CN110535207A - Battery cruising ability improving method and device and intelligent wearable equipment - Google Patents
Battery cruising ability improving method and device and intelligent wearable equipment Download PDFInfo
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- CN110535207A CN110535207A CN201910854116.4A CN201910854116A CN110535207A CN 110535207 A CN110535207 A CN 110535207A CN 201910854116 A CN201910854116 A CN 201910854116A CN 110535207 A CN110535207 A CN 110535207A
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Classifications
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02J—CIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
- H02J7/00—Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries
- H02J7/34—Parallel operation in networks using both storage and other dc sources, e.g. providing buffering
- H02J7/35—Parallel operation in networks using both storage and other dc sources, e.g. providing buffering with light sensitive cells
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Abstract
The invention provides a method and a device for improving battery endurance and intelligent wearable equipment, wherein the method for improving battery endurance comprises the following steps: acquiring the current residual capacity of the battery; judging whether the current state is in a preset use state or not; if yes, predicting the time that the current residual power can maintain the current use state according to the pre-stored power consumption data; acquiring a first incidence relation between the power consumption speed in the current use state and the charging speed in the optional charging mode; and prompting the user to select a charging mode and the corresponding latest charging time according to the first incidence relation, and continuing the battery. The battery charging system prompts a user to charge in time according to the optional mode according to the use state and the power consumption speed in the state, and effectively prolongs the cruising ability of the battery.
Description
Technical field
The present invention relates to intelligent wearable device technical field, espespecially a kind of battery durable ability method for improving and device, intelligence
It can wearable device.
Background technique
With the fast development of the communication technology, the function of intelligent wearable device is able to gradual perfection.In recent years, large quantities of intelligence
Wearable device floods the market rapidly, and smartwatch, Intelligent bracelet are more representative, especially smartwatch.Currently, intelligence
Wrist-watch is broadly divided into two classes: first is that relying on the connection with smart phone to realize function without the smartwatch of call function
Diversity, including phone, short message, mail, photo, the music etc. in synchronous intelligent mobile phone.Second is that the intelligent hand with call function
Table supports insertion SIM card, is substantially the smart phone of wrist-watch form.
Although the function of intelligent wearable device is more and more abundant, its multi-functional realization relies on a variety of intellectualized modules
Use, power consumption is also increasing, there is a problem that serious cruising ability is insufficient, can only continue a journey 2-3 days mostly, user
Usage experience sense is poor.The rechargeable battery for configuring large capacity in intelligent wearable device is needed just to be able to achieve prolonging for cruise duration
It is long, however, the form of intelligent wearable device itself limits the size of fuselage, the capacity of battery is constrained, causes to never have
Good solution solves the technical issues of intelligent wearable device cruising ability.
Summary of the invention
The object of the present invention is to provide a kind of battery durable ability method for improving and devices, intelligent wearable device, effectively solve
The technical problem of certainly existing intelligent wearable device cruising ability deficiency.
Technical solution provided by the invention is as follows:
A kind of battery durable ability method for improving, comprising:
Obtain the current residual electricity of battery;
Whether judgement is current in default use state;
If so, the time of currently used state can be maintained according to the power consumption data prediction current residual electricity prestored;
Obtain the first incidence relation of charging rate under power consumption rate and optional charging modes under currently used state;
It prompts user to select charging modes and its corresponding charging time at the latest according to first incidence relation, is battery
Continuation of the journey.
In the above-mentioned technical solutions, according to the power consumption rate prompt user under use state and the state in time according to optional
Mode charges, and extends the cruising ability of battery.
Further, the optional charging modes are solar recharging;
In the case where obtaining currently used state under power consumption rate and optional charging modes in the first incidence relation of charging rate
Include:
Obtain solar energy history charge data;
Second incidence relation in charge capacity and charging time is obtained according to the solar energy history charge data;
It is calculated according to second incidence relation and is charged under power consumption rate and solar recharging mode under currently used state
First incidence relation of speed.
In the above-mentioned technical solutions, the efficiency of solar recharging is related with many factors, is in order to guarantee the continuous of battery
Boat ability is calculated under currently used state under power consumption rate and solar recharging mode according to solar energy history charge data
The incidence relation of charging rate is accurately obtained solar energy charging time at the latest, prompts user.
It further, further include the power consumption prestored under each default use state before the current residual electricity for obtaining battery
The step of measuring data, the power consumption data include battery zero power between Full Charge Capacity between electric quantity consumption and state maintenance time
Relationship.
In the above-mentioned technical solutions, the power consumption data being previously obtained under various use states is accurately obtained battery with this
The time that remaining capacity is able to maintain that under corresponding use state.
Further, after the current residual electricity for obtaining battery, further include the steps that obtaining current operating mode;
In the time that can maintain currently used state according to the power consumption data prediction current residual electricity prestored: according to
Current operation mode and the power consumption data prestored prediction current residual electricity can maintain the time of currently used state.
In the above-mentioned technical solutions, it just obtains except current residual electricity and obtains current operating mode simultaneously, here work
Operation mode distinguishes over use state, and operating mode is presented as operating mode, further promotes the accuracy of result.
The present invention also provides a kind of battery durable ability lifting devices, comprising:
Electricity obtains module, for obtaining the current residual electricity of battery;
Judgment module, it is current whether in default use state for judging;
The state maintenance time determining module being connect respectively with electricity acquisition module and judgment module, for according to pre-
The power consumption data prediction current residual electricity deposited can maintain the time of currently used state;
The incidence relation connecting with the state maintenance time determining module obtains module, for obtaining currently used state
First incidence relation of charging rate under lower power consumption rate and optional charging modes;
The cue module that module is connect is obtained with the incidence relation, prompts user selected according to first incidence relation
Charging modes and its corresponding charging time at the latest are battery durable.
In the above-mentioned technical solutions, according to the power consumption rate prompt user under use state and the state in time according to optional
Mode charges, and extends the cruising ability of battery.
Further, the optional charging modes are solar recharging;
The incidence relation obtains in module
Historical data acquiring unit, for obtaining solar energy history charge data;
The incidence relation computing unit being connect with the historical data acquiring unit, for being filled according to the solar energy history
Electric data obtain second incidence relation in charge capacity and charging time;And it is current for being calculated according to second incidence relation
Under use state under power consumption rate and solar recharging mode charging rate the first incidence relation.
In the above-mentioned technical solutions, the efficiency of solar recharging is related with many factors, is in order to guarantee the continuous of battery
Boat ability is calculated under currently used state under power consumption rate and solar recharging mode according to solar energy history charge data
The incidence relation of charging rate is accurately obtained solar energy charging time at the latest, prompts user.
It further, further include being connect with the state maintenance time determining module in the battery durable ability lifting device
Configuration module, for prestoring the power consumption data under each default use state, the power consumption data includes battery zero power
To the relationship between Full Charge Capacity between electric quantity consumption and state maintenance time;And/or
It further include the work being connect with the state maintenance time determining module in the battery durable ability lifting device
Pattern acquiring module, for obtaining current operating mode;
The state maintenance time determining module is current surplus according to current operation mode and the power consumption data prestored prediction
Remaining electricity can maintain the time of currently used state.
