CN104571514B - Information processing method and wearable electronic equipment - Google Patents
Information processing method and wearable electronic equipment Download PDFInfo
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- CN104571514B CN104571514B CN201410849275.2A CN201410849275A CN104571514B CN 104571514 B CN104571514 B CN 104571514B CN 201410849275 A CN201410849275 A CN 201410849275A CN 104571514 B CN104571514 B CN 104571514B
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Abstract
The embodiment of the invention discloses a kind of information processing method, the method is applied in a wearable electronic equipment, and the electronic equipment includes at least the first noumenon, and the first noumenon is at the first form or the second form;The described method includes: detecting the first parameter of the electronic equipment;First parameter is parsed, the first parsing result is obtained;According to first parsing result, adjusting the first noumenon is corresponding form;Also disclose a kind of wearable electronic equipment.It can be realized the automatic adjustment of the wearing elasticity of wearable electronic equipment, promote user experience, embody the functional diversity of electronic equipment.
Description
Technical field
The present invention relates to the information processing technologies, and in particular to a kind of information processing method and wearable electronic equipment.
Background technique
The wearable electronic equipment such as smartwatch, Intelligent bracelet due to its portability, intelligence and by the blueness of user
It looks at.Wearable device needs to manually adjust wearing elasticity when user wears, and user experience is poor.
Summary of the invention
To solve existing technical problem, the embodiment of the present invention is to provide a kind of information processing method and wearable
Formula electronic equipment can automatically adjust the wearing elasticity of wearable electronic equipment, promote user experience, embody electronic equipment
Functional diversity.
The technical solution of the embodiment of the present invention is achieved in that
The embodiment of the invention provides a kind of information processing methods, are applied in a wearable electronic equipment, the electricity
Sub- equipment includes at least the first noumenon, and the first noumenon is at the first form or the second form;The described method includes:
Detect the first parameter of the electronic equipment;
First parameter is parsed, the first parsing result is obtained;
According to first parsing result, adjusting the first noumenon is corresponding form.
In above scheme, the electronic equipment further includes first sensor;The electronic equipment can be worn on user's
First position;
The active force when electronic equipment is worn on first position is detected by the first sensor;
Whether the detected active force of judgement meets the first preset range, and generates the first judging result;
When the detected active force of the first judging result characterization meets the first preset range, the first instruction is generated, is rung
The first instruction is answered, control the first noumenon is the first form;
When the detected active force of the first judging result characterization does not meet the first preset range, the second instruction is generated,
The second instruction of response, control the first noumenon are the second form.
In above scheme, the electronic equipment includes second sensor;
The first exercise parameter of the electronic equipment is detected by the second sensor;
Obtain variable quantity of first exercise parameter within the first predetermined time;
Judge whether the variable quantity meets the first change condition, and generates the second judging result;
When the second judging result, which characterizes the variable quantity, meets the first change condition, the first instruction, response first are generated
Instruction, control the first noumenon are the first form;
When the second judging result is unsatisfactory for the first change condition for characterizing the variable quantity, the second instruction is generated, is rung
The second instruction is answered, control the first noumenon is the second form.
In above scheme, the electronic equipment further includes 3rd sensor;The electronic equipment can be worn on user's
First position;
The first data are obtained by 3rd sensor, the first data are used to characterize the physiological data of the user;
Judge that the first data within second scheduled time whether without departing from the first preset range, and generate third judgement knot
Fruit;
When third judging result for characterize the first data within second scheduled time without departing from the first preset range when, it is raw
At the first instruction, the first instruction of response, control the first noumenon is the first form;
When third judging result exceeds the first preset range within second scheduled time for characterizing the first data, generate
Second instruction, the second instruction of response, control the first noumenon is the second form.
In above scheme, the electronic equipment further includes the first device;The first noumenon includes at least the first deformable body;
First instruction of response, comprising:
The first operation is carried out to the first deformable body by the first device of control, makes the first deformable body that the first deformation occur;
When the first deformation quantity reaches the first deformation condition, the first noumenon is in the first form;
Second instruction of response, comprising:
The second operation is carried out to the first deformable body by the second device of control, makes the first deformable body that the second deformation occur;
When the second deformation quantity reaches the second deformation condition, the first noumenon is in the second form;
Wherein, the first deformable body is less than the volume under the second deformation in the volume under the first deformation.
In above scheme, the method also includes:
When the first noumenon is in the first form, the first noumenon is the first length;When the first noumenon is in the second form,
The first noumenon is the second length;The first noumenon includes at least N number of sub- ontology, and N is positive integer;First length is greater than the
Two length;
First instruction of response, comprising:
Second device of the electronic equipment generates the first active force, under first active force, N number of sub- ontology
At least one of sub- ontology generate the first displacement in the first predetermined direction causes, form the first noumenon with the first length;
Second instruction of response, comprising:
Second device generates the second active force, under second active force, at least one of described N number of sub- ontology
Ontology generates second displacement on the second predetermined direction, forms the first noumenon with the second length.
The embodiment of the invention also provides a kind of wearable electronic equipment, the electronic equipment includes at least first
Body, the first noumenon are at the first form or the second form;The electronic equipment includes:
First detection unit, for detecting the first parameter of the electronic equipment;
First resolution unit obtains the first parsing result for parsing first parameter;
First adjusts unit, for according to first parsing result, adjusting the first noumenon to be corresponding form.
In above scheme, the electronic equipment further includes first sensor;The electronic equipment can be worn on user's
First position;
The first detection unit is worn on first position for detecting the electronic equipment by the first sensor
When active force;
First resolution unit, whether the active force for judging detected meets the first preset range, and generates
First judging result;
When the detected active force of the first judging result characterization meets the first preset range, the first instruction is generated;With/
Or, generating the second instruction when the detected active force of the first judging result characterization does not meet the first preset range;
Correspondingly, described first adjusts unit, for responding the first instruction, control the first noumenon is the first form;With/
Or, the second instruction of response, control the first noumenon are the second form.
In above scheme, the electronic equipment includes second sensor;
The first detection unit, the first movement for detecting the electronic equipment by the second sensor are joined
Amount;
First resolution unit, for obtaining variable quantity of first exercise parameter within the first predetermined time;
Judge whether the variable quantity meets the first change condition, and generates the second judging result;
When the second judging result, which characterizes the variable quantity, meets the first change condition, the first instruction is generated;And/or when
When second judging result is unsatisfactory for the first change condition for characterizing the variable quantity, the second instruction is generated;
Correspondingly, described first adjusts unit, for responding the first instruction, control the first noumenon is the first form;With/
Or, the second instruction of response, control the first noumenon are the second form.
