judged Whether amount of exercise reaches default amount of exercise threshold value, when user movement amount does not reach default amount of exercise threshold value, is moved Remind;And judge whether the user open air duration meets preset duration, when in user open air, duration does not meet described default When long, outdoor exercises prompting is carried out;And judge whether the user's body metabolic rate belongs to default eubolism rate scope, When user's body metabolic rate is not belonging to default eubolism rate scope, healthalert is carried out., can by the embodiment By the situation of the electricity to electric capacity in a cycle, analyze the custom of user, so as to obtain the amount of exercise of user, it is outdoor when Long and body metabolism rate etc..
Referring to Fig. 4, Fig. 4 is electricity figure provided in an embodiment of the present invention;In the electricity figure shown in Fig. 4, first area Domain (S1) corresponds to mechanical kinetic energy generating, and Two Areas (S2) corresponds to thermo-electric generation, and the 3rd is solar power generation.Scheming In 4, Y-axis is area (electricity), and the custom of the corresponding user of area (electricity) of three regions (S3) is as follows:
First area (S1) represents amount of exercise increase compared to usually increasing.
Second area (S2), which is compared, usually to be increased, and first area (S1) represents metabolism increase compared to usually increasing.
3rd region (S3) represents outdoor duration increase compared to usually increasing.
In some embodiments, at the same by three areas cases by high in the clouds compared with other wearers, analyze user The state in which in crowd, further to remind the calorie consumption state of user.
It should be noted that if wearable device is in wearing state, it is increased to be generally not present only the 3rd region Represent that user does not wear wearable device and allows its electric energy supplement in the sun during the increase of situation, only the 3rd region.
By above-described embodiment, wearable device is not only able to send out using solar energy, the temperature difference energy or the motion energy Electricity, to battery powered, additionally it is possible to the electricity of three kinds of power generation modes is analyzed, for assessing the custom of user, including outdoor duration, fortune Momentum and body metabolism rate etc., the calorie that user then can be further analyzed by amount of exercise and metabolic rate consume, and The variable quantity of thermo-electric generation amount caused by metabolism heat is included in, than more accurate to assess by counting step merely.
Embodiment three
Referring to Fig. 5, Fig. 5 is the structural representation of wearable device disclosed in the embodiment of the present invention;As shown in figure 5, one Kind wearable device may include:
Detection control unit 510, for detecting whether to get by the electricity generation module of wearable device electricity generation module group For the power generation energy resource of generating, the power generation energy resource, which includes solar energy, the temperature difference energy or the motion energy, the electricity generation module group, to be included Three electricity generation modules, an electricity generation module correspond to a kind of power generation energy resource;
TCU transfer control unit 520, for determining any electricity generation module of electricity generation module group in above-mentioned detection control unit 510 Corresponding to detecting during power generation energy resource, control any electricity generation module that the corresponding power generation energy resource detected is converted into electric energy, with And by the corresponding electric capacity of power storage to wearable device capacitance group, the capacitance group includes three electric capacity, an electric capacity is corresponding One electricity generation module;
Supply control unit 530, when the electricity at least one electric capacity in capacitance group is more than predetermined threshold value, control can The charging circuit of wearable device selected from capacitance group an electricity be more than predetermined threshold value target capacitance be the wearable device Battery powered.
In embodiments of the present invention, detection control unit 510 is examined by the electricity generation module of wearable device electricity generation module group The power generation energy resource whether got for generating is surveyed, the power generation energy resource includes solar energy, the temperature difference energy or the motion energy, the hair Electric module group includes three electricity generation modules, and an electricity generation module corresponds to a kind of power generation energy resource;In any generating of electricity generation module group When module detects corresponding power generation energy resource, TCU transfer control unit 520 controls the corresponding generating that any electricity generation module will detect Into electric energy, and by the corresponding electric capacity of power storage to capacitance group, an electricity generation module correspond in capacitance group energy conversion An electric capacity, then supply control unit 530 select an electricity to be more than the target capacitance of predetermined threshold value for can from capacitance group The battery powered of wearable device;As can be seen that in embodiments of the present invention, wearable device can utilize solar energy, thermal gradient energy Source or the motion energy generate electricity, so as to be battery powered so that wearable device can obtain electricity under any usage scenario Supplement, is the convenient charging of wearable device, ensures that wearable device is uninterruptedly continued a journey as far as possible, to improve user experience sense.