In the above-mentioned technical solutions, the power consumption data being previously obtained under various use states is accurately obtained battery with this
The time that remaining capacity is able to maintain that under corresponding use state.Worked as simultaneously in addition, just obtaining except current residual electricity
Preceding operating mode, operating mode distinguishes over use state here, and operating mode is presented as operating mode, further promotes result
Accuracy.
The present invention also provides a kind of intelligent wearable device, including memory, processor and it is stored in the memory
In and the computer program that can run on the processor, the processor realize above-mentioned when running the computer program
The step of one battery durable ability method for improving.
Further, intelligent wearable device further include:
Apparatus body;
Lid, rotation connection and the side of the apparatus body, when use, the lid rotation was covered on the equipment sheet
Body is raised relative to apparatus body rotation;
Display screen connected to the processor, set on the upper surface of the lid, for showing the intelligent wearable device
Object content;
The upper surface of solar panels, Yu Suoshu apparatus body is arranged towards lid side, raises when the lid rotates, institute
Solar panels are stated to receive extraneous light and be converted to electric energy;
The solar charging circuit being connect with the solar panels and the battery being connect with the solar charging circuit, institute
It states solar charging circuit and battery is set to inside the apparatus body, and the solar charging circuit receives solar panels
Electric energy deposit battery in.
In the above-mentioned technical solutions, intelligent wearable device is divided by top half (lid and display screen) by rotating shaft mechanism
With lower half portion (apparatus body), while by solar panels design on the watchcase of lower half portion, innovation by green solar energy
Technology is applied in intelligent wearable device with half hiding, while guaranteeing that intelligent wearable device is overall beautiful, as long as having
It is ensured that the maintenance of intelligent wearable device is charged under the environment of light, the technical problem of battery durable ability deficiency is solved, especially
It in the case that charge condition is inadequate outdoors, realizes the urgent continuation of the journey of intelligent wearable device, charges whenever and wherever possible, guarantee that intelligence is worn
The availability of equipment is worn, user experience is promoted.
The present invention also provides a kind of computer readable storage medium, the computer-readable recording medium storage has calculating
Machine program, which is characterized in that battery durable ability described in any of the above-described is realized when the computer program is executed by processor
The step of method for improving.
Detailed description of the invention
Below by clearly understandable mode, preferred embodiment is described with reference to the drawings, to above-mentioned characteristic, technical characteristic, excellent
Point and its implementation are further described.
Fig. 1 is the flow chart of battery durable ability method for improving first embodiment in the present invention;
Fig. 2 is the flow chart of battery durable ability method for improving second embodiment in the present invention;
Fig. 3 is the flow chart of battery durable ability method for improving 3rd embodiment in the present invention;
Fig. 4 is the flow chart of the 5th embodiment of battery durable ability method for improving in the present invention;
Fig. 5 is the structural schematic diagram of the 7th embodiment of battery durable ability lifting device in the present invention;
Fig. 6 is the structural schematic diagram of the 8th embodiment of battery durable ability lifting device in the present invention;
Fig. 7 is the structural schematic diagram of one embodiment of intelligent wearable device in the present invention;
Fig. 8 is intelligent wearable device original state flowering structure schematic diagram in the present invention;
Fig. 9 is intelligent wearable device solar charging electricity condition flowering structure schematic diagram in the present invention.
Drawing reference numeral explanation:
100- battery durable ability lifting device, 110- electricity obtain module, 120- judgment module, when 130- state maintains
Between determining module, 140- incidence relation obtain module, 150- cue module, 141- historical data acquiring unit, 142- association close
It is computing unit, 230- apparatus body, 231- solar panels, 240- lid, 241- display screen, 250- rotating shaft mechanism.
Specific embodiment
In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, Detailed description of the invention will be compareed below
Specific embodiments of the present invention.It should be evident that drawings in the following description are only some embodiments of the invention, for this
For the those of ordinary skill of field, without creative efforts, it can also be obtained according to these attached drawings others
Attached drawing, and obtain other embodiments.
The first embodiment of the present invention, a kind of battery durable ability method for improving, including
The current residual electricity of S10 acquisition battery;
Whether S20 judgement is current in default use state;
S30 is if so, can maintain the time of currently used state according to the power consumption data prediction current residual electricity prestored;
S40 obtains the first incidence relation of charging rate under power consumption rate and optional charging modes under currently used state;
S50 prompts user to select charging modes and its corresponding charging time at the latest according to the first incidence relation, is battery
Continuation of the journey.
In this example, when obtaining the use state that intelligent wearable device is presently in, according to the power consumption number prestored
It is predicted that current residual electricity can maintain the time of currently used state, while determining that this uses shape according to the charge data prestored
The charge data of optional charging under state;And then obtain under currently used state charging rate under power consumption rate and optional charging modes
The first incidence relation.
Battery durable ability method for improving is applied to intelligent wearable device, such as smartwatch, Intelligent bracelet.It is default to use
State is specially the state that intelligent wearable device uses each application, and e.g., step counting, timing, connection bluetooth, telephone receiving etc. are practical
State in, when can be applied for isolated operation one, or while state when multiple applications is run, here not
It limits, is determined by the concrete application for including in intelligent wearable device.
First incidence relation can behave as difference/ratio etc. of charging rate and power consumption rate, as long as can be according to the difference
Value judges the charging situation under the use state under each charging modes, especially when charging rate relatively consumption under a certain charging modes
When electric speed is slow, when needing to remind user to be charged early in time, and charging under optional charging modes, by current charging
Situation is shown checks for user, avoids battery consumption excessive.The charging time can be according to pre-set power threshold at the latest
It is calculated, e.g., in the case where not charging, by how long battery can be depleted to the power threshold, then according to the time
Obtain the charging time at the latest.In order to maintain the normal operation of intelligent wearable device, can set the power threshold is high, such as sets
It is set to 50%, 60% etc..
It is worth noting that, when detecting power threshold of the current residual electricity lower than setting, then prompt user choosing immediately
A fixed optional charging modes charge, under the currently used state of simultaneous display, including the relationship between power consumption and charging, for
Family is checked, can judge whether to maintain current use state according to charging situation with this user.Such as, it is assumed that currently used state
For telephone receiving, statistics indicate that the charging rate of the relatively current optional charging modes of power consumption rate is many fastly, then user can basis
The situation adjusts the time of call in time, if certain time can also be needed using intelligent wearable device, when can suitably shorten call
Between.
It in other instances, can also be according to the use respectively applied under current state in order to improve the cruising ability of battery
Situation will be closed more than the application that certain time does not operate, to save electricity.
The second embodiment of the present invention is the optimal enforcement example of above-mentioned first embodiment, optional charging side in the embodiment
Formula is solar recharging, as shown in Fig. 2, including: in the battery durable ability method for improving
The current residual electricity of S10 acquisition battery;
Whether S20 judgement is current in default use state;
S30 is if so, can maintain the time of currently used state according to the power consumption data prediction current residual electricity prestored;
S41 obtains solar energy history charge data;
S42 obtains second incidence relation in charge capacity and charging time according to solar energy history charge data;
S43 is according to the speed that charges under power consumption rate under the currently used state of the second incidence relation calculating and solar recharging mode
First incidence relation of degree.
S50 prompts user to select charging modes and its corresponding charging time at the latest according to the first incidence relation, is battery
Continuation of the journey.
