CN113205784B - Intelligent liquid crystal display of many screen combinations - Google Patents

Intelligent liquid crystal display of many screen combinations Download PDF

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CN113205784B
CN113205784B CN202110461839.5A CN202110461839A CN113205784B CN 113205784 B CN113205784 B CN 113205784B CN 202110461839 A CN202110461839 A CN 202110461839A CN 113205784 B CN113205784 B CN 113205784B
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CN113205784A (en
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凌洪亮
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Anhui Guanlin Electronic Technology Co ltd
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    • GPHYSICS
    • G09EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
    • G09GARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
    • G09G3/00Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes
    • G09G3/20Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters
    • G09G3/34Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters by control of light from an independent source
    • G09G3/36Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters by control of light from an independent source using liquid crystals
    • G09G3/3611Control of matrices with row and column drivers
    • G09G3/3622Control of matrices with row and column drivers using a passive matrix
    • G09G3/3644Control of matrices with row and column drivers using a passive matrix with the matrix divided into sections
    • GPHYSICS
    • G09EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
    • G09GARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
    • G09G3/00Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes
    • G09G3/20Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters
    • G09G3/34Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters by control of light from an independent source
    • G09G3/36Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters by control of light from an independent source using liquid crystals
    • G09G3/3611Control of matrices with row and column drivers
    • G09G3/3648Control of matrices with row and column drivers using an active matrix
    • G09G3/3666Control of matrices with row and column drivers using an active matrix with the matrix divided into sections

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Abstract

The invention provides an intelligent liquid crystal display screen with a multi-screen combination. The intelligent liquid crystal display screen comprises a display screen main body and a display screen support frame; the display screen main body is arranged on the display screen support frame; a split screen processor is installed in the display screen main body. The display screen main body comprises a first component screen, a second component screen and a third component screen; the first component screen, the second component screen and the third component screen are connected in parallel in sequence.

Description

Intelligent liquid crystal display of many screen combinations
Technical Field
The invention provides an intelligent liquid crystal display screen with a multi-screen combination, and belongs to the technical field of displays.
Background
The liquid crystal display is one of flat panel displays. The display screen is used for screen display of televisions and computers, and has the advantages of low power consumption, small size and low radiation. Along with the continuous development of network science and technology, liquid crystal display has obtained extensive application, but current liquid crystal display still has certain not enough, mainly embodies that the split screen of current display shows can't divide the screen independent display to the independent interface in the screen position that the user wanted.
Disclosure of Invention
The invention provides a multi-screen combined intelligent liquid crystal display screen, which is used for solving the problem that the split screen display of the existing display can not independently display an independent interface at the split screen position, and adopts the following technical scheme:
a multi-screen combined intelligent liquid crystal display screen comprises a display screen main body and a display screen support frame; the display screen main body is arranged on the display screen support frame; a split screen processor is installed in the display screen main body.
Further, the display screen main body comprises a first component screen, a second component screen and a third component screen; the first component screen, the second component screen and the third component screen are connected in parallel in sequence.
Further, the first component split screen comprises two first sub-split screens with the same structure and size; the two first sub-split screens are connected and installed up and down to form a first component split screen; the second component screen comprises two second sub-component screens with the same structure and size; the two second sub-split screens are connected and installed up and down to form a second component screen; the third component screen comprises two third sub component screens with the same structure and size; the two third sub-split screens are connected and installed up and down to form a third split screen; and the two first sub-screen screens, the two second sub-screen screens and the two third sub-screen screens are provided with corresponding sub-screen labels.
Further, the sizes of the first sub-split screen, the second sub-split screen and the third sub-split screen are obtained through the following formulas:
Figure BDA0003042660960000011
Figure BDA0003042660960000012
Figure BDA0003042660960000013
L3=L-L1-L2
Figure BDA0003042660960000021
wherein D is1、D2、D3D respectively represents the width of a first sub-split screen, the width of a second sub-split screen, the width of a third sub-split screen and the total width of the intelligent liquid crystal display screen; l is1、L2、L3L respectively represents the length of the first sub-split screen, the length of the second sub-split screen, the length of the third sub-split screen and the total length of the intelligent liquid crystal display screen; l is0Indicating the amount of length adjustment.
Further, the screen splitting control method of the intelligent liquid crystal display screen comprises the following steps:
the user selects to enter a split screen control mode;
after entering a split screen control mode, dragging an independent display interface needing split screen to a first sub-split screen, a second sub-split screen or a third sub-split screen position needing independent display for displaying;
detecting the occurrence times of the split screen positions of the user within the preset monitoring time, acquiring the corresponding label of the sub-split screen with the largest independent display times through the occurrence times of the split screen positions as a direct split screen, and in a preset subsequent detection time period, when the user selects a split screen control mode and performs split screen independent display, only clicking on the split screen independent display interface required to be split, so that the split screen independent display interface can be displayed on the direct split screen.
