CN105242777B - A kind of control method and electronic equipment - Google Patents
A kind of control method and electronic equipment Download PDFInfo
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- CN105242777B CN105242777B CN201510567474.9A CN201510567474A CN105242777B CN 105242777 B CN105242777 B CN 105242777B CN 201510567474 A CN201510567474 A CN 201510567474A CN 105242777 B CN105242777 B CN 105242777B
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- connecting part
- rotating connecting
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- rotational angle
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Abstract
The invention discloses a kind of control method and electronic equipments, detect the rotational angle of the rotating connecting part of the electronic equipment;Based on the rotational angle, the adjusting parameter for the rotating connecting part is obtained;According to the adjusting parameter, the electric field strength of the rotating connecting part is adjusted to generate the first torsion, the rotating connecting part is controlled by first torsion.
Description
Technical field
The present invention relates to electron controls technologies, and in particular to a kind of control method and electronics applied in electronic equipment is set
It is standby.
Background technique
Currently, pivot (hinge) design is widely used in notebook computer, subnote computer, individual digital and helps
It manages in electronic equipments such as (PDA).However, basic to torsion in the entire switching process of hinge in traditional hinge design scheme
It is constant, thus have following defects that 1) due in switching process torsion it is larger always, so will lead to worn between torsion gear piece it is tight
Often there are torsion decaying serious problems in weight;2) hinge torsion by adjusting hinge monomer locking nut power size, to adjust
The torsion of whole hinge monomer, can not be adjusted after assembling;3) torque value can not be adjusted using angle according to specific user,
To solve the problems such as screen shakes;4) automatic lock auto-lock function is realized by automatic auto wheel, the later period changes auto-
Lock angle needs to remodify auto wheel mold, wears after causing auto to take turns use relatively serious.
Summary of the invention
In view of this, the embodiment of the present invention provides a kind of control method and electricity to solve problems of the prior art
Sub- equipment.
The technical solution of the embodiment of the present invention is achieved in that
In a first aspect, the embodiment of the present invention provides a kind of control method, it is applied in an electronic equipment, the method packet
It includes:
Detect the rotational angle of the rotating connecting part of the electronic equipment;
Based on the rotational angle, the adjusting parameter for the rotating connecting part is obtained;
According to the adjusting parameter, the electric field strength of the rotating connecting part is adjusted to generate the first torsion, is led to
First torsion is crossed to control the rotating connecting part.
Second aspect, the embodiment of the present invention provide a kind of electronic equipment, the electronic equipment include detection unit, first really
Order member and adjustment unit;Wherein,
The detection unit, the rotational angle of the rotating connecting part for detecting the electronic equipment;
First determination unit obtains the adjustment for the rotating connecting part for being based on the rotational angle
Parameter;
The adjustment unit, for adjusting the electric field strength of the rotating connecting part according to the adjusting parameter
To generate the first torsion, the rotating connecting part is controlled by first torsion.
In the embodiment of the present invention, the rotational angle of the rotating connecting part of the electronic equipment is detected;Based on the rotation
Angle obtains the adjusting parameter for the rotating connecting part;According to the adjusting parameter, the rotating connecting part is adjusted
Electric field strength to generate the first torsion, the rotating connecting part is controlled by first torsion.In this way,
It is big come the torsion of rotating connecting part described in software control by the electric field strength of rotating connecting part described in adjustment
It is small, to mitigate the wear problem of the rotating connecting part;Meanwhile, it is capable to which it is big to reasonably adjust torsion using angle according to user
It is small, to solve the problems, such as that screen shakes.
Detailed description of the invention
Fig. 1 is the composed structure schematic diagram of electronic equipment provided by the invention;
Fig. 2 is the implementation process schematic diagram of the first embodiment of control method provided by the invention;
Fig. 3-1 is the division schematic diagram one of predetermined angle range described in the embodiment of the present invention;
Fig. 3-2 is the division schematic diagram two of predetermined angle range described in the embodiment of the present invention;
Fig. 4 is the composed structure schematic diagram of rotating connecting part in electronic equipment described in the embodiment of the present invention;
Fig. 5 is the implementation process schematic diagram of the second embodiment of control method provided by the invention;
Fig. 6 is the realization original that rotating connecting part described in the embodiment of the present invention generates torsion under electric field strength effect
Reason figure;
Fig. 7 is the composed structure schematic diagram of electronic equipment embodiment provided by the invention.
