CN104571514A - Information processing method and wearable electronic equipment - Google Patents

Abstract

The embodiment of the invention discloses an information processing method. The method is applied to wearable electronic equipment. The electronic equipment comprises at least one first body, wherein the first body can be in a first form or a second form. The method comprises the following steps: detecting a first parameter of the electronic equipment; analyzing the first parameter to obtain a first analysis result; adjusting the form corresponding to the first body according to the first analysis result. The invention also discloses the wearable electronic equipment. The wearing tightness of the wearable electronic equipment can be automatically adjusted, the user experience is improved, and various functions of the electronic equipment are shown.

Description

Information processing method and wearable electronic equipment

Technical field

The present invention relates to the information processing technology, be specifically related to a kind of information processing method and wearable electronic equipment.

Background technology

The wearable electronic equipment such as intelligent watch, Intelligent bracelet is due to its portability, intelligent and extensively by the favor of user.Wearable device needs manually adjustment to wear elasticity when user wears, user experience is poor.

Summary of the invention

For solving the technical matters of existing existence, the embodiment of the present invention is to provide a kind of information processing method and wearable electronic equipment, what automatically can regulate wearable electronic equipment wears elasticity, promotes Consumer's Experience, embodies the functional diversity of electronic equipment.

The technical scheme of the embodiment of the present invention is achieved in that

Embodiments provide a kind of information processing method, be applied in a wearable electronic equipment, described electronic equipment at least comprises the first noumenon, and described the first noumenon can be in the first form or the second form; Described method comprises:

Detect the first parameter of described electronic equipment;

Resolve described first parameter, obtain the first analysis result;

According to described first analysis result, the first noumenon is regulated to be corresponding form.

In such scheme, described electronic equipment also comprises first sensor; Described electronic equipment can be worn on first position of user;

Acting force when described electronic equipment is worn on the first position is detected by described first sensor;

Whether the acting force detected by judgement meets the first preset range, and generates the first judged result;

When the acting force detected by the first judged result characterizes meets the first preset range, generate the first instruction, respond the first instruction, controlling the first noumenon is the first form;

When the acting force detected by the first judged result characterizes does not meet the first preset range, generate the second instruction, respond the second instruction, controlling the first noumenon is the second form.

In such scheme, described electronic equipment comprises the second sensor;

The first exercise parameter of described electronic equipment is detected by described second sensor;

Obtain the variable quantity of the first exercise parameter within first schedule time;

Judge whether described variable quantity meets the first change condition, and generate the second judged result;

When the second judged result characterize described variable quantity meet the first change condition time, generate the first instruction, respond the first instruction, control the first noumenon be the first form;

When the second judged result does not meet the first change condition for characterizing described variable quantity, generate the second instruction, respond the second instruction, controlling the first noumenon is the second form.

In such scheme, described electronic equipment also comprises the 3rd sensor; Described electronic equipment can be worn on first position of user;

Obtain the first data by the 3rd sensor, the first data are for characterizing the physiological data of described user;

Judge whether the first data do not exceed in the first preset range within second schedule time, and generate the 3rd judged result;

When the 3rd judged result not exceeding the first preset range for characterizing the first data within second schedule time, generating the first instruction, responding the first instruction, controlling the first noumenon is the first form;

When the 3rd judged result exceeding the first preset range for characterizing the first data within second schedule time, generating the second instruction, responding the second instruction, controlling the first noumenon is the second form.

In such scheme, described electronic equipment also comprises the first device; Described the first noumenon at least comprises the first deformable body;

Described response first instruction, comprising:

By controlling the first device, the first operation being carried out to the first deformable body, making 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;

Described response second instruction, comprising:

By controlling the second device, the second operation being carried out to the first deformable body, making 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 volume of the first deformable body under the first deformation is less than the volume under the second deformation.

In such scheme, described method also comprises:

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; Described the first noumenon at least comprises N number of sub-body, and N is positive integer; Described first length is greater than the second length;

Described response first instruction, comprising:

Second device of described electronic equipment produces the first acting force, and under described first acting force, at least one sub-body in described N number of sub-body produces the first displacement in the first predetermined direction causes, forms the first noumenon with the first length;

Described response second instruction, comprising:

Second device produces the second acting force, and under described second acting force, at least one sub-body in described N number of sub-body produces the second displacement on the second predetermined direction, forms the first noumenon with the second length.

The embodiment of the present invention additionally provides a kind of wearable electronic equipment, and described electronic equipment at least comprises the first noumenon, and described the first noumenon can be in the first form or the second form; Described electronic equipment comprises:

First detecting unit, for detecting the first parameter of described electronic equipment;

First resolution unit, for resolving described first parameter, obtains the first analysis result;

First regulon, for according to described first analysis result, regulates the first noumenon to be corresponding form.

In such scheme, described electronic equipment also comprises first sensor; Described electronic equipment can be worn on first position of user;

Described first detecting unit, for detecting acting force when described electronic equipment is worn on the first position by described first sensor;

Described first resolution unit, for judging whether detected acting force meets the first preset range, and generates the first judged result;

When the acting force detected by the first judged result characterizes meets the first preset range, generate the first instruction; And/or, when the acting force detected by the first judged result characterizes does not meet the first preset range, generate the second instruction;

Accordingly, described first regulon, for responding the first instruction, controlling the first noumenon is the first form; And/or respond the second instruction, controlling the first noumenon is the second form.

In such scheme, described electronic equipment comprises the second sensor;

Described first detecting unit, for detecting the first exercise parameter of described electronic equipment by described second sensor;

Described first resolution unit, for obtaining the variable quantity of the first exercise parameter within first schedule time;

Judge whether described variable quantity meets the first change condition, and generate the second judged result;

When the second judged result characterize described variable quantity meet the first change condition time, generate the first instruction; And/or, when the second judged result does not meet the first change condition for characterizing described variable quantity, generate the second instruction;

Accordingly, described first regulon, for responding the first instruction, controlling the first noumenon is the first form; And/or respond the second instruction, controlling the first noumenon is the second form.

In such scheme, described electronic equipment also comprises the 3rd sensor; Described electronic equipment can be worn on first position of user;

Described first detecting unit, for obtaining the first data by the 3rd sensor, the first data are for characterizing the physiological data of described user;

Described first resolution unit, for judging whether the first data do not exceed in the first preset range within second schedule time, and generates the 3rd judged result;

When the 3rd judged result does not exceed the first preset range for characterizing the first data within second schedule time, generate the first instruction; And/or, when the 3rd judged result exceeds the first preset range for characterizing the first data within second schedule time, generate the second instruction;

Accordingly, described first regulon, for responding the first instruction, controlling the first noumenon is the first form; And/or respond the second instruction, controlling the first noumenon is the second form.

