阅读说明：本技术 一种光标移动控制方法、系统及本安型防爆鼠标 (Cursor movement control method and system and intrinsic safety type explosion-proof mouse ) 是由 周义腾 于 2021-08-12 设计创作，主要内容包括：本申请涉及一种光标移动控制方法、系统及本安型防爆鼠标,涉及本安型防爆鼠标的技术领域,其包括：响应捕捉设定请求,所述捕捉设定请求携带用于设定实际捕捉模式的设定指令；根据设定指令,调取捕捉模式库,所述捕捉模式库由多个预设捕捉模式构成；根据捕捉模式库,提取与实际捕捉模式匹配的预设捕捉模式；根据所提取的预设捕捉模式,调取与所提取的预设捕捉模式相对应的移动区域,所述移动区域由多个捕捉区域构成；根据所提取的移动区域,将光标加载至所调取的移动区域内；响应移动请求,所述移动请求携带用于控制光标移动的移动指令；根据移动指令,控制光标在所调取的移动区域移动。本申请具有实现鼠标光标快速移动至点击位置处的效果。(The application relates to a cursor movement control method, a cursor movement control system and an intrinsic safety type explosion-proof mouse, which relate to the technical field of intrinsic safety type explosion-proof mice and comprise the following steps: responding to a capture setting request, wherein the capture setting request carries a setting instruction for setting an actual capture mode; calling a capturing mode library according to a setting instruction, wherein the capturing mode library consists of a plurality of preset capturing modes; extracting a preset capture mode matched with the actual capture mode according to the capture mode library; calling a moving area corresponding to the extracted preset capture mode according to the extracted preset capture mode, wherein the moving area is composed of a plurality of capture areas; loading a cursor into the called moving area according to the extracted moving area; responding to a movement request, wherein the movement request carries a movement instruction for controlling the movement of a cursor; and controlling the cursor to move in the called moving area according to the moving instruction. The method and the device have the effect of realizing the effect that the mouse cursor moves to the click position quickly.)

1. A cursor movement control method, comprising:

responding to a capture setting request, wherein the capture setting request carries a setting instruction for setting an actual capture mode;

calling a capturing mode library according to a setting instruction, wherein the capturing mode library consists of a plurality of preset capturing modes;

extracting a preset capture mode matched with the actual capture mode according to the capture mode library;

calling a moving area corresponding to the extracted preset capture mode according to the extracted preset capture mode, wherein the moving area is composed of a plurality of capture areas;

loading a cursor into the called moving area according to the extracted moving area;

responding to a movement request, wherein the movement request carries a movement instruction for controlling the movement of a cursor;

and controlling the cursor to move in the called moving area according to the moving instruction.

2. A cursor movement control method according to claim 1, characterized in that: the preset capturing mode comprises a module capturing mode, an icon capturing mode, a transverse capturing mode, a longitudinal capturing mode and the like; the mobile area corresponds to a preset capture mode and comprises a module area, an icon area, a transverse area, a longitudinal area and the like.

3. The cursor movement control method according to claim 2, wherein after extracting the preset capture pattern matching the actual capture pattern according to the capture pattern library, the method comprises:

recording the extraction times of the preset capture mode extracted each time according to the extracted preset capture mode;

accumulating and calculating the total extraction times of each preset capture mode according to the extraction times;

forming a frequency ranking table according to the total extraction frequency;

and determining the preset capture mode with the maximum total extraction times according to the time sequencing table, forming a default capture mode and storing the default capture mode in a capture mode library.

4. The cursor movement control method according to claim 2, wherein after extracting the preset capture pattern matching the actual capture pattern according to the capture pattern library, the method comprises:

and displaying the extracted preset capture mode to a display terminal according to the extracted preset capture mode.

5. The cursor movement control method according to claim 1, wherein before extracting the preset capture pattern matching the actual capture pattern according to the capture pattern library, the method comprises:

acquiring number information, wherein the number information comprises preset numbers of each preset capture mode;

acquiring an input number of an actual capturing mode;

and matching a preset number which is the same as the input number according to the input number.

