CN105045520B - A kind of touch screen response method and device - Google Patents

Abstract

The invention discloses a kind of touch screen response method and devices.The touch screen response method includes: in virtual controlling plate in response to user from the touch control operation on moving area, and the position of the touch point according to the touch control operation, calculates the movement speed and moving direction for obtaining controlled device；Wherein, it is in relationships of increase function that the moving direction, which is the distance between the central point of the direction of the central point of the relatively described virtual controlling plate of the touch point, the movement speed or acceleration of the controlled device and the touch point and the virtual controlling plate,；The virtual controlling plate is shown in the arbitrary region of touch screen；The controlled device is controlled to move on the touch screen with the moving direction and the movement speed.Using the embodiment of the present invention, can quickly, be accurately controlled controlled device and move on the touchscreen.

Description

A kind of touch screen response method and device

Technical field

The present invention relates to technical field of mobile terminals more particularly to a kind of touch screen response methods and device.

Background technique

With popularizing for touch screen, operating habit of people when using electronic product is operated by past physical button It is changed into contact action.Contact action requires user to carry out operation control on the screen using finger.However, with industrial level Increasingly flourishing, the cost of manufacture of screen is lower and lower, and the screen that electronic equipment uses is also increasing.Large screen is high-resolution Touch display screen also also brings certain trouble to the operation of user while giving the grand banquet of user's vision.The operation of user Mode is generally one hand and holds electronic equipment and operated on the screen using thumb, if but user need use apart from finger compared with Remote application software or when needing to click menu position, close button, this operation mode can be extremely difficult, while being easy to make electricity Sub- equipment slides.

In this regard, many solutions are suggested.Some schemes are solved by generating a screen thumbnail on the screen Certainly.But a general area can only be clicked since screen thumbnail is too small, when finger is clicked in screen thumbnail Domain, can not precise manipulation.For example, user wants to click the icon of an application software in screen thumbnail, and icon is shielding Usually only several pixels in curtain thumbnail, it is unpractical for removing the icon for accurately clicking several pixels using finger.

In addition, being by making the interface of entire display area narrow down to portion for remote screen " movement " there are also some schemes It is solved in point display area.But this solution adds additional operations, while affect it is right in operating process The display of the effective content of screen.Moreover, cannot flexibly switch between entire display area and part display area, and switched Journey is complicated.

Summary of the invention

The embodiment of the present invention proposes a kind of touch screen response method and device, can quickly, be accurately controlled controlled device It moves on the touchscreen.

The embodiment of the present invention provides a kind of touch screen response method, comprising:

In response to user in virtual controlling plate from the touch control operation on moving area, according to the touch-control of the touch control operation The position of point calculates the movement speed and moving direction for obtaining controlled device；Wherein, the moving direction is the touch point phase To the direction of the central point of the virtual controlling plate, the movement speed or acceleration of the controlled device and the touch point and institute The distance between central point of virtual controlling plate is stated in relationships of increase function；The virtual controlling plate is shown in any area of touch screen Domain；

The controlled device is controlled to move on the touch screen with the moving direction and the movement speed.

Further, it is described in response to user in virtual controlling plate from the touch control operation on moving area, according to described The position of the touch point of touch control operation calculates the movement speed and moving direction for obtaining controlled device, specifically includes:

In response to user in virtual controlling plate from the touch control operation on moving area, when the operation of start recording user It is long；

When the operation duration reaches preset duration threshold value, according to the position of the touch point of the touch control operation, meter Calculate the movement speed and moving direction for obtaining controlled device.

Further, the increasing function is direct proportion function or segmentation increasing function；The different section letters of the segmentation increasing function Number is constant or direct proportion function with section function in relationship is incremented by.

It is preferably carried out in mode at first, the virtual controlling plate is border circular areas, in the virtual controlling plate Heart point is the center of circle of the border circular areas, and the virtual controlling plate is entirely from moving area；When the touch point and the void When the distance between the central point of quasi- control panel is less than the radius of the virtual controlling plate, the touch control operation position of user is determined In on virtual controlling plate from moving area.

It is preferably carried out in mode at second, the virtual controlling plate is circular annular region, the virtual controlling plate Central point is the center of circle of the circular annular region, and the virtual controlling plate is entirely from moving area；When the touch point and institute When stating the distance between central point of virtual controlling plate and being located between the inside and outside radius of the virtual controlling plate, determine user's The touch control operation be located on virtual controlling plate from moving area.

It is preferably carried out in mode in third, the virtual controlling plate is semicircular area, the virtual controlling plate Central point is the center of circle of the semicircular area, and the virtual controlling plate is entirely from moving area；When the touch point and institute State the radius that the distance between central point of virtual controlling plate is less than the virtual controlling plate, and the touch point and the center When being located at the angle between the radius of symmetrical shaft position in the line and the virtual controlling plate of point less than 90 °, determine user's The touch control operation be located on virtual controlling plate from moving area.

It is preferably carried out in mode at the 4th, the virtual controlling plate is semi-circular shape region, the virtual controlling plate Central point be the semi-circular shape region the center of circle, the virtual controlling plate is entirely from moving area；When the touch point The distance between central point of the virtual controlling plate is located between the inside and outside radius of the virtual controlling plate, and the touching The angle being located between the radius of symmetrical shaft position in the line and the virtual controlling plate of control point and the central point is less than 90 ° When, determine the touch control operation of user be located on virtual controlling plate from moving area.

Further, the touch screen response method further include:

In response to user to the rotation process of the virtual controlling plate, the virtual controlling plate is rotated.

