CN105892653A - Method for generating control instruction set on flexible electronic device and flexible electronic device - Google Patents

Method for generating control instruction set on flexible electronic device and flexible electronic device Download PDF

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Publication number
CN105892653A
CN105892653A CN201610189272.XA CN201610189272A CN105892653A CN 105892653 A CN105892653 A CN 105892653A CN 201610189272 A CN201610189272 A CN 201610189272A CN 105892653 A CN105892653 A CN 105892653A
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CN
China
Prior art keywords
described
deformation
flexible electronic
electronic devices
control instruction
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CN201610189272.XA
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Chinese (zh)
Inventor
王亮亮
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联想(北京)有限公司
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Priority to CN201610189272.XA priority Critical patent/CN105892653A/en
Publication of CN105892653A publication Critical patent/CN105892653A/en

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    • GPHYSICS
    • G06COMPUTING; CALCULATING; COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F3/00Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
    • G06F3/01Input arrangements or combined input and output arrangements for interaction between user and computer

Abstract

The invention discloses a method for generating a control instruction set on a flexible electronic device and the flexible electronic device. The method comprises the steps that first deformation parameters generated when the flexible electronic device has first deformation are obtained and recorded; a first control instruction is obtained and recorded; based on the first deformation parameters and the first control instruction, a first executing rule is generated, wherein the first executing rule is that the first control instruction is executed when it is detected that the flexible electronic device has the first deformation. By means of the method, a user can customize deformation and control instructions, and thus the flexibility and diversity of control over the electronic device are improved.

Description

Flexible electronic devices generates method and the flexible electronic devices of control instruction collection

Technical field

The present invention relates to technical field of information processing, particularly relate to a kind of generation in flexible electronic devices and control The method of instruction set and flexible electronic devices.

Background technology

The development of science and technology has driven the progress of society, and electronic equipment is also developed to flexibility by rigidity, so Flexible electronic devices also becomes the direction of current electronic device development.

For flexible electronic devices is compared to the electronic equipment of traditional rigidity, can deform upon, carry out curved Folding, so the control method to flexible electronic devices, except can be in the way of using and controlling rigid electronic devices In addition, the Characteristic Development of deformation the deformation according to flexible electronic devices can have been gone out always according to flexible electronic devices The method controlling electronic equipment.Specifically, flexible electronic devices when dispatching from the factory, configured the most concrete good shape Become and corresponding control instruction, such as, during user's doubling flexible electronic devices, carry out shutdown command.

Present inventor during technical scheme, finds that prior art is deposited in realizing the embodiment of the present application In following technical problem: although the deformation behavior that prior art make use of flexible electronic devices achieves flexibility The control of electronic equipment, but there is which type of deformation, and which type of control instruction corresponding is all fixing, On the one hand, flexible electronic devices is when dispatching from the factory, and research staff can not exhaustive all of deformation mode and correspondence Control instruction, the later stage also cannot increase, and on the other hand, user cannot make change in the later stage uses, So more limited by the way of electronic equipment is controlled by deformation in prior art, underaction.

Summary of the invention

The present invention provides a kind of method generating control instruction collection in flexible electronic devices and flexible electronic to set Standby, more limited in order to solve present in prior art by the way of electronic equipment is controlled by deformation, The technical problem of underaction.

First aspect present invention provides a kind of method generating control instruction collection in flexible electronic devices, bag Include:

Obtain and record the first deformation parameter of the first deformation that flexible electronic devices occurs;

Obtain and record the first control instruction;

Based on described first deformation parameter and described first control instruction, generate the first executing rule, described One executing rule is for when detecting that performing described first when described flexible electronic devices occurs described first deformation controls System instruction.

Optionally, described acquisition also records the first deformation parameter of the first deformation that flexible electronic devices occurs, Including:

When making described flexible electronic devices that the first deformation occurs under the effect of external force, by described flexibility First deformation parameter of the first deformation described in the sensor record of electronic equipment.

Optionally, described acquisition also records the deformation parameter of the first deformation that flexible electronic devices occurs, including:

Determine the schematic diagram for characterizing the first deformation;

According to the corresponding relation of schematic diagram Yu deformation parameter, record first deformation corresponding with described first deformation Parameter.

Optionally, described acquisition also records the deformation parameter of the first deformation that flexible electronic devices occurs, including:

Obtain the second deformation parameter corresponding when described flexible electronic devices occurs the first deformation;

Parameter area is obtained as described first deformation ginseng according to described second deformation parameter of pre-defined rule extension Number;

Accordingly, after described generation the first executing rule, described method also includes:

When detecting that described flexible electronic devices occurs the second deformation, record the change that described second deformation is corresponding Shape parameter;

Judge that the deformation parameter of described second deformation correspondence is whether in described parameter area;Wherein, when described When deformation parameter corresponding to the second deformation is in described parameter area, characterizes described second deformation and be described the One deformation.

Optionally, described first control instruction has the first kind and Second Type, when described first controls to refer to During the control instruction that order is the described first kind, described first executing rule also includes: described soft when detecting Property electronic equipment from described first deformation recover to unstrained state time, perform described first control instruction Reverse instruction;

When the control instruction that described first control instruction is described Second Type, described first executing rule is also Including: when detecting that described flexible electronic devices is recovered to unstrained state from described first deformation, protect The state holding described flexible electronic devices is the state after performing described first control instruction.

Optionally, described deformation parameter characterizes overbending direction, bending angle, folding line position, is bent position Any one in putting or combination in any.

Second aspect present invention provides a kind of flexible electronic devices, including:

Flexible structure, for realizing the flexural deformation of described flexible electronic devices;Sensor;Body, including Processor, described processor is for obtaining and record the first deformation of the first deformation that flexible electronic devices occurs Parameter;Obtain and record the first control instruction;Based on described first deformation parameter and described first control instruction, Generating the first executing rule, described first executing rule is for when described flexible electrical being detected by described sensor Subset occurs to perform described first control instruction during described first deformation.

