CN104020694A - Energy-saving wearable device capable of being triggered through one key, mobile terminal, and triggering method and device - Google Patents

Energy-saving wearable device capable of being triggered through one key, mobile terminal, and triggering method and device Download PDF

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Publication number
CN104020694A
CN104020694A CN201410268216.6A CN201410268216A CN104020694A CN 104020694 A CN104020694 A CN 104020694A CN 201410268216 A CN201410268216 A CN 201410268216A CN 104020694 A CN104020694 A CN 104020694A
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CN
China
Prior art keywords
wearable
key
instruction
mobile terminal
energy
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CN201410268216.6A
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Chinese (zh)
Inventor
徐伟
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法视网络传媒技术(北京)有限公司
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Priority to CN201410268216.6A priority Critical patent/CN104020694A/en
Publication of CN104020694A publication Critical patent/CN104020694A/en

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Abstract

The invention discloses an energy-saving wearable device capable of being triggered through one key, a mobile terminal, and a triggering method and device. The one-key triggering method used for the wearable device includes the steps that key information from the same functional key of the wearable device is collected; through combination of the key pressing frequency and/or the key pressing time in the key information and the mode of the wearable device, an instruction corresponding to the key information is generated; the instruction is executed. According to the energy-saving wearable device capable of being triggered through one key, the mobile terminal, and the triggering method and device, unessential functions, redundant keys and useless states are reduced, the power consumption of a Bluetooth module is reduced, the total power consumption of the wearable device is reduced, and the run time of a battery is prolonged.

Description

Support energy-conservation wearable device, mobile terminal, triggering method and device that a key triggers
Technical field
The present invention relates to wireless domain, relate in particular to a kind of energy-conservation wearable device of supporting a key to trigger, the mobile terminal being connected with this energy-conservation wearable device of supporting a key to trigger and this supports a key triggering method and a key flip flop equipment of the energy-conservation wearable device of a key triggering.
Background technology
Today that Science and Technology Day reaches increasingly, people's life is more and more intelligent, and relevant intelligentized product emerges in an endless stream; Wherein wearable device makes people break away from wired constraint, allows people more can untrammeledly enjoy life.Undeniable wearable device brings very large transformation to our life, perception.
But make a general survey of the wearable product on market, their general utility functions are various, button is complicated, expensive, battery life is poor.And the wearable device of prior art cannot exist as stand-alone terminal, must carry out interaction effectively and timely with smart mobile phone, PC etc., or from high in the clouds, extract and carry data.This certainly will will make the complicated operation of wearable device, power consumption strengthen.For example, have the wrist-watch of blue tooth communication function, minimum two or more buttons will be set, in order to open or close different conditions, the key combination complexity needing is various, and feedback information is also clear and definite not, usually allows and uses its user puzzled.
And based on existing bluetooth Low-power Technology, although provided the bluetooth communication of related protocol support low-power consumption, based on bluetooth communication (even supporting bluetooth communication of bluetooth low-power consumption standard BLE) wearable device, still face the problem that power consumption is large.For example, support the wrist-watch of bluetooth low-power consumption function, its Bluetooth function is generally independently-powered by a button cell, and the wrist-watch of such support bluetooth low-power consumption function generally can only be used about 1 year.
For example, and the wrist-watch that has blue tooth communication function, generally comprises five or six kinds of different states: unlatching, pairing, connection, operation, dormancy, close etc., these power consumptions that all make to have the wrist-watch of blue tooth communication function strengthen.In order to open, to close and switching above-mentioned five or six kinds of different states, generally need 3-5 button, button is numerous, to user, bring bad experience, user not only will remember the function of different key and different key combination, and operation is very complicated, use inconvenience, also affected the stability of wearable device.
In sum, existing wearable device, at function, the aspect such as energy-conservation, mutually restricts, interacts, and brings inconvenience to the universal of wearable device with popularization.
Therefore, develop a kind of simple to operate, energy saving, reliable and stable wearable device, particularly important with development to the use of wearable device.
Summary of the invention
For the above-mentioned problems in the prior art, the object of the present invention is to provide an a kind of key triggering method for wearable device, with what solve that wearable device of the prior art exists, at function, the aspect such as energy-conservation, mutually restrict, interact, be unfavorable for technical matters universal and that promote.
Another object of the present invention is to provide an a kind of key flip flop equipment for wearable device.
The energy-conservation wearable device that the 3rd object of the present invention is to provide a kind of support one key of the present invention's of having one key flip flop equipment to trigger.
The 4th object of the present invention is to provide a kind of mobile terminal being connected with the present invention's one key flip flop equipment.
