CN103870176B

CN103870176B - A kind of control method and electronic equipment

Info

Publication number: CN103870176B
Application number: CN201210534000.0A
Authority: CN
Inventors: 张晓平; 李欣; 孟广博
Original assignee: Lenovo Beijing Ltd
Current assignee: Lenovo Beijing Ltd
Priority date: 2012-12-11
Filing date: 2012-12-11
Publication date: 2016-12-28
Anticipated expiration: 2032-12-11
Also published as: CN103870176A

Abstract

The invention discloses a kind of control method and electronic equipment, described control method, it is applied to the first electronic equipment, described first electronic equipment and the second electronic device data connect, described first electronic equipment includes that touch sensing unit, described method include: detect and obtain the first slide of the first area on described touch sensing unit surface；Determine the first glide direction corresponding to described first slide；Based on the corresponding relation between glide direction and control instruction, determine the first control instruction corresponding to described first glide direction；Described first control instruction is sent to described second electronic equipment, so that described second electronic equipment can realize the first function by performing described first control instruction.

Description

A kind of control method and electronic equipment

Technical field

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

Background technology

Along with the development of electronic technology, create increasing electronic equipment, such as: intelligent television, panel computer, hands Machine etc..And along with the development of intelligent television, the control mode of its correspondence also gets more and more, such as: by key control, voice control System, Pad control etc..

Wherein, when using Pad that intelligent television is controlled, it is common that press based on some shown by Pad on are virtual Intelligent television is controlled by key.

Present inventor, during realizing the embodiment of the present application technical scheme, at least finds to exist in prior art Following technical problem:

Due in the prior art, use Pad intelligent television is controlled time, be based on Pad above virtual by Key is controlled, and does not has physical button, and then causes user can not determine that the control corresponding to each button refers to sense of touch Order, so easily producing the operation of mistake, and then causes Pad to produce the control instruction of mistake, so, prior art also exists Intelligent television is controlled not accurate enough technical problem.

Summary of the invention

The embodiment of the present invention provides a kind of method controlling electronic equipment and mobile terminal, and it is right to be used for solving in prior art Intelligent television control not accurate enough technical problem.

On the one hand, the application is by an embodiment following technical scheme of offer:

A kind of control method, is applied to the first electronic equipment, described first electronic equipment and the second electronic device data even Connecing, described first electronic equipment includes that touch sensing unit, described method include:

Detect and obtain the first slide of the first area on described touch sensing unit surface；

Determine the first glide direction corresponding to described first slide；

Based on the corresponding relation between glide direction and control instruction, determine first corresponding to described first glide direction Control instruction；

Described first control instruction is sent to described second electronic equipment, so that described second electronic equipment can pass through Perform described first control instruction and realize the first function.

Optionally, described first area includes based on the L-1 bar dividing line paralleled with described first glide direction institute Stating first area to carry out dividing obtained L sub regions, L is the integer more than or equal to 2；Described first slide is: The slide that arbitrary subregion in described L sub regions is carried out.

Optionally, when described touch sensing unit includes N number of region, when wherein N is the integer more than or equal to 2, described base Corresponding relation between glide direction and control instruction, determines the first control instruction corresponding to described first glide direction, Specifically include:

Based on the corresponding relation between region and instruction set, determine the first instruction set corresponding to described first area；

Based on the corresponding relation between glide direction and control instruction, from described first instruction set, determine that described first is sliding Dynamic described first control instruction corresponding to direction.

Optionally, the induction region stating touch sensing unit is rectangular area, and described rectangular area includes 2 long limits and 2 Bar minor face, wherein, by using the N-1 bar dividing line vertical with described 2 long limits, is divided into institute by described touch sensing unit State N number of region.

Optionally, described electronic equipment also includes that display unit, described display unit and described touch sensing unit are overlapping Arranging, described display unit shows M virtual key, and M is the integer more than or equal to 1；

Wherein, described touch sensing unit can respond i-th to the i-th virtual key in described M virtual key Touch operation, generates and the control instruction for controlling described electronic equipment corresponding to described i-th virtual key, wherein, M For the integer more than or equal to 1, i is the arbitrary integer of 1 to M.

Optionally, described M virtual key is shown in the corner regions of described display unit；And/or

Described M virtual key is shown in the second area on the first edge of described display unit, wherein, described second Region is less than the first predeterminable range threshold value with the distance at the center at described first edge.

Optionally, described viewing area includes M display subregion, the i-th virtual key in described M virtual key I-th display subregion in corresponding described M display subregion, described i-th touch operation, particularly as follows: show in described i-th Show the touch operation more than the first preset time threshold of touch time that the optional position of subregion carried out.

Optionally, described the first glide direction determined corresponding to described first slide, specifically include:

Detection obtains first touch point corresponding to original position and described first of described first slide and slides Second touch point corresponding to end position of operation；

Described first glide direction is determined at least based on described first touch point and described second touch point.

Optionally, described described first slip side is determined at least based on described first touch point and described second touch point To, particularly as follows:

Based on the second seat corresponding to the first coordinate information corresponding to described first touch point and described second touch point Mark information determines that the first direction vector, described first direction vector are described first glide direction.

Optionally, described described first slip side is determined at least based on described first touch point and described second touch point To, specifically include:

The first direction vector is determined based on described first touch point and described second touch point；

Detection obtains the duty of described first electronic equipment；

Based on described duty, described first direction vector is adjusted, to obtain described first glide direction.

