CN103914245A - Control method and device of electronic device - Google Patents

Abstract

The invention provides a control method and a control device of an electronic device, which are used for the electronic device comprising a touch screen. The method comprises the steps that when the electronic device is in a first state, a plurality of first-class sub-images are displayed on the touch screen at an original angle, and the first-class sub-images form a first operation picture in the first state. The method further comprises detecting a sliding operation applied to the touch screen and turning at least one of the first class sub-images according to the sliding operation. The method further comprises the step of turning all the first-type sub-images to the maximum angle to display a second operation picture of the second state of the electronic device when the sliding operation conforms to the specific gesture, and switching the electronic device from the first state to the second state.

Description

The control method of electronic installation and device

Technical field

The invention relates to a kind of control method and device of electronic installation, and relate to especially a kind of control and have control method and the device of the electronic installation of Touch Screen.

Background technology

Along with progressing greatly of touch technology, many electronic products have changed into and have used touch control component as input media.For instance, the action electronic device taking portability as main demand limits to some extent to device volume mostly, and utilizes Touch Screen as input-output device, not only can save the needed space of physical keyboard, also can increase picture disply size simultaneously.

But cause electronic installation surprisingly to carry out some function for fear of user's false touch touching screen, user can be not needing to be switched to lock state of screen when electronic installation is operated, and electronic installation also can automatically switch to lock state of screen during call for example or under the use situation such as be idle for too long.Can avoid thus user inadvertently to touch touching screen and cause maloperation.Thereafter use when electronic installation at actual needs, user must carry out specific unlocking operation and make the electronic installation lock-out state that frames out.Be not difficult to infer, user often need to switch to electronic installation different states during use, therefore how to provide more intuitively and easily mode of operation be one of manufacturer's important topic in the time of development.

Summary of the invention

In view of this, the invention provides a kind of control method and device of electronic installation, person easy to use is switched the state of electronic installation.

The control method of electronic installation of the present invention is applicable to comprise the electronic installation of Touch Screen.The method comprises when electronic installation is during in the first state, and show that with original angle multiple first kind subgraphs are in Touch Screen, above-mentioned first kind subgraph forms the first operation screen of the first state.The method also comprises detecting and imposes on the slide of Touch Screen, and according to slide overturn above-mentioned first kind subgraph at least one of them.The method also comprises in the time that slide meets certain gestures, all first kind subgraphs is all turn to second operation screen of maximum angle with the second state of display electronics assemblies, and electronic installation is switched to the second state by the first state.

The control device of electronic installation of the present invention is applicable to comprise the electronic installation of Touch Screen.Control device comprises picture disply module, detection module, flip module and handover module.Picture disply module, in order to when electronic installation is during in the first state, shows that with original angle multiple first kind subgraphs are in Touch Screen, and wherein all first kind subgraphs form the first operation screen of the first state.Detection module is in order to detect the slide that imposes on Touch Screen.Flip module in order to the above-mentioned first kind subgraph that overturns according to slide at least one of them.Handover module, in order in the time that slide meets certain gestures, all turn to second operation screen of maximum angle with the second state of display electronics assemblies by all first kind subgraphs, and electronic installation is switched to the second state by the first state.

Based on above-mentioned, the control method of a kind of electronic installation of the present invention is switched the state of electronic installation with the gesture that device can impose on Touch Screen according to user, and in handoff procedure, presents the operation screen of different conditions.Accordingly, can allow the operation screen of user's another state of preview during switching state.

For above-mentioned feature and advantage of the present invention can be become apparent, special embodiment below, and shown in coordinating, accompanying drawing is described in detail below.

Brief description of the drawings

Fig. 1 is the schematic diagram of the electronic installation that illustrates according to one embodiment of the invention;

Fig. 2 is the calcspar of the control device that illustrates according to one embodiment of the invention;

Fig. 3 is the process flow diagram of the control method that illustrates according to one embodiment of the invention;

Fig. 4 A is the vertical view of the first kind subgraph that illustrates according to one embodiment of the invention;

Fig. 4 B, 4C, 4D are the side views of the first kind subgraph that illustrates according to one embodiment of the invention;

Fig. 5 is the schematic diagram that the Touch Screen that illustrates according to one embodiment of the invention shows first kind subgraph;

Fig. 6 is the first kind subgraph that illustrates according to one embodiment of the invention and the schematic diagram of rotating shaft and start direction thereof;

Fig. 7 A to 7G is the schematic diagram of the control method that illustrates according to one embodiment of the invention;

Fig. 8 A to 8G is the schematic diagram of the control method that illustrates according to another embodiment of the present invention;

Fig. 9 A to 9G is the schematic diagram of the control method that illustrates according to further embodiment of this invention.