In this example, when obtaining the use state that intelligent wearable device is presently in, according to the power consumption number prestored
It is predicted that current residual electricity can maintain the time of currently used state, while being charged according to solar energy history charge data
Second incidence relation of electricity and charging time;And then according to the second incidence relation calculate under currently used state power consumption rate and
First incidence relation of charging rate under solar recharging mode.
Default use state be specially intelligent wearable device use each application state, e.g., step counting, timing, connection bluetooth,
Telephone receiving etc., the state in practical application, when can be applied for isolated operation one, or while running multiple applications
When state determined here without limitation by the concrete application for including in intelligent wearable device.
Solar energy history charge data is embodied in the average value of charge data in a period of time, by solar recharging with
There are close relationships for sunlight, therefore can be carried out according to season to historical data to further increase the accuracy of data
Classification storage can also carry out classification storage to historical data according to month, week etc., and when calling, basis works as the day before yesterday first
Phase judges that affiliated season, month, week etc. obtain corresponding history charge data.In addition it is also possible to by calling current date
(the previous week of such as current date) for the previous period history charge data realize purpose.Certainly, the charging of battery
Situation and the extent of deterioration of battery also have relationship, are the charge datas with the history charge data of hope calling for recent battery,
Cannot interval time it is too long.
First incidence relation can behave as difference/ratio etc. of charging rate and power consumption rate, as long as can be according to the difference
Value judges the charging situation of solar energy under the use state, and especially under some special feelings, such as bad weather will appear
The solar recharging speed situation slow compared with power consumption rate needs to remind user to be charged early in time, while current charging
Situation is shown checks for user, avoids battery consumption excessive.The charging time can be according to pre-set power threshold at the latest
It is calculated, e.g., in the case where not charging, by how long battery can be depleted to the power threshold, then according to the time
Obtain the charging time at the latest.In order to maintain the normal operation of intelligent wearable device, can set the power threshold is high, such as sets
It is set to 50%, 60% etc..
It is worth noting that, when detecting power threshold of the current residual electricity lower than setting, then prompt user choosing immediately
A fixed optional charging modes charge, and under the currently used state of simultaneous display, relationship between power consumption and charging is looked into for user
It sees, can judge whether to maintain current use state according to charging situation with this user.Such as, it is assumed that currently used state is electricity
Words are answered, statistics indicate that the charging rate of the relatively current optional charging modes of power consumption rate is many fastly, then user can be according to the feelings
Condition adjusts the time of call in time.
In addition, depending on the factors such as sunlight strength by solar recharging, will appear in practical application with history charge data
Deviation, therefore user, after being started to carry out solar recharging to intelligent wearable device according to prompt information, meeting basis is currently filled
Electric situation adjusts the incidence relation between charge data and power consumption rate, and display battery full of the time (charging needed in real time
Speed is greater than power consumption rate) or battery consumption time (charging rate be less than power consumption rate), check that adjustment is current for user
Use state.
The third embodiment of the present invention is the optimal enforcement example of above-mentioned first embodiment, as shown in figure 3, the battery durable
Include: in capability improving method
S01 prestores the power consumption data under each default use state, including battery zero power is to electric quantity consumption between Full Charge Capacity
Relationship between state maintenance time;
The current residual electricity of S10 acquisition battery;
The current residual electricity of S10 acquisition battery;
Whether S20 judgement is current in default use state;
S30 is if so, can maintain the time of currently used state according to the power consumption data prediction current residual electricity prestored;
S40 obtains the first incidence relation of charging rate under power consumption rate and optional charging modes under currently used state;
S50 prompts user to select charging modes and its corresponding charging time at the latest according to the first incidence relation, is battery
Continuation of the journey.
In this example, before promoting battery durable ability using this method, the consumption under each default use state is prestored
Electricity data, including battery zero power to the relationship between Full Charge Capacity between electric quantity consumption and state maintenance time.Using it
Before, test is obtained for the power consumption data under each use state of the type intelligent wearable device and is stored.In order to perfect
This power consumption data further adds the power consumption data generated in intelligent wearable device use process, is further promoted
Power consumption data authenticity.
It is current surplus according to the power consumption data prediction prestored when obtaining the use state that intelligent wearable device is presently in
Remaining electricity can maintain the time of currently used state, while determine optional charging under the use state according to the charge data prestored
Charge data (storage mode and the same power consumption data of obtaining means);And then obtain under currently used state power consumption rate and can
Select the first incidence relation of charging rate under charging modes.
First incidence relation can behave as difference/ratio etc. of charging rate and power consumption rate, as long as can be according to the difference
Value judges the charging situation under the use state under each charging modes, especially when charging rate relatively consumption under a certain charging modes
When electric speed is slow, when needing to remind user to be charged early in time, and charging under optional charging modes, by current charging
Situation is shown checks for user, avoids battery consumption excessive.The charging time can be according to pre-set power threshold at the latest
It is calculated, e.g., in the case where not charging, by how long battery can be depleted to the power threshold, then according to the time
Obtain the charging time at the latest.Value is when detecting power threshold of the current residual electricity lower than setting, then prompt user is selected immediately
One optional charging modes charge, under the currently used state of simultaneous display, including the relationship between power consumption and charging, for user
It checks, can judge whether to maintain current use state according to charging situation with this user.
The fourth embodiment of the present invention, is the optimal enforcement example of above-mentioned second embodiment, and optional charging modes are solar energy
Charging prestores the power consumption data under each default use state, including battery before promoting battery durable ability using this method
Zero power is to the relationship between Full Charge Capacity between electric quantity consumption and state maintenance time.In order to improve this power consumption data, by intelligence
The power consumption data generated in energy wearable device use process further adds, and further promotes power consumption data authenticity.
It is current surplus according to the power consumption data prediction prestored when obtaining the use state that intelligent wearable device is presently in
Remaining electricity can maintain the time of currently used state, while when obtaining charge capacity and charging according to solar energy history charge data
Between the second incidence relation;And then power consumption rate and solar recharging side under currently used state are calculated according to the second incidence relation
First incidence relation of charging rate under formula.
In addition, depending on the factors such as sunlight strength by solar recharging, will appear in practical application with history charge data
Deviation, therefore user, after being started to carry out solar recharging to intelligent wearable device according to prompt information, meeting basis is currently filled
Electric situation adjusts the incidence relation between charge data and power consumption rate, and display battery full of the time (charging needed in real time
Speed is greater than power consumption rate) or battery consumption time (charging rate be less than power consumption rate), check that adjustment is current for user
Use state.
The fifth embodiment of the present invention is the optimal enforcement example of above-mentioned first embodiment, as shown in figure 4, the battery durable
Include: in capability improving method
The current residual electricity of S10 acquisition battery;
S11 obtains current operating mode;
Whether S20 judgement is current in default use state;
S30 is if so, can remain current according to current operation mode and the power consumption data prestored prediction current residual electricity
The time of use state;
S40 obtains the first incidence relation of charging rate under power consumption rate and optional charging modes under currently used state;
S50 prompts user to select charging modes and its corresponding charging time at the latest according to the first incidence relation, is battery
Continuation of the journey.