Optionally, it is the slip side from the left slide of described touch sensing unit to right side when described first glide direction To or time described first glide direction is from the glide direction of the basal sliding of described touch sensing unit to top, described first Control instruction is particularly as follows: increase the control instruction of the value of the first parameter；Or when described first glide direction is sliding from described right side Move to the glide direction in described left side or the first glide direction be from the glide direction of described top slide to bottom time, described One control instruction is particularly as follows: reduce the control instruction of the value of described first parameter

Optionally, it is the slip side from the left slide of described touch sensing unit to right side when described first glide direction Xiang Shi, described first control instruction is particularly as follows: control the control instruction that the first focus moves right；Or

When described first glide direction is to slide into the glide direction in described left side from described right side, described first controls Instruction is particularly as follows: control the control instruction that described first focus is moved to the left；Or

When described first glide direction is from the glide direction of the top slide of described touch sensing unit to bottom, institute State the first control instruction particularly as follows: control the control instruction that described first focus moves to bottom；And/or

When described first glide direction be from described basal sliding to the glide direction at described top time, described first control Instruction is particularly as follows: control the control instruction that described first focus moves to top.

Optionally, it is the slip side from the basal sliding of described touch sensing unit to top when described first glide direction Xiang Shi, described first control instruction is particularly as follows: use the frequency control instruction more than the first predetermined threshold value；Or

When described first glide direction is from the glide direction of the central slide of described touch-control sensing unit to both sides, institute State the first control instruction particularly as follows: use the frequency control instruction more than the second predetermined threshold value.

On the other hand, the application is by another embodiment following technical scheme of offer:

A kind of electronic equipment, described electronic equipment and the second electronic device data connect, and described electronic equipment includes touching Sensing unit, described electronic equipment also includes:

Detection module, for detecting and obtain the first slide of the first area on described touch sensing unit surface；

First determines module, for determining the first glide direction corresponding to described first slide；

Second determines module, for based on the corresponding relation between glide direction and control instruction, determines that described first is sliding Dynamic the first control instruction corresponding to direction；

Sending module, for described first control instruction is sent to described second electronic equipment, so that described second electricity Subset can realize the first function by performing described first control instruction.

Optionally, when described touch sensing unit includes N number of region, when wherein N is the integer more than or equal to 2, described Two determine module, specifically include:

First determines unit, for based on the corresponding relation between region and instruction set, determines that described first area is right The first instruction set answered；

Second determines unit, for based on the corresponding relation between glide direction and control instruction, from described first instruction Concentrate and determine described first control instruction corresponding to described first glide direction.

Optionally, the induction region of described touch sensing unit is rectangular area, described rectangular area include 2 long limits and Article 2, minor face, wherein, by using the N-1 bar dividing line vertical with described 2 long limits, is divided into described touch sensing unit Described N number of region.

Optionally, described first determines module, specifically includes:

Detector unit, for detect obtain described first slide the first touch point corresponding to original position and Second touch point corresponding to end position of described first slide；

3rd determines unit, for determining that described first is sliding at least based on described first touch point and described second touch point Dynamic direction.

Optionally, the described 3rd determines unit, specifically for:

Optionally, the described 3rd determines unit, specifically includes:

Determine subelement, for determining the first direction vector based on described first touch point and described second touch point；

Detection sub-unit, for detecting the duty obtaining described first electronic equipment；

Adjust subelement, for described first direction vector being adjusted based on described duty, described to obtain First glide direction.

The one or more technical schemes provided in the embodiment of the present application, at least have the following technical effect that or advantage:

(1) owing in the embodiment of the present application, have employed by the touch sensing unit of the first electronic equipment The first glide direction corresponding to one slide determines the first control instruction of correspondence, and then controls the second electronic equipment The technical scheme of system instruction, namely control instruction is only relevant to glide direction, and uncorrelated with sliding area, so, greatly Reduce greatly the probability of the operation producing mistake, thus prevent the first electronic equipment to produce the control instruction of mistake, and then Reach the technique effect more accurately of the control to the second electronic equipment.

(2) due in the embodiment of the present application, described first slide can be based on described first slip side To parallel L-1 bar dividing line, described first area is divided arbitrary subregion in obtained L sub regions to be entered The slide of row, say, that described first slide can be by the cunning carried out in arbitrary subregion in a big region Dynamic operation, so further preventing the control instruction producing mistake, and then has further reached the second electronic equipment Control technique effect more accurately.

(3) owing in the embodiment of the present application, described touch sensing unit being divided into multiple region, different regions is corresponding Different control instruction collection, so corresponding described second electronic equipment can produce more control instruction, has reached second The more diversified technique effect of control of electronic equipment.

(4) owing in the embodiment of the present application, the induction region of described touch-control sensing unit being set to rectangular area, its Include 2 long limits and 2 minor faces, by using the N-1 bar dividing line vertical with described 2 long limits, by described touch sensible Dividing elements becomes described N number of region, so can be convenient distinguish this N number of region, and then reached electronics is being set The most diversified technique effect also simultaneously being able to ensure precise control of standby control.

(5) owing in the embodiment of the present application, described first electronic equipment also includes overlapping with touch sensing unit Display unit, on described display unit, wherein show M virtual key, reached the second electricity so further The more diversified technique effect of control of subset.