Further, after entering the split-screen control mode, dragging the separate display interface to be split-screen to the position of the first sub-split-screen, the second sub-split-screen or the third sub-split-screen to be separately displayed, including:
dragging the independent display interface needing to be split-screen to the corresponding position of the corresponding split-screen, detecting the coordinate corresponding to the route of the user dragging interface, and preliminarily judging the split-screen position corresponding to the dragging direction of the user and the corresponding label of the sub-split-screen according to the coordinate;
detecting whether an overlapping area between a split screen area and a user dragging interface exceeds a preset overlapping area threshold value or not;
when the overlapping area falling into the sub split screen area exceeds a preset overlapping area threshold value, determining the sub split screen with the overlapping area exceeding the preset overlapping area threshold value as a candidate split screen;
judging whether the mark number of the candidate split screen currently acquired is consistent with the corresponding mark number of the sub split screen determined when the mobile coordinate is judged; if the screen division interfaces are consistent, displaying the screen division interface selected by the user in the corresponding sub screen division screen; and if the screen division screen marks are inconsistent, popping up the screen division screen marks determined when the mobile coordinates are judged on the display screen, determining the screen division screen marks for the user to select and confirm when the overlapped area is judged, and displaying the screen division interface on the corresponding sub screen division screen according to the sub screen division screen marks determined by the user after the user selects and confirms the screen division screen marks.
Further, detecting the number of times of occurrence of the split screen position of the user within the preset monitoring time, acquiring the corresponding label of the sub-split screen with the largest number of times of independent display as a direct split screen through the number of times of occurrence of the split screen position, and when the user selects the split screen control mode and performs split screen independent display within a preset subsequent checking time period, performing direct display on the direct split screen through the split screen independent display interface, wherein the method comprises the following steps:
monitoring labels corresponding to the positions of the sub-split screens when the user performs independent split screen display within preset habit monitoring time, and judging time periods corresponding to the split screen positions;
when the occurrence frequency of the sub-split screen labels adopted when the user independently displays the split screen interface is greater than a preset use frequency threshold value in the corresponding time period, and the number relation between the split screen labels with the second most times and the split screen labels with the most times reaches the following conditions, the labels corresponding to the sub-split screen screens with the most times are used as habit labels:
Figure BDA0003042660960000031
wherein, C1Representing the number of times of the sub-split screen exceeding a preset threshold value of the number of times of use; c2A sub-split screen number indicating a second largest number of usage times;
in a preset inspection time period, when a user performs independent split-screen display operation on a split-screen interface in a corresponding time period, after the user selects split screen, only clicking on the independent split-screen display interface required to be split screen, and then automatically adjusting the interface selected by the user into a sub split-screen corresponding to the habit label;
after the interface selected by the user is automatically adjusted into the sub-split screen corresponding to the habit label, prompting the user whether to adjust the split screen position, monitoring the subsequent split screen adjustment times of the user in real time, monitoring the split screen habit of the user again when the adjustment times of the user and the non-adjustment times of the user meet the following conditions, and re-determining the commonly used split screen label of the user according to the split screen position habit of the user:
Figure BDA0003042660960000032
wherein H1Indicating that the user does not adjust the number of times; h2Indicating the number of user adjustments.
Further, embedding the split screen control system in the split screen processor of the intelligent liquid crystal display screen comprises:
the mode selection module is used for enabling a user to select to enter a split screen control mode;
the dragging module is used for dragging the interface needing to be separately displayed in a split screen mode to the position of a first sub split screen, a second sub split screen or a third sub split screen needing to be separately displayed for displaying;
the split-screen independent display module is used for detecting the occurrence frequency of the split-screen position of a user in preset monitoring time, acquiring the corresponding label of the sub-split-screen with the largest independent display frequency through the occurrence frequency of the split-screen position as a direct split-screen, and when a user selects a split-screen control mode and performs split-screen independent display in a preset subsequent detection time period, only clicking on the split-screen independent display interface required to be split, so that the split-screen independent display interface can be displayed on the direct split-screen.
Further, the drag module includes:
the preliminary judgment module is used for dragging the screen splitting independent display interface to a position corresponding to the corresponding screen splitting screen, detecting a coordinate corresponding to a user dragging interface route, and preliminarily judging a screen splitting screen position corresponding to a user dragging direction and a sub screen splitting screen corresponding label according to the coordinate;
the area detection module is used for detecting whether an overlapping area between the split screen area and the user dragging interface exceeds a preset overlapping area threshold value or not;
the split screen determining module is used for determining the sub split screen with the overlapping area exceeding the preset overlapping area threshold as a candidate split screen when the overlapping area falling into the sub split screen area exceeds the preset overlapping area threshold;
the judging module is used for judging whether the mark number of the candidate split screen currently acquired is consistent with the corresponding mark number of the sub split screen determined when the moving coordinate is judged; if the screen division interfaces are consistent, displaying the screen division interface selected by the user in the corresponding sub screen division screen; and if the screen division screen marks are inconsistent, popping up the screen division screen marks determined when the mobile coordinates are judged on the display screen, determining the screen division screen marks for the user to select and confirm when the overlapped area is judged, and displaying the screen division interface on the corresponding sub screen division screen according to the sub screen division screen marks determined by the user after the user selects and confirms the screen division screen marks.