Optionally, described processor is for when make described flexible electronic devices occur the under the effect of external force During one deformation, by the first deformation parameter of the first deformation described in described sensor record.

Optionally, described processor is for determining the schematic diagram for characterizing the first deformation;And according to schematic diagram With the corresponding relation of deformation parameter, record first deformation parameter corresponding with described first deformation.

Optionally, described processor is used for: obtain when described flexible electronic devices occurs the first deformation corresponding Second deformation parameter;Parameter area is obtained as described the according to described second deformation parameter of pre-defined rule extension One deformation parameter;

Accordingly, described processor is additionally operable to: when described flexible electronic devices being detected by described sensor When there is the second deformation, record the deformation parameter that described second deformation is corresponding;Judge described second deformation correspondence Deformation parameter whether in described parameter area;Wherein, exist when the deformation parameter that described second deformation is corresponding Time in described parameter area, characterize described second deformation and be described first deformation.

Optionally, described first control instruction has the first kind and Second Type, when described first controls to refer to During the control instruction that order is the described first kind, described first executing rule also includes: when by described sensing Device detects that described flexible electronic devices, when described first deformation recovers to unstrained state, performs described The reverse instruction of the first control instruction;

When the control instruction that described first control instruction is described Second Type, described first executing rule is also Including: when detecting that described flexible electronic devices is recovered to non-shape from described first deformation by described sensor During the state become, the state keeping described flexible electronic devices is the state after performing described first control instruction.

Optionally, described deformation parameter characterizes overbending direction, bending angle, folding line position, is bent position Any one in putting or combination in any.

Optionally, described flexible structure includes: the first sliding axle;Second sliding axle;Middle slip axle group, Described middle slip axle group includes multiple middle slip axle set in a row;

Connecting elements group, described middle slip axle group is movably connected to described first by described connecting elements group Sliding axle and described second sliding axle;Wherein, described flexible structure 10 can be along described middle slip axle group Bearing of trend bends, and the most curved structure in bending place of described flexible structure 10.

Third aspect present invention provides a kind of flexible electronic devices, including:

First acquiring unit, for obtaining and record the first deformation of the first deformation that flexible electronic devices occurs Parameter;Second acquisition unit, is used for obtaining and record the first control instruction;Processing unit, for based on institute State the first deformation parameter and described first control instruction, generate the first executing rule, described first executing rule For performing described first control instruction when described first deformation of generation of described flexible electronic devices being detected.

The present invention has the beneficial effect that:

In embodiments of the present invention, it is allowed to User Defined deformation and control instruction, so compared to existing skill Control mode fixing in art, the method in the embodiment of the present invention is more flexible, the control to flexible electronic devices Mode processed is the most personalized, variation, it is simple to user uses.

Accompanying drawing explanation

Fig. 1 is the stream of the method generating control instruction collection in flexible electronic devices in one embodiment of the invention Cheng Tu;

Fig. 2 a-Fig. 2 b is the schematic diagram of acquisition the first deformation in one embodiment of the invention;

Fig. 3 a-Fig. 3 b is the schematic diagram of acquisition the first deformation in another embodiment of the present invention;

Fig. 4 a-Fig. 4 e is the schematic diagram of the deformation in another embodiment of the present invention;

Fig. 5 is the structure chart of a kind of flexible electronic devices in one embodiment of the invention;

Fig. 6-12 is the structure chart of a kind of flexible structure in one embodiment of the invention;

Figure 13 is the functional block diagram of a kind of flexible electronic devices in one embodiment of the invention.

Detailed description of the invention

The embodiment of the present invention provides a kind of method generating control instruction collection in flexible electronic devices and flexible electrical Subset, compares present in prior art in order to solving by the way of electronic equipment is controlled by deformation Limited, the technical problem of underaction.

Technical scheme in the embodiment of the present invention is to solve above-mentioned technical problem, and general thought is as follows:

Obtain and record the first deformation parameter of the first deformation that flexible electronic devices occurs;Obtain and record One control instruction;Based on described first deformation parameter and described first control instruction, generate the first executing rule, Described first executing rule is described for performing when described first deformation of generation of described flexible electronic devices being detected First control instruction.In other words, the method in the embodiment of the present invention can allow User Defined deformation and control Instruction, such mode is more flexible, the most personalized to the control mode of flexible electronic devices, various Change, it is simple to user uses.

In order to be better understood from technique scheme, below in conjunction with Figure of description and concrete embodiment party Technique scheme is described in detail by formula.

Refer to shown in Fig. 1, in flexible electronic devices, generate control instruction for what the embodiment of the present invention provided The flow chart of the method for collection.This flexible electronic devices for example, flexible mobile phone, flexible flat computer.

As it is shown in figure 1, the method includes:

Step 101: obtain and record the first deformation parameter of the first deformation that flexible electronic devices occurs;

Step 102: obtain and record the first control instruction;

Step 103: based on the first deformation parameter and the first control instruction, generate the first executing rule, first holds Line discipline is for performing the first control instruction when flexible electronic devices occurs the first deformation when detecting.

In practice, user can carry out triggering this flow process in the system setting option of flexible electronic devices Perform, it is also possible to be the execution triggering this flow process in the setting option of concrete application.Generally, it is being System setting option triggers this flow process, for control instruction is for whole electronic equipment, such as electronic equipment The switching of pattern, switching on and shutting down, the opening and closing etc. of application program.Triggering in the setting option of application should Flow process, control instruction for this application, such as this application application interface on turn over, under turn over, suspend Play.

After triggering this flow process, the order between step 101 and step 102 can be exchanged, such as First carry out step 101, then perform step 102, it is also possible to be to first carry out step 102, then perform step 101. Step 101 described in detail below and the specific implementation process of step 102.

In the implementation that the first is possible, step 101 includes: when making flexibility under the effect of external force When electronic equipment occurs the first deformation, by the first change of sensor record first deformation of flexible electronic devices Shape parameter.