Incorporated by reference to above-mentioned Fig. 5, in the wearable device shown in Fig. 6, above three electricity generation module is respectively solar energy hair Electric module, temperature-difference power generation module and mechanical kinetic energy electricity generation module, wherein, solar electrical energy generation module is used to detect solar energy, the temperature difference Electricity generation module is used to detect the temperature difference energy, and mechanical kinetic energy electricity generation module is used to detect kinergety, above-mentioned detection control unit 510 Specifically include:
First detection unit 610, for detecting the sun by the solar electrical energy generation module of wearable device electricity generation module group Light, when detecting sunray, determine that the solar electrical energy generation module detects solar energy, be not detected by sunray When, determine that the solar electrical energy generation module is not detected by solar energy;
And second detection unit 620, can for the temperature-difference power generation module detection by wearable device electricity generation module group Wearable device upper surface and the external contact face of wearable device housing bottom whether there is temperature difference, described detecting the presence of During temperature difference, determine that temperature-difference power generation module detects the temperature difference energy, detect the temperature difference is not present when, determine the temperature Poor electricity generation module is not detected by the temperature difference energy;
And the 3rd detection unit 630, for being examined by the mechanical kinetic energy electricity generation module of wearable device electricity generation module group Survey whether wearable device moves, when detecting that the wearable device moves, determine mechanical kinetic energy electricity generation module The motion energy is detected, when being not detected by wearable device and moving, determines that mechanical kinetic energy electricity generation module is not detected by The motion energy.
As an alternative embodiment, above-mentioned second detection unit 620 is used to generate electricity mould by wearable device Whether the temperature-difference power generation module detection wearable device upper surface of block group and the external contact face of wearable device housing bottom deposit It is specially in the mode of temperature difference:
Above-mentioned second detection unit 620, for detecting whether wearable device is in by wearing state;Wearable set at this During for being in by wearing state, the wearable device upper table is detected by the temperature-difference power generation module of wearable device electricity generation module group User's skin that face contacts with wearable device housing bottom whether there is temperature difference.
Example IV
Referring to Fig. 7, Fig. 7 is another structural representation of wearable device disclosed in the embodiment of the present invention;Shown in Fig. 7 Wearable device in, wearable device also includes:
Electric quantity monitoring unit 710, in battery powered of the target capacitance to wearable device, real-time monitoring objective electric capacity The output electricity of dump energy and target capacitance;And judge whether the dump energy is less than or equal to predetermined threshold value;With And when the dump energy is less than or equal to predetermined threshold value, output electricity is obtained, and the output electricity is counted to cycle electricity In amount;
Analytic unit 720, for when above-mentioned electric quantity monitoring unit 710 reaches in default measurement period, according to this week User movement amount, user open air duration and user's body metabolic rate of the phase coulometric analysis user in measurement period.
Incorporated by reference to Fig. 7, the wearable device shown in Fig. 7 also includes:
Reminding unit 730, for when above-mentioned analytic unit 720 reaches in default measurement period, according to cycle electricity After analyzing user movement amount of the user in measurement period, user open air duration and user's body metabolic rate, judge that user transports Whether momentum reaches default amount of exercise threshold value, when the user movement amount does not reach default amount of exercise threshold value, is moved Remind;And judge whether the user open air duration meets preset duration, when in user open air, duration does not meet preset duration, Carry out outdoor exercises prompting;And judge whether the user's body metabolic rate belongs to default eubolism rate scope, in user When body metabolism rate is not belonging to default eubolism rate scope, healthalert is carried out.
It should be noted that when the user movement amount reaches default amount of exercise threshold value, terminate flow.And with When outer duration meets preset duration in every family, terminate flow.And belong to default eubolism rate model in user's body metabolic rate When enclosing, terminate flow.
