CN105212450A

CN105212450A - Electronic equipment and method of adjustment

Info

Publication number: CN105212450A
Application number: CN201510624982.6A
Authority: CN
Inventors: 夏婕
Original assignee: Lenovo Beijing Ltd
Current assignee: Lenovo Beijing Ltd
Priority date: 2015-09-25
Filing date: 2015-09-25
Publication date: 2016-01-06
Anticipated expiration: 2035-09-25
Also published as: CN105212450B

Abstract

The embodiment of the invention discloses a kind of electronic equipment and method of adjustment, described electronic equipment comprises: fixture, at least there is stationary state, under described stationary state, can form annulus or proximate annular space, it is peripheral that described annulus or proximate annular space can be looped around the first column; Adjustment module, for when described electronic equipment meets default regularization condition, adjusts the bore in described annulus or proximate annular space.

Description

Electronic equipment and method of adjustment

Technical field

The present invention relates to electronic technology field, particularly relate to a kind of electronic equipment and method of adjustment.

Background technology

Along with the development of electronic technology, the kind of electronic equipment also gets more and more, such as, occurred Wearable device, and described Wearable device can comprise intelligent watch, Intelligent bracelet or Intelligent foot ring etc.These electronic equipments are worn on the body part of the correspondence of human body.But often occur may the bore that formed of wearable device and user wear the phenomenon that body part do not match.

Summary of the invention

In view of this, the embodiment of the present invention is expected to provide a kind of electronic equipment and method of adjustment, to improve the intelligent of electronic equipment.

For achieving the above object, technical scheme of the present invention is achieved in that

Embodiment of the present invention first aspect provides a kind of electronic equipment, and described electronic equipment comprises:

Fixture, at least has stationary state, under described stationary state, can form annulus or proximate annular space, and it is peripheral that described annulus or proximate annular space can be looped around the first column;

Adjustment module, for when described electronic equipment meets default regularization condition, adjusts the bore in described annulus or proximate annular space.

Based on such scheme, described electronic equipment also comprises:

Detect module, for detecting the first parameter;

Process module, for judging whether described first parameter meets described default regularization condition;

Described adjustment module, specifically for when described first parameter meets described default regularization condition, the bore adjusting described annulus or proximate annular space forms adjustment result, to make described adjustment result and described first match parameters.

Based on such scheme, described detection module, specifically for detecting the motion state parameters of described electronic equipment;

Described process module, specifically for judging whether described motion state parameters is greater than the first predetermined threshold value;

Described adjustment module, specifically for being greater than the first predetermined threshold value when described motion state parameters, reduces the bore in described annulus or proximate annular space.

Based on such scheme, described process module, also for judging whether described kinematic parameter is less than the second predetermined threshold value; Wherein, described second predetermined threshold value is not more than described first predetermined threshold value;

Described adjustment module, specifically for when described kinematic parameter is less than described second predetermined threshold value, increases the bore in described annulus or proximate annular space.

Based on such scheme, described detection module, during specifically for detecting described annulus or described proximate annular spatial loop around described first column, described annulus or the first gap between described proximate annular space and described first column;

Described process module, specifically for judging whether described first gap is greater than prepsetting gap;

Described adjustment module, specifically for when described first gap is greater than described prepsetting gap, reduces the bore in described annulus or proximate annular space, matches to make the bore in described annulus or proximate annular space and described first column periphery.

Based on such scheme, described detection module, is subject to the first external force value of the first external force specifically for detecting described electronic equipment;

Described process module, specifically for judging that described first external force value is greater than first and presets force value;

Described adjustment module, during specifically for being greater than the first default force value when described first external force value, the bore adjusting described annulus or proximate annular space according to the direction of described first external force forms adjustment result, matches to make described adjustment result and described the first external force being positioned at described preset range.

Based on such scheme, described annulus or proximate annular space comprise contrary first surface and second surface; The bore of described first surface place ring or approximate ring is greater than the bore of described second surface place ring or approximate ring;

Described adjustment module, at least can be used in the bore adjusting described second surface place ring or approximate ring.

Based on such scheme, described adjustment module, for by the change of its thickness, reducing or amplify the bore of described second surface place ring or approximate ring.

Based on such scheme, described adjustment module comprises:

Deformation module, can by expanding and shrinking the thickness changing self;

Driver module, is connected with described deformation module, can provide driving force for the deformation of described deformation module.

Based on such scheme, described deformation module is can the inflation/deflation module of inflation/deflation;

Described driving module is to control the gas-powered module that described inflation/deflation module carries out inflating or exitting.

Based on such scheme, described adjustment module also comprises:

Interactive module, for accepting operation instruction;

Described deformation module, for when receiving described operation instruction, by expanding and shrinking the thickness changing self.

Based on such scheme, can there is deformation at least part of described fixture for the formation of described annulus or proximate annular space;

Described adjustment module comprises the first displacement module and the second displacement module;

Can interaction force be formed between described first displacement module and described second displacement module, and the bore in described annulus or proximate annular space can be changed by adjusting described active force.

Based on such scheme, described fixture comprises at least two stuck-modules;

Connected by link block between at least two described stuck-modules;

Described adjustment module, specifically for when described electronic equipment number meets described default regularization condition, by adjusting described link block to adjust the relative position relation between at least two described stuck-modules, to change the bore in described annulus or proximate annular space.

Based on such scheme, at least part of described fixture for the formation of described annulus or described proximate annular space can send deformation;

Described electronic equipment also comprises can the display module of deformation synchronous with described fixture;

Described display module is the part of described fixture, or is connected with described fixture and can jointly forms described annulus or proximate annular space with described fixture.

Embodiment of the present invention second aspect provides a kind of method of adjustment, and described method comprises:

When electronic equipment meets default regularization condition, the bore in the annulus that the fixture adjusting described electronic equipment is formed or proximate annular space; Wherein, described annulus or proximate annular space can be looped around the periphery of the first column.