In this example, after obtaining the use state that intelligent wearable device is presently in, current work is further obtained
Operation mode, and the time of currently used state can be maintained and according to pre- according to the power consumption data prediction current residual electricity prestored
The charge data deposited determines the charge data of optional charging under the use state;And then obtain power consumption rate under currently used state
With the first incidence relation of charging rate under optional charging modes.
Operating mode includes that day mode, Night, battery saving mode etc. e.g. set 7:00~16:59 in one day
For day mode, 17:00~6:59 in one day is set as the mode of working at night, current battery charge is less than Full Charge Capacity
It is set as battery saving mode when 20%.In intelligent wearable device, when current time reaches 7:00, it is switched to automatically from Night
Day mode;When current time reaches 17:00, Night is switched to from day mode automatically;When remaining capacity is Full Charge Capacity
20% when, automatically switch to battery saving mode.Different default electricity can be set under operating mode in the daytime, mode of working at night
Pond surplus, with meet in the daytime, night get the difference of different energies.Under different working modes, power consumption has
Institute's difference, especially under battery saving mode;Otherwise for some optional charging modes, the charging feelings of day mode and Night
Condition also can difference, be to be carried out in data storage also according to operating mode with being distinguished here according to operating mode
It distinguishes.
First incidence relation can behave as difference/ratio etc. of charging rate and power consumption rate, as long as can be according to the difference
Value judges the charging situation under the use state under each charging modes, especially when charging rate relatively consumption under a certain charging modes
When electric speed is slow, when needing to remind user to be charged early in time, and charging under optional charging modes, by current charging
Situation is shown checks for user, avoids battery consumption excessive.The charging time can be according to pre-set power threshold at the latest
It is calculated, e.g., in the case where not charging, by how long battery can be depleted to the power threshold, then according to the time
Obtain the charging time at the latest.When detecting power threshold of the current residual electricity lower than setting, then prompt user selectes one immediately
Optional charging modes charge, and under the currently used state of simultaneous display, including the relationship between power consumption and charging, look into for user
It sees, can judge whether to maintain current use state according to charging situation with this user.
The sixth embodiment of the present invention is the optimal enforcement example of above-mentioned second embodiment, the battery durable ability promotion side
In method: after obtaining the use state that intelligent wearable device is presently in, further obtaining current operating mode, and according to pre-
The power consumption data prediction current residual electricity deposited can maintain the time of currently used state, while be charged according to solar energy history
Data obtain second incidence relation in charge capacity and charging time;And then currently used state is calculated according to the second incidence relation
First incidence relation of charging rate under lower power consumption rate and solar recharging mode.
Operating mode includes that day mode, Night, battery saving mode etc. e.g. set 7:00~16:59 in one day
For day mode, 17:00~6:59 in one day is set as the mode of working at night, current battery charge is less than Full Charge Capacity
It is set as battery saving mode when 20%.In intelligent wearable device, when current time reaches 7:00, it is switched to automatically from Night
Day mode;When current time reaches 17:00, Night is switched to from day mode automatically;When remaining capacity is Full Charge Capacity
20% when, automatically switch to battery saving mode.Different default electricity can be set under operating mode in the daytime, mode of working at night
Pond surplus, with meet in the daytime, night get the difference of different energies.Under different working modes, power consumption has
Institute's difference, especially under battery saving mode;Otherwise for some optional charging modes, the charging feelings of day mode and Night
Condition also can difference, be to be carried out in data storage also according to operating mode with being distinguished here according to operating mode
It distinguishes.
Solar energy history charge data is embodied in the average value of charge data in a period of time, by solar recharging with
There are close relationships for sunlight, therefore can be carried out according to season to historical data to further increase the accuracy of data
Classification storage can also carry out classification storage to historical data according to month, week etc., and when calling, basis works as the day before yesterday first
Phase judges that affiliated season, month, week etc. obtain corresponding history charge data.In addition it is also possible to by calling current date
(the previous week of such as current date) for the previous period history charge data realize purpose.Certainly, the charging of battery
Situation and the extent of deterioration of battery also have relationship, are the charge datas with the history charge data of hope calling for recent battery,
Cannot interval time it is too long.
In addition, depending on the factors such as sunlight strength by solar recharging, will appear in practical application with history charge data
Deviation, therefore user, after being started to carry out solar recharging to intelligent wearable device according to prompt information, meeting basis is currently filled
Electric situation adjusts the incidence relation between charge data and power consumption rate, and display battery full of the time (charging needed in real time
Speed is greater than power consumption rate) or battery consumption time (charging rate be less than power consumption rate), check that adjustment is current for user
Use state.
The seventh embodiment of the present invention, a kind of battery durable ability lifting device 100, as shown in Figure 5, comprising:
Electricity obtains module 110, for obtaining the current residual electricity of battery;
Judgment module 120, it is current whether in default use state for judging;
The state maintenance time determining module 130 connecting respectively with electricity acquisition module 110 and judgment module 120, is used for
The time of currently used state can be maintained according to the power consumption data prediction current residual electricity prestored;
The incidence relation connecting with state maintenance time determining module 130 obtains module 140, for obtaining currently used shape
Under state under power consumption rate and optional charging modes charging rate the first incidence relation;
The cue module 150 that module 140 is connect is obtained with incidence relation, prompts user is selected to fill according to the first incidence relation
Electric mode and its corresponding charging time at the latest are battery durable.
In this example, electricity acquisition module 110 obtains preceding remaining capacity, the judgement of judgment module 120 obtains intelligent wearing
After the use state that equipment is presently in, state maintenance time determining module 130 is worked as according to the power consumption data prediction prestored
Preceding remaining capacity can maintain the time of currently used state, while be determined according to the charge data prestored optional under the use state
The charge data of charging;And then incidence relation obtains module 140 and obtains power consumption rate and optional charging side under currently used state
First incidence relation of charging rate under formula, and prompt user that suitable mode is selected to charge in time by cue module 150, it is
Battery durable.
Default use state be specially intelligent wearable device use each application state, e.g., step counting, timing, connection bluetooth,
Telephone receiving etc., the state in practical application, when can be applied for isolated operation one, or while running multiple applications
When state determined here without limitation by the concrete application for including in intelligent wearable device.
First incidence relation can behave as difference/ratio etc. of charging rate and power consumption rate, as long as can be according to the difference
Value judges the charging situation under the use state under each charging modes, especially when charging rate relatively consumption under a certain charging modes
When electric speed is slow, when needing to remind user to be charged early in time, and charging under optional charging modes, by current charging
Situation is shown checks for user, avoids battery consumption excessive.The charging time can be according to pre-set power threshold at the latest
It is calculated, e.g., in the case where not charging, by how long battery can be depleted to the power threshold, then according to the time
Obtain the charging time at the latest.In order to maintain the normal operation of intelligent wearable device, can set the power threshold is high, such as sets
It is set to 50%, 60% etc..
It is worth noting that, when cue module 150 detects power threshold of the current residual electricity lower than setting, then immediately
Prompt user selectes an optional charging modes and charges, under the currently used state of simultaneous display, including between power consumption and charging
Relationship, checked for user, can judge whether to maintain current use state according to charging situation with this user.Such as, it is assumed that
Currently used state is telephone receiving, statistics indicate that the charging rate of the relatively current optional charging modes of power consumption rate is many fastly, then
User can adjust the time of call in time according to the situation, if certain time can also be needed using intelligent wearable device, can fit
When the shortening air time.