Further, the split-screen independent display module includes:
the monitoring module is used for monitoring labels corresponding to the positions of the sub-split screens when the user performs the independent split screen display within the preset habit monitoring time, and judging the time periods corresponding to the split screen positions;
the split screen locking module is used for taking the label corresponding to the sub split screen with the most times as a habit label when the occurrence times of the sub split screen label adopted by the user when the split screen interface is independently displayed in the corresponding time period is greater than a preset use time threshold value and the quantity relation between the split screen label with the second most times and the split screen label with the most times meets a first numerical value relation, wherein the first numerical value relation is as follows:
Figure BDA0003042660960000041
wherein, C1Representing the number of times of the sub-split screen exceeding a preset threshold value of the number of times of use; c2A sub-split screen number indicating a second largest number of usage times;
the automatic independent display module is used for automatically adjusting the interface selected by the user to the sub-split screen corresponding to the habit label by clicking on the separate display interface needing to be split after the user selects the split screen when the user performs the separate split screen display operation of the split screen interface in the corresponding time period within the preset inspection time period;
and the monitoring adjustment module is used for prompting the user whether to adjust the screen splitting position or not after automatically adjusting the interface selected by the user into the sub screen splitting screen corresponding to the habit label, monitoring the subsequent screen splitting adjustment times of the user in real time, monitoring the screen splitting habit of the user again when the adjustment times of the user and the non-adjustment times of the user meet the following conditions, and re-determining the commonly used screen splitting screen label of the user according to the habit of the screen splitting position of the user:
Figure BDA0003042660960000042
wherein H1Indicating that the user does not adjust the number of times; h2Indicating the number of user adjustments.
The invention has the beneficial effects that:
the intelligent liquid crystal display screen with multi-screen combination provided by the invention is applied to the display field of computers, computers or mobile terminals, can realize independent display of a real application interface or a software interface at any position of six directions on the intelligent liquid crystal display screen, and provides multi-application simultaneous display or independent split-screen display of independent application for users. The intelligent liquid crystal display screen provided by the invention can effectively improve the flexibility, diversity and independent display of split screen display. Meanwhile, an automatic and rapid split-screen display function is provided through user habit detection, and split-screen display efficiency and split-screen display speed are improved. The user does not need to select the screen splitting position every time, and the screen splitting operation convenience of the user is further improved.
Drawings
FIG. 1 is a schematic view of a display screen according to the present invention;
FIG. 2 is a flow chart of a split screen control method according to the present invention;
FIG. 3 is a system block diagram of the split screen control system of the present invention;
(1, a display screen main body; 2, a display screen support frame; 11, a first sub-split screen, 12, a second sub-split screen, 13, a third sub-split screen).
Detailed Description
The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.
The embodiment of the invention provides a multi-screen combined intelligent liquid crystal display screen, which comprises a display screen main body and a display screen support frame, wherein as shown in fig. 1, the display screen main body is provided with a display screen main body; the display screen main body is arranged on the display screen support frame; a split screen processor is installed in the display screen main body.
The display screen main body comprises a first component screen, a second component screen and a third component screen; the first component screen, the second component screen and the third component screen are connected in parallel in sequence.
The first component split screen comprises two first sub split screen screens with the same structure and size; the two first sub-split screens are connected and installed up and down to form a first component split screen; the second component screen comprises two second sub-component screens with the same structure and size; the two second sub-split screens are connected and installed up and down to form a second component screen; the third component screen comprises two third sub component screens with the same structure and size; the two third sub-split screens are connected and installed up and down to form a third split screen; and the two first sub-screen screens, the two second sub-screen screens and the two third sub-screen screens are provided with corresponding sub-screen labels.
The sizes of the first sub-split screen, the second sub-split screen and the third sub-split screen are obtained through the following formulas:
Figure BDA0003042660960000061
Figure BDA0003042660960000062
Figure BDA0003042660960000063
L3=L-L1-L2
Figure BDA0003042660960000064
wherein D is1、D2、D3D respectively represents the width of a first sub-split screen, the width of a second sub-split screen, the width of a third sub-split screen and the total width of the intelligent liquid crystal display screen; l is1、L2、L3L respectively represents the length of the first sub-split screen, the length of the second sub-split screen, the length of the third sub-split screen and the total length of the intelligent liquid crystal display screen; l is0Indicating the amount of length adjustment. Where INT () represents a floor function.
The working principle of the technical scheme is as follows: by adopting the mode of combining six sub-split screens of the intelligent liquid crystal display screen, the liquid crystal display screen has six independent split screen display positions and an independent split screen display function. The user can drag the software application interface or the webpage interface to one of the sub-split screens according to the requirement of the user to perform independent split screen display. Meanwhile, the six sub-split screens are divided into three split screens with different sizes, so that the split screens have three calculable sizes, and a user can drag the interface to the sub-split screen with the proper size for independent display according to the visual requirement of independent display of the current interface.
