CN102937854B - The touch control method of double-mode touch screen and hand-hold electronic equipments - Google Patents

Abstract

The invention discloses a kind of touch control method of double-mode touch screen.This touch control method comprises the steps: the touch instruction that acquisition one inputs to be regarded as present instruction; Judge whether present instruction is first mode instruction; If present instruction is first mode instruction, judge whether reference instruction exists, wherein, reference instruction is an immediate touch instruction before being present instruction; If reference instruction exists, judge whether reference instruction is the second mode instruction; If reference instruction is the second mode instruction, cancels instruction or END instruction, perform newly-increased instruction, and perform present instruction for newly-increased one.The invention also discloses a kind of hand-hold electronic equipments.By the way, the present invention carries out in touch control operation utilizing double-mode touch screen, can preferentially perform a certain mode instruction, thus effectively can reduce the probability of makeing mistakes that the probability of system fault and user misoperation cause.

Description

The touch control method of double-mode touch screen and hand-hold electronic equipments

Technical field

The present invention relates to a kind of touch control method and hand-hold electronic equipments of double-mode touch screen.

Background technology

At present, the touch-screen input pattern that hand-hold electronic equipments adopts only adopts separately electromagnetic type to touch input pattern or capacitance touch input pattern usually.

Wherein, electromagnetic type touch input pattern positioning precision high, time writer angle of inclination and pressure information can be obtained, be convenient to former handwriting, drawing etc., but, it must use time writer, except writing or drawing, user will carry out other operation also must use time writer, thus causes using inconvenience; In addition, capacitance touch input pattern is inputted by finger touch, convenient, flexible, the defect that electromagnetic type touches input pattern existence can be made up, but it intuitively can not reflect the pressure size information of finger touch, cause its positioning precision lower, what make that user can not be true to nature when using the input of former person's handwriting further simulates this former person's handwriting, and is also not suitable for the drawing function higher to accuracy requirement because this input pattern positioning precision is lower.

Presenting and user-friendly object for realizing former person's handwriting, also may adopt double-mode touch screen in prior art, namely comprising electromagnetical type touch screen and capacitive touch screen.But in actual use, when adopting double-mode touch screen, following problems may be encountered:

User utilizes time writer input, and hand and time writer all may touch touch-screen simultaneously, and hand and time writer all can be detected touching while touch-screen and be processed, and cause system fault in some cases.

Summary of the invention

The technical matters that the present invention mainly solves is to provide a kind of touch control method and hand-hold electronic equipments of double-mode touch screen, carry out in touch control operation utilizing double-mode touch screen, can preferentially perform a certain mode instruction, thus effectively can reduce the probability of makeing mistakes that the probability of system fault and user misoperation cause.

For solving the problems of the technologies described above, the technical scheme that the present invention adopts is: the touch control method providing a kind of double-mode touch screen, comprises the steps: the touch instruction that acquisition one inputs to be regarded as present instruction; Judge whether present instruction is first mode instruction; If present instruction is first mode instruction, judge whether reference instruction exists, wherein, reference instruction touches instruction with immediate one of described present instruction input time before being present instruction; If reference instruction exists, judge whether reference instruction is the second mode instruction; If reference instruction is the second mode instruction, cancels instruction or END instruction, perform newly-increased instruction, and perform present instruction for newly-increased one.

Wherein, judging whether present instruction is in the step of first mode instruction, if present instruction is the second mode instruction, judge whether reference instruction exists; If reference instruction exists, judge whether reference instruction is first mode instruction; If reference instruction is first mode instruction, judge whether reference instruction is cancel instruction or END instruction; If instruction or END instruction are cancelled in reference instruction, judge whether the time interval between reference instruction and present instruction is more than or equal to schedule time length; If the time interval between reference instruction and present instruction is less than schedule time length, cancels or terminate present instruction.

Wherein, judging whether reference instruction is cancel instruction or END instruction, and judge whether the time interval between reference instruction and present instruction is more than or equal in the step of schedule time length, if instruction or END instruction are cancelled in reference instruction, and between reference instruction and present instruction interval greater than equaling schedule time length, perform present instruction.

Wherein, after the step performing present instruction, comprising: record present instruction, using present instruction as reference instruction next time.

Wherein, first mode instruction is electromagnetism instruction, and the second mode instruction is electric capacity instruction; Or first mode instruction is electric capacity instruction, the second mode instruction is electromagnetism instruction.

For solving the problems of the technologies described above, another technical solution used in the present invention is: provide a kind of hand-hold electronic equipments, comprises electric capacity and electromagnetic double-mode touch screen, comprising: instruction acquisition module, for obtaining a touch instruction inputted; Wherein, touch instruction is considered as present instruction; First judge module, for judging whether present instruction is first mode instruction; Second judge module, during for being first mode instruction in present instruction, judges whether reference instruction exists, and wherein, reference instruction touches instruction with immediate one of described present instruction input time before being present instruction; 3rd judge module, for when reference instruction exists, judges whether reference instruction is the second mode instruction; And command process module, for when reference instruction is the second mode instruction, cancels instruction or END instruction, perform newly-increased instruction, and perform present instruction for newly-increased one.

Wherein, hand-hold electronic equipments comprises the 4th judge module, the 5th judge module and the 6th judge module; 4th judge module, for be the second mode instruction in present instruction and reference instruction exists time, judge whether reference instruction is first mode instruction; 5th judge module, during for being first mode instruction in reference instruction, judges whether reference instruction is cancel instruction or END instruction; 6th judge module, in reference instruction be cancel instruction or END instruction time, judge whether the time interval between reference instruction and present instruction is more than or equal to schedule time length; Command process module, when being also less than schedule time length for the time interval between reference instruction and present instruction, cancelling or terminates present instruction; Or also between reference instruction and present instruction interval greater than when equaling schedule time length, perform present instruction.