It is preferably carried out in mode at another, the virtual controlling plate further includes normal movement region；The normal shifting Dynamic region is circle, and described be the annular region in the circular normal movement region from moving area；

The touch screen response method further include:

In response to slide of the user on the normal movement region of virtual controlling plate, the slide is obtained in real time Glide direction and sliding speed on the normal movement region；

Glide direction and sliding speed based on the slide calculate the moving direction for obtaining controlled device and movement Speed, wherein the moving direction of the controlled device is consistent with the glide direction of the slide, the shifting of the controlled device Dynamic speed is proportional to the sliding speed of the slide.

Further, the controlled device is controlled with the moving direction and the movement speed in the touch described On screen after movement, further includes:

Terminate in response to user's touch control operation, controls the controlled device and stop movement.

Further, the touch screen response method further include:

In response to the control instruction that user issues on the virtual controlling plate, to pair of the controlled device position As performing corresponding processing.

Further, the touch screen response method further include:

In response to touch control operation of the user in the touch screen zone other than virtual controlling plate, the controlled device is hidden, And virtual controlling plate diminution is shown as suspension button.

Further, the touch screen response method further include:

In response to user to the clicking operation of suspension button, described controlled pair is shown in the center of the touch screen As, and suspension button amplification is shown as the virtual controlling plate.

Further, the touch screen response method further include:

In response to user to the drag operation of the suspension button, the mobile suspension button.

Further, the touch screen response method further include:

In response to user to the drag operation of the virtual controlling plate, the mobile virtual controlling plate.

The embodiment of the present invention also provides a kind of touch screen response method, comprising:

In response to user in virtual controlling plate from the touch control operation on moving area, according to the touch-control of the touch control operation Point is controlled controlled device and is being touched with preset movement speed/acceleration and moving direction in the position from moving area It touches and is moved on screen；The virtual controlling plate is shown in the arbitrary region of the touch screen.

Correspondingly, the embodiment of the present invention provides a kind of touch screen responding device, comprising:

Computing module, in response to user in virtual controlling plate from the touch control operation on moving area, according to described The position of the touch point of touch control operation calculates the movement speed and moving direction for obtaining controlled device；Wherein, the moving direction For the direction of the central point of the relatively described virtual controlling plate of the touch point, the movement speed or acceleration of the controlled device with The distance between central point of the touch point and the virtual controlling plate is in relationships of increase function；The virtual controlling plate is shown in The arbitrary region of touch screen；And

Control module, for controlling the controlled device with the moving direction and the movement speed in the touch screen Upper movement.

Further, first computing module specifically includes:

Timing unit, in response to user in virtual controlling plate from the touch control operation on moving area, start recording The operation duration of user；And

Computing unit, for when the operation duration reaches preset duration threshold value, according to the touching of the touch control operation The position for controlling point, calculates the movement speed and moving direction for obtaining controlled device.

Further, the increasing function is direct proportion function or segmentation increasing function；The different section letters of the segmentation increasing function Number is constant or direct proportion function with section function in relationship is incremented by.

It is preferably carried out in mode at first, the virtual controlling plate is border circular areas, in the virtual controlling plate Heart point is the center of circle of the border circular areas, and the virtual controlling plate is entirely from moving area；When the touch point and the void When the distance between the central point of quasi- control panel is less than the radius of the virtual controlling plate, the touch control operation position of user is determined In on virtual controlling plate from moving area.

It is preferably carried out in mode at second, the virtual controlling plate is circular annular region, the virtual controlling plate Central point is the center of circle of the circular annular region, and the virtual controlling plate is entirely from moving area；When the touch point and institute When stating the distance between central point of virtual controlling plate and being located between the inside and outside radius of the virtual controlling plate, determine user's The touch control operation be located on virtual controlling plate from moving area.

It is preferably carried out in mode in third, the virtual controlling plate is semicircular area, the virtual controlling plate Central point is the center of circle of the semicircular area, and the virtual controlling plate is entirely from moving area；When the touch point and institute State the radius that the distance between central point of virtual controlling plate is less than the virtual controlling plate, and the touch point and the center When being located at the angle between the radius of symmetrical shaft position in the line and the virtual controlling plate of point less than 90 °, determine user's The touch control operation be located on virtual controlling plate from moving area.

It is preferably carried out in mode at the 4th, the virtual controlling plate is semi-circular shape region, the virtual controlling plate Central point be the semi-circular shape region the center of circle, the virtual controlling plate is entirely from moving area；When the touch point The distance between central point of the virtual controlling plate is located between the inside and outside radius of the virtual controlling plate, and the touching The angle being located between the radius of symmetrical shaft position in the line and the virtual controlling plate of control point and the central point is less than 90 ° When, determine the touch control operation of user be located on virtual controlling plate from moving area.

Further, the touch screen responding device further include:

Rotating module rotates the virtual controlling plate for the rotation process in response to user to the virtual controlling plate.

It is preferably carried out in mode at another, the virtual controlling plate further includes normal movement region；The normal shifting Dynamic region is circle, and described be the annular region in the circular normal movement region from moving area；

The touch screen responding device further include:

Module is obtained to obtain in real time for the slide in response to user on the normal movement region of virtual controlling plate Take glide direction and sliding speed of the slide on the normal movement region；And

It calculates and obtains module, for glide direction and sliding speed calculating acquisition controlled device based on the slide Moving direction and movement speed, wherein the moving direction of the controlled device is consistent with the glide direction of the slide, The movement speed of the controlled device is proportional to the sliding speed of the slide.

