CN110061557A - Charging method, wearable device and the readable storage medium storing program for executing of wearable device - Google Patents

Abstract

The invention discloses a kind of charging method of wearable device, wearable device and readable storage medium storing program for executing.This method comprises: the positional relationship of the current photon source received and the photon source energy panel, control each unit block undulatory motion in photon source energy panel, and when the real time electrical quantity for detecting wearable device battery is greater than or equal to the first default power threshold, the photon source energy panel is controlled to restore to smooth, therefore, pass through the position of current photon source and the photon source energy panel, control the corresponding undulatory motion of each unit block, to make each unit block evagination at cuboid column, so that the columnar part of the cuboid of each unit block evagination be made to receive photon.Invention increases the areas that each unit block of photon source energy panel receives photon, and then increase total photoelectric conversion amount of the photon source energy panel within the unit time, reduce the charging time of wearable device.

Description

Charging method, wearable device and the readable storage medium storing program for executing of wearable device

Technical field

This application involves photon sources can utilize technical field more particularly to a kind of charging method of wearable device, can wear Wear equipment and readable storage medium storing program for executing.

Background technique

Photon source can be used as new energy, the increasingly attention by society, in daily life, a large amount of photon source energy products It is put into use, and brings huge economic benefit for society.

Currently, the utilization of photon source energy mainly converts electric energy for the radiation energy of photon source by photon source energy panel, However, being influenced by earth rotation, revolution and moment and geographical location, the orientation of photon source can constantly change.

Conventional photon source energy panel needs to be fixed on bracket or fixing piece, same in the Orientation differences of photon source There are larger differences for the photon source radiation energy that the photon source energy panel at moment receives, and photon source positions of panels immobilizes, Cause photon source panel can not be with optimal angle towards photon source, therefore, conventional photon source energy panel cannot accurately react The intensity of illumination situation of change of different zones on photon source energy panel, photon source energy panel cannot be also absorbed into the maximum extent Light energy, low, charging time length technical problem that accordingly, there exist photoelectric conversion efficiencies.

Summary of the invention

The main purpose of the present invention is to provide a kind of charging method of wearable device, wearable device and readable storages Medium, it is intended to solve in the prior art the technical problem that photoelectric conversion efficiency is low, the charging time is long.

To achieve the above object, the present invention provides a kind of charging method of wearable device, and the wearable device fills Method for electrically the following steps are included:

When the photon source energy panel receives photon, the position of current photon source Yu the photon source energy panel is determined Relationship；

Based on the positional relationship, each unit block undulatory motion in the photon source energy panel is controlled, and detect wearable Whether the real time electrical quantity of device battery is greater than or equal to the described first default power threshold；

If the real time electrical quantity is greater than or equal to the described first default power threshold, it is extensive to control the photon source energy panel It is multiple extremely smooth.

Optionally, described when the photon source energy panel receives photon, determine current photon source and the photon source Can panel positional relationship the step of include:

When the photon source energy panel receives photon, the incident direction of the photon source release photon is obtained；

Obtain the incident direction and photon source energy panel each unit block incident side plane enters angular.

Optionally, described when the photon source energy panel receives photon, obtain entering for the photon source release photon The step of penetrating direction include:

When the photon source energy panel receives photon, the photosensitive arc that photon is received in photon source energy panel is obtained Face；

Using the photosensitive cambered surface midpoint normal direction as the incident direction of photon source release photon.

Optionally, described using the photosensitive cambered surface midpoint normal direction as the incidence side of photon source release photon To the step of include:

Length and end positions information based on the photosensitive cambered surface, determine the midpoint position of the incident side；

Based on the midpoint position, the normal direction of the midpoint position is determined；

Using the normal direction as the incident direction of photon source release photon.

Optionally, described to be based on the positional relationship, control each unit block undulatory motion in the photon source energy panel Step includes:

Enter angular according to each cell block, be dynamically determined the evagination distance of each cell block, wherein it is described enter Angular is bigger, and the corresponding evagination is apart from smaller；

According to the evagination distance, each unit block undulatory motion in the photon source energy panel is controlled.

Optionally, described when the photon source energy panel receives photon, determine current photon source and the photon source Can panel positional relationship the step of include:

When the photon source energy panel receives photon, the strong of photon received by photon source energy panel is incuded in real time It spends and generates corresponding light intensity signal；

According to the light intensity signal and judge whether the light intensity signal received reaches default intensity threshold；

When the light intensity signal received reaches the default intensity threshold, it is determined that current photon source with it is described The positional relationship of photon source energy panel.

Optionally, described when the photon source energy panel receives photon, determine current photon source and the photon source Before the step of positional relationship of energy panel, further includes:

The remaining capacity value of the battery of the wearable device is obtained in real time；

The remaining capacity value of the battery of the wearable device and the second default power threshold are compared；

If the remaining capacity value of the battery of the wearable device is less than the second default power threshold, described in judgement Wearable device needs to charge.

Optionally, if the real time electrical quantity is greater than or equal to the described first default power threshold, the light is controlled Component energy panel restores to smooth step, further includes:

Output is greater than or equal to the prompt information of the described first default power threshold comprising the real time electrical quantity, terminates to fill Electricity.

In addition, to achieve the above object, the present invention also provides a kind of wearable device, the wearable device includes: to deposit Reservoir, processor and it is stored in the computer program that can be run on the memory and on the processor, the computer The step of charging method of any of the above-described wearable device is realized when program is executed by the processor.

In addition, to achieve the above object, it is described computer-readable the present invention also provides a kind of computer readable storage medium It is stored with computer program on storage medium, realizes that any of the above-described is wearable when the computer program is executed by processor and sets The step of standby charging method.

The present invention is by determining current photon source and the photon source energy panel when photon source energy panel receives photon Positional relationship, thus be based on the positional relationship, control photon source energy panel in each unit block undulatory motion, to increase light The area of the incident side of component energy panel, and the real time electrical quantity for detecting wearable device battery is greater than or equal to the first default electricity When threshold value, control photon source energy panel restores to smooth, and this improves solar panel photoelectric conversion efficiencies, reduce and fill The electric time.