Above-mentioned purpose of the present invention, is achieved through the following technical solutions:
A key triggering method for wearable device, comprising:
Gather the key information that is derived from same function button of this wearable device;
According to the touch potential in this key information and/or button time, in conjunction with this wearable device pattern of living in, generate an instruction corresponding with this key information;
Carry out this instruction.
A key triggering method of the present invention, preferably, this key triggering method also comprises: under this wearable device " shut " mode", trigger this function button and open the power supply of this wearable device, after this electric power starting, the timer of this wearable device is opened and is started timing, and this wearable device enters open mode.
A key triggering method of the present invention, preferred, under this open mode, if this button time is greater than the first setting-up time value, this wearable device is connected with mobile terminal, and this wearable device enters operational mode;
At wearable device, during in operational mode, the instruction of relevant this mobile terminal, sends once to this mobile terminal every one second setting-up time value.
A key triggering method of the present invention, preferred, under this open mode, if this button time is less than this first setting-up time value, generate and carry out the instruction of the battery electric quantity that checks this wearable device.
A key triggering method of the present invention, preferred, under this open mode and under this operational mode, as do not collected key information in one the 3rd setting-up time value, carry out the instruction of closing this wearable device.
A key triggering method of the present invention, preferred, the method also comprises: receive this mobile terminal feedack, carry out after the instruction of the feedback information that feeds back a first kind, carry out the instruction of closing this wearable device; Otherwise carry out after the instruction of the feedback information that feeds back a Second Type, carry out the instruction of closing this wearable device.
A key triggering method of the present invention, preferably, check after the battery of this wearable device, if the voltage of this battery is lower than the non-setting voltage being set by the user, carry out the instruction of the feedback information of feedback one the 3rd type, then carry out the instruction of closing this wearable device.
A key triggering method of the present invention, preferred, with this touch potential, distinguish and click, double-click, with this button time, distinguish long by with in by, respectively correspondence click triggering command, double-click triggering command, long by triggering command and in by triggering command.
A key triggering method of the present invention, preferred, every one second setting-up time value, to this mobile terminal, sending in the step of instruction, comprise step:
Whether the number of times that judgement sends instruction to this mobile terminal is greater than " the 3rd setting-up time value/the second setting-up time value if be greater than " the 3rd setting-up time value/the second setting-up time value , feed back a Second Type information; If be less than " the 3rd setting-up time value/the second setting-up time value , continue to send this instruction to this mobile terminal.
A key flip flop equipment for wearable device, comprising:
Acquisition module, for gathering the key information from same function button;
Instruction generation module, touch potential and/or button time in this key information gathering, in conjunction with this wearable device pattern of living in, generates an instruction corresponding with this key information according to this acquisition module; And
Execution module, carries out the instruction that this instruction generation module generates.
The energy-conservation wearable device that support one key of the present invention triggers, has a key flip flop equipment of the present invention.
Energy-conservation wearable device of the present invention, preferred, this energy-conservation wearable device comprises function button and built-in bluetooth module, built-in feedback assembly, built-in power supply, built-in timer and built-in antenna;
This function button is unique function button of this energy-conservation wearable device.
Energy-conservation wearable device of the present invention, preferred, this feedback assembly is motor, this motor is distinguished a plurality of dissimilar feedback informations with different vibrations durations and/or vibrations form.
The mobile terminal that the energy-conservation wearable device triggering with support one key of the present invention is connected, this mobile terminal has:
Link block, in order to set up being connected between described mobile terminal and described energy-conservation wearable device, and preserves link information;
Instruction execution module, the instruction relevant to this mobile terminal triggering in order to carry out the function button of this energy-conservation wearable device; And
Feedback module, receives that in order to feed back this link information, instruction to described energy-conservation wearable device information and instruction carry out information.
Mobile terminal of the present invention, preferred, this mobile terminal also comprises presetting module;
This presetting module, for the corresponding relation between each triggering command of default this wearable device and each application of this mobile terminal.
Beneficial effect of the present invention is:
1, the wearable device of support one key Trigger Function of the present invention, has energy saving, the advantage such as simple in structure, reliable and stable;
2, the wearable device of support one key Trigger Function of the present invention is easy to use, and workable, and common people are easy to grasp;
3, the wearable device of support one key Trigger Function of the present invention, reduces wearable device cost owing to pressing bond number.
Compared with prior art, a kind of energy-conservation wearable device of supporting that a key triggers provided by the invention, one key Trigger Function and existing function are complicated, the wearable device of complex operation forms sharp contrast, simple to operate, structure understands, accelerate user adaptation process, to user, bring very large facility, give user with good experience; And owing to having reduced unnecessary function, unnecessary button and useless state, reduced bluetooth module power consumption, reduce wearable device total power consumption, extend its battery life; And, reduced hardware cost, saved material resources, the convenient development of popularizing, promoting wearable device.
