CN102693063B - Operation control method and device and electronic equipment - Google Patents

Abstract

The invention discloses an operation control method, an operation control device and electronic equipment. The operation control method is applied to the electronic equipment. The electronic equipment is provided with a touch screen. The operation control method comprises the following steps of: detecting first operation of an operation body, wherein during first operation, a first distance between the operation body and the touch screen is smaller than or equal to a first threshold value, and the end position of the first operation is positioned at a first space position opposite to the touch screen; determining an operation object according to the first operation; detecting second operation of the operation body opposite to the touch screen from the first space position to a second space position; and when a distance between the second space position and the touch screen is smaller than or equal to a second threshold value, and a distance between the operation body and the touch screen during second operation is greater than the first threshold value and smaller than or equal to the second threshold value, carrying out a first preset instruction sequence on the operation object. According to the operation control method, the operation efficiency is improved.

Description

Method of controlling operation thereof, device and electronic equipment

Technical field

The invention belongs to electronic applications, particularly a kind of method of controlling operation thereof, device and electronic equipment.

Background technology

In recent years, the electronic equipment with touch display screen catches on gradually.This electronic equipment usually by display screen and the stacked placement of feeler to form touch display screen.Touch display screen as described in user is contacted by certain operating body (as finger tip, nib).Described electronic equipment senses the contact of operating body and described touch display screen by feeler, and performs corresponding operation in response to such contact.

But such electronic equipment only supports operating of contacts mostly.That is, described electronic equipment only just performs corresponding operation when sensing operating body and contacting with described touch display screen.

But because electronic equipment needs the demand considering various user, the gesture that unlikely design is too complicated, therefore, user is limited for the gesture operating touch-screen, the operation that when user therefore can be caused to perform some specific actions, needs perform is too much, uses inconvenience, inefficient operation.

For example, when the text that user carries out commonly using copies stickup, method of controlling operation thereof conventionally, first user needs to choose network address text, then long by occurring menu, and then copy command is selected from menu, and then be switched to target location and click, then long by occurring menu, and paste command is selected from menu, altogether needs 6 steps just can complete and basic copy paste command, and its complex disposal process, causes inefficient operation.

Summary of the invention

The object of the embodiment of the present invention is to provide a kind of method of controlling operation thereof, device and electronic equipment, and easy to use, operating efficiency is high.

To achieve these goals, embodiments provide a kind of method of controlling operation thereof, for an electronic equipment, described electronic equipment has a touch-screen, and described method of controlling operation thereof comprises:

Detect the first operation of operating body, wherein, the first distance described in the process of described first operation between operating body and described touch-screen is less than or equal to first threshold, and the end position of described first operation is positioned at the first locus relative to described touch-screen;

An operand is determined according to the first operation;

Detect described operating body relative to described touch-screen from described first locus to second of second space position the operation;

Distance between described second space position and described touch-screen is less than or equal to described Second Threshold, and when the distance described in described second operating process between operating body and described touch-screen is greater than described first threshold and is less than or equal to described Second Threshold, one first preset instructions sequence is performed to described operand.

Above-mentioned method of controlling operation thereof, wherein, when the distance between described second space position and described touch-screen is less than or equal to described first threshold, described first preset instructions sequence comprises the first instruction.

Above-mentioned method of controlling operation thereof, wherein, when the distance between described second space position and described touch-screen is greater than described first threshold, described first preset instructions sequence comprises the second instruction.

Above-mentioned method of controlling operation thereof, wherein,

Distance between described second space position and described touch-screen is less than or equal to first threshold, and when the distance described in described second operating process between operating body and described touch-screen is less than or equal to described first threshold, the second preset instructions sequence is performed to described operand;

When occurring being greater than described Second Threshold in the distance described in described second operating process between operating body and described touch-screen, the 3rd preset instructions sequence is performed to described operand;

Wherein, described first preset instructions sequence, described second preset instructions sequence are all not identical with described 3rd preset instructions sequence.

Above-mentioned method of controlling operation thereof, wherein, described first preset instructions sequence comprises multiple sub-instructions, wherein, described multiple sub-instructions all performs after the second operation terminates, or at least one in described multiple sub-instructions performs in the second operating process, remaining sub-instructions performs after the second operation terminates.

Above-mentioned method of controlling operation thereof, wherein, when at least one in described multiple sub-instructions performs in the second operating process, when remaining sub-instructions performs after the second operation terminates, at least one instruction performed in the second operating process described is determined according to such as under type:

Detect described operating body relative to described touch-screen from described first locus to the first track the process of second space position;

According to the corresponding relation between desired guiding trajectory and instruction, determine the instruction corresponding with described first track;

Perform the instruction corresponding with described first track.