Wherein, hand-hold electronic equipments comprises instruction memory module; Instruction memory module, for after executing present instruction, record present instruction; Wherein, using present instruction as reference instruction next time.

Wherein, first mode instruction is electromagnetism instruction, and the second mode instruction is electric capacity instruction; Or first mode instruction is electric capacity instruction, the second mode instruction is electromagnetism instruction.

For solving the problems of the technologies described above, another technical solution used in the present invention is: the touch control method providing a kind of double-mode touch screen, comprises the steps: the touch instruction that acquisition one inputs to be regarded as present instruction; Judge whether present instruction is first mode instruction; If present instruction is the second mode instruction, judge whether reference instruction exists, wherein, reference instruction touches instruction with immediate one of described present instruction input time before being present instruction; If reference instruction exists, judge whether reference instruction is first mode instruction; If reference instruction is first mode instruction, judge whether reference instruction is cancel instruction or END instruction; If instruction or END instruction are cancelled in reference instruction, judge whether the time interval between reference instruction and present instruction is less than schedule time length; If the time interval between reference instruction and present instruction is less than schedule time length, cancels or terminate present instruction.

Wherein, judging whether the time interval between reference instruction and present instruction is less than in the step of schedule time length, if between reference instruction and present instruction interval greater than equaling schedule time length, perform present instruction.

Wherein, judging whether present instruction is in the step of first mode instruction, if present instruction is first mode instruction, judge whether reference instruction exists; If reference instruction exists, judge whether reference instruction is the second mode instruction; If reference instruction is the second mode instruction, cancels instruction or END instruction, perform newly-increased instruction, and perform present instruction for newly-increased one.

For solving the problems of the technologies described above, another technical solution used in the present invention is: provide a kind of hand-hold electronic equipments, comprise electric capacity and electromagnetic double-mode touch screen, comprising: instruction acquisition module, for obtaining a touch instruction inputted; Wherein, touch instruction is considered as present instruction; First judge module, for judging whether present instruction is first mode instruction; Second judge module, for when present instruction is the second mode instruction, judges whether reference instruction exists, and wherein, reference instruction touches instruction with immediate one of described present instruction input time before being present instruction; 3rd judge module, for when reference instruction exists, judges whether reference instruction is first mode instruction; 4th judge module, during for being first mode instruction in reference instruction, judges whether reference instruction is cancel instruction or END instruction; 5th judge module, in reference instruction be cancel instruction or END instruction time, judge whether the time interval between reference instruction and present instruction is less than schedule time length; And command process module, when being less than schedule time length for the time interval between reference instruction and present instruction, cancelling or terminate present instruction; Or between reference instruction and present instruction interval greater than when equaling schedule time length, perform present instruction.

Wherein, hand-hold electronic equipments comprises the 6th judge module; 6th judge module, for be first mode instruction in present instruction and reference instruction exists time, judge whether reference instruction is the second mode instruction; Command process module, also for when reference instruction is the second mode instruction, cancels instruction or END instruction, performs newly-increased instruction, and perform present instruction for newly-increased one.

The invention has the beneficial effects as follows: the situation being different from prior art, the touch control method of double-mode touch screen of the present invention, if present instruction and reference instruction are the touch instruction of different mode respectively, cancel instruction or END instruction for newly-increased one, perform newly-increased instruction, namely no longer with reference to instruction as input instruction, do not perform this reference instruction, and corresponding execution present instruction, therefore, carry out in touch control operation utilizing double-mode touch screen, can preferentially perform a certain mode instruction, thus effectively can reduce the probability of makeing mistakes that the probability of system fault and user misoperation cause.

Accompanying drawing explanation

Fig. 1 is the process flow diagram of touch control method first embodiment of double-mode touch screen of the present invention;

Fig. 2 is the process flow diagram of touch control method second embodiment of double-mode touch screen of the present invention;

Fig. 3 is the process flow diagram of touch control method the 3rd embodiment of double-mode touch screen of the present invention;

Fig. 4 is the principle assumption diagram of hand-hold electronic equipments first embodiment of the present invention;

Fig. 5 is the principle assumption diagram of hand-hold electronic equipments second embodiment of the present invention;

Fig. 6 is the process flow diagram of another embodiment of touch control method of double-mode touch screen of the present invention;

Fig. 7 is the structural representation of another embodiment of hand-hold electronic equipments of the present invention;

Fig. 8 is the structural representation of a hand-hold electronic equipments of the present invention embodiment again.

Embodiment

Below in conjunction with drawings and embodiments, the present invention is described in detail.

First the principle of work of capacitive touch screen and electromagnetical type touch screen is briefly introduced respectively:

Capacitive touch screen is generally the object being realized touch-control by the mode of human body weak current; And electromagnetical type touch screen is generally by electromagnetic mode, take time writer as electromagnetism generation side, magnetic board is electromagnetism side, makes time writer close and changes to magnetic flux, define contact point thus reach touch-control object by computing.

Indication touch-screen of the present invention is the double-mode touch screen having capacitive touch screen function and electromagnetical type touch screen function concurrently.In full, electric capacity instruction is often referred to the instruction that user is produced by finger touch touch-screen, and electromagnetism instruction is often referred to the instruction that user is produced by time writer touch-control touch-screen.