Further, the touch screen responding device further include:

Stopping modular is controlled, for terminating in response to user's touch control operation, the controlled device is controlled and stops movement.

Further, the touch screen responding device further include:

Processing module, the control instruction for being issued on the virtual controlling plate in response to user, to described controlled pair As the object of position performs corresponding processing.

Further, the touch screen responding device further include:

Hidden module is hidden for the touch control operation in response to user in the touch screen zone other than virtual controlling plate The controlled device, and virtual controlling plate diminution is shown as suspension button.

Further, the touch screen responding device further include:

Display module, it is aobvious in the center of the touch screen for the clicking operation in response to user to suspension button Show the controlled device, and suspension button amplification is shown as the virtual controlling plate.

Further, the touch screen responding device further include:

Suspension button mobile module, for the drag operation in response to user to the suspension button, the mobile suspension Button.

Further, the touch screen responding device further include:

Virtual controlling plate mobile module, for the drag operation in response to user to the virtual controlling plate, it is mobile described in Virtual controlling plate.

The embodiment of the present invention also provides a kind of touch screen responding device, and the touch screen responding device is used in response to user In virtual controlling plate from the touch control operation on moving area, according to the touch point of the touch control operation described from moving area On position, control controlled device moved on the touchscreen with preset movement speed/acceleration and moving direction；It is described virtual Control panel is shown in the arbitrary region of the touch screen.

The implementation of the embodiments of the present invention has the following beneficial effects:

Touch screen response method and device provided in an embodiment of the present invention, can on user's touch-control virtual controlling plate from When moving area, the moving direction and movement speed of controlled device are calculated, realizes the control mobile to controlled device, user is only It needs touch-control from the i.e. removable controlled device of moving area, reduces virtual controlling plate suqare, and realization is quick, is accurately controlled Controlled device is mobile；After user carries out touch control operation, the duration of touch control operation is judged, again when reaching duration threshold value Mobile controlled device, to avoid the maloperation of user；User can also slide on the normal movement region of virtual controlling plate Operation follows slide to control controlled device and moves, keeps the movement of controlled device more accurate；Stop in controlled device After movement, control instruction is sent to carry out respective handling to the object of controlled device position on virtual controlling plate, thus Only by operating the control realized to entire screen on virtual controlling plate, user experience is improved；It is arbitrarily mobile on the touchscreen Suspension button or virtual controlling plate improve user experience to be adapted to the mode of operation of user.

Detailed description of the invention

Fig. 1 is the flow diagram of one embodiment of touch screen response method provided by the invention；

Fig. 2 is the structural schematic diagram of one embodiment of touch screen provided by the invention；

Fig. 3 is the structural schematic diagram of second embodiment of touch screen provided by the invention；

Fig. 4 is the part flow diagram of second embodiment of touch screen response method provided by the invention；

Fig. 5 is the structural schematic diagram of the third embodiment of touch screen provided by the invention；

Fig. 6 is the structural schematic diagram of one embodiment of touch screen responding device provided by the invention.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

It is the flow diagram of one embodiment of touch screen response method provided by the invention referring to Fig. 1, comprising:

S11, in response to user in virtual controlling plate from the touch control operation on moving area, according to the touch control operation The position of touch point calculates the movement speed and moving direction for obtaining controlled device；Wherein, the moving direction is the touch-control The direction of the central point of the relatively described virtual controlling plate of point, the movement speed or acceleration of the controlled device and the touch point The distance between central point of the virtual controlling plate is in relationships of increase function；The virtual controlling plate is shown in appointing for touch screen Meaning region；

S12, the control controlled device are moved on the touch screen with the moving direction and the movement speed.

It should be noted that virtual controlling plate is for user's operation on touch screen to control the mobile region of controlled device, The size of virtual controlling plate is traditionally arranged to be the zone of action of the finger of hand when user's one hand holds mobile device on the screen, To improve the user experience that user uses large scale screen mobile devices.Wherein, controlled device can be cursor, or Virtual portrait etc. in game client.

In operation, user can carry out long press operation from moving area, on the touchscreen according to long press operation The position of touch point and the position of virtual controlling plate central point calculate the moving direction of the distance between two o'clock He controlled device. Recall it is preset calculate this apart from corresponding speed with distance and the relevant increasing function of speed, and using the speed as The movement speed of controlled device, alternatively, calling preset increasing function relevant to distance and acceleration to calculate the distance Corresponding acceleration, and according to the acceleration in real time calculate obtain controlled device movement speed, thus control controlled device with The moving direction and movement speed move on the screen.User can also carry out slide from moving area, pass through sliding The real time position for operating touch point on the touchscreen to calculate the moving direction and movement speed of controlled device in real time, thus in real time The moving direction and movement speed of controlled device are adjusted, so that controlled device fast and accurate can be moved to required position.

Further, it is described in response to user in virtual controlling plate from the touch control operation on moving area, according to described The position of the touch point of touch control operation calculates the movement speed and moving direction for obtaining controlled device, specifically includes:

In response to user in virtual controlling plate from the touch control operation on moving area, when the operation of start recording user It is long；

When the operation duration reaches preset duration threshold value, according to the position of the touch point of the touch control operation, meter Calculate the movement speed and moving direction for obtaining controlled device.

It should be noted that causing controlled device mobile to avoid user from accidentally touching from moving area, setting user is certainly The duration threshold value of moving area progress touch control operation.Detect user when from the touch control operation of moving area, start timing, When timing duration reaches the duration threshold value, then start to calculate movement speed and the moving direction of controlled device with mobile controlled pair As.