By above-described embodiment, wearable device is not only able to send out using solar energy, the temperature difference energy or the motion energy Electricity, to battery powered, additionally it is possible to the electricity of three kinds of power generation modes is analyzed, for assessing the custom of user, including outdoor duration, fortune Momentum and body metabolism rate etc., the calorie that user then can be further analyzed by amount of exercise and metabolic rate consume, and The variable quantity of thermo-electric generation amount caused by metabolism heat is included in, than more accurate to assess by counting step merely.
Embodiment five
Referring to Fig. 8, Fig. 8 is another structural representation of wearable device disclosed in the embodiment of the present invention;Shown in Fig. 8 Wearable device may include:At least one processor 810, such as CPU, memory 820, at least one communication bus 830, input Device 840, output device 850.Wherein, communication bus 830 is used to realize the communication connection between these components.Memory 820 Can be high-speed RAM memory or non-labile memory (non-volatile memory), for example, at least one Individual magnetic disk storage.Memory 820 optionally can also be at least one storage device for being located remotely from aforementioned processor 810. Wherein, processor 810 can store batch processing code with reference to the wearable device described by Fig. 5 to Fig. 7 in memory 820, And processor 810 calls the program code stored in memory 820, and also including other shown modules in accompanying drawing 1 (herein No longer show), in this embodiment, processor 810 is used to perform following operation:
Detect whether to get the power generation energy resource for generating, institute by the electricity generation module of wearable device electricity generation module group Stating power generation energy resource and including solar energy, the temperature difference energy or the motion energy, the electricity generation module group includes three electricity generation modules, one Electricity generation module corresponds to a kind of power generation energy resource;
Corresponding to being detected in any electricity generation module of the electricity generation module group during power generation energy resource, any generating is controlled The corresponding power generation energy resource detected is converted into electric energy by module, and by the power storage to the wearable device capacitance group Corresponding electric capacity in, the capacitance group includes three electric capacity, the corresponding electricity generation module of one electric capacity;
When the electricity of at least one electric capacity of the capacitance group is more than predetermined threshold value, filling for the wearable device is controlled Circuit selects an electricity more than the electricity that the target capacitance of the predetermined threshold value is the wearable device from the capacitance group Pond powers.
Optionally, three electricity generation modules are respectively solar electrical energy generation module, temperature-difference power generation module and mechanical kinetic energy hair Electric module, the solar electrical energy generation module are used to detect the solar energy, and the temperature-difference power generation module is used to detect the temperature difference The energy, the mechanical kinetic energy electricity generation module are used to detect the kinergety, and above-mentioned processor 810 is additionally operable to perform following behaviour Make:
Sunray is detected by the solar electrical energy generation module of the wearable device electricity generation module group, detected During the sunray, determine that the solar electrical energy generation module detects the solar energy, be not detected by the sunray When, determine that the solar electrical energy generation module is not detected by the solar energy;
And the wearable device is detected by the temperature-difference power generation module of the wearable device electricity generation module group Upper surface and the external contact face of the wearable device housing bottom whether there is temperature difference, detect the presence of the temperature When poor, determine that the temperature-difference power generation module detects the temperature difference energy, detect the temperature difference is not present when, determine institute State temperature-difference power generation module and be not detected by the temperature difference energy;
It is and described wearable by the mechanical kinetic energy electricity generation module detection of the wearable device electricity generation module group Whether equipment moves, and when detecting that the wearable device moves, determines the mechanical kinetic energy electricity generation module inspection The motion energy is measured, when being not detected by the wearable device and moving, determines the mechanical kinetic energy electricity generation module It is not detected by the motion energy.
Optionally, above-mentioned processor 810 is additionally operable to perform following operation:
Detect whether the wearable device is in by wearing state;
When the wearable device is in by wearing state, pass through the temperature of the wearable device electricity generation module group Whether user's skin that the poor electricity generation module detection wearable device upper surface contacts with the wearable device housing bottom Temperature difference be present.