Based on such scheme, described method also comprises:

Detect the first parameter;

Judge whether described first parameter meets described default regularization condition;

Described when described electronic equipment meets default regularization condition, adjust the annulus of fixture formation or the bore in proximate annular space in described electronic equipment, comprising:

When described first parameter meets described default regularization condition, adjust the bore in described annulus or proximate annular space, meet the default matching requirements corresponding with described first parameter to make described annulus or described proximate annular space relative to the external diameter of described first column.

Based on such scheme, described detection first parameter, comprising: the motion state parameters detecting described electronic equipment;

Describedly judge whether described first parameter meets default regularization condition, comprising:

Judge whether described motion state parameters is greater than the first predetermined threshold value;

It is described when described first parameter meets described default regularization condition, the bore in described annulus or proximate annular space is adjusted according to described first direction, to make described annulus or described proximate annular space meet the default matching requirements corresponding with described first parameter relative to the external diameter of described first column, comprising:

When described motion state parameters is greater than the first predetermined threshold value, reduce the bore in described annulus or proximate annular space.

Based on such scheme, describedly judge whether described first parameter meets default regularization condition, also comprises:

Judge whether described kinematic parameter is less than the second predetermined threshold value; Wherein, described second predetermined threshold value is not more than described first predetermined threshold value;

It is described when described first parameter meets described default regularization condition, adjust the bore in described annulus or proximate annular space, to make described annulus or described proximate annular space meet the default matching requirements corresponding with described first parameter relative to the external diameter of described first column, comprising:

When described kinematic parameter is less than described second predetermined threshold value, increase the bore in described annulus or proximate annular space.

Based on such scheme, described detection first parameter, comprising: when surveying described annulus or described proximate annular spatial loop around described first column, described annulus or the first gap between described proximate annular space and described first column;

Judge whether described first gap is greater than prepsetting gap;

When described gap is greater than described prepsetting gap, for when described first gap is greater than described prepsetting gap, reduce the bore in described annulus or proximate annular space, match to make the bore in described annulus or proximate annular space and described first column periphery.

Based on such scheme, described detection first parameter, comprising: detect the first external force value that described electronic equipment is subject to the first external force;

Judge that described first external force value is greater than first and presets force value;

When described first external force value is greater than the described first default force value, the bore adjusting described annulus or proximate annular space according to the direction of described first external force forms adjustment result, matches to make described adjustment result and described the first external force being positioned at described preset range.

Based on such scheme, described when electronic equipment meets default regularization condition, the bore in the annulus that the fixture adjusting described electronic equipment is formed or proximate annular space; Wherein, described annulus or proximate annular space can be looped around the periphery of the first column, comprising:

Accept operation instruction;

When receiving described operation instruction, according to operation instruction by expanding or shrinking the bore that the thickness changing electronic equipment deformation module adjusts described annulus or proximate annular space.

Electronic equipment described in the embodiment of the present invention and method of adjustment, when electronic equipment meets default regularization condition, the annulus that the fixture of electronic adjustment electronic equipment is formed or the bore in proximate annular space, relative to existing pure manpower adjustment manually, simplify user operation, improve the intelligent of electronic equipment and user's user satisfaction.

Accompanying drawing explanation

The structural representation of the first electronic equipment that Fig. 1 a provides for the embodiment of the present invention;

The structural representation of the second electronic equipment that Fig. 1 b provides for the embodiment of the present invention;

The structural representation of the third electronic equipment that Fig. 2 provides for the embodiment of the present invention;

The structural representation of the 4th kind of electronic equipment that Fig. 3 A and Fig. 3 B provides for the embodiment of the present invention;

Fig. 4 is the structural representation of the 5th kind of electronic equipment that the embodiment of the present invention provides;

The schematic flow sheet of a kind of method of adjustment that Fig. 5 provides for the embodiment of the present invention.

Detailed description of the invention

Below in conjunction with Figure of description and specific embodiment technical scheme of the present invention done and further elaborate.

Apparatus embodiments one:

As shown in Figure 1a, the present embodiment provides a kind of electronic equipment, and described electronic equipment comprises:

Fixture 110, at least has stationary state, under described stationary state, can form annulus or proximate annular space, and it is peripheral that described annulus or proximate annular space can be looped around the first column;

Adjustment module 140, for when described electronic equipment meets default regularization condition, adjusts the bore in described annulus or proximate annular space.

Electronic equipment described in the present embodiment is to be worn on the Wearable device on user's health, and such as intelligent watch, Intelligent bracelet, intelligent finger ring, Intelligent foot ring or intelligent neck ring etc. are various may be worn on user's electronic equipment with it.Described first column can be the body parts such as user's finger, wrist, ankle or neck.

Electronic equipment described in the present embodiment when described electronic equipment meets default regularization condition, will adjust the bore in described annulus or proximate annular space.Being adjusted the bore in described annulus or proximate annular space in the present embodiment by the pure position of manually being detained by table of user relative to Intelligent bracelet in prior art, is a kind of electronic adjustment.

Such as, described electronic equipment meets described default regularization condition, and the conductive path that can comprise described adjustment module is switched on.Such as, described electronic equipment is provided with adjustment shift knob etc., described adjustment shift knob is positioned on two power supply circuits of described adjustment module 140, when described adjustment switch knocks down on power supply circuits wherein, if these power supply circuits are the circuit reducing described bore, then described adjustment module 140 will reduce described bore.If these power supply circuits are the circuit expanding described bore, then described adjustment module 140 will reduce described bore.

Obviously, present embodiments provide the introducing of electronic equipment by adjustment module, electronic mode can be adopted, adjust described bore, adjust relative to pure hand-operated manpower, simplify the adjustment of electronic equipment bore, improve the intelligent of electronic equipment.