For example, when user click carry out deformation arrange time, the display screen of flexible electronic devices can show It is shown with information, such as, deformation please be input.The most now user just can set with hands bending flexible electronic Standby, until the deformation attitude that user wants.Now, the sensor arranged in flexible electronic devices will record Deformation parameter now, deformation parameter such as characterizes overbending direction, bending angle, folding line position, curved Any one in folding position or combination in any.

Wherein, overbending direction can include both direction, and one is to screen inner bending, two be to screen phase To face bending, both are contrary.After bending angle may refer to bending, screen is divided between two regions Angle, it is also possible to refer to that the part being bent is relative to angle between the plane of display screen place during undeformed. The position of the folding line formed when folding line position i.e. flexible electronic devices is bent, is generally probably with flexible The line that the minor face of electronic equipment is parallel, or the line parallel with the long limit of flexible electronic devices, or flexible electrical Line between the adjacent two edges of subset, special circumstances are diagonal.It is bent position to refer in external force Under effect, relatively in the part of motion, the e.g. left side of electronic equipment is bent, or right side quilt Bending is got up.

Generally, if the content of the deformation parameter sign of record is the fewest, it is possible to the deformation of definition is the fewest, But when user operates after set-up is complete, the degree of restriction will be less.If the deformation of record The content of parameter characterization is the most, then the deformation that can define is the most, but user is suffered when operation Restriction will be the most.For example, if the parameter of record only characterizes to screen inner bending, then Yong Hu During operation, both can bend from side, minor face place, it is also possible to bend from side, place, long limit, bending The position of line can be optional position, and the position being bent can also be optional position, in these cases, Electronic equipment is all considered again the first deformation, so carrying out the first control instruction.Therefore, exist In this case, for a user, operation is the most arbitrarily.If the parameter characterization minor face institute of record In the left side of side to screen inner bending 60 degree, then subsequent user, just can only be from side, minor face place when operation Left side to screen inner bending 60 degree, electronic equipment just can perform the first control instruction.The right side of side, minor face place Lateral screen inner bending 60 degree, again can another control instruction corresponding, the right side of side, minor face place is to screen All right other control instruction corresponding of inner bending 90 degree, so in this case, it is possible to the deformation of definition State is more, but user is when subsequent operation, and condition to be met is more, so needing user to remember Content is more.

Refer to shown in Fig. 2 a, flexible electronic devices is bent into right side from the unstrained state in left side by user Shown deformed state, it is assumed that user is by screen inner bending 60 degree, the left side of flexible electronic devices, this Time sensor can record deformation parameter now.This deformation parameter characterizes the left side of flexible electronic devices to screen Inner bending 60 degree.

In the implementation that the second is possible, step 101 comprises determining that for characterizing showing of the first deformation It is intended to;According to the corresponding relation of schematic diagram Yu deformation parameter, record the first deformation ginseng corresponding with the first deformation Number.

As an example it is assumed that when flexible electronic devices is dispatched from the factory, already provided with least one set deformation, and point Not have recorded the deformation parameter that often group deformation is corresponding.When user clicked carry out deformation arrange time, flexible electronic Equipment can provide at least one schematic diagram characterizing deformation.Refer to, shown in Fig. 2 b, Fig. 2 b illustrate Two groups of deformation.First group is to turn up 90 degree in the angular screen of upper right.Second group is that the lower left corner is diagonally to screen 145 degree are turned up in Mu.User, when seeing the deformation that these two groups are illustrated, can press " selection " button, At this moment, flexible electronic devices detects the pressing operation of user, i.e. can determine that for characterizing showing of the first deformation Being intended to, such as user have selected the deformation in first group of schematic diagram, then flexible electronic devices has determined that the One shape becomes the deformation in first group of schematic diagram.Then according to the corresponding relation of schematic diagram Yu deformation parameter, note Record first deformation parameter corresponding with the first deformation.It is angular that first deformation parameter of record such as characterizes upper right 90 degree are turned up in screen.

Step 102 has following two list and is not limited to following two specific implementation.The first, by user Input the first control instruction, show input frame the most on a display screen, it is allowed to user inputs control instruction, After user inputs control instruction, electronic equipment just obtains the first control instruction, and this instruction is preserved. The second, electronic equipment provides the selective listing of multiple control instructions, user selects one of them control to refer to Order.After user has selected, the electronic equipment control instruction that just record user selects.

When first carrying out step 101, such as when triggering, in setting option, the flow process that deformation is set, aobvious Display reminding information in display screen, electronic equipment is bent by prompting user, and user can be curved by electronic equipment It is converted into the shape of more convenient operation, after record completes the first deformation parameter, display screen can show control Instruction selective listing, and point out user to select the control instruction of correspondence.User selects one of them to instruct, and Determining selection, the control instruction such as selected is for closing application A.So electronic equipment just record user selects Control instruction.Next step 103 is performed, i.e. based on the first deformation parameter recorded and the first control instruction, Generating the first executing rule, the first executing rule is for holding when flexible electronic devices occurs the first deformation when detecting Row the first control instruction.Such as, after exiting and arranging the page, when electronic equipment is bent to by user again During shape shown in Fig. 2 a, if now application A is in open mode, then electronic equipment carries out pass Close the control instruction of application A.So, i.e. complete the most self-defining by shape control electronic equipment Process.

When first carrying out step 102, such as, trigger in the setting option reading application and deformation is set During flow process, display screen can show control instruction selective listing, and the control pointing out user to select correspondence refers to Order.User selects one of them to instruct, and determines selection, and the control instruction such as selected turns over one page under being. So electronic equipment control instruction that just record user selects.Then display reminding information on display screen, prompting Electronic equipment is bent by user, and electronic equipment can be bent into the shape of more convenient operation by user, Next after having recorded the first deformation parameter, perform step 103, i.e. based on record the first deformation parameter and First control instruction, generates the first executing rule, and the first executing rule is for when detecting that flexible electronic devices is sent out The first control instruction is performed during raw first deformation.Such as, after exiting and arranging the page, when user again will When electronic equipment is bent to first shown in Fig. 2 b group shape, if now reading application to be in open mode, So electronic equipment carries out down the control instruction turning over one page.So, the most self-defining leading to i.e. is completed Cross the process of shape control electronic equipment.