Above-mentioned method of controlling operation thereof, wherein, described first preset instructions comprises multiple sub-instructions, and the distance between described second space position and described touch-screen is less than or equal to described first threshold, and described multiple sub-instructions is:

Copy or shear the instruction of described operand;

The instruction of described operand is pasted in the position that described touch-screen is corresponding with the described second place.

To achieve these goals, the embodiment of the present invention additionally provides a kind of operating control device, and for an electronic equipment, described electronic equipment has a touch-screen, and described operating control device comprises:

First detection module, for detecting the first operation of operating body, wherein, the first distance described in the process of described first operation between operating body and described touch-screen is less than or equal to first threshold, and the end position of described first operation is positioned at the first locus relative to described touch-screen;

Determination module, for determining an operand according to the first operation;

Second detection module, for detecting described operating body relative to described touch-screen from described first locus to second of second space position the operation;

First execution module, for being less than or equal to described Second Threshold when the distance between described second space position and described touch-screen, and when the distance described in described second operating process between operating body and described touch-screen is greater than described first threshold and is less than or equal to described Second Threshold, one first preset instructions sequence is performed to described operand.

Above-mentioned operating control device, wherein, when the distance between described second space position and described touch-screen is less than or equal to described first threshold, described first preset instructions sequence comprises the first instruction.

Above-mentioned operating control device, wherein, when the distance between described second space position and described touch-screen is greater than described first threshold, described first preset instructions sequence comprises the second instruction.

Above-mentioned operating control device, wherein, also comprises:

Second execution module, for being less than or equal to first threshold when the distance between described second space position and described touch-screen, and when the distance described in described second operating process between operating body and described touch-screen is less than or equal to described first threshold, the second preset instructions sequence is performed to described operand;

3rd execution module, for when occurring being greater than described Second Threshold in the distance described in described second operating process between operating body and described touch-screen, performs the 3rd preset instructions sequence to described operand;

Wherein, described first preset instructions sequence, described second preset instructions sequence are all not identical with described 3rd preset instructions sequence.

Above-mentioned operating control device, wherein, described first preset instructions sequence comprises multiple sub-instructions, wherein, described first execution module specifically for performing described multiple sub-instructions after the second operation terminates, or for performing at least one in described multiple sub-instructions in the second operating process, and perform remaining sub-instructions after the second operation terminates.

Above-mentioned operating control device, wherein, described first preset instructions comprises multiple sub-instructions, and the distance between described second space position and described touch-screen is less than or equal to described first threshold, and described multiple sub-instructions is:

Copy or shear the instruction of described operand;

The instruction of described operand is pasted in the position that described touch-screen is corresponding with the described second place.

To achieve these goals, the embodiment of the present invention additionally provides a kind of electronic equipment, comprising:

Mainboard;

Touch detecting apparatus, is connected with described mainboard, for the position data of acquisition operations thing;

Display unit, is connected with described mainboard, for display object;

Processor, be connected with described mainboard, for obtained the operating article that touch detecting apparatus collects by described mainboard position data after, according to the first operation of the position data detection operating body that touch detecting apparatus collects, and from the object of display unit display, determine an operand according to the first operation; And detect described operating body relative to second operation to second space position from the first locus of described touch-screen according to the position data that touch detecting apparatus collects, distance between described second space position and described touch-screen is less than or equal to described Second Threshold, and when the distance described in described second operating process between operating body and described touch-screen is greater than described first threshold and is less than or equal to described Second Threshold, one first preset instructions sequence is performed to described operand;

Wherein, the first distance described in the process of described first operation between operating body and described touch-screen is less than or equal to first threshold, and the end position of described first operation is positioned at the first locus relative to described touch-screen.

Above-mentioned electronic equipment, wherein, described processor specifically comprises:

First detection module, for detecting the first operation of operating body according to the position data collected of touch detecting apparatus;

Determination module, for determining an operand according to the first operation from the object of display unit display;

Second detection module, for detecting described operating body relative to described touch-screen from described first locus to second of second space position the operation according to the position data collected of touch detecting apparatus;

First execution module, for being less than or equal to described Second Threshold when the distance between described second space position and described touch-screen, and when the distance described in described second operating process between operating body and described touch-screen is greater than described first threshold and is less than or equal to described Second Threshold, one first preset instructions sequence is performed to described operand.

The embodiment of the present invention has following beneficial effect:

The method of controlling operation thereof of the embodiment of the present invention, device and electronic equipment, the mode that user can be touched by contact selects operand, and by one section of processing mode of close to the mode that touch selecting this operand unsettled with touch-screen, therefore for single contact touch manner, user can combine the operation needing a large amount of step just can complete before simple gesture has been come, and improves operating efficiency.