(6) due in the embodiment of the present application, described M virtual key be shown in described display unit corner regions or Person is shown in the immediate vicinity at the edge of described display unit, so the position of described M virtual key can be determined easily, And then reached at the most diversified technique effect also being able to ensure precise control of control to electronic equipment simultaneously.

(7) due in the embodiment of the present application, it is also possible to by M, described M virtual key correspondence viewing area display Region, and do not go to limit it and position is specifically set, and produce control instruction, owing to need not determine by the way of response length is pressed The particular location of M virtual key, it becomes possible to produce control instruction accurately, so further ensure that the skill of precise control Art effect.

(8) due in the embodiment of the present application, at first touch point corresponding based on the first slide and the second touch-control Point determine the first direction vector after, also will duty based on electronic equipment described first direction vector is corrected with Obtain described first glide direction, so the first glide direction determined is more accurate, thus further reached second The control of electronic equipment technique effect more accurately.

(9) owing in the embodiment of the present application, the control instruction respective operations conveniently hands that frequency is higher will be used Gesture, so having reached the more accurate technique effect of the control to the second electronic equipment.

Accompanying drawing explanation

Fig. 1 is the flow chart of control method in the embodiment of the present application one；

Fig. 2 is the flow chart determining described first glide direction in the embodiment of the present application one method；

Fig. 3 is the refinement flow chart determining described first glide direction in the embodiment of the present application one method；

Fig. 4 is the flow process determining corresponding first control instruction of described first glide direction in the embodiment of the present application one method Figure；

Fig. 5 is the structure chart of the embodiment of the present application two middle plateform computer；

Fig. 6 is the structure chart of electronic equipment in the embodiment of the present application three.

Detailed description of the invention

The embodiment of the present invention provides a kind of control method and electronic equipment, for solving in prior art intelligent television Control not accurate enough technical problem.

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

The invention provides a kind of control method, apply in the first electronic equipment, permissible by described first electronic equipment Being controlled the second electronic equipment, wherein, described first electronic equipment includes touch sensing unit, described first electronic equipment For example: panel computer, described second electronic equipment for example, intelligent television；Its control process specifically includes: detects and obtains First slide of the first area on described touch sensing unit surface；Determine first corresponding to described first slide Glide direction；Based on the corresponding relation between glide direction and control instruction, determine corresponding to described first glide direction One control instruction；Described first control instruction is sent to described second electronic equipment, so that described second electronic equipment can The first function is realized by performing described first control instruction.

Due to use such scheme produce the first control instruction the second electronic equipment is controlled time, control instruction is only Relevant to glide direction, and uncorrelated with sliding area, so, greatly reduce the probability of the operation producing mistake, thus Prevent the first electronic equipment to produce the control instruction of mistake, and then reach the control to the second electronic equipment more accurately Technique effect.

In order to be better understood from technique scheme, below in conjunction with Figure of description and specific embodiment to upper State technical scheme to be described in detail.

Embodiment one

The embodiment of the present application one provides a kind of control method, is applied to the first electronic equipment, described first electronic equipment with Second electronic device data connect, described first electronic equipment includes touch sensing unit, described first electronic equipment for example: Panel computer, mobile phone etc.；Described second electronic equipment is for example: intelligent television.

Refer to Fig. 1, described control method comprises the steps:

Step S101: detect and obtain the first slide of the first area on described touch sensing unit surface；

Step S102: determine the first glide direction corresponding to described first slide；

Step S103: based on the corresponding relation between glide direction and control instruction, determines described first glide direction institute The first corresponding control instruction；

Step S104: described first control instruction is sent to described second electronic equipment, so that described second electronics sets For realizing the first function by performing described first control instruction.

Wherein, in step S101, described first area includes that the L-1 bar based on paralleling with described first glide direction is drawn Separated time divides obtained L sub regions to described first area, and L is the integer more than or equal to 2；Described first slides grasps As: the slide that the arbitrary subregion in described L sub regions is carried out.

As seen from the above description, owing in the embodiment of the present application, described first slide can be a big region Arbitrary subregion in the slide that carried out, so further preventing the control instruction producing mistake, and then enter one Walk has reached the technique effect more accurately of the control to the second electronic equipment.

Specifically, say, that the first slide can be by the cunning carried out in arbitrary subregion in a big region Dynamic operation, the particular location for described first slide is not restricted.

In specific implementation process, described first area can be multiple region, is set forth below two kinds therein and is situated between Continue, certainly, in specific implementation process, be not limited to following two situation.

The first, described touch sensing unit only includes a region, and described first area is described touch sensible list The whole region of unit；

The second, described touch sensing unit includes N number of region, and N is the integer more than or equal to 2, and described first area is A region in described N number of region, wherein, even if different region glide directions is identical, the control instruction of its correspondence is the most not With, it is thus possible to corresponding more control instruction.

As seen from the above description, owing in the embodiment of the present application, described touch sensing unit being divided into multiple region, no The corresponding different control instruction collection in same region, so corresponding described second electronic equipment can produce more control instruction, Reach the more diversified technique effect of the control to the second electronic equipment.

In specific implementation process, when described touch sensing unit includes N number of region, can divide in the following way Described N number of region:

The induction region of described touch sensing unit is rectangular area, described rectangular area include 2 long limits and 2 short Limit, wherein, by using the N-1 bar dividing line vertical with described 2 long limits, is divided into described N by described touch sensing unit Individual region.