Detailed description of the invention

The drawings herein are incorporated into the specification and forms part of this specification, and shows and meets implementation of the invention Example, and be used to explain the principle of the present invention together with specification.

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below There is attached drawing needed in technical description to be briefly described, it should be apparent that, for those of ordinary skill in the art Speech, without any creative labor, is also possible to obtain other drawings based on these drawings.

Fig. 1 is a kind of hardware structural diagram of embodiment of wearable device provided in an embodiment of the present invention；

Fig. 2 is a kind of hardware schematic of embodiment of wearable device provided by the embodiments of the present application；

Fig. 3 is a kind of hardware schematic of embodiment of wearable device provided by the embodiments of the present application；

Fig. 4 is a kind of hardware schematic of embodiment of wearable device provided by the embodiments of the present application；

Fig. 5 is a kind of hardware schematic of embodiment of wearable device provided by the embodiments of the present application；

Fig. 6 is the flow diagram of the charging method first embodiment of the application wearable device；

Fig. 7 is the schematic diagram of a scenario that photosensitive cambered surface is determined in the charging method of wearable device of the present invention；

Fig. 8 is the schematic diagram of a scenario of photosensitive cambered surface variation in the charging method of wearable device of the present invention；

Fig. 9 is the schematic diagram of a scenario that incident direction is determined in the charging method of wearable device of the present invention.

Specific embodiment

It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention, it is not intended to limit the present invention.

In subsequent description, it is only using the suffix for indicating such as " module ", " component " or " unit " of element Be conducive to explanation of the invention, itself there is no a specific meaning.Therefore, " module ", " component " or " unit " can mix Ground uses.

The wearable device provided in the embodiment of the present invention includes that Intelligent bracelet, smartwatch and smart phone etc. move Dynamic terminal.With the continuous development of Screen Technology, the appearance of the screens form such as flexible screen, Folding screen, smart phone etc. is mobile eventually End can also be used as wearable device.The wearable device provided in the embodiment of the present invention may include: RF (Radio Frequency, radio frequency) unit, WiFi module, audio output unit, A/V (audio/video) input unit, sensor, display The components such as unit, user input unit, interface unit, memory, processor and power supply.

It will be illustrated by taking wearable device as an example in subsequent descriptions, referring to Fig. 1, its each implementation to realize the present invention A kind of hardware structural diagram of wearable device of example, which may include: RF (Radio Frequency, radio frequency) unit 101, WiFi module 102, audio output unit 103, A/V (audio/video) input unit 104, Sensor 105, display unit 106, user input unit 107, interface unit 108, memory 109, processor 110, Yi Ji electricity The components such as source 111.It will be understood by those skilled in the art that wearable device structure shown in Fig. 1 is not constituted to wearable The restriction of equipment, wearable device may include perhaps combining certain components or difference than illustrating more or fewer components Component layout.

It is specifically introduced below with reference to all parts of the Fig. 1 to wearable device:

Radio frequency unit 101 can be used for receiving and sending messages or communication process in, signal sends and receivees, specifically, radio frequency list Uplink information can be sent to base station by member 101, and after the downlink information that in addition can also be sent base station receives, being sent to can be worn The processor 110 for wearing equipment is handled, and base station can be to the downlink information that radio frequency unit 101 is sent and be sent out according to radio frequency unit 101 What the uplink information sent generated, it is also possible to actively push away to radio frequency unit 101 after the information update for detecting wearable device It send, for example, base station can penetrating to wearable device after detecting that geographical location locating for wearable device changes Frequency unit 101 sends the message informing of geographical location variation, and radio frequency unit 101, can should after receiving the message informing The processor 110 that message informing is sent to wearable device is handled, and it is logical that the processor 110 of wearable device can control the message Know on the display panel 1061 for being shown in wearable device；In general, radio frequency unit 101 include but is not limited to antenna, at least one Amplifier, transceiver, coupler, low-noise amplifier, duplexer etc..In addition, radio frequency unit 101 can also pass through channel radio Letter communicated with network and other equipment, specifically may include: by wireless communication with the server communication in network system, example Such as, wearable device can download file resource from server by wireless communication, for example can download and answer from server With program, after wearable device completes the downloading of a certain application program, if the corresponding file of the application program in server Resource updates, then the server can be by wireless communication to the message informing of wearable device push resource updates, to remind User is updated the application program.Any communication standard or agreement can be used in above-mentioned wireless communication, including but not limited to GSM (Global System of Mobile communication, global system for mobile communications), GPRS (General Packet Radio Service, general packet radio service), CDMA2000 (Code Division Multiple Access 2000, CDMA 2000), (Wideband Code Division Multiple Access, wideband code division are more by WCDMA Location), TD-SCDMA (Time Division-Synchronous Code Division Multiple Access, time division synchronous CDMA), (Frequency Division Duplexing-Long Term Evolution, frequency division duplex are long by FDD-LTE Phase evolution) and TDD-LTE (Time Division Duplexing-Long Term Evolution, time division duplex are drilled for a long time Into) etc..

In one embodiment, wearable device 100 can access existing communication network by insertion SIM card.

In another embodiment, wearable device 100 can be come real by the way that esim card (Embedded-SIM) is arranged Existing communication network is now accessed, by the way of esim card, the inner space of wearable device can be saved, reduce thickness.

It is understood that although Fig. 1 shows radio frequency unit 101, but it is understood that, radio frequency unit 101 its And it is not belonging to must be configured into for wearable device, it can according to need within the scope of not changing the essence of the invention and save completely Slightly.Wearable device 100 can realize the communication connection with other equipment or communication network separately through wifi module 102, The embodiment of the present invention is not limited thereto.