The effect of the above technical scheme is as follows: the intelligent liquid crystal display screen with the multi-screen combination is applied to the display field of computers, computers or mobile terminals, can realize independent display of a real application interface or a software interface at any position of six directions on the intelligent liquid crystal display screen, and provides simultaneous display of multiple applications or independent split-screen display of single application for users. The intelligent liquid crystal display that this embodiment provided can effectively improve flexibility, variety and the independent display nature that divides the screen display to effectively improve the user and divide screen simple operation nature. Meanwhile, the size of the three-component screen acquired through the formula can ensure the balance of the large, medium and small sizes among all sizes under the condition of effectively improving the diversity of the display sizes of the component screens, so that the sub-component screen of any size can provide a comfortable and clean visual field for a user. The problem that too large or too small split screen size causes unclear or uncomfortable view of a user is prevented.
In an embodiment of the present invention, as shown in fig. 2, the method for controlling split screen of an intelligent liquid crystal display includes:
s1, selecting to enter a split screen control mode by a user;
s2, after entering a split screen control mode, dragging the interface needing to be split and displayed independently to the position of a first sub split screen, a second sub split screen or a third sub split screen needing to be displayed independently for displaying;
s3, detecting the occurrence frequency of the split screen position of the user in the preset monitoring time, acquiring the corresponding label of the sub-split screen with the largest independent display frequency through the occurrence frequency of the split screen position as a direct split screen, and in the preset subsequent detection time period, when the user selects the split screen control mode and performs split screen independent display, only clicking on the separate display interface needing split screen is needed, and displaying the separate display interface on the direct split screen.
After entering the split-screen control mode, dragging the separate display interface to be split-screen to the position of a first sub-split-screen, a second sub-split-screen or a third sub-split-screen which are required to be separately displayed, and displaying the screen, including:
s201, dragging an independent display interface needing to be split screen to a corresponding position of a corresponding split screen, detecting a coordinate corresponding to a user dragging interface route, and preliminarily judging a split screen position corresponding to a user dragging direction and a corresponding label of a sub-split screen according to the coordinate;
s202, detecting whether an overlapping area between a split screen area and a user dragging interface exceeds a preset overlapping area threshold value or not;
s203, when the overlapping area falling into the sub-split screen area exceeds a preset overlapping area threshold, determining the sub-split screen with the overlapping area exceeding the preset overlapping area threshold as a candidate split screen;
s204, judging whether the label of the candidate split screen currently acquired is consistent with the corresponding label of the sub split screen determined when the movement coordinate is judged; if the screen division interfaces are consistent, displaying the screen division interface selected by the user in the corresponding sub screen division screen; and if the screen division screen marks are inconsistent, popping up the screen division screen marks determined when the mobile coordinates are judged on the display screen, determining the screen division screen marks for the user to select and confirm when the overlapped area is judged, and displaying the screen division interface on the corresponding sub screen division screen according to the sub screen division screen marks determined by the user after the user selects and confirms the screen division screen marks.
Wherein, detect user split screen position number of occurrence in the monitoring time of predetermineeing, the sub-split screen that obtains the most independent display number of times through split screen position number of occurrence corresponds the label as direct split screen to in the subsequent check time period that sets up in advance, when the user selects the split screen control mode and carries out split screen independent display, will split screen independent display interface and be in carry out direct display on the direct split screen, include:
s301, monitoring labels corresponding to the positions of the sub-split screens when the user performs independent split screen display within preset habit monitoring time, and judging time periods corresponding to the split screen positions;
s302, when the occurrence frequency of the sub-split screen labels adopted when the user independently displays the split screen interface is larger than a preset using frequency threshold value in the corresponding time period, and the number relation between the split screen labels with the second most times and the split screen labels with the most times reaches the following conditions, the labels corresponding to the sub-split screen screens with the most times are used as habit labels:
Figure BDA0003042660960000071
wherein, C1Representing the number of times of the sub-split screen exceeding a preset threshold value of the number of times of use; c2Indicates the number of usesCounting the number of times of the second most sub split screens;
s303, in a preset detection time period, when a user performs independent split-screen display operation on a split-screen interface in a corresponding time period, after the user selects split-screen, the user only needs to click on the independent split-screen display interface, and then the interface selected by the user is automatically adjusted into a sub split-screen corresponding to the habit label;
s304, after automatically adjusting the interface selected by the user to the sub-split screen corresponding to the habit label, prompting the user whether to adjust the split screen position, monitoring the subsequent split screen adjustment times of the user in real time, monitoring the split screen habit of the user again when the adjustment times of the user and the non-adjustment times of the user meet the following conditions, and re-determining the commonly used split screen label of the user according to the split screen position habit of the user:
Figure BDA0003042660960000081
wherein H1Indicating that the user does not adjust the number of times; h2Indicating the number of user adjustments.