6. The cursor movement control method according to claim 1, further comprising:

responding to a cursor zooming request, wherein the cursor zooming request carries a zooming instruction for adjusting the size of a cursor;

and adjusting the cursor size in cursor setting according to the zooming instruction.

7. The cursor movement control method according to claim 6, further comprising:

responding to a cursor sensitivity regulation request, wherein the cursor sensitivity regulation request carries a sensitivity regulation instruction for regulating the sensitivity of a cursor;

and adjusting the cursor sensitivity in cursor setting according to the sensitivity adjusting instruction.

8. The cursor movement control method according to claim 7, further comprising:

calling a cursor mode library, wherein the cursor mode library comprises a plurality of cursor modes, and the cursor modes comprise corresponding cursor sizes and cursor sensitivities;

acquiring the adjusted cursor size or cursor sensitivity in real time to form adjustment information;

according to the adjustment information, matching a cursor mode corresponding to the acquired cursor size or cursor sensitivity;

and extracting corresponding cursor sensitivity or cursor size according to the matched cursor mode, and outputting the cursor sensitivity or cursor size to corresponding cursor setting.

9. A cursor movement control system, comprising:

a capture setting request response module (1) for responding to a capture setting request, wherein the capture setting request carries a setting instruction for setting an actual capture mode;

the capturing mode library calling module (2) is used for calling the capturing mode library according to a set instruction, and the capturing mode library consists of a plurality of preset capturing modes;

the preset capture mode extraction module (3) is used for extracting a preset capture mode matched with the actual capture mode according to the capture mode library;

a moving area calling module (4) for calling a moving area corresponding to the extracted preset capture mode according to the extracted preset capture mode, wherein the moving area is composed of a plurality of capture areas;

the cursor loading module (5) is used for loading a cursor into the called moving area according to the extracted moving area;

a movement request response module (6) for responding to a movement request, wherein the movement request carries a movement instruction for controlling the movement of the cursor;

and the cursor moving module (7) is used for controlling the cursor to move in the called moving area according to the moving instruction.

10. An explosion-proof mouse of this ampere of type which characterized in that: the mouse comprises a mouse shell (100), wherein a left mouse button (200), a right mouse button (300) and a mode button (400) are arranged on the upper part of the mouse shell (100); the middle part of mouse casing (100) is provided with touch pad (500), the top of mouse casing (100) is provided with USB interface (600), be provided with USB decoding circuit board in mouse casing (100), USB decoding circuit board respectively with mouse left button (200), mouse right button (300), touch pad (500) and USB interface (600) communication connection.

Technical Field

The application relates to the technical field of an intrinsic safety type explosion-proof mouse, in particular to a cursor movement control method and system and an intrinsic safety type explosion-proof mouse.

Background

Intrinsic safety type explosion prevention refers to electrical equipment which is installed in a dangerous place in an isolated mode, the explosion prevention performance of the electrical equipment meets the intrinsic safety explosion prevention requirement, and modern intrinsic safety explosion prevention concepts refer to that the explosion prevention performance of the whole automation system meets the intrinsic safety explosion prevention requirement. With the continuous development and maturity of embedded industrial computers, more and more single-board computers are also applied to industrial fields in various fields, so that the intrinsically safe explosion-proof mouse is produced.

The correlation technique can refer to the chinese utility model patent that the grant bulletin number is CN201374038Y, it discloses an explosion-proof safety type mouse, its structure includes mouse casing, left mouse button and right mouse button, mouse casing be closed metal structure, the left side on mouse casing upper portion is provided with left mouse button, the right side is provided with right mouse button, the middle part is provided with the touch pad, the front side of mouse casing articulates there is a protection upper cover, the lower part of protection upper cover is fixed mutually through the buckle with the lower part of mouse casing, the middle part of protection upper cover is provided with the sign, the top of mouse casing is provided with the USB interface, be provided with the USB decoding circuit board in the mouse casing, the USB decoding circuit on the USB decoding circuit board links to each other with left mouse button respectively, right mouse button, touch pad and USB interface.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: a user generally controls the movement of the mouse cursor by using the touch pad, but the movement distance of the mouse cursor is limited due to the size of the touch pad, and the user needs to touch the touch pad for multiple times to move the cursor to the click position, which results in slower movement of the mouse cursor.

