WO2016144017A2 - Cross-shaped display device - Google Patents

Abstract

One embodiment of the present invention relates to a cross-shaped display device, and the objective of the present invention is to manufacture a display in a cross shape, a clockwise direction-half turned "L" shape, or an "L" shape such that horizontal-type data is displayed so as to be horizontally wide and vertical-type data is displayed so as to be vertically wide. To this end, in one embodiment of the present invention, disclosed is a cross-shaped display device for displaying image signals received from a first video card and a second video card, the cross-shaped display device comprising: a first display unit provided in a first direction to display a first image signal transmitted from the first video card on a first region including a first selection region and a first signal region arranged at a side part of the first selection region; a second display unit provided in a second direction perpendicular to the first direction so as to display a second image signal transmitted from the second video card on a second region including a second selection region overlapping the first selection region and a second signal region arranged at a side part of the second selection region; and a control unit for controlling operations of the first display unit and the second display unit such that an image signal is displayed on only either the first selection region or the second selection region.

Description

Cruciform display device

One embodiment of the present invention relates to a cross-type display device.

Current computer monitors have a 16: 9 or 16:10 aspect ratio, and the pixel configuration consists of 1920 X 1080 and 1680 X 1050. It is made in a straight shape and mainly placed horizontally, and can be used vertically according to the user's characteristics. The computer's graphics card is supported.

Large TVs are produced in a horizontal to vertical ratio, such as a monitor, that is 16: 9 and placed horizontally, but they are also used as monitors.

1 is a diagram illustrating an example of a linear display device according to the prior art.

As illustrated in FIG. 1, when the linear display device according to the related art is used to view a picture on a TV or a monitor, the portrait picture is mainly taken vertically and the landscape picture is mainly taken horizontally so that the horizontal monitor placed vertically is taken vertically. There was a problem that can only show the picture in a small size. In addition, the vertically placed monitor shows a portrait picture taken vertically well, but the picture taken horizontally has a problem that can only be shown in a narrow size.

On the other hand, existing monitors are easy to view while using the Internet's Web site, even when processing computer data, while viewing presentations such as PowerPoint horizontally. However, even in this case, there is a problem in that one monitor is placed horizontally and vertically.

One embodiment of the present invention provides a cross-shaped display device that can produce a cross-shaped, 'b' or 'b' shaped to display the horizontal data wide and the vertical data long vertically.

A cross display device according to an embodiment of the present invention is a display device for displaying an image signal received from a first video card and a second video card, the display device being provided in a first direction and transmitted from the first video card. A first display unit for displaying a first image signal on a first area including a first selection area and a first signal area disposed on a side of the first selection area; A second selection signal provided in a second direction perpendicular to the first direction, the second image signal transmitted from the second video card overlapping the first selection area, and disposed at a side of the second selection area; A second display unit for displaying on a second area including a second signal area; And a control unit configured to control operations of the first display unit and the second display unit, and to control an image signal to be displayed only in one of the first selection area and the second selection area.

The controller may select one of the first image signal and the second image signal as a first image signal, and operate only one selection region of the first selection region and the second selection region according to the priority image signal. .

When the first image signal is selected as the first image signal, the controller displays the first image signal on a first selection area among the first selection area and the second selection area, and displays the first image signal on the second selection area. 2 The video signal may not be displayed.

The controller may generate a manual mode signal or a preset automatic mode signal based on input information input from a user.

The manual mode signal may be selected by the user as one of the first video signal and the second video signal as a first video signal.

The automatic mode signal may automatically select a video signal of which the change of the corresponding display unit is generated among the first video signal and the second video signal as a priority video signal.

The first display portion and the second display portion may be provided to form any one of a symmetrical cross shape, an asymmetrical cross shape, a 'b' shape or a 'b' shape.

The controller may set first location information obtained by coordinates of the first selection area and the first signal area of the first display unit with respect to a first direction and a second direction, respectively.

The controller may set second position information obtained by coordinates the second selection area and the second signal area of the second display unit with respect to a first direction and a second direction, respectively.

The controller may control an operation of the first display unit and the second display unit to display an image signal only in one of the first selection area and the second selection area based on the first location information and the second location information. Can be.

The cross-shaped display device according to an embodiment of the present invention by making the display in the shape of the cross (+), 'b' or 'b' shape, the horizontal data can be shown wide horizontally, the vertical data can be shown vertically long. have.

In addition, an embodiment of the present invention can maximize the effect of viewing the data by spreading the data in a large space when showing the data in the horizontal and vertical data at the same time, such as a collection of photos or when working for data processing have.

In addition, an embodiment of the present invention can solve the inconvenience of having to view the reduced contents because the data types do not match when the flat monitor or the TV is placed horizontally.

In addition, one embodiment of the present invention is a cross shape which is a symbol of Christianity can be a variety of religious external design can further enrich our lives.

In addition, an embodiment of the present invention is a broadcast in which a person-centered description is important, such as fashion or a woman, a vertical screen broadcast in a field in which vertical data is effectively provided, or a data uncompressed high-definition picture transmission broadcast instead of a video.

In addition, according to an embodiment of the present invention, since a horizontal screen and a vertical screen can be broadcast simultaneously according to a method of effectively expressing a general broadcast shooting object, a new method of image art can be introduced, and accordingly, the development of the broadcasting industry can be introduced. Can help.

1 is a diagram illustrating an example of a linear display device according to the prior art.

2 is a diagram illustrating a cross display device according to an exemplary embodiment of the present invention.