Accompanying drawing explanation

Fig. 1 is the principle schematic of proximity test;

Fig. 2 is the schematic flow sheet of the method for controlling operation thereof of the embodiment of the present invention;

Fig. 3 is the schematic diagram that the operand of the embodiment of the present invention is selected;

Fig. 4 a-4c is the schematic flow sheet pasting another one position after selecting character string to copy;

Fig. 5 is the schematic flow sheet pasting another one position after select File folder copies;

Fig. 6 is the schematic flow sheet pasting another one position after another kind of select File folder copies;

Fig. 7 is the structural representation of the operating control device of the embodiment of the present invention.

Embodiment

In the method for controlling operation thereof of the embodiment of the present invention, device and electronic equipment, by combining close to touching and contacting touch, the operation of existing complexity can be realized by simple step, convenient for users to use, improve operating efficiency.

Method according to the embodiment of the present invention, device and electronic equipment are described below with reference to the accompanying drawings.

Before the description embodiment of the present invention, first, the principle of proximity test is described with reference to Fig. 1.Fig. 1 shows the key diagram of a kind of illustrative case being detected the operating body close to electronic equipment by capacitive touch screen.

Below, with reference to Fig. 1, the example detected close to electronic equipment operating body by capacitive touch screen is described.As shown in Figure 1, the distance that field coupled (as shown in phantom in fig. 1) scope of capacitive touch screen covers above touch-screen and between touch-screen is the space of L1, thus the distance on the touchscreen between side and touch-screen is the effective surveyed area defined in the space of L1.When operating body enters in effective surveyed area, the detected couple current I of enough sizes can be produced.The current value that controller in capacitive touch screen can detect according to each limit calculates the exact position of finger, and the distance of finger distance screen.Further, controller can also detect whether finger touches screen surface.

Alternatively, sensing unit can comprise the first sensing unit and the second sensing unit to detect the movement locus of operating body when touching electronic equipment and the movement locus of operating body when not touching electronic equipment respectively.That is, the first sensing unit can comprise the touching induction region be made up of the various known sensor element of capacitive touch sensors or resistive touch sensor and so on.Second sensing unit can detect the movement locus of operating body between the first Distance geometry second distance.Second sensing unit can comprise the multiple supersonic sensing elements, infrared sensing element or the image acquisition element that are arranged on the diverse location of electronic equipment, comes the position of determination operation body.

In the touch panel device of reality; for capacitive touch screen; it is all coated with layer protective layer; i.e. usual visible glassy layer; this glass layer is this first threshold to touching the distance detecting surface, but should be understood that, along with touch-screen realizes the difference of structure; this first threshold is also different, does not describe one by one at this.

As shown in Figure 2, the method for controlling operation thereof of the embodiment of the present invention, for an electronic equipment, described electronic equipment has a touch-screen, and described method of controlling operation thereof comprises:

Step 21, detect the first operation of operating body, wherein, the distance described in the process of described first operation between operating body and described touch-screen is less than or equal to first threshold, and the end position of described first operation is positioned at the first locus relative to described touch-screen;

Step 22, determines an operand according to the first operation;

Step 23, detects described operating body relative to described touch-screen from described first locus to second of second space position the operation;

Step 24, distance between described second space position and described touch-screen is less than or equal to described Second Threshold, and when the distance described in described second operating process between operating body and described touch-screen is greater than described first threshold and is less than or equal to described Second Threshold, one first preset instructions sequence is performed to described operand.

The method of controlling operation thereof of the embodiment of the present invention, the mode that user can be touched by contact selects operand, and by one section of processing mode of close to the mode that touch selecting this operand unsettled with touch-screen, therefore for single contact touch manner, user can combine the operation needing a large amount of step just can complete before simple gesture has been come, and improves operating efficiency.

In a particular embodiment of the present invention, this operand can be can to show in electronic equipment and by the various objects operated, as:

File;

Application icon;

Open the character string in text, picture etc.

To be illustrated various situation in follow-up embodiment.

In the specific embodiment of the invention, first an operand to be determined, this operand is that the first operation performed according to operating body is determined, wherein, the first distance described in the process of this first operation between operating body and described touch-screen is less than or equal to first threshold, and that is this first operation is the contact touch control operation in usual implication.

The end position only limiting the first operation is in a particular embodiment of the present invention the primary importance that the first distance between described touch-screen is less than or equal to first threshold, but specifically according to the difference of this first operation, the object that can select is also different, illustrates as follows.

As shown in Figure 3, show A1-A3 on a display screen, these 6 icons of B1-B3, when the first operation is the clicking operation performed in the position of touch-screen display icon A1, then operating according to first the operand determined is the object that icon A1 is corresponding, and as shown in Figure 3, when the first operation is in touch screen surface at operating body, when sliding into X2 point from X1 point, then operate the operand determined for object corresponding to icon A1, A2, B1 and B2 of surrounding using the line between X1 and X2 as cornerwise rectangle frame according to first.