Optionally, above-mentioned processor 810 is additionally operable to perform following operation:
In battery powered of the target capacitance to the wearable device, the residue of the target capacitance is monitored in real time The output electricity of electricity and the target capacitance;
Judge whether the dump energy is less than or equal to the predetermined threshold value;
When the dump energy is less than or equal to the predetermined threshold value, the output electricity is obtained, and will be described defeated Go out electricity to count into cycle electricity;
When default measurement period reaches, according to user of the cycle coulometric analysis user in the measurement period Amount of exercise, user open air duration and user's body metabolic rate.
Optionally, above-mentioned processor 810 is additionally operable to perform following operation:
Judge whether the user movement amount reaches default amount of exercise threshold value, do not reached in the user movement amount described During default amount of exercise threshold value, motion prompting is carried out;And
Judge whether user open air duration meets preset duration, duration does not meet described pre- in the user open air If during duration, carry out outdoor exercises prompting;And
Judge whether the user's body metabolic rate belongs to default eubolism rate scope, be metabolized in the user's body When rate is not belonging to the default eubolism rate scope, healthalert is carried out.
By implementing above-mentioned wearable device, can utilize solar energy, the temperature difference energy or motion the energy generate electricity, so as to for Battery powered so that wearable device can obtain electricity supplement under any usage scenario, so as to ensure as wearable device Convenient continuation of the journey, improve user experience sense.And wearable device can also be according to every kind of electricity assessment user for generating electricity and obtaining Custom, including outdoor duration amount of exercise and body metabolism rate etc., then can be analyzed further by amount of exercise and metabolic rate The calorie consumption of user, provides the user healthalert.
One of ordinary skill in the art will appreciate that all or part of step in the various methods of above-described embodiment is can To instruct the hardware of correlation to complete by program, the program can be stored in a computer-readable recording medium, storage Medium include read-only storage (Read-Only Memory, ROM), random access memory (Random Access Memory, RAM), programmable read only memory (Programmable Read-only Memory, PROM), erasable programmable is read-only deposits Reservoir (Erasable Programmable Read Only Memory, EPROM), disposable programmable read-only storage (One- Time Programmable Read-Only Memory, OTPROM), the electronics formula of erasing can make carbon copies read-only storage (Electrically-Erasable Programmable Read-Only Memory, EEPROM), read-only optical disc (Compact Disc Read-Only Memory, CD-ROM) or other disk storages, magnetic disk storage, magnetic tape storage or can For carrying or any other computer-readable medium of data storage.
Above to the power supply management method and wearable device of a kind of wearable device disclosed in the embodiment of the present invention It is described in detail, specific case used herein is set forth to the principle and embodiment of the present invention, and the above is real The explanation for applying example is only intended to help the method and its core concept for understanding the present invention;Meanwhile for the general technology of this area Personnel, according to the thought of the present invention, there will be changes in specific embodiments and applications, in summary, this theory Bright book content should not be construed as limiting the invention.

Claims (12)

  1. A kind of 1. power supply management method of wearable device, it is characterised in that including:
    Detect whether to get the power generation energy resource for generating, the hair by the electricity generation module of wearable device electricity generation module group Electric energy includes solar energy, the temperature difference energy or the motion energy, and the electricity generation module group includes three electricity generation modules, a generating Module corresponds to a kind of power generation energy resource;
    Corresponding to being detected in any electricity generation module of the electricity generation module group during power generation energy resource, any electricity generation module is controlled The corresponding power generation energy resource detected is converted into electric energy, and pair by the power storage to the wearable device capacitance group Answer in electric capacity, the capacitance group includes three electric capacity, the corresponding electricity generation module of one electric capacity;
    When the electricity of at least one electric capacity of the capacitance group is more than predetermined threshold value, the charging electricity of the wearable device is controlled Road selects an electricity to be supplied more than the battery that the target capacitance of the predetermined threshold value is the wearable device from the capacitance group Electricity.
