CN105824531A - Method and device for adjusting numbers - Google Patents

Abstract

The invention relates to a method and a device for adjusting numbers. The method comprises the following steps of controlling a display area of touch equipment to display a first slide block control, wherein the initial position of the first slide block control corresponds to an initial number; detecting the touch operation of the first slide block control, wherein a touch event includes dragging operation and/or pressing operation corresponding to the first slide block control; according to the track of the dragging operation of the first slide block control, adjusting the position of the first slide block control, and according to the movement direction and the distance between the current position and initial position of the first slide block control, obtaining an adjusting value, so as to adjust the original number; when the pressure number of the pressing operation is positioned in a first pressure zone, enabling the area outside the first slide block control to display the adjusting number; when the pressure number of the pressing operation is positioned in a second pressure zone, entering an accurate adjusting mode to accurately adjust the original number. The method has the advantage that the better user experiences can be provided.

Description

Numerical value method of adjustment and device

Technical field

It relates to human-computer interaction technique field, in particular to a kind of numerical value method of adjustment and numerical value adjusting apparatus.

Background technology

Along with the fast development of mobile communication technology, touch control device occurs in that increasing various application program.The adjustment of numerical value can be related in a lot of application programs, such as, the adjustment of the numerical value such as character attribute or number of articles, the adjustment of the numerical value such as volume or playing progress rate in audiovisual applications, brightness in image processing software, contrast and the adjustment of color equal value in game application.

Current a kind of conventional mode is to display to the user that slider control, and then realizes the adjustment of numerical value according to user for dragging the dragging of slider control.With reference to shown in Figure 1A and Figure 1B, for the slider control 10 adjusted for numerical value in a kind of application program.When user drags slider control 10 by finger, touch control device can obtain an adjusted value to adjust raw value by judging the size of the trailing distance of slider control 10.Such as, start to drag distance the longest to represent adjusted value the biggest from home position；Drag distance the shortest to represent adjusted value the least from home position.Furthermore, touch control device can be by judging the direction in slider control 10 its home position relative, it is judged that user to realize still reducing for the increase of raw value.Such as, dragging slider control 10 of turning right represents and increases；Dragging slider control 10 of turning left represents and reduces.

But in technique scheme, on the one hand, when user drags slider control 10 by finger, certain sight line can be caused to block due to the volume of finger self, cause user during dragging slider control 10, the distance oneself slider control 10 dragged cannot be observed intuitively, and then concrete adjustment degree cannot be learnt；On the other hand, the trailing distance of slider control 10 is controlled by finger, it is difficult to accomplish accurately to adjust, and particularly in some operations needing to be accurate to units, is dragged by finger and may drag the position being the most all unable to reach needs.

It should be noted that be only used for strengthening the understanding of background of this disclosure in information disclosed in above-mentioned background section, therefore can include not constituting the information to prior art known to persons of ordinary skill in the art.

Summary of the invention

For subproblem of the prior art or whole issue, the disclosure provides a kind of numerical value method of adjustment and numerical value adjusting apparatus.

First aspect according to disclosure embodiment, it is provided that a kind of numerical value method of adjustment, is applied to realize the touch control device of pressure-sensing；Described numerical value method of adjustment includes:

Showing one first slider control in controlling the viewing area of described touch control device, initial position and an initial value of described first slider control are corresponding；

Detecting the touch control operation on described first slider control, described touch event includes the drag operation for described first slider control and/or pressing operation；

The drag operation of track according to to(for) described first slider control adjusts the position of described first slider control, and obtains an adjusted value to adjust described raw value according to the distance between described first slider control current location and its initial position and the direction of motion；

When the force value of described pressing operation is positioned at first pressure range, the region outside described first slider control shows described adjusted value；When the force value of described pressing operation is positioned at second pressure range, enter accurate adjustment modes so that described raw value accurately to be adjusted.

In a kind of exemplary embodiment of the disclosure, the force value of described pressing operation includes the first pressure range and the second pressure range, and in described first pressure range, maximum is less than minima in the second pressure range；Wherein:

When the force value of described pressing operation is positioned at described first pressure range, the region outside described first slider control shows described adjusted value；

When the force value of described pressing operation is positioned at described second pressure range, enter accurate adjustment modes, so that described raw value accurately to be adjusted.

In a kind of exemplary embodiment of the disclosure, the force value of described pressing operation includes the first pressure range, the second pressure range and the 3rd pressure range, in described 3rd pressure range, maximum is less than minima in the first pressure range, and in described first pressure range, maximum is less than minima in the second pressure range；Wherein:

When the force value of described pressing operation is positioned at described three pressure range, do not show described adjusted value；

When the force value of described pressing operation is positioned at described first pressure range, the region outside described first slider control shows described adjusted value；

When the force value of described pressing operation is positioned at described second pressure range, enter accurate adjustment modes, so that described raw value accurately to be adjusted.