WiFi belongs to short range wireless transmission technology, and wearable device can help user to receive and dispatch by WiFi module 102 Email, browsing webpage and access streaming video etc., it provides wireless broadband internet access for user.Although Fig. 1 WiFi module 102 is shown, but it is understood that, and it is not belonging to must be configured into for wearable device, it completely can root It is omitted within the scope of not changing the essence of the invention according to needs.

Audio output unit 103 can be in call signal reception pattern, call mode, record in wearable device 100 When under the isotypes such as mode, speech recognition mode, broadcast reception mode, by radio frequency unit 101 or WiFi module 102 it is received or The audio data that person stores in memory 109 is converted into audio signal and exports to be sound.Moreover, audio output unit 103 can also provide audio output relevant to the specific function that wearable device 100 executes (for example, call signal reception sound Sound, message sink sound etc.).Audio output unit 103 may include loudspeaker, buzzer etc..

A/V input unit 104 is for receiving audio or video signal.A/V input unit 104 may include graphics processor (Graphics Processing Unit, GPU) 1041 and microphone 1042, graphics processor 1041 is in video acquisition mode Or the image data of the static images or video obtained in image capture mode by image capture apparatus (such as camera) carries out Reason.Treated, and picture frame may be displayed on display unit 106.Through graphics processor 1041, treated that picture frame can be deposited Storage is sent in memory 109 (or other storage mediums) or via radio frequency unit 101 or WiFi module 102.Mike Wind 1042 can connect in telephone calling model, logging mode, speech recognition mode etc. operational mode via microphone 1042 Quiet down sound (audio data), and can be audio data by such acoustic processing.Audio that treated (voice) data can To be converted to the format output that can be sent to mobile communication base station via radio frequency unit 101 in the case where telephone calling model. Microphone 1042 can be implemented various types of noises elimination (or inhibition) algorithms and send and receive sound to eliminate (or inhibition) The noise generated during frequency signal or interference.

In one embodiment, wearable device 100 includes one or more cameras, by opening camera, It can be realized the capture to image, realize the functions such as take pictures, record a video, the position of camera, which can according to need, to be configured.

Wearable device 100 further includes at least one sensor 105, for example, optical sensor, motion sensor and other Sensor.Specifically, optical sensor includes ambient light sensor and proximity sensor, wherein ambient light sensor can be according to ring The light and shade of border light adjusts the brightness of display panel 1061, proximity sensor can when wearable device 100 is moved in one's ear, Close display panel 1061 and/or backlight.As a kind of motion sensor, accelerometer sensor can detect in all directions The size of (generally three axis) acceleration, can detect that size and the direction of gravity, can be used to identify mobile phone posture when static It (for example pedometer, is struck using (such as horizontal/vertical screen switching, dependent game, magnetometer pose calibrating), Vibration identification correlation function Hit) etc..

In one embodiment, wearable device 100 further includes proximity sensor, can by using proximity sensor Wearable device can be realized non-contact manipulation, provide more modes of operation.

In one embodiment, wearable device 100 further includes heart rate sensor, when wearing, by close to using Person can be realized the detecting of heart rate.

In one embodiment, wearable device 100 can also include that fingerprint sensor can by reading fingerprint Realize the functions such as safety verification.

Display unit 106 is for showing information input by user or being supplied to the information of user.Display unit 106 can wrap Display panel 1061 is included, liquid crystal display (Liquid Crystal Display, LCD), Organic Light Emitting Diode can be used Forms such as (Organic Light-Emitting Diode, OLED) configure display panel 1061.

In one embodiment, display panel 1061 uses flexible display screen, and wearable using flexible display screen sets For when wearing, screen is able to carry out bending, to more be bonded.Optionally, the flexible display screen can use OLED screen Body and graphene screen body, in other embodiments, the flexible display screen is also possible to other display materials, the present embodiment It is not limited thereto.

In one embodiment, the display panel 1061 of wearable device can take rectangle, ring when convenient for wearing Around.In other embodiments, other modes can also be taken.

User input unit 107 can be used for receiving the number or character information of input, and generate and wearable device User setting and the related key signals input of function control.Specifically, user input unit 107 may include touch panel 1071 And other input equipments 1072.Touch panel 1071, also referred to as touch screen collect the touch behaviour of user on it or nearby Make (for example user uses any suitable objects or attachment such as finger, stylus on touch panel 1071 or in touch panel Operation near 1071), and corresponding attachment device is driven according to preset formula.Touch panel 1071 may include touching Two parts of detection device and touch controller.Wherein, the touch orientation of touch detecting apparatus detection user, and detect touch behaviour Make bring signal, transmits a signal to touch controller；Touch controller receives touch information from touch detecting apparatus, and It is converted into contact coordinate, then gives processor 110, and order that processor 110 is sent can be received and executed.This Outside, touch panel 1071 can be realized using multiple types such as resistance-type, condenser type, infrared ray and surface acoustic waves.In addition to touching Panel 1071 is controlled, user input unit 107 can also include other input equipments 1072.Specifically, other input equipments 1072 It can include but is not limited to physical keyboard, function key (such as volume control button, switch key etc.), trace ball, mouse, operation One of bar etc. is a variety of, specifically herein without limitation.

In one embodiment, one or more buttons have can be set in the side of wearable device 100.Button can be with The various ways such as short-press, long-pressing, rotation are realized, to realize a variety of operating effects.The quantity of button can be different to be multiple It can be applied in combination between button, realize a variety of operating functions.

Further, touch panel 1071 can cover display panel 1061, when touch panel 1071 detect on it or After neighbouring touch operation, processor 110 is sent to determine the type of touch event, is followed by subsequent processing device 110 according to touch thing The type of part provides corresponding visual output on display panel 1061.Although in Fig. 1, touch panel 1071 and display panel 1061 be the function that outputs and inputs of realizing wearable device as two independent components, but in certain embodiments, Touch panel 1071 and display panel 1061 can be integrated and be realized the function that outputs and inputs of wearable device, specifically herein Without limitation.For example, processor 110 can be controlled when receiving the message informing of a certain application program by radio frequency unit 101 The message informing show in a certain predeterminable area of display panel 1061 by system, the predeterminable area and touch panel 1071 certain One region is corresponding, can be to corresponding to area on display panel 1061 by carrying out touch control operation to a certain region of touch panel 1071 The message informing shown in domain is controlled.