In such scheme, described electronic equipment also comprises the first device; Described the first noumenon at least comprises the first deformable body;

Described first regulon, also for carrying out the first operation by control first device to the first deformable body, 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;

And/or, by controlling the second device, the second operation being carried out to the first deformable body, making 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 volume of the first deformable body under the first deformation is less than the volume under the second deformation.

In such scheme, 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; Described the first noumenon at least comprises N number of sub-body, and N is positive integer; Described first length is greater than the second length;

Described first regulon, also for producing the first acting force by the second device, under described first acting force, at least one sub-body in described N number of sub-body produces the first displacement in the first predetermined direction causes, forms the first noumenon with the first length; And/or,

Produce the second acting force by described second device, under described second acting force, at least one sub-body in described N number of sub-body produces the second displacement on the second predetermined direction, forms the first noumenon with the second length.

The information processing method that the embodiment of the present invention provides and wearable electronic equipment, wherein, described method is applied in a wearable electronic equipment, and described electronic equipment at least comprises the first noumenon, and described the first noumenon can be in the first form or the second form; Described method comprises: the first parameter detecting described electronic equipment; Resolve described first parameter, obtain the first analysis result; According to described first analysis result, the first noumenon is regulated to be corresponding form.Utilize the embodiment of the present invention, the automatic adjustment of wearing elasticity of Wearable electronic equipment can be realized, promote Consumer's Experience, embody the functional diversity of electronic equipment.

Accompanying drawing explanation

Fig. 1 is the realization flow schematic diagram of the first embodiment of information processing method provided by the invention;

Fig. 2 is the realization flow schematic diagram of the second embodiment of information processing method provided by the invention;

Fig. 3 is the realization flow schematic diagram of the 3rd embodiment of information processing method provided by the invention;

The diagrammatic cross-section of the watchband that Fig. 4 provides for the embodiment of the present invention;

The schematic diagram of another watchband that Fig. 5 (a) ~ (c) provides for the embodiment of the present invention;

Fig. 6 is the composition structural representation of wearable electronic equipment embodiment provided by the invention.

Embodiment

Below in conjunction with accompanying drawing to a preferred embodiment of the present invention will be described in detail, should be appreciated that following illustrated preferred embodiment is only for instruction and explanation of the present invention, is not intended to limit the present invention.

In the following embodiment of information processing method provided by the invention and wearable electronic equipment, involved electronic equipment includes but not limited to: intelligent watch, Intelligent bracelet, intelligent glasses etc.The object of the preferred electronic equipment of the embodiment of the present invention is intelligent watch.

Embodiment of the method one

First embodiment of information processing method provided by the invention, be applied to a wearable electronic equipment, described electronic equipment at least comprises the first noumenon, and described the first noumenon can be in the first form or the second form.Described electronic equipment is preferably intelligent watch; Described the first noumenon is preferably the watchband of intelligent watch.The watchband that the present embodiment provides has degree of tightness controllability, is in the first form and is watchband and is in loose state, is in the second form and watchband is in tight state; Certainly, also can be in the first form and be watchband and be in tight state, be in the second form and be watchband and be in loose state, in following embodiment provided by the invention, all for the first form be loose state, the second form is that tight state is described.

Fig. 1 is the realization flow schematic diagram of the first embodiment of information processing method provided by the invention; As shown in Figure 1, described method comprises:

Step 101: the first parameter detecting described electronic equipment;

Here, what described first parameter can be specially described intelligent watch wears elasticity, regulates the elasticity of watchband on this basis.In addition, user is worn on a certain position of user such as the state of the intelligent watch at wrist place when being in motion or non-athletic state also will be motion or non-athletic state, so the speed of foundation electronic equipment itself or acceleration can judge that current intelligent watch is kept in motion or non-athletic state; Wherein, the first parameter is speed or the acceleration of intelligent watch.In addition, consider user be kept in motion or non-athletic state time, the physiological data of user itself is very different as heartbeat, blood pressure, pulse etc. exist in two states, so by the physiological status detecting user, intelligent watch judges that current intelligent watch is kept in motion or non-athletic state; Wherein, described first parameter can be specially the physiological data of the user that intelligent watch detects.

Step 102: resolve described first parameter, obtain the first analysis result;

Here, according to the first parameter that intelligent watch detects, judging that intelligent watch is in needs to adjust the state of pine still to need the state tightened.

Step 103: according to described first analysis result, regulates the first noumenon to be corresponding form.

Here, when detecting that the current intelligent watch worn is comparatively tight, then intelligent watch is regulated to be pine; When detecting that the current intelligent watch worn is more loose, then intelligent watch is regulated to be tight.Consider that intelligent watch that the user be in motion needs to wear tightlier, the user be in as being in resting state in non-athletic needs the intelligent watch pine of wearing, so, regulating the watchband of intelligent watch tightlier when detecting during user is kept in motion, regulating when detecting that user is in non-athletic state the watchband of intelligent watch loose.

In the present invention's preferred embodiment, described electronic equipment also comprises first sensor, and described first sensor is pressure transducer; Described electronic equipment can be worn on the wrist place of the first position as user of user; Described method also comprises:

Acting force when described electronic equipment is worn on the first position is detected by described first sensor; Whether the acting force detected by judgement meets the first preset range, and generates the first judged result; When the acting force detected by the first judged result characterizes meets the first preset range, generate the first instruction, respond the first instruction, controlling the first noumenon is the first form; When the acting force detected by the first judged result characterizes does not meet the first preset range, generate the second instruction, respond the second instruction, controlling the first noumenon is the second form.

In such scheme, pressure transducer detects the force value between wrist and intelligent watch, wears elasticity to be obtained by the mode of detected pressures value.Comparatively fixing owing to considering the user wearing certain intelligent watch, its wrist fat or thin also comparatively fixing within a period of time, so the force value being previously recorded in intelligent watch and wrist place when user feels to wear tight, obtains the first preset pressure scope; And/or be recorded in the force value at intelligent watch and wrist place when user feels to wear loose, obtain the second preset pressure scope.For only record the first preset pressure scope, described first form for watchband is in loose state, when intelligent watch detects current pressure values by pressure transducer, whether the current pressure values detected by judgement is positioned at the first preset pressure scope, when being judged as YES, illustrate that current intelligent watch wears to obtain tension, need to regulate pine; Otherwise, need to regulate tightlier.