The working principle of the technical scheme is as follows: firstly, a user selects to enter a split screen control mode; then, after entering a split screen control mode, dragging the separate display interface needing to be split screen to the position of a first sub split screen, a second sub split screen or a third sub split screen needing to be separately displayed for displaying; and finally, detecting the occurrence frequency of the split screen position of the user in the preset monitoring time, acquiring the corresponding label of the sub split screen with the maximum independent display frequency through the occurrence frequency of the split screen position as a direct split screen, and in a preset subsequent detection time period, when the user selects a split screen control mode and performs split screen independent display, only clicking on the split screen independent display interface required to be split, so that the split screen independent display interface can be displayed on the direct split screen.
The effect of the above technical scheme is as follows: according to the control mode, the accuracy of the split-screen display position can be effectively improved through the interface coincidence area and the dragging track coordinate identification mode, and the rapidity and the accuracy of the split-screen display by dragging of a user are improved. Simultaneously, utilize above-mentioned mode can also provide automatic swift split screen display function through user's habit detection, improve split screen display efficiency and split screen display speed. The user does not need to select the screen splitting position every time, and the screen splitting operation convenience of the user is further improved.
On the other hand, the accuracy of the habit judgment of the user can be effectively improved through the determination of the numerical relation. Meanwhile, the inconvenience brought to the user by directly displaying the habit of the user through rough estimation under the condition that the screen-splitting use difference of each position of the user cannot be caused by simply adopting a threshold value to define the habit of the user is effectively prevented. The accuracy and the precision of the habit estimation of the user can be further improved under the condition of considering the use habits of various screen splitting positions of the user.
In an embodiment of the present invention, as shown in fig. 3, the system for embedding a split screen control system in a split screen processor of an intelligent liquid crystal display screen includes:
the mode selection module is used for enabling a user to select to enter a split screen control mode;
the dragging module is used for dragging the interface needing to be separately displayed in a split screen mode to the position of a first sub split screen, a second sub split screen or a third sub split screen needing to be separately displayed for displaying;
the split-screen independent display module is used for detecting the occurrence frequency of the split-screen position of a user in preset monitoring time, acquiring the corresponding label of the sub-split-screen with the largest independent display frequency through the occurrence frequency of the split-screen position as a direct split-screen, and when a user selects a split-screen control mode and performs split-screen independent display in a preset subsequent detection time period, only clicking on the split-screen independent display interface required to be split, so that the split-screen independent display interface can be displayed on the direct split-screen.
Wherein the drag module includes:
the preliminary judgment module is used for dragging the screen splitting independent display interface to a position corresponding to the corresponding screen splitting screen, detecting a coordinate corresponding to a user dragging interface route, and preliminarily judging a screen splitting screen position corresponding to a user dragging direction and a sub screen splitting screen corresponding label according to the coordinate;
the area detection module is used for detecting whether an overlapping area between the split screen area and the user dragging interface exceeds a preset overlapping area threshold value or not;
the split screen determining module is used for determining the sub split screen with the overlapping area exceeding the preset overlapping area threshold as a candidate split screen when the overlapping area falling into the sub split screen area exceeds the preset overlapping area threshold;
the judging module is used for judging whether the mark number of the candidate split screen currently acquired is consistent with the corresponding mark number of the sub split screen determined when the moving coordinate is judged; if the screen division interfaces are consistent, displaying the screen division interface selected by the user in the corresponding sub screen division screen; and if the screen division screen marks are inconsistent, popping up the screen division screen marks determined when the mobile coordinates are judged on the display screen, determining the screen division screen marks for the user to select and confirm when the overlapped area is judged, and displaying the screen division interface on the corresponding sub screen division screen according to the sub screen division screen marks determined by the user after the user selects and confirms the screen division screen marks.
Wherein, the independent display module of split screen includes:
the monitoring module is used for monitoring labels corresponding to the positions of the sub-split screens when the user performs the independent split screen display within the preset habit monitoring time, and judging the time periods corresponding to the split screen positions;
the split screen locking module is used for taking the label corresponding to the sub split screen with the most times as a habit label when the occurrence times of the sub split screen label adopted by the user when the split screen interface is independently displayed in the corresponding time period is greater than a preset use time threshold value and the quantity relation between the split screen label with the second most times and the split screen label with the most times meets a first numerical value relation, wherein the first numerical value relation is as follows:
Figure BDA0003042660960000091
wherein, C1Representing the number of times of the sub-split screen exceeding a preset threshold value of the number of times of use; c2A sub-split screen number indicating a second largest number of usage times;
the automatic independent display module is used for automatically adjusting the interface selected by the user to the sub-split screen corresponding to the habit label by clicking on the separate display interface needing to be split after the user selects the split screen when the user performs the separate split screen display operation of the split screen interface in the corresponding time period within the preset inspection time period;
and the monitoring adjustment module is used for prompting the user whether to adjust the screen splitting position or not after automatically adjusting the interface selected by the user into the sub screen splitting screen corresponding to the habit label, monitoring the subsequent screen splitting adjustment times of the user in real time, monitoring the screen splitting habit of the user again when the adjustment times of the user and the non-adjustment times of the user meet the following conditions, and re-determining the commonly used screen splitting screen label of the user according to the habit of the screen splitting position of the user:
Figure BDA0003042660960000101
wherein H1Indicating that the user does not adjust the number of times; h2Indicating the number of user adjustments.
