CN102915149A - Touch control handheld equipment - Google Patents

Abstract

The invention discloses touch control handheld equipment. The touch control handheld equipment comprises a main processing unit, a touch screen and a virtual mouse module, wherein the main processing unit adopts an X86 hardware system structure and a windows operating system; the virtual mouse module outputs a lingering state virtual mouse to a first set position of the touch screen after operation and outputs a clicking state virtual mouse to the touch screen after being clicked; the clicking state virtual mouse comprises a cursor and a corrosion region; space between pixels with the set number is reserved between the corrosion region and the cursor initially; the corrosion region comprises an operating region; and the operating region is used for simulating mouse operation according to the clicked mode. The touch control handheld equipment adopts the X86 hardware system structure and the windows operating system and can realize precise positioning of touch screen clicking.

Description

The touch control handheld device

Technical field

The present invention relates to handheld device, particularly a kind of touch control handheld device.

Background technology

Development along with electronic technology and touch screen technology, the touch control handheld device is widely used, what promote at present the demand growth of touch control handheld device mainly is smart mobile phone and consumer electronics product etc., these products have substantially all adopted the user interface that customizes, touch-control is used the design of having carried out customization, by the design of customization human-computer interaction interface, in using touch control handheld device process, can obtain good user and experience.

Continuous lifting along with chip technology, the power consumption of chip is but more and more less in the unit area, the power consumption of X86-based equipment has dropped to a suitable level, be input as main X86-based operating system (such as windows with mouse-keyboard very closely with our Working Life appropriateness all the time, Linux etc.) be applied in the situation of touch control handheld device in the mode of ecosystem more and more general, and the windows of X86-based and linux etc. are based on the operating system of desktop, owing at the beginning of design, being to have adopted the framework that is more suitable in the input equipments such as mouse-keyboard of desktop operated mode, so the various chart response buttons of X86 operating system all are adapted to mouse picking and design, and as the hand-held product of mobile interconnecting terminal, mainly take touch-screen but not mouse-keyboard is man-machine input and output interactive device, because mouse, the location of keyboard is point-to-point high precision, and the touch-screen area of touch control handheld device is less, people's the relatively loose touch-control of finger on touch-screen can't be accomplished accurate point-to-point location, and this has brought a pinpoint problem to the touch control handheld device of using X86 operating system.

As shown in Figure 1, when finger 2 is touched the touch-screen 10 of handheld devices, because finger 20 is thicker, and the touch-screen area is less, the result that actual touch spots is hit, may respond and minimize button 11, also may respond maximize button 12, the uncertain problem of this click result can be brought corresponding puzzlement to the user.

Summary of the invention

The technical problem to be solved in the present invention is to realize the accurate location that touch-screen is clicked in the touch control handheld device of X86 hardware systems framework and windows operating system.

For solving the problems of the technologies described above, the invention provides a kind of touch control handheld device, it comprises a Main Processor Unit, a touch-screen, described Main Processor Unit adopts X86 hardware systems framework and windows operating system; Described touch control handheld device also comprises a virtual mouse module;

Described virtual mouse module after operation, is exported a resident state virtual mouse to the first desired location of described touch-screen;

After the resident state virtual mouse of the first desired location of described touch-screen is clicked, the described touch-screen of output click state virtual mouse;

Described click state virtual mouse comprises cursor, corrects the district;

Described rectification district is initially with the spacing that the first setting number pixel is arranged between the described cursor;

Described rectification district comprises an operating area;

Described operating area is used for according to clicked mode, the analog mouse operation.

Better, described rectification district comprises that also moving the zone, that moves to left, zone, that moves to right, zone, on one moves down the zone;

Move the zone on described, every once clicked, described cursor second pixel of setting number that moves up, second to set number be positive integer and set number less than or equal to first;

The described zone that moves to right, every once clicked, described cursor second pixel of setting number that moves right;

The described zone that moves to left, every once clicked, described cursor is moved to the left the pixel of the second setting number;

The described zone that moves down, every once clicked, described cursor moves down the pixel of the second setting number.