In another preferred embodiment of the present invention, described electronic equipment comprises the second sensor; Described second sensor can be gravity sensor or acceleration transducer; Described method also comprises:

The first exercise parameter of described electronic equipment is detected by described second sensor; Obtain the variable quantity of the first exercise parameter within first schedule time; Judge whether described variable quantity meets the first change condition, and generate the second judged result; When the second judged result characterize described variable quantity meet the first change condition time, generate the first instruction, respond the first instruction, control the first noumenon be the first form; When the second judged result does not meet the first change condition for characterizing described variable quantity, generate the second instruction, respond the second instruction, controlling the first noumenon is the second form.

In such scheme, when described second sensor is gravity sensor, the first exercise parameter is speed; When described second sensor is acceleration transducer, the first exercise parameter is acceleration.Detect the speed of current intelligent watch by gravity sensor or detected the acceleration of current intelligent watch by acceleration transducer.Owing to considering that the user wearing certain intelligent watch is in motion or when being in non-athletic, self and the speed of intelligent watch worn or the variable quantity of acceleration all have certain characteristic within a certain period of time, so the speed of intelligent watch or the variation range of acceleration when being previously recorded in user within a certain period of time as being all in non-athletic state in 30 minutes, be described first change condition depending on recorded variation range.For the second sensor be acceleration transducer, described first form for watchband is in loose state, the acceleration of intelligent watch was detected once every 10 minutes by acceleration transducer in current 30 minutes, calculate the rate of change of the acceleration of intelligent watch in 30 minutes, judge whether this rate of change meets the first change condition and namely whether be positioned at pre-recorded variation range, when being judged as YES, illustrate that user is in non-athletic in current 30 minutes, generate the first regulating command, regulate watchband to be pine; When being judged as NO, illustrate that in current 30 minutes, user is in motion, generates the second regulating command, regulate watchband to be tight.Wherein, refer to existing related description by the method for gravity sensor acquisition speed, repeat no more here.

In another preferred embodiment of the present invention, described electronic equipment also comprises the 3rd sensor; Described 3rd sensor can be for detecting the physiological data of user as the sensor of blood pressure, heartbeat, pulse, is specifically as follows resonant transducer; Described electronic equipment can be worn on first position of user as being worn on the wrist place of user; Described method comprises:

Obtain the first data by the 3rd sensor, the first data are for characterizing the physiological data of described user; Judge whether the first data do not exceed in the first preset range within second schedule time, and generate the 3rd judged result; When the 3rd judged result not exceeding the first preset range for characterizing the first data within second schedule time, generating the first instruction, responding the first instruction, controlling the first noumenon is the first form; When the 3rd judged result exceeding the first preset range for characterizing the first data within second schedule time, generating the second instruction, responding the second instruction, controlling the first noumenon is the second form.

In such scheme, detected the physiological datas such as the blood pressure of user, heartbeat or pulse by resonant transducer.Owing to considering that the user wearing certain intelligent watch is when being in motion or this two states of non-athletic, there is larger difference in himself heartbeat, blood pressure, pulse etc., so physiological change data when pre-recorded user is in non-athletic state, be the first preset range depending on recorded physiological change data.For resonant transducer detect blood pressure, described first form for watchband is in loose state, the blood pressure of user is detected by resonant transducer, judge namely whether the blood pressure that detects be positioned at pre-recorded variation range as whether do not exceeded the first preset range in 6 minutes within a certain period of time, when being judged as YES, illustrate and be in non-athletic user, generate the first regulating command, regulate watchband to be pine; When being judged as NO, illustrating that user is in motion, generate the second regulating command, regulate watchband to be tight.

As can be seen here, in the embodiment of the present invention, by the analysis result of the first parameter to detected intelligent watch, determine to regulate the watchband of intelligent watch for pine a little or tightlier, achieve the automatic adjustment of wearable electronic equipment being worn to elasticity, promote Consumer's Experience, embody the functional diversity of electronic equipment.

Embodiment of the method two:

The present embodiment based on preceding method embodiment one, to described first instruction of described response and respond described second instruction and be further described.

Described method also comprises: described electronic equipment also comprises the first device; Described the first noumenon at least comprises the first deformable body;

Step 201: by controlling the first device, the first operation being carried out to the first deformable body, making the first deformable body that the first deformation occur;

In the present embodiment, the watchband of described intelligent watch is soft watchband, such as, made by rubber, made by moccasin.Described first deformable body can be described air bag, and described soft watchband can comprise whole air bag, also can comprise multiple air bag, not limit herein.Described first device can be air pump, is preferably configured in the body (other parts in intelligent watch except watchband) of intelligent watch, also can be set in watchband.

The diagrammatic cross-section of the watchband that Fig. 4 provides for the embodiment of the present invention; Described watchband is made by with whole air bag, comprising: internal layer 21, middle layer 22 and outer 23; Wherein, described internal layer 21 has swelling property, and described outer 23 can have swelling property also can not have swelling property, and described middle layer 22 is voided layer.To determine that active user is in non-athletic, and wrist-watch is worn tighter, need to regulate a little i.e. the first form of pine to be that to be in loose state be example to watchband, when intelligent watch detects the operation of user to the first predetermined key, first predetermined key is used for his-and-hers watches band and exits, and respond this operation, described air pump carries out bleed air operation to middle layer 22, in deflation course, the volume in middle layer 22 diminishes gradually, makes the smaller volume of watchband; Along with the continuous venting to middle layer 22, internal layer 21 reduces the compaction degree to wrist gradually, namely reduces the force value at watchband and wrist place, and the looseness of wearing of intelligent watch is strengthened.

Step 202: when the first deformation quantity reaches the first deformation condition, the first noumenon is in the first form;

Here, the discharge quantity to middle layer 22 when user's wrist is felt good is previously recorded in; In the process exitted in the middle layer 22 of software watchband, when judging that discharge quantity reaches this record value, forbid that air pump continues to exit to middle layer 22, to stop venting, obtain good comfortable wearing degree to make user.

Step 203: by controlling the second device, the second operation being carried out to the first deformable body, making the first deformable body that the second deformation occur;

Here, as shown in Figure 4, to determine that active user is in motion, and wrist-watch is worn more loose, needs to regulate tighter i.e. the second form to be that to be in tight state be example to watchband, when intelligent watch detects the operation of user to the second predetermined key, second predetermined key is used for his-and-hers watches band and inflates, and respond this operation, described air pump carries out charge operation to middle layer 22, in gas replenishment process, the volume in middle layer 22 becomes large gradually, makes the volume of watchband become large; Along with the continuous inflation to middle layer 22, there is expansile internal layer 21 and expand gradually, compress wrist gradually, to increase the force value at watchband and wrist place, the tightness of wearing of intelligent watch is strengthened.