Interface unit 108 be used as at least one external device (ED) connect with wearable device 100 can by interface.Example Such as, external device (ED) may include wired or wireless headphone port, external power supply (or battery charger) port, You Xianhuo Wireless data communications port, memory card port, the port for connecting the device with identification module, audio input/output (I/O) end Mouth, video i/o port, ear port etc..Interface unit 108 can be used for receiving the input from external device (ED) (for example, number It is believed that breath, electric power etc.) and the input received is transferred to one or more elements in wearable device 100 or can For transmitting data between wearable device 100 and external device (ED).

In one embodiment, wearable device 100 interface unit 108 using contact structure, by contact with Corresponding other equipment connection, realizes the functions such as charging, connection.Use contact can be with waterproof.

Memory 109 can be used for storing software program and various data.Memory 109 can mainly include storing program area The storage data area and, wherein storing program area can (such as the sound of application program needed for storage program area, at least one function Sound playing function, image player function etc.) etc.；Storage data area can store according to mobile phone use created data (such as Audio data, phone directory etc.) etc..In addition, memory 109 may include high-speed random access memory, it can also include non-easy The property lost memory, a for example, at least disk memory, flush memory device or other volatile solid-state parts.

Processor 110 is the control centre of wearable device, utilizes various interfaces and the entire wearable device of connection Various pieces, by running or execute the software program and/or module that are stored in memory 109, and call and be stored in Data in memory 109 execute the various functions and processing data of wearable device, to carry out to wearable device whole Monitoring.Processor 110 may include one or more processing units；Preferably, processor 110 can integrate application processor and modulation Demodulation processor, wherein the main processing operation system of application processor, user interface and application program etc., modulation /demodulation processing Device mainly handles wireless communication.It is understood that above-mentioned modem processor can not also be integrated into processor 110.

In the present invention, processor 110 executes the computer program being stored in memory 109, to execute operations described below:

When the photon source energy panel receives photon, the position of current photon source Yu the photon source energy panel is determined Relationship；

Based on the positional relationship, each unit block undulatory motion in the photon source energy panel is controlled, and detect wearable Whether the real time electrical quantity of device battery is greater than or equal to the described first default power threshold；

If the real time electrical quantity is greater than or equal to the described first default power threshold, it is extensive to control the photon source energy panel It is multiple extremely smooth.

Further, processor 110 executes the computer program being stored in memory 109, also executes following operation:

When the photon source energy panel receives photon, the incident direction of the photon source release photon is obtained；

Obtain the incident direction and photon source energy panel each unit block incident side plane enters angular.

Further, processor 110 executes the computer program being stored in memory 109, also executes following operation:

When the photon source energy panel receives photon, the photosensitive arc that photon is received in photon source energy panel is obtained Face；

Using the photosensitive cambered surface midpoint normal direction as the incident direction of photon source release photon.

Further, processor 110 executes the computer program being stored in memory 109, also executes following operation:

Length and end positions information based on the photosensitive cambered surface, determine the midpoint position of the incident side；

Based on the midpoint position, the normal direction of the midpoint position is determined；

Using the normal direction as the incident direction of photon source release photon.

Further, processor 110 executes the computer program being stored in memory 109, also executes following operation:

Enter angular according to each cell block, be dynamically determined the evagination distance of each cell block, wherein it is described enter Angular is bigger, and the corresponding evagination is apart from smaller；

According to the evagination distance, each unit block undulatory motion in the photon source energy panel is controlled.

Further, processor 110 executes the computer program being stored in memory 109, also executes following operation:

When the photon source energy panel receives photon, the strong of photon received by photon source energy panel is incuded in real time It spends and generates corresponding light intensity signal；

According to the light intensity signal and judge whether the light intensity signal received reaches default intensity threshold；

When the light intensity signal received reaches the default intensity threshold, it is determined that current photon source with it is described The positional relationship of photon source energy panel.

Further, processor 110 executes the computer program being stored in memory 109, also executes following operation:

The remaining capacity value of the battery of the wearable device is obtained in real time；

The remaining capacity value of the battery of the wearable device and the second default power threshold are compared；

If the remaining capacity value of the battery of the wearable device is less than the second default power threshold, described in judgement Wearable device needs to charge.

Further, processor 110 executes the computer program being stored in memory 109, also executes following operation:

Output is greater than or equal to the prompt information of the described first default power threshold comprising the real time electrical quantity, terminates to fill Electricity.

Wearable device 100 can also include the power supply 111 (such as battery) powered to all parts, it is preferred that power supply 111 can be logically contiguous by power-supply management system and processor 110, thus charged by power-supply management system realization management, The functions such as electric discharge and power managed.

Although Fig. 1 is not shown, wearable device 100 can also be including bluetooth module etc., and details are not described herein.It is wearable to set Standby 100, by bluetooth, can connect with other terminal devices, realize communication and the interaction of information.

Fig. 2-Fig. 4 is please referred to, is the structure under a kind of a kind of embodiment of wearable device provided in an embodiment of the present invention Schematic diagram.Wearable device in the embodiment of the present invention, including flexible screen.In wearable device expansion, flexible screen is in Strip；When wearable device is in wearing state, flexible screen bending is annular in shape.Fig. 2 and Fig. 3 show wearable device Structural schematic diagram when screen is unfolded, Fig. 4 show structural schematic diagram when wearable device screen-bending.