Accompanying drawing explanation
By describe its example embodiment in detail with reference to accompanying drawing, above-mentioned and further feature of the present invention and advantage will become more obvious.
Fig. 1 is the structural representation of the energy-conservation wearable device that triggers of support one key of the embodiment of the present invention.
Fig. 2 is the energy-conservation wearable device of the embodiment of the present invention and the mutual schematic diagram between the mobile terminal of the embodiment of the present invention.
Fig. 3 is the workflow diagram of the key triggering method for wearable device of the embodiment of the present invention.
Fig. 4 is the detailed operation process flow diagram of the key triggering method for wearable device of the embodiment of the present invention.
Fig. 5 is the module diagram of the key flip flop equipment for wearable device of the embodiment of the present invention.
Fig. 6 is the module diagram of the mobile terminal of the embodiment of the present invention.
Reference numeral wherein:
100 wearable devices
101 function buttons
102 feedback assemblys
103 bluetooth modules
104 timers
105 power supplys
106 antennas
200 mobile terminals
Embodiment
The present invention has various embodiments and realizes object of the present invention, and embodiments of the invention are in order to verify explanation feasibility of the present invention and to prove for example, and can not be considered to limit the scope of the invention according to embodiments of the invention.
For convenience, first we be defined as follows and explain term used:
Wearable carrier: refer to the every-day object of the installed bluetooth component carried, include but not limited to be: belt hook, wrist-watch, jewellery, accessories etc.
" " x " represent that logarithm value x gets whole (or claiming to round up) operation, what "/" represented is division symbol.
Below, first introduce the energy-conservation wearable device of the support one key triggering of the embodiment of the present invention.
As shown in Figure 1, the energy-conservation wearable device 100 that support one key of the embodiment of the present invention triggers, comprises function button 101 and built-in feedback assembly 102, built-in bluetooth module 103, built-in timer 104, built-in antenna 105 and built-in power supply 105;
Built-in bluetooth module 103 is nucleus modules of the wearable device 100 of the embodiment of the present invention, possesses instruction process ability, and the key that can realize and mainly realize wearable device 100 of the present invention triggers, energy saving function.Realize the software program of a key triggering method of the embodiment of the present invention, operate in exactly in described bluetooth module 103.In the present embodiment, bluetooth module 103 adopts the BLE chip of supporting bluetooth low-power consumption standard, as: CSR8 family chip; But the present invention is not limited thereto.The present invention also can use other Bluetooth chip, or uses other communication and mobile terminal to communicate, for example WiFi.
Wherein, feedback assembly 102 refers to the parts of receiving the backward user's feedback information of instruction, and in the present embodiment, feedback assembly 102 is micro motor, but the present invention is not limited thereto.By the different information of feedback assembly 102 feedback, judge the different conditions of the energy-conservation wearable device 100 of the embodiment of the present invention; By the different durations of micro motor or multi-form vibrations, user can know the current state of wearable device, and the execution result of the operation that user's Trigger Function button will be carried out before.
Built-in timer 104, for timing time scope, in the present embodiment, the time that is mainly used in function button 101 to be pressed is carried out timing, and must carry out timing in interval between twice button, to distinguish different button patterns; Meanwhile, also the time without any key information is carried out to timing, to determine whether to close the power supply of wearable device.Meanwhile, in the present embodiment, under energy-conservation wearable device 100 " shut " mode"s, press function button 101, the power supply 105 of starting energy-saving wearable device, needs only power supply 105 and opens, and timer 104 starts timing.
Function button 101 arranges as multi-functional button, function button 101 has formed energy-conservation wearable device of the present invention 100 and user's interactive model in conjunction with feedback assembly 102, by function button 101 touch potentials or press different different operating and the Mode changes of realizing wearable device 100 of length from the feedback assembly 102 feedback information types of time.For example, the time that timer 104 can be set according to user is regularly closed energy-conservation wearable device 100, directly closes the power supply 105 of wearable device 100, but not enters holding state, reduces power consumption, reaches the object of energy saving.
Power supply 105 is battery preferably, but the present invention is not as limit.
It should be noted that, the energy-conservation wearable device that support one key of the present invention triggers, although can support a key to trigger, and not mean that the button of energy-conservation wearable device of the present invention can only have one, the function button of energy-conservation wearable device of the present invention can only have one in other words.The energy-conservation wearable device that support one key of the present invention triggers, can have a function button and a standby functions button, both can guarantee the convenience that user uses, the inconvenience in the time of can avoiding again one key not work.But the present invention does not use key combination, without user, remember the function of various key combination representatives.