Step 204: when the second deformation quantity reaches the second deformation condition, the first noumenon is in the second form; Wherein, the volume of the first deformable body under the first deformation is less than the volume under the second deformation.

Here, the aeration quantity to middle layer 22 when user's wrist is felt good is previously recorded in; In the process that the middle layer 22 of software watchband is inflated, when judging that aeration quantity reaches this record value, forbid that air pump continues to inflate middle layer 22, to stop inflation, obtain good comfortable wearing degree to make user.

In such scheme, to reach to the inflation in middle layer 22, venting the object regulating wrist-watch to wear elasticity by air pump, in addition, described middle layer 22 can also carry certain electrolytic solution, this electrolytic solution can cause the expansion in middle layer 22 when being heated, this electrolytic solution can cause the deflation in middle layer 22 when cooling, namely reach the compaction degree strengthening watchband and wrist or the object reducing compaction degree by the heating to this electrolytic solution, cooling.Concrete, to determine that active user is in motion, and wrist-watch is worn more loose, need to regulate tighter i.e. the second form to be that to be in tight state be example to watchband, when intelligent watch detects the operation of user to the 3rd predetermined key, the 3rd predetermined key is used for the heating operation to middle layer 22 electrolytic solution of watchband, respond this operation, carry out heating operation to this electrolytic solution, the heating of electrolytic solution brings the expansion in middle layer 22, and the force value between wrist-watch and wrist is increased.Be previously recorded in the heat time to electrolytic solution when user's wrist is felt good; In the process that the electrolytic solution in middle layer 22 is heated, when judging that the heat time reaches this record value, forbid continuing to heat electrolytic solution, namely stop heating, obtain good comfortable wearing degree to make user.

As can be seen here, in the embodiment of the present invention, can by air pump to the inflation in middle layer, the object reaching and regulate wrist-watch to wear elasticity of exitting, and/or can reach by the heating of the electrolytic solution to middle layer carrying, cooling the object regulating wrist-watch to wear elasticity, achieve the automatic adjustment of wearing elasticity to wearable electronic equipment, promote Consumer's Experience, embody the functional diversity of electronic equipment.

Embodiment of the method three:

The present embodiment based on previous embodiment one, to described first instruction of described response and respond described second instruction and be further described.

Described method also comprises: described electronic equipment also comprises the second device; Described the first noumenon at least comprises N number of sub-body, and N is positive integer.

The watchband that the present embodiment provides is metal watchband, and described sub-body is sublist band, and namely described watchband comprises N knot watchband, and described second device can be motor, be specially micro motor, can be arranged in each sublist band.Each sublist band can include Part I and Part II, by realizing elongating or shortening of sublist band to the buckle elasticity of Part I and Part II, thus realizes elongating or shortening whole watchband, and then reaches the object of 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; Described first length is greater than the second length.Namely, the first watchband is loose state, the second form is tight state, and the length being in the watchband of loose state is greater than the length of the watchband being in tight state.

Step 301: described second device produces the first acting force, under described first acting force, at least one sub-body in described N number of sub-body produces the first displacement in the first predetermined direction causes, forms the first noumenon with the first length;

The schematic diagram of another watchband that Fig. 5 (a) ~ (c) provides for the embodiment of the present invention; In Fig. 5 (a), described watchband is metal watchband, and watchband is formed by connecting by N number of sublist band 51; Fig. 5 (b), (c) are specially the sectional view of a sub-watchband, and in Fig. 5 (b), (c), the Part I 510 of sublist band 51 includes micro motor 5101; Described Part II 511 includes M buckle (buckle 1, buckle 2 ... buckle M), M is positive integer.

In the present embodiment, regulation: the length of the sublist band obtained when Part I 510 is snapped in the buckle 1 of Part II 511 is longer than the length that Part I 510 is snapped in the buckle 2 of Part II 511, and the length of the sublist band obtained when Part I 510 is snapped in the buckle 2 of Part II 511 is longer than Part I 510 and is snapped in length of the buckle 3 of Part II 511 etc.

Here, to determine that active user is in non-athletic, and wrist-watch is worn comparatively tightly as Part I 510 is snapped on the buckle 4 of Part II 511, need to regulate a little i.e. the first form of pine to be that to be in loose state be example to watchband, when intelligent watch detects the operation of user to the 4th predetermined key, 4th predetermined key is used for the elongation of antithetical phrase watchband, respond this operation, micro motor 5101 produces the first acting force, under the first acting force, as shown in Fig. 5 (b), the former Part I 510 be snapped on the buckle 4 of Part II 511 is snapped on buckle 1, Part I 510 is fluffed than former buckle degree with the buckle degree of Part II 511, sublist band achieves elongation in X-direction and whole watchband is lengthened, namely the watchband longer than former watchband is obtained, reach the object regulating and wear looseness.

Step 302: the second device produces the second acting force, under described second acting force, at least one sub-body in described N number of sub-body produces the second displacement on the second predetermined direction, forms the first noumenon with the second length.

Here, to determine that active user is in motion, and wrist-watch is worn more loosely be snapped on the buckle 1 of Part II 511 as Part I 510, need to regulate tighter i.e. the second form to be that to be in tight state be example to watchband, when intelligent watch detects the operation of user to the 5th predetermined key, 5th predetermined key is used for the shortening of antithetical phrase watchband, respond this operation, micro motor 5101 produces the second acting force, under the second acting force, as shown in Fig. 5 (c), on former Part I 510 buckle 4 be snapped on the buckle 1 of Part II 511, Part I 510 is made to become tight with the buckle degree of Part II 511 than former buckle degree, sublist band achieves shortening in X-direction and whole watchband is shortened, namely the watchband shorter than former watchband is obtained, reach the object regulating and wear tightness.

In such scheme, the different buckles that the different length of sublist band are snapped in Part II by Part I realize, in addition, can also Part I and Part II can also be connected by spring, link such as the stretch cord with elastic properties, to be strengthened by the elasticity of these coupling parts or to reduce to come subly to realize elongating or shortening of watchband, to reach elongating or shortening of whole watchband, and then realize regulating the object wearing elasticity.

As can be seen here, in the embodiment of the present invention, can the elongating or shortening of antithetical phrase watchband, realize the lengthening to whole watchband or shortening, and then the automatic adjustment of wearing elasticity realized wearable electronic equipment, promote Consumer's Experience, embody the functional diversity of electronic equipment.