Consult Fig. 1, Fig. 1 is the process flow diagram of touch control method first embodiment of double-mode touch screen of the present invention.Touch control method first embodiment of double-mode touch screen of the present invention comprises the steps:

Step S101, obtains a touch instruction inputted.Wherein, this touch instruction is considered as present instruction.

No matter pass through finger touch touch-screen or pass through time writer touch-control touch-screen, touch-screen all can produce corresponding touch instruction, and obtains touch instruction by system.The principle of work of double-mode touch screen can make capacitive touch screen wherein to detect and get electric capacity instruction, and electromagnetical type touch screen can detect and get electromagnetism instruction.So no matter which kind of touch instruction all can be touched to shield obtains.Be not limited to above-mentioned to the definition of double-mode touch screen herein, it can be the touch-screen of two kinds of touch instructions that can detect other type any, such as electromagnetical type touch screen and piezoelectric type touch screen, electromagnetical type touch screen and resistive touch screen etc. or existing known can any technical combinations of Detection capacitance input and electromagnetism input, and being not limited to the version that two touch-screens separate separately, can be the touch instruction that a touch-screen can detect any two kinds of patterns.

Step S102, judges whether present instruction is first mode instruction.

In present embodiment, the touch instruction that definition double-mode touch screen can detect has two kinds, is respectively first mode instruction and the second mode instruction.This first mode instruction and the second mode instruction can be arranged in system file, or are arranged voluntarily by user, and then meet user's input habit, thus strengthen Consumer's Experience.

Step S103, if present instruction is first mode instruction, judges whether reference instruction exists.

In full, reference instruction touches instruction with immediate one of present instruction input time before being present instruction.Brief description is as follows:

Reference instruction is input last time and the historical record of the touch instruction be performed, and its record touches instruction, and the instruction of non-multi bar, and it is only used as to carry out contrasting or reference with the touch instruction inputted next time;

Namely reference instruction is initially non-existent, is receiving the touch instruction of Article 1 input and after performing, and the touch instruction of Article 1 input is as with reference to instruction.When receive Article 2 input touch instruction and perform after, so reference instruction be just updated to Article 2 input touch instruction, by that analogy;

Reference instruction can be first mode instruction, also can be the second mode instruction.

Step S104, if reference instruction exists, judges whether reference instruction is the second mode instruction.

Step S105, if reference instruction is the second mode instruction, cancels instruction or END instruction, performs and cancel instruction or END instruction, and perform present instruction for newly-increased one.

Wherein, in step S105, perform and cancel instruction or END instruction and represent the termination that reference instruction input or end, this reference instruction can be considered as ad initio not existing or invalid, namely no longer with reference to instruction as inputting instruction, not performing this reference instruction.It should be noted that newly-increased instruction can not be regarded as present instruction, the touch instruction inputted for obtaining in step S101 is refered in particular in present instruction.In addition, this newly-increased instruction is for cancelling or terminating the execution to reference instruction.

In embodiment of the present invention, under special circumstances, when the touch instruction of first mode instruction and the second mode instruction such as being detected on the touchscreen simultaneously, only obtain the higher touch instruction of priority, in embodiment of the present invention, the touch instruction of priority higher than the second mode instruction of the touch instruction of first mode instruction is set.

Embodiment of the present invention; if present instruction and reference instruction are the touch instruction of different mode respectively; cancel instruction or END instruction for newly-increased one; perform newly-increased instruction; namely no longer with reference to instruction as input instruction, do not perform this reference instruction; and corresponding execution present instruction; therefore; carry out in touch control operation utilizing double-mode touch screen; preferentially can perform a certain mode instruction (in full; refer to the instruction of priority protection first mode), thus effectively can reduce the probability of makeing mistakes that the probability of system fault and user misoperation cause.

Consult Fig. 2, Fig. 2 is the process flow diagram of touch control method second embodiment of double-mode touch screen of the present invention.Touch control method second embodiment of double-mode touch screen of the present invention comprises the steps:

Step S201, obtains a touch instruction inputted.Wherein, this touch instruction is considered as present instruction.

Step S202, judges whether present instruction is first mode instruction.

If present instruction is first mode instruction, enter step S203; If present instruction is the second mode instruction, enter step S209.

Step S203, judges whether reference instruction exists.

If reference instruction exists, enter step S204; If reference instruction does not exist, enter step S207.

Step S204, judges whether reference instruction is the second mode instruction.

It should be noted that, when using for the first time, reference instruction does not exist.

If reference instruction is the second mode instruction, enter step S205; If reference instruction is first mode instruction, enter step S207.

Step S205, cancels instruction or END instruction for newly-increased one.

Step S206, performs newly-increased instruction.Namely perform and cancel instruction or END instruction.

Step S207, performs present instruction.

Step S208, record present instruction, using present instruction as reference instruction next time, and process ends.

Step S209, judges whether reference instruction exists.

If reference instruction exists, enter step S210; If reference instruction does not exist, enter step S207.

Step S210, judges whether reference instruction is first mode instruction.

If reference instruction is first mode instruction, enter step S211; If reference instruction is the second mode instruction, enter step S207.

Step S211, judges whether reference instruction is cancel instruction or END instruction, and judges whether the time interval between reference instruction and present instruction is more than or equal to schedule time length.

Wherein, reference instruction cancels instruction or END instruction to can be regarded as lifting of finger or time writer, namely represents and once touch completing of instruction input, do not do too much description herein.