Specific embodiment
Below in conjunction with attached drawing to a preferred embodiment of the present invention will be described in detail, it should be understood that described below is excellent
Select embodiment only for the purpose of illustrating and explaining the present invention and is not intended to limit the present invention.
In each embodiment of information processing method provided by the invention and electronic equipment, involved electronic equipment can
To be PAD, mobile terminal, laptop etc..
Embodiment of the method one:
The first embodiment of control method provided by the invention is applied in electronic equipment, and the electronic equipment includes the
One ontology, the second ontology and rotating connecting part;The first noumenon and second ontology pass through the rotating junction
Part is connected, and the first noumenon and the second ontology can generate rotation by the rotating connecting part.
In one example, as shown in Figure 1, the electronic equipment is laptop, the laptop includes first
Ontology 10, the second ontology 11 and the rotating connecting part 12 for connecting the first noumenon 10 and second ontology 11;
In this way, terminal user is when changing the use form of the laptop, 11 energy of the first noumenon 10 and the second ontology
Rotation is enough generated by the rotating connecting part 12, is turned with changing the first noumenon 10 relative to second ontology 11
Dynamic angle.It wherein, include two rotating connecting parts 12 in laptop as shown in Figure 1.In practical applications, institute
The number N for stating rotating connecting part is unrestricted, i.e., the value of N is the integer more than or equal to 1.
Fig. 2 is the implementation process schematic diagram of the first embodiment of control method provided by the invention;As shown in Fig. 2, described
Method includes:
Step S201: the rotational angle of the rotating connecting part of the electronic equipment is detected;
Specifically, the electronic equipment changes the use shape of the electronic equipment in the first operation for receiving user
After the operation of state, the first noumenon is rotated by the rotating connecting part relative to second ontology;At this point, described
Electronic equipment starts to detect the rotational angle of the rotating connecting part of itself.Wherein, first operation includes to the electronics
The operation using morphologic change of equipment.For example, in electronic equipment as shown in Figure 1, the first noumenon 10 is kept
Position it is constant, move the operation of the second ontology 11, alternatively, keeping the position of second ontology 11 constant, move first
The operation of body 10.
Step S202: being based on the rotational angle, obtains the adjusting parameter for the rotating connecting part;
Specifically, the electronic equipment can use the rotational angle and join with the adjustment for the rotating connecting part
Corresponding relationship between number is obtained based on the rotational angle of detected rotating connecting part for the rotating junction
The adjusting parameter of part.
Wherein, the adjusting parameter can be for required for the subsequent electric field strength for adjusting the rotating connecting part
Input current size and current direction.
Step S203: according to the adjusting parameter, the electric field strength of the rotating connecting part is adjusted to generate
One torsion controls the rotating connecting part by first torsion.
Specifically, the electronic equipment is according to the obtained adjusting parameter including input current size and current direction,
The electric field strength of the rotating connecting part is adjusted to generate the first torsion, and by first torsion to the rotation
Connecting component is controlled.
In a preferred embodiment, the first noumenon may include display unit, and the second ontology can be used for supporting first
Ontology, specifically, second ontology can be the bracket of support the first noumenon.
In one embodiment, the embodiment of the present invention is being executed based on the rotational angle, is obtained for the rotation connection
Before the adjusting parameter of component, the method can also include: to determine to connect the rotating junction based on the rotational angle
Target angle of the first noumenon of part relative to the second ontology for connecting the rotating connecting part;
Specifically, the electronic equipment determines the first noumenon for connecting the rotating connecting part based on the rotational angle
Target angle relative to the second ontology for connecting the rotating connecting part includes the following two kinds mode:
Mode one, the electronic equipment can detecte whether the rotational angle is within the scope of predetermined angle, if described
Rotational angle is within the scope of predetermined angle, then is determined based on the predetermined angle range and connect the of the rotating connecting part
Target angle of one ontology relative to the second ontology for connecting the rotating connecting part.Wherein, the predetermined angle range
Determination can be based on user being arranged using the habit of form to the electronic equipment.