As seen from the above description, owing in the embodiment of the present application, the induction region of described touch-control sensing unit being arranged For rectangular area, including 2 long limits and 2 minor faces, by using the N-1 bar dividing line vertical with described 2 long limits, incite somebody to action Described touch sensing unit is divided into described N number of region, so can be convenient distinguish this N number of region, and then reach At the most diversified technique effect also being able to ensure precise control of control to electronic equipment simultaneously.

Wherein, in step S102, determine the first glide direction corresponding to described first slide, as in figure 2 it is shown, tool Body comprises the steps:

Step S201: detection obtains first touch point corresponding to original position of described first slide and described The second touch point corresponding to the end position of the first slide；

Step S202: determine described first glide direction at least based on described first touch point and described second touch point.

Wherein, in step S201, when described touch sensing unit determines that touch-control body exists contact therewith, determine that initial The first touch point corresponding to position, and when touch sensing unit determines that touch-control body leaves described touch sensing unit, the most really Determine the second touch point corresponding to end position；Or when described touch sensing unit detects that touch-control body exists contact therewith Time, the trace information that just detection touch control operation is corresponding, after touch control operation terminates, determine described first touch point and described simultaneously Second touch point.Under normal circumstances, touch point can be determined or by touching by the change of touch sensing unit capacitance The infrared detecting device of sensing unit determines described touch point.

Assuming in step s 201, the coordinate of the first touch point determined is: (10,40), the coordinate of the second touch point For: (50,40).It is of course also possible to be other value, such as: the first touch point be (20,30), the second touch point be (50,70), First touch point be (30,60), the second touch point be (60,60) etc., for described first touch point and described second touch-control Which kind of coordinate point is actually, and the embodiment of the present application is not restricted.

Wherein, in step S202, determine that described first is sliding at least based on described first touch point and described second touch point Dynamic direction, can be divided into again multiple situation, be set forth below two kinds therein and be introduced, certainly, in specific implementation process, no It is limited to following two situation.

(1) based on second corresponding to the first coordinate information corresponding to described first touch point and described second touch point Coordinate information determines that the first direction vector, described first direction vector are described first glide direction.

It is: (10,40) that the coordinate of the second touch point is: as a example by (50,40), wherein with the coordinate of described first touch point, The straight line of its correspondence is: Y=40, and wherein the abscissa of the second touch point is more than the abscissa of the second touch point, so determining institute State the direction that the first direction vector is vector from left to right.

(2) refer to Fig. 3, comprise the steps:

Step S301: determine the first direction vector based on described first touch point and described second touch point；

Step S302: detection obtains the duty of described first electronic equipment；

Step S303: described first direction vector is adjusted based on described duty, sliding to obtain described first Dynamic direction.

Wherein, step S301 determines described first direction vector based on described first touch point and described second touch point Mode similar, so not repeating them here with in described (1).

Wherein, in step S302, the working morphology of the first electronic equipment can be: transverse screen working morphology and perpendicular screen work shape State, wherein, when the working morphology difference of described first electronic equipment, even if the first direction vector is identical, determined by it One glide direction is the most different.

In specific implementation process, by being arranged at the gravity sensor of described first electronic equipment internal or can add Velocity sensor detects the working morphology of described first electronic equipment, naturally it is also possible to for other sensor, to this application not Itemize again, and be not restricted.

Such as: with described electronic equipment horizontal as X-axis, longitudinally as Y-axis as a example by, when described electronic equipment is in transverse screen work When making form, if Y=40, then may determine that its first glide direction is: glide direction from left to right；But, when described When electronic equipment is in vertical screen mode of operation, if Y=40, then, its first glide direction might be slip side from top to bottom To.

So, based in step S303, described first direction vector can be adjusted, sliding to obtain correct first Dynamic direction, and then can reach to control more accurately to the second electronic equipment.

As seen from the above description, due in the embodiment of the present application, at first touch-control corresponding based on the first slide Point and after the second touch point determines the first direction vector, also will duty based on electronic equipment to described first vector side Correct to obtain described first glide direction to carrying out, so the first glide direction determined is more accurate, thus further Reach the technique effect more accurately of the control to the second electronic equipment.

Wherein, in step S103, based on the corresponding relation between glide direction and control instruction, determine that described first slides The first control instruction corresponding to direction, it is also possible to be divided into multiple situation, is set forth below two kinds of situations therein and is introduced, when So, in specific implementation process, it is not limited to following two situation.

The first, the corresponding relation being directly based upon between glide direction and control instruction, determine described first glide direction The first corresponding control instruction.

When the whole region of the touch sensing unit of described first electronic equipment is all first area, can be directly in institute State the corresponding relation between storage glide direction and control instruction in the first electronic equipment, such as, following corresponding relation:

Glide direction	Control instruction
		Glide direction from left slide to right side	Control the control instruction that the first focus moves right
The glide direction in left side is slid into from right side	Control the control instruction that the first focus is moved to the left
		Glide direction from top slide to bottom	Control the control instruction that the first focus moves to bottom
Glide direction from basal sliding to top	Control the control instruction that the first focus moves to top

Wherein, by described first glide direction it is: as a example by the glide direction of left slide to right side, then, it becomes possible to The first control instruction determining its correspondence is: control the control instruction that the first focus moves right.

The second, includes N number of region when described when described touch sensing unit, when wherein N is the integer more than or equal to 2, Described based on the corresponding relation between glide direction and control instruction, determine the first control corresponding to described first glide direction Instruction, as shown in Figure 4, specifically includes following steps:

Step S401: based on the corresponding relation between region and instruction set, determine first corresponding to described first area Instruction set；

Step S402: based on the corresponding relation between glide direction and control instruction, determine from described first instruction set Described first control instruction corresponding to described first glide direction.