In a kind of exemplary embodiment of the disclosure, described numerical value method of adjustment also includes:

Control described adjusted value and show the preset direction at described first slider control, and the described adjusted value controlling display is followed described first slider control and moved.

In a kind of exemplary embodiment of the disclosure, described accurate adjustment modes includes:

Showing a numerical value input control in controlling the viewing area of described touch control device, described numerical value input control obtains the numerical value of input and accurately adjusts described raw value according to the numerical value obtained.

In a kind of exemplary embodiment of the disclosure, described accurate adjustment modes also includes:

Controlling the position of described first slider control, the position making described first slider control is corresponding with the numerical value after described accurate adjustment.

In a kind of exemplary embodiment of the disclosure, described accurate adjustment modes includes:

One second slider control is shown in controlling the viewing area of described touch control device；

Detecting the touch control operation on described second slider control, described touch event includes the drag operation for described second slider control；

The drag operation of track according to to(for) described second slider control adjusts the position of described second slider control, and adjusts the position of described first slider control according to the distance between described second slider control current location and its initial position and the direction of motion.

In a kind of exemplary embodiment of the disclosure, described accurate adjustment modes also includes:

After entering described accurate adjustment modes, the region outside described first slider control and the second slider control shows described adjusted value.

Second aspect according to disclosure embodiment, it is provided that a kind of numerical value adjusting apparatus, is applied to realize the touch control device of pressure-sensing；Described numerical value adjusting apparatus includes:

Presenting control module, show one first slider control in the viewing area controlling described touch control device, initial position and an initial value of described first slider control are corresponding；

Input detecting module, for detecting the touch control operation on described first slider control, described touch event includes the drag operation for described first slider control and/or pressing operation；

Slide block adjusting module, adjust the position of described first slider control for the track according to the drag operation for described first slider control, and obtain an adjusted value to adjust described raw value according to the distance between described first slider control current location and its initial position and the direction of motion；

Adjusted value display module, for when the force value of described pressing operation is positioned at first pressure range, the region outside described first slider control shows described adjusted value；

Accurately adjusting module, for when the force value of described pressing operation is positioned at second pressure range, enters accurate adjustment modes accurately to adjust described raw value.

In a kind of exemplary embodiment of the disclosure, the force value of described pressing operation includes the first pressure range and the second pressure range, and in described first pressure range, maximum is less than minima in the second pressure range；Wherein:

Described adjusted value display module is for when the force value of described pressing operation is positioned at described first pressure range, and the region outside described first slider control shows described adjusted value；

Described accurate adjusting module, for when the force value of described pressing operation is positioned at described second pressure range, enters accurate adjustment modes, accurately to adjust described raw value.

In a kind of exemplary embodiment of the disclosure, the force value of described pressing operation includes the first pressure range, the second pressure range and the 3rd pressure range, in described 3rd pressure range, maximum is less than minima in the first pressure range, and in described first pressure range, maximum is less than minima in the second pressure range；Wherein:

Described adjusted value display module is for when the force value of described pressing operation is positioned at described three pressure range, do not show described adjusted value, and, when the force value of described pressing operation is positioned at described first pressure range, the region outside described first slider control shows described adjusted value；

Described accurate adjusting module, for when the force value of described pressing operation is positioned at described second pressure range, enters accurate adjustment modes, accurately to adjust described raw value.

In a kind of exemplary embodiment of the disclosure, wherein:

Described adjusted value display module is additionally operable to control described adjusted value and shows the preset direction at described first slider control, and the described adjusted value controlling display is followed described first slider control and moved.

In a kind of exemplary embodiment of the disclosure, described accurate adjustment modes includes:

Showing a numerical value input control in controlling the viewing area of described touch control device, described numerical value input control obtains the numerical value of input and accurately adjusts described raw value according to the numerical value obtained.

In a kind of exemplary embodiment of the disclosure, wherein:

Slide block adjusting module is additionally operable to control the position of described first slider control, and the position making described first slider control is corresponding with the numerical value after described accurate adjustment.

In a kind of exemplary embodiment of the disclosure, described accurate adjustment modes includes:

One second slider control is shown in controlling the viewing area of described touch control device；

Detecting the touch control operation on described second slider control, described touch event includes the drag operation for described second slider control；

The drag operation of track according to to(for) described second slider control adjusts the position of described second slider control, and adjusts the position of described first slider control according to the distance between described second slider control current location and its initial position and the direction of motion.