If reference instruction be cancel instruction or END instruction and between reference instruction and present instruction interval greater than equaling schedule time length, enter step S207; If reference instruction cancels instruction or END instruction and time interval between reference instruction and present instruction is less than schedule time length, process ends.Herein, reference instruction cancels instruction or END instruction and time interval between reference instruction and present instruction is less than schedule time length, process ends, concrete finger: cancel instruction or terminate present instruction, it represents termination or the end of present instruction input, this present instruction can be considered as ad initio not existing or invalid, namely no longer using present instruction as input instruction, do not perform this present instruction.

In above-mentioned steps, when reference instruction is first mode instruction, reference instruction be cancel instruction or the corresponding input that can be understood as reference instruction of END instruction invalid or be not detected.

Wherein, schedule time length can be understood as: the special time period before getting present instruction, the length of this time period can optionally set, it can be such as 1 second, 2 seconds, 3 seconds etc., do not enumerate herein, it can directly be arranged in system file, or is arranged voluntarily by user, to meet the input habit of user.For example, be 10 seconds for schedule time length, if reference instruction occurred in before getting present instruction 10 seconds, then the time interval between reference instruction and present instruction is less than schedule time length.

Embodiment of the present invention, when present instruction is the second mode instruction, by judging whether reference instruction is first mode instruction, if reference instruction is first mode instruction, judge that whether reference instruction is cancel instruction or END instruction further, reference instruction be cancel instruction or END instruction time, judge whether the time interval of reference instruction and present instruction is more than or equal to schedule time length, the time interval between reference instruction and present instruction is when being less than schedule time length, present instruction is not processed, namely cancel or terminate present instruction, the delay function of double-mode touch screen can be realized, it finally reaches and can preferentially perform a certain mode instruction, thus effectively can reduce the probability of makeing mistakes that the probability of system fault and user misoperation cause, and can be user-friendly, strengthen Consumer's Experience.

In above-mentioned embodiment, first mode instruction is electromagnetism instruction, and the second mode instruction is electric capacity instruction; Or first mode instruction is electric capacity instruction, the second mode instruction is electromagnetism instruction.

When first mode instruction be preset as electromagnetism instruction, the second mode instruction be preset as electric capacity instruction time, concrete connected applications, such as:

(1) when user is utilizing time writer to carry out while word writes work, likely hand can first touch touch-screen then time writer touch screen again, also likely hand and time writer touch screen simultaneously, after have employed the scheme of present embodiment, just only can show the person's handwriting that time writer is write, and simultaneously by cancelling, stopping the touch obtaining or terminate hand and produce touch-screen, and then prevent maloperation;

(2) when user writes work utilizing time writer to carry out word, likely can write while think deeply, and when thinking deeply, time writer may leave the scope that touch-screen senses, now, the hand of user may touch touch-screen because of carelessness, in this situation, the hand input of user is erroneous input, after adopting the scheme of present embodiment, owing to adding time Rule of judgment, avoid within certain time period that time writer leaves, the situation of hand erroneous input.

When first mode instruction be preset as electric capacity instruction, the second mode instruction be preset as electromagnetism instruction time, concrete connected applications, such as:

(1) when user utilize finger play games on screen wait operate time, careless time writer also touches screen, after have employed the scheme of present embodiment, just only display can point operation of playing games on screen, and simultaneously by cancelling, stopping the touch obtaining or terminate time writer and produce on the touchscreen, also can maloperation be prevented.

(2) when user to play games etc. in operating process at utilization finger on screen, point exactly so is contact with touch-screen always, when finger frames out certain hour, careless time writer touches touch-screen, and in this situation, the input of time writer is maloperation, after adopting the scheme of present embodiment, owing to adding time Rule of judgment, avoid pointing in certain time period of leaving, the situation of time writer maloperation.

For example, in above-mentioned embodiment, can preset that first mode instruction is electromagnetism instruction, the second mode instruction is electric capacity instruction.Consult Fig. 3, Fig. 3 is the process flow diagram of touch control method the 3rd embodiment of double-mode touch screen of the present invention.Corresponding to the second embodiment of touch control method of the present invention, third embodiment of the invention comprises the steps:

Step S301, obtains a touch instruction inputted.Wherein, this touch instruction is considered as present instruction.

Step S302, judges whether present instruction is electromagnetism instruction.

If present instruction is electromagnetism instruction, enter step S303; If present instruction is electric capacity instruction, enter step S309.

Step S303, judges whether reference instruction exists.

If reference instruction exists, enter step S304; If reference instruction does not exist, enter step S307.

Step S304, judges whether reference instruction is electric capacity instruction.

If reference instruction is electric capacity instruction, enter step S305; If reference instruction is electromagnetism instruction, enter step S307.

Step S305, cancels instruction or END instruction for newly-increased one.

Step S306, performs newly-increased instruction.Namely perform and cancel instruction or END instruction.

Step S307, performs present instruction.

Step S308, record present instruction, using present instruction as reference instruction next time, and process ends.

Step S309, judges whether reference instruction exists.

If reference instruction exists, enter step S310; If reference instruction does not exist, enter step S307.

Step S310, judges whether reference instruction is electromagnetism instruction.

If reference instruction is electromagnetism instruction, enter step S311; If reference instruction is electric capacity instruction, enter step S307.

Step S311, judges whether reference instruction is cancel instruction or END instruction, and judges whether the time interval between reference instruction and present instruction is more than or equal to schedule time length.