Disclosure of Invention

In order to realize that a mouse cursor quickly moves to a click position, the application provides a cursor movement control method and system and an intrinsic safety type explosion-proof mouse.

In a first aspect, the present application provides a cursor movement control method, which adopts the following technical scheme:

a cursor movement control method, comprising:

responding to a capture setting request, wherein the capture setting request carries a setting instruction for setting an actual capture mode;

calling a capturing mode library according to a setting instruction, wherein the capturing mode library consists of a plurality of preset capturing modes;

extracting a preset capture mode matched with the actual capture mode according to the capture mode library;

calling a moving area corresponding to the extracted preset capture mode according to the extracted preset capture mode, wherein the moving area is composed of a plurality of capture areas;

loading a cursor into the called moving area according to the extracted moving area;

responding to a movement request, wherein the movement request carries a movement instruction for controlling the movement of a cursor;

and controlling the cursor to move in the called moving area according to the moving instruction.

Through adopting above-mentioned technical scheme, the user can set for the catching mode when utilizing the touch pad to control the removal of mouse cursor, and then divide the removal region of cursor according to catching the mode division, thereby the user only need stroke in short distance on the touch pad, alright make the cursor move fast to the catching region at click position place, then the same short distance stroke of touch pad is recycled to the user, make the cursor move to click the position and click the operation, thereby break away from the restriction of touch pad size, realize that the user strokes in short distance on the touch pad alright control mouse cursor move fast to the effect of click position department.

Optionally, the preset capture mode includes a module capture mode, an icon capture mode, a horizontal capture mode, a vertical capture mode, and the like; the mobile area corresponds to a preset capture mode and comprises a module area, an icon area, a transverse area, a longitudinal area and the like.

By adopting the technical scheme, the user selects and sets different capture modes according to different operation tasks, so that the cursor can be conveniently and rapidly moved to a click position in a targeted manner according to the operation tasks.

Optionally, after extracting the preset capture mode matched with the actual capture mode according to the capture mode library, the method includes:

recording the extraction times of the preset capture mode extracted each time according to the extracted preset capture mode;

accumulating and calculating the total extraction times of each preset capture mode according to the extraction times;

forming a frequency ranking table according to the total extraction frequency;

and determining the preset capture mode with the maximum total extraction times according to the time sequencing table, forming a default capture mode and storing the default capture mode in a capture mode library.

By adopting the technical scheme, the total extraction times of each capture mode are calculated according to the extraction times of each capture mode, the capture mode with the maximum extraction times is the most common capture mode for the user, and the capture mode with the maximum extraction times is set as the default capture mode so as to meet the personalized requirements of the user.

Optionally, after extracting the preset capture mode matched with the actual capture mode according to the capture mode library, the method includes:

and displaying the extracted preset capture mode to a display terminal according to the extracted preset capture mode.

By adopting the technical scheme, the currently extracted capture mode is displayed to the display terminal, so that a user can master the setting of the capture mode in real time.

Optionally, before extracting the preset capture mode matched with the actual capture mode according to the capture mode library, the method includes:

acquiring number information, wherein the number information comprises preset numbers of each preset capture mode;

acquiring an input number of an actual capturing mode;

and matching a preset number which is the same as the input number according to the input number.

Through adopting above-mentioned technical scheme, utilize the settlement of serial number, the user can be more convenient input serial number to draw the seizure mode of corresponding serial number.

Optionally, the method further includes:

responding to a cursor zooming request, wherein the cursor zooming request carries a zooming instruction for adjusting the size of a cursor;

and adjusting the cursor size in cursor setting according to the zooming instruction.