Electronic equipment embodiment one:

First embodiment of wearable electronic equipment provided by the invention, described electronic equipment at least comprises the first noumenon, and described the first noumenon can be in the first form or the second form.Described electronic equipment is preferably intelligent watch; Described the first noumenon is preferably the watchband of intelligent watch.The watchband that the present embodiment provides has degree of tightness controllability, is in the first form and is watchband and is in loose state, is in the second form and watchband is in tight state; Certainly, also can be in the first form and be watchband and be in tight state, be in the second form and be watchband and be in loose state, in following embodiment provided by the invention, all for the first form for sending state, the second form is that tight state is described.

Fig. 6 is the composition structural representation of electronic equipment embodiment provided by the invention; As shown in Figure 6, described electronic equipment comprises: the first detecting unit 601, first resolution unit 602, first regulon 603; Wherein,

First detecting unit 601, for detecting the first parameter of described electronic equipment;

Here, what described first parameter can be specially described intelligent watch wears elasticity, regulates the elasticity of watchband on this basis.In addition, user is worn on a certain position of user such as the state of the intelligent watch at wrist place when being in motion or non-athletic state also will be motion or non-athletic state, so by the speed of detected electrons equipment itself or acceleration, described first detecting unit 601 can judge that current intelligent watch is kept in motion still non-athletic state; Wherein, the first parameter is speed or the acceleration of intelligent watch.In addition, consider user be kept in motion or non-athletic state time, the physiological data of user itself is very different as heartbeat, blood pressure, pulse etc. exist in two states, so by the physiological status detecting user, described first detecting unit 601 judges that current intelligent watch is kept in motion or non-athletic state; Wherein, described first parameter can be specially the physiological data of the user that intelligent watch detects.

First resolution unit 602, for resolving described first parameter, obtains the first analysis result;

Here, according to the first parameter that intelligent watch detects, the first resolution unit 602 judges that intelligent watch is in be needed to adjust the state of pine still to need the state tightened.

First regulon 603, for according to described first analysis result, regulates the first noumenon to be corresponding form;

Here, when the first analysis result is comparatively tight for what characterize that current intelligent watch wears, then the first regulon 603 regulates intelligent watch to be pine; When the first analysis result is a little for the pine characterizing current intelligent watch and wear, then the first regulon 603 regulates intelligent watch to be tight.Consider that intelligent watch that the user be in motion needs to wear tightlier, being in non-athletic such as the user in having a rest needs the intelligent watch worn loose, so, regulating the watchband of intelligent watch tightlier when detecting during user is kept in motion, regulating when detecting that user is in non-athletic state the watchband of intelligent watch loose.

In the present invention's preferred embodiment, described electronic equipment also comprises first sensor, and described first sensor is pressure transducer; Described electronic equipment can be worn on the wrist place of the first position as user of user; Concrete, described first detecting unit 601, for detecting acting force when described electronic equipment is worn on the first position by described first sensor; Described first resolution unit 602, for judging whether detected acting force meets the first preset range, and generates the first judged result; When the acting force detected by the first judged result characterizes meets the first preset range, generate the first instruction; And/or, when the acting force detected by the first judged result characterizes does not meet the first preset range, generate the second instruction; Accordingly, described first regulon 603, for responding the first instruction, controlling the first noumenon is the first form; And/or respond the second instruction, controlling the first noumenon is the second form.

In such scheme, pressure transducer detects the force value between wrist and intelligent watch, wears elasticity to be obtained by the mode of detected pressures value.Comparatively fixing owing to considering the user wearing certain intelligent watch, its wrist fat or thin also comparatively fixing within a period of time, so the record cell of described electronic equipment (not illustrating in Fig. 6) is previously recorded in the force value at intelligent watch and wrist place when user feels to wear tight, obtain the first preset pressure scope; And/or be recorded in the force value at intelligent watch and wrist place when user feels to wear loose, obtain the second preset pressure scope.For only record the first preset pressure scope, described first form for watchband is in loose state, when the first detecting unit 601 detects current pressure values by pressure transducer, first resolution unit 602 judges whether detected current pressure values is positioned at the first preset pressure scope, when being judged as YES, illustrate that current intelligent watch wears to obtain tension, trigger the first regulon 603 and regulate watchband pine; Otherwise, trigger the first regulon 603 and regulate watchband tightlier.

In another preferred embodiment of the present invention, described electronic equipment comprises the second sensor; Described second sensor can be gravity sensor or acceleration transducer; Concrete, described first detecting unit 601, for detecting the first exercise parameter of described electronic equipment by described second sensor; Described first resolution unit 602, for obtaining the variable quantity of the first exercise parameter within first schedule time, judge whether described variable quantity meets the first change condition, and generate the second judged result, when the second judged result characterize described variable quantity meet the first change condition time, generate the first instruction; And/or, when the second judged result does not meet the first change condition for characterizing described variable quantity, generate the second instruction; Accordingly, described first regulon 603, for responding the first instruction, controlling the first noumenon is the first form; And/or respond the second instruction, controlling the first noumenon is the second form.

In such scheme, when described second sensor is gravity sensor, the first exercise parameter is speed; When described second sensor is acceleration transducer, the first exercise parameter is acceleration.Described first detecting unit 601 is detected the speed of current intelligent watch by gravity sensor or is detected the acceleration of current intelligent watch by acceleration transducer.Owing to considering that the user wearing certain intelligent watch is in motion or when being in non-athletic, self and the speed of intelligent watch worn or the variable quantity of acceleration all have certain characteristic within a certain period of time, so the speed of intelligent watch or the variation range of acceleration when the record cell of described electronic equipment is previously recorded in user within a certain period of time as being all in non-athletic state in 30 minutes, be described first change condition depending on recorded variation range.With the second sensor for acceleration transducer, described first form is that to be in loose state be example to watchband, described first detecting unit 601 detected the acceleration of intelligent watch once every 10 minutes by acceleration transducer in current 30 minutes, described first resolution unit 602 calculates the rate of change of the acceleration of intelligent watch in 30 minutes, judge whether this rate of change meets the first change condition and namely whether be positioned at pre-recorded variation range, when being judged as YES, illustrate that user is in non-athletic in current 30 minutes, generate the first regulating command, triggering the first regulon 603 regulates watchband to be pine, when described first resolution unit 602 is judged as NO, illustrate that in current 30 minutes, user is in motion, generates the second regulating command, trigger the first regulon 603 and regulate watchband to be tight.Wherein, refer to existing related description by the method for gravity sensor acquisition speed, repeat no more here.