In above scheme, the electronic equipment further includes 3rd sensor;The electronic equipment can be worn on user's
First position;
The first detection unit, for obtaining the first data by 3rd sensor, the first data are described for characterizing
The physiological data of user;
First resolution unit, for judging the first data within second scheduled time whether without departing from the first predetermined model
In enclosing, and generate third judging result;
When third judging result for characterize the first data within second scheduled time without departing from the first preset range when, it is raw
At the first instruction;And/or when third judging result exceeds the first predetermined model for characterizing the first data within second scheduled time
When enclosing, the second instruction is generated;
Correspondingly, described first adjusts unit, for responding the first instruction, control the first noumenon is the first form;With/
Or, the second instruction of response, control the first noumenon are the second form.
In above scheme, the electronic equipment further includes the first device;The first noumenon includes at least the first deformable body;
Described first adjusts unit, is also used to carry out the first operation to the first deformable body by the first device of control, makes the
First deformation occurs for one deformable body;When the first deformation quantity reaches the first deformation condition, the first noumenon is in the first form;
And/or the second operation is carried out to the first deformable body by the second device of control, make the first deformable body that the second shape occur
Become;When the second deformation quantity reaches the second deformation condition, the first noumenon is in the second form;
Wherein, the first deformable body is less than the volume under the second deformation in the volume under the first deformation.
In above scheme, when the first noumenon is in the first form, the first noumenon is the first length;It is in the first noumenon
When the second form, the first noumenon is the second length;The first noumenon includes at least N number of sub- ontology, and N is positive integer;Described
One length is greater than the second length;
Described first adjusts unit, is also used to generate the first active force by the second device, under first active force,
The sub- ontology of at least one of N number of sub- ontology generates the first displacement in the first predetermined direction causes, and being formed has the first length
The first noumenon;And/or
The second active force is generated by second device, under second active force, in N number of sub- ontology extremely
A few sub- ontology generates second displacement on the second predetermined direction, forms the first noumenon with the second length.
Information processing method provided in an embodiment of the present invention and wearable electronic equipment, wherein the method is applied to
In one wearable electronic equipment, the electronic equipment includes at least the first noumenon, and the first noumenon is at the first shape
State or the second form;The described method includes: detecting the first parameter of the electronic equipment;It parses first parameter, obtains the
One parsing result;According to first parsing result, adjusting the first noumenon is corresponding form.Utilize the embodiment of the present invention, energy
The automatic adjustment for enough realizing the wearing elasticity of wearable electronic equipment, promotes user experience, and the function of embodying electronic equipment is more
Sample.
Detailed description of the invention
Fig. 1 is the implementation process schematic diagram of the first embodiment of information processing method provided by the invention;
Fig. 2 is the implementation process schematic diagram of the second embodiment of information processing method provided by the invention;
Fig. 3 is the implementation process schematic diagram of the 3rd embodiment of information processing method provided by the invention;
Fig. 4 is the diagrammatic cross-section of a watchband provided in an embodiment of the present invention;
Fig. 5 (a)~(c) is the schematic diagram of another watchband provided in an embodiment of the present invention;
Fig. 6 is the composed structure schematic diagram of wearable electronic equipment embodiment provided by the invention.
Specific embodiment
Below in conjunction with attached drawing to a preferred embodiment of the present invention will be described in detail, it should be understood that described below is excellent
Select embodiment only for the purpose of illustrating and explaining the present invention and is not intended to limit the present invention.
In the following embodiment of information processing method provided by the invention and wearable electronic equipment, related electricity
Sub- equipment includes but is not limited to: smartwatch, Intelligent bracelet, intelligent glasses etc..The preferred electronic equipment of the embodiment of the present invention
Object is smartwatch.
Embodiment of the method one
The first embodiment of information processing method provided by the invention is applied to a wearable electronic equipment, the electricity
Sub- equipment includes at least the first noumenon, and the first noumenon is at the first form or the second form.The electronic equipment is excellent
It is selected as smartwatch;The first noumenon is preferably the watchband of smartwatch.Watchband provided in this embodiment has elastic adjustable
Section property is that watchband is in loose state in the first form, is in tight state in the second form, that is, watchband;It is of course also possible to
Be that watchband is in tight state in the first form, be that watchband is in loose state in the second form, it is provided by the invention with
Under in each embodiment, be illustrated so that the first form is loose state, the second form is tight state as an example.
Fig. 1 is the implementation process schematic diagram of the first embodiment of information processing method provided by the invention;As shown in Figure 1,
The described method includes:
Step 101: detecting the first parameter of the electronic equipment;
Here, first parameter can be specially the wearing elasticity of the smartwatch, adjust on this basis
The elasticity of watchband.In addition, user is worn on the intelligence at such as wrist of a certain position of user when being in movement or non-athletic state
The state of energy wrist-watch also will be movement or non-athletic state, so the speed or acceleration according to electronic equipment itself can determine whether
Current smartwatch is kept in motion or non-athletic state;Wherein, the first parameter is the speed or acceleration of smartwatch.
Furthermore, it is contemplated that user is kept in motion or when non-athletic state, the physiological data of user itself such as heartbeat, blood pressure, pulse
It is very different Deng existing in two states, so smartwatch can be judged currently by detecting the physiological status of user
Smartwatch is kept in motion or non-athletic state;Wherein, first parameter can be specially that smartwatch detects
User physiological data.
Step 102: parsing first parameter obtains the first parsing result;
Here, according to smartwatch the first parameter detected, judge that smartwatch is in the state for needing to adjust pine still
The state for needing to tighten.
Step 103: according to first parsing result, adjusting the first noumenon is corresponding form.
Here, when detecting that the smartwatch currently worn is tighter, then smartwatch is adjusted as pine;It is current when detecting
The smartwatch of wearing is more loose, then it is tight for adjusting smartwatch.The intelligence for needing to wear in view of the user in movement
Wrist-watch tightlier, such as the smartwatch pine that the user in resting state needs to wear in non-athletic, so, detecting
When user is kept in motion middle adjust smartwatch watchband tightlier, the adjusting when detecting that user is in non-athletic state
The watchband pine of smartwatch.
In a preferred embodiment of the invention, the electronic equipment further includes first sensor, first sensing
Device is pressure sensor;The electronic equipment can be worn at the wrist of first position such as user of user;The method is also
Include:
The active force when electronic equipment is worn on first position is detected by the first sensor;Judgement is detected
To active force whether meet the first preset range, and generate the first judging result;Detected by the first judging result characterization
Active force meet the first preset range when, generate first instruction, response first instruction, control the first noumenon be the first form;
When the detected active force of the first judging result characterization does not meet the first preset range, the second instruction, response second are generated
Instruction, control the first noumenon are the second form.