Eighth embodiment of the invention is the optimal enforcement example of above-mentioned 7th embodiment, optional charging modes in the embodiment
For solar recharging, as shown in Figure 5, comprising:
Electricity obtains module 110, for obtaining the current residual electricity of battery;
Judgment module 120, it is current whether in default use state for judging;
The state maintenance time determining module 130 connecting respectively with electricity acquisition module 110 and judgment module 120, is used for
The time of currently used state can be maintained according to the power consumption data prediction current residual electricity prestored;
The incidence relation connecting with state maintenance time determining module 130 obtains module 140, for obtaining currently used shape
Under state under power consumption rate and optional charging modes charging rate the first incidence relation;It include: historical data acquiring unit 141,
For obtaining solar energy history charge data;The incidence relation computing unit 142 connecting with historical data acquiring unit 141 is used
In obtaining second incidence relation in charge capacity and charging time according to solar energy history charge data;And for being closed according to second
Connection relationship calculates the first incidence relation of charging rate under power consumption rate and solar recharging mode under currently used state;
The cue module 150 that module 140 is connect is obtained with incidence relation, prompts user is selected to fill according to the first incidence relation
Electric mode and its corresponding charging time at the latest are battery durable.
In this example, electricity acquisition module 110 obtains preceding remaining capacity, the judgement of judgment module 120 obtains intelligent wearing
After the use state that equipment is presently in, historical data acquiring unit 141 obtains solar energy history charge data, and then state
Determining module of holding time 130 according to prestore power consumption data prediction current residual electricity can maintain currently used state when
Between, incidence relation computing unit 142 obtains charge capacity according to solar energy history charge data and is associated with the second of the charging time
Relationship, and then according to charging rate under power consumption rate under the currently used state of the second incidence relation calculating and solar recharging mode
The first incidence relation, prompt user that suitable mode is selected to charge in time finally by cue module 150, be battery durable.
Default use state be specially intelligent wearable device use each application state, e.g., step counting, timing, connection bluetooth,
Telephone receiving etc., the state in practical application, when can be applied for isolated operation one, or while running multiple applications
When state determined here without limitation by the concrete application for including in intelligent wearable device.
Solar energy history charge data is embodied in the average value of charge data in a period of time, by solar recharging with
There are close relationships for sunlight, therefore can be carried out according to season to historical data to further increase the accuracy of data
Classification storage can also carry out classification storage to historical data according to month, week etc., and when calling, basis works as the day before yesterday first
Phase judges that affiliated season, month, week etc. obtain corresponding history charge data.In addition it is also possible to by calling current date
(the previous week of such as current date) for the previous period history charge data realize purpose.Certainly, the charging of battery
Situation and the extent of deterioration of battery also have relationship, are the charge datas with the history charge data of hope calling for recent battery,
Cannot interval time it is too long.
First incidence relation can behave as difference/ratio etc. of charging rate and power consumption rate, as long as can be according to the difference
Value judges the charging situation of solar energy under the use state, and especially under some special feelings, such as bad weather will appear
The solar recharging speed situation slow compared with power consumption rate needs to remind user to be charged early in time, while current charging
Situation is shown checks for user, avoids battery consumption excessive.The charging time can be according to pre-set power threshold at the latest
It is calculated, e.g., in the case where not charging, by how long battery can be depleted to the power threshold, then according to the time
Obtain the charging time at the latest.In order to maintain the normal operation of intelligent wearable device, can set the power threshold is high, such as sets
It is set to 50%, 60% etc..
It is worth noting that, when cue module 150 detects power threshold of the current residual electricity lower than setting, then immediately
Prompt user selectes an optional charging modes and charges, the pass under the currently used state of simultaneous display, between power consumption and charging
System, checks for user, can judge whether to maintain current use state according to charging situation with this user.Such as, it is assumed that current
Use state is telephone receiving, statistics indicate that the charging rate of the relatively current optional charging modes of power consumption rate is many fastly, then user
The time of call can be adjusted in time according to the situation.
In addition, depending on the factors such as sunlight strength by solar recharging, will appear in practical application with history charge data
Deviation, therefore user, after being started to carry out solar recharging to intelligent wearable device according to prompt information, meeting basis is currently filled
Electric situation adjusts the incidence relation between charge data and power consumption rate, and display battery full of the time (charging needed in real time
Speed is greater than power consumption rate) or battery consumption time (charging rate be less than power consumption rate), check that adjustment is current for user
Use state.
Ninth embodiment of the invention is the optimal enforcement example of above-mentioned 7th embodiment, comprising:
Electricity obtains module 110, for obtaining the current residual electricity of battery;
Judgment module 120, it is current whether in default use state for judging;
The state maintenance time determining module 130 connecting respectively with electricity acquisition module 110 and judgment module 120, is used for
The time of currently used state can be maintained according to the power consumption data prediction current residual electricity prestored;
The configuration module being connect with state maintenance time determining module 130, for prestoring the consumption under each default use state
Electricity data, power consumption data include battery zero power to the relationship between Full Charge Capacity between electric quantity consumption and state maintenance time;
The incidence relation connecting with state maintenance time determining module 130 obtains module 140, for obtaining currently used shape
Under state under power consumption rate and optional charging modes charging rate the first incidence relation;
The cue module 150 that module 140 is connect is obtained with incidence relation, prompts user is selected to fill according to the first incidence relation
Electric mode and its corresponding charging time at the latest are battery durable.
In this example, it before promoting battery durable ability using the device 100, is prestored by configuration module each default
Power consumption data under use state, including battery zero power to the pass between Full Charge Capacity between electric quantity consumption and state maintenance time
System.I.e. before the use, test is obtained for the power consumption data under each use state of the type intelligent wearable device and progress
Storage.In order to improve this power consumption data, the power consumption data generated in intelligent wearable device use process is further added
Add, further promotes power consumption data authenticity.
Electricity acquisition module 110 obtains preceding remaining capacity, the judgement of judgment module 120 obtains intelligent wearable device and is presently in
Use state after, state maintenance time determining module 130 predicts current residual electricity energy according to the power consumption data that prestores
The time of currently used state is maintained, while determining the charging number of optional charging under the use state according to the charge data prestored
According to (storage mode and the same power consumption data of obtaining means);And then incidence relation obtains module 140 and obtains under currently used state
First incidence relation of charging rate under power consumption rate and optional charging modes, and prompt user to select by cue module 150
Suitable mode charges in time, is battery durable.
First incidence relation can behave as difference/ratio etc. of charging rate and power consumption rate, as long as can be according to the difference
Value judges the charging situation under the use state under each charging modes, especially when charging rate relatively consumption under a certain charging modes
When electric speed is slow, when needing to remind user to be charged early in time, and charging under optional charging modes, by current charging
Situation is shown checks for user, avoids battery consumption excessive.The charging time can be according to pre-set power threshold at the latest
It is calculated, e.g., in the case where not charging, by how long battery can be depleted to the power threshold, then according to the time
Obtain the charging time at the latest.It is worth noting that, then being mentioned immediately when detecting power threshold of the current residual electricity lower than setting
Show that user selectes an optional charging modes and charges, under the currently used state of simultaneous display, including between power consumption and charging
Relationship is checked for user, can judge whether to maintain current use state according to charging situation with this user.