In one example, as shown in figure 3-1, the predetermined angle range may include 90 °~108 °, 109 °~
126 ° ..., 343 °~360 °, i.e., the corresponding granularity of described predetermined angle range is 18 °.It is corresponding, it is based on the predetermined angle
Range determines that the first noumenon relative to the mode of the target angle of second ontology includes: by the predetermined angle range
Median be determined as target angle of the first noumenon relative to second ontology, as 90 ° of predetermined angle range~
108 ° of corresponding 99 ° of target angles;Alternatively, by the upper boundary values of the predetermined angle range be determined as the first noumenon relative to
The target angle of second ontology, such as 90 °~108 ° of predetermined angle range corresponding 108 ° of target angles;Alternatively, by described pre-
If the lower border value of angular range is determined as target angle of the first noumenon relative to second ontology, such as predetermined angle
90 °~108 ° of range corresponding 90 ° of target angles.It should be noted that the setting of above-mentioned predetermined angle range, and based on described pre-
If angular range determines that the first noumenon is merely illustrative description relative to the mode of the target angle of second ontology, and
It is not used in the target angle for limiting and the first noumenon being determined relative to second ontology based on the predetermined angle range
Mode.
In another example, as shown in figure 3-2, the predetermined angle range can only include 15 °~20 °, i.e., automatically
Auto wheel realizes corresponding predetermined angle range when automatic lock auto-lock function.It is corresponding, it is based on the predetermined angle range
Determine predetermined angle range pair shown in mode and Fig. 3-1 of the first noumenon relative to the target angle of second ontology
The method of determination answered is similar, and which is not described herein again.
Mode two, the electronic equipment can also detect described in the first noumenon for connecting the rotating connecting part and connection
Second ontology of rotating connecting part keeps whether the duration of the first rotational angle exceeds preset time threshold, that is, detects first
Ontology by the rotating connecting part relative to second ontology carry out rotation generation the first rotational angle duration whether
Beyond preset time threshold, if the duration of first rotational angle exceeds preset time threshold, it is based on described first
Rotational angle determines target angle of the first noumenon relative to second ontology.Wherein, the preset time threshold
It can be determined according to actual needs, such as be set as 1~3s or so.
The control method through the embodiment of the present invention detects the angle of rotation of the rotating connecting part of the electronic equipment
Degree obtains the adjusting parameter for the rotating connecting part based on the rotational angle;According to the adjusting parameter, institute is adjusted
The electric field strength of rotating connecting part is stated to generate the first torsion, by first torsion to the rotating connecting part
It is controlled.In this way, by the electric field strength of rotating connecting part described in adjustment come the company of rotation described in software control
The torque magnitude of relay part, to mitigate the wear problem of the rotating connecting part;Meanwhile, it is capable to according to user using angle come
Torque magnitude is reasonably adjusted, to solve the problems, such as that screen shakes.
Further, by taking predetermined angle range as shown in figure 3-2 as an example, when the predetermined angle range only includes 15 °
~20 °, i.e., when automatic auto wheel realizes automatic lock auto-lock function when corresponding predetermined angle range, based on described default
Angular range determines target angle of the first noumenon relative to second ontology;It is based on the target angle again, obtains
For the adjusting parameter of the rotating connecting part;According to the adjusting parameter, the outer power-up of the rotating connecting part is adjusted
Field intensity controls the rotating connecting part by first torsion with generating the first torsion, to control described
Relatively described second ontology alignment of one ontology is simultaneously maintained at the target angle, i.e., automatic auto wheel realizes automatic lock auto-
Lock function.In this way, adjusting the specific angle of the auto-lock by intelligence software, and control is needed for the angle
The torsion wanted is able to solve the problem of needing to remodify auto wheel mold because of change auto-lock angle in the prior art, together
When can also mitigate auto wheel use after the degree of wear.