In above scheme, pressure sensor detects the pressure value between wrist and smartwatch, to pass through detection pressure value
Mode obtains wearing elasticity.Due to consideration that the user for wearing some smartwatch is relatively fixed, wrist it is fat or thin
It is also relatively fixed in a period of time, so being previously recorded in smartwatch and the pressure at wrist when user feels to wear tight
Value, obtains the first pre-set pressure range;And/or it is recorded in smartwatch and the pressure at wrist when user feels to wear loose
Value, obtains the second pre-set pressure range.Loose shape is in as watchband only to have recorded the first pre-set pressure range, first form
For state, when smartwatch detects current pressure values by pressure sensor, judge that detected current pressure values are
It is no to be located at the first pre-set pressure range, when being judged as YES, illustrates that current smartwatch wears to obtain tension, need to adjust pine;It is no
Then, it needs to adjust tightlier.
In presently preferred embodiment, the electronic equipment includes second sensor;Second sensing
Device can be gravity sensor or acceleration transducer;The method also includes:
The first exercise parameter of the electronic equipment is detected by the second sensor;The first exercise parameter is obtained
Variable quantity in one predetermined time;Judge whether the variable quantity meets the first change condition, and generates the second judging result;When
When second judging result characterizes the variable quantity and meets the first change condition, the first instruction is generated, the first instruction of response, control the
One ontology is the first form;When the second judging result is unsatisfactory for the first change condition for characterizing the variable quantity, the is generated
Two instructions, the second instruction of response, control the first noumenon is the second form.
In above scheme, when the second sensor is gravity sensor, the first exercise parameter is speed;When described
When two sensors are acceleration transducer, the first exercise parameter is acceleration.Current smartwatch is detected by gravity sensor
Speed or the acceleration of current smartwatch is detected by acceleration transducer.Due to consideration that wearing some smartwatch
User be in movement or in it is non-athletic middle when, the speed of itself and the smartwatch worn or the variable quantity of acceleration
Certain characteristic is all had within a certain period of time, so it is as non-in being in 30 minutes within a certain period of time to be previously recorded in user
The speed of smartwatch or the variation range of acceleration when motion state regard recorded variation range as the first variation item
Part.By second sensor is acceleration transducer, first form is for watchband is in loose state, in current 30 minutes
It is primary every 10 minutes acceleration by acceleration transducer detection smartwatch, calculate the acceleration of smartwatch in 30 minutes
The change rate of degree judges that whether the change rate meets whether the first change condition is located in pre-recorded variation range, sentences
When breaking to be, illustrate that in current 30 minutes, user is in non-athletic, generates the first regulating command, adjusting watchband is pine;
When being judged as NO, illustrate that user is in movement in current 30 minutes, generates the second regulating command, it is tight for adjusting watchband.Its
In, existing related description is referred to by the method for gravity sensor acquisition speed, which is not described herein again.
In another preferred embodiment of the invention, the electronic equipment further includes 3rd sensor;The third passes
Sensor can be the sensor for detecting physiological data such as blood pressure, heartbeat, the pulse of user, be specifically as follows resonant mode sensing
Device;The first position that the electronic equipment can be worn on user is such as worn at the wrist of user;The described method includes:
The first data are obtained by 3rd sensor, the first data are used to characterize the physiological data of the user;Judge
One data generate third judging result within second scheduled time whether without departing from the first preset range;When third judges
As a result for characterize the first data within second scheduled time without departing from the first preset range when, generate the first instruction, response the
One instruction, control the first noumenon are the first form;When third judging result is for characterizing the first data within second scheduled time
When beyond the first preset range, the second instruction is generated, the second instruction of response, control the first noumenon is the second form.
In above scheme, the physiological datas such as blood pressure, heartbeat or the pulse of user are detected by resonant transducer.Due to
In view of wearing the user of some smartwatch when in movement or both non-athletic states, its own heartbeat, blood pressure,
Pulse etc. is there are larger difference, so physiological change data when pre-recorded user is in non-athletic state, depending on what is recorded
Physiological change data are the first preset range.Loose shape is in using resonant transducer detection blood pressure, first form as watchband
For state, the blood pressure of user is detected by resonant transducer, judges that blood pressure detected is such as within a certain period of time in 6 minutes
It is no whether to be located in pre-recorded variation range without departing from the first preset range, when being judged as YES, illustrate to be in user
In non-athletic, the first regulating command is generated, adjusting watchband is pine;When being judged as NO, illustrates that user is in movement, generate the
Two regulating commands, it is tight for adjusting watchband.
It can be seen that in the embodiment of the present invention, by the parsing result of the first parameter to smartwatch detected, really
Setting the tone and saving the watchband of smartwatch is that pine is a little or tight, realizes the automatic tune that elasticity is worn to wearable electronic equipment
It is whole, user experience is promoted, the functional diversity of electronic equipment is embodied.
Embodiment of the method two:
The present embodiment is based on preceding method embodiment one, instructs and respond second instruction to the response described first
It is further described.
The method also includes: the electronic equipment further includes the first device;The first noumenon includes at least the first shape
Variant;
Step 201: the first operation being carried out to the first deformable body by the first device of control, the first deformable body is made to occur first
Deformation;
In the present embodiment, the watchband of the smartwatch is soft watchband, such as is made up of rubber, by moccasin
It is made.First deformable body can be the air bag, and it also may include multiple gas that the soft watchband, which may include entire air bag,
Capsule, herein without limitation.First device can be air pump, preferably be configured at the ontology of smartwatch (in smartwatch
Other parts in addition to watchband) in, it may be set to be in watchband.
Fig. 4 is the diagrammatic cross-section of a watchband provided in an embodiment of the present invention;The watchband by with entire air bag production and
At, comprising: internal layer 21, middle layer 22 and outer layer 23;Wherein, the internal layer 21 has dilatancy, and the outer layer 23 can have swollen
Swollen property can also not have dilatancy, and the middle layer 22 is voided layer.In determining that active user is in non-athletic, and wrist-watch is worn
Wear tighter, needing to adjust more loose i.e. the first forms is that watchband is in for pine state, when smartwatch detects user to the
When the operation of one predetermined key, the first predetermined key responds the operation for deflating to watchband, the air pump to middle layer 22 into
Row bleed air operation, the volume of middle layer 22 gradually becomes smaller in deflation course, so that the volume of watchband becomes smaller;With to middle layer
22 continuous deflation, internal layer 21 gradually decrease the compaction degree to wrist, that is, the pressure value at watchband and wrist are reduced, so that intelligence
The wearing looseness of energy wrist-watch increases.