As further improvement of this embodiment, as shown in Fig. 1 b to Fig. 4, the present embodiment provides a kind of electronic equipment, and described electronic equipment comprises:

Detect module 120, for detecting the first parameter;

Process module 130, for judging whether described first parameter meets default regularization condition;

Adjustment module 140, can be used in when described first parameter meets described default regularization condition, and the bore adjusting described annulus or proximate annular space forms adjustment result, to make described adjustment result and described first match parameters.

Described fixture 110 can be ring body, the watchband of intelligent watch, the chaining etc. of intelligent neck ring of Intelligent bracelet.Described fixture 110 at least comprises stationary state in a word, be exactly the state that described fixture 110 forms described annulus or proximate annular space at stationary state, described fixture 110 also can comprise transitory state, and described transitory state is the state that described fixture 110 does not form described annulus or proximate annular space.Such as, the watchband that intelligent watch band table is buckled, can untie expression, thus the watchband of intelligent watch does not have fastening to form an annulus, if under described stationary state, then the watchband of intelligent watch is by fastening, forms annulus.

Described annulus can comprise a closed ring, specifically can be as shown in Figure 4.Described proximate annular space can be the split ring meeting default approximate condition, specifically can as shown in Fig. 2, Fig. 3 A and Fig. 3 B.Described split ring is the ring that ring body is provided with otch, described in meet default approximate condition and can be that ring body corresponding to described otch is long is less than designated length, or ring body length corresponding to the described otch ratio longer than the ring body of upper whole ring is less than and specifies ratio etc.

Except comprising the structures such as above-mentioned fixture 110, also agent set can be comprised at electronic equipment described in concrete implementation procedure.Described agent set can comprise the structures such as display screen.When described agent set major part is positioned within described fixture 110, the display location of such as described agent set is on a side of described fixture, other parts are positioned within described fixture 110, in this time, described fixture 110 forms described annulus or proximate annular space separately.Certainly, described agent set can, for two parts be separated, can be used for jointly forming described annulus and proximate annular space with described fixture.Certain described main part also can comprise the structures such as the housing of fixing display screen except comprising described display screen.

Described detection module 120 can be positioned at described fixture 110 or described agent set at least partly.Also introduce in the present embodiment and detect module 120, described detection module can be various sensor, can detect described first parameter.Described sensor can be gyroscope, detects the motion state parameters of described electronic equipment, and this motion state parameters can comprise acceleration or movement velocity etc.Such as, described detection module 120 can comprise the structures such as the control button detecting user operation in the present embodiment.Detected by described control button and obtain the first parameter.

Described process module 130 can comprise various types of processor or treatment circuit.Described process module 130 equally also can be arranged in described fixture 110 and/or described agent set.Described processor can comprise the structures such as central processing unit, digital signal processor, programmable array, microprocessor or digital signal processor.Described treatment circuit can comprise special IC.Here process module 130, is mainly used in judging whether the first parameter meets default regularization condition.Here presetting regularization condition is the condition that the bore for triggering described adjustment module 140 pairs of annuluses or proximate annular space adjusts.Such as, described process module can be root first parameter and judges whether user indicates the described bore of adjustment, also can determine according to described first parameter and amplifies described bore or reduce described bore.Described process module 130 will judge the result formed, and be given to adjustment module 140, and adjustment module 140 will carry out the adjustment of bore according to result.

Adjusting module 140 described in the present embodiment can be positioned within described fixture 110 and/or described agent set, also can be positioned at outside described fixture 110 and/or described agent set.The bore in the described annulus made or proximate annular space zooms in or out by the adjustment module 140 described in the present embodiment, forms adjustment result.Here adjustment result can comprise the bore after the adjustment in described annulus or proximate annular space.Bore in the present embodiment after described adjustment and described first match parameters.Described first parameter detected is different, and the result after described adjustment module 140 adjusts also is different.

Such as, under the usual situation of user, wish that the electronic equipment worn just in time is suitable for mutually with the size of the body part worn, there will not be annulus or proximate annular space and wear between body part (i.e. described first column) and occur excessive gap, do not wish to wear tension yet, cause the uncomfortable state of user, but under some special screne, such as user washes one's hands, than not wishing that the intelligent watch being worn on wrist place is drenched, if now the annulus of intelligent watch or the bore in proximate annular space suitable with the size of wrist just, if user upwards pushes away to by intelligent watch, then may need the bore expanding annulus or proximate annular space.In this time, described first parameter can be the motive force that electronic equipment detects from certain side.Described process module 130, for judging whether described motive force is greater than the value of predetermined value, is greater than predetermined value and can thinks and meet default regularization condition.Adjustment module 140, according to described first parameter, will amplify the bore in described annulus or proximate annular space, and the direction that described electronic equipment is pointed to toward described motive force is moved.

Present embodiments provide a kind of electronic equipment, this electronic equipment is generally Wearable device, can according to the first parameter being detected, automatic triggering is to the adjustment of the bore in annulus or proximate annular space, thus the bore that under automatically meeting current application scene, annulus or proximate annular space provide, improve the intelligent of electronic equipment and user's user satisfaction.

The adjustment result that described annulus in the present embodiment after adjustment or the bore in proximate annular space are formed, can be divided into three kinds of situations;

The first: the described annulus after adjustment or the bore in proximate annular space are greater than the external diameter of described electronic equipment with described first column of wearing position, and the mated condition between this electronic equipment and the first column can be described as matched in clearance.

The second: the described annulus after adjustment or the bore in proximate annular space match with the external diameter of described electronic equipment with described first column of wearing position just, just in time suitable, user wore this electronic equipment and can not feel tension this time, also will, because of excessively loose, described electronic equipment be caused arbitrarily to slide at user's body position.This electronic equipment can be described as critical cooperation with the first mated condition of living between state.