The working principle of the technical scheme is as follows: the operation process of embedding the split screen control system in the split screen processor of the intelligent liquid crystal display screen comprises the following steps:
firstly, enabling a user to select to enter a split screen control mode through a mode selection module; then, after a dragging module is adopted to enter a split screen control mode, dragging the interface needing to be separately displayed to the position of a first sub split screen, a second sub split screen or a third sub split screen needing to be separately displayed for displaying; and finally, detecting the occurrence times of the screen splitting position of the user in the preset monitoring time through the screen splitting independent display module, acquiring the corresponding label of the sub-screen splitting screen with the largest independent display times through the occurrence times of the screen splitting position as a direct screen splitting screen, and in a preset subsequent detection time period, when the user selects a screen splitting control mode and performs screen splitting independent display, clicking on the screen splitting independent display interface as required, so that the screen splitting independent display interface can be displayed on the direct screen splitting screen.
Wherein, the operation process of the dragging module comprises the following steps:
firstly, dragging an independent display interface needing to be split-screen to a corresponding position of a corresponding split-screen by adopting a preliminary judgment module, detecting a coordinate corresponding to a user dragging interface route, and preliminarily judging a split-screen position corresponding to a user dragging direction and a sub-split-screen corresponding label according to the coordinate; then, detecting whether an overlapping area between the split screen area and a user dragging interface exceeds a preset overlapping area threshold value or not through an area detection module; then, when the overlapping area falling into the sub-split screen area exceeds a preset overlapping area threshold value, determining the sub-split screen with the overlapping area exceeding the preset overlapping area threshold value as a candidate split screen by using a split screen determining module; finally, judging whether the mark number of the candidate split screen currently acquired is consistent with the corresponding mark number of the sub split screen determined when the movement coordinate is judged by adopting a judging module; if the screen division interfaces are consistent, displaying the screen division interface selected by the user in the corresponding sub screen division screen; and if the screen division screen marks are inconsistent, popping up the screen division screen marks determined when the mobile coordinates are judged on the display screen, determining the screen division screen marks for the user to select and confirm when the overlapped area is judged, and displaying the screen division interface on the corresponding sub screen division screen according to the sub screen division screen marks determined by the user after the user selects and confirms the screen division screen marks.
Wherein, the independent display module of split screen includes:
firstly, monitoring labels corresponding to the positions of sub-split screens when a user performs independent split screen display within preset habit monitoring time through a monitoring module, and judging time periods corresponding to the split screen positions; then, in a corresponding time period, when the occurrence frequency of the sub-split screen labels adopted when the user performs the separate display of the split screen interface is greater than a preset use frequency threshold value, and when the quantity relationship between the split screen labels with the second plurality of times and the split screen labels with the most times meets a first numerical value relationship, the labels corresponding to the sub-split screen screens with the most times are used as habit labels, wherein the first numerical value relationship is as follows:
Figure BDA0003042660960000111
wherein, C1Representing the number of times of the sub-split screen exceeding a preset threshold value of the number of times of use; c2A sub-split screen number indicating a second largest number of usage times;
then, in a preset inspection time period, when a user performs independent split-screen display operation on a split-screen interface in a corresponding time period through an automatic independent display module, after the user selects split screen, only clicking on the split-screen independent display interface is needed, and then automatically adjusting the interface selected by the user into a sub split-screen corresponding to the habit label; and finally, after automatically adjusting the interface selected by the user to the sub-split screen corresponding to the habit label by adopting a monitoring adjustment module, prompting the user whether to adjust the split screen position, monitoring the subsequent split screen adjustment times of the user in real time, monitoring the split screen habit of the user again when the adjustment times of the user and the non-adjustment times of the user meet the following conditions, and re-determining the commonly used split screen label of the user according to the habit of the split screen position of the user:
Figure BDA0003042660960000112
wherein H1Indicating that the user does not adjust the number of times; h2Indicating the number of user adjustments.
The effect of the above technical scheme is as follows: according to the control mode, the accuracy of the split-screen display position can be effectively improved through the interface coincidence area and the dragging track coordinate identification mode, and the rapidity and the accuracy of the split-screen display by dragging of a user are improved. Simultaneously, utilize above-mentioned mode can also provide automatic swift split screen display function through user's habit detection, improve split screen display efficiency and split screen display speed. The user does not need to select the screen splitting position every time, and the screen splitting operation convenience of the user is further improved.
On the other hand, the accuracy of the habit judgment of the user can be effectively improved through the determination of the numerical relation. Meanwhile, the inconvenience brought to the user by directly displaying the habit of the user through rough estimation under the condition that the screen-splitting use difference of each position of the user cannot be caused by simply adopting a threshold value to define the habit of the user is effectively prevented. The accuracy and the precision of the habit estimation of the user can be further improved under the condition of considering the use habits of various screen splitting positions of the user.