Embodiment of the method two:
The second embodiment of control method provided by the invention is applied in electronic equipment, and the electronic equipment includes the
One ontology, the second ontology and rotating connecting part;The first noumenon and second ontology pass through the rotating junction
Part is connected, and the first noumenon and the second ontology can generate rotation by the rotating connecting part;Wherein, described
Rotating connecting part includes magnetic part, and the magnetic part can be the annular electro for being set to the rotating connecting part both ends
Magnet.
In one example, as shown in Figure 1, the electronic equipment is laptop, the laptop includes first
Ontology 10, the second ontology 11 and the rotating connecting part 12 for connecting the first noumenon 10 and second ontology 11;
In this way, terminal user is when changing the use form of the laptop, 11 energy of the first noumenon 10 and the second ontology
Rotation is enough generated by the rotating connecting part 12, to change folder of the first noumenon 10 relative to second ontology 11
Angle.It wherein, include two rotating connecting parts 12 in laptop as shown in Figure 1.In practical applications, described turn
The number N of rotation connection part is unrestricted, i.e., the value of N is the integer more than or equal to 1.
Further, as shown in figure 4, the rotating connecting part 12 includes magnetic part 121.Wherein, the magnetic portion
Part 121 is the ring electromagnet for being set to 12 both ends of rotating connecting part.
Fig. 5 is the implementation process schematic diagram of the second embodiment of information processing method provided by the invention;As shown in figure 5,
The described method includes:
Step S501: the rotational angle of the rotating connecting part of the electronic equipment is detected;
Specifically, the electronic equipment changes the use shape of the electronic equipment in the first operation for receiving user
After the operation of state, the first noumenon is rotated by the rotating connecting part relative to second ontology;At this point, described
Electronic equipment starts to detect the angle that the first noumenon carries out rotation generation relative to second ontology.Wherein, described first
Operation includes the operation using morphologic change to the electronic equipment.For example, in electronic equipment as shown in Figure 1,
It keeps the position of the first noumenon 10 constant, moves the operation of the second ontology 11, alternatively, keeping the position of second ontology 11
It sets constant, moves the operation of the first noumenon 10.
Step S502: determine that the first noumenon is pressed from both sides relative to the target of second ontology based on the rotational angle
Angle;
Specifically, the electronic equipment determines the first noumenon relative to second ontology based on the rotational angle
Target angle include the following two kinds mode:
Mode one, the electronic equipment can detecte whether the rotational angle is within the scope of predetermined angle, if described
Rotational angle is within the scope of predetermined angle, then determines the first noumenon relative to described based on the predetermined angle range
The target angle of two ontologies.Wherein, the determination of the predetermined angle range can use based on user to the electronic equipment
The habit of form is arranged.
Mode two, the electronic equipment can also detect the first noumenon and the second ontology keeps the first rotational angle
Whether duration exceeds preset time threshold, i.e. detection the first noumenon passes through relatively described second ontology of the rotating connecting part
Whether the duration of the first rotational angle for carrying out rotation generation exceeds preset time threshold, if first rotational angle when
It is long to exceed preset time threshold, then determine the first noumenon relative to second ontology based on first rotational angle
Target angle.
Step S503: being based on the target angle, obtains the adjusting parameter for the rotating connecting part;
Specifically, the electronic equipment can use the target angle and join with the adjustment for the rotating connecting part
Corresponding relationship between number obtains the adjusting parameter for the rotating connecting part based on identified target angle.
Wherein, the adjusting parameter can be for required for the subsequent electric field strength for adjusting the rotating connecting part
Input current size and current direction.
Step S504: according to the adjusting parameter, to the electric field strength of magnetic part in the rotating connecting part
It is adjusted, so that the rotating connecting part generates the first torsion, by first torsion to the rotating connecting part
It is controlled.