In the present embodiment, energy-conservation wearable device 100 can complete data communication and instruction and process by the mobile terminal 200 of wireless communication mode and the embodiment of the present invention, so antenna 106 is also one of indispensable equipment.Different according to the shape of energy-conservation wearable device 100, antenna 106 can be high performance ceramic antenna, also can be the flexible circuitry antenna of being convenient to placement, or the stainless steel antenna customizing according to the shape need of 100 pairs of antennas 106 of energy-conservation wearable device.
Mobile terminal 200, for example, can be smart mobile phone, but be not limited to this, can be also other movable wireless intelligent communication device.
Fig. 2 is the energy-conservation wearable device of the embodiment of the present invention and the mutual schematic diagram between the mobile terminal of the embodiment of the present invention.As can be seen from Figure 2.By function button 101, trigger energy-conservation wearable device 100 and send instruction to mobile terminal 200, mobile terminal 200 receives after instruction, carries out instruction and feeds back to energy-conservation wearable device 100.By application different on mobile terminal 200 from function button 101 touch potentials of energy-conservation wearable device 100, the cooperation of button duration completes various different, complicated tasks.For example, use energy-conservation wearable device 100, one key triggering mobile terminals 200, realize multiple Long-distance Control:
(1) by the different mode of operation of function button 101 to energy-conservation wearable device 100, realize multiple remote control function.
Mobile terminal 200 is set up and is connected with the radio communication of energy-conservation wearable device 100, mobile terminal 200 obtains the triggering command (or claiming to trigger message) that energy-conservation wearable device 100 sends, wherein, the triggering command that energy-conservation wearable device 100 sends can be but be not limited to:
Click the triggering command of clicking that the function button 101 of energy-conservation wearable device 100 generates;
Double-click the double-click triggering command of function button 101 generations of energy-conservation wearable device 100;
The long length generating by the function button of energy-conservation wearable device 100 101 is by triggering command; And
In by the function button 101 of energy-conservation wearable device 100, generate in by triggering command.
Here, clicking and double-clicking is the difference of touch potential, in by with long by the differentiation that is button time length, can carry out timing by 104 pairs of button times of timer, by the length with setting by time range and in by time range, compare, with in distinguishing by with long by actuation of keys.
For example, the triggering command of obtaining described in mobile terminal 200 is default camera while taking pictures action triggers instruction, carries out the camera action (camera take pictures action comprise focusing, shooting) of taking pictures; Above-mentioned action also can be sent step by step instruction and be completed, for example, the triggering command of clicking of clicking function button 101 generations of energy-conservation wearable device 100 completes focusing operation, the double-click triggering command of double-clicking function button 101 generations of energy-conservation wearable device 100 completes opens flash operation, and the long length generating by energy-conservation wearable device 100 Preset Times completes and takes action by triggering command.
(2) pass through functional condition
By default to the several functions of mobile terminal 200, the function button 101 of energy-conservation wearable device 100 completes several functions (the same time can only complete a function).
For example, mobile terminal 200 is smart mobile phone, the application (App) of taking pictures, looking for mobile phone, playing music by having on smart mobile phone is set, for example, when App is set to take pictures, the long length generating by the function button of energy-conservation wearable device 100 completes by triggering command the action of taking pictures; When App is set to look for mobile phone, the long length generating by the function button of energy-conservation wearable device 100 101 completes and looks for cell-phone function by triggering command; When App is set to play music, the long length generating by energy-conservation wearable device 100 Preset Times is carried out the action of playing music by triggering message.
Therefore,, under the different preset mode of mobile terminal 200, same triggering command, can complete different control actions.
From above-mentioned example, can find out that the energy-conservation wearable device 100 of the embodiment of the present invention, although only have a function button, can be realized the function of Various Complex in conjunction with mobile terminal 200.In other words, the energy-conservation wearable device 100 of the embodiment of the present invention, as long as based on a function button 101, just can realize in conjunction with mobile terminal 200 function of Various Complex.
Introduce a key triggering method of the embodiment of the present invention below.
As shown in Figure 3, a key triggering method of the embodiment of the present invention, mainly comprises following three large steps:
First, run on a key flip flop equipment of the embodiment of the present invention in bluetooth module 103, gather the key information of the same function button 101 of being derived from of energy-conservation wearable device 100; Be derived from same function button 101, as long as show to have a function button, just can realize the function of the present invention's one key triggering method.Therefore, a key triggering method of the present invention, does not need unnecessary function button, does not need button to combine yet.
Then, according to the touch potential in this key information and/or button time, in conjunction with energy-conservation wearable device 100 pattern of living in, generate an instruction corresponding with this key information; Here, also can consider touch potential and the combination of button time, to realize more complicated triggering command.