  2. 2. according to the method for claim 1, it is characterised in that three electricity generation modules are respectively solar power generation mould Block, temperature-difference power generation module and mechanical kinetic energy electricity generation module, the solar electrical energy generation module are used to detect the solar energy, the temperature Poor electricity generation module is used to detect the temperature difference energy, and the mechanical kinetic energy electricity generation module is used to detect the kinergety, described Detect whether to get the power generation energy resource for generating by the electricity generation module of wearable device electricity generation module group, including:
    Sunray is detected by the solar electrical energy generation module of the wearable device electricity generation module group, it is described detecting During sunray, determine that the solar electrical energy generation module detects the solar energy, when being not detected by the sunray, really The fixed solar electrical energy generation module is not detected by the solar energy;
    And the wearable device upper table is detected by the temperature-difference power generation module of the wearable device electricity generation module group Face and the external contact face of the wearable device housing bottom whether there is temperature difference, detect the presence of the temperature difference When, determine that the temperature-difference power generation module detects the temperature difference energy, detect the temperature difference is not present when, it is determined that described Temperature-difference power generation module is not detected by the temperature difference energy;
    And the wearable device is detected by the mechanical kinetic energy electricity generation module of the wearable device electricity generation module group Whether move, when detecting that the wearable device moves, determine that the mechanical kinetic energy electricity generation module detects The motion energy, when being not detected by the wearable device and moving, determine that the mechanical kinetic energy electricity generation module is not examined Measure the motion energy.
  3. 3. according to the method for claim 2, it is characterised in that the institute by the wearable device electricity generation module group Stating the external contact face of the temperature-difference power generation module detection wearable device upper surface and the wearable device housing bottom is No have a temperature difference, including:
    Detect whether the wearable device is in by wearing state;
    When the wearable device is in by wearing state, sent out by the temperature difference of the wearable device electricity generation module group Electric module detects the wearable device upper surface and whether there is with user's skin that the wearable device housing bottom contacts Temperature difference.
  4. 4. according to the method described in any one of claims 1 to 3, it is characterised in that in the target capacitance to described wearable During the battery powered of equipment, methods described also includes:
    In battery powered of the target capacitance to the wearable device, the dump energy of the target capacitance is monitored in real time With the output electricity of the target capacitance;
    Judge whether the dump energy is less than or equal to the predetermined threshold value;
    When the dump energy is less than or equal to the predetermined threshold value, the output electricity is obtained, and the output is electric Amount statistics is into cycle electricity;
    When default measurement period reaches, according to user movement of the cycle coulometric analysis user in the measurement period Amount, user open air duration and user's body metabolic rate.
  5. 5. according to the method for claim 4, it is characterised in that it is described when default measurement period reaches, according to described User movement amount, user open air duration and user's body metabolic rate of the cycle coulometric analysis user in the measurement period it Afterwards, methods described also includes:
    Judge whether the user movement amount reaches default amount of exercise threshold value, do not reached in the user movement amount described default Amount of exercise threshold value when, carry out motion prompting;And
    Judge whether user open air duration meets preset duration, when duration does not meet described default in the user open air When long, outdoor exercises prompting is carried out;And
    Judge whether the user's body metabolic rate belongs to default eubolism rate scope, in the user's body metabolic rate not When belonging to the default eubolism rate scope, healthalert is carried out.
  6. A kind of 6. wearable device, it is characterised in that including:
    Detection control unit, for detecting whether to get for generating electricity by the electricity generation module of wearable device electricity generation module group Power generation energy resource, the power generation energy resource include solar energy, the temperature difference energy or motion the energy, the electricity generation module group include three Electricity generation module, an electricity generation module correspond to a kind of power generation energy resource;
    TCU transfer control unit, for determining that any electricity generation module of the electricity generation module group detects in the detection control unit During corresponding power generation energy resource, control any electricity generation module that the corresponding power generation energy resource detected is converted into electric energy, and will For the power storage into the corresponding electric capacity of the wearable device capacitance group, the capacitance group includes three electric capacity, and described one The corresponding electricity generation module of individual electric capacity;
    Supply control unit, when the electricity at least one electric capacity in the capacitance group is more than predetermined threshold value, described in control The charging circuit of wearable device selected from the capacitance group electricity be more than the predetermined threshold value target capacitance be described The battery powered of wearable device.