Specifically, the electronic equipment is according to the obtained adjusting parameter including input current size and current direction,
The electric field strength of magnetic part in the rotating connecting part is adjusted, is turned round so that the rotating connecting part generates first
Power, and the rotating connecting part is controlled by first torsion, to control the first noumenon relatively described
Two ontology alignments are simultaneously maintained at the target angle.
As shown in figure 4, the magnetic part 121 is to be set to the corresponding elastic magnetic sheet of the rotating connecting part 12 and correspondence
The ring electromagnet 121 of nut.
Here, the reality that the rotating connecting part as shown in FIG. 6 generates torsion under electric field strength effect is compareed
Existing schematic diagram, the calculation formula of the first torsion M are as follows:
M=n*u* Ρ * [R2-R1/2+R1];
Wherein, the Ρ indicates that ring electromagnet 121 acts on the pressure of elastic magnetic sheet under DC Electric Field;It is described
U indicates the coefficient of friction in the axis friction face;The n indicates the quantity in the axis friction face;The R1It indicates described to turn
The radius in axis axle center;The R2Indicate the friction radius surface of the shaft.
It in practical applications, is 8mm when passing through diameter, and correspond to 6 axis friction faces, In for general shaft
Ring electromagnet is acted under DC Electric Field under the pressure of the 15kgf of elastic magnetic sheet, can generate the torsion of 4kg.
In a preferred embodiment, the first noumenon may include display unit, and the second ontology can be used for supporting first
Ontology, specifically, second ontology can be the bracket of support the first noumenon.
The control method through the embodiment of the present invention detects the angle of rotation of the rotating connecting part of the electronic equipment
Degree, determines target angle of the first noumenon relative to second ontology based on the rotational angle;It is based on the mesh again
Ticket holder angle obtains the adjusting parameter for the rotating connecting part;According to the adjusting parameter, to the rotating connecting part
The electric field strength of middle magnetic part is adjusted, so that the rotating connecting part generates the first torsion, passes through described the
One torsion controls the rotating connecting part.In this way, being turned in the first noumenon relative to second ontology
In dynamic process, by the electric field strength of magnetic part in rotating connecting part described in adjustment come described in software control
The torque magnitude of rotating connecting part, to mitigate the wear problem of the rotating connecting part;Meanwhile, it is capable to be used according to user
Angle reasonably adjusts torque magnitude, to solve the problems, such as that screen shakes.
Product embodiments:
Fig. 7 is the composed structure schematic diagram of electronic equipment embodiment provided by the invention;As shown in fig. 7, the electronics is set
Standby includes detection unit 701, the first determination unit 702 and adjustment unit 703;Wherein, as shown in Figure 1, the electronic equipment is
Laptop, the laptop include the first noumenon 10, the second ontology 11 and for connecting the first noumenon 10
With the rotating connecting part 12 of second ontology 11;In this way, terminal user is in the use form for changing the laptop
When, the first noumenon 10 and the second ontology 11 can generate rotation by the rotating connecting part 12, described in changing
Angle of the first noumenon 10 relative to second ontology 11.It wherein, include described in two in laptop as shown in Figure 1
Rotating connecting part 12.In practical applications, the number N of the rotating connecting part is unrestricted, i.e., the value of N be greater than etc.
In 1 integer.
The detection unit 701, the rotational angle of the rotating connecting part for detecting the electronic equipment;
First determination unit 702, for obtaining the tune for the rotating connecting part based on the rotational angle
Whole parameter;
The adjustment unit 703, for according to the adjusting parameter, the extra electric field for adjusting the rotating connecting part to be strong
Degree controls the rotating connecting part by first torsion with generating the first torsion.
In one embodiment, as shown in fig. 7, the electronic equipment further includes the second determination unit 704;
Second determination unit 704 connects the of the rotating connecting part for determining based on the rotational angle
Target angle of one ontology relative to the second ontology for connecting the rotating connecting part.