Further, the increasing function is direct proportion function or segmentation increasing function；The different section letters of the segmentation increasing function Number is constant or direct proportion function with section function in relationship is incremented by.

Wherein, the distance between the movement speed of controlled device and the central point of touch point and virtual controlling plate are related.Quilt The movement speed of control object may be directly proportional to distance, can also be incremented by according to range segment separating.Wherein, it is incremented by i.e. according to range segment separating For distance is divided into multistage, different sections are different apart from corresponding speed amplification, and can be with apart from corresponding speed with section Identical, if first segment is a apart from corresponding movement speed, second segment is b apart from corresponding movement speed, with section away from It also may be directly proportional to a distance from it from corresponding speed.

It is preferably carried out in mode at first, as shown in Fig. 2, the virtual controlling plate 2 is border circular areas, it is described virtual The central point of control panel 2 is the center of circle of the border circular areas, and the virtual controlling plate 2 is entirely from moving area；When the touching When the distance between control point and the central point of the virtual controlling plate are less than the radius of the virtual controlling plate, the institute of user is determined State touch control operation be located on virtual controlling plate 2 from moving area.

It is preferably carried out in mode at second, the virtual controlling plate is circular annular region, the virtual controlling plate Central point is the center of circle of the circular annular region, and the virtual controlling plate is entirely from moving area；When the touch point and institute When stating the distance between central point of virtual controlling plate and being located between the inside and outside radius of the virtual controlling plate, determine user's The touch control operation be located on virtual controlling plate from moving area.

It should be noted that as shown in Fig. 2, virtual controlling plate 2 is the arbitrary region on touch screen 1.Virtual controlling plate can To be that round or circular ring shape, activity of the finger 3 on virtual controlling plate 2 are assured that out 360 ° of moving direction.Moreover, circle It is all symmetrical region to all axis by the center of circle that shape region, which is one, no matter user be using left hand, the right hand, both hands or Laterally, longitudinal, oblique operation display can all be operated with same operating habit.

Obtain the location information of touch point in real time, and calculate in real time between touch point and the central point of virtual controlling plate away from From judging region locating for touch point.If virtual controlling plate is circle, which is less than virtual controlling plate radius and is It can determine that touch point is located at from moving area；If virtual controlling plate is circular ring shape, which is greater than interior the half of virtual controlling plate Diameter and the outer radius for being less than virtual controlling plate can determine that touch point is located at from moving area.

It is preferably carried out in mode in third, the virtual controlling plate is semicircular area, the virtual controlling plate Central point is the center of circle of the semicircular area, and the virtual controlling plate is entirely from moving area；When the touch point and institute State the radius that the distance between central point of virtual controlling plate is less than the virtual controlling plate, and the touch point and the center When being located at the angle between the radius of symmetrical shaft position in the line and the virtual controlling plate of point less than 90 °, determine user's The touch control operation be located on virtual controlling plate from moving area.

It is preferably carried out in mode at the 4th, the virtual controlling plate is semi-circular shape region, the virtual controlling plate Central point be the semi-circular shape region the center of circle, the virtual controlling plate is entirely from moving area；When the touch point The distance between central point of the virtual controlling plate is located between the inside and outside radius of the virtual controlling plate, and the touching The angle being located between the radius of symmetrical shaft position in the line and the virtual controlling plate of control point and the central point is less than 90 ° When, determine the touch control operation of user be located on virtual controlling plate from moving area.

Further, the touch screen response method further include:

In response to user to the rotation process of the virtual controlling plate, the virtual controlling plate is rotated.

It should be noted that virtual controlling plate is also possible to semicircle or semi-circular shape, by semicircle or semicircular ring The rotation process of shape can reach effect possessed by border circular areas, and control controlled device moves on 360 ° of directions, and will be empty Quasi- control panel is set as semicircle or semi-circular shape, can reduce the display area of virtual controlling plate on the touchscreen.

The location information of touch point is obtained in real time, and calculates the distance between the center of circle of touch point and virtual controlling plate in real time To judge region locating for touch point.If virtual controlling plate is semicircle, which is less than virtual controlling plate radius, and The angle that can be used as between the radius of symmetry axis in touch point and the line and virtual controlling plate in the center of circle can determine that touching less than 90 ° Control point is located at from moving area；If virtual controlling plate is semi-circular shape, the distance is greater than the inside radius of virtual controlling plate and small Between the radius that can be used as symmetry axis in the outer radius of virtual controlling plate, and in touch point and the line and virtual controlling plate in the center of circle Angle can determine that touch point is located at from moving area less than 90 °.

It is preferably carried out in mode at the 5th, as shown in figure 3, the virtual controlling plate 2 further includes normal movement region 21；The normal movement region 21 is border circular areas, and described be the annular in the circular normal movement region from moving area 22 Region.

As shown in figure 4, the touch screen response method further include:

S41, the slide in response to user on the normal movement region of virtual controlling plate, obtain the sliding in real time Operate glide direction and sliding speed on the normal movement region；

S42, the glide direction based on the slide and sliding speed calculate the moving direction for obtaining controlled device and Movement speed, wherein the moving direction of the controlled device is consistent with the glide direction of the slide, the controlled device Movement speed be proportional to the sliding speed of the slide.