If reference instruction be cancel instruction or END instruction and between reference instruction and present instruction interval greater than equaling schedule time length, enter step S307; If reference instruction cancels instruction or END instruction and time interval between reference instruction and present instruction is less than schedule time length, process ends.Herein, reference instruction cancels instruction or END instruction and time interval between reference instruction and present instruction is less than schedule time length, process ends, concrete finger: cancel or terminate present instruction, it represents termination or the end of present instruction input, this present instruction can be considered as ad initio not existing or invalid, namely no longer using present instruction as input instruction, do not perform this present instruction.

In above-mentioned steps, when reference instruction is first mode instruction, reference instruction be cancel instruction or the corresponding input that can be understood as reference instruction of END instruction invalid or be not detected.

In above-mentioned steps, for in the flow process that step S301 to step S307 forms, can be exemplified as: when the finger of user is carrying out finger touch input, time writer is on the way inserted into and carries out touch input, in this case, the touch instruction of cancellation or generation when terminating finger touch input.Further, in an application scenarios, such as user utilizes finger to carry out page turn over operation to the page of notepad application, time writer was inserted into and carried out other input action this time, now, the touch instruction that capacitance plate in double-mode touch screen produces when cancelling or terminate finger touch input, the touch instruction such as, produced when cancelling finger touch input, the action that its corresponding this touch instruction of cancellation is corresponding, namely cancel the action of page turning, application program can cancel the dynamic action of instruction display, reduction page turning according to this.Certainly, each application program is different, and to when the finger of user is carrying out finger touch input, time writer is on the way inserted into and carries out touching the processing mode inputted also can be different, illustrates no longer one by one herein.

And in another case, in the flow process that step S301, step S302 and step S309 are formed to step S311, can be exemplified as: after touch-screen detects that time writer is lost, wherein, the loss of time writer comprises: a, refer to that time writer does not carry out input action, but the scope of this time writer is still in scope; B, refer to that this time writer goes beyond the scope, these two kinds of situations should be mutually: although touch-screen detects that this electromagnetism instruction of electromagnetism instruction is illegal command, or touch-screen does not detect electromagnetism instruction, if touch-screen detects and the electric capacity instruction that finger touching touch-screen produces then does not perform this electric capacity instruction in the given time.Now, because touch-screen likely can detect effective electromagnetism instruction again, in this case, do not perform electric capacity instruction, and then the erroneous input of finger can be prevented.

Embodiment of the present invention, has following beneficial effect:

(1), if present instruction is electromagnetism instruction, when reference instruction is electric capacity instruction, cancels instruction or END instruction, perform newly-increased instruction, and perform present instruction, the effect of priority protection electromagnetism instruction can be played for newly-increased one.

(2) if present instruction is electric capacity instruction; and this reference instruction is cancellation instruction in electromagnetism instruction or END instruction and time interval between this reference instruction and present instruction is less than schedule time length; cancel or terminate present instruction; and wait for detection next time, the effect of priority protection electromagnetism instruction can be played equally.

Wherein, cancel instruction in practice, following effect can be produced: as: user is utilizing hand to send certain instruction (as page turning) to certain application program (as notepad) on the touchscreen, and this application program carries out the Dynamic Announce of page turning according to receiving;

In electric capacity page-turning instruction time-continuing process, touch-screen gets the touch instruction of time writer, and system then sends immediately cancels electric capacity page-turning instruction, after application program receives this electric capacity page-turning instruction, cancel page turning, the page of the page turning of former display is dynamically reduced to the state of non-page turning.

Certainly, in other utilization, because each application program is not identical, the execution of this cancellation instruction is also not quite similar.

The present invention also provides a kind of hand-hold electronic equipments embodiment.

Consult Fig. 4, Fig. 4 is the principle assumption diagram of hand-hold electronic equipments first embodiment of the present invention.Hand-hold electronic equipments first embodiment of the present invention comprises: instruction acquisition module 11, first judge module 12, second judge module 13, the 3rd judge module 14 and command process module 15.

Acquisition module 11, for obtaining a touch instruction inputted on the touchscreen, wherein, is considered as present instruction by touch instruction.The present instruction got sends by this instruction acquisition module 11.

First judge module 12 receives the present instruction that instruction acquisition module 11 sends out, and it is for judging whether present instruction is first mode instruction.Judged result sends by this first judge module 12.

Second judge module 13 receives the judged result that the first judge module 12 sends out, and when it is for judging that obtaining present instruction is first mode instruction at the first judge module 12, judges whether reference instruction exists.Judged result sends by the second judge module 13.

3rd judge module 14 receives the judged result that the second judge module 13 sends out, and when it is for judging that obtaining reference instruction exists at the second judge module 13, judges whether reference instruction is the second mode instruction.Judged result sends by the 3rd judge module 14.

Command process module 15 receives the judged result that the 3rd judge module 14 sends over, when it is for judging that obtaining reference instruction is the second mode instruction at the 3rd judge module 14, perform a newly-increased instruction, wherein, newly-increased instruction is for cancelling instruction or END instruction, perform newly-increased instruction, namely perform and cancel instruction or END instruction, and perform present instruction.

In addition, when the second judge module 13 judges that obtaining reference instruction does not exist or judge that obtaining reference instruction is first mode instruction at the 3rd judge module 14, present instruction is performed by command process module 29.

Embodiment of the present invention, if present instruction and reference instruction are the touch instruction of different mode respectively, cancel instruction or END instruction for newly-increased one, perform newly-increased instruction, namely no longer with reference to instruction as input instruction, do not perform this reference instruction, and corresponding execution present instruction, therefore, utilizing double-mode touch screen to carry out in touch control operation, can preferentially perform a certain mode instruction, thus effectively can reduce the probability of makeing mistakes that the probability of system fault and user misoperation cause.