By foregoing description it can be seen that method in the embodiment of the present invention allows the state of User Defined deformation And the control instruction of correspondence, so user can be defined according to the use habit of oneself, so comparing Flexibly, personalized, and convenient to operate.Further, because can be with User Defined, it is possible to a lot Kind of deformation and the control instruction of correspondence, from theory, being not have conditional, passing through shape so enriching Become the multiformity controlling flexible electronic devices.

Optionally, in order to avoid user is after arranging the first executing rule success, in order to control electronic equipment, When needing that flexible electronic devices is bent to the first deformation, the problem that the success rate of coupling is relatively low, step 101 Including: obtain the second deformation parameter corresponding when flexible electronic devices occurs the first deformation;According to pre-defined rule Extend the second deformation parameter and obtain parameter area as the first deformation parameter.

Accordingly, after step 103, the method also includes: when detecting that flexible electronic devices occurs the During two deformation, record the deformation parameter that the second deformation is corresponding;Judge whether second deform corresponding deformation parameter In parameter area;Wherein, when the deformation parameter of the second deformation correspondence is in parameter area, second is characterized Deformation is the first deformation.Now can perform the first control instruction.

For example, when in a step 101, user by electronic equipment when left part has bent 30 degree, Sensor can detect the second corresponding deformation parameter of this deformation, now can will use in the second deformation parameter Expand to the left side of the axis of electronic equipment in the left part characterized, 30 degree are expanded to 10 degree to 60 Between degree.Therefore, when user needs electronic equipment to perform the first control instruction, it is possible to by electronic equipment Left side bend, as long as bending angle between 10 degree and 60 degree, electronic equipment all can perform first Control instruction, without user strict be bent to 30 degree.Because user is to be judged when antecurvature by naked eyes The angle turned up, so by the method in this embodiment so that user is more easy to use.

It should be noted that pre-defined rule can be with configured in advance, it is also possible to by user setup.Further, in advance Set pattern then can have different rules for different contents, such as the pre-defined rule of position of folding line For: if the position of the folding line detected in a step 101 is the A point on adjacent Article 1 limit and Article two, the line between the B point on limit, then as long as pre-defined rule is on Article 1 limit and Article 2 limit Connection between point.The most such as pre-defined rule for bending angle is: if examined in a step 101 The bending angle measured is X degree, then pre-defined rule can be the scope of about X degree 20 degree, institute With record is exactly the angular range of about X degree 20 degree.

Optionally, the first control instruction has the first kind and Second Type, when the first control instruction is first During the control instruction of type, the first executing rule also includes: when detecting that flexible electronic devices is from the first deformation When recovering to unstrained state, perform the reverse instruction of the first control instruction;And when the first control instruction is During the control instruction of Second Type, the first executing rule also includes: when detecting that flexible electronic devices is from first When deformation recovers to unstrained state, after keeping the state of flexible electronic devices to be execution the first control instruction State.

Specifically, the switching command of the mode of operation of the control instruction of the first kind for example, electronic equipment. For example, refer to shown in Fig. 3 a, it is assumed that the first shape in step 101 becomes shown in the right side in Fig. 3 a, And the first control instruction in step 102 is for switching to notebook mode, the undeformed in left side in fig. 3 a Under state, the mode of operation of electronic equipment is plate mode.Under notebook mode, the part being folded around can For use as display screen, and another part can show dummy keyboard, uses as input equipment.Because first Control instruction relates to the switching of the mode of operation of electronic equipment, so when electronic equipment is extensive by the first deformation When being unstrained state again, need to recover to mode of operation during undeformed, so in step 103, The first deformation parameter according to the first deformation and the first control instruction, the first executing rule of generation is: work as inspection When measuring the first deformation that flexible electronic devices occurs as shown on the left of Fig. 3 a, perform to be switched to by plate mode The instruction of the mode of operation of notebook, and when detect that flexible electronic devices is from the as shown on the left of Fig. 3 a When one deformation recovers to unstrained state shown on the right side of Fig. 3 a, perform the reverse instruction of the first control instruction, I.e. switch to the control instruction of plate mode.

Specifically, the control instruction of Second Type for example, page turning, close application program, shutdown, screen locking, Zooming interface, open application etc..For example, refer to shown in Fig. 3 b, it is assumed that first in step 101 Shape becomes shown in the right side in Fig. 3 b, and the first control instruction in step 102 turns over one page under being.Because the One control instruction turns over one page under such as reading in application, so when electronic equipment is reverted to by the first deformation During unstrained state, under needing to keep, turn over the page after one page, turn back without turning over one page on again, So in step 103, according to the first deformation parameter and first control instruction of the first deformation, the of generation One executing rule is: when detecting that flexible electronic devices occurs the first deformation as shown on the left of Fig. 3 b, hold Go by the instruction turning over one page under current page, and when detecting that flexible electronic devices is from as shown on the left of Fig. 3 b The first deformation when recovering to unstrained state shown on the right side of Fig. 3 b, turn over the state after one page under holding , turn back without turning over one page on again.

Optionally, under some sights, when detecting that flexible electronic devices occurs the first deformation, except holding Outside row the first control instruction, in addition it is also necessary to keep electronic equipment to be in the state of the first deformation, the most aforementioned retouch The situation of the mode of operation switching stated, such as when there is the first deformation as shown on the left of Fig. 3 a in electronic equipment, The mode of operation of electronic equipment is switched to notebook mode, and to keep the state of the first deformation constant, Until again there is other deformation under the effect of external force.And under other sights, when flexible electrical being detected When subset occurs the first deformation, as long as performing the first control instruction, without keeping the first deformation State, so the part being bent can be recovered to unstrained state in the effect of restoring force.Before such as Stating the situation of first deformation in left side in Fig. 3 b of description, at this moment electronic equipment can perform down to turn over the finger of one page Order, then user decontrols the upper right corner being bent, and the upper right corner will recover this Fig. 3 b under the effect of restoring force The unstrained state on right side, when needs page turning again, user can bend the upper right corner again, will The control instruction of one page is turned under again performing.