Based on above-mentioned each embodiment, it can be seen that if the equipment is wrist-watch, bracelet or wearable device When, the screen of the equipment can not overlay device watchband region, can also be with the watchband region of overlay device.Here, this hair Bright to propose a kind of optional embodiment, in the present embodiment, the equipment for wrist-watch, bracelet or wearable can be set Standby, the equipment includes screen and interconnecting piece.The screen can be flexible screen, and the interconnecting piece can be watchband.It can Choosing, the screen of the equipment or the viewing area of screen can be partly or completely covered on the watchband of equipment.Such as Fig. 5 Shown, Fig. 5 is a kind of a kind of hardware schematic of embodiment of wearable device provided by the embodiments of the present application, the equipment Screen extends to two sides, and part is covered on the watchband of equipment.In other embodiments, the screen of the equipment can also be with All it is covered on the watchband of the equipment.

The present invention further provides a kind of charging methods of wearable device.

It is the method schematic diagram of the charging method first embodiment of wearable device of the present invention referring to Fig. 6, Fig. 6.

In the present embodiment, the charging method of the wearable device includes:

Step S10 determines current photon source and photon source energy face when the photon source energy panel receives photon The positional relationship of plate；

In the present embodiment, wearable device includes main body interconnected and connector, is arranged on connector useful In the photon source energy panel for absorbing solar energy, the battery circuit of photon source energy panel and wearable device is connected, photon source energy face Plate is for receiving solar energy and the solar energy received being converted to electric energy.The photon source energy panel is made of each unit block, single First block journey array distribution constitutes photon source energy panel, the wearable device further include for detect the light sensing of incident direction answer device, Luminous intensity inductor, for going up and down photon source panel each unit fast driving device, processor and charge controller.Charge control The electric energy that device is used to generate photon source energy panel charges to cell apparatus.The light sensing of detection incident direction answers device (i.e. incident Direction inductor device) it is used to the incident direction of photon received by induction photon source energy panel in real time and generates enter optic angle accordingly Spend signal.Luminous intensity inductor is for incuding the intensity of photon received by photon source energy panel in real time and generating corresponding light Strength signal.Driving device is for driving photon source energy panel each unit block opposite joints dipping and heaving to adjust photon source energy Panel receives the incident side area of each unit block in the angle and photon source energy panel of photon.Processor is for controlling driving device To adjust the incident side area that each unit block in photon source energy panel receives photon, and for comparing wearable device battery Whether real time electrical quantity is greater than or equal to the first default power threshold, and when the real time electrical quantity for receiving wearable device battery is greater than Or when being equal to the first default power threshold, control signal is generated to control driving device and stop working to enable photon source panel Restore to smooth.

Further, in the present embodiment, the connector appearance of wearable device is provided with transparent wrapper shell, photon source Energy panel is set in transparent wrapper shell, can both have been allowed photon source energy panel to be properly received photon, can also have been played protection photon The effect of source energy panel.

Specifically, in one embodiment, when photon source energy panel receives photon, current photon source and light are determined The positional relationship of component energy panel, wherein the positional relationship includes that the incident side of photon source photon is received in photon source energy panel Zone position information, incident side size and photon source energy panel with respect to photon source towards location information.

Optionally, step S10 includes:

Step S101 obtains the incidence of the photon source release photon when the photon source energy panel receives photon Direction；

Step S102, obtain the incident direction and photon source energy panel each unit block incident side plane enters angular.

Specifically, in one embodiment, when photon source energy panel receives photon, starting incident direction induction Device detects the incident direction of photon source release photon, is based on the incident direction and photon source energy panel each unit block incident side Place plane extending direction calculates and enters optic angle formed by incident direction and photon source energy panel each unit block incident side plane Degree, wherein incident direction determines that incident angle is the angle of the angle of incident ray and incidence surface normal by incident angle Degree.

Further, in one embodiment, it obtains incident direction and photon source energy panel each unit block incident side is flat Face enters angular, specifically, when photon source energy panel receives photon, starts luminous intensity inductor, incudes photon in real time The intensity of photon received by the energy panel of source simultaneously generates corresponding light intensity signal, wherein if photon is not vertical irradiation, Then shade can be generated in each unit block incident side plane of photon source energy panel, the part light on shadow occlusion luminous intensity inductor Quick resistance, the then luminous intensity that the photo resistance detects are less than other photo resistance not being blocked by shadow, luminous intensity induction The monolithic mainboard of device receives the light intensity signal that each photo resistance is transmitted, and judges the size of each light intensity signal, thus That knows current each unit block incident side plane enters angular.

Step S20 is based on the positional relationship, controls each unit block undulatory motion in the photon source energy panel, and examine Whether the real time electrical quantity for surveying wearable device battery is greater than or equal to the described first default power threshold, if so, thening follow the steps S30；

Step S30 controls the photon source energy panel and restores to smooth.

Specifically, in one embodiment, if current photon source is closed with the positional relationship of photon source energy panel to be vertical System then controls each unit block in photon source energy panel and keeps original state, if the position of current photon source and photon source energy panel Relationship be non-perpendicular relationship, then control each unit block rippling in photon source energy panel so that each unit block evagination at Cuboid column, to make the columnar part of the cuboid of each unit block evagination receive photon, to enable photon source panel Total photoelectric conversion amount increase within the unit time, and then reduce the charging time of wearable device.

Further, in one embodiment, if the positional relationship of current photon source and photon source energy panel is non-hangs down Straight relationship then judges the big of current photon source incident angle corresponding for non-perpendicular relationship with the positional relationship of photon source energy panel It is small, then control in photon source energy panel incident side region with wave and carry out rippling so that each unit block evagination at Cuboid column, to make the columnar part of the cuboid of each unit block evagination receive photon, to increase photon source energy panel The middle area for receiving photon, and then increase total photoelectric conversion amount of the photon source energy panel within the unit time.

Further, in one embodiment, photon is irradiated to the electrically conducting transparent by the preceding electrode of wearable device On layer, when the transparency conducting layer is by illumination, which forms voltage between the preceding electrode and back electrode, from And whether the real time electrical quantity realized photoelectric conversion, and detect wearable device battery is greater than or equal to the first default power threshold, Wherein, the first default power threshold is the power threshold node for detecting wearable device battery and whether being full of, the first default electricity Threshold value needs to be preset in wearable device in advance.