Wherein, because described touch sensing unit includes N number of region, the corresponding different instruction set in the most different regions, Even identical in the first glide direction corresponding to different region the first slides, the first control instruction of its correspondence is also Difference, so first having to first determine the instruction set corresponding to described first area.

Such as: the touch sensing unit of described electronic equipment includes two regions, wherein corresponding first instruction set of left field； Corresponding second instruction set of right side area.

Wherein, the first instruction set and the second instruction set include following control instruction respectively:

Wherein, right side area, described first glide direction with described first area as touch sensing unit are: from left side As a example by sliding into the glide direction on right side, then first determine that the instruction set corresponding to first area is the second instruction set；Then Determine from described second instruction set from the control instruction corresponding to the glide direction of left slide to right side and be: jump to next frequency The control instruction in road.

It addition, in step S103, there is the most corresponding closing between described first glide direction and described first control instruction System, is set forth below therein several be introduced, certainly, in specific implementation process, is not limited to following several situation.

The first, when described first glide direction is the slip side from the left slide of described touch sensing unit to right side To or time described first glide direction is from the glide direction of the basal sliding of described touch sensing unit to top, described first Control instruction is particularly as follows: increase the control instruction of the value of the first parameter；Or when described first glide direction is sliding from described right side Move to the glide direction in described left side or the first glide direction be from the glide direction of described top slide to bottom time, described One control instruction is particularly as follows: reduce the control instruction of the value of described first parameter.

In specific implementation process, described first parameter for example: channel parameter, volume parameters, form and aspect saturation parameters Etc., why parameter is planted for described first parameter, the embodiment of the present application is not restricted.

Wherein, when described first parameter is channel parameter, increase the first parameter value control instruction specifically for: cut Change to the next channel of current channel；Reduce the first parameter value control instruction specifically for: be switched to current channel A upper channel.When described first parameter is volume parameters, the control instruction of the value increasing by the first parameter is used for: heighten second The volume of electronic equipment；The control instruction of the value reducing by the first parameter is used for: reduce the volume of the second electronic equipment.When described One parameter is form and aspect saturation parameters, and the control instruction of the value increasing by the first parameter is used for: improve described second electronic equipment The form and aspect saturation of display unit；The control instruction of the value reducing described first parameter is used for: reduce described second electronic equipment The form and aspect saturation of display unit etc..For other parameter, its control instruction is similar to therewith, to this embodiment of the present application not Itemize again, and be not restricted.

The second, when described first glide direction is the slip side from the left slide of described touch sensing unit to right side Xiang Shi, described first control instruction is particularly as follows: control the control instruction that the first focus moves right；Or

In specific implementation process, described first focus can be any focus, such as: for cursor, on progress bar Control point, for the objective body etc. in game.Wherein, when described first focus is light timestamp, grasped by the slip of different directions Make, it becomes possible to cursor is moved to different positions, and then realize light target location；When described first focus is on progress bar During control point, by left and right or upper and lower slide, it becomes possible to progress is controlled；When described first focus is game In objective body time, by different slides, it becomes possible to described objective body is positioned over different positions.Certainly, at tool In body implementation process, described first focus can also be other focus, no longer itemizes this embodiment of the present application, and not It is restricted.

The third, when described first glide direction is the slip side from the basal sliding of described touch sensing unit to top Xiang Shi, described first control instruction is particularly as follows: use the frequency control instruction more than the first predetermined threshold value；Or

Under normal circumstances, when the first glide direction of the first slide be by the basal sliding of touch sensing unit to top The glide direction in portion or when described first glide direction is the slip from the central slide of described touch-control sensing unit to both sides During direction, slide can more convenient operation, so, be set to use higher the first control instruction of frequency, such as: Switching channels control instruction, adjustment volume control instruction etc..

As seen from the above description, owing in the embodiment of the present application, the control instruction respective operations that frequency is higher will be used Conveniently gesture, so having reached the more accurate technique effect of the control to the second electronic equipment.

In specific implementation process, described electronic equipment also includes display unit, described display unit and described touch sense Answering cells overlap to arrange, described display unit shows M virtual key, and M is the integer more than or equal to 1；

In specific implementation process, because the control instruction instruction corresponding to slide is limited, the most only can The control instruction conventional with some is corresponding, so M virtual key can be arranged on described display unit, and corresponding described second Some control instructions being of little use of electronic equipment.

As seen from the above description, owing in the embodiment of the present application, described first electronic equipment also includes and touch sensible The display unit that cells overlap is arranged, wherein shows M virtual key, so further reaches on described display unit Arrive the more diversified technique effect of the control to the second electronic equipment.

Wherein, described M virtual key can be shown in the arbitrary region of described display unit, is set forth below therein two Plant preferred embodiment to be introduced, certainly, in specific implementation process, be not limited to following two situation.

The first, described M virtual key is shown in the corner regions of described display unit；And/or

In specific implementation process, it is generally the case that the corner regions of touch sensing unit or the central area at edge Near be easier to determine, so, if described M virtual key is arranged at these regions, it is possible to prevent largely Maloperation, reaches the technique effect more accurately of the control to the second electronic equipment.