It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (9)

1. The multi-screen combined intelligent liquid crystal display screen is characterized by comprising a display screen main body and a display screen support frame; the display screen main body is arranged on the display screen support frame; a split screen processor is installed in the display screen main body; the embedded split screen control system in the split screen processor of the intelligent liquid crystal display screen comprises: the device comprises a mode selection module, a dragging module and a split-screen independent display module, wherein the split-screen independent display module comprises:
the monitoring module is used for monitoring labels corresponding to the positions of the sub-split screens when the user performs the independent split screen display within the preset habit monitoring time, and judging the time periods corresponding to the split screen positions;
the split screen locking module is used for taking the label corresponding to the sub split screen with the most times as a habit label when the occurrence times of the sub split screen label adopted by the user when the split screen interface is independently displayed in the corresponding time period is greater than a preset use time threshold value and the quantity relation between the split screen label with the second most times and the split screen label with the most times meets a first numerical value relation, wherein the first numerical value relation is as follows:
Figure FDA0003326039440000011
wherein, C1Representing the number of times of the sub-split screen exceeding a preset threshold value of the number of times of use; c2A sub-split screen number indicating a second largest number of usage times;
the automatic independent display module is used for automatically adjusting the interface selected by the user to the sub-split screen corresponding to the habit label by clicking on the separate display interface needing to be split after the user selects the split screen when the user performs the separate split screen display operation of the split screen interface in the corresponding time period within the preset inspection time period;
and the monitoring adjustment module is used for prompting the user whether to adjust the screen splitting position or not after automatically adjusting the interface selected by the user into the sub screen splitting screen corresponding to the habit label, monitoring the subsequent screen splitting adjustment times of the user in real time, monitoring the screen splitting habit of the user again when the adjustment times of the user and the non-adjustment times of the user meet the following conditions, and re-determining the commonly used screen splitting screen label of the user according to the habit of the screen splitting position of the user:
Figure FDA0003326039440000012
wherein H1Indicating that the user does not adjust the number of times; h2Indicating the number of user adjustments.
2. The intelligent liquid crystal display of claim 1, wherein the display body comprises a first component screen, a second component screen, and a third component screen; the first component screen, the second component screen and the third component screen are connected in parallel in sequence.
3. The intelligent liquid crystal display screen of claim 2, wherein the first component screen comprises two first sub-component screens having the same structure and size; the two first sub-split screens are connected and installed up and down to form a first component split screen; the second component screen comprises two second sub-component screens with the same structure and size; the two second sub-split screens are connected and installed up and down to form a second component screen; the third component screen comprises two third sub component screens with the same structure and size; the two third sub-split screens are connected and installed up and down to form a third split screen; and the two first sub-screen screens, the two second sub-screen screens and the two third sub-screen screens are provided with corresponding sub-screen labels.
4. The intelligent liquid crystal display screen according to claim 3, wherein the sizes of the first sub-screen, the second sub-screen and the third sub-screen are obtained by the following formula:
Figure FDA0003326039440000021
Figure FDA0003326039440000022
Figure FDA0003326039440000023
L3=L-L1-L2
Figure FDA0003326039440000024
wherein D is1、D2、D3D respectively represents the width of a first sub-split screen, the width of a second sub-split screen, the width of a third sub-split screen and the total width of the intelligent liquid crystal display screen;L1、L2、L3l respectively represents the length of the first sub-split screen, the length of the second sub-split screen, the length of the third sub-split screen and the total length of the intelligent liquid crystal display screen; l is0Indicating the amount of length adjustment.
5. The intelligent liquid crystal display screen according to claim 1, wherein the split control method of the intelligent liquid crystal display screen comprises:
the user selects to enter a split screen control mode;
after entering a split screen control mode, dragging an independent display interface needing split screen to a first sub-split screen, a second sub-split screen or a third sub-split screen position needing independent display for displaying;
detecting the occurrence times of the split screen positions of the user within the preset monitoring time, acquiring the corresponding label of the sub-split screen with the largest independent display times through the occurrence times of the split screen positions as a direct split screen, and in a preset subsequent detection time period, when the user selects a split screen control mode and performs split screen independent display, only clicking on the split screen independent display interface required to be split, so that the split screen independent display interface can be displayed on the direct split screen.