Step 202: when the first deformation quantity reaches the first deformation condition, the first noumenon is in the first form;
Here, it is previously recorded in when user's wrist is felt good to the discharge quantity of middle layer 22;In to software register band
During interbed 22 is deflated, when judging that discharge quantity reaches the record value, air pump is forbidden to continue to put middle layer 22
Gas, to stop deflating, to enable user obtain good wear comfort.
Step 203: the second operation being carried out to the first deformable body by the second device of control, the first deformable body is made to occur second
Deformation;
Here, as shown in figure 4, to determine that active user is in movement, and wrist-watch is worn more loose, needs to adjust tight
That is the second form is that watchband is in for tight state, when smartwatch detects operation of the user to the second predetermined key, second
Predetermined key responds the operation, the air pump is inflated operation to middle layer 22, in gas replenishment process for being inflated to watchband
The volume of middle middle layer 22 becomes larger, so that the volume of watchband becomes larger;With the continuous inflation to middle layer 22, there is expansion
Property internal layer 21 gradually expand, wrist is gradually compressed, to increase the pressure value at watchband and wrist, so that the pendant of smartwatch
Wear tightness increasing.
Step 204: when the second deformation quantity reaches the second deformation condition, the first noumenon is in the second form;Wherein, first
Deformable body is less than the volume under the second deformation in the volume under the first deformation.
Here, it is previously recorded in when user's wrist is felt good to the aeration quantity of middle layer 22;In to software register band
During interbed 22 is inflated, when judging that aeration quantity reaches the record value, air pump is forbidden to continue to fill middle layer 22
Gas, to stop inflating, to enable user obtain good wear comfort.
In above scheme, with the inflation by air pump to middle layer 22, the mesh for reaching and adjusting wrist-watch and wearing elasticity of deflating
For, in addition, the middle layer 22 can also carry certain electrolyte, which can lead to middle layer 22 when heated
Expansion, which can lead to the deflation of middle layer 22 while cooling, i.e., by heating to the electrolyte, cooling reach
It increases the compaction degree of watchband and wrist or reduces the purpose of compaction degree.Specifically, to determine that active user is in movement, and hand
Table is worn more loose, and needing to adjust tighter i.e. the second form is that watchband is in for tight state, when smartwatch detects user
When to the operation of third predetermined key, third predetermined key is used to respond the behaviour to the heating operation of 22 electrolyte of middle layer of watchband
Make, heating operation is carried out to the electrolyte, the heating of electrolyte brings the expansion of middle layer 22, the pressure between wrist-watch and wrist
Force value is increased.It is previously recorded in heating time when user's wrist is felt good to electrolyte;In the electrolysis to middle layer 22
During liquid is heated, when judging that heating time reaches the record value, forbids continuing to heat electrolyte, that is, stop
Heating, to enable user obtain good wear comfort.
It can be seen that can be reached by air pump to inflation, the deflation of middle layer in the embodiment of the present invention and adjust wrist-watch pendant
The purpose of elasticity is worn, and/or pine can be worn by the heating of the electrolyte carried to middle layer, the cooling adjusting wrist-watch that reaches
The purpose of tightness realizes the automatic adjustment to the wearing elasticity of wearable electronic equipment, promotes user experience, embodies electricity
The functional diversity of sub- equipment.
Embodiment of the method three:
The present embodiment be based on previous embodiment one, to it is described response it is described first instruction and respond it is described second instruction do into
The description of one step.
The method also includes: the electronic equipment further includes the second device;The first noumenon includes at least N number of son originally
Body, N are positive integer.
Watchband provided by the present embodiment is metal watchband, and the sub- ontology is sublist band, i.e., the described watchband includes N knot
Watchband, second device can be motor, specially micro motor, may be provided in each sublist band.Each sublist band can
Include first part and second part, can realize sublist band by the buckle elasticity to first part and second part
It elongates or shortens, whole table band is elongated or shortened to realize, and then achieve the purpose that adjusting tightness.
When the first noumenon is in the first form, the first noumenon is the first length;When the first noumenon is in the second form,
The first noumenon is the second length;First length is greater than the second length.It is, the first watchband is loose state, the second form
For tight state, the length of the watchband in loose state is greater than the length of the watchband in tight state.
Step 301: second device generates the first active force, under first active force, in N number of sub- ontology
At least one sub- ontology generate the first displacement in the first predetermined direction causes, form the first noumenon with the first length;
Fig. 5 (a)~(c) is the schematic diagram of another watchband provided in an embodiment of the present invention;In Fig. 5 (a), the watchband is
Metal watchband, watchband are formed by connecting by N number of sublist band 51;Fig. 5 (b), (c) are specially the sectional view of a sub- watchband, in Fig. 5
(b), in (c), the first part 510 of sublist band 51 includes micro motor 5101;The second part 511 includes M card
Button (buckle 1, buckle 2 ... buckle M), M is positive integer.
In the present embodiment, it is specified that: first part 510 is snapped in the length of the sublist band obtained when the buckle 1 of second part 511
Degree is longer than the length that first part 510 is snapped in the buckle 2 of second part 511, and first part 510 is snapped in second part 511
Buckle 2 when the obtained length of sublist band be longer than the length etc. that first part 510 is snapped in the buckle 3 of second part 511.
Here, in determine that active user is in non-athletic, and wrist-watch is worn relatively tight as first part 510 is snapped in the
On the buckle 4 of two parts 511, needing to adjust more loose i.e. the first form is that watchband is in for loose state, when smartwatch detects
When to user to the operation of the 4th predetermined key, the 4th predetermined key responds the operation, micro motor for the elongation to sub- watchband
5101 generate the first active force, and under the first active force, as shown in Fig. 5 (b), original is snapped on the buckle 4 of second part 511
First part 510 is snapped on buckle 1, becomes first part 510 and the buckle degree of second part 511 than former buckle degree
Pine, sublist band realize elongation so that the lengthening of whole table band reaches to get the watchband longer than former watchband has been arrived in X-direction
Adjust the purpose for wearing looseness.
Step 302: the second device generates the second active force, under second active force, in N number of sub- ontology extremely
A few sub- ontology generates second displacement on the second predetermined direction, forms the first noumenon with the second length.
Here, to determine that active user is in movement, and wrist-watch is worn more loose as first part 510 is snapped in second
On the buckle 1 of part 511, needing to adjust tighter i.e. the second form is that watchband is in for tight state, when smartwatch detects
When user is to the operation of the 5th predetermined key, the 5th predetermined key responds the operation, micro motor 5101 for the shortening to sub- watchband
The second active force is generated, under the second active force, as shown in Fig. 5 (c), original is snapped in first on the buckle 1 of second part 511
On the buckle of part 510 4, the buckle degree of first part 510 and second part 511 is set to become tight than former buckle degree, sublist band is in X
Axis direction realize shortening so that whole table band shorten to get the watchband short than former watchband has been arrived, reached adjust wearing tightness
Purpose.