The energy-conservation wearable device of the embodiment of the present invention, has " unlatching ", " RUN " and " closing " three kinds of patterns.
Wherein, " shut " mode" refers to all patterns in closed condition of the power supply 105 of energy-conservation wearable device 100 and timer 104; Open mode be defined as power supply 105 from opening wearable device 100 to set up with being connected of mobile terminal 200 process, because rear extended meeting is mentioned, the power supply of opening wearable device 100 means opens timer 104 simultaneously, but and do not mean that and must set up and being connected of mobile terminal 200, can also be the battery electric quantity that only checks energy-conservation wearable device 100, not carry out other actions." shut " mode" is defined as the power supply 105 of closing energy-conservation wearable device 100 to the process between the power supply 105 of starting energy-saving wearable device 100 again.
As known from the above, the present invention has omitted useless " standby " and " dormancy " pattern, thereby, can reduce the power consumption of energy-conservation wearable device 100, reached energy-conservation object.
In addition, under the different mode of energy-conservation wearable device 100, same key mode (click, double-click, long by with in by), can trigger different triggering command.For example, be to grow by function button 101 equally, under " shut " mode", be starting energy-saving wearable device 100, enter operational mode; And under operational mode, be to carry out an instruction of controlling mobile terminal 200.
After instruction generates, be finally to carry out instruction.If the instruction of relevant mobile terminal 200 sends to mobile terminal 200 to carry out, if the instruction of relevant energy-conservation wearable device 100 self, as checked battery electric quantity, self is carried out by energy-conservation wearable device 100.
The flow process of an above-mentioned key triggering method, can be refined as detailed process as shown in Figure 4, and the energy-conservation wearable device 100 that the wearable carrier of take is belt hook is example, and concrete explanation is as follows:
As shown in Figure 4, the present invention, for the workflow diagram of a key triggering method of wearable device, has the following steps:
Step S301, power-off;
In this step, when wearable device belt hook 100 does not use, can, always in off-mode, be also shutdown mode.At this moment, the power-off of wearable device belt hook 100, timer 104 is also closed, between wearable device belt hook 100 and mobile terminal 200 without being connected.
Step S302, electric power starting;
When pressing function button 101, the power supply 105 of wearable device belt hook 100 is opened; In this step, under " shut " mode", when wearable device belt hook 100 is opened, the power supply 105 of wearable device belt hook 100 is opened, and timer 104 starts timing, and wearable device belt hook 100 enters open mode.
Do are step S303, button time greater than setting-up time value one?
In this step, setting-up time value one (or claiming the first setting-up time value) is 3 seconds, but the present invention is not as limit.
In this step, by the timer timing of 104 pairs of button times, the 101 button times of arbitration functions button, if when the button time is greater than 3 seconds, perform step S304; If the button time is less than 3 seconds, perform step S311.
In this step, function button 101 has unclamped, the duration value being pressed by arbitration functions button 101, be also pressed time be carved into the difference in the moment of unclamping, determine the step that follow-up execution is different.
Step S304, Connection Step
Wearable device belt hook 100 is connected with mobile terminal 200; In this step, if mobile terminal 200 had been preserved the link information with wearable device belt hook 100, mobile terminal 200 can attempt re-establishing connection (or claiming to recover to connect), if mobile terminal 200 is not preserved the link information with wearable device belt hook 100, mobile terminal 200 is attempted setting up and being newly connected with wearable device belt hook 100.
If mobile terminal 200 had once been set up and had been connected with wearable device belt hook 100, but for a certain reason, as too far away with wearable device belt hook 100 distances in mobile terminal 200, connect and disconnected, or and for example, after a period of time, wearable device belt hook 100 self has cut out power supply, cause itself and the disconnection that is connected of mobile terminal 200, mobile terminal 200 can be attempted " re-establishing connection ": for example, mobile terminal 200 and wearable device belt hook 100 are again in can join domain, or wearable device belt hook 100 has been unlocked again.
Need emphasize, above-mentioned situation is that mobile terminal 200 has been preserved itself and wearable device belt hook 100 link informations, because connecting, disconnects and " recovering to connect ".
And " set up newly connect " is not preserve itself and the link information (this situation is that mobile terminal 200 is setting up and be connected with wearable device belt hook 100) of wearable device belt hook 100 in mobile terminal 200, if set up being connected of mobile terminal 200 and wearable device belt hook 100, in this instructions, be called " set up newly and connect ".
After wearable device belt hook 100 and mobile terminal 200 connect, wearable device belt hook 100 enters " RUN " pattern.