In one embodiment, as shown in fig. 7, second determination unit 704 includes the first determining subelement 7041;
Described first determines subelement 7041, for detecting whether the rotational angle is within the scope of predetermined angle, if
The rotational angle is within the scope of predetermined angle, then is determined based on the predetermined angle range and connect the rotating connecting part
Target angle of the first noumenon relative to the second ontology for connecting the rotating connecting part.
In one example, as shown in figure 3-1, the predetermined angle range may include 90 °~108 °, 109 °~
126 ° ..., 343 °~360 °, i.e., the corresponding granularity of described predetermined angle range is 18 °.It is corresponding, it is based on the predetermined angle
Range determines that the first noumenon relative to the mode of the target angle of second ontology includes: by the predetermined angle range
Median be determined as target angle of the first noumenon relative to second ontology, as 90 ° of predetermined angle range~
108 ° of corresponding 99 ° of target angles;Alternatively, by the upper boundary values of the predetermined angle range be determined as the first noumenon relative to
The target angle of second ontology, such as 90 °~108 ° of predetermined angle range corresponding 108 ° of target angles;Alternatively, by described pre-
If the lower border value of angular range is determined as target angle of the first noumenon relative to second ontology, such as predetermined angle
90 °~108 ° of range corresponding 90 ° of target angles.It should be noted that the setting of above-mentioned predetermined angle range, and based on described pre-
If angular range determines that the first noumenon is merely illustrative description relative to the mode of the target angle of second ontology, and
It is not used in the target angle for limiting and the first noumenon being determined relative to second ontology based on the predetermined angle range
Mode.
In another example, as shown in figure 3-2, the predetermined angle range can only include 15 °~20 °, i.e., automatically
Auto wheel realizes corresponding predetermined angle range when automatic lock auto-lock function.It is corresponding, it is based on the predetermined angle range
Determine predetermined angle range pair shown in mode and Fig. 3-1 of the first noumenon relative to the target angle of second ontology
The method of determination answered is similar, and which is not described herein again.
In one embodiment, as shown in fig. 7, second determination unit 704 includes the second determining subelement 7042;
Described second determines subelement 7042, for detect connect the first noumenon of the rotating connecting part with connect institute
The second ontology for stating rotating connecting part keeps whether the duration of the first rotational angle exceeds preset time threshold, if described the
The duration of one rotational angle exceeds preset time threshold, then is determined based on first rotational angle and connect the rotation connection
Target angle of the first noumenon of component relative to the second ontology for connecting the rotating connecting part.
In one embodiment, as shown in figure 4, the rotating connecting part 12 includes magnetic part 121;Wherein, the magnetic
Property component 121 is the ring electromagnet for being set to 12 both ends of rotating connecting part.
Correspondingly, the adjustment unit 703, is used for according to the adjusting parameter to magnetic portion in the rotating connecting part
The electric field strength of part is adjusted, so that the rotating connecting part generates the first torsion.
In a preferred embodiment, the first noumenon may include display unit, and the second ontology can be used for supporting first
Ontology, specifically, second ontology can be the bracket of support the first noumenon.
Detection unit 701 in electronic equipment described in the embodiment of the present invention detects the rotating connecting part of the electronic equipment
Rotational angle, the first determination unit 702 be based on the rotational angle, obtain for the rotating connecting part adjustment join
Number;The electric field strength of the rotating connecting part is finally adjusted to generate according to the adjusting parameter by adjustment unit 703
First torsion controls the rotating connecting part by first torsion;In this way, by being rotated described in adjustment
The electric field strength of connecting component carrys out the torque magnitude of rotating connecting part described in software control, to mitigate the rotation connection
The wear problem of component;Meanwhile, it is capable to torque magnitude be reasonably adjusted using angle according to user, to solve asking for screen shaking
Topic.Further, by taking predetermined angle range as shown in figure 3-2 as an example, when the predetermined angle range only includes 15 °~20 °,
When i.e. automatic auto wheel realizes automatic lock auto-lock function when corresponding predetermined angle range, first determines subelement 7021
Target angle of the first noumenon relative to second ontology is determined based on the predetermined angle range;It is determined again by second
Unit 703 is based on the target angle, obtains the adjusting parameter for the rotating connecting part;Finally by adjustment unit 704
According to the adjusting parameter, the electric field strength of the rotating connecting part is adjusted to generate the first torsion, passes through described
One torsion controls relatively described second ontology alignment of the first noumenon and is maintained at the target angle, i.e., automatic auto wheel is real
Auto-lock function is now locked automatically.In this way, adjusting the specific angle of the auto-lock by intelligence software, and control exists
Torsion required for the angle is able to solve in the prior art because change auto-lock angle needs to remodify auto wheel
The problem of mold, while the degree of wear after auto wheel use can also be mitigated.