By adopting the technical scheme, the size of the cursor is adjusted, so that the cursor can be adapted to the size of the click position, and the experience of cursor movement and click is improved.

Optionally, the method further includes:

responding to a cursor sensitivity regulation request, wherein the cursor sensitivity regulation request carries a sensitivity regulation instruction for regulating the sensitivity of a cursor;

and adjusting the cursor sensitivity in cursor setting according to the sensitivity adjusting instruction.

By adopting the technical scheme, the adjustment of the sensitivity of the cursor is utilized, so that the cursor can adapt to the size of the moving range, and the experience of moving and clicking the cursor is further improved.

Optionally, the method further includes:

calling a cursor mode library, wherein the cursor mode library comprises a plurality of cursor modes, and the cursor modes comprise corresponding cursor sizes and cursor sensitivities;

acquiring the adjusted cursor size or cursor sensitivity in real time to form adjustment information;

according to the adjustment information, matching a cursor mode corresponding to the acquired cursor size or cursor sensitivity;

and extracting corresponding cursor sensitivity or cursor size according to the matched cursor mode, and outputting the cursor sensitivity or cursor size to corresponding cursor setting.

By adopting the technical scheme, the setting of various cursor modes is utilized, so that the cursor can automatically adjust the corresponding sensitivity or size after the size or the sensitivity is adjusted at each time, and the cursor can automatically adapt to different click requirements.

In a second aspect, the present application provides a cursor movement control system, which adopts the following technical solutions:

a cursor movement control system comprising:

a capture setting request response module, configured to respond to a capture setting request, where the capture setting request carries a setting instruction for setting an actual capture mode;

the capturing mode library calling module is used for calling a capturing mode library according to a set instruction, and the capturing mode library consists of a plurality of preset capturing modes;

the preset capture mode extraction module is used for extracting a preset capture mode matched with the actual capture mode according to the capture mode library;

a moving area calling module, configured to call a moving area corresponding to the extracted preset capture mode according to the extracted preset capture mode, where the moving area is formed by multiple capture areas;

the cursor loading module is used for loading a cursor into the called moving area according to the extracted moving area;

the mobile request response module is used for responding to a mobile request, and the mobile request carries a mobile instruction for controlling the movement of a cursor;

and the cursor moving module is used for controlling the cursor to move in the called moving area according to the moving instruction.

Through adopting above-mentioned technical scheme, the user can set for the catching mode when utilizing the touch pad to control the removal of mouse cursor, and then divide the removal region of cursor according to catching the mode division, thereby the user only need stroke in short distance on the touch pad, alright make the cursor move fast to the catching region at click position place, then the same short distance stroke of touch pad is recycled to the user, make the cursor move to click the position and click the operation, thereby break away from the restriction of touch pad size, realize that the user strokes in short distance on the touch pad alright control mouse cursor move fast to the effect of click position department.

In a third aspect, the present application provides an intrinsically safe explosion-proof mouse, which adopts the following technical scheme:

an intrinsic safety type explosion-proof mouse comprises a mouse shell, wherein a left mouse button, a right mouse button and a mode button are arranged on the upper part of the mouse shell; the mouse comprises a mouse shell and is characterized in that a touch pad is arranged in the middle of the mouse shell, a USB interface is arranged at the top of the mouse shell, a USB decoding circuit board is arranged in the mouse shell, and the USB decoding circuit board is in communication connection with a left mouse button, a right mouse button, the touch pad and the USB interface respectively.

Through adopting above-mentioned technical scheme, the user can set for the catching mode when utilizing the touch pad to control the removal of mouse cursor, and then divide the removal region of cursor according to catching the mode division, thereby the user only need stroke in short distance on the touch pad, alright make the cursor move fast to the catching region at click position place, then the same short distance stroke of touch pad is recycled to the user, make the cursor move to click the position and click the operation, thereby break away from the restriction of touch pad size, realize that the user strokes in short distance on the touch pad alright control mouse cursor move fast to the effect of click position department.