Certainly, also can be the object that icon that the circle using the line between X1 and X2 as diameter surrounds is corresponding, specifically how alternative be no longer described in further details at this.

Certainly, the mode of above-mentioned alternative, can also be that operating body forms a closed figure (as circle, square box or other irregular framework) according to certain track on the touchscreen, finally operate object corresponding to icon that the operand determined surrounds for closed figure according to first.

After selected operand, first distance of operating body between described touch-screen is less than or equal to the primary importance of first threshold, and described before, operating body can move to second space position relative to described touch-screen from described first locus, in a particular embodiment of the present invention, operating body (does not comprise this starting point of the first locus and this end point of second space position) moving to the process of second space position from described first locus relative to described touch-screen, relative position relation between operating body and touch-screen may be comprise following situation:

The distance of situation one, operating body and touch-screen is less than or equal to first threshold always, and that is operating body is always at the apparent motion of touch-screen;

The distance of situation two, operating body and touch-screen is greater than first threshold always, but is less than or equal to Second Threshold, and that is operating body have left surface, but is also in sensing range;

The distance of situation three, operating body and touch-screen exceeds Second Threshold, and that is operating body have left surface, simultaneously also beyond the scope detected.

Situation one and situation three will be described in detail later, first be described in detail situation two at this.

Operating body is moving to the process of second space position relative to described touch-screen from described first locus, if operating body have left surface, but be also in sensing range, now, show that operating body is in the unsettled operation of execution, then one first preset instructions sequence is performed to described operand.

Certainly, in a particular embodiment of the present invention, this second place comprises two kinds of situations, a kind of distance between the second place and described touch-screen can be less than or equal to first threshold (that is the second place is on the surface of touch-screen), and in another situation, the distance between this second place and described touch-screen is greater than first threshold, but be less than or equal to Second Threshold, now, this second place above touch screen surface, but is in the sensing range of touch-screen.

For both of these case, in a particular embodiment of the present invention, can different instructions be set for it, wherein:

When distance between described second space position and described touch-screen is less than or equal to described first threshold, described first preset instructions sequence comprises the first instruction.

And the distance between described second space position and described touch-screen is when being greater than described first threshold, described first preset instructions sequence comprises the second instruction.

Certainly, in the application of reality, can limit the second place must on the surface of touch-screen, and also can limit the second place above touch screen surface, but must be in the sensing range of touch-screen, but can certainly two kinds of situations perform respectively.

Illustrate as follows to the various situation that realizes below.

In the first example, take operand as file, and the maximum detecting distance of touch-screen for apart from surperficial 2cm be example citing be described as follows.

User clicks the icon of file A by operating body contact, and now, described in this operation, operating body contacts with described touch, and the end position of operation is in touch screen surface, so can determination operation object be file A according to operation.

After the icon clicking file A, operating body leaves touch screen surface, and enclose at one, the aerial picture with touch screen surface distance 1cm, end point distance touch screen surface 1.5cm, because operating body described in this operating process have left touch screen surface, but the distance of distance touch screen surface is less than or equal to 2cm, now described file is performed to the instruction of an opened file folder.

Certainly, description for this track only illustrates, the embodiment of the present invention does not limit concrete track, opened file folder described above also can realize the mode hooked by drawing one aloft, can also be that the track turned clockwise amplifies to realize selected object or opens current file folder, the track that counterclockwise choosing turns, to realize reducing or returning upper level catalogue etc. of selected object, does not enumerate at this.

Certainly, more desired trajectory can also be set and carry out corresponding more instruction, not describe in detail one by one at this.

In second example, take operand as file, and the maximum detecting distance of touch-screen for apart from surperficial 2cm be example citing be described as follows.

User clicks the icon of file A by operating body contact, and now, described in this operation, operating body contacts with described touch-screen, and the end position of operation is in touch screen surface, so can determination operation object be file A according to operation.

After the icon of point touching screen surfaces X1 place file A, operating body leaves touch screen surface, move to the X2 place with touch screen surface distance 1.5cm, then from X2 place, move downward the X3 place of touch screen surface, because operating body described in this operating process have left touch screen surface, but the distance of distance touch screen surface is less than or equal to 2cm, now performs following operation to described file:

Copy this file A;

Described file A is pasted in the X3 position of described touch-screen.

In prior art, first user needs filesselected to press from both sides A, then long by occurring menu, and then copy command is selected from menu, and then be switched to target location and click, then long by occurring menu, and paste command is selected from menu, altogether needs 6 steps just can complete and basic copy paste command, and its complex disposal process, causes inefficient operation.