Description of reference numerals:

100: electronic installation;

11: Touch Screen;

12: control device;

121: picture disply module;

123: detection module;

125: flip module;

127: handover module;

S310～S370: each step of the control method described in one embodiment of the invention;

40, A1～A12, A: first kind subgraph;

45: rotating shaft;

D41: first direction;

D42: second direction;

S1: first surface;

S2: second surface;

I: reference position;

O, 75,85,95: representative point;

X1, X2, X5, X6: diagonal line;

D1, D2, D5, D6: start direction;

70,80,90: hand;

C1, C2, C3: benchmark circumference;

B: Equations of The Second Kind subgraph.

Embodiment

Fig. 1 is the schematic diagram of the electronic installation that illustrates according to one embodiment of the invention.Please refer to Fig. 1, the electronic installation 100 of the present embodiment is for example mobile phone, smart mobile phone, personal digital assistant, panel computer, game machine, or e-book, does not limit its kind at this.Electronic installation 100 comprises Touch Screen 11 and control device 12.

Touch Screen 11 is for example resistance touch screen, capacitance touch control screen, optical touch control screen, or ultrasonic formula Touch Screen, does not limit its kind at this.Touch Screen 11 is in order to receive user's touching operation, and the various operation screen of display electronics assemblies 100.

Control device 12 is for example software or the hardware unit being configured in electronic installation 100, switches between different conditions in order to identify the received touching operation of Touch Screen 11 and to control according to this electronic installation 100.

Internals and the function of the control device 12 of above-described embodiment are described with Fig. 2 below.As shown in Figure 2, control device 12 comprises picture disply module 121, detection module 123, flip module 125, and handover module 127.Above-mentioned module is for example the hardware unit with logic circuit component composition, and carries out the state switching performance of electronic installation 100; Above-mentioned module can be also the program being stored in the storage medium of electronic installation 100, and it can be written into the processor of electronic installation 100, and carries out the state switching performance of electronic installation 100, does not limit at this.

Fig. 3 is the process flow diagram of the control method that illustrates according to one embodiment of the invention.Referring to Fig. 1 to Fig. 3, the method for the present embodiment is applicable to above-mentioned control device 12, below arrange in pairs or groups each member of control device 12 detailed step of the control method of the present embodiment is described.In the present embodiment, electronic installation 100 at least has the first state and the second state, and wherein the first state is for example lock state of screen, and the second state is for example unlocking screen state.

First as shown in step S310, when electronic installation 100 is during in the first state, picture disply module 121 shows that with original angle multiple first kind subgraphs are in Touch Screen 11, and above-mentioned first kind subgraph forms the first operation screen of the first state.In the present embodiment, each first kind subgraph all can overturn along a rotating shaft, and original angle refers to corresponding angle while not being reversed.Fig. 4 A is the vertical view of the first kind subgraph that illustrates according to one embodiment of the invention, supposes that first kind subgraph 40 is for square, and it can be along rotating shaft 45 towards first direction D41 or second direction D42 upset.With the side view of the first kind subgraph 40 shown in Fig. 4 B to 4C, the situation that first kind subgraph 40 overturns along rotating shaft 45 towards first direction D41 is described below.Fig. 4 B is the state of first kind subgraph 40 while being not yet reversed, and wherein upwards and second surface S2 is downward, now first kind subgraph 40 is to show with original angle to first surface S1, below original angle is defined as to 0 degree.First kind subgraph 40 after turning over along rotating shaft 45 towards first direction D41 and turning 90 degrees as shown in Figure 4 C, first surface S1 to the right and second surface S2 left.First kind subgraph 40 turns over along rotating shaft 45 towards first direction D41 after turnback as shown in Figure 4 D, first surface S1 downwards and second surface S2 upwards.Although the present embodiment is to describe as an example of rotating shaft 45 and first direction D41 example, so this is only the example of enumerating in order to illustrate, not in order to limit the scope of the invention.