In summary, the present application includes at least one of the following beneficial technical effects:

the user can set for the catching mode when utilizing the touch pad to control the removal of mouse cursor, and then divides the removal region of cursor according to catching the mode, thereby the user only needs to stroke in the short distance on the touch pad, alright make the cursor move fast to the catching region at point position place in, then the same short distance stroke of touch pad is recycled to the user, make the cursor move to the point position and click the operation, thereby break away from the restriction of touch pad size, realize that the user strokes in the short distance on the touch pad alright control mouse cursor move fast to the effect of point position department.

Drawings

Fig. 1 is a schematic view of the overall structure of an intrinsically safe explosion-proof mouse in the embodiment of the present application.

Fig. 2 is a flowchart of a cursor control method in an embodiment of the present application.

Fig. 3 is a flowchart of the number setting step in the embodiment of the present application.

Fig. 4 is a flowchart of the extraction number recording step in the embodiment of the present application.

Fig. 5 is a flowchart of a cursor adjustment step in an embodiment of the present application.

FIG. 6 is a block diagram of a cursor control system in an embodiment of the present application.

Description of reference numerals:

100. a mouse housing; 200. a left mouse button; 300. a right mouse button; 400. a mode key; 500. a touch panel; 600. a USB interface; 1. a capture setting request response module; 2. a capture pattern library calling module; 3. a preset capture mode extraction module; 4. a mobile area calling module; 5. a cursor loading module; 6. a mobile request response module; 7. and a cursor moving module.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses an intrinsically safe explosion-proof mouse. Referring to fig. 1, the intrinsically safe explosion-proof mouse includes a mouse housing 100, the mouse housing 100 is in a rectangular parallelepiped shell shape, and the mouse housing 100 is a fully enclosed metal shell, thereby effectively achieving the effects of water resistance, dust resistance, shock resistance, impact resistance, and the like.

A left mouse button 200 is provided at one end of the upper surface of the mouse housing 100, and the left mouse button 200 is located at one side of the upper surface of the mouse housing 100.

The right side of the left mouse button 200 is provided with a right mouse button 300, the right mouse button 300 is arranged on the upper surface of the mouse shell 100, the right mouse button 300 and the left mouse button 200 are both positioned at the same end part of the upper surface of the mouse shell 100, and the right mouse button 300 is positioned on one side of the upper surface of the mouse shell 100, which is far away from the left mouse button 200.

The top surface of the mouse shell 100 is provided with a USB interface 600, the inside of the mouse shell 100 is provided with a USB decoding circuit board, and the USB decoding circuit on the USB decoding circuit board is respectively in communication connection with the left mouse button 200, the right mouse button 300 and the USB interface 600, so as to realize the clicking function of the left mouse button 200 and the right mouse button 300.

A mode key 400 is arranged between the left mouse button 200 and the right mouse button 300, the mode key 400 is arranged on the upper surface of the mouse shell 100, the mode key 400 and the left mouse button 200 are positioned at one end part of the upper surface of the mouse shell 100, and the mode key 400 is in communication connection with the USB decoding circuit board so as to realize the click function of the mode key 400.

The middle part of the upper surface of the mouse shell 100 is provided with a touch pad 500, the touch pad 500 is arranged at one end part of the upper surface of the mouse shell 100 far away from the left mouse button 200, and the touch pad 500 is in communication connection with a USB decoding circuit on the USB decoding circuit board so as to realize the movement of a mouse cursor on a computer desktop.

The implementation principle of the intrinsically safe explosion-proof mouse in the embodiment of the application is as follows: when the mouse is used, a user can conveniently move a mouse cursor by sliding the touch screen, click confirmation can be conveniently realized by clicking the left mouse button 200 and the right mouse button 300, so that the computer can be conveniently operated, and operations such as opening of a folder and starting and closing of software operation can be further facilitated; meanwhile, the user can conveniently set a capture mode of the movement of the mouse cursor by clicking the mode key 400, thereby conveniently realizing the effect of quickly moving the mouse cursor.