Illustrate the corresponding relation of several deformation and control instruction the most again.Refer to shown in Fig. 4 a, first Shape become left side to screen inner bending 90 degree, in practice, the first deformation parameter can be recorded as left side To screen inner bending 70 degree to 110 degree.First control instruction for example, opens application of taking pictures.Refer again to figure Shown in 4b, the first shape becomes left side to screen inner bending 150 degree, in practice, the first deformation parameter Left side can be recorded as to screen inner bending 130 degree to 170 degree.The first control instruction that user can be arranged For example, screen locking.The first shape shown in Fig. 4 c becomes left side and bends 90 outside screen, in practice, the One deformation parameter can be recorded as left side and bend 70 degree to 110 degree outside screen.User can arrange first Control instruction for example, shutdown command.The first shape shown in Fig. 4 d becomes the lower left corner diagonally to screen inflection Folding, the first control instruction that user can be arranged for example, amplifies current page.The first deformation shown in Fig. 4 e Diagonally bending inwards for the lower right corner, the first control instruction that user can be arranged for example, reduces current page Face.

Certainly, above section is all in order to illustrate, and in practice, the first deformation can be other Deformation, the first control instruction can also be other instruction, and the first deformation and the correspondence of the first control instruction Relation can also be other situation, and the present invention is not especially limited.

Based on same inventive concept, refer to shown in Fig. 5, a kind of flexible electrical provided for the embodiment of the present invention The structured flowchart of subset.This flexible electronic devices for example, mobile phone, panel computer etc..This flexible electronic sets For including: flexible structure 10, for realizing the flexural deformation of flexible electronic devices;Sensor 20;Body 30, Including processor 300, the of the first deformation that processor 300 occurs for obtaining and record flexible electronic devices One deformation parameter;Obtain and record the first control instruction;Based on described first deformation parameter and described first control System instruction, generates the first executing rule, and described first executing rule is for when flexibility being detected by sensor 20 Electronic equipment occurs to perform the first control instruction during described first deformation.

Optionally, processor 300 is for when making flexible electronic devices that the first shape occurs under the effect of external force During change, recorded the first deformation parameter of described first deformation by sensor 20.

Optionally, processor 300 is for determining the schematic diagram for characterizing the first deformation;And according to schematic diagram With the corresponding relation of deformation parameter, record first deformation parameter corresponding with the first deformation.

Optionally, processor 300 is used for: obtain when flexible electronic devices occurs the first deformation corresponding second Deformation parameter;Extend the second deformation parameter according to pre-defined rule and obtain parameter area as the first deformation parameter;

Accordingly, processor 300 is additionally operable to: when detecting that flexible electronic devices occurs the by sensor 20 During two deformation, record the deformation parameter that described second deformation is corresponding;Judge the deformation parameter that the second deformation is corresponding Whether in described parameter area;Wherein, when the deformation parameter of the second deformation correspondence is in described parameter area Time, characterize the second deformation and be the first deformation.

Optionally, described first control instruction has the first kind and Second Type, when described first controls to refer to During the control instruction that order is the described first kind, described first executing rule also includes: when by sensor 20 Detect that described flexible electronic devices, when described first deformation recovers to unstrained state, performs described the The reverse instruction of one control instruction;When the control instruction that described first control instruction is described Second Type, Described first executing rule also includes: when detecting that flexible electronic devices is from described first shape by sensor 20 When becoming recovery to unstrained state, the state of described flexible electronic devices is kept to control for performing described first State after instruction.

Optionally, described deformation parameter characterizes overbending direction, bending angle, folding line position, is bent position Any one in putting or combination in any.

Optionally, processor 300 can be specifically general central processor or ASIC (English Literary composition: Application Specific Integrated Circuit, is called for short: ASIC), can be one or more use In controlling the integrated circuit that program performs, can be to use field programmable gate array (English: Field Programmable Gate Array, is called for short: the FPGA) hardware circuit developed, can be baseband processor.

Optionally, processor 300 can include that at least one processes core.

Optionally, flexible electronic devices also includes memorizer, is arranged on body 30, and memorizer can include Read only memory (English: Read Only Memory, be called for short: ROM), random access memory (English: Random Access Memory, is called for short: one or more RAM) and in disk memory.Memorizer For storing data required when processor 300 runs.The quantity of memorizer is one or more.

Optionally, flexible structure 10 can be plastic plate.

Optionally, flexible structure 10 can also is that other structure, refer to shown in Fig. 6-12, flexible structure 10 include: the first sliding axle 301;Second sliding axle 302;Middle slip axle group, middle slip axle group includes Multiple middle slip axles 303 set in a row;Connecting elements group, connecting elements group is by movable for middle slip axle group Be connected to the first sliding axle 301 and the second sliding axle 302;Wherein, flexible structure 10 can be sliding along centre The bearing of trend bending of moving axis group, and the most curved structure in bending place of flexible structure 10.

Optionally, the axis of first sliding axle the 301, second sliding axle 302 and middle slip axle 303 is mutually Parallel, and the first sliding axle 301 and the second sliding axle 302 be positioned at the both sides of middle slip axle group.

In above-mentioned flexible structure 10, bending place includes M root sliding axle, and the curved structure in bending place refers to The outer tangent plane of M root sliding axle is arcwall face.