Then in step S320, detection module 123 detects the slide that imposes on Touch Screen 11, and as shown in step S330, flip module 125 is according to the first kind subgraph of slide flip portion.Specifically, flip module 125 is selected one or more first kind subgraph from all first kind subgraphs, and makes selected first kind subgraph overturn in original place, or makes selected first kind subgraph also outwards move in upset.Below illustrate that flip module 125 is according to the detailed embodiment of slide flip portion first kind subgraph.

In one embodiment, first flip module 125 determines to represent on Touch Screen 11 representative point of the reference position of slide.Wherein, flip module 125 is that the boundary intersection that approaches the first kind subgraph of reference position most comes as representative point.Taking Fig. 5 as example, suppose that Touch Screen 11 shows 12 first kind subgraph A1 to A12, because the reference position I of slide approaches the point of crossing that the border of first kind subgraph A1, A2, A5 and A6 forms most, therefore this point of crossing is defined as representative point O by flip module 125.

Then, flip module 125, according to the displacement of slide and representative point, is selected multiple first kind subgraphs to be turned in all first kind subgraphs.Particularly, relative distance between flip module 125 each first kind subgraph of calculating and representative point (for example, air line distance between central point and the representative point of first kind subgraph), and obtain the displacement of slide with respect to representative point, in all first kind subgraphs, select according to this first kind subgraph that corresponding relative distance is no more than displacement as first kind subgraph to be turned.

In the present embodiment, flip module 125 order and representative point have same distance need to be turned first kind subgraph and overturn with identical angle in original place.In detail, for each first kind subgraph to be turned, flip module 125 is calculated its flip angle according to slide with respect to the relative distance between the displacement of representative point, first kind subgraph to be turned and representative point and the first default constant.For instance, flip module 125 is for example to calculate the respectively flip angle A of first kind subgraph to be turned with following formula (1):

A=(R-D)×C ₁(1)

Wherein, displacement that R is slide, D be the relative distance between first kind subgraph and representative point for this reason, C ₁be the first default constant (for example 0.5, but the present invention is not as limit).In addition,, for each first kind subgraph to be turned, flip module 125 also decides rotating shaft and the start direction of first kind subgraph to be turned according to the relative position of first kind subgraph to be turned and representative point.The first kind subgraph of the present embodiment is square, flip module 125 can arbitrary diagonal line as the rotating shaft of first kind subgraph to be turned.For instance, in two diagonal line of each first kind subgraph to be turned, even if flip module 125 is used as its rotating shaft by selecting the diagonal line that infinitely extension can be not crossing with representative point yet.Start direction is perpendicular to rotating shaft and the outside direction away from representative point.Taking Fig. 6 as example, after definite representative point O, suppose that first kind subgraph A1, A2, A5, A6 are chosen as first kind subgraph to be turned.Taking first kind subgraph A1 as example, flip module 125 with the diagonal line X1 of first kind subgraph A1 as its rotating shaft, and definition start direction D1.Taking first kind subgraph A2 as example, flip module 125 with the diagonal line X2 of first kind subgraph A2 as its rotating shaft, and definition start direction D2.Taking first kind subgraph A5 as example, flip module 125 with the diagonal line X5 of first kind subgraph A5 as its rotating shaft, and definition start direction D5.Taking first kind subgraph A6 as example, flip module 125 with the diagonal line X6 of first kind subgraph A6 as its rotating shaft, and definition start direction D6.As shown in Figure 6, diagonal line X1, the X2, X5, the X6 that are chosen as rotating shaft are not crossing with representative point O after extension yet, and start direction D1, D2, D5, D6 are perpendicular to its corresponding rotating shaft and outwards away from representative point O.

For each first kind subgraph to be turned, flip module 125 judges whether the flip angle that utilizes above-mentioned formula (1) to calculate exceedes maximum angle.In the present embodiment, maximum angle is 180 degree.In the time that flip angle is no more than maximum angle, flip module 125 makes first kind subgraph to be turned along its rotating shaft and towards its start direction upset flip angle.But in the time that flip angle exceedes maximum angle, flip module 125 makes first kind subgraph to be turned along rotating shaft and towards start direction upset maximum angle.

In another embodiment, flip module 125 is being selected after turning first kind subgraph, the institute between order and representative point with same distance needs to be turned first kind subgraph overturn with identical angle when, also can make have between representative point same distance need to be turned first kind subgraph and move identical distance towards its corresponding start direction.Also the institute that, flip module 125 order and representative point have a same distance needs to be turned first kind subgraph with the identical angle also outside mobile same distance of overturning.