Better, described operating area, according to following clicked mode, the analog mouse operation:

Operating area is double-clicked continuously, then is the left mouse button response, is used for definite click to the cursor current location;

Operating area is grown by reaching the first setting-up time, then is the right mouse button response;

Operating area is clicked mobile simultaneously, and then whole click state virtual mouse moves.

Better, after the resident state virtual mouse of the desired location of described touch-screen is clicked, the second desired location of the described touch-screen of output click state virtual mouse, described cursor initial directional the second desired location; Perhaps export click state virtual mouse to the clicked clicked position of touch-screen before of resident state virtual mouse, the clicked position of touch-screen before described cursor initial directional resident state virtual mouse is clicked.

Better, when the click state virtual mouse on the touch-screen is surpassed the second setting-up time without click event, then described virtual mouse module enters resident state, stop to export the described touch-screen of click state virtual mouse, and output resident state virtual mouse is to the first desired location of described touch-screen.

Better, described the first desired location is positioned at the right side of touch-screen;

Described the second desired location is positioned at the central authorities of touch-screen.

Better, described virtual mouse module comprises virtual mouse rendering module, virtual mouse respond module, virtual mouse operation analysis module, virtual mouse communication module;

Described virtual mouse rendering module is used for generating the resident state virtual mouse, clicks the state virtual mouse, outputs to the relevant position of described touch-screen;

Described virtual mouse respond module, the state processing when clicked for the relevant range of the resident state virtual mouse on touch-screen or the state of click virtual mouse, output virtual mouse operation signal is to described virtual mouse operation analysis module;

Described virtual mouse operation analysis module is used for response virtual mouse operation signal, and corresponding virtual mouse mode of operation is resolved to the mouse action order of definition or the accurate positioning action order of screen matrix;

Described virtual mouse communication module, be used for setting up communicating by letter of virtual mouse module and windows operating system, described virtual mouse operation analysis module resolved the mouse action order that obtains or the accurate positioning action order of screen matrix sends windows operating system to.

Touch control handheld device of the present invention, Main Processor Unit, the touch-screen of employing X86 hardware systems framework and windows operating system also are provided with a virtual mouse module; After the described virtual mouse module operation, export a resident state virtual mouse to the desired location of touch-screen, the user is in point touching screen process, if it is less to run into button click, with finger can't pinpoint situation the time, can click the resident state virtual mouse of the desired location that resides in touch-screen, exhalation click state virtual mouse carries out the accurate location of pixel precision, thereby the user can realize the accurate location that touch-screen is clicked in the touch control handheld device of X86 hardware systems framework and windows operating system, brings outstanding experience for the touch control handheld device user.

Description of drawings

In order to be illustrated more clearly in technical scheme of the present invention, the below does simple the introduction to the accompanying drawing that will use required for the present invention, apparently, accompanying drawing in the following describes only is some embodiments of the present invention, for those of ordinary skills, under the prerequisite of not paying creative work, can also obtain according to these accompanying drawings other accompanying drawing.

Fig. 1 is the touch-screen schematic diagram of finger touches handheld device;

Fig. 2 is touch control handheld device one embodiment schematic diagram of the present invention;

Fig. 3 is that output resident state virtual mouse is to touch-screen one embodiment schematic diagram;

Fig. 4 is that output click state virtual mouse is to touch-screen one embodiment schematic diagram;

Fig. 5 is that virtual mouse module one embodiment is the modular structure schematic diagram.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the invention, the technical scheme in the embodiment of the invention is clearly and completely described, obviously, described embodiment only is the present invention's part embodiment, rather than whole embodiment.Should be appreciated that preferred embodiment described herein only is used for description and interpretation the present invention, is not intended to limit the present invention.And in the situation that do not conflict, embodiment and the feature among the embodiment among the present invention can make up mutually.Based on the embodiment among the present invention, the every other embodiment that those of ordinary skills obtain belongs to the scope of protection of the invention.