Further, above-mentioned flexible structure 10, when above-mentioned M root sliding axle forms arcuate structure, is positioned at this M The mutual geo-stationary of each sliding axle of root sliding axle the first side, is positioned at each cunning of the second side of this M root sliding axle The mutual geo-stationary of moving axis.In this flexible structure 10, M root sliding axle formed during arcuate structure its two Each sliding axle of side geo-stationary respectively, i.e. during M root sliding axle forms arcuate structure, flexible structure On 10, the both sides of bending part do not deform upon, and facilitate user to bend flexible structure 10 according to actual needs. Certainly, above-mentioned M root sliding axle could be arranged to include the first sliding axle 301 and part middle slip axle group or Including the second sliding axle 302 and part middle slip axle group;M root sliding axle may be configured as including the first slip Axle the 301, second sliding axle 302 and sliding axle group, accordingly, this flexible structure 10 can form c-type arc Structure, it is also possible to be curled into spool-shape, facilitates user to receive.

Concrete, in above-mentioned flexible structure 10, the two ends of connecting elements group are set with in the first sliding axle 301 With the second sliding axle 302, the mid portion of connecting elements group is set in middle slip axle group.

Above-mentioned connecting elements group could be arranged to include being set in the twin shaft tooth block of sliding axle, and twin shaft tooth block makes sliding Moving axis is connected as entirety, and adjacent twin shaft tooth block engagement is formed to interfere and connects, thus realizes making this flexibility In structure 10, M sliding axle can form arcuate structure.In order to simplify structure, convenient for assembly, above-mentioned connection Structure is preferably arranged to include:

First connecting elements 110, the first connecting elements 110 has five suits along the first rectilinear direction distribution Hole, wherein, middle suit hole is the first suit hole 111, and the suit hole of both sides is respectively the second suit hole 112; First suit hole 111 can make with this sliding axle of coordinating of the first suit hole 111 around own axis, and energy This sliding axle is made to slide along the direction vertical with above-mentioned first rectilinear direction;Second suit hole 112 can make with The sliding axle that this second suit hole 112 coordinates is around own axis;

Second connecting elements 120, the second connecting elements 120 has five suits along the second rectilinear direction distribution Hole, wherein, middle suit Kong Wei tri-is set with hole 121, with two sets of the 3rd suit hole 121 next-door neighbour Dress hole is respectively the 4th suit hole 122, and two the suit holes being positioned at two ends are respectively the 5th suit hole 123;The Three suit holes 121 enough make with the 3rd sliding axle that coordinate of suit hole 121 around own axis, and can make This sliding axle slides along the direction vertical with above-mentioned second rectilinear direction;4th suit hole 122 enough make with this The sliding axle that four holes coordinate is around own axis, and this sliding axle can be made to slide along above-mentioned second rectilinear direction; 5th suit hole 123 can make the sliding axle coordinated with the 5th suit hole 123 around own axis;

Wherein, the first connecting elements 110 connects along the orientation head and the tail successively of middle slip axle group, and shape Become the first connecting elements group;Second connecting elements 120 connects along the orientation head and the tail successively of middle slip axle group Connect, and form the second connecting elements group;First suit hole 111 and the 5th suit hole 123 are set in same Sliding axle.The connection of above-mentioned head and the tail refers to that the suit hole, end of adjacent two connecting elements is set in same On root sliding axle, thus the first connecting elements group and second forming connecting elements interlaced arrangement respectively connects structure Part group.Certainly, for the ease of manufacturing, above-mentioned 3rd suit hole 121 and two the 4th suit holes 122 can set It is set to be interconnected, as shown in Figure 8.

In the flexible structure 10 that the present embodiment provides, two kinds of connecting elements are set on sliding axle, it is possible to The micro-strain utilizing sliding axle motion in suit hole and sliding axle itself during use realizes making M Sliding axle formation arcuate structure, simple in construction, and easy to assembly.By to each set in actual application The size in dress hole carries out reasonable reality, it is possible to the circumscribed facial disfigurement making above-mentioned M sliding axle is arc surface, and one Aspect disclosure satisfy that the use needs of user, is on the other hand beneficial to reduce flexible structure 10 and is folded into U-shape structure Or volume during serpentine configuration, facilitate user to receive.

In the flexible structure 10 that above-described embodiment provides, in the first connecting elements group, the first connecting elements 110 Number be at least 5, in the second connecting elements group, the number of the second connecting elements 120 is at least 4, To guarantee that this flexible structure 10 can bend, and in BENDING PROCESS, sweep is the most curved.

Optionally, in order to flexible electronic devices be bent be the first deformation time, it is possible to be maintained at the first deformation Stationary state, when foregoing soft electronic equipment is bent as the first deformation shown on the left of such as Fig. 3 a, cut Being changed to notebook mode of operation, need to be maintained at the state of the first deformation, such electronic equipment could maintain pen Remember this mode of operation.Flexible structure 10 can realize being maintained at any bending state by arranging extra component, As connecting elements group is set to also include the 3rd connecting elements 130 and the 4th connecting elements 140, the 3rd connects Component 130 is identical with the structure of the first connecting elements 110 and arrangement mode, and the 3rd connecting elements 130 It is sleeved on identical sliding axle with the first connecting elements 110;4th connecting elements 140 is connected structure with second The structure of part 120 and arrangement mode are set to identical, and both are sleeved on identical sliding axle;3rd Two the second suit holes 112 being positioned at two ends in connecting elements 130 can be respectively corresponding sliding axle Offer rotation damps;5th suit hole 123 of the 4th connecting elements 140 can be and the 5th suit hole 123 Corresponding sliding axle provides rotation damping.Two second sets at two ends it are positioned on above-mentioned 3rd connecting elements 130 5th suit hole 123 of dress hole 112 and the 4th connector 104 can be respectively set to open pore, both facilitated Both and the assembling of suit hole, can realize again making above two suit hole for the most right by the way of interference fit The sliding axle answered provides rotary damping.