Specifically, for each first kind subgraph to be turned, flip module 125 is preset its flip angle of constant calculations according to slide with respect to the relative distance between the displacement of representative point, first kind subgraph to be turned and representative point and first, and decide rotating shaft and the start direction of first kind subgraph to be turned according to the relative position of first kind subgraph to be turned and representative point, because account form and the rotating shaft of flip angle are similar to previous embodiment to the deciding means of start direction, therefore do not repeat them here.In the present embodiment, flip module 125 also can according to displacement, relative distance and the second default constant calculations respectively first kind subgraph to be turned outset from.For instance, flip module 125 be for example calculate each first kind subgraph to be turned with following formula (2) outset from Dm:

Dm=(R-D)×C ₂(2)

Wherein, displacement that R is slide, D be the relative distance between first kind subgraph and representative point for this reason, C ₂be the second default constant (for example 0.3, but the present invention is not as limit).

For each first kind subgraph to be turned, flip module 125 judges whether its flip angle exceedes maximum angle.In the present embodiment, maximum angle is 90 degree.In the time that its flip angle is no more than maximum angle, flip module 125 make first kind subgraph to be turned along rotating shaft and towards start direction upset flip angle and mobile outset from.And in the time that flip angle exceedes maximum angle, flip module 125 make first kind subgraph to be turned along rotating shaft and towards start direction upset maximum angle and mobile outset from.

Then go back to the step S340 of Fig. 3, handover module 127 judges whether slide meets certain gestures.In one embodiment, the reference position of slide can be the optional position on Touch Screen 11, and as long as when the displacement of slide arrives a preset value, handover module 127 just judges that slide meets certain gestures.Wherein, preset value is for example 200 pixels, but the present invention is not limited to this.In another embodiment, the specific region that handover module 127 is positioned at Touch Screen 11 in the reference position of slide (for example, show that a state switches illustrated region) in and the displacement of slide while arriving preset value, just judge that slide meets certain gestures.

If handover module 127 is judged slide and is not yet met at present certain gestures, to follow as shown in step S350, handover module 127 judges whether slide finishes.If slide not yet finishes, the flow process of the present embodiment will be got back to step S330.

If slide finishes, as shown in step S360, flip module 125 is all first kind subgraphs that overturn according to the slide original angle of overturning back, and makes electronic installation 100 maintain the first state.That is to say, flip module 125 by all first kind sub-picture restorings to the state that is not reversed, with the first operation screen of the first state of display electronics assemblies 100.

If handover module 127 is judged slide and has been met certain gestures, as shown in step S370, all first kind subgraphs are all turn to second operation screen of maximum angle with the second state of display electronics assemblies 100 by handover module 127, and electronic installation 100 is switched to the second state by the first state.

In one embodiment, the second operation screen is made up of several Equations of The Second Kind subgraphs, and has one between first kind subgraph and Equations of The Second Kind subgraph.Furthermore, the back side of each first kind subgraph is corresponding Equations of The Second Kind subgraph.And handover module 127 is all first kind subgraphs all being turn to maximum angle when showing the second operation screen, is that each first kind subgraph is turn to the back side to show corresponding Equations of The Second Kind subgraph.

In another embodiment, met certain gestures once handover module 127 is judged slide, handover module 127 shows a state switch prompting effect in the reference position of slide.For instance, state switch prompting effect can be that halation, state switch diagram, text prompt, animation prompting etc.By state switch prompting effect can allow user find electronic installation 100 be in state switch process in.

In another embodiment, when electronic installation 100 is during in the first state, the first operation screen covers the top of the second operation screen completely.And handover module 127 is all first kind subgraphs all being turn to maximum angle when showing the second operation screen, is to make each first kind subgraph in the time being flipped to maximum angle, disappear to expose the second operation screen that is positioned at the first operation screen lower floor.

With several embodiment, the situation that electronic installation 100 carries out state switching in response to control device 12 is described below.