As seen from the above description, owing in the embodiment of the present application, described M virtual key is shown in described display unit Corner regions or be shown in the immediate vicinity at edge of described display unit, so can determine easily described M empty Intend the position of button, and then reached the most diversified also simultaneously being able to of the control of electronic equipment is being ensured precise control Technique effect.

The second, described viewing area includes M display subregion, the i-th virtual key in described M virtual key I-th display subregion in corresponding described M display subregion, described i-th touch operation, particularly as follows: show in described i-th Show the touch operation more than the first preset time threshold of touch time that the optional position of subregion carried out.

Specifically, namely by described M button a certain region of unfixed display, but by described display unit It is divided into multiple bigger region, as long as the optional position in the region that this is bigger carries out growing by operation, it becomes possible to trigger Corresponding control instruction.

As seen from the above description, due in the embodiment of the present application, it is also possible to by described M virtual key correspondence viewing area M, territory display subregion, and do not go to limit it and position is specifically set, and produce control instruction by the way of response length is pressed, by In need not determine the particular location of M virtual key, it becomes possible to produce control instruction accurately, so further ensure that The technique effect of precise control.

Embodiment two

In order to enable those skilled in the art to connect the tool of the control method described in the embodiment of the present application one Body realizes process, in the present embodiment, implements process by stand in that the detailed annotation of user side introduces this control method.

In the present embodiment, will with described first electronic equipment as panel computer, described touch sensing unit be described flat Being introduced as a example by the touch screen of plate computer, the second electronic equipment is to be introduced as a example by intelligent television.

Wherein, refer to Fig. 5, the touch screen 51 of described panel computer includes 2 long limit 51a and 2 minor face 51b, passes through Described touch screen 51 is divided into left field 53a and right side area 53b by the dividing line 52 on described 2 long limit 51a.Wherein, Corresponding first instruction set of described left field 53a, corresponding second instruction set of right side area 53b, described first instruction set is this Shen Please instruction set in embodiment one, described second instruction set is the instruction set that the application implements in two.

It addition, also show 4 virtual keys 54a, 54b, 54c, 54d on described touch screen 51, it is respectively arranged at described The corner of touch screen 51, refer to following table, the most corresponding following control instruction:

Virtual key	Control instruction
		Virtual key 54a	Open intelligent television
Virtual key 54b	Close intelligent television
		Virtual key 54c	Channel selection
Virtual key 54d	Enter interface

In the T1 moment, user A wishes to open intelligent television, so touched the void in the described panel computer upper left corner by finger Intend button 54a, after described panel computer detects the touch operation of user A, produce a control start-up command, and send to institute State intelligent television.

Described intelligent television receives described start-up command, and then enters open state.

In the T2 moment, described intelligent television is already at open state, and is playing TV play, but user A does not likes This TV play joyous, it is desirable to zapping, so right side area 53b at described touch screen 51 produces a slip behaviour from left to right Make；After described touch screen 51 detects described slide, it is first determined the region at described slide place, and then determine Go out it and be positioned at described right side area 53b, so that it is determined that the instruction set going out its correspondence is described second instruction set；The most described flat board Computer determines that the glide direction corresponding to described slide is after the glide direction from left slide to right side, just produces Raw one control instruction jumping to succeeding channel, and send it to described intelligent television；

Described intelligent television receive described in jump to succeeding channel control instruction after, switch to next channel.

In the T3 moment, user uses described intelligent television to play the game pushed box, and wherein, user A wishes chest to top Portion moves, so, produce the slide from basal sliding to top in described left field 53a；Described touch screen 51 is in inspection After measuring described slide, it is first determined described slide region is left field 53a, it is then determined that a described left side Instruction set corresponding to side region 53a is described first instruction set, thus selects sliding from bottom from described first instruction set The control instruction corresponding to glide direction moved to top, namely: control the control instruction that the first focus moves to top, and Send it to described intelligent television.

Described intelligent television receives described control the first focus after the control instruction that top is moved, just by chest to Upper shifting one step.

In the T4 moment, user A wishes to close intelligent television, so touching the virtual key 54b in touch screen 51 lower left corner, institute State after panel computer detects described touch operation, just produce the control instruction of corresponding closedown intelligent television, and will It sends to described intelligent television.

After described intelligent television receives the control instruction of described closedown intelligent television, it is switched off described intelligent television Power supply, and then enter off-mode.

Embodiment three

Based on same inventive concept, the embodiment of the present application three provides a kind of electronic equipment, and wherein, described electronic equipment is The first electronic equipment in the embodiment of the present application one, described electronic equipment and the second electronic device data connect, and described electronics sets Standby include touch sensing unit, described electronic equipment for example: panel computer, mobile phone etc.；Described second electronic equipment is such as For: intelligent television.

Refer to Fig. 6, described electronic equipment also includes following structure:

Detection module 601, for detecting and obtain the first slip behaviour of the first area on described touch sensing unit surface Make；

First determines module 602, for determining the first glide direction corresponding to described first slide；

Second determines module 603, for based on the corresponding relation between glide direction and control instruction, determines described first The first control instruction corresponding to glide direction；

Sending module 604, for described first control instruction is sent to described second electronic equipment, so that described second Electronic equipment can realize the first function by performing described first control instruction.

In specific implementation process, described first area includes based on the L-1 bar paralleled with described first glide direction Dividing line divides obtained L sub regions to described first area, and L is the integer more than or equal to 2；Described first slides Operation is slide that the arbitrary subregion in described L sub regions is carried out.