Step S305, triggering;
It is Trigger Function button 101; In this step, wearable device belt hook 100 has entered " RUN " pattern, and user triggers the function button 101 on wearable device belt hook 100 again, can generate different instructions.For example:
Click the triggering command of clicking of wearable device 100 function buttons 101 generations;
Double-click the double-click triggering command that wearable device 100 function buttons 101 generate, wherein double-clicking the time interval is setting-up time value four, and in the present embodiment, setting-up time value four can be set as 500 microseconds, but the present invention is not as limit.
In press that wearable device 100 Preset Times generate in by triggering command, the Preset Time is here setting-up time value five, in this example, setting-up time value five can be set as 3 seconds, but the present invention is not as limit.
Long length of pressing wearable device 100 Preset Times generations is by triggering command, and the Preset Time is here setting-up time value six, and in this example, setting-up time value six can be set as 5 seconds, but the present invention is not as limit.
Above-mentioned each setting-up time value, all can be self-defined according to actual conditions.
Step S306, every setting-up time value two, to mobile terminal, send instruction.
Wearable device belt hook 100 sends instruction every setting-up time value two to mobile terminal 200; In this step, the instruction that wearable device belt hook 100 can generate to mobile terminal 200 application forwarding step S305 every 20 microseconds.Setting-up time value two also can be got other values outside 20 microseconds.
By repeatedly sending instruction, guarantee that mobile terminal 200 can receive this instruction.
Step S307, receive mobile terminal feedback information?
Judge that whether wearable device belt hook 100 receives mobile terminal 200 feedback informations, that is to say the no feedback information of receiving the instruction that sends in step S306.
If receive the feedback information of mobile terminal 200, perform step S308; If do not receive the feedback information of mobile terminal 200, perform step S309;
In this step, judge whether wearable device belt hook 100 receives the feedback information of mobile terminal 200, and according to judged result, carry out different steps.
Step S308, feedback information type one;
In this step, if the feedback information of the successful mobile terminal receive 200 of wearable device belt hook 100, the built-in feedback assembly 102 of wearable device belt hook 100, it is micro motor, continue vibrations 3 seconds, and wearable device belt hook 100 cuts out, proceed to " shut " mode".
Step S309, to mobile terminal, send information number of times and be greater than " setting-up time value three/setting-up time value two inferior?
In this step, again judge that wearable device belt hook 100 sends information number of times to mobile terminal 200 and whether is greater than " setting-up time value three/setting-up time value two if number of times is greater than " setting-up time value three/setting-up time value two , perform step S310; If number of times is less than " setting-up time value three/setting-up time value two , perform step S306.
In the present embodiment, setting-up time value three is the maximum latencies of closing without operation, and setting-up time value two is instruction transmission interval times, therefore, both differences are the interior maximum times that can send instruction between maximum wait, because both may not be integer multiple relations, therefore get whole.If instruction transmission times has surpassed this maximum times, no longer send, to avoid undying transmission, lose time and increase the electric energy loss of wearable device belt hook 100.
Meanwhile, a key triggering method of the embodiment of the present invention, its maximum latency without operation and frequent send instruction and maximum latency during without feedback is roughly the same.
In this step, if transmission times is less than " setting-up time value three/setting-up time value two , perform step S306, until receiving feedback information or the wearable device 100 of mobile terminal 200, wearable device belt hook 100 is greater than " setting-up time value three/setting-up time value two to mobile terminal 200 transmission information number of times till.
Step S310, feedback information type two;
When sending information number of times to mobile terminal 200, wearable device belt hook 100 is greater than " setting-up time value three/setting-up time value two time, feedback assembly 102 feedback information types two; Tell user that this triggering command sends unsuccessful.
In this step, feedback information type two for example,, for micro motor 102 interval vibrations (vibrate 2 times, each vibration duration is 500 microseconds), is closed wearable device belt hook 100 afterwards.
Step S311, inspection electric weight;
In this step, wearable device belt hook 100 is in " unlatching " pattern.
In this step, when the function button 101 triggering on wearable device belt hook 100, the button time detected while being less than 3 seconds, wearable device belt hook 100 generates and carries out the instruction of the battery electric quantity of this wearable device belt hook 100 of inspection.
As above, a key triggering method of the embodiment of the present invention, can realize the battery " electric weight " not entering under " RUN " pattern and detect, and has improved the convenience that user uses.
Do are step S312, voltage less than setting value?
To the detection of battery electric quantity, be mainly the detection to voltage, judge that whether cell voltage is lower than 2.4V, if battery 105 voltages are lower than 2.4V, perform step S313; Otherwise execution step S301, directly closes wearable device belt hook 100, without feedback, shows that electric weight is also more sufficient.