The third: user wants to avoid electronic equipment to slide vigorous exercise state is inferior, and critical cooperation is not enough to the slip avoiding electronic equipment.Now, described annulus after adjustment or the bore in proximate annular space are slightly less than the external diameter of described electronic equipment with described first column of wearing position, like this, described fixture will be very stable the periphery being fixed on described first column, this situation can think tight fit.

Described first parameter is the parameter that can reflect described electronic equipment current application scene in the present embodiment, described adjustment result and described first match parameters, show that described adjustment module 140 forms according to described first parameter the bore being applicable to current application scene.

In concrete implementation procedure, the first parameter and the matching relationship adjusting result can be stored in described electronic equipment, like this, described adjustment module can according to described matching relationship, and the bore adjusting the described annulus after described adjustment or proximate annular space is greater than the described annulus of described electronic equipment with wearing position or the bore in proximate annular space; Certain described electronic equipment also can store adjustable strategies; Electronic equipment according to the first parameter meeting described default regularization condition, can determine adjustable strategies; Described adjustment module 140 adjusts according to described adjustable strategies, the adjustment result of formation, naturally also with described first match parameters.

It should be noted that: described adjustment module 140 can comprise duty and off working state, described adjustment module 140, under described duty, can be used in the bore adjusting described annulus or proximate annular space.Show control button 140 in fig. 2.Described control button 140 is for controlling the duty of described adjustment module 140.

Apparatus embodiments two:

As shown in Figure 1, the present embodiment provides a kind of electronic equipment, and described electronic equipment comprises:

Detect module 120, for detecting the first parameter;

Described detection module 120, specifically for detecting the motion state parameters of described electronic equipment;

Described process module 130, specifically for judging whether described motion state parameters is greater than the first predetermined threshold value;

Described adjustment module 140, specifically for being greater than the first predetermined threshold value when described motion state parameters, reduces the bore in described annulus or proximate annular space.

In some cases, the user wearing described electronic equipment is moving, and such as, has worn intelligent watch user and has played basketball, and user is playing basketball or in the motion process such as running, do not wishing the movement that intelligent watch is undue in its wrist.In this example embodiment, it is stable fixing to realize that described electronic equipment may need to reduce bore, and the bore after reducing at least will realize aforesaid critical cooperation or tight fit.

Described first parameter is motion state parameters in the present embodiment, and described kinematic parameter can comprise acceleration of motion and movement velocity uniform velocity.When described acceleration of motion is greater than the first acceleration rate threshold or movement velocity is greater than First Speed threshold value, can thinks and meet described first predetermined movement state.Like this, described adjustment module 140 according to described motion state parameters, will reduce the bore in described annulus or proximate annular space, to improve the fixing stability of fixture 110.

Such electronic equipment, obviously the user of wearable electronic device can be promoted under motion state, the phenomenon that user's user satisfaction that electronic equipment bore and the body part (i.e. described first column) worn do not have to adopt applicable fit system to cause is low, improves the intelligent of electronic equipment.

After user runs end or end of playing basketball, user no longer carries out strenuous exercise, and electronic equipment also can not move along with the violent motion of electronic equipment.Now, if when electronic equipment strenuous exercise, tight fit is achieved by reducing bore, in order to improve the comfort level of user's now wearable electronic device, the described bore of suitable increase may be needed, make described annulus or proximate annular space realize critical cooperation or matched in clearance with described first column.In view of this, in the present embodiment, described process module 120, also for judging whether described kinematic parameter is less than the second predetermined threshold value; Wherein, described second predetermined threshold value is not more than described first predetermined threshold value; Described adjustment module 140, specifically for when described kinematic parameter is less than described second predetermined threshold value, increases the bore in described annulus or proximate annular space.

Like this, described electronic equipment will expand the bore in annulus or proximate annular space automatically, thus tight fit is altered to the sight of critical cooperation or matched in clearance, thus meets the demand of current application scene.

Apparatus embodiments three:

Detect module 120, for detecting the first parameter;

Described detection module 120, during specifically for detecting described annulus or described proximate annular spatial loop around described first column, described annulus or the first gap between described proximate annular space and described first column;

Described process module 130, specifically for judging whether described first gap is greater than prepsetting gap;

Described adjustment module 140, specifically for when described first gap is greater than described prepsetting gap, reduces the bore in described annulus or proximate annular space, matches to make the bore in described annulus or proximate annular space and described first column periphery.

Electronic equipment described in the present embodiment is under conventional wearing state, described detection module 120 will detect the gap of described annulus or proximate annular space and user's wearing site (namely described first column is peripheral), if excesssive gap, obviously current to wear stability inadequate.Described process module 130 can not judge whether described first gap is greater than described prepsetting gap in the present embodiment, if be greater than described prepsetting gap, described adjustment module 140 will reduce the bore in described annulus or proximate annular space, improves the stability worn like this.

Such as, described detection module 120 can comprise and is arranged on the one side that described annulus is relative with described first column with proximate annular space or fit, and can comprise the structures such as luminance sensor.Described luminance sensor determines described first gap by testing environment brightness.If the larger described luminance sensor in gap detects that the brightness of the surround lighting of surrounding is also larger.If fit with described first column periphery completely in described annulus or proximate annular space, then described luminance sensor cannot detect surround lighting, and the zero luminance obviously detected, now also represents that described first spacing is also zero.

Electronic equipment described in the present embodiment can be used for the bore reducing described annulus or proximate annular space voluntarily, thus automatically realizes stable wearing.After the bore in described annulus or proximate annular space reduces in the present embodiment, described critically to coordinate or described tight fit can be formed with the body part of wearing of user, improve the intelligent of electronic equipment.