In specific implementation process, described first determines module 602, specifically includes:

Wherein, the described 3rd determines that unit can use again various ways to determine described first glide direction, and then its merit Energy module is the most different, is set forth below two kinds therein and is introduced, certainly, in specific implementation process, is not limited to following two Situation.

The first, the described 3rd determines unit, specifically for:

The second, the described 3rd determines unit, specifically includes:

In specific implementation process, when described touch sensing unit includes N number of region, and wherein N is the integer more than or equal to 2 Time, described second determines module 603, specifically includes:

In specific implementation process, between described first glide direction and described first control instruction, there is the most corresponding closing System, is set forth below therein several be introduced, certainly, in specific implementation process, is not limited to following several situation.

In specific implementation process, described M virtual key can be shown in the arbitrary region of described display unit, below Enumerate two kinds of preferred embodiments therein to be introduced, certainly, in specific implementation process, be not limited to following two situation.

The electronic equipment introduced due to the present embodiment three, is used by implementing the control method in the embodiment of the present application one Electronic equipment, so based on the control method described in the embodiment of the present application one, those skilled in the art can be much of that Solve detailed description of the invention and its various versions of three kinds of electronic equipments of the embodiment of the present application, so at this for this electronics Equipment is no longer discussed in detail.As long as those skilled in the art implement the electricity that in the embodiment of the present application one, control method is used Subset, broadly falls into the scope that the application to be protected.

One or more technical schemes that the application provides, at least have the following technical effect that or advantage:

Although preferred embodiments of the present invention have been described, but those skilled in the art once know basic creation Property concept, then can make other change and amendment to these embodiments.So, claims are intended to be construed to include excellent Select embodiment and fall into all changes and the amendment of the scope of the invention.

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

Claims

1. a control method, is applied to the first electronic equipment, described first electronic equipment and the second electronic device data and connects, Described first electronic equipment includes touch sensing unit, it is characterised in that described method includes:

Determine the first glide direction corresponding to described first slide, wherein, described determine described first slide institute The first corresponding glide direction, comprise determining that described first slide the first touch point corresponding to original position and Second touch point corresponding to end position of described first slide determines that the first direction vector, detection obtain described first The duty of electronic equipment, is adjusted described first direction vector based on described duty, to obtain described first Glide direction；

Based on the corresponding relation between glide direction and control instruction, determine the first control corresponding to described first glide direction Instruction；

Described first control instruction is sent to described second electronic equipment, so that described second electronic equipment can be by performing Described first control instruction realizes the first function.

2. the method for claim 1, it is characterised in that described first area include based on described first glide direction Parallel L-1 bar dividing line divides obtained L sub regions to described first area, and L is whole more than or equal to 2 Number；Described first slide is slide that the arbitrary subregion in described L sub regions is carried out.

3. the method for claim 1, it is characterised in that when described touch sensing unit includes N number of region, and wherein N is During integer more than or equal to 2, described based on the corresponding relation between glide direction and control instruction, determine described first slip side To the first corresponding control instruction, specifically include:

Based on the corresponding relation between glide direction and control instruction, from described first instruction set, determine described first slip side To corresponding described first control instruction.

4. method as claimed in claim 3, it is characterised in that the induction region of described touch sensing unit is rectangular area, Described rectangular area includes 2 long limits and 2 minor faces, wherein, by using the N-1 bar dividing line vertical with described 2 long limits, Described touch sensing unit is divided into described N number of region.

5. the method for claim 1, it is characterised in that described electronic equipment also includes display unit, described display list First and described touch sensing unit overlaps, and described display unit shows M virtual key, and M is whole more than or equal to 1 Number；

Wherein, described touch sensing unit can respond the to the i-th virtual key in described M virtual key i-th touch Operation, generates and the control instruction for controlling described electronic equipment corresponding to described i-th virtual key, and wherein, M is big In the integer equal to 1, i is the arbitrary integer of 1 to M.

6. method as claimed in claim 5, it is characterised in that described M virtual key is shown in the angle of described display unit Settle in an area territory；And/or

Described M virtual key is shown in the second area on the first edge of described display unit, wherein, described second area It is less than the first predeterminable range threshold value with the distance at the center at described first edge.

7. method as claimed in claim 5, it is characterised in that described viewing area includes M display subregion, and described M is individual I-th display subregion in corresponding described M the display subregion of i-th virtual key in virtual key, described i-th touches Operation, particularly as follows: the touch time carried out in the optional position of described i-th display subregion is more than the first Preset Time threshold The touch operation of value.

8. the method for claim 1, it is characterised in that described the first cunning determined corresponding to described first slide Dynamic direction, specifically includes:

Detection obtains first touch point corresponding to original position of described first slide and described first slide The second touch point corresponding to end position；

9. method as claimed in claim 8, it is characterised in that described tactile at least based on described first touch point and described second Control point determines described first glide direction, particularly as follows:

Based on the second coordinate letter corresponding to the first coordinate information corresponding to described first touch point and described second touch point Breath determines that the first direction vector, described first direction vector are described first glide direction.

10. the method as described in claim as arbitrary in claim 1-9, it is characterised in that when described first glide direction is from described The left slide of touch sensing unit is from described touch sensing unit to glide direction or described first glide direction on right side Basal sliding to the glide direction at top time, described first control instruction is particularly as follows: the control increasing the value of the first parameter refers to Order；Or when described first glide direction be slide into from described right side the glide direction in described left side or the first glide direction for from When described top slide is to the glide direction of bottom, described first control instruction is particularly as follows: reduce the value of described first parameter Control instruction.