Consult Fig. 5, Fig. 5 is the principle assumption diagram of hand-hold electronic equipments second embodiment of the present invention.Hand-hold electronic equipments second embodiment of the present invention not only comprises acquisition module 21, first judge module 22, second judge module 23, three judge module 24 and the command process module 25 identical or close with the first embodiment 26S Proteasome Structure and Function, also comprises the 4th judge module 26, the 5th judge module 27, the 6th judge module 28 and instruction memory module 29.Wherein:

4th judge module 26 receives the judged result that the first judge module 22 and the second judge module 23 send out, for first judge module 22 judge obtain present instruction be the second mode instruction and second judge module 23 judge obtain reference instruction exist time, judge whether reference instruction is first mode instruction.Judged result sends by the 4th judge module 26.

5th judge module 27 receives the judged result that the 4th judge module 26 sends out, and during for judging that obtaining reference instruction is first mode instruction at the 4th judge module 26, judges whether reference instruction is cancel instruction or END instruction.Judged result sends by the 5th judge module 27.

6th judge module 28 receives the judged result that the 5th judge module 27 sends out, for judging that at the 5th judge module 27 obtaining reference instruction is, when cancelling instruction or END instruction, judge whether the time interval between reference instruction and present instruction is less than schedule time length.Judged result sends by the 6th judge module 28.

Command process module 25 receives the judged result that the 6th judge module 28 sends over, and also for when the 6th judge module 28 judges that the time interval obtained between reference instruction and present instruction is less than schedule time length, cancels or terminates present instruction; Or also for the 6th judge module 28 judge obtain between reference instruction and present instruction interval greater than when equaling schedule time length, perform present instruction.Command process module 25 sends to the result of instruction.

In addition, the second judge module 23 judge to obtain reference instruction do not exist or the 3rd judge module 24 judge to obtain reference instruction be first mode instruction or judge that to obtain reference instruction be the second schema reference instruction at the 4th judge module 26 time, perform present instruction by command process module 29.

Instruction memory module 29 receives the result that command process module 25 sends out, for after executing present instruction, and record present instruction; Wherein, using present instruction as reference instruction next time.

Embodiment of the present invention, when present instruction is the second mode instruction, by judging whether reference instruction is first mode instruction, if reference instruction is first mode instruction, judge that whether reference instruction is cancel instruction or END instruction further, reference instruction be cancel instruction or END instruction time, judge whether the time interval of reference instruction and present instruction is less than schedule time length, the time interval between reference instruction and present instruction is when being less than schedule time length, present instruction is not processed, namely cancel or terminate present instruction, the delay function of double-mode touch screen can be realized, it finally reaches and can preferentially perform a certain mode instruction, thus effectively can reduce the probability of makeing mistakes that the probability of system fault and user misoperation cause, and can be user-friendly, strengthen Consumer's Experience.

In above-mentioned embodiment, first mode instruction is electromagnetism instruction, and the second mode instruction is electric capacity instruction; Or first mode instruction is electric capacity instruction, the second mode instruction is electromagnetism instruction.This hand-hold electronic equipments can be mobile terminal (as mobile phone), panel computer, PDA, MP3 or MP4.

The present invention also provides another embodiment of a kind of touch control method of double-mode touch screen.

Consult the process flow diagram that Fig. 6 Fig. 6 is another embodiment of the touch control method of double-mode touch screen.Embodiment of the present invention comprises the steps:

Step S401, obtains a touch instruction inputted, is regarded as present instruction.

Step S402, judges whether present instruction is first mode instruction.

Step S403, if present instruction is the second mode instruction, judges whether reference instruction exists.

Step S404, if reference instruction exists, judges whether reference instruction is first mode instruction.

Step S405, if reference instruction is first mode instruction, judges whether reference instruction is cancel instruction or END instruction.

Step S406, if instruction or END instruction are cancelled in reference instruction, judges whether the time interval between reference instruction and present instruction is more than or equal to schedule time length.

Step S407, if the time interval between reference instruction and present instruction is less than schedule time length, cancels or terminates present instruction.

Embodiment of the present invention, when present instruction is the second mode instruction, by judging whether reference instruction is first mode instruction, if reference instruction is first mode instruction, judge that whether reference instruction is cancel instruction or END instruction further, reference instruction be cancel instruction or END instruction time, judge whether the time interval of reference instruction and present instruction is more than or equal to schedule time length, the time interval between reference instruction and present instruction is when being less than schedule time length, present instruction is not processed, namely cancel or terminate present instruction, the delay function of double-mode touch screen can be realized, it finally reaches and can preferentially perform a certain mode instruction, thus effectively can reduce the probability of makeing mistakes that the probability of system fault and user misoperation cause, and can be user-friendly, strengthen Consumer's Experience.

The present invention also provides another embodiment of a kind of hand-hold electronic equipments.

Consult Fig. 7, Fig. 7 is the structural representation of another embodiment of hand-hold electronic equipments of the present invention.Embodiment of the present invention comprises: instruction acquisition module 31, first judge module 32, second judge module 33, the 3rd judge module 34, the 4th judge module 35, the 5th judge module 36 and command process module 37.

Instruction acquisition module 31, for obtaining a touch instruction inputted; Wherein, touch instruction is considered as present instruction;

First judge module 32, for judging whether present instruction is first mode instruction.Judged result sends by the first judge module 32.