And can be found by foregoing description, user only needs manipulation operation body to click at X1 place, then touch screen surface is left, the last X3 place returning again touch screen surface clicks such shirtsleeve operation and file can be realized to copy to precalculated position, for the mode of operation of the step a large amount of relative to the needs of prior art, substantially increase operating efficiency.

In the 3rd example, take operand as the character string in the file opened, and the maximum detecting distance of touch-screen for apart from surperficial 2cm be example citing be described as follows.

As shown in Figure 5 a, currently open a txt file, the character string that user be have selected as shown in Figure 4 b by operating body " to achieve these goals, embodiments provides one ".

Then operating body (finger namely in figure) leaves touch screen surface, move to the Y1 place with touch screen surface distance 1.5cm, then slowly near touch screen surface, finally terminate the Y2 place in touch screen surface, because operating body described in this operating process have left touch screen surface, but the distance of distance touch screen surface is less than or equal to 2cm, now performs following operation to described file:

Copy this character string and " to achieve these goals, embodiments provide one ";

Paste described character string in the Y2 position of described touch-screen and " to achieve these goals, embodiments provide one ".

In prior art, first user needs to choose character string, then long by occurring menu, and then copy command is selected from menu, and then be switched to target location and click, then long by occurring menu, and paste command is selected from menu, altogether needs 6 steps just can complete and basic copy paste command, and its complex disposal process, causes inefficient operation.

And can be found by foregoing description, user only needs manipulation operation body to select character string, then move in the mode being suspended on touch-screen, finally click such shirtsleeve operation character string can be realized to copy to assigned address at the X3 place of touch screen surface, for the mode of operation of the step a large amount of relative to the needs of prior art, substantially increase operating efficiency.

Certainly, this second place also can be the position in other the file opened, and above is only be described to illustrate in same file.

Can find in above-mentioned second and the 3rd example, in the embodiment of the present invention, can comprise multiple sub-instructions in first preset instructions, and when the distance between described second space position and described touch-screen is less than or equal to described first threshold, described multiple sub-instructions is:

Copy or shear the instruction of described operand;

The instruction of described operand is pasted in the position that described touch-screen is corresponding with the described second place.

Mentioning before, in the embodiment of the present invention, operating body (does not comprise this starting point of the first locus and this end point of second space position) moving to the process of second space position from described first locus relative to described touch-screen, relative position relation between operating body and touch-screen has three kinds of situations, the second situation is described in detail above, and operating body always at the apparent motion of touch-screen and operating body beyond the situation touching the scope detected, in embodiments of the present invention, distance between described second space position and described touch-screen is less than or equal to first threshold, and when the distance described in described second operating process between operating body and described touch-screen is less than or equal to described first threshold, second preset instructions sequence is performed to described operand,

When occurring being greater than described Second Threshold in the distance described in described second operating process between operating body and described touch-screen, the 3rd preset instructions sequence is performed to described operand;

Wherein, described first preset instructions sequence, described second preset instructions sequence are all not identical with described 3rd preset instructions sequence.

At this, due to the first preset instructions sequence, described second preset instructions sequence are set to not identical instruction sequence with described 3rd preset instructions sequence, avoid the situation of operating collision.

Should be understood that, in this so-called not identical instruction sequence, do not represent and wherein can not comprise identical instruction, illustrate as follows.

Assuming that the first instruction sequence is:

Copy the instruction of described operand;

The instruction of described operand is pasted in the position that described touch-screen is corresponding with the described second place.

And the second instruction sequence is:

Shear the instruction of described operand;

The instruction of described operand is pasted in the position that described touch-screen is corresponding with the described second place.

Now the first instruction sequence and the second instruction sequence are not identical instruction sequence.

In a particular embodiment of the present invention, operate from described first locus to second of second space position relative to described touch-screen at user's manipulation operation body, and the distance between described second space position and described touch-screen is less than or equal to described Second Threshold, and when the distance described in described second operating process between operating body and described touch-screen is greater than described first threshold and is less than or equal to described Second Threshold, one first preset instructions sequence can be performed to described operand.

Comprise in multiple sub-instructions in described first preset instructions sequence, described multiple sub-instructions can all perform after the second operation terminates, but also can be: at least one in described multiple sub-instructions performs in the second operating process that remaining sub-instructions performs after the second operation terminates.

Illustrate as follows with the process shown in Fig. 5.

User clicks the icon of file A by operating body contact, and now, described in this operation, operating body contacts with described touch, and the end position of operation is in touch screen surface, so can determination operation object be file A according to operation.

After the icon of point touching screen surfaces X1 place file A, operating body leaves touch screen surface, move to the X2 place with touch screen surface distance 1.5cm, then draw a circle in a spiral manner, finally terminate the X3 place in touch screen surface, because operating body described in this operating process have left touch screen surface, but the distance of distance touch screen surface is less than or equal to 2cm, now after the X3 place of operating body point touching screen surfaces terminates, following operation can be performed:

Copy this file A;

Described file A is pasted in the X3 position of described touch-screen.