6. The intelligent liquid crystal display screen according to claim 5, wherein after entering the split-screen control mode, dragging the separate display interface to be split-screen to the position of the first sub-split-screen, the second sub-split-screen, or the third sub-split-screen to be separately displayed, and the dragging comprises:
dragging the independent display interface needing to be split-screen to the corresponding position of the corresponding split-screen, detecting the coordinate corresponding to the route of the user dragging interface, and preliminarily judging the split-screen position corresponding to the dragging direction of the user and the corresponding label of the sub-split-screen according to the coordinate;
detecting whether an overlapping area between a split screen area and a user dragging interface exceeds a preset overlapping area threshold value or not;
when the overlapping area falling into the sub split screen area exceeds a preset overlapping area threshold value, determining the sub split screen with the overlapping area exceeding the preset overlapping area threshold value as a candidate split screen;
judging whether the mark number of the candidate split screen currently acquired is consistent with the corresponding mark number of the sub split screen determined when the mobile coordinate is judged; if the screen division interfaces are consistent, displaying the screen division interface selected by the user in the corresponding sub screen division screen; and if the screen division screen marks are inconsistent, popping up the screen division screen marks determined when the mobile coordinates are judged on the display screen, determining the screen division screen marks for the user to select and confirm when the overlapped area is judged, and displaying the screen division interface on the corresponding sub screen division screen according to the sub screen division screen marks determined by the user after the user selects and confirms the screen division screen marks.
7. The intelligent LCD screen of claim 6, wherein the number of times of occurrence of the split screen position of the user is detected within a preset monitoring time, the corresponding label of the sub-split screen with the largest number of times of individual display is obtained through the number of times of occurrence of the split screen position as a direct split screen, and in a preset subsequent checking time period, when the user selects the split screen control mode and performs split screen individual display, a split screen individual display interface is directly displayed on the direct split screen, comprising:
monitoring labels corresponding to the positions of the sub-split screens when the user performs independent split screen display within preset habit monitoring time, and judging time periods corresponding to the split screen positions;
when the occurrence frequency of the sub-split screen labels adopted when the user independently displays the split screen interface is greater than a preset use frequency threshold value in the corresponding time period, and the number relation between the split screen labels with the second most times and the split screen labels with the most times reaches the following conditions, the labels corresponding to the sub-split screen screens with the most times are used as habit labels:
Figure FDA0003326039440000031
wherein, C1Representing the number of times of the sub-split screen exceeding a preset threshold value of the number of times of use; c2A sub-split screen number indicating a second largest number of usage times;
in a preset inspection time period, when a user performs independent split-screen display operation on a split-screen interface in a corresponding time period, after the user selects split screen, only clicking on the independent split-screen display interface required to be split screen, and then automatically adjusting the interface selected by the user into a sub split-screen corresponding to the habit label;
after the interface selected by the user is automatically adjusted into the sub-split screen corresponding to the habit label, prompting the user whether to adjust the split screen position, monitoring the subsequent split screen adjustment times of the user in real time, monitoring the split screen habit of the user again when the adjustment times of the user and the non-adjustment times of the user meet the following conditions, and re-determining the commonly used split screen label of the user according to the split screen position habit of the user:
Figure FDA0003326039440000032
wherein H1Indicating that the user does not adjust the number of times; h2Indicating the number of user adjustments.
8. The intelligent liquid crystal display screen of claim 1, wherein the embedding of the split-screen control system in the split-screen processor of the intelligent liquid crystal display screen comprises:
the mode selection module is used for enabling a user to select to enter a split screen control mode;
the dragging module is used for dragging the interface needing to be separately displayed in a split screen mode to the position of a first sub split screen, a second sub split screen or a third sub split screen needing to be separately displayed for displaying;
the split-screen independent display module is used for detecting the occurrence frequency of the split-screen position of a user in preset monitoring time, acquiring the corresponding label of the sub-split-screen with the largest independent display frequency through the occurrence frequency of the split-screen position as a direct split-screen, and when a user selects a split-screen control mode and performs split-screen independent display in a preset subsequent detection time period, only clicking on the split-screen independent display interface required to be split, so that the split-screen independent display interface can be displayed on the direct split-screen.
9. The intelligent LCD screen of claim 8, wherein the dragging module comprises:
the preliminary judgment module is used for dragging the screen splitting independent display interface to a position corresponding to the corresponding screen splitting screen, detecting a coordinate corresponding to a user dragging interface route, and preliminarily judging a screen splitting screen position corresponding to a user dragging direction and a sub screen splitting screen corresponding label according to the coordinate;
the area detection module is used for detecting whether an overlapping area between the split screen area and the user dragging interface exceeds a preset overlapping area threshold value or not;
the split screen determining module is used for determining the sub split screen with the overlapping area exceeding the preset overlapping area threshold as a candidate split screen when the overlapping area falling into the sub split screen area exceeds the preset overlapping area threshold;
the judging module is used for judging whether the mark number of the candidate split screen currently acquired is consistent with the corresponding mark number of the sub split screen determined when the moving coordinate is judged; if the screen division interfaces are consistent, displaying the screen division interface selected by the user in the corresponding sub screen division screen; and if the screen division screen marks are inconsistent, popping up the screen division screen marks determined when the mobile coordinates are judged on the display screen, determining the screen division screen marks for the user to select and confirm when the overlapped area is judged, and displaying the screen division interface on the corresponding sub screen division screen according to the sub screen division screen marks determined by the user after the user selects and confirms the screen division screen marks.
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