Second judge module 33 receives the judged result that the first judge module 32 sends over, and during for judging to obtain present instruction at the first judge module 32 during the second mode instruction, judges whether reference instruction exists.Judged result sends by the second judge module 33.

3rd judge module 34 receives the judged result that the second judge module 33 sends out, and during for judging that obtaining reference instruction exists at the second judge module 33, judges whether reference instruction is first mode instruction.Judged result sends by the 3rd judge module 34.

4th judge module 35 receives the judged result that the 3rd judge module 34 sends out, and during for judging that obtaining reference instruction is first mode instruction at the 3rd judge module 34, judges whether reference instruction is cancel instruction or END instruction.Judged result sends by the 4th judge module 35.

5th judge module 36 receives the judged result that the 4th judge module 35 sends out, for judging that at the 4th judge module 35 obtaining reference instruction is, when cancelling instruction or END instruction, judge whether the time interval between reference instruction and present instruction is less than schedule time length.Judged result sends by the 5th judge module 36.

And command process module 37 receives the judged result that the 5th judge module 36 sends out, for when the 5th judge module 36 judges that the time interval obtained between reference instruction and present instruction is less than schedule time length, cancel or terminate present instruction; Or for the 5th judge module 36 judge obtain between reference instruction and present instruction interval greater than when equaling schedule time length, perform present instruction.Further, the result of handled instruction can send by command process module 37.

In addition, the second judge module 33 is when judging that obtaining reference instruction does not exist or judge that obtaining reference instruction is the second mode instruction at the 3rd judge module 34, and command process module 27 performs present instruction.

Embodiment of the present invention, when present instruction is the second mode instruction, by judging whether reference instruction is first mode instruction, if reference instruction is first mode instruction, judge that whether reference instruction is cancel instruction or END instruction further, reference instruction be cancel instruction or END instruction time, judge whether the time interval of reference instruction and present instruction is less than schedule time length, the time interval between reference instruction and present instruction is when being less than schedule time length, present instruction is not processed, namely cancel or terminate present instruction, the delay function of double-mode touch screen can be realized, it finally reaches and can preferentially perform a certain mode instruction, thus effectively can reduce the probability of makeing mistakes that the probability of system fault and user misoperation cause, and can be user-friendly, strengthen Consumer's Experience.

Consult Fig. 8, Fig. 8 is the structural representation of a hand-hold electronic equipments of the present invention embodiment again.Embodiment of the present invention comprises with Fig. 7 illustrated embodiment 26S Proteasome Structure and Function same or similar: instruction acquisition module 41, first judge module 42, second judge module 43, the 3rd judge module 44, the 4th judge module 45, the 5th judge module 46 and command process module 47, also comprise the 6th judge module 48 and instruction memory module 49.

Wherein, 6th judge module 48 receives the judged result that the first judge module 42 and the second judge module 43 send over, its for first judge module 42 judge obtain present instruction be first mode instruction and second judge module 43 judge obtain reference instruction exist time, judge whether reference instruction is the second mode instruction.

Command process module 47 also receives the judged result sent out of the 6th judge module 48, when it is also for judging that obtaining reference instruction is the second mode instruction at the 6th judge module 48, perform a newly-increased instruction, wherein, newly-increased instruction is for cancelling instruction or END instruction, perform newly-increased instruction, and perform present instruction.

Instruction memory module 49 receives the result of command process module 47 to handled instruction, and it is for after executing present instruction, record present instruction; Wherein, using present instruction as reference instruction next time.

Embodiment of the present invention; if present instruction and reference instruction are the touch instruction of different mode respectively; cancel instruction or END instruction for newly-increased one; perform newly-increased instruction; namely no longer with reference to instruction as input instruction, do not perform this reference instruction; and corresponding execution present instruction; therefore; carry out in touch control operation utilizing double-mode touch screen; preferentially can perform a certain mode instruction (in full; refer to the instruction of priority protection first mode), thus effectively can reduce the probability of makeing mistakes that the probability of system fault and user misoperation cause.

These are only embodiments of the present invention; not thereby the scope of the claims of the present invention is limited; every utilize instructions of the present invention and accompanying drawing content to do equivalent structure or equivalent flow process conversion; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present invention.

Claims (14)

1. a touch control method for double-mode touch screen, is characterized in that, comprises the steps:

Obtain a touch instruction inputted, be regarded as present instruction;

Judge whether described present instruction is first mode instruction;

If described present instruction is first mode instruction, judge whether reference instruction exists, wherein, described reference instruction touches instruction with immediate one of described present instruction input time before being described present instruction;

If described reference instruction exists, judge whether described reference instruction is the second mode instruction;

If described reference instruction is the second mode instruction, cancels instruction or END instruction, perform described newly-increased instruction, and perform described present instruction for newly-increased one.

2. touch control method according to claim 1, is characterized in that,

Judge whether described present instruction is in the step of first mode instruction described, if described present instruction is the second mode instruction, judge whether reference instruction exists;

If described reference instruction exists, judge whether described reference instruction is first mode instruction;

If described reference instruction is first mode instruction, judge whether described reference instruction is cancel instruction or END instruction;

If instruction or END instruction are cancelled in described reference instruction, judge whether the time interval between described reference instruction and described present instruction is more than or equal to schedule time length;

If the time interval between described reference instruction and described present instruction is less than schedule time length, cancels or terminate described present instruction.

3. touch control method according to claim 2, is characterized in that,

Judge whether described reference instruction is cancel instruction or END instruction described, and judge whether the time interval between described reference instruction and described present instruction is more than or equal in the step of schedule time length, if instruction or END instruction are cancelled in described reference instruction, and between described reference instruction and described present instruction interval greater than equaling schedule time length, perform described present instruction.