Specifically, in one embodiment, whether the real time electrical quantity of real-time detection wearable device battery is greater than or waits It is extensive to control photon source energy panel if real time electrical quantity is greater than or equal to the first default power threshold in the first default power threshold It is multiple extremely smooth.

For example, the first default power threshold is 98%, if then real time electrical quantity is 99%, it is determined that the real time electrical quantity is greater than the One default power threshold 98%, then the evagination distance for controlling each unit block of evagination in photon source energy panel is 0, that is, is restored to flat It is whole, wherein evagination distance is the protrusion distance based on the smooth datum level for controlling photon source energy panel.

The present embodiment controls photon source by the positional relationship of the current photon source and the photon source energy panel that receive Each unit block undulatory motion in energy panel, and it is greater than or equal to the first default electricity in the real time electrical quantity of detection wearable device battery It when measuring threshold value, controls the photon source energy panel and restores to smooth, therefore, pass through current photon source and the photon source energy panel Position, the corresponding undulatory motion of control each unit block, to make each unit block evagination at cuboid column, to make each unit block The columnar part of the cuboid of evagination receives photon, and the area of photon is received with each unit block of photon source energy panel, into And increase total photoelectric conversion amount of the photon source energy panel within the unit time, reduce the charging time of wearable device.

Further, it is based on first embodiment, proposes the second embodiment of the charging method of wearable device of the present invention, it should In embodiment, the step S101 includes:

Step S1011 is obtained in photon source energy panel when the photon source energy panel receives photon and is received photon Photosensitive cambered surface；

Step S1012, using the photosensitive cambered surface midpoint normal direction as the incidence side of photon source release photon To.

Specifically, in one embodiment, it when photon source energy panel receives photon, obtains in photon source energy panel The location information for receiving the photosensitive cambered surface of photon, based on the location information of the photosensitive cambered surface, by the photosensitive cambered surface midpoint method Incident direction of the line direction as photon source release photon, wherein received in photon source energy panel it should be noted that obtaining The location information of the photosensitive cambered surface of photon, the location information of the photosensitive cambered surface become according to the position of wearable device and photon source Change and real-time change, it should be noted that photosensitive cambered surface be wearable device each unit block in receive that side of photon Cambered surface part.

Optionally, the step S1012 includes:

Step a, length and end positions information based on the photosensitive cambered surface, determines the midpoint position of the incident side It sets；

Step b is based on the midpoint position, determines the normal direction of the midpoint position；

Step c, using the normal direction as the incident direction of photon source release photon.

Specifically, for example, as shown in fig. 7, Fig. 7 is to determine photosensitive cambered surface in the charging method of wearable device of the present invention Schematic diagram of a scenario, wherein E point and F point are the end positions of photosensitive cambered surface, and the EF section length for the photosensitive cambered surface is with OE, OF Cambered surface radius, finds the midpoint G point of the photosensitive cambered surface, and obtains OG line, using OG line as the normal of the photosensitive cambered surface, then with Incident direction of the direction GO as the photosensitive cambered surface.With the transformation of photon source or wearable device position, photosensitive cambered surface with It converts, as shown in figure 8, Fig. 8 is the scene signal of photosensitive cambered surface variation in the charging method of wearable device of the present invention Figure, E ' point and F ' point be Fig. 7 in E point and F point variation after photosensitive cambered surface end positions, E ' F ' section be EF section variation after be somebody's turn to do The length of photosensitive cambered surface finds the midpoint G ' point of the photosensitive cambered surface, and obtain with O ' E ', O ' F ' for variation for cambered surface radius To O ' G ' line, using O ' G ' line as the normal of the photosensitive cambered surface, then using the direction G ' O ' as the incident direction of the photosensitive cambered surface.

In the present embodiment, length and end positions information based on photosensitive cambered surface determine the midpoint position of incident side, base In midpoint position, the normal direction of midpoint position is determined, using normal direction as the incidence of photon source release photon Direction.

Specifically, in one embodiment, as shown in figure 9, Fig. 9 is entering for the charging method of wearable device of the present invention Penetrate the schematic diagram in direction.For example, when photon source energy panel receives photon, the reception signal based on photon determines photosensitive arc The length and end positions information B point and C point in face, length and end positions information based on photosensitive cambered surface determine incident side Midpoint position D point determines the normal direction θ of D point position based on the D point, using normal direction θ as photon source release photon Incident direction, then the angular that enters of the corresponding photon source energy panel unit block of the θ is β.

In the present embodiment, by the length and end positions information of photosensitive cambered surface, the midpoint position of incident side is determined, from And corresponding incident direction is obtained by determining the normal direction of midpoint position, it is subsequent determining incident direction and photon source energy The angular that enters of panel each unit block incident side plane provides technical support.

Further, it is based on second embodiment, proposes the 3rd embodiment of the charging method of wearable device of the present invention, it should In embodiment, the step S20 includes:

Step S201 enters angular according to each cell block, is dynamically determined the evagination distance of each cell block, Described in enter angular bigger, the corresponding evagination is apart from smaller；

Step S202 controls each unit block undulatory motion in the photon source energy panel according to the evagination distance.

Specifically, in one embodiment, according to the angular that enters of each unit block, judging unit block enters angular pair That answers presets into angular region, is preset based on this into angular region, obtains this and presets into the corresponding evagination in angular region Distance, due to the transformation with time and earth rotation, each unit block enters angular with real-time change, therefore, based on pre- If entering angular to implement to be dynamically determined the evagination distance of each unit block, wherein it is bigger to enter angular, corresponding evagination apart from smaller, According to evagination distance, each unit block undulatory motion in photon source energy panel is controlled, it should be noted that preset into angular region It needs to be preset in wearable device in advance.