Certainly, in order to reduce the quantity of connecting elements, simplify assembly manipulation, the flexibility that above-described embodiment provides Device may be arranged as the second suit hole 112 and the of the second connector at two ends on the first connector Five suit holes 123 are configured to provide the suit hole of rotation damping into corresponding sliding axle, to realize This flexible apparatus is enable to be maintained at any bending state.Specifically can be fixed in above-mentioned suit hole with sliding The close-fitting friction pad of moving axis, such as rubber blanket etc..

Flexible electronic devices in the present embodiment controls with generating in flexible electronic devices shown in earlier figures 1 The method of instruction set is based on the invention under same design, by aforementioned to generating control in flexible electronic devices The method of instruction set processed and the detailed description of various version thereof, those skilled in the art can be clearly Solve the implementation process of flexible electronic devices in the present embodiment, so succinct for description, the most superfluous at this State.

Based on same inventive concept, the embodiment of the present invention also provides for a kind of flexible electronic devices, for performing such as The method generating control instruction collection in flexible electronic devices shown in Fig. 1.This flexible electronic devices is for example, Mobile phone, panel computer etc..Refer to shown in Figure 13, this flexible electronic devices includes: the first acquiring unit 401, For obtaining and record the first deformation parameter of the first deformation that flexible electronic devices occurs;Second acquisition unit 402, it is used for obtaining and record the first control instruction;Processing unit 403, for based on described first deformation ginseng Number and described first control instruction, generate the first executing rule, and described first executing rule is for when institute being detected State flexible electronic devices to occur to perform described first control instruction during described first deformation.

Optionally, processing unit 403 is for determining the schematic diagram for characterizing the first deformation;According to schematic diagram With the corresponding relation of deformation parameter, record first deformation parameter corresponding with described first deformation.

Optionally, processing unit 403 is used for: obtain when described flexible electronic devices occurs the first deformation corresponding The second deformation parameter;Parameter area is obtained as described according to described second deformation parameter of pre-defined rule extension First deformation parameter;

Accordingly, processing unit 403 is additionally operable to when detecting that described flexible electronic devices occurs the second deformation, Record the deformation parameter that described second deformation is corresponding;Judge that whether deformation parameter corresponding to described second deformation exist In described parameter area;Wherein, when the deformation parameter of described second deformation correspondence is in described parameter area, Characterize described second deformation and be described first deformation.

Flexible electronic devices in the present embodiment controls with generating in flexible electronic devices shown in earlier figures 1 The method of instruction set is based on the invention under same design, by aforementioned to generating control in flexible electronic devices The method of instruction set processed and the detailed description of various version thereof, those skilled in the art can be clearly Solve the implementation process of flexible electronic devices in the present embodiment, so succinct for description, the most superfluous at this State.

Those skilled in the art are it should be appreciated that embodiments of the invention can be provided as method, system or meter Calculation machine program product.Therefore, the present invention can use complete hardware embodiment, complete software implementation or knot The form of the embodiment in terms of conjunction software and hardware.And, the present invention can use and wherein wrap one or more Computer-usable storage medium containing computer usable program code (include but not limited to disk memory and Optical memory etc.) form of the upper computer program implemented.

The present invention is with reference to method, equipment (system) and computer program according to embodiments of the present invention Flow chart and/or block diagram describe.It should be understood that can by computer program instructions flowchart and/ Or flow process in each flow process in block diagram and/or square frame and flow chart and/or block diagram and/or The combination of square frame.These computer program instructions can be provided to general purpose computer, special-purpose computer, embedded The processor of datatron or other programmable data processing device is to produce a machine so that pass through computer Or the instruction that the processor of other programmable data processing device performs produces for realizing at flow chart one stream The device of the function specified in journey or multiple flow process and/or one square frame of block diagram or multiple square frame.

These computer program instructions may be alternatively stored in and can guide computer or other programmable data processing device In the computer-readable memory worked in a specific way so that be stored in this computer-readable memory Instruction produces the manufacture including command device, and this command device realizes at one flow process of flow chart or multiple stream The function specified in journey and/or one square frame of block diagram or multiple square frame.

These computer program instructions also can be loaded in computer or other programmable data processing device, makes Sequence of operations step must be performed to produce computer implemented place on computer or other programmable devices Reason, thus the instruction performed on computer or other programmable devices provides for realizing flow chart one The step of the function specified in flow process or multiple flow process and/or one square frame of block diagram or multiple square frame.

Specifically, the side generating control instruction collection in flexible electronic devices in the application Fig. 1 embodiment Computer program instructions corresponding to method can be stored in CD, and hard disk, on the storage medium such as USB flash disk, when depositing The computer program instructions corresponding with the method generating control instruction collection in flexible electronic devices in storage media When being read by an electronic equipment or be performed, comprise the steps: that obtaining and record flexible electronic devices occurs The first deformation parameter of the first deformation;Obtain and record the first control instruction;Based on described first deformation ginseng Number and described first control instruction, generate the first executing rule, and described first executing rule is for when institute being detected State flexible electronic devices to occur to perform described first control instruction during described first deformation.

Optionally, storage medium also comprises the steps the instruction of correspondence, when this instruction is performed, including Following steps: determine the schematic diagram for characterizing the first deformation;Close according to schematic diagram is corresponding with deformation parameter System, records first deformation parameter corresponding with described first deformation.

Optionally, storage medium also comprises the steps the instruction of correspondence, when this instruction is performed, including Following steps: obtain the second deformation parameter corresponding when described flexible electronic devices occurs the first deformation;According to Described second deformation parameter of pre-defined rule extension obtains parameter area as described first deformation parameter;Work as detection To described flexible electronic devices there is the second deformation time, record the deformation parameter that described second deformation is corresponding;Sentence Whether the deformation parameter of disconnected described second deformation correspondence is in described parameter area;Wherein, become when described second When deformation parameter corresponding to shape is in described parameter area, characterizes described second deformation and be described first deformation.

Obviously, those skilled in the art can carry out various change and modification without deviating from this to the present invention Bright spirit and scope.So, if the present invention these amendment and modification belong to the claims in the present invention and Within the scope of its equivalent technologies, then the present invention is also intended to comprise these change and modification.