In above scheme, the different length of sublist band are to be snapped in the different of second part by first part to buckle in fact
Existing, further, it is also possible to which first part and second part can also pass through spring, such as elastic force of the connecting component with elastic properties
Rope is attached, and is increased or is reduced with the elasticity by these coupling parts and realize elongating or shortening for watchband come sub, to reach
Whole table band elongates or shortens, and then realizes the purpose for adjusting and wearing elasticity.
It can be seen that in the embodiment of the present invention, can elongating or shortening with antithetical phrase watchband, realize the lengthening to whole table band
Or shorten, and then realize the automatic adjustment to the wearing elasticity of wearable electronic equipment, user experience is promoted, electronics is embodied
The functional diversity of equipment.
Electronic equipment embodiment one:
The first embodiment of wearable electronic equipment provided by the invention, the electronic equipment include at least first
Body, the first noumenon are at the first form or the second form.The electronic equipment is preferably smartwatch;Described first
Ontology is preferably the watchband of smartwatch.Watchband provided in this embodiment has elastic controllability, is in the first form
Watchband is in loose state, is in tight state in the second form, that is, watchband;It is of course also possible to be at watchband in the first form
It is watchband in loose state, following embodiment provided by the invention in the second form, with the first shape in tight state
State is that send state, the second form be to be illustrated for tight state.
Fig. 6 is the composed structure schematic diagram of electronic equipment embodiment provided by the invention;As shown in fig. 6, the electronics is set
Standby includes: first detection unit 601, the first resolution unit 602, first adjusting unit 603;Wherein,
First detection unit 601, for detecting the first parameter of the electronic equipment;
Here, first parameter can be specially the wearing elasticity of the smartwatch, adjust on this basis
The elasticity of watchband.In addition, user is worn on the intelligence at such as wrist of a certain position of user when being in movement or non-athletic state
The state of energy wrist-watch also will be movement or non-athletic state, so the first detection unit 601, which can pass through, detects electronic equipment
The speed or acceleration of itself can determine whether that current smartwatch is kept in motion or non-athletic state;Wherein, the first ginseng
Amount is the speed or acceleration of smartwatch.Furthermore, it is contemplated that user is kept in motion or when non-athletic state, user itself
Physiological data such as heartbeat, blood pressure, pulse in two states exist be very different, so the first detection unit
601 can be kept in motion or non-athletic state by detecting the physiological status of user to judge current smartwatch;Wherein,
First parameter can be specially the physiological data for the user that smartwatch detects.
First resolution unit 602 obtains the first parsing result for parsing first parameter;
Here, according to smartwatch the first parameter detected, the first resolution unit 602 judges that smartwatch is in needs
The state for adjusting the state of pine still to need to tighten.
First adjusts unit 603, for according to first parsing result, adjusting the first noumenon to be corresponding form;
Here, when the first parsing result is used to characterize the relatively tight of current smartwatch wearing, then the first adjusting unit 603 is adjusted
Saving smartwatch is pine;When the pine that the first parsing result is worn for characterizing current smartwatch, then first unit is adjusted
603 adjust smartwatch as tightly.In view of the user in movement needs the smartwatch worn tightlier, in non-athletic
Such as rest in user need wear smartwatch pine, so, detect user be kept in motion in when adjust intelligence
The watchband of energy wrist-watch tightlier, the watchband pine of smartwatch is adjusted when detecting that user is in non-athletic state.
In a preferred embodiment of the invention, the electronic equipment further includes first sensor, first sensing
Device is pressure sensor;The electronic equipment can be worn at the wrist of first position such as user of user;Specifically, described
First detection unit 601, for detecting the effect when electronic equipment is worn on first position by the first sensor
Power;First resolution unit 602 for judging whether detected active force meets the first preset range, and generates the
One judging result;When the detected active force of the first judging result characterization meets the first preset range, the first instruction is generated;
And/or when the detected active force of the first judging result characterization does not meet the first preset range, generate the second instruction;Phase
It answers, described first adjusts unit 603, and for responding the first instruction, control the first noumenon is the first form;And/or response the
Two instructions, control the first noumenon are the second form.
In above scheme, pressure sensor detects the pressure value between wrist and smartwatch, to pass through detection pressure value
Mode obtains wearing elasticity.Due to consideration that the user for wearing some smartwatch is relatively fixed, wrist it is fat or thin
It is also relatively fixed in a period of time, so the recording unit (not illustrating in Fig. 6) of the electronic equipment is previously recorded in user
Smartwatch and the pressure value at wrist, obtain the first pre-set pressure range when feeling to wear tight;And/or it is recorded in user's sense
Smartwatch and the pressure value at wrist, obtain the second pre-set pressure range when feel is worn loose.It is default only to have recorded first
Pressure limit, first form are that watchband is in for loose state, are detected in first detection unit 601 by pressure sensor
When to current pressure values, the first resolution unit 602 judges whether detected current pressure values are located at the first preset pressure model
It encloses, when being judged as YES, illustrates that current smartwatch wears to obtain tension, triggering first adjusts unit 603 and adjusts watchband pine;It is no
Then, triggering first adjusts unit 603 and adjusts watchband tightlier.
In presently preferred embodiment, the electronic equipment includes second sensor;Second sensing
Device can be gravity sensor or acceleration transducer;Specifically, the first detection unit 601, for passing through described second
Sensor detects the first exercise parameter of the electronic equipment;First resolution unit 602, for obtaining the first exercise parameter
Variable quantity within the first predetermined time, judges whether the variable quantity meets the first change condition, and generates the second judgement knot
Fruit generates the first instruction when the second judging result, which characterizes the variable quantity, meets the first change condition;And/or sentence when second
When disconnected result is unsatisfactory for the first change condition for characterizing the variable quantity, the second instruction is generated;Correspondingly, described first is adjusted
Unit 603, for responding the first instruction, control the first noumenon is the first form;And/or the second instruction of response, control first
Body is the second form.