Normal movement region can also be set on virtual controlling plate, and sliding trace of the user on normal movement region is real When be mapped as the motion track of controlled device on the touchscreen.When specific operation, user is first slided on normal movement region, Make controlled device that the sliding be followed to move on the touchscreen, when user slides into normal movement edges of regions, if controlled device Be not moved to required position, then user is slid into from moving area, stop sliding but keep touch condition, controlled device according to The calculated movement speed in touch point position and moving direction continue to move to, and user can also relay continuation of insurance from moving area and hold cunning Dynamic state, to adjust the movement speed and moving direction of controlled device in real time.

Further, the controlled device is controlled with the moving direction and the movement speed in the touch described On screen after movement, further includes:

Terminate in response to user's touch control operation, controls the controlled device and stop movement.

When detecting user without touch control operation, i.e., when user's finger leaves touch screen, controlled device is stopped from moving area Only move.When detect user in the fricton-tight operation in normal movement region, i.e. user when no longer being slided on normal movement region, Controlled device stops movement.

Further, the touch screen response method further include:

In response to the control instruction that user issues on the virtual controlling plate, to pair of the controlled device position As performing corresponding processing.

When controlled device is moved to position needed for user, when such as a software icon, user can be by virtual controlling plate Upper sending control instruction to carry out respective handling to the software icon, such as opens the software icon, the mobile software icon etc..Its In, control instruction can be realized by pre-set user's operations such as double click operation of the user on virtual controlling plate.

Further, the touch screen response method further include:

In response to touch control operation of the user in the touch screen zone other than virtual controlling plate, the controlled device is hidden, And virtual controlling plate diminution is shown as suspension button.

After user does not use the virtual controlling plate, can touch screen zone other than touch-control virtual controlling plate, will be virtual Control panel is accepted, and avoids influencing other operations of user on the touchscreen.Specifically, virtual controlling plate is border circular areas, when Detect that the distance between the touch point of user's touch control operation and the central point of virtual controlling plate are greater than the radius of virtual controlling plate When, determine that the touch control operation of user is located in the touch screen zone other than virtual controlling plate, hides controlled device, and will virtually control Making sheet diminution is shown as suspension button.Wherein, suspension button suspends 4 in the content that touch screen 1 is shown, is translucent button, As shown in figure 5, to not influence user's normal use mobile phone.

Further, the touch screen response method further include:

In response to user to the clicking operation of suspension button, described controlled pair is shown in the center of the touch screen As, and suspension button amplification is shown as the virtual controlling plate.

When user needs to move controlled device by virtual controlling plate to realize the operation to entire screen, click outstanding Suspension button opening is shown as virtual controlling plate, and shows controlled device, user in the center of touch screen by floating button It can be operated on virtual controlling plate.Wherein, virtual controlling plate is shown at the position of suspension button, i.e., virtual control The center of circle of making sheet is Chong Die with the center of circle of suspension button, if suspension button is showing virtual control close to the edge of touch screen When making sheet, the center of circle of meeting mobile virtual control panel is so that virtual controlling plate is all shown on the touchscreen.

Further, the touch screen response method further include:

In response to user to the drag operation of the suspension button, the mobile suspension button.

When user needs mobile suspension button, drag operation is carried out to suspension button.Real-time detection drag operation Touch point on the touchscreen, and real-time control suspension button is with touch point movement.

Further, the touch screen response method further include:

In response to user to the drag operation of the virtual controlling plate, the mobile virtual controlling plate.

User can also adjust in real time virtual controlling plate in the position of touch screen, to adapt to user by preset user's operation Operating habit.

The embodiment of the present invention also provides another touch screen response method, comprising:

In response to user in virtual controlling plate from the touch control operation on moving area, according to the touch-control of the touch control operation Point is controlled controlled device and is being touched with preset movement speed/acceleration and moving direction in the position from moving area It touches and is moved on screen；The virtual controlling plate is shown in the arbitrary region of the touch screen.

It should be noted that the central point from each point on moving area relative to virtual controlling plate of virtual controlling plate Distance is fixed value, can be preset and saves movement speed/acceleration and shifting corresponding to various point locations from moving area Dynamic direction.When the touch control operation of user is located at from moving area, the position of the touch point of touch control operation is obtained, according to the position Its corresponding movement speed/acceleration and moving direction can be obtained, to control controlled device with the movement speed/acceleration It is moved on the touchscreen with moving direction.Using the present embodiment, can be realized quickly, to be accurately controlled controlled device mobile.

Touch screen response method provided in an embodiment of the present invention, can on user's touch-control virtual controlling plate from turnover zone When domain, the moving direction and movement speed of controlled device are calculated, realizes the control mobile to controlled device, user only needs touch-control From the i.e. removable controlled device of moving area, virtual controlling plate suqare is reduced, and realization is quick, is accurately controlled controlled pair As movement；After user carries out touch control operation, the duration of touch control operation is judged, moves quilt again when reaching duration threshold value Object is controlled, to avoid the maloperation of user；User can also carry out slide on the normal movement region of virtual controlling plate, with Control controlled device follows slide to move, and keeps the movement of controlled device more accurate；After controlled device stops movement, Send control instruction to carry out respective handling to the object of controlled device position on virtual controlling plate, thus only by The control to entire screen is realized in operation on virtual controlling plate, improves user experience；Random mobile suspension button on the touchscreen Or virtual controlling plate improves user experience to be adapted to the mode of operation of user.

Correspondingly, the touch screen that can be realized in above-described embodiment is rung the present invention also provides a kind of touch screen responding device All processes of induction method.