In this step, wearable device belt hook 100 can judge the voltage of battery 105, sees that whether voltage is lower than 2.4V.
In the present embodiment, do not allow user that above-mentioned voltage is set, directly the magnitude of voltage that is compared in wearable device belt hook 100 is made as to 2.4V.
The present invention is also not precluded within that 200 pairs of mobile terminals are above-mentioned is compared magnitude of voltage setting, and still, the practice of the present embodiment, can not increase the complexity of user's operation, can bring advantage to the user on the contrary.
Step S313, feedback information type three;
When battery 105 voltages of wearable device belt hook 100 are during lower than 2.4V, feedback assembly 102 feedback information types three; Prompting user electric weight is not enough, need to change battery.
In this step, feedback information type three is that micro motor 102 vibrations continue 1 second, closes afterwards wearable device belt hook 100.
In addition, after step S304, when wearable device belt hook 100 enters " RUN " pattern, timer 104 starts timing, when reaching the timing time scope of timer 104 settings, be for example setting-up time value three, while not collecting any key information, close the power supply 105 of wearable device belt hook 100.Thereby realized when 103 a period of times of bluetooth module are not used, closed, making bluetooth module 103 power consumptions is zero object, further reduces the total power consumption of wearable device belt hook 100, extends the cruising time of the battery of wearing equipment belt hook 100.
Introduce again a key flip flop equipment of the embodiment of the present invention below.
As shown in Figure 5, a key flip flop equipment of the embodiment of the present invention, comprises acquisition module, instruction generation module and execution module.
The effect of acquisition module is the key information that is derived from same function button 101 that gathers energy-conservation wearable device 100; The key information collecting is sent to instruction generation module.
The effect of instruction generation module is touch potential and/or the button time in this key information gathering according to this acquisition module, in conjunction with energy-conservation wearable device 100 pattern of living in, generates the instruction corresponding with this key information, sends execution module to.
The effect of execution module is to carry out the instruction that this instruction generation module generates.
Introduce again the mobile terminal of the embodiment of the present invention below.
As shown in Figure 6, the mobile terminal of the embodiment of the present invention, has link block, instruction execution module, feedback module and presetting module.
Link block, in order to set up being connected between the energy-conservation wearable device 100 of this mobile terminal 200 and this; Here " connection ", comprises for the first time and connects, recovers connect and re-establish connection etc., link block is also for preserving link information between the two.
Instruction execution module, in order to carry out function button 101 instruction relevant to mobile terminal 200 that trigger of energy-conservation wearable device 100, and to feedback module feedback execution information.
Feedback module, in order to receive information and instruction execution information to energy-conservation wearable device 100 feedback link information, instruction.
Presetting module, for the corresponding relation between the default different triggering command of energy-conservation wearable device 100 and the different application of mobile terminal 200.User can utilize this module, and own conventional control action is set as to more maneuverable actuation of keys, for example click and in by, and by the control action being of little use, who is decided to be more not easy-operating actuation of keys, for example, double-click and grow and press.
It should be noted that:
Above, this example adopts the mode of going forward one by one to describe, and the operating process based on energy-conservation wearable device 100 be have been described in detail; Wherein bluetooth module 103 used can be but be not limited to be to support bluetooth low-power consumption standard BLE chip, and mobile terminal 200 is smart mobile phones, system version: more than Android4.2. and more than IOS6.0.0.
Compared with prior art, a kind of energy-conservation wearable device 100 of supporting that a key triggers provided by the invention, one key Trigger Function and existing function are complicated, the wearable device of complex operation forms sharp contrast, simple to operate, structure understands, accelerate user adaptation process, to user, bring very large facility, give user with good experience; And owing to having reduced unnecessary function, unnecessary button and useless state, reduced bluetooth module power consumption, reduce wearable device total power consumption, extend its battery life; And, reduced hardware cost, saved material resources, the convenient development of popularizing, promoting wearable device.
A kind of energy-conservation wearable device of supporting that a key triggers above the embodiment of the present invention being provided, is described in detail.Applied specific case herein principle of the present invention and embodiment are set forth, the explanation of above embodiment is just for helping to understand method of the present invention and core concept thereof; , for one of ordinary skill in the art, according to thought of the present invention, all will change in specific embodiments and applications, in sum, this description should not be construed as limitation of the present invention meanwhile.

Claims (15)

1. for a key triggering method of wearable device, comprise step:
Gather the key information that is derived from same function button of this wearable device;
According to the touch potential in this key information and/or button time, in conjunction with this wearable device pattern of living in, generate an instruction corresponding with this key information;
Carry out this instruction.