Tenth embodiment of the invention is the optimal enforcement example of above-mentioned 8th embodiment, comprising: mention using the device 100
Before rising battery durable ability, the power consumption data under each default use state, including zero electricity of battery are prestored by configuration module
It measures to the relationship between Full Charge Capacity between electric quantity consumption and state maintenance time.In order to improve this power consumption data, will intelligently wear
It wears the power consumption data generated in equipment use process further to add, further promotes power consumption data authenticity.
Electricity acquisition module 110 obtains preceding remaining capacity, the judgement of judgment module 120 obtains intelligent wearable device and is presently in
Use state after, historical data acquiring unit 141 obtain solar energy history charge data, and then state maintenance time determine
Module 130 can maintain the time of currently used state, incidence relation according to the power consumption data prediction current residual electricity prestored
Computing unit 142 obtains second incidence relation in charge capacity and charging time, Jin Ergen according to solar energy history charge data
Power consumption rate is calculated under currently used state according to the second incidence relation to be associated with first of charging rate under solar recharging mode
Relationship prompts user that suitable mode is selected to charge in time finally by cue module 150, is battery durable.
Solar energy history charge data is embodied in the average value of charge data in a period of time, by solar recharging with
There are close relationships for sunlight, therefore can be carried out according to season to historical data to further increase the accuracy of data
Classification storage can also carry out classification storage to historical data according to month, week etc., and when calling, basis works as the day before yesterday first
Phase judges that affiliated season, month, week etc. obtain corresponding history charge data.In addition it is also possible to by calling current date
(the previous week of such as current date) for the previous period history charge data realize purpose.Certainly, the charging of battery
Situation and the extent of deterioration of battery also have relationship, are the charge datas with the history charge data of hope calling for recent battery,
Cannot interval time it is too long.
First incidence relation can behave as difference/ratio etc. of charging rate and power consumption rate, as long as can be according to the difference
Value judges the charging situation of solar energy under the use state, and especially under some special feelings, such as bad weather will appear
The solar recharging speed situation slow compared with power consumption rate needs to remind user to be charged early in time, while current charging
Situation is shown checks for user, avoids battery consumption excessive.It is practical by solar recharging dependent on factors such as sunlight strengths
In and history charge data will appear deviation, therefore user is starting to carry out intelligent wearable device according to prompt information
After solar recharging, the incidence relation between charge data and power consumption rate can be adjusted in real time according to current charging situation, and
Show that time of the battery full of the time (charging rate is greater than power consumption rate) or battery consumption that need, (charging rate was less than power consumption
Speed), it is checked for user and adjusts current use state.
Eleventh embodiment of the invention is the optimal enforcement example of above-mentioned 7th embodiment, comprising:
Electricity obtains module 110, for obtaining the current residual electricity of battery;
Operating mode obtains module, for obtaining current operating mode;
Judgment module 120, it is current whether in default use state for judging;
The state maintenance time determining module 130 connecting respectively with electricity acquisition module 110 and judgment module 120, is used for
The time of currently used state can be maintained according to current operation mode and the power consumption data prestored prediction current residual electricity;
The incidence relation connecting with state maintenance time determining module 130 obtains module 140, for obtaining currently used shape
Under state under power consumption rate and optional charging modes charging rate the first incidence relation;
The cue module 150 that module 140 is connect is obtained with incidence relation, prompts user is selected to fill according to the first incidence relation
Electric mode and its corresponding charging time at the latest are battery durable.
In the present embodiment, electricity acquisition module 110 obtains preceding remaining capacity, the judgement of judgment module 120 obtains intelligence and wears
After wearing the use state that equipment is presently in, operating mode obtains module and further obtains current operating mode, state dimension
Hold time determining module 130 according to prestore power consumption data prediction current residual electricity can maintain currently used state when
Between, while determining according to the charge data prestored the charge data of optional charging under the use state;And then incidence relation obtains
Module 140 obtains the first incidence relation of charging rate under power consumption rate and optional charging modes under currently used state, and leads to
Crossing cue module 150 prompts user that suitable mode is selected to charge in time, is battery durable.
Operating mode includes that day mode, Night, battery saving mode etc. e.g. set 7:00~16:59 in one day
For day mode, 17:00~6:59 in one day is set as the mode of working at night, current battery charge is less than Full Charge Capacity
It is set as battery saving mode when 20%.In intelligent wearable device, when current time reaches 7:00, it is switched to automatically from Night
Day mode;When current time reaches 17:00, Night is switched to from day mode automatically;When remaining capacity is Full Charge Capacity
20% when, automatically switch to battery saving mode.Different default electricity can be set under operating mode in the daytime, mode of working at night
Pond surplus, with meet in the daytime, night get the difference of different energies.Under different working modes, power consumption has
Institute's difference, especially under battery saving mode;Otherwise for some optional charging modes, the charging feelings of day mode and Night
Condition also can difference, be to be carried out in data storage also according to operating mode with being distinguished here according to operating mode
It distinguishes.
First incidence relation can behave as difference/ratio etc. of charging rate and power consumption rate, as long as can be according to the difference
Value judges the charging situation under the use state under each charging modes, especially when charging rate relatively consumption under a certain charging modes
When electric speed is slow, when needing to remind user to be charged early in time, and charging under optional charging modes, by current charging
Situation is shown checks for user, avoids battery consumption excessive.When detect current residual electricity lower than setting electricity threshold
Value, then immediately prompt user select an optional charging modes charge, under the currently used state of simultaneous display, including power consumption with
Relationship between charging, is checked for user, can judge whether to maintain current use state according to charging situation with this user.
Twelveth embodiment of the invention is the optimal enforcement example of above-mentioned 8th embodiment, comprising: electricity obtains module 110
After remaining capacity, the judgement of judgment module 120 obtain the use state that intelligent wearable device is presently in front of obtaining, operating mode
It obtains module and further obtains current operating mode;Then, historical data acquiring unit 141 obtains solar energy history charging number
According to, and then state maintenance time determining module 130 can remain current according to the power consumption data prediction current residual electricity prestored
The time of use state, when incidence relation computing unit 142 obtains charge capacity and charging according to solar energy history charge data
Between the second incidence relation, and then power consumption rate and solar recharging side under currently used state are calculated according to the second incidence relation
First incidence relation of charging rate under formula prompts user that suitable mode is selected to charge in time finally by cue module 150,
For battery durable.
Operating mode includes that day mode, Night, battery saving mode etc. e.g. set 7:00~16:59 in one day
For day mode, 17:00~6:59 in one day is set as the mode of working at night, current battery charge is less than Full Charge Capacity
It is set as battery saving mode when 20%.In intelligent wearable device, when current time reaches 7:00, it is switched to automatically from Night
Day mode;When current time reaches 17:00, Night is switched to from day mode automatically;When remaining capacity is Full Charge Capacity
20% when, automatically switch to battery saving mode.Different default electricity can be set under operating mode in the daytime, mode of working at night
Pond surplus, with meet in the daytime, night get the difference of different energies.Under different working modes, power consumption has
Institute's difference, especially under battery saving mode;Otherwise for some optional charging modes, the charging feelings of day mode and Night
Condition also can difference, be to be carried out in data storage also according to operating mode with being distinguished here according to operating mode
It distinguishes.