It should be noted that entering, angular is bigger, and corresponding evagination is apart from smaller, wherein evagination distance is based on smooth control The protrusion distance of the datum level of photon source energy panel processed, if entering, angular is bigger, the position of photon source and photon source energy panel Closer to vertical, then photon source the light-receiving surface of photon source energy panel size closer to each unit block long cylinder top surface, That is the top surface burnishing surface side that is located at photon source energy panel.

Further, in one embodiment, it is detecting when entering angular and becoming larger of cell block, is detecting what this became larger Enter that angular is corresponding to be preset into whether angular region changes, for example, the angular region that enters of cell block includes first pre- If entering angular region, second presetting and preset into angular region, third into angular region, wherein first presets into optic angle Degree region include into 1 degree -29 of angular spend, second preset into angular region include into 30 degree -59 of angular degree, third preset Entering angular region includes spending into 31 degree -89 of angular.If the angular that enters of cell block becomes 30 degree from 29 degree, corresponding pre- Become second if entering angular region and being preset from first into angular region and preset into angular region, based on this second preset into Angular region determines corresponding evagination distance.

In the present embodiment, angular is entered by cell block, the evagination distance of each unit block is dynamically determined, thus according to each The evagination distance of cell block realizes each unit block undulatory motion in control photon source energy panel, and then to make outside each unit block It is convex at cuboid column, so that the columnar part of the cuboid of each unit block evagination be made to receive photon, therefore, increase photon The each unit block of source energy panel receives the area of photon, and then the total photoelectricity for increasing the photon source energy panel within the unit time turns Change amount reduces the charging time of wearable device.

Further, it is based on 3rd embodiment, proposes the fourth embodiment of the charging method of wearable device of the present invention, it should In embodiment, the step S10 includes:

Step S103 incudes received by photon source energy panel in real time when the photon source energy panel receives photon Photon intensity and generate corresponding light intensity signal；

Step S104 according to the light intensity signal and judges whether the light intensity signal received reaches default light Intensity threshold；

Step S105, when the light intensity signal received reaches the default intensity threshold, it is determined that current light The positional relationship of component and the photon source energy panel.

Further, in one embodiment, when photon source energy panel receives photon, starting luminous intensity induction Device incudes the intensity of photon received by photon source energy panel and generates corresponding light intensity signal, wherein in real time if photon When not being vertical irradiation, then shade can be generated in photon source energy panel, the photosensitive electricity in part on shadow occlusion luminous intensity inductor Resistance, the then luminous intensity that the photo resistance detects are less than other photo resistance not being blocked by shadow, luminous intensity inductor Monolithic mainboard receives the light intensity signal that each photo resistance is transmitted, and judges the size of each light intensity signal, works as to learn The direction of preceding photon source irradiation.

Further, in one embodiment, when photon source energy panel receives photon, starting luminous intensity induction Device incudes the intensity of photon received by photon source energy panel in real time and generates corresponding light intensity signal, is based on the light intensity Signal detection is spent, whether which reaches default intensity threshold, if the light intensity signal reaches default luminous intensity threshold Value, it is determined that the positional relationship of current photon source and the photon source energy panel, and determine that the intensity of current photon source reaches control The condition of each unit block undulatory motion in photon source energy panel processed, if the not up to default intensity threshold of the light intensity signal, It determines that the intensity of current photon source is not up to the condition for controlling each unit block undulatory motion in photon source energy panel, needs to illustrate It is to preset intensity threshold, need to be preset in wearable device in advance.

In the present embodiment, by incuding the intensity of photon received by photon source energy panel in real time, the luminous intensity is judged Whether signal reaches default intensity threshold, if reaching, it is determined that closes the position of current photon source and the photon source energy panel System, and then whether reach default intensity threshold by judge the light intensity signal, whether realization is to controlling photon source energy panel The judgement of middle each unit block undulatory motion improves the validity of wearable device charging, saves equipment power dissipation.

Further, it is based on fourth embodiment, proposes the 5th embodiment of the charging method of wearable device of the present invention, it should In embodiment, before the step S10, further includes:

Step S40 obtains the remaining capacity value of the battery of the wearable device in real time；

Step S50 compares the remaining capacity value of the battery of the wearable device and the second default power threshold；

Step S60, if the remaining capacity value of the battery of the wearable device is less than the second default power threshold, Judge that the wearable device needs to charge.

Specifically, in one embodiment, the remaining capacity value for obtaining the battery of wearable device in real time, will be wearable The remaining capacity value of the battery of equipment is compared with the second default power threshold, if the remaining capacity value of the battery of wearable device When less than the second default power threshold (such as 10% or 5%), judge that wearable device needs to charge, wherein the second default electricity Threshold value needs to be preset in wearable device in advance, and the occurrence of the second default power threshold is not implemented by this in the present invention The limitation of example.

Further, in one embodiment, when determining that wearable device needs to charge, output wearable device is needed The prompting message to be charged, prompting user's progress photon energy charges or power source charges, wherein the prompting for needing to charge Information can be voice reminder information or text prompting message, and text prompting message is carried out by the display screen of wearable device Text importing, the voice reminder information and text remind letter to need to be preset in wearable device, to improve user's use Sense.

Optionally, if the real time electrical quantity is greater than or equal to the described first default power threshold, the light is controlled Component energy panel restores to smooth step, further includes:

Output is greater than or equal to the prompt information of the described first default power threshold comprising the real time electrical quantity, terminates to fill Electricity.

In the present embodiment, if real time electrical quantity is greater than or equal to the first default power threshold, it is extensive to control photon source energy panel It is multiple extremely smooth, and the prompt information for being greater than or equal to the first default power threshold comprising real time electrical quantity is exported, terminate to charge.

In particular it is required that explanation, output is greater than or equal to the prompt of the first default power threshold comprising real time electrical quantity Information includes voice reminder information and/or text prompting message, text prompting message by the display screen of wearable device into Row text importing, the voice reminder information and text remind letter to need to be preset in wearable device, are made with improving user With sense.