In another preferred embodiment of the present invention, described electronic equipment also comprises the 3rd sensor; Described 3rd sensor can be for detecting the physiological data of user as the sensor of blood pressure, heartbeat, pulse, is specifically as follows resonant transducer; Described electronic equipment can be worn on first position of user as being worn on the wrist place of user; Concrete, described first detecting unit 601, for obtaining the first data by the 3rd sensor, the first data are for characterizing the physiological data of described user; Described first resolution unit 602, for judging whether the first data do not exceed in the first preset range within second schedule time, and generates the 3rd judged result; When the 3rd judged result does not exceed the first preset range for characterizing the first data within second schedule time, generate the first instruction; And/or, when the 3rd judged result exceeds the first preset range for characterizing the first data within second schedule time, generate the second instruction; Accordingly, described first regulon 603, for responding the first instruction, controlling the first noumenon is the first form; And/or respond the second instruction, controlling the first noumenon is the second form.

In such scheme, the first detecting unit 601 detects the physiological datas such as the blood pressure of user, heartbeat or pulse by resonant transducer.Owing to considering that the user wearing certain intelligent watch is when being in motion or this two states of non-athletic, there is larger difference in himself heartbeat, blood pressure, pulse etc., so physiological change data when the pre-recorded user of the record cell of described electronic equipment is in non-athletic state, be the first preset range depending on recorded physiological change data.For resonant transducer detect blood pressure, described first form for watchband is in loose state, first detecting unit 601 detects the blood pressure of user by resonant transducer, described first resolution unit 602 judges namely whether the blood pressure that detects be positioned at pre-recorded variation range as whether do not exceeded the first preset range in 6 minutes within a certain period of time, when being judged as YES, illustrate and be in non-athletic user, generate the first regulating command, trigger the first regulon 603 and regulate watchband to be pine; When being judged as NO, illustrating that user is in motion, generate the second regulating command, trigger the first regulon 603 and regulate watchband to be tight.

As can be seen here, in the embodiment of the present invention, by the analysis result of the first parameter to detected intelligent watch, determine to regulate the watchband of intelligent watch for pine a little or tightlier, achieve the automatic adjustment of wearable electronic equipment being worn to elasticity, promote Consumer's Experience, embody the functional diversity of electronic equipment.

Electronic equipment embodiment one:

The present embodiment is based on aforementioned electronic devices embodiment one, and described electronic equipment also comprises the first device; Described the first noumenon at least comprises the first deformable body;

Described first regulon 603, also for carrying out the first operation by control first device to the first deformable body, 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;

In the present embodiment, the watchband of described intelligent watch is soft watchband, such as, made by rubber, made by moccasin.Described first deformable body can be described air bag, and described soft watchband can comprise whole air bag, also can comprise multiple air bag, not limit herein.Described first device can be air pump, is preferably configured in the body (other parts in intelligent watch except watchband) of intelligent watch, also can be set in watchband.

The diagrammatic cross-section of the watchband that Fig. 4 provides for the embodiment of the present invention; Described watchband is made by with whole air bag, comprising: internal layer 21, middle layer 22 and outer 23; Wherein, described internal layer 21 has swelling property, and described outer 23 can have swelling property also can not have swelling property, and described middle layer 22 is voided layer.

To determine that active user is in non-athletic, and wrist-watch is worn tighter, need to regulate a little i.e. the first form of pine to be that to be in loose state be example to watchband, when intelligent watch, specifically the first regulon 603 detect the operation of user to the first predetermined key, first predetermined key is used for his-and-hers watches band and exits, and responds this operation, controls described air pump and carry out bleed air operation to middle layer 22, in deflation course, the volume in middle layer 22 diminishes gradually, makes the smaller volume of watchband; Along with the continuous venting to middle layer 22, internal layer 21 reduces the compaction degree to wrist gradually, namely reduces the force value at watchband and wrist place, and the looseness of wearing of intelligent watch is strengthened.The record cell of described electronic equipment is previously recorded in the discharge quantity to middle layer 22 when user's wrist is felt good; In the process exitted in the middle layer 22 of software watchband, when the first regulon 603 judges that discharge quantity reaches this record value, forbid that air pump continues to exit to middle layer 22, to stop venting, obtain good comfortable wearing degree to make user.

And/or described first regulon 603, also for carrying out the second operation by control second device to the first deformable body, 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 volume of the first deformable body under the first deformation is less than the volume under the second deformation.

Here, as shown in Figure 4, to determine that active user is in motion, and wrist-watch is worn more loose, needs to regulate tighter i.e. the second form to be that to be in tight state be example to watchband, when intelligent watch, specifically the first regulon 603 detect the operation of user to the second predetermined key, second predetermined key is used for his-and-hers watches band and inflates, and respond this operation, described air pump carries out charge operation to middle layer 22, in gas replenishment process, the volume in middle layer 22 becomes large gradually, makes the volume of watchband become large; Along with the continuous inflation to middle layer 22, there is expansile internal layer 21 and expand gradually, compress wrist gradually, to increase the force value at watchband and wrist place, the tightness of wearing of intelligent watch is strengthened.The record cell of described electronic equipment is previously recorded in the aeration quantity to middle layer 22 when user's wrist is felt good; In the process that the middle layer 22 of software watchband is inflated, when specifically the first regulon 603 judges that aeration quantity reaches this record value, forbid that air pump continues to inflate middle layer 22, to stop inflation, obtain good comfortable wearing degree to make user.

In such scheme, to reach to the inflation in middle layer 22, venting the object regulating wrist-watch to wear elasticity by air pump, in addition, described middle layer 22 can also carry certain electrolytic solution, this electrolytic solution can cause the expansion in middle layer 22 when being heated, this electrolytic solution can cause the deflation in middle layer 22 when cooling, namely reach the compaction degree strengthening watchband and wrist or the object reducing compaction degree by the heating to this electrolytic solution, cooling.Concrete, to determine that active user is in motion, and wrist-watch is worn more loose, need to regulate tighter i.e. the second form to be that to be in tight state be example to watchband, when intelligent watch, specifically the first regulon 603 detect the operation of user to the 3rd predetermined key, 3rd predetermined key is used for the heating operation to middle layer 22 electrolytic solution of watchband, respond this operation, heating operation is carried out to this electrolytic solution, the heating of electrolytic solution brings the expansion in middle layer 22, and the force value between wrist-watch and wrist is increased.The record cell of described electronic equipment is previously recorded in the heat time to electrolytic solution when user's wrist is felt good; In the process that the electrolytic solution in middle layer 22 is heated, when the first regulon 603 judges that the heat time reaches this record value, forbid continuing to heat electrolytic solution, namely stop heating, obtain good comfortable wearing degree to make user.