Solar energy history charge data is embodied in the average value of charge data in a period of time, by solar recharging with
There are close relationships for sunlight, therefore can be carried out according to season to historical data to further increase the accuracy of data
Classification storage can also carry out classification storage to historical data according to month, week etc., and when calling, basis works as the day before yesterday first
Phase judges that affiliated season, month, week etc. obtain corresponding history charge data.In addition it is also possible to by calling current date
(the previous week of such as current date) for the previous period history charge data realize purpose.Certainly, the charging of battery
Situation and the extent of deterioration of battery also have relationship, are the charge datas with the history charge data of hope calling for recent battery,
Cannot interval time it is too long.
It is apparent to those skilled in the art that for convenience of description and succinctly, only with above-mentioned each journey
The division progress of sequence module can according to need and for example, in practical application by above-mentioned function distribution by different programs
Module is completed, i.e., the internal structure of device is divided into different program unit or module, with complete it is described above whole or
Person's partial function.Each program module in embodiment can integrate in one processing unit, can also be the independent object of each unit
Reason exists, and can also be integrated in a processing unit with two or more units, above-mentioned integrated unit can both use
Formal implementation of hardware can also be realized in the form of software program unit.In addition, the specific name of each program module also only
It is the protection scope that is not intended to limit this application for the ease of mutually distinguishing.
Fig. 7 is the structural schematic diagram of the intelligent wearable device provided in one embodiment of the invention, as indicated, the intelligence is worn
Equipment 200 is worn to include: processor 220, memory 210 and storage in memory 210 and can run on processor 220
Computer program 211, such as: battery durable ability promotes program.Processor 220 is realized above-mentioned when executing computer program 211
Step in each battery durable ability method for improving embodiment, alternatively, processor 220 is realized when executing computer program 211
The function of each module in above-mentioned each battery durable ability lifting device embodiment.
Intelligent wearable device 200 can be with equipment such as smartwatch, Intelligent bracelets.Intelligent wearable device 200 may include, but not
It is only limitted to processor 220, memory 210.It will be understood by those skilled in the art that Fig. 6 is only showing for intelligent wearable device 200
Example, does not constitute the restriction to intelligent wearable device 200, may include components more more or fewer than diagram, or combine certain
A little components or different components, such as: intelligent wearable device 200 can also include input-output equipment, display equipment, net
Network access device, bus etc..
Processor 220 can be central processing unit (Central Processing Unit, CPU), can also be other
General processor, digital signal processor (Digital Signal Processor, DSP), specific integrated circuit
(Application SpecificIntegrated Circuit, ASIC), field programmable gate array (Field-
Programmable GateArray, FPGA) either other programmable logic device, discrete gate or transistor logic,
Discrete hardware components etc..General processor 220 can be microprocessor or the processor is also possible to any conventional processing
Device etc..
Memory 210 can be the internal storage unit of intelligent wearable device 200, such as: intelligent wearable device 200 it is hard
Disk or memory.Memory 210 is also possible to the External memory equipment of intelligent wearable device 200, such as: intelligent wearable device 200
The plug-in type hard disk of upper outfit, intelligent memory card (Smart Media Card, SMC), secure digital (Secure Digital,
SD) block, flash card (Flash Card) etc..Further, memory 210 can also be both interior including intelligent wearable device 200
Portion's storage unit also includes External memory equipment.Memory 210 is for storing computer program 211 and intelligent wearable device
Other programs required for 200 and data.Memory 210, which can be also used for temporarily storing, have been exported or will export
Data.
In the above-described embodiments, it all emphasizes particularly on different fields to the description of each embodiment, is not described in some embodiment
Or the part recorded, reference can be made to the related descriptions of other embodiments.
Those of ordinary skill in the art may be aware that list described in conjunction with the examples disclosed in the embodiments of the present disclosure
Member and algorithm steps can be realized with the combination of electronic hardware or computer software and electronic hardware.These functions are actually
It is executed with hardware or software, specific application and design constraint depending on technical solution.Professional technician can be with
Each specific application is used different methods to achieve the described function, but this realization is it is not considered that exceed this Shen
Range please.
In embodiment provided herein, it should be understood that disclosed device/intelligent wearable device and method,
It can realize in other way.For example, device described above/intelligent wearable device embodiment is only schematic
, for example, the division of module or unit, only a kind of logical function partition, can there is other division side in actual implementation
Formula, for example, multiple units or components can be combined or can be integrated into another system, or some features can be ignored, or
It does not execute.Another point, shown or discussed mutual coupling or direct-coupling or communication connection can be by some
The INDIRECT COUPLING or communication connection of interface, device or unit can be electrical, mechanical or other forms.
Unit may or may not be physically separated as illustrated by the separation member, shown as a unit
Component may or may not be physical unit, it can and it is in one place, or may be distributed over multiple networks
On unit.It can some or all of the units may be selected to achieve the purpose of the solution of this embodiment according to the actual needs.
It, can also be in addition, each functional unit in each embodiment of the application may be integrated in a processing unit
It is that each unit physically exists alone, can also be integrated in one unit with two or more units.Above-mentioned integrated list
Member both can take the form of hardware realization, can also realize in the form of software functional units.
If integrated module/unit is realized in the form of SFU software functional unit and sells or use as independent product
When, it can store in a computer readable storage medium.Based on this understanding, the present invention realizes above-described embodiment method
In all or part of the process, relevant hardware can also be sent instructions to by computer program 211 and is completed, computer journey
Sequence 211 can be stored in a computer readable storage medium, the computer program 211 by processor 220 execute when, it can be achieved that
The step of above-mentioned each embodiment of the method.Wherein, computer program 211 includes: computer program code, computer program code
It can be source code form, object identification code form, executable file or certain intermediate forms etc..Computer readable storage medium can
With include: can carry 211 code of computer program any entity or device, recording medium, USB flash disk, mobile hard disk, magnetic disk,
CD, computer storage, read-only memory (ROM, Read-Only Memory), random access memory (RAM, Random
Access Memory), electric carrier signal, telecommunication signal and software distribution medium etc..It should be noted that computer-readable
The content that storage medium includes can carry out increase and decrease appropriate, example according to the requirement made laws in jurisdiction with patent practice
Such as: in certain jurisdictions, according to legislation and patent practice, computer-readable medium does not include electric carrier signal and telecommunications letter
Number.
As shown in Figure 8 and Figure 9, in structure, intelligent wearable device 200 further include: apparatus body 230;Lid 240 turns
The side of dynamic connection and apparatus body 230, the rotation of lid 240 is covered on apparatus body 230 or relative device ontology 230 when use
Rotation is raised;Display screen 241 connected to the processor, set on the upper surface of lid 240, for showing the mesh of intelligent wearable device
Mark content;Solar panels 231 are arranged in the upper surface of apparatus body 230 towards 240 side of lid, for rotating in lid 240
When raising, receives extraneous light and be converted to electric energy;The solar charging circuit and and solar charging being connect with solar panels 231
The battery of electric circuit connection, solar charging circuit and battery are set to inside apparatus body 230, and solar charging circuit will too
In the positive energy received electric energy of plate 231 deposit battery, power for intelligent wearable device.