Method as described in 11. claims as arbitrary in claim 1-9, it is characterised in that when described first glide direction is from described When the left slide of touch sensing unit is to the glide direction on right side, described first control instruction is particularly as follows: control the first focus The control instruction moved right；Or

When described first glide direction is to slide into the glide direction in described left side from described right side, described first control instruction Particularly as follows: control the control instruction that described first focus is moved to the left；Or

When described first glide direction is from the glide direction of the top slide of described touch sensing unit to bottom, described One control instruction is particularly as follows: control the control instruction that described first focus moves to bottom；And/or

When described first glide direction be from described basal sliding to the glide direction at described top time, described first control instruction Particularly as follows: control the control instruction that described first focus moves to top.

Method as described in 12. claims as arbitrary in claim 1-9, it is characterised in that when described first glide direction is from described When the basal sliding of touch sensing unit is to the glide direction at top, described first control instruction is particularly as follows: use frequency to be more than The control instruction of the first predetermined threshold value；Or

When described first glide direction is from the glide direction of the central slide of described touch-control sensing unit to both sides, described One control instruction is particularly as follows: use the frequency control instruction more than the second predetermined threshold value.

13. 1 kinds of electronic equipments, described electronic equipment and the second electronic device data connect, and described electronic equipment includes touching sense Answer unit, it is characterised in that described electronic equipment also includes:

First determines module, for determining the first glide direction corresponding to described first slide, wherein, described first true Cover half block includes that the 3rd determines unit, and the described 3rd determines that unit comprises determining that subelement, for based on described first touch point The first direction vector is determined with described second touch point；Detection sub-unit, for detecting the work obtaining described first electronic equipment Make state；Adjust subelement, for described first direction vector being adjusted based on described duty, to obtain described the One glide direction；

Second determines module, for based on the corresponding relation between glide direction and control instruction, determines described first slip side To the first corresponding control instruction；

Sending module, for sending described first control instruction to described second electronic equipment, so that described second electronics sets For realizing the first function by performing described first control instruction.

14. electronic equipments as claimed in claim 13, it is characterised in that described first area includes based on sliding with described first The L-1 bar dividing line moving direction parallel divides obtained L sub regions to described first area, and L is more than or equal to 2 Integer；Described first slide is slide that the arbitrary subregion in described L sub regions is carried out.

15. electronic equipments as claimed in claim 13, it is characterised in that when described touch sensing unit includes N number of region, its When middle N is the integer more than or equal to 2, described second determines module, specifically includes:

First determines unit, for based on the corresponding relation between region and instruction set, determines corresponding to described first area First instruction set；

Second determines unit, for based on the corresponding relation between glide direction and control instruction, from described first instruction set Determine described first control instruction corresponding to described first glide direction.

16. electronic equipments as claimed in claim 15, it is characterised in that the induction region of described touch sensing unit is rectangle Region, described rectangular area includes 2 long limits and 2 minor faces, wherein, by using the N-1 bar vertical with described 2 long limits to draw Separated time, is divided into described N number of region by described touch sensing unit.

17. electronic equipments as claimed in claim 13, it is characterised in that described electronic equipment also includes display unit, described Display unit and described touch sensing unit overlap, and described display unit shows M virtual key, and M is more than or equal to 1 Integer；

18. electronic equipments as claimed in claim 17, it is characterised in that it is single that described M virtual key is shown in described display The corner regions of unit；And/or

19. electronic equipments as claimed in claim 17, it is characterised in that described viewing area includes M display subregion, institute State the i-th in corresponding described M the display subregion of i-th virtual key in M virtual key and show subregion, described the I touch operation, particularly as follows: the touch time carried out in the optional position of described i-th display subregion is default more than first The touch operation of time threshold.

20. electronic equipments as claimed in claim 13, it is characterised in that described first determines module, specifically includes:

Detector unit, obtains first touch point corresponding to original position of described first slide and described for detecting The second touch point corresponding to the end position of the first slide；

3rd determines unit, for determining described first slip side at least based on described first touch point and described second touch point To.

21. electronic equipments as claimed in claim 20, it is characterised in that the described 3rd determines unit, specifically for:

Electronic equipment as described in 22. claims as arbitrary in claim 13-21, it is characterised in that when described first glide direction is It is to touch sense from described from glide direction or described first glide direction of the left slide of described touch sensing unit to right side When answering the basal sliding of unit to the glide direction at top, described first control instruction is particularly as follows: increase the value of the first parameter Control instruction；Or when described first glide direction is to slide into glide direction or the first slip side in described left side from described right side When top slide described in Xiang Weicong is to the glide direction of bottom, described first control instruction is particularly as follows: reduce described first parameter The control instruction of value.

Electronic equipment as described in 23. claims as arbitrary in claim 13-21, it is characterised in that when described first glide direction is When the glide direction of the left slide of described touch sensing unit to right side, described first control instruction is particularly as follows: control the The control instruction that one focus moves right；Or

Electronic equipment as described in 24. claims as arbitrary in claim 13-21, it is characterised in that when described first glide direction is When the glide direction of the basal sliding of described touch sensing unit to top, described first control instruction is particularly as follows: use frequency Rate is more than the control instruction of the first predetermined threshold value；Or