In a kind of exemplary embodiment of the disclosure, wherein:

After described adjusted value display module is additionally operable to enter described accurate adjustment modes, the region outside described first slider control and the second slider control shows described adjusted value.

In numerical value method of adjustment in a kind of embodiment of the disclosure and device, by combining pressure sensitivity touch technology, on the one hand, can be on the basis of realizing described first slider control original function, adjusted value is shown outside user's finger area pressed, and then so that user intuitively obtains the adjustment degree that oneself is realized for the drag operation of the first slider control；On the other hand, when user needs logarithm value accurately to adjust, accurate adjustment modes can be entered very natural and easily, and then user is without repeatedly dragging the position that the first slider control is parked to find oneself needs, optimizes the operating experience of user the most greatly；Another further aspect, it is not necessary to arrange the control knob interface of accurate adjustment modes, therefore can utilize more space effectively to show, gives the more preferable sensory experience of user while promoting screen utilization rate.

It should be appreciated that it is only exemplary and explanatory that above general description and details hereinafter describe, the disclosure can not be limited.

Accompanying drawing explanation

Accompanying drawing herein is merged in description and constitutes the part of this specification, it is shown that meets and embodiment of the disclosure, and for explaining the principle of the disclosure together with description.It should be evident that the accompanying drawing in describing below is only some embodiments of the disclosure, for those of ordinary skill in the art, on the premise of not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.

Figure 1A and Figure 1B schematically shows the operation interface of a kind of numerical value method of adjustment.

Fig. 2 schematically shows the flow chart of a kind of numerical value method of adjustment in disclosure exemplary embodiment.

Fig. 3 A and Fig. 3 B schematically shows the operation interface of a kind of numerical value method of adjustment in disclosure exemplary embodiment.

Fig. 4 schematically shows the operation interface in disclosure exemplary embodiment under a kind of accurate adjustment modes.

Fig. 5 A and Fig. 5 B schematically shows the operation interface in disclosure exemplary embodiment under a kind of accurate adjustment modes.

Fig. 6 schematically shows the block diagram of a kind of numerical value adjusting apparatus in disclosure exemplary embodiment.

Detailed description of the invention

It is described more fully with example embodiment referring now to accompanying drawing.But, example embodiment can be implemented in a variety of forms, and is not understood as limited to example set forth herein；On the contrary, it is provided that these embodiments make the disclosure will more fully and completely, and the design of example embodiment is conveyed to those skilled in the art all sidedly.Described feature, structure or characteristic can be combined in one or more embodiment in any suitable manner.In the following description, it is provided that many details thus provide fully understanding of embodiment of this disclosure.It will be appreciated, however, by one skilled in the art that the technical scheme of the disclosure can be put into practice and omit in described specific detail one or more, or other method, constituent element, device, step etc. can be used.In other cases, it is not shown in detail or describes known solution a presumptuous guest usurps the role of the host and each side of the disclosure is thickened to avoid.

Additionally, accompanying drawing is only the schematic illustrations of the disclosure, it is not necessarily drawn to scale.Reference identical in figure represents same or similar part, thus will omit repetition thereof.Some block diagrams shown in accompanying drawing are functional entitys, it is not necessary to must be corresponding with the most independent entity.Software form can be used to realize these functional entitys, or in one or more hardware modules or integrated circuit, realize these functional entitys, or in heterogeneous networks and/or processor device and/or microcontroller device, realize these functional entitys.

Along with the development of electronic technology, have been realized in carrying out the touch control device of pressure-sensing at present, such that it is able to bring new manipulation and input mode for user.Such as, a lot of companies and be proposed the touch-control smart mobile phone possessing pressure-sensing.Such touch control device is possible not only to the touch operation the sensing user input as touch control device, can also be by size, position and the action time of pressure be carried out perception, thus by pressure separately as the input of touch control device, or combining as the input of touch control device using pressure and other input modes, the operation for user brings a lot of convenience and interest.

Provide firstly a kind of numerical value method of adjustment in this example embodiment, this numerical value method of adjustment is mainly used in the above-mentioned touch control device realizing pressure-sensing.This touch control device can be the various touch control devices that can realize pressure-sensing such as mobile phone, panel computer, notebook computer, game machine, PDA.With reference to shown in Fig. 2, described numerical value method of adjustment may comprise steps of:

S1. showing one first slider control 20 in controlling the viewing area of described touch control device, initial position and an initial value of described first slider control 20 are corresponding.