As can be seen here, in the embodiment of the present invention, can by air pump to the inflation in middle layer, the object reaching and regulate wrist-watch to wear elasticity of exitting, and/or can reach by the heating of the electrolytic solution to middle layer carrying, cooling the object regulating wrist-watch to wear elasticity, achieve the automatic adjustment of wearing elasticity to wearable electronic equipment, promote Consumer's Experience, embody the functional diversity of electronic equipment.

Electronic equipment embodiment three:

The present embodiment is based on aforementioned electronic devices embodiment one, and described electronic equipment also comprises the second device; Described the first noumenon at least comprises N number of sub-body, and N is positive integer.

The watchband that the present embodiment provides is metal watchband, and described sub-body is sublist band, and namely described watchband comprises N knot watchband, and described second device can be motor, be specially micro motor, can be arranged in each sublist band.Each sublist band can include Part I and Part II, by realizing elongating or shortening of sublist band to the buckle elasticity of Part I and Part II, thus realizes elongating or shortening whole watchband, and then reaches the object of 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; Described first length is greater than the second length; Namely, the first watchband is loose state, the second form is tight state, and the length being in the watchband of loose state is greater than the length of the watchband being in tight state.

Described first regulon 603, also for producing the first acting force by the second device, under described first acting force, at least one sub-body in described N number of sub-body produces the first displacement in the first predetermined direction causes, forms the first noumenon with the first length.

The schematic diagram of another watchband that Fig. 5 (a) ~ (c) provides for the embodiment of the present invention; In Fig. 5 (a), described watchband is metal watchband, and watchband 5 is formed by connecting by N number of sublist band 51; Fig. 5 (b), (c) are specially the sectional view of a sub-watchband, and in Fig. 5 (b), (c), the Part I 510 of sublist band 51 includes micro motor 5101; Described Part II 511 includes M buckle (buckle 1, buckle 2 ... buckle M), M is positive integer.

In the present embodiment, regulation: the length of the sublist band obtained when Part I 510 is snapped in the buckle 1 of Part II 511 is longer than the length that Part I 510 is snapped in the buckle 2 of Part II 511, and the length of the sublist band obtained when Part I 510 is snapped in the buckle 2 of Part II 511 is longer than Part I 510 and is snapped in length of the buckle 3 of Part II 511 etc.

Here, to determine that active user is in non-athletic, and wrist-watch is worn comparatively tightly as Part I 510 is snapped on the buckle 4 of Part II 511, need to regulate a little i.e. the first form of pine to be that to be in loose state be example to watchband, work as intelligent watch, when described first regulon 603 detects the operation of user to the 4th predetermined key, 4th predetermined key is used for the elongation of antithetical phrase watchband, respond this operation, control micro motor 5101 and produce the first acting force, under the first acting force, as shown in Fig. 5 (b), on former Part I 510 buckle 1 be snapped on the buckle 4 of Part II 511, Part I 510 is fluffed than former buckle degree with the buckle degree of Part II 511, sublist band achieves elongation in X-direction and whole watchband is lengthened, namely the watchband longer than former watchband is obtained, reach the object regulating and wear looseness.

And/or, described first regulon 603, also for producing the second acting force by described second device, under described second acting force, at least one sub-body in described N number of sub-body produces the second displacement on the second predetermined direction, forms the first noumenon with the second length.

Here, to determine that active user is in motion, and wrist-watch is worn more loosely be snapped on the buckle 1 of Part II 511 as Part I 510, need to regulate tighter i.e. the second form to be that to be in tight state be example to watchband, work as intelligent watch, when specifically the first regulon 603 detects the operation of user to the 5th predetermined key, 5th predetermined key is used for the shortening of antithetical phrase watchband, respond this operation, control micro motor 5101 and produce the second acting force, under the second acting force, as shown in Fig. 5 (c), on former Part I 510 buckle 4 be snapped on the buckle 1 of Part II 511, Part I 510 is made to become tight with the buckle degree of Part II 511 than former buckle degree, sublist band achieves shortening in X-direction and whole watchband is shortened, namely the watchband shorter than former watchband is obtained, reach the object regulating and wear tightness.

In such scheme, the different buckles that the different length of sublist band are snapped in Part II by Part I realize, in addition, can also Part I and Part II can also be connected by spring, link such as the stretch cord with elastic properties, to be strengthened by the elasticity of these coupling parts or to reduce to come subly to realize elongating or shortening of watchband, to reach elongating or shortening of whole watchband, and then realize regulating the object wearing elasticity.

As can be seen here, in the embodiment of the present invention, can the elongating or shortening of antithetical phrase watchband, realize the lengthening to whole watchband or shortening, and then the automatic adjustment of wearing elasticity realized wearable electronic equipment, promote Consumer's Experience, embody the functional diversity of electronic equipment.

In several embodiments that the application provides, should be understood that disclosed equipment and method can realize by another way.Apparatus embodiments described above is only schematic, such as, the division of described unit, be only a kind of logic function to divide, actual can have other dividing mode when realizing, and as: multiple unit or assembly can be in conjunction with, maybe can be integrated into another system, or some features can be ignored, or do not perform.In addition, the coupling each other of shown or discussed each ingredient or direct-coupling or communication connection can be by some interfaces, and the indirect coupling of equipment or unit or communication connection can be electrical, machinery or other form.

The above-mentioned unit illustrated as separating component or can may not be and physically separates, and the parts as unit display can be or may not be physical location, namely can be positioned at a place, also can be distributed in multiple network element; Part or all of unit wherein can be selected according to the actual needs to realize the object of the present embodiment scheme.

In addition, each functional unit in various embodiments of the present invention can all be integrated in a processing unit, also can be each unit individually as a unit, also can two or more unit in a unit integrated; Above-mentioned integrated unit both can adopt the form of hardware to realize, and the form that hardware also can be adopted to add SFU software functional unit realizes.

One of ordinary skill in the art will appreciate that: all or part of step realizing said method embodiment can have been come by the hardware that programmed instruction is relevant, aforesaid program can be stored in a computer read/write memory medium, this program, when performing, performs the step comprising said method embodiment; And aforesaid storage medium comprises: movable storage device, ROM (read-only memory) (ROM, Read-Only Memory), magnetic disc or CD etc. various can be program code stored medium.

The above; be only the specific embodiment of the present invention, but protection scope of the present invention is not limited thereto, is anyly familiar with those skilled in the art in the technical scope that the present invention discloses; change can be expected easily or replace, all should be encompassed within protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection domain of described claim.