It is the structural schematic diagram of one embodiment of touch screen responding device provided by the invention referring to Fig. 6, comprising:

Computing module 61, in response to user in virtual controlling plate from the touch control operation on moving area, according to institute The position of the touch point of touch control operation is stated, the movement speed and moving direction for obtaining controlled device are calculated；Wherein, the movement side To the direction of the central point for the relatively described virtual controlling plate of the touch point, the movement speed or acceleration of the controlled device The distance between central point of the touch point and the virtual controlling plate is in relationships of increase function；The virtual controlling plate is shown In the arbitrary region of touch screen；And

Control module 62, for controlling the controlled device with the moving direction and the movement speed in the touch It is moved on screen.

Further, first computing module specifically includes:

Timing unit, in response to user in virtual controlling plate from the touch control operation on moving area, start recording The operation duration of user；And

Computing unit, for when the operation duration reaches preset duration threshold value, according to the touching of the touch control operation The position for controlling point, calculates the movement speed and moving direction for obtaining controlled device.

Further, the increasing function is direct proportion function or segmentation increasing function；The different section letters of the segmentation increasing function Number is constant or direct proportion function with section function in relationship is incremented by.

It is preferably carried out in mode at first, the virtual controlling plate is border circular areas, in the virtual controlling plate Heart point is the center of circle of the border circular areas, and the virtual controlling plate is entirely from moving area；When the touch point and the void When the distance between the central point of quasi- control panel is less than the radius of the virtual controlling plate, the touch control operation position of user is determined In on virtual controlling plate from moving area.

It is preferably carried out in mode at second, the virtual controlling plate is circular annular region, the virtual controlling plate Central point is the center of circle of the circular annular region, and the virtual controlling plate is entirely from moving area；When the touch point and institute When stating the distance between central point of virtual controlling plate and being located between the inside and outside radius of the virtual controlling plate, determine user's The touch control operation be located on virtual controlling plate from moving area.

It is preferably carried out in mode in third, the virtual controlling plate is semicircular area, the virtual controlling plate Central point is the center of circle of the semicircular area, and the virtual controlling plate is entirely from moving area；When the touch point and institute State the radius that the distance between central point of virtual controlling plate is less than the virtual controlling plate, and the touch point and the center When being located at the angle between the radius of symmetrical shaft position in the line and the virtual controlling plate of point less than 90 °, determine user's The touch control operation be located on virtual controlling plate from moving area.

It is preferably carried out in mode at the 4th, the virtual controlling plate is semi-circular shape region, the virtual controlling plate Central point be the semi-circular shape region the center of circle, the virtual controlling plate is entirely from moving area；When the touch point The distance between central point of the virtual controlling plate is located between the inside and outside radius of the virtual controlling plate, and the touching The angle being located between the radius of symmetrical shaft position in the line and the virtual controlling plate of control point and the central point is less than 90 ° When, determine the touch control operation of user be located on virtual controlling plate from moving area.

Further, the touch screen responding device further include:

Rotating module rotates the virtual controlling plate for the rotation process in response to user to the virtual controlling plate.

It is preferably carried out in mode at another, the virtual controlling plate further includes normal movement region；The normal shifting Dynamic region is circle, and described be the annular region in the circular normal movement region from moving area；

The touch screen responding device further include:

Module is obtained to obtain in real time for the slide in response to user on the normal movement region of virtual controlling plate Take glide direction and sliding speed of the slide on the normal movement region；And

It calculates and obtains module, for glide direction and sliding speed calculating acquisition controlled device based on the slide Moving direction and movement speed, wherein the moving direction of the controlled device is consistent with the glide direction of the slide, The movement speed of the controlled device is proportional to the sliding speed of the slide.

Further, the touch screen responding device further include:

Stopping modular is controlled, for terminating in response to user's touch control operation, the controlled device is controlled and stops movement.

Further, the touch screen responding device further include:

Processing module, the control instruction for being issued on the virtual controlling plate in response to user, to described controlled pair As the object of position performs corresponding processing.

Further, the touch screen responding device further include:

Hidden module is hidden for the touch control operation in response to user in the touch screen zone other than virtual controlling plate The controlled device, and virtual controlling plate diminution is shown as suspension button.

Further, the touch screen responding device further include:

Display module, it is aobvious in the center of the touch screen for the clicking operation in response to user to suspension button Show the controlled device, and suspension button amplification is shown as the virtual controlling plate.

Further, the touch screen responding device further include:

Suspension button mobile module, for the drag operation in response to user to the suspension button, the mobile suspension Button.

Further, the touch screen responding device further include:

Virtual controlling plate mobile module, for the drag operation in response to user to the virtual controlling plate, it is mobile described in Virtual controlling plate.

The embodiment of the present invention also provides a kind of touch screen responding device, and the touch screen responding device is used in response to user In virtual controlling plate from the touch control operation on moving area, according to the touch point of the touch control operation described from moving area On position, control controlled device moved on the touchscreen with preset movement speed/acceleration and moving direction；It is described virtual Control panel is shown in the arbitrary region of the touch screen.

Touch screen responding device provided in an embodiment of the present invention, can on user's touch-control virtual controlling plate from turnover zone When domain, the moving direction and movement speed of controlled device are calculated, realizes the control mobile to controlled device, user only needs touch-control From the i.e. removable controlled device of moving area, virtual controlling plate suqare is reduced, and realization is quick, is accurately controlled controlled pair As movement；After user carries out touch control operation, the duration of touch control operation is judged, moves quilt again when reaching duration threshold value Object is controlled, to avoid the maloperation of user；User can also carry out slide on the normal movement region of virtual controlling plate, with Control controlled device follows slide to move, and keeps the movement of controlled device more accurate；After controlled device stops movement, Send control instruction to carry out respective handling to the object of controlled device position on virtual controlling plate, thus only by The control to entire screen is realized in operation on virtual controlling plate, improves user experience；Random mobile suspension button on the touchscreen Or virtual controlling plate improves user experience to be adapted to the mode of operation of user.