2. a key triggering method according to claim 1, it is characterized in that, this key triggering method also comprises: under this wearable device " shut " mode", trigger this function button and open the power supply of this wearable device, after this electric power starting, the timer of this wearable device is opened and is started timing, and this wearable device enters open mode.
3. a key triggering method according to claim 2, is characterized in that, under this open mode, if this button time is greater than the first setting-up time value, this wearable device is connected with mobile terminal, and this wearable device enters operational mode;
At wearable device, during in operational mode, the instruction of relevant this mobile terminal, sends once to this mobile terminal every one second setting-up time value.
4. a key triggering method according to claim 2, is characterized in that, under this open mode, if this button time is less than this first setting-up time value, generates and carry out the instruction of the battery electric quantity that checks this wearable device.
5. a key triggering method according to claim 3, is characterized in that, under this open mode and under this operational mode, as do not collected key information in one the 3rd setting-up time value, carries out the instruction of closing this wearable device.
6. a key triggering method according to claim 3, is characterized in that, the method also comprises: receive this mobile terminal feedack, carry out after the instruction of the feedback information that feeds back a first kind, carry out the instruction of closing this wearable device; Otherwise carry out after the instruction of the feedback information that feeds back a Second Type, carry out the instruction of closing this wearable device.
7. a key triggering method according to claim 4, it is characterized in that, check after the battery of this wearable device, if the voltage of this battery is lower than the non-setting voltage being set by the user, carry out the instruction of the feedback information of feedback one the 3rd type, then carry out the instruction of closing this wearable device.
8. a key triggering method according to claim 2, it is characterized in that, with this touch potential, distinguish and click, double-click, with this button time, distinguish long by with in by, respectively correspondence click triggering command, double-click triggering command, long by triggering command and in by triggering command.
9. a key triggering method according to claim 3, is characterized in that, every one second setting-up time value, to this mobile terminal, is sending in the step of instruction, comprises step:
Whether the number of times that judgement sends instruction to this mobile terminal is greater than " the 3rd setting-up time value/the second setting-up time value if be greater than " the 3rd setting-up time value/the second setting-up time value , feed back a Second Type information; If be less than " the 3rd setting-up time value/the second setting-up time value , continue to send this instruction to this mobile terminal.
10. for a key flip flop equipment of wearable device, comprising:
Acquisition module, for gathering the key information from same function button;
Instruction generation module, touch potential and/or button time in this key information gathering, in conjunction with this wearable device pattern of living in, generates an instruction corresponding with this key information according to this acquisition module; And
Execution module, carries out the instruction that this instruction generation module generates.
11. 1 kinds of energy-conservation wearable devices of supporting that a key triggers, is characterized in that, this energy-conservation wearable device has a key flip flop equipment claimed in claim 10.
12. energy-conservation wearable devices according to claim 11, is characterized in that, this energy-conservation wearable device comprises function button and built-in bluetooth module, built-in feedback assembly, built-in power supply, built-in timer and built-in antenna;
This function button is unique function button of this energy-conservation wearable device.
13. energy-conservation wearable devices according to claim 12, is characterized in that, this feedback assembly is motor, and this motor is distinguished a plurality of dissimilar feedback informations with different vibrations durations and/or vibrations form.
14. 1 kinds of mobile terminals that the energy-conservation wearable device triggering with support one key described in claim 11 is connected, is characterized in that, this mobile terminal has:
Link block, in order to set up being connected between the energy-conservation wearable device of this mobile terminal and this, and preserves link information;
Instruction execution module, the instruction relevant to this mobile terminal triggering in order to carry out the function button of this energy-conservation wearable device; And
Feedback module, receives that in order to feed back this link information, instruction to this energy-conservation wearable device information and instruction carry out information.
15. mobile terminals according to claim 14, is characterized in that, this mobile terminal also comprises presetting module;
This presetting module, for the corresponding relation between each triggering command of default this wearable device and each application of this mobile terminal.
CN201410268216.6A 2014-06-16 2014-06-16 Energy-saving wearable device capable of being triggered through one key, mobile terminal, and triggering method and device CN104020694A (en)

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CN106354005A (en) * 2016-11-07 2017-01-25 深圳智能表芯科技有限公司 Control method for single-key intelligent watch in switchable mode and intelligent watch thereof
CN109479261A (en) * 2016-11-08 2019-03-15 华为技术有限公司 Re-establish the method and WLAN devices of connection
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CN108319127A (en) * 2017-01-16 2018-07-24 深圳智能表芯科技有限公司 A kind of key control method and device of smartwatch
CN106707820A (en) * 2017-02-21 2017-05-24 北京小米移动软件有限公司 Control method for functional modules and device
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Application publication date: 20140903