In above scheme, when the second sensor is gravity sensor, the first exercise parameter is speed;When described
When two sensors are acceleration transducer, the first exercise parameter is acceleration.The first detection unit 601 passes through gravity sensitive
Device detects the speed of current smartwatch or detects the acceleration of current smartwatch by acceleration transducer.Due to considering
Be in movement to the user for wearing some smartwatch or in it is non-athletic middle when, the speed of itself and the smartwatch worn
The variable quantity of degree or acceleration all has certain characteristic within a certain period of time, so the recording unit of the electronic equipment is preparatory
It is recorded in the speed of smartwatch or the change of acceleration when user is such as in non-athletic state in 30 minutes within a certain period of time
Change range, regards recorded variation range as first change condition.Using second sensor as acceleration transducer, described
One form is that watchband is in for loose state, and the first detection unit 601 is in current 30 minutes every 10 minutes by adding
The acceleration that velocity sensor detects smartwatch is primary, and first resolution unit 602 calculates smartwatch in 30 minutes
The change rate of acceleration judges whether the change rate meets whether the first change condition is located at pre-recorded variation range
It is interior, when being judged as YES, illustrate that in current 30 minutes, user is in non-athletic, generates the first regulating command, triggering first is adjusted
Saving unit 603 and adjusting watchband is pine;When first resolution unit 602 is judged as NO, illustrate in current 30 minutes at user
In movement, the second regulating command is generated, it is tight that triggering first, which adjusts unit 603 and adjusts watchband,.Wherein, pass through gravity sensitive
The method of device acquisition speed refers to existing related description, and which is not described herein again.
In another preferred embodiment of the invention, the electronic equipment further includes 3rd sensor;The third passes
Sensor can be the sensor for detecting physiological data such as blood pressure, heartbeat, the pulse of user, be specifically as follows resonant mode sensing
Device;The first position that the electronic equipment can be worn on user is such as worn at the wrist of user;Specifically, first inspection
Unit 601 is surveyed, for obtaining the first data by 3rd sensor, the first data are used to characterize the physiological data of the user;
First resolution unit 602, for judge the first data within second scheduled time whether without departing from the first preset range,
And generate third judging result;When third judging result is pre- without departing from first within second scheduled time for characterizing the first data
When determining range, the first instruction is generated;And/or when third judging result surpasses within second scheduled time for characterizing the first data
Out when the first preset range, the second instruction is generated;Correspondingly, described first adjusts unit 603, for responding the first instruction, control
The first noumenon processed is the first form;And/or the second instruction of response, control the first noumenon are the second form.
In above scheme, first detection unit 601 detects blood pressure, heartbeat or the pulse of user by resonant transducer
Equal physiological datas.Due to consideration that the user of some smartwatch is worn when in movement or both non-athletic states,
There are larger differences for itself heartbeat, blood pressure, pulse etc., so the pre-recorded user of the recording unit of the electronic equipment is in
Physiological change data when non-athletic state regard recorded physiological change data as the first preset range.It is sensed with resonant mode
Device detects blood pressure, first form is that watchband is in for loose state, and first detection unit 601 is examined by resonant transducer
The blood pressure of user is surveyed, first resolution unit 602 judges whether blood pressure detected does not surpass in 6 minutes such as within a certain period of time
Whether the first preset range is located in pre-recorded variation range out, when being judged as YES, illustrates to be in non-athletic in user
In, the first regulating command is generated, it is pine that triggering first, which adjusts unit 603 and adjusts watchband,;When being judged as NO, illustrate that user is in
In movement, the second regulating command is generated, it is tight that triggering first, which adjusts unit 603 and adjusts watchband,.
It can be seen that in the embodiment of the present invention, by the parsing result of the first parameter to smartwatch detected, really
Setting the tone and saving the watchband of smartwatch is that pine is a little or tight, realizes the automatic tune that elasticity is worn to wearable electronic equipment
It is whole, user experience is promoted, the functional diversity of electronic equipment is embodied.
Electronic equipment embodiment one:
The present embodiment is based on aforementioned electronic devices embodiment one, and the electronic equipment further includes the first device;Described first
Ontology includes at least the first deformable body;
Described first adjusts unit 603, is also used to carry out the first operation to the first deformable body by the first device of control, make
First deformation occurs for the first deformable body;When the first deformation quantity reaches the first deformation condition, the first noumenon is in the first form;
In the present embodiment, the watchband of the smartwatch is soft watchband, such as is made up of rubber, by moccasin
It is made.First deformable body can be the air bag, and it also may include multiple gas that the soft watchband, which may include entire air bag,
Capsule, herein without limitation.First device can be air pump, preferably be configured at the ontology of smartwatch (in smartwatch
Other parts in addition to watchband) in, it may be set to be in watchband.
Fig. 4 is the diagrammatic cross-section of a watchband provided in an embodiment of the present invention;The watchband by with entire air bag production and
At, comprising: internal layer 21, middle layer 22 and outer layer 23;Wherein, the internal layer 21 has dilatancy, and the outer layer 23 can have swollen
Swollen property can also not have dilatancy, and the middle layer 22 is voided layer.
In determining that active user is in non-athletic, and wrist-watch is worn tighter, needs to adjust more loose i.e. the first form and is
Watchband is in for loose state, and when smartwatch, specifically the first adjusting unit 603 detects user to the behaviour of the first predetermined key
When making, the first predetermined key responds the operation, controls the air pump and carry out deflation behaviour to middle layer 22 for deflating to watchband
Make, the volume of middle layer 22 gradually becomes smaller in deflation course, so that the volume of watchband becomes smaller;With to the continuous of middle layer 22
It deflates, internal layer 21 gradually decreases the compaction degree to wrist, that is, the pressure value at watchband and wrist is reduced, so that smartwatch
Looseness is worn to increase.The recording unit of the electronic equipment is previously recorded in putting to middle layer 22 when user's wrist is felt good
Tolerance;During the middle layer 22 to software register band is deflated, the first adjusting unit 603 judges that discharge quantity reaches the note
When record value, air pump is forbidden to continue to deflate to middle layer 22, to stop deflating, to enable user obtain good comfortable wearing
Degree.
And/or the first adjusting unit 603, it is also used to carry out second to the first deformable body by the second device of control
Operation makes the first deformable body that the second deformation occur;When the second deformation quantity reaches the second deformation condition, the first noumenon is in second
Form;Wherein, the first deformable body is less than the volume under the second deformation in the volume under the first deformation.
Here, as shown in figure 4, to determine that active user is in movement, and wrist-watch is worn more loose, needs to adjust tight
That is the second form is that watchband be in for tight state, when smartwatch, be specifically first to adjust unit 603 and detect user to the
When the operation of two predetermined keys, the second predetermined key responds the operation for being inflated to watchband, the air pump to middle layer 22 into
Row charge operation, the volume of middle layer 22 becomes larger in gas replenishment process, so that the volume of watchband becomes larger;With to middle layer
There is expansile internal layer 21 gradually to expand, gradually compress wrist for 22 continuous inflation, to increase the pressure at watchband and wrist
Force value, so that the wearing tightness of smartwatch increases.The recording unit of the electronic equipment is previously recorded in user's wrist feeling
To the aeration quantity of middle layer 22 when good;During the middle layer 22 to software register band is inflated, be specifically first adjust
When section unit 603 judges that aeration quantity reaches the record value, air pump is forbidden to continue to be inflated middle layer 22, to stop inflating,
To enable user obtain good wear comfort.