In the present embodiment, pass through the remaining capacity value and the second default power threshold of the battery of real-time detection wearable device Comparison, to judge whether wearable device needs to charge, to provide technology for the charging of subsequent progress photon source energy panel Foundation improves the experience sense of user.

In addition, the embodiment of the present invention also proposes a kind of computer readable storage medium.

Computer program is stored on the computer readable storage medium, when the computer program is executed by processor The step of realizing the charging method such as the wearable device in any of the above-described embodiment.

Computer readable storage medium specific embodiment of the present invention and the charging method of above-mentioned wearable device are respectively implemented Example is essentially identical, and details are not described herein.

It should be noted that, in this document, the terms "include", "comprise" or its any other variant are intended to non-row His property includes, so that the process, method, article or the system that include a series of elements not only include those elements, and And further include the other elements being not explicitly listed, or further include for this process, method, article or system institute it is intrinsic Element.In the absence of more restrictions, the element limited by sentence "including a ...", it is not excluded that including being somebody's turn to do There is also other identical elements in the process, method of element, article or system.

The serial number of the above embodiments of the invention is only for description, does not represent the advantages or disadvantages of the embodiments.

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 means of software and necessary general hardware platform, naturally it is also possible to by hardware, but in many cases The former is more preferably embodiment.Based on this understanding, technical solution of the present invention substantially in other words does the prior art The part contributed out can be embodied in the form of software products, which is stored in a storage medium In (such as ROM/RAM, magnetic disk, CD), method described in each embodiment of the present invention is executed.

The above is only a preferred embodiment of the present invention, is not intended to limit the scope of the invention, all to utilize this hair Equivalent structure or equivalent flow shift made by bright specification and accompanying drawing content is applied directly or indirectly in other relevant skills Art field, is included within the scope of the present invention.

Claims (10)

1. a kind of charging method of wearable device, which is characterized in that the wearable device include main body interconnected and Connector, is provided with the photon source energy panel for absorbing solar energy on the connector, the photon source energy panel with can wear The battery circuit connection of equipment is worn,

The charging method of the wearable device the following steps are included:

When the photon source energy panel receives photon, determine that the position of current photon source and the photon source energy panel is closed System；

Based on the positional relationship, each unit block undulatory motion in the photon source energy panel is controlled, and detect wearable device Whether the real time electrical quantity of battery is greater than or equal to the described first default power threshold；

If the real time electrical quantity be greater than or equal to the described first default power threshold, control the photon source energy panel restore to It is smooth.

2. the charging method of wearable device as described in claim 1, which is characterized in that described to work as the photon source energy panel When receiving photon, the step of determining the positional relationship of current photon source and the photon source energy panel, includes:

When the photon source energy panel receives photon, the incident direction of the photon source release photon is obtained；

Obtain the incident direction and photon source energy panel each unit block incident side plane enters angular.

3. the charging method of wearable device as claimed in claim 2, which is characterized in that described to work as the photon source energy panel When receiving photon, obtaining the step of photon source discharges the incident direction of photon includes:

When the photon source energy panel receives photon, the photosensitive cambered surface that photon is received in photon source energy panel is obtained；

Using the photosensitive cambered surface midpoint normal direction as the incident direction of photon source release photon.

4. the charging method of wearable device as claimed in claim 3, which is characterized in that described by the photosensitive cambered surface midpoint Locating the step of normal direction discharges the incident direction of photon as the photon source includes:

Length and end positions information based on the photosensitive cambered surface, determine the midpoint position of the incident side；

Based on the midpoint position, the normal direction of the midpoint position is determined；

Using the normal direction as the incident direction of photon source release photon.

5. the charging method of wearable device as claimed in claim 3, which is characterized in that it is described to be based on the positional relationship, The step of controlling each unit block undulatory motion in the photon source energy panel include:

Enter angular according to each cell block, be dynamically determined the evagination distance of each cell block, wherein it is described enter optic angle Degree is bigger, and the corresponding evagination is apart from smaller；

According to the evagination distance, each unit block undulatory motion in the photon source energy panel is controlled.

6. the charging method of wearable device as described in claim 1, which is characterized in that described to work as the photon source energy panel When receiving photon, the step of determining the positional relationship of current photon source and the photon source energy panel, includes:

When the photon source energy panel receives photon, the intensity of photon received by photon source energy panel is incuded simultaneously in real time Generate corresponding light intensity signal；

According to the light intensity signal and judge whether the light intensity signal received reaches default intensity threshold；

When the light intensity signal received reaches the default intensity threshold, it is determined that current photon source and the photon The positional relationship of source energy panel.

7. the charging method of wearable device as described in claim 1, which is characterized in that described to work as the photon source energy panel When receiving photon, before the step of determining the positional relationship of current photon source and the photon source energy panel, further includes:

The remaining capacity value of the battery of the wearable device is obtained in real time；

The remaining capacity value of the battery of the wearable device and the second default power threshold are compared；

If the remaining capacity value of the battery of the wearable device is less than the second default power threshold, it can be worn described in judgement Equipment is worn to need to charge.

8. the charging method of the wearable device as described in any in claim 1-7, which is characterized in that if described real-time Electricity be greater than or equal to the described first default power threshold, then control the photon source energy panel restore to smooth step it Afterwards, further includes:

Output is greater than or equal to the prompt information of the described first default power threshold comprising the real time electrical quantity, terminates charging.

9. a kind of wearable device, which is characterized in that the wearable device includes:

Memory, processor and it is stored in the computer program that can be run on the memory and on the processor；

It realizes when the computer program is executed by the processor and wearable is set as described in any item of the claim 1 to 8 The step of standby charging method.

10. a kind of computer readable storage medium, which is characterized in that be stored with computer on the computer readable storage medium Program is realized when the computer program is executed by processor such as wearable device described in any item of the claim 1 to 8 The step of charging method.