Apparatus embodiments four:

Detect module 120, for detecting the first parameter;

Described detection module 120, is subject to the first external force value of the first external force specifically for detecting described electronic equipment;

Described process module 130, specifically for judging that described first external force value is greater than first and presets force value;

Described adjustment module 140, during specifically for being greater than the first default force value when described first external force value, the bore adjusting described annulus or proximate annular space according to the direction of described first external force forms adjustment result, matches to make described adjustment result and described the first external force being positioned at described preset range.

The first external force that described first external force value is corresponding in the present embodiment can be the external force of mobile described electronic equipment wearing position.The multilevel iudge of force value will be preset in the present embodiment by the first external force value and first, whether user wants mobile described electronic equipment, when being when needing mobile described electronic equipment really, more always determine that reducing described bore still increases described bore according to described first party.

Obvious the present embodiment, on the basis of aforementioned device embodiment, provides another kind of electronic equipment, the first external force suffered by described electronic equipment automatically can reduce or amplifies aperture, facilitating the movement of described electronic equipment.

Apparatus embodiments five:

Described annulus or proximate annular space comprise contrary first surface and second surface; The bore of described first surface place ring or approximate ring is greater than the bore of described second surface place ring or approximate ring;

Described adjustment module 140, at least can be used in the bore adjusting described second surface place ring or approximate ring.

Annulus described in the present embodiment or proximate annular space comprise two be oppositely arranged show.Described second surface, under the wearing state of electronic equipment, is relative with the first column or the surface of fitting.In fig. 2, namely the outer surface of described adjustment module 140 constitutes described second surface.

Described adjustment module 140 realizes the adjustment of the bore to whole annulus or proximate annular space by the bore of adjustment second surface place ring or approximate ring in the present embodiment.

Electronic equipment described in the present embodiment has intelligent height and the high feature of user's user satisfaction equally.

Apparatus embodiments six:

Described adjustment module 140, for by the change of its thickness, reducing or amplify the bore of described second surface place ring or approximate ring.

In the present embodiment described adjustment module 140 be one can the structure of deformation, the bore of described second surface place ring or approximate ring can be changed by the thickness changing self.

A surface of described adjustment module 140 can form described second surface; The change of the thickness of described like this adjustment module 140, obviously can change the bore that described second surface place ring or place are similar to ring.

Certain described adjustment module 140 also can be positioned at described second surface, and described adjustment module 140, by the change of the thickness of self, changes the position of described second surface, thus changes the ring at described second surface place or the bore of approximate ring.

Adjusting module in a word described in the present embodiment is a structure that can change its thickness, not only have the feature of the bore with adjustment annulus or proximate annular space, and it is simple also to have structure.

Apparatus embodiments seven:

Described adjustment module 140 comprises:

Deformation module, can by expanding and shrinking the thickness changing self;

Described adjustment module 140 comprises deformation module and driver module in the present embodiment, and described deformation module is the structure that can expand or shrink.Described deformation module such as can comprise and can be extruded and discharge the results such as the sponge of extruding.Described driver module can comprise for described deformation module provides the drives structure of driving force, and described driver module can comprise motor, air pump or micro hydraulic structure.These drives structure, by applying active force to described deformation module, change the thickness of described deformation module, thus change the bore in described annulus or proximate annular space.

The concrete structure providing a kind of described adjustment module 140 of the present embodiment, has structure simple and realize easy feature.

Apparatus embodiments eight:

Described adjustment module 140 comprises:

Deformation module, can by expanding and shrinking the thickness changing self;

In the present embodiment, be specially can the inflation/deflation module of inflation/deflation for described deformation module; Described driving module is specially the gas-powered module that can control described inflation/deflation module and carry out inflating or exitting.Described inflation/deflation module comprises the air bag from inflating and exit.Described gas-powered module can comprise the structures such as air pump, for the air pump to described airbag aeration and released by the gas in air bag.In fig. 2, pointed by described adjustment module 140, there is shade filling part, can be considered the air bag described in the present embodiment.

The module of inflation/deflation described in the present embodiment is air bag, and obvious air bag by the thickness of inflation increase self, can reduce the thickness of self by venting.The driving force that described air pump obviously can provide for the inflation of air bag and venting, obviously has the features such as the simple and hardware cost of structure is low.

As further improvement of this embodiment,

Described adjustment module also can comprise:

Interactive module, for accepting operation instruction;

Described deformation module, specifically for when receiving described operation instruction, according to described operation instruction by expanding or shrinking the thickness changing self, adjusts described bore.

Described mutual module can be and comprises structure such as adjustment switch or control button 140 etc.Based on the operation instruction of user's input, the described bore of electronic adjustment can be carried out like this, simplify adjustment operation, improve the intelligent of electronic equipment and user's user satisfaction.

Apparatus embodiments nine:

Detect module 120, for detecting the first parameter;

Can deformation be there is at least part of described fixture 110 for the formation of described annulus or proximate annular space;

As shown in Figure 3 A and Figure 3 B, described adjustment module comprises the first displacement module 132 and the second displacement module 133;

Can interaction force be formed between described first displacement module 132 and described second displacement module 133, and the bore in described annulus or proximate annular space can be changed by adjusting described active force.

Described in the present embodiment, the first displacement module 132 and the second displacement module 133 can be the structure that can move.Such as, described first displacement module 132 can comprise the first magnet, and described second displacement module 133 can comprise the second magnet, described first magnet and the second magnet; Described first magnet and the second magnet at least one of them, under the effects such as electric current, can change the magnetic of self.Like this, can attract each other between described first magnet and described second magnet or mutually arrange secondary active force.The size of the interaction force between certainly described first magnet and described second magnet, also can change under the effects such as described electric current.