With reference to shown in Fig. 3 A and Fig. 3 B, the Touch Screen display numerical value that application program controls touch control device by the application programming interfaces (API) of touch control device adjusts interface, at least includes the first slider control 20 in numerical value adjusts interface.In this example embodiment, described application program can be such as game application, and described numerical value method of adjustment may be used for the adjustment of the numerical value such as character attribute or number of articles in game application；Described application program can also be such as audiovisual applications, and described numerical value method of adjustment may be used for the adjustment of the numerical value such as volume or playing progress rate in audiovisual applications；Described application program can also be such as image processing software, and described numerical value method of adjustment may be used for brightness in image processing software, contrast and the adjustment of color equal value；Described application program can also be such as ocr software, and described numerical value method of adjustment may be used for reading in ocr software the adjustment of the numerical value such as progress and font size；In addition, described numerical value method of adjustment can be used for touch control device inherent parameters, the such as adjustment of the numerical value such as brightness and volume；This example embodiment is not i.e. limited to the range of application of described numerical value method of adjustment.

Above-mentioned first slider control 20 can have many forms, such as, can be circular, square, triangle or all kinds of icons etc..As shown in fig. 3, described first slider control 20 could be for dragging in the horizontal direction, it is also possible to as shown in Figure 3 B, and described first slider control 20 is to drag in the vertical direction.By the first slider control 20 as a example by dragging in the horizontal direction, the initial position of described first slider control 20 is corresponding with initial value such as be may is that if slider control is at high order end, and such as coordinate is (x₁, y₁) numerical value corresponding to place is a, at low order end, such as coordinate is (x₂, y₁) numerical value corresponding to place is b；If initial value is c, the coordinate of the position at slider control place is (x₃, y₁), then x₃Can be such as (x₂-x₁)(c-a)/(b-a).But in other exemplary embodiments of the disclosure, the corresponding relation between position and the numerical value of the first slider control can also the most specifically set；This example embodiment is not i.e. limited to the external concrete manifestation form of described first slider control.

S2. detecting the touch control operation on described first slider control 20, described touch event includes the drag operation for described first slider control 20 and/or pressing operation.

Shown in Fig. 3 A and 3B, user can carry out simple drag operation, simple pressing operation on the first slider control 20 and carry out pressing operation while drag operation.The difference of the force value according to pressing operation, pressing operation can be divided into multiple different grade, such as can be divided into pole light press (can be considered and do not press) and normally press, weight, light pressure and pole light press (can be considered and do not press) can also be divided into, sensitivity according to pressure sensing module, it is also possible to carry out the other division of more stages.Wherein, the concrete criteria for classifying of pressing operation, such as exceed much force value and belong to weight, exceed how long belong to long by etc. by user or touch control device manufacturer or game services business sets itself as required, this can not done by this example embodiment particular determination.In various operations, first finger needs to contact Touch Screen, i.e. produce origination action, after detecting and having origination action on the first slider control 20, obtain the distance that finger moves, detecting that displacement, more than predeterminable range, is greater than 15 pixels, then may determine that and carried out drag operation after origination action.Wherein, the differentiation of slide is equally by this does not do in user or touch control device manufacturer or game services business sets itself, this example embodiment as required particular determination.

S3. the track according to the drag operation for described first slider control 20 adjusts the position of described first slider control 20, and obtains an adjusted value to adjust described raw value according to the distance between described first slider control 20 current location and its initial position and relative direction.

In this example embodiment, the first slider control 20 can be followed the dragging of finger and be moved.By above-mentioned first slider control 20 as a example by dragging in the horizontal direction, if the coordinate of described first slider control 20 current location is (x₄,y₁), itself and initial position (x₃, y₁Distance between) is | x₄-x₃|, then the size that can be adjusted value d accordingly is | x₄-x₃|(b-a)/(x₂-x₁).Direction according to first slider control 20 its initial position relative, it can be determined that user to realize still reducing for the increase of raw value；Such as, user drags to the right the first slider control 20, then be appreciated that described adjusted value is+d.But in other exemplary embodiments of the disclosure, between position and the numerical value of the first slider control for the relation of other modes time, then this will not done particular determination by the calculation of adjusted value yet in respective change, this exemplary embodiment.

S4. obtaining the force value of described pressing operation, when the force value of described pressing operation is positioned at first pressure range, the region outside described first slider control 20 shows described adjusted value；When the force value of described pressing operation is positioned at second pressure range, enter accurate adjustment modes so that described raw value accurately to be adjusted；In this example embodiment, described first pressure range and the second pressure range are nonoverlapping two pressure ranges.

Can control described adjusted value in this example embodiment and show the preset direction at described first slider control 20, such as, with reference to shown in Fig. 3 A～Fig. 3 B, described adjusted value shows above the first slider control 20 or left side etc..Additionally, the described adjusted value that can also control display in this example embodiment is followed described first slider control 20 and moved, consequently facilitating the observation of user.But it should be recognized that in other exemplary embodiments of the disclosure, described adjusted value can also be shown in a certain fixed area, this is not done by this example embodiment particular determination.