The embodiment of the application also discloses a cursor movement control method. Referring to fig. 1 and 2, the cursor movement control method includes the following steps:

and S1, responding to the capture setting request.

Wherein, the capture setting request carries a setting instruction for setting the actual capture mode. In actual operation, the user uses the click mode key 400 to input a setting command, and then sends a capture setting request to switch between different capture modes.

And S2, calling a capture pattern library.

The method comprises the steps of calling a capture mode library according to a setting instruction input by a user, wherein the capture mode library is composed of a plurality of preset capture modes. Further, a memory is disposed on the USB decoding circuit board, and a user sets a plurality of preset capture modes by using a peripheral input terminal (such as a computer, a mobile phone, etc.) of the USB interface 600 and stores the capture modes in the memory.

Specifically, the preset capture mode includes a module capture mode, an icon capture mode, a horizontal capture mode, a vertical capture mode, and the like; wherein the capturing is used for automatically positioning the mouse cursor to the position to be clicked.

For example, the module capture mode is that the mouse cursor is automatically positioned at the module area of the point click when moving; the icon capturing mode is that a mouse cursor is automatically positioned at an icon of a main point click when moving; the horizontal capture mode is a mode in which the mouse cursor is automatically positioned at the horizontal position of the point click when moving, and the like. The user selects and sets different capture modes according to different operation tasks, so that the cursor can be conveniently and rapidly moved to a click position in a targeted mode according to the operation tasks.

Referring to fig. 1 and 3, the capturing modes are further numbered, and specifically include the following steps:

s201, acquiring the number information.

Wherein the number information includes a preset number for each preset capture mode. In actual operation, the user sets a plurality of preset capture modes and sets a preset number by using the external input terminal (e.g., a computer, a mobile phone, etc.) of the USB interface 600.

For example, the preset number of the module capture mode is set to 01, the preset number of the icon capture mode is set to 02, the preset number of the horizontal capture mode is set to 03, and the preset number of the vertical capture mode is set to 04.

S202, acquiring an input number of an actual capture mode.

Wherein the input number of the actual capture mode is input by the user using the mode key 400. Further, if the user clicks the mode key 400 once, the input number is 01; the user clicks the mode key 400 once again, the input number is switched to 02 … … and so on until the input number is switched back to 01 when the mode key 400 is clicked on the basis of setting the last preset number.

And S203, matching a preset number which is the same as the input number.

And matching a preset number which is the same as the input number according to the input number input by the user. By setting the number, the user can input the number more conveniently, so that the capture mode of the corresponding number can be extracted more quickly.

Referring back to fig. 1 and 2, the cursor movement control method further includes the following steps:

and S3, extracting a preset capture mode matched with the actual capture mode.

And extracting a preset capturing mode matched with the actual capturing mode according to the capturing mode library and the serial number matching. For example, if the input number input by the user is 01, the preset number 01 corresponding to the input number is matched, and the module capture mode corresponding to the preset number 01 is extracted.

And S4, displaying the extracted preset capture mode to a display terminal.

And displaying the extracted preset capture mode to a display terminal according to the extracted preset capture mode. Further, the display terminal may be a computer screen or a display screen preset on the surface of the mouse housing 100.

For example, when the preset capture mode extracted by the user is the module capture mode, the preset number 01 of the module capture mode is displayed on the display terminal. The currently extracted capture mode is displayed to the display terminal so that the user can grasp the setting of the capture mode in real time.

Referring to fig. 4, the method further records the number of times of extracting the capture mode, and specifically includes the following steps:

s401, recording the extraction times of the preset capture mode extracted each time.

And recording the extraction times of the preset capture mode extracted each time according to the extracted preset capture mode.

S402, accumulating and calculating the total extraction times of each preset capture mode.

Wherein, the total extraction times of each preset capture mode are accumulated and calculated according to the extraction times.

And S403, forming a frequency ranking table.