Detection unit 701, the first determination unit 702, the second determination unit in electronic equipment described in the embodiment of the present invention
704, first determine that subelement 7041 and second determines that son is single included by adjustment unit 703 and second determination unit 704
Member 7042 can be realized by the processor in electronic equipment, can also be realized by specific logic circuit;For example, in reality
It, can be by central processing unit (CPU), the microprocessor (MPU), digital signal processor in the electronic equipment in the application of border
(DSP) or field programmable gate array (FPGA) etc. is realized.
Those of ordinary skill in the art will appreciate that: realize that all or part of the steps of above method embodiment can pass through
The relevant hardware of program instruction is completed, and program above-mentioned can be stored in a computer readable storage medium, the program
When being executed, step including the steps of the foregoing method embodiments is executed;And storage medium above-mentioned include: movable storage device, it is read-only
Memory (ROM, Read-Only Memory), random access memory (RAM, Random Access Memory), magnetic disk or
The various media that can store program code such as person's CD.
If alternatively, the above-mentioned integrated unit of the present invention is realized in the form of software function module and as independent product
When selling or using, it also can store in a computer readable storage medium.Based on this understanding, the present invention is implemented
Substantially the part that contributes to existing technology can be embodied in the form of software products the technical solution of example in other words,
The computer software product is stored in a storage medium, including some instructions are used so that computer equipment (can be with
It is personal computer, server or network equipment etc.) execute all or part of each embodiment the method for the present invention.
And storage medium above-mentioned includes: that movable storage device, ROM, RAM, magnetic or disk etc. are various can store program code
Medium.
The above description is merely a specific embodiment, but scope of protection of the present invention is not limited thereto, any
Those familiar with the art in the technical scope disclosed by the present invention, can easily think of the change or the replacement, and should all contain
Lid is within protection scope of the present invention.Therefore, protection scope of the present invention should be based on the protection scope of the described claims.
Claims (12)
1. a kind of control method is applied in an electronic equipment, which comprises
Detect the rotational angle of the rotating connecting part of the electronic equipment;
Based on the rotational angle, the adjusting parameter for the rotating connecting part is obtained;The adjusting parameter includes adjustment
Input current size and current direction required for the electric field strength of the rotating connecting part;
According to the adjusting parameter, adjustment be arranged in the electric field strength of the magnetic part at the rotating connecting part both ends with
The first torsion is generated, the rotating connecting part is controlled by first torsion;
It is described to be based on the rotational angle, it obtains including: using preset turn for the adjusting parameter of the rotating connecting part
Corresponding relationship between dynamic angle and adjusting parameter, obtains needle corresponding with the rotational angle of detected rotating connecting part
To the adjusting parameter of the rotating connecting part.
2. the method according to claim 1, wherein the method further includes:
Determine the first noumenon for connecting the rotating connecting part relative to the connection rotation connection based on the rotational angle
The target angle of second ontology of component.
3. according to the method described in claim 2, it is characterized in that, described determined based on the rotational angle connects the rotation
Target angle of the first noumenon of connecting component relative to the second ontology for connecting the rotating connecting part, comprising:
Detect whether the rotational angle is within the scope of predetermined angle, if the rotational angle is within the scope of predetermined angle,
Then determine that the first noumenon for connecting the rotating connecting part connects relative to the rotation is connected based on the predetermined angle range
The target angle of second ontology of relay part.