By the numerical value method of adjustment in this example embodiment, by combining pressure sensitivity touch technology, on the one hand, can be on the basis of realizing described first slider control original function, adjusted value is shown outside user's finger area pressed, and then so that user intuitively obtains the adjustment degree that oneself is realized for the drag operation of slider control；On the other hand, when user needs logarithm value accurately to adjust, accurate adjustment modes can be entered very natural and easily, and then user is without repeatedly dragging the position that the first slider control is parked to find oneself needs, optimizes the operating experience of user the most greatly；Another further aspect, it is not necessary to arrange the control knob interface of accurate adjustment modes, therefore can utilize more space effectively to show, gives the more preferable sensory experience of user while promoting screen utilization rate.

In this example embodiment, according to the concrete difference divided and the difference of actual demand of pressing operation, described step S4 can have multiple different implementation.For example:

This example embodiment can be when carrying out numerical value adjustment with general precision, all show described adjusted value, and after user carries out pressing operation, i.e. enter accurate adjustment modes.Such as, described step S4 may include that

S41. judge that the force value of described pressing operation is in the first pressure range or the second pressure range；In described first pressure range, maximum is less than minima in the second pressure range, and, the first pressure range and the second pressure range are that continuous print is interval；Such as, described first pressure range is 0～X1 newton, and described second pressure range is X1～X2 newton etc..

S42., when the force value at described pressing operation is in described first pressure range, the region outside described first slider control 20 shows described adjusted value.Owing to user is during carrying out slide, may be along with slight pressing, in this example embodiment, the pressing operation that can will be located in the first less pressure range of force value is considered as not carrying out pressing operation, therefore when user directly drags the first slider control 20 and do not carries out pressing operation, then may determine that user carries out is that common accurate numerical value adjusts, intuitively obtain the adjustment degree oneself realized for the drag operation of the first slider control 20 for the ease of user, the region outside described first slider control 20 shows described adjusted value.

S43. when the force value at described pressing operation is in described second pressure range, accurate adjustment modes is entered, so that described raw value accurately to be adjusted.Then may determine that user has carried out pressing operation really when the force value of pressing operation is positioned at bigger the second pressure range of force value, thus may determine that user needs accurately to adjust, therefore can enter accurate adjustment modes.

The most for example, this example embodiment can also being when carrying out numerical value adjustment with general precision, if do not pressed, the most not showing described adjusted value；If gently pressed, then show described adjusted value；And after user carries out weight operation, i.e. enter accurate adjustment modes.Such as, described step S4 may include that

S41. judge that the force value of described pressing operation is in the first pressure range, the second pressure range or the 3rd pressure range；In described 3rd pressure range, maximum is less than minima in the first pressure range, and in described first pressure range, maximum is less than minima in the 3rd pressure range, and, the 3rd pressure range, the first pressure range and the second pressure range are that continuous print is interval；Such as, described 3rd pressure range is 0～X1 newton, and described first pressure range is X1～X2 newton, and described second pressure range is X2～X3 newton etc..

S42., when the force value at described pressing operation is in described three pressure range, described adjusted value is not shown.Owing to user is during carrying out slide, may be along with slight pressing, in this example embodiment, the pressing operation that can will be located in the first less pressure range of force value is considered as not carrying out pressing operation, thus may determine that user is without showing described adjusted value, such that it is able to control touch control device do not show described adjusted value, and then save display space.

S43., when the force value at described pressing operation is in described second pressure range, the region outside described first slider control 20 shows described adjusted value.In this example embodiment, the pressing operation that described second pressure range is corresponding can be that user carries out flicking, and therefore user is when needs are intuitively observed, and can show described adjusted value after flicking.

S44. when the force value at described pressing operation is in described three pressure range, accurate adjustment modes is entered, so that described raw value accurately to be adjusted.In this example embodiment, the pressing operation that described 3rd pressure range is corresponding can be user carry out heavily by, therefore user is when raw value is accurately adjusted by needs, can enter accurate adjustment modes after heavily pressing.

Further, described in this example embodiment, accurate adjustment modes can be accomplished in several ways.For example:

With reference to shown in Fig. 4, can be when the force value of described pressing operation is positioned at second pressure range, enter accurate adjustment modes, a numerical value input control 30 is shown in controlling the viewing area of described touch control device, user can carry out numerical value input by carrying out click in numerical value input control 30, and described numerical value input control 30 obtains the numerical value of input and accurately adjusts described raw value according to the numerical value obtained.After described numerical value input control 30 gets the numerical value of input, can be directly described raw value to be adjusted to the numerical value got；The adjustment that can also increase raw value using the numerical value that gets as adjusted value or reduce, does not do particular determination to this in this exemplary embodiment.