Described first displacement module 132 can be the 3rd magnet, and described two displacement modules 133 can be the metallic object that can be attracted by described 3rd magnet.Like this, also interaction force can be formed between described 3rd magnet and described metallic object.The size of interaction force be here decided by described 3rd magnet magnetic force and and described metallic object between distance.

Described fixture 110 comprises two free ends in the present embodiment, described first displacement module and described second displacement module can lay respectively at two described free ends, two free ends like this, when described first displacement module and described second displacement module close up completely, form described annulus.When described first displacement module and described second displacement module do not close up, form described proximate annular space.

Certainly, described first displacement module is positioned at the end of the first free end of two free ends; Described second displacement module is arranged in the first distance of the second free end of distance two described free ends; In this time, when described first free end and described second free end do not close up, described fixture 110 also can form described annulus.When described first free end and described second automatic end are closed up, the bore of the annulus that described fixture 110 is formed will be less than the bore of the annulus formed when described first free end and described second free end do not close up.When the distance of described first free end and described second free end is enough large, described fixture 110 also can form split ring, to form described proximate annular space.Described first displacement module 132 is positioned at a free end in the present embodiment, and second shifting formwork group 133 is then positioned at and has certain distance apart from another free end.

Fig. 3 B is the effect schematic diagram after the magnetic force increased between described first displacement module 132 and second shifting formwork group 133 increases.

Present embodiments provide the structure of another kind of described adjustment module 140, this adjustment module 140 comprises moveable displacement module, by the relative displacement between displacement module, change the bore in described annulus or proximate annular space, thus realize the automatic adjustment of the bore in described annulus or proximate annular space.

Apparatus embodiments ten:

Detect module 120, for detecting the first parameter;

Described fixture 110 comprises at least two stuck-modules;

Connected by link block between at least two described stuck-modules;

Described adjustment module 140, specifically for when described electronic equipment number meets described default regularization condition, by adjusting described link block to adjust the relative position relation between at least two described stuck-modules, to change the bore in described annulus or proximate annular space.

Described at least two described stuck-modules can be connected successively, such as, can be connected to form the structure of the watchband of intelligent watch or the ring body of Intelligent bracelet successively.Described link block is by connecting the connection rotating shaft etc. of described stuck-module.

Described adjustment module 140 is by adjusting described link block in the present embodiment, change the position relationship between described stuck-module, such as by the attitude of the described link block of adjustment, thus the angle adjusted between described stuck-module, and then the described annulus that formed of regulation fixing apparatus 110 or the bore in proximate annular space.

Apparatus embodiments 11:

Detect module 120, for detecting the first parameter;

At least part of described fixture for the formation of described annulus or described proximate annular space can send deformation;

As shown in Figure 4, also comprise can the display module 150 of deformation synchronous with described fixture for described electronic equipment;

Described display module 150 is the part of described fixture 110, or is connected with described fixture 150 and jointly can forms described annulus or proximate annular space with described fixture 110.

Display module 150 described in the present embodiment be can with the structure of the synchronous deformation of described fixing module.Described display module 150 can be the display module that can bend, also can for there is the flexible module of dough deformation.Described display module 150 can comprise display screen, and described display screen can show information.Described display screen can be the structures such as LCDs, electric ink display screen or projection display screen.

A surface that can be positioned at described fixture 110 for the viewing area externally showing information of described display module 150, other structures such as the display chip of described display module 150 and/or display circuit, be positioned at described fixture 110, described display in this time module 150 is the structure of a composition of described fixture 110.

Certain described display module 150 also can be positioned in the structure outside independent of described fixture 110.Such as, intelligent watch comprises dial plate and watchband, and described watchband is described fixture 110; And described dial plate is parts separate with described watchband; Described display module 150 can be positioned on described dial plate.In figure 3, described display module 150 is positioned at the agent set independent of described fixture 110.But agent set is connected with described fixture 110, defines described annulus.

In a word, showing module 150 described in the present embodiment has two kinds of position relationships relative to described fixture 110, but display module 150 and described fixture 110 can synchronously bend, thus changes the bore in described annulus or proximate annular space.

Such as, described fixture 110 comprises stationary state and transitory state;

Under described stationary state, the flexibility of described display module 150 is the first flexibility;

Under described transitory state, the flexibility of described display module 150 is the second flexibility;

Described first flexibility is different from described second flexibility.

Such as, intelligent watch, under described transitory state, fixture 110 and the display module 150 of the electronic equipments such as intelligent watch stretch, do not form described annulus or described proximate annular space, under described stationary state, fixture 110 and the display module 150 of described electronic equipment bend, and can form described annulus or proximate annular space.Under the effect of described adjustment module 140, described display module 150 and described fixture 110 bend further, zoom in or out the bore in described annulus or proximate annular space.

In a word, electronic equipment described in the present embodiment, automatically the bore in annulus or proximate annular space can not only be adjusted, add display module 150 simultaneously, display module 150 also can bend, facilitate user like this under the differently curved degree of electronic equipment, better viewing electronic equipment is by the information of display module 150 display.

Equipment implements 12:

As shown in Figure 1a, the present embodiment also provides another kind of electronic equipment, and described electronic equipment comprises:

Fixture 110, at least has stationary state, under described stationary state, can form annulus or proximate annular space, and it is peripheral that described annulus or proximate annular space can be looped around the first column.

Described adjustment module 140 comprises:

Deformation module, by expanding and shrinking the thickness changing self, can adjust the bore in described annulus or described proximate annular space;

Electronic equipment described in the present embodiment is wearable electronic equipment.Described wearable electronic equipment can comprise the structures such as intelligent watch, Intelligent bracelet, intelligent finger ring, Intelligent foot ring.First column can be the positions such as user's wrist, user's finger, user's pin ring.