In other situations, as shown in Figure 6, user clicks the icon of file A by operating body contact, now, described in this operation, operating body contacts with described touch, and the end position of operation is in touch screen surface, so can determination operation object be file A according to operation.

After the icon of point touching screen surfaces X1 place file A, operating body leaves touch screen surface, move to the X2 place with touch screen surface distance 1.5cm, then draw a circle in a spiral manner, and rest on the X4 place with touch screen surface distance 1cm, now, aloft the stage detects that the track of operating body is a circle, then perform the operation copying this file A in instruction sequence.

Afterwards, the X3 place that user's manipulation operation body drops to touch screen surface from X4 clicks, and now can perform following operation: paste described file A in the X3 position of described touch-screen.

Now, the instruction in instruction sequence is not last execution, but performs respectively in each stage.

And for example after the icon of point touching screen surfaces X1 place file A, operating body leaves touch screen surface, move to the X2 place with touch screen surface distance 1.5cm, then one is drawn to hook, and rest on the X4 place with touch screen surface distance 1cm, now, aloft the stage detect the track of operating body be one to hook, then perform the operation of this file of the compression A in instruction sequence to a compressed file.

Afterwards, the X3 place that user's manipulation operation body drops to touch screen surface from X4 clicks, and now can perform following operation: the described file A after compression is pasted in the X3 position of described touch-screen.

In a particular embodiment of the present invention, when at least one in described multiple sub-instructions performs in the second operating process, when remaining sub-instructions performs after the second operation terminates, at least one instruction performed in the second operating process described is determined according to such as under type:

Detect described operating body relative to described touch-screen from described first locus to the first track the process of second space position;

According to the corresponding relation between desired guiding trajectory and instruction, determine the instruction corresponding with described first track;

Perform the instruction corresponding with described first track.

The operating control device of the embodiment of the present invention, for an electronic equipment, described electronic equipment has a touch-screen, and described operating control device as shown in Figure 7, comprising:

First detection module, for detecting the first operation of operating body, wherein, the first distance described in the process of described first operation between operating body and described touch-screen is less than or equal to first threshold, and the end position of described first operation is positioned at the first locus relative to described touch-screen;

Determination module, for determining an operand according to the first operation;

Second detection module, for detecting described operating body relative to described touch-screen from described first locus to second of second space position the operation;

First execution module, for being less than or equal to described Second Threshold when the distance between described second space position and described touch-screen, and when the distance described in described second operating process between operating body and described touch-screen is greater than described first threshold and is less than or equal to described Second Threshold, one first preset instructions sequence is performed to described operand.

Above-mentioned operating control device, wherein, when the distance between described second space position and described touch-screen is less than or equal to described first threshold, described first preset instructions sequence comprises the first instruction.

Above-mentioned operating control device, wherein, when the distance between described second space position and described touch-screen is greater than described first threshold, described first preset instructions sequence comprises the second instruction.

Above-mentioned operating control device, wherein, also comprises:

Second execution module, for being less than or equal to first threshold when the distance between described second space position and described touch-screen, and when the distance described in described second operating process between operating body and described touch-screen is less than or equal to described first threshold, the second preset instructions sequence is performed to described operand;

3rd execution module, for when occurring being greater than described Second Threshold in the distance described in described second operating process between operating body and described touch-screen, performs the 3rd preset instructions sequence to described operand;

Wherein, described first preset instructions sequence, described second preset instructions sequence are all not identical with described 3rd preset instructions sequence.

Above-mentioned operating control device, wherein, described first preset instructions sequence comprises multiple sub-instructions, wherein, described first execution module specifically for performing described multiple sub-instructions after the second operation terminates, or for performing at least one in described multiple sub-instructions in the second operating process, and perform remaining sub-instructions after the second operation terminates.

Above-mentioned operating control device, wherein, described first preset instructions comprises multiple sub-instructions, and the distance between described second space position and described touch-screen is less than or equal to described first threshold, and described multiple sub-instructions is:

Copy or shear the instruction of described operand;

The instruction of described operand is pasted in the position that described touch-screen is corresponding with the described second place.