In addition, in this example embodiment after raw value is adjusted by the numerical value obtained according to numerical value input control 30, the position of described first slider control 20 can also be adjusted, the position making described first slider control 20 is corresponding with the numerical value after described accurate adjustment, adjusts consequently facilitating carry out numerical value next time.

With reference to shown in Fig. 5 A and Fig. 5 B, can also be when the force value of described pressing operation is positioned at second pressure range, enter accurate adjustment modes, one second slider control 40 is shown in controlling the viewing area of described touch control device, and detecting the touch control operation on described second slider control 40, described touch event includes the drag operation for described second slider control 40；The drag operation of track according to to(for) described second slider control 40 adjusts the position of described second slider control 40, and adjusts the position of described first slider control 20 according to the distance between described second slider control 40 current location and its initial position and the direction of motion.Similar with the first slider control 20, in this example embodiment, the external expressive form for the second slider control 40 does not the most do particular determination；As shown in Fig. 5 A and Fig. 5 B, by the second slider control 40 as a example by dragging in the horizontal direction, the initial position of described second slider control 40 may be located at the centre position that its motion is interval, when described second slider control 40 is dragged the first distance to the left, according to the ratio of 1:N (N is less than 1, such as can be 0.2,0.1,0.01 etc.), described first slider control 20 can be dragged second distance to the left；When described second slider control 40 is dragged the first distance to the right, according to the ratio of 1:N (N is less than 1, such as can be 0.2,0.1,0.01 etc.), described first slider control 20 can be dragged to the right second distance.So, then can control the motion of the first slider control 20 with higher degree of accuracy, and then raw value can be adjusted more accurately.It should be noted that due in Fig. 5 A and Fig. 5 B the adjusting range of the second slider control 40 less, it is thus possible to need to enter accurate adjustment modes more than once and be adjusted.

In addition, the adjustment degree oneself drag operation of the first slider control 20 realized intuitively is obtained for the ease of user, as shown in Figure 5 B, after entering described accurate adjustment modes, this example embodiment can also show described adjusted value in the region outside described first slider control 20 and the second slider control 40.

Further, this example embodiment additionally provides a kind of numerical value adjusting apparatus, is applied to realize the touch control device of pressure-sensing.With reference to shown in Fig. 6, numerical value adjusting apparatus 6 can include presenting control module 61, input detecting module 62, slide block adjusting module 63, adjusted value display module 64 and accurate adjusting module 65.Wherein:

Presenting in control module 61 may be used for controlling the viewing area of described touch control device and show one first slider control, initial position and an initial value of described first slider control are corresponding.

Input detecting module 62 may be used for detecting the touch control operation on described first slider control, and described touch event includes the drag operation for described first slider control and/or pressing operation.

Slide block adjusting module 63 may be used for the track according to the drag operation for described first slider control and adjusts the position of described first slider control, and obtains an adjusted value to adjust described raw value according to the distance between described first slider control current location and its initial position.

Adjusted value display module 64 may be used for when the force value of described pressing operation is positioned at first pressure range, and the region outside described first slider control shows described adjusted value.

Accurately adjusting module 65 may be used for when the force value of described pressing operation is positioned at second pressure range, enters accurate adjustment modes accurately to adjust described raw value.

In this exemplary embodiment, the force value of described pressing operation includes the first pressure range and the second pressure range, and in described first pressure range, maximum is less than minima in the second pressure range.Wherein:

Described adjusted value display module 64 may be used for when the force value of described pressing operation is positioned at described first pressure range, and the region outside described first slider control shows described adjusted value.

Described accurate adjusting module can enter accurate adjustment modes, accurately to adjust described raw value with 65 for when the force value of described pressing operation is positioned at described second pressure range.

In this exemplary embodiment, the force value of described pressing operation includes the first pressure range, the second pressure range and the 3rd pressure range, in described 3rd pressure range, maximum is less than minima in the first pressure range, and in described first pressure range, maximum is less than minima in the second pressure range.Wherein:

Described adjusted value display module 64 may be used for when the force value of described pressing operation is positioned at described three pressure range, do not show described adjusted value, and, when the force value of described pressing operation is positioned at described first pressure range, the region outside described first slider control shows described adjusted value.

Described accurate adjusting module 65 may be used for when the force value of described pressing operation is positioned at described second pressure range, entering accurate adjustment modes, accurately to adjust described raw value.

In this exemplary embodiment, described adjusted value display module 64 can be also used for controlling described adjusted value and shows the preset direction at described first slider control, and the described adjusted value controlling display is followed described first slider control and moved.