4. the touch control method according to any one of claim 1-3, is characterized in that,

After the step of the described present instruction of described execution, comprising:

Record described present instruction, using described present instruction as reference instruction next time.

5. touch control method according to claim 4, is characterized in that,

Described first mode instruction is electromagnetism instruction, and described second mode instruction is electric capacity instruction; Or described first mode instruction is electric capacity instruction, described second mode instruction is electromagnetism instruction.

6. a hand-hold electronic equipments, comprises electric capacity and electromagnetic double-mode touch screen, it is characterized in that, comprising:

Instruction acquisition module, for obtaining a touch instruction inputted; Wherein, described touch instruction is considered as present instruction;

First judge module, for judging whether described present instruction is first mode instruction;

Second judge module, for when described present instruction is first mode instruction, judges whether reference instruction exists, and wherein, described reference instruction touches instruction with immediate one of described present instruction input time before being described present instruction;

3rd judge module, for when described reference instruction exists, judges whether described reference instruction is the second mode instruction;

And command process module, for when described reference instruction is the second mode instruction, cancels instruction or END instruction, perform described newly-increased instruction, and perform described present instruction for newly-increased one.

7. hand-hold electronic equipments according to claim 6, is characterized in that,

Described hand-hold electronic equipments comprises the 4th judge module, the 5th judge module and the 6th judge module;

Described 4th judge module, for when described present instruction is the second mode instruction and described reference instruction exists, judges whether described reference instruction is first mode instruction;

Described 5th judge module, for when described reference instruction is first mode instruction, judges whether described reference instruction is cancel instruction or END instruction;

Described 6th judge module, in described reference instruction be cancel instruction or END instruction time, judge whether the time interval between described reference instruction and described present instruction is more than or equal to schedule time length;

Described command process module, when being also less than schedule time length for the time interval between described reference instruction and described present instruction, cancelling or terminates described present instruction; Or also between described reference instruction and described present instruction interval greater than when equaling schedule time length, perform described present instruction.

8. the hand-hold electronic equipments according to any one of claim 6-7, is characterized in that,

Described hand-hold electronic equipments comprises instruction memory module;

Described instruction memory module, for after executing described present instruction, records described present instruction; Wherein, using described present instruction as reference instruction next time.

9. hand-hold electronic equipments according to claim 8, is characterized in that,

Described first mode instruction is electromagnetism instruction, and described second mode instruction is electric capacity instruction; Or described first mode instruction is electric capacity instruction, described second mode instruction is electromagnetism instruction.

10. a touch control method for double-mode touch screen, is characterized in that, comprises the steps:

Obtain a touch instruction inputted, be regarded as present instruction;

Judge whether described present instruction is first mode instruction;

If described present instruction is the second mode instruction, judge whether reference instruction exists, wherein, described reference instruction touches instruction with immediate one of described present instruction input time before being described present instruction;

If described reference instruction exists, judge whether described reference instruction is first mode instruction;

If described reference instruction is first mode instruction, judge whether described reference instruction is cancel instruction or END instruction;

If instruction or END instruction are cancelled in described reference instruction, judge whether the time interval between described reference instruction and described present instruction is less than schedule time length;

If the time interval between described reference instruction and described present instruction is less than schedule time length, cancels or terminate described present instruction.

11. touch control methods according to claim 10, is characterized in that,

Judge whether the time interval between described reference instruction and described present instruction is less than in the step of schedule time length described, if between described reference instruction and described present instruction interval greater than equaling schedule time length, perform described present instruction.

12. touch control methods according to claim 11, is characterized in that,

Judge whether described present instruction is in the step of first mode instruction described, if described present instruction is first mode instruction, judge whether reference instruction exists;

If described reference instruction exists, judge whether described reference instruction is the second mode instruction;

If described reference instruction is the second mode instruction, cancels instruction or END instruction, perform described newly-increased instruction, and perform described present instruction for newly-increased one.

13. 1 kinds of hand-hold electronic equipments, comprise electric capacity and electromagnetic double-mode touch screen, it is characterized in that, comprising:

Instruction acquisition module, for obtaining a touch instruction inputted; Wherein, described touch instruction is considered as present instruction;

First judge module, for judging whether described present instruction is first mode instruction;

Second judge module, for when described present instruction is the second mode instruction, judges whether reference instruction exists, and wherein, described reference instruction touches instruction with immediate one of described present instruction input time before being described present instruction;

3rd judge module, for when described reference instruction exists, judges whether described reference instruction is first mode instruction;

4th judge module, for when described reference instruction is first mode instruction, judges whether described reference instruction is cancel instruction or END instruction;

5th judge module, in described reference instruction be cancel instruction or END instruction time, judge whether the time interval between described reference instruction and described present instruction is less than schedule time length;

And command process module, when being less than schedule time length for the time interval between described reference instruction and described present instruction, cancelling or terminate described present instruction; Or between described reference instruction and described present instruction interval greater than when equaling schedule time length, perform described present instruction.

14. hand-hold electronic equipments according to claim 13, is characterized in that,

Described hand-hold electronic equipments comprises the 6th judge module;

Described 6th judge module, for when described present instruction is first mode instruction and described reference instruction exists, judges whether described reference instruction is the second mode instruction;

Described command process module, also for when described reference instruction is the second mode instruction, cancels instruction or END instruction, performs described newly-increased instruction, and perform described present instruction for newly-increased one.