Embodiments provide a kind of electronic equipment, touch operation supported by described electronic equipment, and described electronic equipment comprises:

Mainboard;

Touch detecting apparatus, is connected with described mainboard, for the position data of acquisition operations thing;

Display unit, is connected with described mainboard, for display object;

Processor, be connected with described mainboard, for obtained the operating article that touch detecting apparatus collects by described mainboard position data after, according to the first operation of the position data detection operating body that touch detecting apparatus collects, and from the object of display unit display, determine an operand according to the first operation; And detect described operating body relative to second operation to second space position from the first locus of described touch-screen according to the position data that touch detecting apparatus collects, distance between described second space position and described touch-screen is less than or equal to described Second Threshold, and when the distance described in described second operating process between operating body and described touch-screen is greater than described first threshold and is less than or equal to described Second Threshold, one first preset instructions sequence is performed to described operand;

Wherein, the first distance described in the process of described first operation between operating body and described touch-screen is less than or equal to first threshold, and the end position of described first operation is positioned at the first locus relative to described touch-screen.

Wherein, described processor comprises:

First detection module, for detecting the first operation of operating body according to the position data collected of touch detecting apparatus, wherein, the first distance described in the process of described first operation between operating body and described touch-screen is less than or equal to first threshold, and the end position of described first operation is positioned at the first locus relative to described touch-screen;

Determination module, for determining an operand according to the first operation;

Second detection module, for detecting described operating body relative to described touch-screen from described first locus to second of second space position the operation according to the position data collected of touch detecting apparatus;

First execution module, for being less than or equal to described Second Threshold when the distance between described second space position and described touch-screen, and when the distance described in described second operating process between operating body and described touch-screen is greater than described first threshold and is less than or equal to described Second Threshold, one first preset instructions sequence is performed to described operand.

Many functional parts described in this instructions are all called as module, specifically to emphasize the independence of its implementation.

In the embodiment of the present invention, module can use software simulating, to be performed by various types of processor.For example, the executable code module of a mark can comprise one or more physics or the logical block of computer instruction, and for example, it can be built as object, process or function.However, the executable code of institute's identification module is does not have to be physically positioned at together, but can comprise the different instruction be stored in not coordination, when these command logics combine, and its composition module and realize the regulation object of this module.

In fact, executable code module can be individual instructions or many bar instructions, and even can be distributed on multiple different code segment, is distributed in the middle of distinct program, and crosses over the distribution of multiple memory devices.Similarly, service data can be identified in module, and can realize according to any suitable form and be organized in the data structure of any suitable type.Described service data can be collected as individual data collection, or can be distributed on diverse location and (be included in different storage device), and can only be present on system or network as electronic signal at least in part.

When module can utilize software simulating, consider the level of existing hardware technique, so can with the module of software simulating, when not considering cost, those skilled in the art can build corresponding hardware circuit and realize corresponding function, and described hardware circuit comprises existing semiconductor or other discrete element of conventional ultra-large integrated (VLSI) circuit or gate array and such as logic chip, transistor and so on.Module can also use programmable hardware device, the realizations such as such as field programmable gate array, programmable logic array, programmable logic device.

The foregoing is only preferred embodiment of the present invention, not in order to limit the present invention, within the spirit and principles in the present invention all, any amendment done, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (13)

1. a method of controlling operation thereof, for an electronic equipment, it is characterized in that, described electronic equipment has a touch-screen, described method of controlling operation thereof comprises:

Detect the first operation of operating body, wherein, the first distance described in the process of described first operation between operating body and described touch-screen is less than or equal to first threshold, and the end position of described first operation is positioned at the first locus relative to described touch-screen;

An operand is determined according to the first operation;

Detect described operating body relative to described touch-screen from described first locus to second of second space position the operation;

Distance between described second space position and described touch-screen is less than or equal to Second Threshold, and when the distance described in described second operating process between operating body and described touch-screen is greater than described first threshold and is less than or equal to described Second Threshold, one first preset instructions sequence is performed to described operand;

Described first threshold is glass layer that touch screen surface the covers distance to touch screen surface;

Described first preset instructions sequence comprises multiple sub-instructions, and wherein, at least one in described multiple sub-instructions performs in the second operating process, and remaining sub-instructions performs after the second operation terminates.

2. method of controlling operation thereof according to claim 1, is characterized in that, when the distance between described second space position and described touch-screen is less than or equal to described first threshold, described first preset instructions sequence comprises the first instruction.

3. method of controlling operation thereof according to claim 1, is characterized in that, when the distance between described second space position and described touch-screen is greater than described first threshold, described first preset instructions sequence comprises the second instruction.

4. method of controlling operation thereof according to claim 1, is characterized in that,

Distance between described second space position and described touch-screen is less than or equal to first threshold, and when the distance described in described second operating process between operating body and described touch-screen is less than or equal to described first threshold, the second preset instructions sequence is performed to described operand;

When occurring being greater than described Second Threshold in the distance described in described second operating process between operating body and described touch-screen, the 3rd preset instructions sequence is performed to described operand;

Wherein, described first preset instructions sequence, described second preset instructions sequence are all not identical with described 3rd preset instructions sequence.