In this exemplary embodiment, described accurate adjustment modes may include that

Showing a numerical value input control in controlling the viewing area of described touch control device, described numerical value input control obtains the numerical value of input and accurately adjusts described raw value according to the numerical value obtained.

In this exemplary embodiment, slide block adjusting module 63 can be also used for controlling the position of described first slider control, and the position making described first slider control is corresponding with the numerical value after described accurate adjustment.

In this exemplary embodiment, described accurate adjustment modes may include that

One second slider control is shown in controlling the viewing area of described touch control device；

Detecting the touch control operation on described second slider control, described touch event includes the drag operation for described second slider control；

The drag operation of track according to to(for) described second slider control adjusts the position of described second slider control, and adjusts the position of described first slider control according to the distance between described second slider control current location and its initial position.

In this exemplary embodiment, after described adjusted value display module 64 can be also used for entering described accurate adjustment modes, the region outside described first slider control and the second slider control shows described adjusted value.

In above-mentioned numerical value adjusting apparatus, the concrete details that performs of each module is described in detail in corresponding numerical value method of adjustment, and therefore here is omitted.

Although it should be noted that, be referred to some modules or the unit of the equipment for action executing in above-detailed, but this division is the most enforceable.It practice, can embody in a module or unit according to embodiment of the present disclosure, two or more modules above-described or the feature of unit and function.Otherwise, an above-described module or the feature of unit and function can embody with Further Division for by multiple modules or unit.

Although additionally, describe each step of method in the disclosure with particular order in the accompanying drawings, but, this does not requires that or implies must be according to this particular order to perform these steps, or the step shown in having to carry out all could realize desired result.Additional or alternative, it is convenient to omit some step, multiple steps are merged into a step and performs, and/or a step is decomposed into multiple step execution etc..

Through the above description of the embodiments, those skilled in the art is it can be readily appreciated that example embodiment described herein can be realized by software, it is also possible to realize by the way of software combines necessary hardware.Therefore, technical scheme according to disclosure embodiment can embody with the form of software product, it (can be CD-ROM that this software product can be stored in a non-volatile memory medium, USB flash disk, portable hard drive etc.) in or network on, including some instructions so that calculating equipment (can be personal computer, server, touch control device or the network equipment etc.) performs the method according to disclosure embodiment.

Those skilled in the art, after considering description and putting into practice invention disclosed herein, will readily occur to other embodiment of the disclosure.The application is intended to any modification, purposes or the adaptations of the disclosure, and these modification, purposes or adaptations are followed the general principle of the disclosure and include the undocumented common knowledge in the art of the disclosure or conventional techniques means.Description and embodiments is considered only as exemplary, and the true scope of the disclosure and spirit are pointed out by claim below.

Claims (16)

1. a numerical value method of adjustment, is applied to realize the touch control device of pressure-sensing；It is characterized in that, described numerical value method of adjustment includes:

Showing one first slider control in controlling the viewing area of described touch control device, initial position and an initial value of described first slider control are corresponding；

Detecting the touch control operation on described first slider control, described touch event includes the drag operation for described first slider control and/or pressing operation；

The drag operation of track according to to(for) described first slider control adjusts the position of described first slider control, and obtains an adjusted value to adjust described raw value according to the distance between described first slider control current location and its initial position and the direction of motion；

When the force value of described pressing operation is positioned at first pressure range, the region outside described first slider control shows described adjusted value；When the force value of described pressing operation is positioned at second pressure range, enter accurate adjustment modes so that described raw value accurately to be adjusted.

Numerical value method of adjustment the most according to claim 1, it is characterised in that the force value of described pressing operation includes the first pressure range and the second pressure range, in described first pressure range, maximum is less than minima in the second pressure range；Wherein:

When the force value of described pressing operation is positioned at described first pressure range, the region outside described first slider control shows described adjusted value；

When the force value of described pressing operation is positioned at described second pressure range, enter accurate adjustment modes, so that described raw value accurately to be adjusted.

Numerical value method of adjustment the most according to claim 1, it is characterized in that, the force value of described pressing operation includes the first pressure range, the second pressure range and the 3rd pressure range, in described 3rd pressure range, maximum is less than minima in the first pressure range, and in described first pressure range, maximum is less than minima in the second pressure range；Wherein:

When the force value of described pressing operation is positioned at described three pressure range, do not show described adjusted value；

When the force value of described pressing operation is positioned at described first pressure range, the region outside described first slider control shows described adjusted value；

When the force value of described pressing operation is positioned at described second pressure range, enter accurate adjustment modes, so that described raw value accurately to be adjusted.

Numerical value method of adjustment the most according to claim 1, it is characterised in that described numerical value method of adjustment also includes:

Control described adjusted value and show the preset direction at described first slider control, and the described adjusted value controlling display is followed described first slider control and moved.