Wherein, a time ranking table is formed according to the total times of extraction.

S404, determining the preset capture mode with the maximum total extraction times, forming a default capture mode and storing the default capture mode in a capture mode library.

And determining a preset capture mode with the maximum total extraction times according to the time sorting table, forming a default capture mode and storing the default capture mode in a capture mode library.

Specifically, the total extraction times of each capture mode are calculated according to the extraction times of each capture mode, the capture mode with the highest total extraction times is the capture mode most frequently used by the user, and the capture mode with the highest total extraction times is set as the default capture mode so as to meet the personalized requirements of the user.

Referring back to fig. 1 and 2, the cursor movement control method further includes the following steps:

and S5, calling a moving area corresponding to the extracted preset capture mode.

And calling a moving area corresponding to the extracted preset capture mode according to the extracted preset capture mode, wherein the moving area is composed of a plurality of capture areas. Further, the moving area is a capture area divided by the desktop of the computer according to different preset capture modes by the user, so as to generate the capture object correspondingly.

Specifically, the moving area corresponds to a preset capture mode and comprises a module area, wherein the module area divides the computer desktop into four equal parts by taking a cross-shaped axis as a boundary, and comprises an upper left capture area, a lower left capture area, an upper right capture area and a lower right capture area, and a user can quickly position a cursor to the corresponding capture area for operation by moving the cursor; the computer desktop image capturing system comprises an icon area, wherein the icon area takes the position of each icon on the computer desktop as a capturing area; the computer desktop is divided into four equal parts by taking three equidistant transverse shafts as boundaries in the transverse area; the computer desktop is divided into four equal parts by taking three equally spaced longitudinal axes as boundaries in the longitudinal area.

And S6, loading the cursor into the called moving area.

And loading the cursor into the called moving area according to the extracted moving area.

And S7, responding to the moving request.

Wherein the movement request carries a movement instruction for controlling the movement of the cursor. The movement instructions are generated by the user using the swipe touch pad 500.

And S8, controlling the cursor to move in the called moving area.

And controlling the cursor to move in the called moving area according to the moving instruction.

Referring to fig. 1 and 5, further adjusting the size of the mouse cursor includes the following steps:

and S901, responding to a cursor zooming request.

Wherein, the cursor zooming request carries a zooming instruction for adjusting the size of the cursor. The zoom command is generated by the user clicking the left mouse button 200 while holding down the mode key 400.

And S902, adjusting the size of the cursor in cursor setting.

And adjusting the size of the cursor in the cursor setting according to the zooming instruction. For example, the size of the mouse cursor is preset to be three sizes, i.e., small, medium and large, the user presses the mode button 400 and clicks the left mouse button 200 once to switch the size of the mouse cursor to the next size, i.e., the mouse cursor is currently in the medium size, and the user presses the mode button 400 and clicks the left mouse button 200 to switch the size of the mouse cursor to the large size. The size of the cursor is adjusted so that the cursor can be matched with the size of the click position, and therefore the experience of cursor movement and click is improved.

Referring to fig. 1 and 5, further adjusting the sensitivity of the mouse cursor includes the following steps:

and S903, responding to the cursor sensitivity regulation request.

Wherein the cursor sensitivity adjustment request carries a sensitivity adjustment instruction for adjusting the sensitivity of the cursor. The zoom command is generated by the user holding down the mode key 400 while clicking the right mouse button 300.

And S904, adjusting the cursor sensitivity in cursor setting.

And adjusting the cursor sensitivity in cursor setting according to the sensitivity adjusting instruction. For example, the sensitivity of the mouse cursor is preset to be slow, medium and fast, the user presses the mode button 400 and clicks the right mouse button 300 once to switch the sensitivity of the mouse cursor to the next sensitivity, for example, if the mouse cursor is currently medium, the user presses the mode button 400 and clicks the right mouse button 300 to switch the sensitivity of the mouse cursor to the fast sensitivity. By means of adjustment of the sensitivity of the cursor, the cursor can be adapted to the size of the moving range, and therefore the experience of moving and clicking the cursor is further improved.