Claims (14)

1. the method generating control instruction collection in flexible electronic devices, including:
Obtain and record the first deformation parameter of the first deformation that flexible electronic devices occurs;
Obtain and record the first control instruction;
Based on described first deformation parameter and described first control instruction, generate the first executing rule, described One executing rule is for when detecting that performing described first when described flexible electronic devices occurs described first deformation controls System instruction.
2. the method for claim 1, it is characterised in that described acquisition also records flexible electronic devices First deformation parameter of the first deformation occurred, including:
When making described flexible electronic devices that the first deformation occurs under the effect of external force, by described flexibility First deformation parameter of the first deformation described in the sensor record of electronic equipment.
3. the method for claim 1, it is characterised in that described acquisition also records flexible electronic devices The deformation parameter of the first deformation occurred, including:
Determine the schematic diagram for characterizing the first deformation;
According to the corresponding relation of schematic diagram Yu deformation parameter, record first deformation corresponding with described first deformation Parameter.
4. the method for claim 1, it is characterised in that described acquisition also records flexible electronic devices The deformation parameter of the first deformation occurred, including:
Obtain the second deformation parameter corresponding when described flexible electronic devices occurs the first deformation;
Parameter area is obtained as described first deformation ginseng according to described second deformation parameter of pre-defined rule extension Number;
Accordingly, after described generation the first executing rule, described method also includes:
When detecting that described flexible electronic devices occurs the second deformation, record the change that described second deformation is corresponding Shape parameter;
Judge that the deformation parameter of described second deformation correspondence is whether in described parameter area;Wherein, when described When deformation parameter corresponding to the second deformation is in described parameter area, characterizes described second deformation and be described the One deformation.
5. the method as described in any one of claim 1-4, it is characterised in that described first control instruction tool There are the first kind and Second Type, when the control instruction that described first control instruction is the described first kind, Described first executing rule also includes: when detect described flexible electronic devices from described first deformation recover to During unstrained state, perform the reverse instruction of described first control instruction;
When the control instruction that described first control instruction is described Second Type, described first executing rule is also Including: when detecting that described flexible electronic devices is recovered to unstrained state from described first deformation, protect The state holding described flexible electronic devices is the state after performing described first control instruction.
6. the method as described in any one of claim 1-4, it is characterised in that described deformation parameter characterizes curved Folding direction, bending angle, folding line position, any one or the combination in any that are bent in position.
7. a flexible electronic devices, it is characterised in that including:
Flexible structure, for realizing the flexural deformation of described flexible electronic devices;
Sensor;
Body, including processor, described processor is for obtaining and record the first of flexible electronic devices generation First deformation parameter of deformation;Obtain and record the first control instruction;Based on described first deformation parameter and institute Stating the first control instruction, generate the first executing rule, described first executing rule is for when by described sensor Detect described flexible electronic devices to occur during described first deformation and perform described first control instruction.
8. flexible electronic devices as claimed in claim 7, it is characterised in that described processor is for working as When making described flexible electronic devices that the first deformation occurs under the effect of external force, by described sensor record institute State the first deformation parameter of the first deformation.
9. flexible electronic devices as claimed in claim 7, it is characterised in that described processor is used for determining For characterizing the schematic diagram of the first deformation;And according to the corresponding relation of schematic diagram Yu deformation parameter, record and institute State the first deformation parameter that the first deformation is corresponding.
10. flexible electronic devices as claimed in claim 7, it is characterised in that described processor is used for: Obtain the second deformation parameter corresponding when described flexible electronic devices occurs the first deformation;Expand according to pre-defined rule Second deformation parameter described in exhibition obtains parameter area as described first deformation parameter;
Accordingly, described processor is additionally operable to: when described flexible electronic devices being detected by described sensor When there is the second deformation, record the deformation parameter that described second deformation is corresponding;Judge described second deformation correspondence Deformation parameter whether in described parameter area;Wherein, exist when the deformation parameter that described second deformation is corresponding Time in described parameter area, characterize described second deformation and be described first deformation.
11. flexible electronic devices as described in any one of claim 7-10, it is characterised in that described first Control instruction has the first kind and Second Type, when the control that described first control instruction is the described first kind During system instruction, described first executing rule also includes: when described flexible electronic being detected by described sensor Equipment, when described first deformation recovers to unstrained state, performs inversely referring to of described first control instruction Order;
When the control instruction that described first control instruction is described Second Type, described first executing rule is also Including: when detecting that described flexible electronic devices is recovered to non-shape from described first deformation by described sensor During the state become, the state keeping described flexible electronic devices is the state after performing described first control instruction.
12. flexible electronic devices as described in any one of claim 7-10, it is characterised in that described deformation Parameter characterization overbending direction, bending angle, folding line position, any one or any group that are bent in position Close.
13. flexible electronic devices as described in any one of claim 7-10, it is characterised in that described flexibility Structure includes:
First sliding axle;
Second sliding axle;
Middle slip axle group, described middle slip axle group includes multiple middle slip axle set in a row;
Connecting elements group, described middle slip axle group is movably connected to described first by described connecting elements group Sliding axle and described second sliding axle;
Wherein, described flexible structure 10 can bend along the bearing of trend of described middle slip axle group, and institute State the most curved structure in bending place of flexible structure 10.
14. 1 kinds of flexible electronic devices, it is characterised in that including:
First acquiring unit, for obtaining and record the first deformation of the first deformation that flexible electronic devices occurs Parameter;
Second acquisition unit, is used for obtaining and record the first control instruction;
Processing unit, for based on described first deformation parameter and described first control instruction, generates first and holds Line discipline, described first executing rule is for when detecting that described flexible electronic devices occurs described first deformation Perform described first control instruction.
CN201610189272.XA 2016-03-29 2016-03-29 Method for generating control instruction set on flexible electronic device and flexible electronic device CN105892653A (en)

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