Embodiment one

The touch control handheld device as shown in Figure 2, comprises a Main Processor Unit, a touch-screen, a virtual mouse module;

Described Main Processor Unit adopts X86 hardware systems framework and windows operating system;

Described virtual mouse module after operation, is exported a resident state virtual mouse 9 to the first desired location of described touch-screen, as shown in Figure 3; Better, described the first desired location is positioned at the right side of touch-screen;

After the resident state virtual mouse of the first desired location of described touch-screen is clicked, the described touch-screen of output click state virtual mouse, as shown in Figure 4;

Described click state virtual mouse as shown in Figure 4, comprises cursor 6, corrects district 5;

Described rectification district 5 is initially with the spacing that the first setting number pixel is arranged between the described cursor 6;

Described rectification district 5, comprise move on the operating area 55, a zone 51, one move to right the zone 52, one move to left the zone 53, one move down the zone 54;

Described operating area 55 is used for according to clicked mode, the analog mouse operation, and for example, operating area 55 can operate according to following clicked mode analog mouse:

Operating area 55 is double-clicked continuously, then is the left mouse button response, is used for definite click to cursor 6 current locations;

Operating area 55 by reaching more than the first setting-up time, then is the right mouse button response by long;

Operating area 55 is clicked mobile simultaneously, and then whole click state virtual mouse (comprise cursor 6, correct district 5) is mobile;

Move zone 51 on described, every once clicked, described cursor 6 second pixel of setting number that moves up, second to set number be positive integer and set number less than or equal to first;

The described zone 52 that moves to right, every once clicked, described cursor 6 second pixel of setting number that moves right;

The described zone 53 that moves to left, every once clicked, described cursor 6 is moved to the left the pixel of the second setting number;

The described zone 54 that moves down, every once clicked, described cursor 6 moves down the pixel of the second setting number.

Better, when the click state virtual mouse on the touch-screen is surpassed the second setting-up time without click event, then described virtual mouse module enters resident state, stop to export the described touch-screen of click state virtual mouse, and output resident state virtual mouse is to the first desired location of described touch-screen, with the operation interface that the reduces virtual mouse disturbing effect to the user.

Embodiment two

Based on embodiment one, after the resident state virtual mouse of the first desired location of described touch-screen is clicked, described virtual mouse module output click state virtual mouse is to the second desired location of described touch-screen, the cursor 6 of click state virtual mouse, the second desired location of the described touch-screen of initial directional; Better, described the second desired location is positioned at the central authorities of touch-screen.

Embodiment three

Based on embodiment one, after the resident state virtual mouse of the first desired location of described touch-screen is clicked, the clicked position of touch-screen before described virtual mouse module output click state virtual mouse is clicked to the resident state virtual mouse, the cursor 6 of click state virtual mouse, the clicked position of touch-screen before initial directional resident state virtual mouse is clicked.

Embodiment four

Based on embodiment two, described touch-screen is capacitance touch screen, and described the first setting number is 128, and described the second setting number is 1, and described the first setting-up time is 2 seconds, and described the second setting-up time is 3 seconds.

Embodiment five

Based on embodiment four, described virtual mouse module as shown in Figure 5, comprises virtual mouse rendering module, virtual mouse respond module, virtual mouse operation analysis module, virtual mouse communication module;

Described virtual mouse rendering module is used for generating the resident state virtual mouse, clicks the state virtual mouse, outputs to the relevant position of described touch-screen;

Described virtual mouse respond module, the state processing when clicked for the relevant range of the resident state virtual mouse on touch-screen or the state of click virtual mouse, output virtual mouse operation signal is to described virtual mouse operation analysis module;

Described virtual mouse operation analysis module is used for response virtual mouse operation signal, and corresponding virtual mouse mode of operation is resolved to the mouse action order of definition or the accurate positioning action order of screen matrix;

Described virtual mouse communication module, be used for setting up communicating by letter of virtual mouse module and windows operating system, described virtual mouse operation analysis module resolved the mouse action order that obtains or the accurate positioning action order of screen matrix sends windows operating system to.

Touch control handheld device of the present invention, Main Processor Unit, the touch-screen of employing X86 hardware systems framework and windows operating system also are provided with a virtual mouse module; After the described virtual mouse module operation, export a resident state virtual mouse to the desired location of touch-screen, the user is in point touching screen process, if it is less to run into button click, with finger can't pinpoint situation the time, can click the resident state virtual mouse of the desired location that resides in touch-screen, exhalation click state virtual mouse carries out the accurate location of pixel precision, thereby the user can realize the accurate location that touch-screen is clicked in the touch control handheld device of X86 hardware systems framework and windows operating system, brings outstanding experience for the touch control handheld device user.