Claims (12)

1. an information processing method, be applied in a wearable electronic equipment, described electronic equipment at least comprises the first noumenon, and described the first noumenon can be in the first form or the second form; Described method comprises:

Detect the first parameter of described electronic equipment;

Resolve described first parameter, obtain the first analysis result;

According to described first analysis result, the first noumenon is regulated to be corresponding form.

2. method according to claim 1, is characterized in that, described electronic equipment also comprises first sensor; Described electronic equipment can be worn on first position of user;

Acting force when described electronic equipment is worn on the first position is detected by described first sensor;

Whether the acting force detected by judgement meets the first preset range, and generates the first judged result;

When the acting force detected by the first judged result characterizes meets the first preset range, generate the first instruction, respond the first instruction, controlling the first noumenon is the first form;

When the acting force detected by the first judged result characterizes does not meet the first preset range, generate the second instruction, respond the second instruction, controlling the first noumenon is the second form.

3. method according to claim 1, is characterized in that, described electronic equipment comprises the second sensor;

The first exercise parameter of described electronic equipment is detected by described second sensor;

Obtain the variable quantity of the first exercise parameter within first schedule time;

Judge whether described variable quantity meets the first change condition, and generate the second judged result;

When the second judged result characterize described variable quantity meet the first change condition time, generate the first instruction, respond the first instruction, control the first noumenon be the first form;

When the second judged result does not meet the first change condition for characterizing described variable quantity, generate the second instruction, respond the second instruction, controlling the first noumenon is the second form.

4. method according to claim 1, is characterized in that, described electronic equipment also comprises the 3rd sensor; Described electronic equipment can be worn on first position of user;

Obtain the first data by the 3rd sensor, the first data are for characterizing the physiological data of described user;

Judge whether the first data do not exceed in the first preset range within second schedule time, and generate the 3rd judged result;

When the 3rd judged result not exceeding the first preset range for characterizing the first data within second schedule time, generating the first instruction, responding the first instruction, controlling the first noumenon is the first form;

When the 3rd judged result exceeding the first preset range for characterizing the first data within second schedule time, generating the second instruction, responding the second instruction, controlling the first noumenon is the second form.

5. the method according to any one of claim 2 to 4, is characterized in that, described electronic equipment also comprises the first device; Described the first noumenon at least comprises the first deformable body;

Described response first instruction, comprising:

By controlling the first device, the first operation being carried out to the first deformable body, making 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;

Described response second instruction, comprising:

By controlling the second device, the second operation being carried out to the first deformable body, making 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 volume of the first deformable body under the first deformation is less than the volume under the second deformation.

6. the method according to any one of claim 2 to 4, is characterized in that, described method also comprises:

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; Described the first noumenon at least comprises N number of sub-body, and N is positive integer; Described first length is greater than the second length;

Described response first instruction, comprising:

Second device of described electronic equipment produces the first acting force, and under described first acting force, at least one sub-body in described N number of sub-body produces the first displacement in the first predetermined direction causes, forms the first noumenon with the first length;

Described response second instruction, comprising:

Second device produces the second acting force, and under described second acting force, at least one sub-body in described N number of sub-body produces the second displacement on the second predetermined direction, forms the first noumenon with the second length.

7. a wearable electronic equipment, described electronic equipment at least comprises the first noumenon, and described the first noumenon can be in the first form or the second form; Described electronic equipment comprises:

First detecting unit, for detecting the first parameter of described electronic equipment;

First resolution unit, for resolving described first parameter, obtains the first analysis result;

First regulon, for according to described first analysis result, regulates the first noumenon to be corresponding form.

8. wearable electronic equipment according to claim 7, is characterized in that, described electronic equipment also comprises first sensor; Described electronic equipment can be worn on first position of user;

Described first detecting unit, for detecting acting force when described electronic equipment is worn on the first position by described first sensor;

Described first resolution unit, for judging whether detected acting force meets the first preset range, and generates the first judged result;

When the acting force detected by the first judged result characterizes meets the first preset range, generate the first instruction; And/or, when the acting force detected by the first judged result characterizes does not meet the first preset range, generate the second instruction;

Accordingly, described first regulon, for responding the first instruction, controlling the first noumenon is the first form; And/or respond the second instruction, controlling the first noumenon is the second form.

9. wearable electronic equipment according to claim 7, is characterized in that, described electronic equipment comprises the second sensor;

Described first detecting unit, for detecting the first exercise parameter of described electronic equipment by described second sensor;

Described first resolution unit, for obtaining the variable quantity of the first exercise parameter within first schedule time;

Judge whether described variable quantity meets the first change condition, and generate the second judged result;

When the second judged result characterize described variable quantity meet the first change condition time, generate the first instruction; And/or, when the second judged result does not meet the first change condition for characterizing described variable quantity, generate the second instruction;

Accordingly, described first regulon, for responding the first instruction, controlling the first noumenon is the first form; And/or respond the second instruction, controlling the first noumenon is the second form.

10. wearable electronic equipment according to claim 7, is characterized in that, described electronic equipment also comprises the 3rd sensor; Described electronic equipment can be worn on first position of user;

Described first detecting unit, for obtaining the first data by the 3rd sensor, the first data are for characterizing the physiological data of described user;

Described first resolution unit, for judging whether the first data do not exceed in the first preset range within second schedule time, and generates the 3rd judged result;

When the 3rd judged result does not exceed the first preset range for characterizing the first data within second schedule time, generate the first instruction; And/or, when the 3rd judged result exceeds the first preset range for characterizing the first data within second schedule time, generate the second instruction;

Accordingly, described first regulon, for responding the first instruction, controlling the first noumenon is the first form; And/or respond the second instruction, controlling the first noumenon is the second form.

Wearable electronic equipment described in 11. any one of according to Claim 8 to 10, it is characterized in that, described electronic equipment also comprises the first device; Described the first noumenon at least comprises the first deformable body;

Described first regulon, also for carrying out the first operation by control first device to the first deformable body, 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;

And/or, by controlling the second device, the second operation being carried out to the first deformable body, making 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 volume of the first deformable body under the first deformation is less than the volume under the second deformation.

Wearable electronic equipment described in 12. any one of according to Claim 8 to 10, it is characterized in that, 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; Described the first noumenon at least comprises N number of sub-body, and N is positive integer; Described first length is greater than the second length;

Described first regulon, also for producing the first acting force by the second device, under described first acting force, at least one sub-body in described N number of sub-body produces the first displacement in the first predetermined direction causes, forms the first noumenon with the first length; And/or,

Produce the second acting force by described second device, under described second acting force, at least one sub-body in described N number of sub-body produces the second displacement on the second predetermined direction, forms the first noumenon with the second length.