Display screen 241 is touch screen, and the object content of display is specially that intelligent wearable device needs content to be shown, is such as filled
Electric data, time, date, short message, mail etc., user can pass through touch in the object content checked in display screen 241
Mode such as realizes page turning to object content, slides up and down, horizontally slips, amplifying, reducing at the operation.Lid 240 is rotationally connected with
The side of apparatus body 230, when original state, the lid of lid 240 is closed on apparatus body 230 (as shown in Figure 8), at this point, showing
Screen 241 is the side (upper surface that 241 place surface of display screen is lid 240 at this time) far from apparatus body 230.When user wants
When carrying out solar recharging to intelligent wearable device, user can be rotated lid 240, realize lid 240 relative to apparatus body 230
Rotation raise (as shown in Figure 9), be set to 230 upper surface of apparatus body solar panels 231 receive solar energy be converted to electricity
Can, battery is stored in by solar charging circuit.
To realize fluency that the lid 240 is rotated relative to the apparatus body 230, in the shaft for realizing rotation connection
In mechanism, it is equipped with shaft in the side of apparatus body 230, lid 240 is rotatablely connected by the shaft and the apparatus body 230.
The rotational angle that lid 240 is rotated by the shaft relative device ontology 230 can be 0~90 °.
In the intelligent wearable device, intelligent wearable device is divided by top half (lid 240 and aobvious by rotating shaft mechanism
Display screen 241) and lower half portion (apparatus body 230), while by the design of solar panels 231 on the watchcase of lower half portion, innovation
The heliotechnics of green is applied in intelligent wearable device with half hiding, guarantees that intelligent wearable device is overall beautiful
Meanwhile as long as it is ensured that the maintenance of intelligent wearable device is charged, especially in intelligent wearable device use under the environment for having light
In (such as user by equipment carry out video calling when) also can synchronous charging, solve battery durable ability deficiency while promoted
User experience.In the case that charge condition is inadequate outdoors, it is also able to achieve the urgent continuation of the journey of intelligent wearable device, is filled whenever and wherever possible
Electricity guarantees the availability of intelligent wearable device.
It should be noted that above-described embodiment can be freely combined as needed.The above is only of the invention preferred
Embodiment, it is noted that for those skilled in the art, without departing from the principle of the present invention,
Several improvements and modifications can also be made, these modifications and embellishments should also be considered as the scope of protection of the present invention.
Claims (10)
1. a kind of battery durable ability method for improving characterized by comprising
Obtain the current residual electricity of battery;
Whether judgement is current in default use state;
If so, the time of currently used state can be maintained according to the power consumption data prediction current residual electricity prestored;
Obtain the first incidence relation of charging rate under power consumption rate and optional charging modes under currently used state;
User is prompted to select charging modes and its corresponding charging time at the latest according to first incidence relation, it is continuous for battery
Boat.
2. battery durable ability method for improving as described in claim 1, which is characterized in that
The optional charging modes are solar recharging;
Include: in the first incidence relation of charging rate under power consumption rate and optional charging modes in the case where obtaining currently used state
Obtain solar energy history charge data;
Second incidence relation in charge capacity and charging time is obtained according to the solar energy history charge data;
According to charging rate under power consumption rate under the currently used state of second incidence relation calculating and solar recharging mode
The first incidence relation.
3. battery durable ability method for improving as claimed in claim 1 or 2, which is characterized in that obtaining the current surplus of battery
Before remaining electricity, further include the steps that prestoring the power consumption data under each default use state, the power consumption data includes electricity
Pond zero power is to the relationship between Full Charge Capacity between electric quantity consumption and state maintenance time.
4. battery durable ability method for improving as claimed in claim 1 or 2, which is characterized in that obtaining the current surplus of battery
After remaining electricity, further include the steps that obtaining current operating mode;
In the time that can maintain currently used state according to the power consumption data prediction current residual electricity prestored: according to current
Operating mode and the power consumption data prestored prediction current residual electricity can maintain the time of currently used state.
5. a kind of battery durable ability lifting device characterized by comprising
Electricity obtains module, for obtaining the current residual electricity of battery;
Judgment module, it is current whether in default use state for judging;
The state maintenance time determining module connecting respectively with electricity acquisition module and judgment module, prestores for basis
Power consumption data prediction current residual electricity can maintain the time of currently used state;
The incidence relation connecting with the state maintenance time determining module obtains module, consumes under currently used state for obtaining
First incidence relation of charging rate under electric speed and optional charging modes;
The cue module that module is connect is obtained with the incidence relation, the selected charging of user is prompted according to first incidence relation
Mode and its corresponding charging time at the latest are battery durable.
6. battery durable ability lifting device as claimed in claim 5, which is characterized in that
The optional charging modes are solar recharging;
The incidence relation obtains in module
Historical data acquiring unit, for obtaining solar energy history charge data;
The incidence relation computing unit being connect with the historical data acquiring unit, for according to solar energy history charging number
According to obtaining the second incidence relation of charge capacity and charging time;And it is currently used for being calculated according to second incidence relation
Under state under power consumption rate and solar recharging mode charging rate the first incidence relation.
7. such as battery durable ability lifting device described in claim 5 or 6, which is characterized in that
It further include the configuration module being connect with the state maintenance time determining module in the battery durable ability lifting device,
For prestoring the power consumption data under each default use state, the power consumption data includes battery zero power to electric between Full Charge Capacity
Relationship between amount consumption and state maintenance time;And/or
It further include the operating mode being connect with the state maintenance time determining module in the battery durable ability lifting device
Module is obtained, for obtaining current operating mode;
The state maintenance time determining module is according to current operation mode and the power consumption data prestored prediction current residual electricity
Amount can maintain the time of currently used state.
8. a kind of intelligent wearable device, including memory, processor and storage are in the memory and can be in the processing
The computer program run on device, which is characterized in that the processor realizes such as claim when running the computer program
Described in any one of 1-4 the step of battery durable ability method for improving.
9. intelligent wearable device as claimed in claim 8, which is characterized in that the intelligent wearable device further include:
Apparatus body;
Lid, rotation connection and the side of the apparatus body, the lid rotation of when use be covered on the apparatus body or
It is raised relative to apparatus body rotation;
Display screen connected to the processor, set on the upper surface of the lid, for showing the target of the intelligent wearable device
Content;
Solar panels, the upper surface of Yu Suoshu apparatus body are arranged towards lid side, when lid rotation is raised, it is described too
Positive energy plate receives extraneous light and is converted to electric energy;
The solar charging circuit being connect with the solar panels and the battery being connect with the solar charging circuit, it is described too
It is positive can charging circuit and battery be set to inside the apparatus body, and the solar charging circuit is by the received electricity of solar panels
It can be stored in battery.
10. a kind of computer readable storage medium, the computer-readable recording medium storage has computer program, and feature exists
In realization battery durable ability as described in any one of claim 1-4 is promoted when the computer program is executed by processor
The step of method.
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CN113095459A (en) * | 2019-12-23 | 2021-07-09 | 中移(成都)信息通信科技有限公司 | Information processing method, device and equipment and computer storage medium |
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