In above scheme, with the inflation by air pump to middle layer 22, the mesh for reaching and adjusting wrist-watch and wearing elasticity of deflating
For, in addition, the middle layer 22 can also carry certain electrolyte, which can lead to middle layer 22 when heated
Expansion, which can lead to the deflation of middle layer 22 while cooling, i.e., by heating to the electrolyte, cooling reach
It increases the compaction degree of watchband and wrist or reduces the purpose of compaction degree.Specifically, to determine that active user is in movement, and hand
Table is worn more loose, and needing to adjust tighter i.e. the second forms is that watchband is in for tight state, when smartwatch, specifically first
When adjusting unit 603 detects operation of the user to third predetermined key, third predetermined key is used to be electrolysed the middle layer 22 of watchband
The heating operation of liquid responds the operation, carries out heating operation to the electrolyte, the heating of electrolyte brings the swollen of middle layer 22
Swollen, the pressure value between wrist-watch and wrist is increased.The recording unit of the electronic equipment is previously recorded in user's wrist feeling
To the heating time of electrolyte when good;During the electrolyte to middle layer 22 heats, first adjusts unit 603
When judging that heating time reaches the record value, forbid continuing to heat electrolyte, that is, stops heating, it is good to enable user obtain
Good wear comfort.
It can be seen that can be reached by air pump to inflation, the deflation of middle layer in the embodiment of the present invention and adjust wrist-watch pendant
The purpose of elasticity is worn, and/or pine can be worn by the heating of the electrolyte carried to middle layer, the cooling adjusting wrist-watch that reaches
The purpose of tightness realizes the automatic adjustment to the wearing elasticity of wearable electronic equipment, promotes user experience, embodies electricity
The functional diversity of sub- equipment.
Electronic equipment embodiment three:
The present embodiment is based on aforementioned electronic devices embodiment one, and the electronic equipment further includes the second device;Described first
Ontology includes at least N number of sub- ontology, and N is positive integer.
Watchband provided by the present embodiment is metal watchband, and the sub- ontology is sublist band, i.e., the described watchband includes N knot
Watchband, second device can be motor, specially micro motor, may be provided in each sublist band.Each sublist band can
Include first part and second part, can realize sublist band by the buckle elasticity to first part and second part
It elongates or shortens, whole table band is elongated or shortened to realize, and then achieve the purpose that adjusting tightness.
When the first noumenon is in the first form, the first noumenon is the first length;When the first noumenon is in the second form,
The first noumenon is the second length;First length is greater than the second length;It is, the first watchband is loose state, the second form
For tight state, the length of the watchband in loose state is greater than the length of the watchband in tight state.
Described first adjusts unit 603, is also used to generate the first active force by the second device, in first active force
Under, the sub- ontology of at least one of described N number of sub- ontology generates the first displacement in the first predetermined direction causes, and being formed has the first length
The first noumenon of degree.
Fig. 5 (a)~(c) is the schematic diagram of another watchband provided in an embodiment of the present invention;In Fig. 5 (a), the watchband is
Metal watchband, watchband 5 are formed by connecting by N number of sublist band 51;Fig. 5 (b), (c) are specially the sectional view of a sub- watchband, in Fig. 5
(b), in (c), the first part 510 of sublist band 51 includes micro motor 5101;The second part 511 includes M card
Button (buckle 1, buckle 2 ... buckle M), M is positive integer.
In the present embodiment, it is specified that: first part 510 is snapped in the length of the sublist band obtained when the buckle 1 of second part 511
Degree is longer than the length that first part 510 is snapped in the buckle 2 of second part 511, and first part 510 is snapped in second part 511
Buckle 2 when the obtained length of sublist band be longer than the length etc. that first part 510 is snapped in the buckle 3 of second part 511.
Here, in determine that active user is in non-athletic, and wrist-watch is worn relatively tight as first part 510 is snapped in the
On the buckle 4 of two parts 511, needing to adjust more loose i.e. the first forms is that watchband is in for pine state, when smartwatch, described
When first adjusting unit 603 detects operation of the user to the 4th predetermined key, the 4th predetermined key is rung for the elongation to sub- watchband
It should operate, control micro motor 5101 generates the first active force, and under the first active force, as shown in Fig. 5 (b), original is snapped in
On the buckle of first part 510 1 on the buckle 4 of second part 511, make the buckle degree of first part 510 Yu second part 511
It fluffs than former buckle degree, sublist band realizes elongation so that the lengthening of whole table band is longer than former watchband to get having arrived in X-direction
Watchband, achieved the purpose that adjust wear looseness.
And/or the first adjusting unit 603, it is also used to generate the second active force by second device, described
Under second active force, the sub- ontology of at least one of described N number of sub- ontology generates second displacement on the second predetermined direction, is formed
The first noumenon with the second length.
Here, to determine that active user is in movement, and wrist-watch is worn more loose as first part 510 is snapped in second
On the buckle 1 of part 511, needing to adjust tighter i.e. the second form is that watchband is in for tight state, when smartwatch, is specifically
When first adjusting unit 603 detects operation of the user to the 5th predetermined key, the 5th predetermined key is rung for the shortening to sub- watchband
It should operate, control micro motor 5101 generates the second active force, and under the second active force, as shown in Fig. 5 (c), original is snapped in
On the buckle of first part 510 4 on the buckle 1 of second part 511, make the buckle degree of first part 510 Yu second part 511
Become tight than former buckle degree, sublist band realizes shortening so that the shortening of whole table band is shorter than former watchband to get having arrived in X-direction
Watchband, achieved the purpose that adjust wear tightness.
In above scheme, the different length of sublist band are to be snapped in the different of second part by first part to buckle in fact
Existing, further, it is also possible to which first part and second part can also pass through spring, such as elastic force of the connecting component with elastic properties
Rope is attached, and is increased or is reduced with the elasticity by these coupling parts and realize elongating or shortening for watchband come sub, to reach
Whole table band elongates or shortens, and then realizes the purpose for adjusting and wearing elasticity.
It can be seen that in the embodiment of the present invention, can elongating or shortening with antithetical phrase watchband, realize the lengthening to whole table band
Or shorten, and then realize the automatic adjustment to the wearing elasticity of wearable electronic equipment, user experience is promoted, electronics is embodied
The functional diversity of equipment.