The above is a preferred embodiment of the present invention, it is noted that for those skilled in the art For, various improvements and modifications may be made without departing from the principle of the present invention, these improvements and modifications are also considered as Protection scope of the present invention.

Claims (28)

1. a kind of touch screen response method characterized by comprising

In response to user in virtual controlling plate from the touch control operation on moving area, and according to the touch point of the touch control operation Position, calculate obtain controlled device movement speed and moving direction；Wherein, the moving direction is that the touch point is opposite The direction of the central point of the virtual controlling plate, the movement speed of the controlled device or acceleration and the touch point and described The distance between central point of virtual controlling plate is in relationships of increase function；The virtual controlling plate is shown in any area of touch screen Domain；The touch control operation includes long press operation；The virtual controlling plate further includes normal movement region；The normal movement region For circle, it is described from moving area be annular region around the normal movement region；

In response to slide of the user on the normal movement region of virtual controlling plate, the slide is obtained in real time in institute State the glide direction and sliding speed on normal movement region；

Glide direction and sliding speed based on the slide calculate the moving direction and movement speed for obtaining controlled device, Wherein, the moving direction of the controlled device is consistent with the glide direction of the slide, the mobile speed of the controlled device Degree is proportional to the sliding speed of the slide；

The controlled device is controlled to move on the touch screen with the moving direction and the movement speed.

2. touch screen response method as described in claim 1, which is characterized in that it is described in response to user in virtual controlling plate From the touch control operation on moving area, and the position of the touch point according to the touch control operation, calculate the shifting for obtaining controlled device Dynamic speed and moving direction, specifically include:

In response to user in virtual controlling plate from the touch control operation on moving area, the operation duration of start recording user；

When the operation duration reaches preset duration threshold value, according to the position of the touch point of the touch control operation, calculating is obtained Obtain the movement speed and moving direction of controlled device.

3. touch screen response method as claimed in claim 1 or 2, which is characterized in that the increasing function be direct proportion function or It is segmented increasing function；The different section functions of the segmentation increasing function are in be incremented by relationship, are constant or direct proportion function with section function.

4. touch screen response method as described in claim 1, which is characterized in that the virtual controlling plate is border circular areas, institute The central point for stating virtual controlling plate is the center of circle of the border circular areas, and the virtual controlling plate is entirely from moving area；Work as institute When stating radius of the distance between the central point of touch point and the virtual controlling plate less than the virtual controlling plate, user is determined The touch control operation be located on virtual controlling plate from moving area.

5. touch screen response method as described in claim 1, which is characterized in that the virtual controlling plate is circular annular region, The central point of the virtual controlling plate is the center of circle of the circular annular region, and the virtual controlling plate is entirely from moving area； When the distance between central point of the touch point and the virtual controlling plate be located at the virtual controlling plate inside and outside radius it Between when, determine the touch control operation of user be located on virtual controlling plate from moving area.

6. touch screen response method as described in claim 1, which is characterized in that the virtual controlling plate is semicircular area, The central point of the virtual controlling plate is the center of circle of the semicircular area, and the virtual controlling plate is entirely from moving area； It is and described when the distance between central point of the touch point and the virtual controlling plate is less than the radius of the virtual controlling plate Angle in the line and the virtual controlling plate of touch point and the central point between the radius of symmetrical shaft position is less than At 90 °, determine the touch control operation of user be located on virtual controlling plate from moving area.

7. touch screen response method as described in claim 1, which is characterized in that the virtual controlling plate is semi-circular shape area Domain, the central point of the virtual controlling plate are the center of circle in the semi-circular shape region, and the virtual controlling plate is entirely from mobile Region；When the distance between central point of the touch point and the virtual controlling plate is located at the inside and outside of the virtual controlling plate It is located at the radius of symmetrical shaft position between radius, and in the line of the touch point and the central point and the virtual controlling plate Between angle when being less than 90 °, determine the touch control operation of user be located on virtual controlling plate from moving area.

8. touch screen response method as claimed in claims 6 or 7, which is characterized in that the touch screen response method further include:

In response to user to the rotation process of the virtual controlling plate, the virtual controlling plate is rotated.

9. touch screen response method as described in claim 1, which is characterized in that in the control controlled device with described After moving direction and the movement speed are mobile on the touch screen, further includes:

Terminate in response to user's touch control operation, controls the controlled device and stop movement.

10. touch screen response method as described in claim 1, which is characterized in that the touch screen response method further include:

In response to the control instruction that user issues on the virtual controlling plate, to the object of the controlled device position into The corresponding processing of row.

11. touch screen response method as described in claim 1, which is characterized in that the touch screen response method further include:

In response to touch control operation of the user in the touch screen zone other than virtual controlling plate, the controlled device is hidden, and will The virtual controlling plate diminution is shown as suspension button.

12. touch screen response method as described in claim 1, which is characterized in that the touch screen response method further include:

In response to user to the clicking operation of suspension button, the controlled device is shown in the center of the touch screen, and Suspension button amplification is shown as the virtual controlling plate.

13. the touch screen response method as described in claim 11 or 12, which is characterized in that the touch screen response method also wraps It includes:

In response to user to the drag operation of the suspension button, the mobile suspension button.