Described deformation module can comprise the structure that air bag or sponge etc. can stretch, and by the adjustment of the thickness of self, can realize the adjustment of the size of the bore in described annulus or described proximate annular space.Described driving module can comprise the structure such as air pump or motor, for described deformation module provides driving force.

Such as, described fixture in the present embodiment, also can comprise adjustment button.Described adjustment button, according to detection user instruction, indicates the deformation controlling described deformation module according to user.

Being preferably described deformation module is in the present embodiment air bag, and described driving module is the structures such as air pump.Described adjustment button can be the switch controlling described air pump and whether work and how to work.Such as, described adjustment button is selected left, then to airbag aeration, described adjustment button is selected to the right, then pumped by the gas in air bag, make air bag deflation.If described adjustment button is non-selected, then gas air pump inoperative.

Provide in the present embodiment and be a kind ofly different from the bore adjust structure in the past needing to be adjusted annulus or proximate annular space by mode such as table button etc., there is structure simply and adjust feature more easily.

Embodiment of the method one:

The present embodiment provides a kind of method of adjustment, and described method comprises:

Method of adjustment described in the present embodiment can be the described electronic equipment be applicable in aforementioned arbitrary equipment embodiment.Electronic equipment described in the present embodiment can be Wearable device, such as, and the structures such as intelligent watch, Intelligent bracelet or intelligent finger ring.

When described in the present embodiment, electronic equipment meets default regularization condition, the annulus that the fixture of described for electronic adjustment electronic equipment is formed or the bore in proximate annular space.Relative to manual manpower adjustment pure in prior art, simplify the adjustment of bore, improve the intelligent of electronic equipment and user's user satisfaction.

Embodiment of the method two:

As shown in Figure 5, the present embodiment provides a kind of method of adjustment, comprising:

Step S110: detect the first parameter;

Step S120: judge whether described first parameter meets default regularization condition;

Step S130: when described first parameter meets described default regularization condition, adjust the annulus of described electronic equipment formation or the bore in proximate annular space, meet the default matching requirements corresponding with described first parameter to make described annulus or described proximate annular space relative to the external diameter of described first column.

Electronic equipment described in the present embodiment will detect the first parameter automatically; Usually described first parameter can be used in characterizing the features such as the current application scenarios of described electronic equipment.Motion state parameters such as by detecting described electronic equipment can determine user, and whether wearable electronic device is moved, the application scenarios such as the position whether user wants mobile described electronic equipment to wear such as detect the direction of the power that described electronic equipment receives or the power received, under can be determined.

To judge whether described first parameter meets default regularization condition in the step s 120.The result will judged according to step S130 in step s 130, which, if determine, the first parameter meets described default regularization condition, the bore of described annulus or proximate annular space will be adjusted, and the adjustment result formed is and described first match parameters, here be meant to the current application scene that the described annulus after making adjustment or proximate annular space are applicable to described electronic equipment.

Method of adjustment described in the present embodiment, improves the intelligent of described electronic equipment, can make described electronic equipment can the bore regulating described annulus or proximate annular space according to application scenarios of intelligence, thus improves user's user satisfaction.

Embodiment of the method three:

Step S110: detect the first parameter;

Described step S110 can comprise: the motion state parameters detecting described electronic equipment;

Described step S120 can comprise: judge whether described motion state parameters is greater than the first predetermined threshold value;

Described step S130 comprises: when described motion state parameters is greater than the first predetermined threshold value, reduce the bore in described annulus or proximate annular space.

Described first parameter can comprise the motion state parameters of electronic equipment in the present embodiment.Described kinematic parameter can be the parameter such as acceleration parameter or movement velocity of described electronic equipment.Judge whether described motion state parameters is greater than the first predetermined threshold value in the step s 120, whether described acceleration parameter can be comprised and whether be greater than the first acceleration rate threshold and/or whether described speed parameter is greater than the conditions such as First Speed threshold value.Determine when motion state parameters is greater than described first predetermined threshold value in step s 130, which, will automatically reduce the bore in described annulus or proximate annular space, to improve fixing stability.Such user in wearable electronic device under strenuous exercise's state, electronic equipment can by detecting the motion state parameters of self, reduce described bore, better fixed-line subscriber wear body part (i.e. described first column), avoid described electronic equipment to wear pine like this, cause the harmful effect to user movement; Obviously improve the intelligent of electronic equipment and user's user satisfaction.

Embodiment of the method four:

Step S110: detect the first parameter;

Described step S120 comprises: judge whether described motion state parameters is greater than the first predetermined threshold value;

Described step S120 also can comprise: judge whether described kinematic parameter is less than the second predetermined threshold value; Wherein, described second predetermined threshold value is not more than described first predetermined threshold value;

Described step S130 also comprises: when described kinematic parameter is less than described second predetermined threshold value, increase the bore in described annulus or proximate annular space.

When user no longer carries out strenuous exercise, electronic equipment does not have strenuous exercise along with user, also be tending towards tranquil, if when described motion state parameters is greater than the first predetermined threshold value, reduce the tight fit that described aperture may cause annulus or proximate annular space and the first column periphery to realize, this time, in order to improve the comfort level of user, when the mutually described motion state parameters of method is less than described second predetermined threshold value, will increase described bore.The bore amount that reduces or increase in the present embodiment, for being stored in advance in described electronic equipment, also can determine according to being stored in advance in described electronic equipment adjustable strategies.Specifically determine that the mode of the amount reducing or be put into bore has a variety of, just describe in detail no longer one by one at this.

Method of adjustment in a word described in the present embodiment, can not only reduce bore automatically, automatically can also amplify bore, improves the intelligent of electronic equipment and user's user satisfaction at this.