Referring to fig. 5, after S902 or S904, the method further performs automatic adaptive adjustment on the sensitivity or size of the mouse cursor, specifically including the following steps:

and S905, calling a cursor mode library.

The cursor mode library comprises a plurality of cursor modes, and the cursor modes comprise corresponding cursor sizes and cursor sensitivities. For example, the cursor mode 1 includes a small size mouse cursor and a slow sensitivity mouse cursor, so the cursor mode 1 is suitable for more detailed and tedious data clicking operations. The cursor mode 2 includes that the size of the mouse cursor is a medium size and the sensitivity of the mouse cursor is a medium speed sensitivity, so the cursor mode 2 is suitable for the conventional clicking operation. The cursor mode 3 includes that the size of the mouse cursor is large and the sensitivity of the mouse cursor is quick, so that the cursor mode 3 is suitable for simpler data motor operation.

And S906, acquiring the adjusted cursor size or cursor sensitivity in real time to form adjustment information.

And S907, matching a cursor mode corresponding to the acquired cursor size or cursor sensitivity.

And matching a cursor mode corresponding to the acquired cursor size or cursor sensitivity according to the adjustment information.

And S908, extracting the corresponding cursor sensitivity or cursor size and outputting the cursor sensitivity or cursor size to corresponding cursor setting.

And extracting corresponding cursor sensitivity or cursor size according to the matched cursor mode, and outputting the cursor sensitivity or cursor size to corresponding cursor setting. By means of setting of various cursor modes, after the size or the sensitivity of the cursor is adjusted each time, the corresponding sensitivity or the size of the cursor can be automatically adjusted, and the cursor can automatically adapt to different click requirements.

The implementation principle of the cursor movement control method in the embodiment of the application is as follows: the user can set for the catching mode when utilizing the touch pad to control the removal of mouse cursor, and then divides the removal region of cursor according to catching the mode, thereby the user only needs to stroke in the short distance on the touch pad, alright make the cursor move fast to the catching region at point position place in, then the same short distance stroke of touch pad is recycled to the user, make the cursor move to the point position and click the operation, thereby break away from the restriction of touch pad size, realize that the user strokes in the short distance on the touch pad alright control mouse cursor move fast to the effect of point position department.

The embodiment of the application also discloses a cursor movement control system. Referring to fig. 6, the cursor movement control system includes:

a capture setting request response module 1, wherein the capture setting request response module 1 is used for responding to a capture setting request, and the capture setting request carries a setting instruction for setting an actual capture mode.

And the capturing mode library calling module 2 is used for calling the capturing mode library according to a set instruction, and the capturing mode library is composed of a plurality of preset capturing modes.

And the preset capture mode extraction module 3 is used for extracting a preset capture mode matched with the actual capture mode according to the capture mode library by the preset capture mode extraction module 3.

And a moving area calling module 4, wherein the moving area calling module 4 is configured to call a moving area corresponding to the extracted preset capture mode according to the extracted preset capture mode, and the moving area is composed of a plurality of capture areas.

And the cursor loading module 5 is used for loading the cursor into the called moving area according to the extracted moving area.

And the movement request response module 6 is used for responding to the movement request, and the movement request carries a movement instruction for controlling the movement of the cursor.

And the cursor moving module 7 is used for controlling the cursor to move in the called moving area according to the moving instruction.

The implementation principle of the cursor movement control system in the embodiment of the application is as follows: the user can set for the catching mode when utilizing the touch pad to control the removal of mouse cursor, and then divides the removal region of cursor according to catching the mode, thereby the user only needs to stroke in the short distance on the touch pad, alright make the cursor move fast to the catching region at point position place in, then the same short distance stroke of touch pad is recycled to the user, make the cursor move to the point position and click the operation, thereby break away from the restriction of touch pad size, realize that the user strokes in the short distance on the touch pad alright control mouse cursor move fast to the effect of point position department.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.