14. touch screen response method as described in claim 1, which is characterized in that the touch screen response method further include:

In response to user to the drag operation of the virtual controlling plate, the mobile virtual controlling plate.

15. a kind of touch screen responding device characterized by comprising

Computing module, in response to user in virtual controlling plate from the touch control operation on moving area, and according to the touching The position of the touch point of operation is controlled, the movement speed and moving direction for obtaining controlled device are calculated；Wherein, the moving direction is The direction of the central point of the relatively described virtual controlling plate of the touch point, the movement speed or acceleration of the controlled device and institute The distance between central point of touch point and the virtual controlling plate is stated in relationships of increase function；The virtual controlling plate is shown in touching Touch the arbitrary region of screen；The touch control operation includes long press operation；The virtual controlling plate further includes normal movement region；It is described Normal movement region is circle, and described be the annular region in the circular normal movement region from moving area；And

It obtains module and obtains institute in real time for the slide in response to user on the normal movement region of virtual controlling plate State glide direction and sliding speed of the slide on the normal movement region；And

It calculates and obtains module, the shifting for glide direction and sliding speed calculating acquisition controlled device based on the slide Dynamic direction and movement speed, wherein the moving direction of the controlled device is consistent with the glide direction of the slide, described The movement speed of controlled device is proportional to the sliding speed of the slide；

Control module is moved up with the moving direction and the movement speed in the touch screen for controlling the controlled device It is dynamic.

16. touch screen responding device as claimed in claim 15, which is characterized in that the computing module specifically includes:

Timing unit, in response to user in virtual controlling plate from the touch control operation on moving area, start recording user Operation duration；And

Computing unit, for when the operation duration reaches preset duration threshold value, according to the touch point of the touch control operation Position, calculate obtain controlled device movement speed and moving direction.

17. the touch screen responding device as described in claim 15 or 16, which is characterized in that the increasing function is direct proportion function Or segmentation increasing function；The different section functions of the segmentation increasing function are in be incremented by relationship, are constant or direct proportion function with section function.

18. touch screen responding device as claimed in claim 15, which is characterized in that the virtual controlling plate is border circular areas, The central point of the virtual controlling plate is the center of circle of the border circular areas, and the virtual controlling plate is entirely from moving area；When When the distance between central point of the touch point and the virtual controlling plate is less than the radius of the virtual controlling plate, determine to use The touch control operation at family be located on virtual controlling plate from moving area.

19. touch screen responding device as claimed in claim 15, which is characterized in that the virtual controlling plate is circular ring shape area Domain, the central point of the virtual controlling plate are the center of circle of the circular annular region, and the virtual controlling plate is entirely from turnover zone Domain；When the distance between central point of the touch point and the virtual controlling plate is located inside and outside the half of the virtual controlling plate When between diameter, determine the touch control operation of user be located on virtual controlling plate from moving area.

20. touch screen responding device as claimed in claim 15, which is characterized in that the virtual controlling plate is semicircle area Domain, the central point of the virtual controlling plate are the center of circle of the semicircular area, and the virtual controlling plate is entirely from turnover zone Domain；When radius of the distance between the central point of the touch point and the virtual controlling plate less than the virtual controlling plate, and Angle in the line and the virtual controlling plate of the touch point and the central point between the radius of symmetrical shaft position When less than 90 °, determine the touch control operation of user be located on virtual controlling plate from moving area.

21. touch screen responding device as claimed in claim 15, which is characterized in that the virtual controlling plate is semi-circular shape area Domain, the central point of the virtual controlling plate are the center of circle in the semi-circular shape region, and the virtual controlling plate is entirely from mobile Region；When the distance between central point of the touch point and the virtual controlling plate is located at the inside and outside of the virtual controlling plate It is located at the radius of symmetrical shaft position between radius, and in the line of the touch point and the central point and the virtual controlling plate Between angle when being less than 90 °, determine the touch control operation of user be located on virtual controlling plate from moving area.

22. the touch screen responding device as described in claim 20 or 21, which is characterized in that the touch screen responding device also wraps It includes:

Rotating module rotates the virtual controlling plate for the rotation process in response to user to the virtual controlling plate.

23. touch screen responding device as claimed in claim 15, which is characterized in that the touch screen responding device further include:

Stopping modular is controlled, for terminating in response to user's touch control operation, the controlled device is controlled and stops movement.

24. touch screen responding device as claimed in claim 15, which is characterized in that the touch screen responding device further include:

Processing module, the control instruction for being issued on the virtual controlling plate in response to user, to the controlled device institute Object in position performs corresponding processing.

25. touch screen responding device as claimed in claim 15, which is characterized in that the touch screen responding device further include:

Hidden module is hidden described for the touch control operation in response to user in the touch screen zone other than virtual controlling plate Controlled device, and virtual controlling plate diminution is shown as suspension button.

26. touch screen responding device as claimed in claim 15, which is characterized in that the touch screen responding device further include:

Display module shows institute in the center of the touch screen for the clicking operation in response to user to suspension button Controlled device is stated, and suspension button amplification is shown as the virtual controlling plate.

27. the touch screen responding device as described in claim 25 or 26, which is characterized in that the touch screen responding device also wraps It includes:

Suspension button mobile module, for the drag operation in response to user to the suspension button, the mobile suspension button.

28. touch screen responding device as claimed in claim 15, which is characterized in that the touch screen responding device further include:

Virtual controlling plate mobile module, it is mobile described virtual for the drag operation in response to user to the virtual controlling plate Control panel.