Embodiment of the method five:

Step S110: detect the first parameter;

Described step S110 can comprise: when surveying described annulus or described proximate annular spatial loop around described first column, described annulus or the first gap between described proximate annular space and described first column;

Described step S120 can comprise:

Judge whether described first gap is greater than prepsetting gap;

Described step S130 comprises:

Electronic equipment described in the present embodiment will detect described first gap automatically; so just can judge whether described electronic equipment is well worn on the periphery of described first column, avoid preventing the normal activity wearing the interference user caused of pine or the phenomenon of the easy landing of electronic equipment.

Value in the step s 120 specifically between more described first gap and prepsetting gap, if the first gap is greater than described prepsetting gap, that just can think current electronic device wore pine, need the bore reducing described annulus or proximate annular space, to make the gap shrinks of the periphery of described annulus or proximate annular space and described first column, thus promote the stability worn.

Embodiment of the method six:

Step S110: detect the first parameter;

Described step S110 specifically can comprise: detect the first external force value that described electronic equipment is subject to the first external force;

Described step S120 also can comprise: judge whether described motion state parameters is greater than the first predetermined threshold value;

Described step S130 comprises:

Such as, in some scenarios, user is to the wearing position of mobile described electronic equipment, and such as user is when washing one's hands, and wants Intelligent bracelet to move to direction, arm place.The direction of described first external force is the direction that described first external force is pointed in the present embodiment, can be described as first direction.Described first direction can be the external force pointing to arm from wrist in the present embodiment.The sensor of external force value suffered by described electronic equipment can be detected in the present embodiment to detect described first external force value by capacitance sensor etc.If described first external force value is greater than described default force value, be subject to the stressed first direction to arm place according to electronic equipment, described annulus or proximate annular space will be increased.When user naturally droops arm, Intelligent bracelet under gravity, when automatically moving down, the external diameter at obvious wrist place is larger than the external diameter at arm place, stable fixing in order to realize, in the present embodiment described electronic equipment can also according to the direction of described gravity can, reduce described bore.、

Present embodiments provide a kind of method of adjustment, the external force suffered by electronic equipment and external force direction are adjusted automatically the size of described bore, again improve the intelligent of electronic equipment and user satisfaction.

Embodiment of the method seven:

Described when electronic equipment meets default regularization condition, the bore in the annulus that the fixture adjusting described electronic equipment is formed or proximate annular space; Wherein, described annulus or proximate annular space can be looped around the periphery of the first column, comprising:

Accept operation instruction;

When receiving described operation instruction, according to operation instruction by expanding or shrinking the bore that the thickness changing deformation module adjusts described annulus or proximate annular space.

Such as, detect described operation instruction by interactive module, described interactive module can comprise structure such as adjustment switch or control button etc.When receiving operation instruction, according to the thickness of described operation instruction adjustment deformation module, adjust the bore in described annulus or proximate annular space.

So just achieve the described bore of electronic adjustment, simplify adjustment operation, improve the intelligent of electronic equipment and user's user satisfaction.

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 part 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 on multiple NE; 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 module, 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, read-only storage (ROM, Read-OnlyMemory), random access memory (RAM, RandomAccessMemory), 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

1. an electronic equipment, is characterized in that, described electronic equipment comprises:

2. electronic equipment according to claim 1, is characterized in that,

Described electronic equipment also comprises:

Detect module, for detecting the first parameter;

3. electronic equipment according to claim 1, is characterized in that,

Described detection module, specifically for detecting the motion state parameters of described electronic equipment;

4. method according to claim 2, is characterized in that,

Described process module, also for judging whether described kinematic parameter is less than the second predetermined threshold value; Wherein, described second predetermined threshold value is not more than described first predetermined threshold value;

5. electronic equipment according to claim 2, is characterized in that,

Described detection module, during specifically for detecting described annulus or described proximate annular spatial loop around described first column, described annulus or the first gap between described proximate annular space and described first column;

6. electronic equipment according to claim 2, is characterized in that,

Described detection module, is subject to the first external force value of the first external force specifically for detecting described electronic equipment;

7. electronic equipment according to claim 1, is characterized in that,

8. electronic equipment according to claim 7, is characterized in that,

Described adjustment module, for by the change of its thickness, reducing or amplify the bore of described second surface place ring or approximate ring.

9. electronic equipment according to claim 8, is characterized in that,

Described adjustment module comprises:

Deformation module, can by expanding and shrinking the thickness changing self;

10. electronic equipment according to claim 9, is characterized in that,

Described deformation module is can the inflation/deflation module of inflation/deflation;

Electronic equipment described in 11. according to Claim 8,9 or 10, is characterized in that,

Described adjustment module also comprises:

Interactive module, for accepting operation instruction;

12. electronic equipments according to claim 1, is characterized in that,

Can deformation be there is at least part of described fixture for the formation of described annulus or proximate annular space;

13. electronic equipments according to claim 1, is characterized in that,

Described fixture comprises at least two stuck-modules;

Connected by link block between at least two described stuck-modules;

14. electronic equipments according to claim 1, is characterized in that,

15. 1 kinds of methods of adjustment, described method comprises:

16. methods of adjustment according to claim 15, is characterized in that,

Described method also comprises:

Detect the first parameter;

17. methods as requested described in 16, is characterized in that,

Described detection first parameter, comprising: the motion state parameters detecting described electronic equipment;

18. methods according to claim 17, is characterized in that,

Describedly judge whether described first parameter meets default regularization condition, also comprises:

19. methods according to claim 16, is characterized in that,

Described detection first parameter, comprising: when surveying described annulus or described proximate annular spatial loop around described first column, described annulus or the first gap between described proximate annular space and described first column;

Judge whether described first gap is greater than prepsetting gap;

20. methods according to claim 16, is characterized in that,

Described detection first parameter, comprising: detect the first external force value that described electronic equipment is subject to the first external force;

21. methods according to claim 16, is characterized in that,

Accept operation instruction;