5. according to the numerical value method of adjustment described in Claims 1 to 4 any one, it is characterised in that described accurate adjustment modes includes:

Showing a numerical value input control in controlling the viewing area of described touch control device, described numerical value input control obtains the numerical value of input and accurately adjusts described raw value according to the numerical value obtained.

Numerical value method of adjustment the most according to claim 5, it is characterised in that described accurate adjustment modes also includes:

Controlling the position of described first slider control, the position making described first slider control is corresponding with the numerical value after described accurate adjustment.

7. according to the numerical value method of adjustment described in Claims 1 to 4 any one, it is characterised in that described accurate adjustment modes includes:

One second slider control is shown in controlling the viewing area of described touch control device；

Detecting the touch control operation on described second slider control, described touch event includes the drag operation for described second slider control；

The drag operation of track according to to(for) described second slider control adjusts the position of described second slider control, and adjusts the position of described first slider control according to the distance between described second slider control current location and its initial position and the direction of motion.

Numerical value method of adjustment the most according to claim 7, it is characterised in that described accurate adjustment modes also includes:

After entering described accurate adjustment modes, the region outside described first slider control and the second slider control shows described adjusted value.

9. a numerical value adjusting apparatus, is applied to realize the touch control device of pressure-sensing；It is characterized in that, described numerical value adjusting apparatus includes:

Presenting control module, show one first slider control in the viewing area controlling described touch control device, initial position and an initial value of described first slider control are corresponding；

Input detecting module, for detecting the touch control operation on described first slider control, described touch event includes the drag operation for described first slider control and/or pressing operation；

Slide block adjusting module, adjust the position of described first slider control for the track according to the drag operation for described first slider control, and obtain an adjusted value to adjust described raw value according to the distance between described first slider control current location and its initial position and the direction of motion；

Adjusted value display module, for when the force value of described pressing operation is positioned at first pressure range, the region outside described first slider control shows described adjusted value；

Accurately adjusting module, for when the force value of described pressing operation is positioned at second pressure range, enters accurate adjustment modes accurately to adjust described raw value.

Numerical value adjusting apparatus the most according to claim 9, it is characterised in that the force value of described pressing operation includes the first pressure range and the second pressure range, in described first pressure range, maximum is less than minima in the second pressure range；Wherein:

Described adjusted value display module is for when the force value of described pressing operation is positioned at described first pressure range, and the region outside described first slider control shows described adjusted value；

Described accurate adjusting module, for when the force value of described pressing operation is positioned at described second pressure range, enters accurate adjustment modes, accurately to adjust described raw value.

11. numerical value adjusting apparatus according to claim 9, it is characterized in that, the force value of described pressing operation includes the first pressure range, the second pressure range and the 3rd pressure range, in described 3rd pressure range, maximum is less than minima in the first pressure range, and in described first pressure range, maximum is less than minima in the second pressure range；Wherein:

Described adjusted value display module is for when the force value of described pressing operation is positioned at described three pressure range, do not show described adjusted value, and, when the force value of described pressing operation is positioned at described first pressure range, the region outside described first slider control shows described adjusted value；

Described accurate adjusting module, for when the force value of described pressing operation is positioned at described second pressure range, enters accurate adjustment modes, accurately to adjust described raw value.

12. numerical value methods of adjustment according to claim 9, it is characterised in that wherein:

Described adjusted value display module is additionally operable to control described adjusted value and shows the preset direction at described first slider control, and the described adjusted value controlling display is followed described first slider control and moved.

13. according to the numerical value adjusting apparatus described in claim 9～12 any one, it is characterised in that described accurate adjustment modes includes:

Showing a numerical value input control in controlling the viewing area of described touch control device, described numerical value input control obtains the numerical value of input and accurately adjusts described raw value according to the numerical value obtained.

14. numerical value adjusting apparatus according to claim 13, it is characterised in that wherein:

Slide block adjusting module is additionally operable to control the position of described first slider control, and the position making described first slider control is corresponding with the numerical value after described accurate adjustment.

15. according to the numerical value adjusting apparatus described in claim 9～12 any one, it is characterised in that described accurate adjustment modes includes:

One second slider control is shown in controlling the viewing area of described touch control device；

Detecting the touch control operation on described second slider control, described touch event includes the drag operation for described second slider control；

The drag operation of track according to to(for) described second slider control adjusts the position of described second slider control, and adjusts the position of described first slider control according to the distance between described second slider control current location and its initial position and the direction of motion.

16. numerical value adjusting apparatus according to claim 15, it is characterised in that wherein:

After described adjusted value display module is additionally operable to enter described accurate adjustment modes, the region outside described first slider control and the second slider control shows described adjusted value.