Fig. 7 A to 7G is the schematic diagram of the control method that illustrates according to one embodiment of the invention.First as shown in Figure 7 A,, when electronic installation 100 is during in the first state, Touch Screen 11 shows multiple first kind subgraph A of the first operation screen that forms the first states.In the present embodiment, the back side of each first kind subgraph A is corresponding Equations of The Second Kind subgraph B, and all Equations of The Second Kind subgraph B form the second operation screen of the second state of electronic installation 100.User touches after Touch Screen 11 with hand 70, forms a slide if move hand 70 towards lower right, as shown in Figure 7 B, has 16 first kind subgraph A to be reversed according to slide.Wherein, the first kind subgraph A that has a same distance with the representative point 75 of reference position that represents slide is with identical angle upset.In detail, along with the displacement of slide increases, also constantly expand outwardly as the benchmark circumference in the center of circle with representative point 75.And four first kind subgraph A that central point is positioned on benchmark circumference C1 have identical flip angle, eight first kind subgraph A that central point is positioned on benchmark circumference C2 have identical flip angle, and four first kind subgraph A that central point is positioned on benchmark circumference C3 have identical flip angle.

As shown in Fig. 7 C, in the situation that slide not yet stops, have A(32 first kind subgraph A of more first kind subgraph) be reversed according to slide.Similarly, the first kind subgraph A that has a same distance with representative point 75 is with identical angle upset.If now (the displacement of slide has arrived preset value, slide meets certain gestures) and user by hand 70 by removing on Touch Screen 11, then as shown in Fig. 7 D to 7G, other first kind subgraphs A being not yet reversed will (for example be flipped to maximum angle automatically, 180 degree) to show multiple Equations of The Second Kind subgraph B of the second operation screen of the second state that forms electronic installation 100, and electronic installation 100 is switched to the second state.In the present embodiment, after slide meets certain gestures, benchmark circumference still expands outwardly gradually, can be reversed as corresponding Equations of The Second Kind subgraph B and central point is positioned at the first kind subgraph A of same datum circumference simultaneously.

Fig. 8 A to 8G is the schematic diagram of the control method that illustrates according to another embodiment of the present invention.First as shown in Figure 8 A,, when electronic installation 100 is during in the first state, Touch Screen 11 shows multiple first kind subgraph A of the first operation screen that forms the first states.In the present embodiment, the back side of each first kind subgraph A is corresponding Equations of The Second Kind subgraph B, and all Equations of The Second Kind subgraph B form the second operation screen of the second state of electronic installation 100.User touches after Touch Screen 11 with hand 80, forms a slide if move hand 80 towards lower right, as shown in Figure 8 B, has 16 first kind subgraph A to be reversed according to slide.Similar to previous embodiment, the first kind subgraph A that has a same distance with the representative point 85 of reference position that represents slide is in the present embodiment with identical angle upset.

As shown in Figure 8 C, in the situation that slide not yet stops, have A(32 first kind subgraph A of more first kind subgraph) be reversed according to slide.Suppose that now the displacement of slide has arrived preset value (that is, slide meets certain gestures), electronic installation 100 shows that at representative point 85 halation is as state switch prompting effect.Even if thereafter user by hand 80 by removing on Touch Screen 11, as shown in Fig. 8 D to 8G, other first kind subgraphs A being not yet reversed will (for example be flipped to maximum angle automatically, 180 degree) to show multiple Equations of The Second Kind subgraph B of the second operation screen of the second state that forms electronic installation 100, and electronic installation 100 is switched to the second state.Because upset mode is similar to previous embodiment, therefore do not repeat them here.

Fig. 9 A to 9G is the schematic diagram of the control method that illustrates according to further embodiment of this invention.First as shown in Figure 9 A,, when electronic installation 100 is during in the first state, Touch Screen 11 shows multiple first kind subgraph A of the first operation screen that forms the first states.Now the first operation screen covers the top of the second operation screen of electronic installation 100 completely, and the second operation screen is made up of several Equations of The Second Kind subgraph B.User touches after Touch Screen 11 with hand 90, forms a slide if move hand 90 towards lower right, as shown in Figure 9 B, has 16 first kind subgraph A to be reversed and outwards to move according to slide.In the present embodiment, the first kind subgraph A with the representative point 95 of reference position that represents slide with same distance is with identical angle upset, and towards the outer phase shift same distance of the direction away from representative point 95.First kind subgraph A just can show the Equations of The Second Kind subgraph B that coating originally covers after being reversed and outwards moving.