5. method of controlling operation thereof according to claim 1, is characterized in that, at least one instruction performed in the second operating process described is determined according to such as under type:

Detect described operating body relative to described touch-screen from described first locus to the first track the process of second space position;

According to the corresponding relation between desired guiding trajectory and instruction, determine the instruction corresponding with described first track;

Perform the instruction corresponding with described first track.

6. method of controlling operation thereof according to claim 1, is characterized in that, when the distance between described second space position and described touch-screen is less than or equal to described first threshold, described multiple sub-instructions is:

Copy or shear the instruction of described operand;

The instruction of described operand is pasted in the position that described touch-screen is corresponding with described second space position.

7. an operating control device, for an electronic equipment, it is characterized in that, described electronic equipment has a touch-screen, described operating control device comprises:

First detection module, for detecting the first operation of operating body, wherein, the first distance described in the process of described first operation between operating body and described touch-screen is less than or equal to first threshold, and the end position of described first operation is positioned at the first locus relative to described touch-screen;

Determination module, for determining an operand according to the first operation;

Second detection module, for detecting described operating body relative to described touch-screen from described first locus to second of second space position the operation;

First execution module, for being less than or equal to Second Threshold when the distance between described second space position and described touch-screen, and when the distance described in described second operating process between operating body and described touch-screen is greater than described first threshold and is less than or equal to described Second Threshold, one first preset instructions sequence is performed to described operand;

Described first threshold is glass layer that touch screen surface the covers distance to touch screen surface;

Described first preset instructions sequence comprises multiple sub-instructions, and wherein, at least one in described multiple sub-instructions performs in the second operating process, and remaining sub-instructions performs after the second operation terminates.

8. operating control device according to claim 7, is characterized in that, when the distance between described second space position and described touch-screen is less than or equal to described first threshold, described first preset instructions sequence comprises the first instruction.

9. operating control device according to claim 7, is characterized in that, when the distance between described second space position and described touch-screen is greater than described first threshold, described first preset instructions sequence comprises the second instruction.

10. operating control device according to claim 7, is characterized in that, also comprises:

Second execution module, for being less than or equal to first threshold when the distance between described second space position and described touch-screen, and when the distance described in described second operating process between operating body and described touch-screen is less than or equal to described first threshold, the second preset instructions sequence is performed to described operand;

3rd execution module, for when occurring being greater than described Second Threshold in the distance described in described second operating process between operating body and described touch-screen, performs the 3rd preset instructions sequence to described operand;

Wherein, described first preset instructions sequence, described second preset instructions sequence are all not identical with described 3rd preset instructions sequence.

11. operating control devices according to claim 7, is characterized in that, when the distance between described second space position and described touch-screen is less than or equal to described first threshold, described multiple sub-instructions is:

Copy or shear the instruction of described operand;

The instruction of described operand is pasted in the position that described touch-screen is corresponding with described second space position.

12. 1 kinds of electronic equipments with touch-screen, is characterized in that, comprising:

Mainboard;

Touch detecting apparatus, is connected with described mainboard, for the position data of acquisition operations thing;

Display unit, is connected with described mainboard, for display object;

Processor, be connected with described mainboard, for obtained the operating article that touch detecting apparatus collects by described mainboard position data after, according to the first operation of the position data detection operating body that touch detecting apparatus collects, and from the object of display unit display, determine an operand according to the first operation; And detect described operating body relative to second operation to second space position from the first locus of described touch-screen according to the position data that touch detecting apparatus collects, distance between described second space position and described touch-screen is less than or equal to Second Threshold, and when the distance described in described second operating process between operating body and described touch-screen is greater than first threshold and is less than or equal to described Second Threshold, one first preset instructions sequence is performed to described operand;

Wherein, the first distance described in the process of described first operation between operating body and described touch-screen is less than or equal to first threshold, and the end position of described first operation is positioned at the first locus relative to described touch-screen;

Described first threshold is glass layer that touch screen surface the covers distance to touch screen surface;

Described first preset instructions sequence comprises multiple sub-instructions, and wherein, at least one in described multiple sub-instructions performs in the second operating process, and remaining sub-instructions performs after the second operation terminates.

13. electronic equipments according to claim 12, is characterized in that, described processor specifically comprises:

First detection module, for detecting the first operation of operating body according to the position data collected of touch detecting apparatus;

Determination module, for determining an operand according to the first operation from the object of display unit display;

Second detection module, for detecting described operating body relative to described touch-screen from described first locus to second of second space position the operation according to the position data collected of touch detecting apparatus;

First execution module, for being less than or equal to described Second Threshold when the distance between described second space position and described touch-screen, and when the distance described in described second operating process between operating body and described touch-screen is greater than described first threshold and is less than or equal to described Second Threshold, one first preset instructions sequence is performed to described operand.