  7. 7. wearable device according to claim 6, it is characterised in that three electricity generation modules are respectively solar energy hair Electric module, temperature-difference power generation module and mechanical kinetic energy electricity generation module, the solar electrical energy generation module are used to detect the solar energy, institute Temperature-difference power generation module to be stated to be used to detect the temperature difference energy, the mechanical kinetic energy electricity generation module is used to detect the kinergety, The detection control unit includes:
    First detection unit, for detecting the sun by the solar electrical energy generation module of the wearable device electricity generation module group Light, when detecting the sunray, determine that the solar electrical energy generation module detects the solar energy, be not detected by During the sunray, determine that the solar electrical energy generation module is not detected by the solar energy;
    And second detection unit, for being detected by the temperature-difference power generation module of the wearable device electricity generation module group The wearable device upper surface and the external contact face of the wearable device housing bottom whether there is temperature difference, detect To when the temperature difference be present, determining that the temperature-difference power generation module detects the temperature difference energy, detecting in the absence of described During temperature difference, determine that the temperature-difference power generation module is not detected by the temperature difference energy;
    And the 3rd detection unit, for the mechanical kinetic energy electricity generation module by the wearable device electricity generation module group Detect whether the wearable device moves, when detecting that the wearable device moves, determine the machinery Kinetic energy power generation module detects the motion energy, when being not detected by the wearable device and moving, determines the machine Tool kinetic energy power generation module is not detected by the motion energy.
  8. 8. wearable device according to claim 7, it is characterised in that second detection unit is used for by described The temperature-difference power generation module of wearable device electricity generation module group detects the wearable device upper surface and wearable set with described The external contact face of standby housing bottom is specially with the presence or absence of the mode of temperature difference:
    Second detection unit, for detecting whether the wearable device is in by wearing state;Wearable set described During for being in by wearing state, by that can be worn described in the temperature-difference power generation module detection of the wearable device electricity generation module group Wear user's skin that equipment upper surface contacts with the wearable device housing bottom and whether there is temperature difference.
  9. 9. according to the wearable device described in any one of claim 6 to 8, it is characterised in that the wearable device also includes:
    Electric quantity monitoring unit, in battery powered of the target capacitance to the wearable device, the target is monitored in real time The output electricity of the dump energy of electric capacity and the target capacitance;And judge whether the dump energy is less than or equal to The predetermined threshold value;And when the dump energy is less than or equal to the predetermined threshold value, the output electricity is obtained, And the output electricity is counted into cycle electricity;
    Analytic unit, for when the electric quantity monitoring unit reaches in default measurement period, being divided according to the cycle electricity Analyse user movement amount, user open air duration and user's body metabolic rate of the user in the measurement period.
  10. 10. wearable device according to claim 9, it is characterised in that the wearable device also includes:
    Reminding unit, for when the analytic unit reaches in default measurement period, being used according to the cycle coulometric analysis After user movement amount of the family in the measurement period, user open air duration and user's body metabolic rate, the user is judged Whether amount of exercise reaches default amount of exercise threshold value, when the user movement amount does not reach the default amount of exercise threshold value, Carry out motion prompting;And judge whether user open air duration meets preset duration, in the user open air, duration does not have When meeting the preset duration, outdoor exercises prompting is carried out;And judge whether the user's body metabolic rate belongs to default Eubolism rate scope, when the user's body metabolic rate is not belonging to the default eubolism rate scope, carry out health Remind.
  11. A kind of 11. wearable device, it is characterised in that including:
    It is stored with the memory of executable program code;
    The processor coupled with the memory;
    The processor calls the executable program code stored in the memory, performs such as claim 1 to right It is required that the power supply management method of the wearable device described in 5 any one.
  12. A kind of 12. computer-readable recording medium, it is characterised in that it stores the computer program for electronic data interchange, Wherein, the computer program causes computer to perform the wearable device as described in claim 1 to any one of claim 5 Power supply management method.
CN201711050448.4A 2017-10-31 2017-10-31 Power control management method of wearable device and wearable device Pending CN107634570A (en)

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