The above only is preferred embodiment of the present invention, and is in order to limit the present invention, within the spirit and principles in the present invention not all, any modification of making, is equal to replacement, improvement etc., all should be included within the scope of protection of the invention.

Claims (8)

1. touch control handheld device, it comprises a Main Processor Unit, a touch-screen, described Main Processor Unit adopts X86 hardware systems framework and windows operating system; It is characterized in that,

Described touch control handheld device also comprises a virtual mouse module;

Described virtual mouse module after operation, is exported a resident state virtual mouse to the first desired location of described touch-screen;

After the resident state virtual mouse of the first desired location of described touch-screen is clicked, the described touch-screen of output click state virtual mouse;

Described click state virtual mouse comprises cursor, corrects the district;

Described rectification district is initially with the spacing that the first setting number pixel is arranged between the described cursor;

Described rectification district comprises an operating area;

Described operating area is used for according to clicked mode, the analog mouse operation.

2. touch control handheld device according to claim 1 is characterized in that,

Described rectification district comprises that also moving the zone, that moves to left, zone, that moves to right, zone, on one moves down the zone;

Move the zone on described, every once clicked, described cursor second pixel of setting number that moves up, second to set number be positive integer and set number less than or equal to first;

The described zone that moves to right, every once clicked, described cursor second pixel of setting number that moves right;

The described zone that moves to left, every once clicked, described cursor is moved to the left the pixel of the second setting number;

The described zone that moves down, every once clicked, described cursor moves down the pixel of the second setting number.

3. touch control handheld device according to claim 2 is characterized in that,

Described operating area, according to following clicked mode, the analog mouse operation:

Operating area is double-clicked continuously, then is the left mouse button response, is used for definite click to the cursor current location;

Operating area is grown by reaching the first setting-up time, then is the right mouse button response;

Operating area is clicked mobile simultaneously, and then whole click state virtual mouse moves.

4. touch control handheld device according to claim 3 is characterized in that,

After the resident state virtual mouse of the desired location of described touch-screen is clicked, the second desired location of the described touch-screen of output click state virtual mouse, described cursor initial directional the second desired location; Perhaps export click state virtual mouse to the clicked clicked position of touch-screen before of resident state virtual mouse, the clicked position of touch-screen before described cursor initial directional resident state virtual mouse is clicked.

5. touch control handheld device according to claim 4 is characterized in that,

When the click state virtual mouse on the touch-screen is surpassed the second setting-up time without click event, then described virtual mouse module enters resident state, stop to export the described touch-screen of click state virtual mouse, and output resident state virtual mouse is to the first desired location of described touch-screen.

6. touch control handheld device according to claim 5 is characterized in that,

Described the first desired location is positioned at the right side of touch-screen;

Described the second desired location is positioned at the central authorities of touch-screen.

7. touch control handheld device according to claim 6 is characterized in that,

Described touch-screen is capacitance touch screen;

Described the first setting number is 128;

Described the second setting number is 1;

Described the first setting-up time is 2 seconds;

Described the first setting-up time is 3 seconds.

8. according to claim 2 to 7 each described touch control handheld devices, it is characterized in that,

Described virtual mouse module comprises virtual mouse rendering module, virtual mouse respond module, virtual mouse operation analysis module, virtual mouse communication module;

Described virtual mouse rendering module is used for generating the resident state virtual mouse, clicks the state virtual mouse, outputs to the relevant position of described touch-screen;

Described virtual mouse respond module, the state processing when clicked for the relevant range of the resident state virtual mouse on touch-screen or the state of click virtual mouse, output virtual mouse operation signal is to described virtual mouse operation analysis module;

Described virtual mouse operation analysis module is used for response virtual mouse operation signal, and corresponding virtual mouse mode of operation is resolved to the mouse action order of definition or the accurate positioning action order of screen matrix;

Described virtual mouse communication module, be used for setting up communicating by letter of virtual mouse module and windows operating system, described virtual mouse operation analysis module resolved the mouse action order that obtains or the accurate positioning action order of screen matrix sends windows operating system to.

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