In several embodiments provided herein, it should be understood that disclosed device and method can pass through it
Its mode is realized.Apparatus embodiments described above are merely indicative, for example, the division of the unit, only
A kind of logical function partition, there may be another division manner in actual implementation, such as: multiple units or components can combine, or
It is desirably integrated into another system, or some features can be ignored or not executed.In addition, shown or discussed each composition portion
Mutual coupling or direct-coupling or communication connection is divided to can be through some interfaces, the INDIRECT COUPLING of equipment or unit
Or communication connection, it can be electrical, mechanical or other forms.
Above-mentioned unit as illustrated by the separation member, which can be or may not be, to be physically separated, aobvious as unit
The component shown can be or may not be physical unit, it can and it is in one place, it may be distributed over multiple network lists
In member;Some or all of units can be selected to achieve the purpose of the solution of this embodiment according to the actual needs.
In addition, each functional unit in various embodiments of the present invention can be fully integrated in one processing unit, it can also
To be each unit individually as a unit, can also be integrated in one unit with two or more units;It is above-mentioned
Integrated unit both can take the form of hardware realization, can also realize in the form of hardware adds SFU software functional unit.
Those of ordinary skill in the art will appreciate that: realize that all or part of the steps of above method embodiment can pass through
The relevant hardware of program instruction is completed, and program above-mentioned can be stored in a computer readable storage medium, the program
When being executed, step including the steps of the foregoing method embodiments is executed;And storage medium above-mentioned include: movable storage device, it is read-only
The various media that can store program code such as memory (ROM, Read-Only Memory), magnetic or disk.
The above description is merely a specific embodiment, but scope of protection of the present invention is not limited thereto, any
Those familiar with the art in the technical scope disclosed by the present invention, can easily think of the change or the replacement, and should all contain
Lid is within protection scope of the present invention.Therefore, protection scope of the present invention should be based on the protection scope of the described claims.
Claims (6)
1. a kind of information processing method is applied in a wearable electronic equipment, the electronic equipment includes at least first
Body, the first noumenon are at the first form or the second form;The described method includes:
Detect the first parameter;Wherein, first parameter includes at least one of: the first movement ginseng of the electronic equipment
Measure, wear the physiological data of the user of the electronic equipment;
First parameter is parsed, the first parsing result is obtained;
According to first parsing result, when the first noumenon of the electronic equipment is soft watchband, and the electronics is set
When the standby operation detected to predetermined key, the operation is responded, heating operation is carried out to the middle layer electrolyte of the first noumenon;
Alternatively, the watchband includes at least N number of sublist band when the first noumenon of the electronic equipment is metal watchband, N is positive
Integer elongates or shortens whole table band by the motor realization being arranged in each sublist band, to realize adjusting first
Body is first form or second form.
2. the method according to claim 1, wherein the electronic equipment includes second sensor;
The first exercise parameter of the electronic equipment is detected by the second sensor;
Obtain variable quantity of first exercise parameter within the first predetermined time;
Judge whether the variable quantity meets the first change condition, and generates the second judging result;
When the second judging result, which characterizes the variable quantity, meets the first change condition, the first instruction is generated, responds the first instruction,
Control the first noumenon is the first form;
When the second judging result is unsatisfactory for the first change condition for characterizing the variable quantity, the second instruction is generated, response the
Two instructions, control the first noumenon are the second form.
3. the method according to claim 1, wherein the electronic equipment further includes 3rd sensor;The electricity
Sub- equipment can be worn on the first position of user;
The physiological data of the user is obtained by 3rd sensor;
Judge that the physiological data within second scheduled time whether without departing from the first preset range, and generates third judgement knot
Fruit;
When third judging result for characterize the physiological data within second scheduled time without departing from the first preset range when, it is raw
At the first instruction, the first instruction of response, control the first noumenon is the first form;
When third judging result exceeds the first preset range within second scheduled time for characterizing the physiological data, generate
Second instruction, the second instruction of response, control the first noumenon is the second form.
4. a kind of wearable electronic equipment, the electronic equipment includes at least the first noumenon, and the first noumenon is at
First form or the second form;The electronic equipment includes:
First detection unit, for detecting the first parameter;Wherein, first parameter includes at least one of: the electronics
First exercise parameter of equipment, wear the electronic equipment user physiological data;
First resolution unit obtains the first parsing result for parsing first parameter;
First adjusts unit, is used for according to first parsing result, when the first noumenon of the electronic equipment is soft
Watchband, and when the electronic equipment detects the operation to predetermined key, the operation is responded, to the middle layer electricity of the first noumenon
It solves liquid and carries out heating operation;Alternatively, the watchband at least wraps when the first noumenon of the electronic equipment is metal watchband
N number of sublist band is included, N is positive integer, whole table band elongated or shortened by the motor realization being arranged in each sublist band,
By realize adjust the first noumenon be described first in the form of or second form.
5. wearable electronic equipment according to claim 4, which is characterized in that the electronic equipment includes the second sensing
Device;
The first detection unit, for detecting the first exercise parameter of the electronic equipment by the second sensor;
First resolution unit, for obtaining variable quantity of first exercise parameter within the first predetermined time;
Judge whether the variable quantity meets the first change condition, and generates the second judging result;
When the second judging result, which characterizes the variable quantity, meets the first change condition, the first instruction is generated;And/or when second
When judging result is unsatisfactory for the first change condition for characterizing the variable quantity, the second instruction is generated;
Correspondingly, described first adjusts unit, for responding the first instruction, control the first noumenon is the first form;And/or it rings
The second instruction is answered, control the first noumenon is the second form.
6. wearable electronic equipment according to claim 4, which is characterized in that the electronic equipment further includes that third passes
Sensor;The electronic equipment can be worn on the first position of user;
The first detection unit, for obtaining the physiological data of the user by 3rd sensor;
First resolution unit, for judging the physiological data within second scheduled time whether without departing from the first predetermined model
In enclosing, and generate third judging result;
When third judging result for characterize the physiological data within second scheduled time without departing from the first preset range when, it is raw
At the first instruction;And/or when third judging result exceeds first in advance for characterizing the physiological data within second scheduled time
When determining range, the second instruction is generated;
Correspondingly, described first adjusts unit, for responding the first instruction, control the first noumenon is the first form;And/or it rings
The second instruction is answered, control the first noumenon is the second form.
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CN201410849275.2A CN104571514B (en) | 2014-12-29 | 2014-12-29 | Information processing method and wearable electronic equipment |
US14/640,258 US20160071408A1 (en) | 2014-09-09 | 2015-03-06 | Wearable apparatus and data processing method |
DE102015104767.5A DE102015104767B4 (en) | 2014-09-09 | 2015-03-27 | Body-worn device and data processing method |
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