4. according to the method described in claim 2, it is characterized in that, described determined based on the rotational angle connects the rotation
Target angle of the first noumenon of connecting component relative to the second ontology for connecting the rotating connecting part, comprising:
Detection connects the first noumenon of the rotating connecting part and the second ontology holding for connecting the rotating connecting part
Whether the duration of one rotational angle exceeds preset time threshold, if the duration of first rotational angle exceeds the preset time
Threshold value then determines the first noumenon for connecting the rotating connecting part relative to described turn of connection based on first rotational angle
The target angle of second ontology of rotation connection part.
5. the method according to claim 1, wherein the magnetic part is ring electromagnet.
6. according to the described in any item methods of claim 2 to 4, which is characterized in that the connection rotating connecting part
The first noumenon includes display unit, and the second ontology of the connection rotating connecting part can be used for supporting the first noumenon.
7. a kind of electronic equipment, the electronic equipment includes detection unit, the first determination unit and adjustment unit;Wherein,
The detection unit, the rotational angle of the rotating connecting part for detecting the electronic equipment;
First determination unit obtains the adjusting parameter for the rotating connecting part for being based on the rotational angle;
The adjusting parameter includes input current size and electric current required for adjusting the electric field strength of the rotating connecting part
Direction;
The adjustment unit, for according to the adjusting parameter, the magnetic portion at the rotating connecting part both ends to be arranged in adjustment
The electric field strength of part controls the rotating connecting part by first torsion with generating the first torsion;
First determination unit, specifically for obtaining using the corresponding relationship between preset rotational angle and adjusting parameter
The adjusting parameter for the rotating connecting part corresponding with the rotational angle of detected rotating connecting part.
8. electronic equipment according to claim 7, which is characterized in that the electronic equipment further includes the second determination unit;
Second determination unit, for determining the first noumenon phase for connecting the rotating connecting part based on the rotational angle
For connecting the target angle of the second ontology of the rotating connecting part.
9. electronic equipment according to claim 8, which is characterized in that second determination unit includes that the first determining son is single
Member;
Described first determines subelement, for detecting whether the rotational angle is within the scope of predetermined angle, if the rotation
Angle is within the scope of predetermined angle, then the first for connecting the rotating connecting part is determined based on the predetermined angle range
Target angle of the body relative to the second ontology for connecting the rotating connecting part.
10. electronic equipment according to claim 8, which is characterized in that second determination unit includes the second determining son
Unit;
Described second determines subelement, connects for detecting the first noumenon for connecting the rotating connecting part with the rotation is connect
Second ontology of relay part keeps whether the duration of the first rotational angle exceeds preset time threshold, if first angle of rotation
The duration of degree exceeds preset time threshold, then is determined based on first rotational angle and connect the of the rotating connecting part
Target angle of one ontology relative to the second ontology for connecting the rotating connecting part.
11. electronic equipment according to claim 7, which is characterized in that the magnetic part is ring electromagnet.
12. according to the described in any item electronic equipments of claim 8 to 10, which is characterized in that the connection rotation connection
The first noumenon of component includes display unit, and the second ontology of the connection rotating connecting part can be used for supporting first
Body.
Priority Applications (1)
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WO2011046541A1 (en) * | 2009-10-12 | 2011-04-21 | Hewlett-Packard Development Company, L.P. | Display with an optical sensor |
CN104102602A (en) * | 2014-08-05 | 2014-10-15 | 联想(北京)有限公司 | Control method and device |
CN104238652A (en) * | 2013-06-20 | 2014-12-24 | 联想(北京)有限公司 | Electronic equipment and control method thereof |
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WO2011046541A1 (en) * | 2009-10-12 | 2011-04-21 | Hewlett-Packard Development Company, L.P. | Display with an optical sensor |
CN104238652A (en) * | 2013-06-20 | 2014-12-24 | 联想(北京)有限公司 | Electronic equipment and control method thereof |
CN104102602A (en) * | 2014-08-05 | 2014-10-15 | 联想(北京)有限公司 | Control method and device |
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