As shown in Figure 9 C, in the situation that slide not yet stops, have A(32 first kind subgraph A of more first kind subgraph) be reversed according to slide and move outward.Suppose that now (the displacement of slide has arrived preset value, slide meets certain gestures), even if user by hand 90 by removing on Touch Screen 11, then as shown in Fig. 9 D to 9G, other first kind subgraphs A being not yet reversed will automatically be reversed and move outward, wherein for example, being flipped to maximum angle (, 90 degree), in time, can disappear each first kind subgraph, and electronic installation 100 is switched to the second state.

In sum, the control method of electronic installation of the present invention provides a kind of more directly perceived and interesting state switching mode with device, is convenient to allow user switch the state of electronic installation by Touch Screen.And in the process that the control method of electronic installation of the present invention and device switch at state, present special conversion effect, the operation screen of the state after so can allowing user's first preview when state switches switch.

Finally it should be noted that: above each embodiment, only in order to technical scheme of the present invention to be described, is not intended to limit; Although the present invention is had been described in detail with reference to aforementioned each embodiment, those of ordinary skill in the art is to be understood that: its technical scheme that still can record aforementioned each embodiment is modified, or some or all of technical characterictic is wherein equal to replacement; And these amendments or replacement do not make the essence of appropriate technical solution depart from the scope of various embodiments of the present invention technical scheme.

Claims (15)

1. a control method for electronic installation, is characterized in that, for comprising an electronic installation of a Touch Screen, the method comprises:

When this electronic installation is during in first state, show that with an original angle multiple first kind subgraphs are in this Touch Screen, wherein those first kind subgraphs form one first operation screen of this first state;

Detection imposes on a slide of this Touch Screen;

According to this slide overturn those first kind subgraphs at least one of them; And

In the time that this slide meets a certain gestures, those first kind subgraphs are all turn to a maximum angle to show one second operation screen of one second state of this electronic installation, and this electronic installation is switched to this second state by this first state.

2. method according to claim 1, is characterized in that, comprises according to overturn at least one of them the step of those first kind subgraphs of this slide:

Determine to represent on this Touch Screen a representative point of a reference position of this slide;

According to a displacement of this slide and this representative point, in those first kind subgraphs, select multiple first kind subgraphs to be turned; And

In those first kind subgraphs to be turned, order identical with distance between this representative point need to be turned first kind subgraph and overturn with identical angle.

3. method according to claim 2, is characterized in that, according to this displacement of this slide and this representative point, the step of selecting those first kind subgraphs to be turned in those first kind subgraphs comprises:

Calculate the relative distance between each those first kind subgraph and this representative point;

Obtain this slide this displacement with respect to this representative point; And

In those first kind subgraphs, select first kind subgraph that corresponding this relative distance is no more than this displacement as those first kind subgraphs to be turned.

4. method according to claim 3, is characterized in that, in those first kind subgraphs to be turned, order identical with distance between this representative point need to be turned the step that first kind subgraph overturns with identical angle and comprise:

Those first kind subgraphs to be turned for each, according to this displacement, this relative distance and one first default constant calculations one flip angle, and determine a rotating shaft and a start direction according to a relative position of this first kind subgraph to be turned and this representative point;

In the time that this flip angle is no more than this maximum angle, make this first kind subgraph to be turned along this rotating shaft and towards this start direction this flip angle that overturns; And

In the time that this flip angle exceedes this maximum angle, make this first kind subgraph to be turned along this rotating shaft and towards this start direction this maximum angle that overturns.

5. method according to claim 2, is characterized in that, order identical with distance between this representative point need to be turned the step that first kind subgraph overturns with identical angle and comprise:

Those first kind subgraphs to be turned for each, according to this displacement, this relative distance and one first default constant calculations one flip angle, according to this displacement, this relative distance and one second default constant calculations one outset from, and determine a rotating shaft and a start direction according to a relative position of this first kind subgraph to be turned and this representative point;

In the time that this flip angle is no more than this maximum angle, make this first kind subgraph to be turned along this rotating shaft and towards this start direction overturn this flip angle and mobile this outset from; And

In the time that this flip angle exceedes this maximum angle, make this first kind subgraph to be turned along this rotating shaft and towards this start direction overturn this maximum angle and mobile this outset from.

6. method according to claim 1, it is characterized in that, this second operation screen is made up of multiple Equations of The Second Kind subgraphs, those first kind subgraphs and those Equations of The Second Kind subgraphs have one, and the back side of each those first kind subgraph is corresponding Equations of The Second Kind subgraph, and all being turn to this maximum angle, those first kind subgraphs comprise with the step of this second operation screen of this second state of showing this electronic installation:

Those first kind subgraphs are turn to the back side to show corresponding Equations of The Second Kind subgraph.

7. method according to claim 1, it is characterized in that, when this electronic installation is during in this first state, this the first operation screen covers the top of this second operation screen completely, comprises with the step of this second operation screen of this second state of showing this electronic installation and those first kind subgraphs are all turn to this maximum angle:

Make those first kind subgraphs in the time being flipped to this maximum angle, disappear to show this second operation screen.

8. a control device for electronic installation, is characterized in that, for comprising an electronic installation of a Touch Screen, comprising:

One picture disply module, when this electronic installation is during in first state, shows that with an original angle multiple first kind subgraphs are in this Touch Screen, and wherein those first kind subgraphs form one first operation screen of this first state;

One detection module, detects a slide that imposes on this Touch Screen;

One flip module, according to this slide overturn those first kind subgraphs at least one of them; And

One handover module, in the time that this slide meets a certain gestures, those first kind subgraphs are all flipped to a maximum angle to show one second operation screen of one second state of this electronic installation, and this electronic installation is switched to this second state by this first state.

9. control device according to claim 8, it is characterized in that, this flip module determines to represent on this Touch Screen a representative point of a reference position of this slide, according to a displacement of this slide and this representative point, in those first kind subgraphs, select multiple first kind subgraphs to be turned, and in those first kind subgraphs to be turned, order identical with distance between this representative point need to be turned first kind subgraph and overturn with identical angle.

10. control device according to claim 9, it is characterized in that, this flip module is calculated the relative distance between each those first kind subgraph and this representative point, obtain this slide this displacement with respect to this representative point, and in those first kind subgraphs, select first kind subgraph that corresponding this relative distance is no more than this displacement as those first kind subgraphs to be turned.

11. control device according to claim 10, it is characterized in that, this flip module is those first kind subgraphs to be turned for each, according to this displacement, this relative distance and one first default constant calculations one flip angle, and determine a rotating shaft and a start direction according to a relative position of this first kind subgraph to be turned and this representative point

In the time that this flip angle is no more than this maximum angle, make this first kind subgraph to be turned along this rotating shaft and towards this start direction this flip angle that overturns, and in the time that this flip angle exceedes this maximum angle, make this first kind subgraph to be turned along this rotating shaft and towards this start direction this maximum angle that overturns.

12. control device according to claim 9, it is characterized in that, the institute that this flip module is identical with distance between this representative point in order needs to be turned first kind subgraph while overturning with identical angle, also comprise make the distance between this representative point identical need to be turned first kind subgraph and move identical distance towards a start direction.

13. control device according to claim 12, it is characterized in that, this flip module is those first kind subgraphs to be turned for each, according to this displacement, this relative distance and one first default constant calculations one flip angle, according to this displacement, this relative distance and one second default constant calculations one outset from, and determine a rotating shaft and this start direction according to a relative position of this first kind subgraph to be turned and this representative point

In the time that this flip angle is no more than this maximum angle, make this first kind subgraph to be turned along this rotating shaft and towards this start direction overturn this flip angle and mobile this outset from, and in the time that this flip angle exceedes this maximum angle, make this first kind subgraph to be turned along this rotating shaft and towards this start direction overturn this maximum angle and mobile this outset from.

14. control device according to claim 8, it is characterized in that, this second operation screen is made up of multiple Equations of The Second Kind subgraphs, those first kind subgraphs and those Equations of The Second Kind subgraphs have one, and the back side of each those first kind subgraph is corresponding Equations of The Second Kind subgraph, and this handover module is those first kind subgraphs all being turn to this maximum angle when showing this second operation screen of this second state of this electronic installation, is that those first kind subgraphs are turn to the back side to show corresponding Equations of The Second Kind subgraph.

15. control device according to claim 8, it is characterized in that, when this electronic installation is during in this first state, this the first operation screen covers the top of this second operation screen completely, and this handover module is those first kind subgraphs all being turn to this maximum angle when showing this second operation screen of this second state of this electronic installation, is to make those first kind subgraphs in the time being flipped to this maximum angle, disappear to show this second operation screen.