FIG. 3 is a diagram illustrating an example of viewing data in a horizontal direction and a vertical direction using the cross display device of FIG. 2.

4A through 4D are diagrams illustrating a case in which the cross-shaped display device of FIG. 2 is a cross-shaped cross, an asymmetric cross-shaped, 'a' and 'b' shapes.

5A through 5B are diagrams illustrating memory areas of the first video card and the second video card included in the cross-shaped display device of FIG. 2.

FIG. 6 is a diagram illustrating logic for receiving image signals from the first video card and the second video card of FIGS. 5A to 5B and expressing the video signals on the first display unit and the second display unit.

7A and 7B are diagrams illustrating logic for converting pixel signal point coordinates of the first video card and the second video card of FIGS. 5A to 5B into coordinates on the first display unit and the second display unit of the cross-shaped display device of FIG. 2.

FIG. 8 is a diagram illustrating coordinates on the first display unit and the second display unit using the logic of FIGS. 7A and 7B.

Terms used herein will be briefly described and the present invention will be described in detail.

The terms used in the present invention have been selected as widely used general terms as possible in consideration of the functions in the present invention, but this may vary according to the intention or precedent of the person skilled in the art, the emergence of new technologies and the like. In addition, in certain cases, there is also a term arbitrarily selected by the applicant, in which case the meaning will be described in detail in the description of the invention. Therefore, the terms used in the present invention should be defined based on the meanings of the terms and the contents throughout the present invention, rather than the names of the simple terms.

When any part of the specification is to "include" any component, this means that it may further include other components, except to exclude other components unless otherwise stated. In addition, terms such as "... unit" described in the specification means a unit for processing at least one function or operation, which may be implemented in hardware or software, or a combination of hardware and software.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

2 is a view showing a cross-shaped display device according to an embodiment of the present invention, Figure 3 is a view showing an example of viewing the material in the horizontal and vertical direction using the cross-shaped display device of FIG. 4A to 4D are diagrams illustrating a case in which the cross-shaped display device of FIG. 2 is a cross-shaped, asymmetrical cross, '-' and 'b'-shaped, and FIGS. 5A to 5B are first videos provided in the cross-shaped display device of FIG. FIG. 6 is a diagram illustrating memory areas of a card and a second video card, and FIG. 6 illustrates logic for receiving image signals from the first video card and the second video card of FIGS. 5A to 5B and expressing them in the first display unit and the second display unit. 7A and 7B show pixel signal point coordinates of the first video card and the second video card of FIGS. 5A to 5B in a first display of the cross-shaped display device of FIG. 2. And the second is a diagram showing the logic to convert the coordinates on the display, Figure 8 is a view showing a first display and a coordinate on the second display using the logic of Figure 7a and 7b.

Referring to FIG. 2, the cruciform display apparatus 10 according to an exemplary embodiment of the present invention is an apparatus for displaying image signals received from the first video card 21 and the second video card 22, and the first display unit. (11), the second display unit 12 and the control unit 20.

Meanwhile, the first video card 21 and the second video card 22 are provided in a computer device that supplies an image signal to the present cruciform display device 10, and each of the horizontal image data (ie, the first image signal) is provided. And vertical image data (ie, a second image signal) to the first display unit 11 and the second display unit 12. In this case, the first video card 21 and the second video card 22 may be a card physically implemented by one printed circuit board. In addition, the first display unit 11 and the second display unit 12 include a liquid crystal display (LCD), a liquid emitting diode (LED), and an OLED to display the first image signal and the second image signal received from a computer device. (Organic LED), AMOLED (Active Matrix OLED) may be a monitor or TV using any one method.

In the present embodiment, the first display unit 11, the second display unit 12, and the control unit 20 have a single body, and the first display unit 11 and the second display unit 12 each have the same size. do. In this case, as shown in FIGS. 4A to 4D, the first display unit 11 and the second display unit 12 are symmetrical cross shapes (10 in FIG. 4A), asymmetric cross shapes 100, and ' It may be configured to form any one of a-shape (200) or 'b'-shape (300). That is, the cruciform display device 10 has a shape in which the first display portion 11 and the second display portion 12 having a horizontal and vertical rectangular shape move and overlap each other, and are supported by the support member 13 on the bottom surface. Can be. The present cruciform display device 10 may be similarly applied even when the shape of the horizontal and vertical shapes is not similar to each other.

In addition, the first display unit 11, the second display unit 12, and the control unit 20 respectively display the first image signal and the second image signal, which are horizontal data transmitted from a computer device connected through a display data transmission cable. Will print In this case, the cross display device 10 may be provided with an input port to which a cable for transmitting display data is connected. The input port may be a high definition multimedia interface (HDMI) port, a digital video interface (DVI) port, a red green blue (analog interface) port, an analog video interface (I) port, a universal serial bus (USB) port, or future technology. It is composed of at least one of the ports to be developed with the development.

Therefore, in the present invention, by displaying the horizontal image data and the vertical image data output from the computer device on the first display unit 11 and the second display unit 12, it is possible to effectively show the material to the user. Of course, the entire cruciform display apparatus 10 does not have to be a space for showing the data included in the image signal, and when the data is shown in the horizontal direction, the upper and lower portions are blank, and the left when the data is shown in the vertical direction. The right side may be blank.

The first display unit 11 is provided in a first direction (ie, a horizontal direction), and transmits a first image signal (ie, horizontal image data) transmitted from the first video card 21 to the first selection area 113. And first signal areas 111 and 112 disposed on the sides (ie, left and / or right) of the first selection area 113.

The second display unit 12 is provided in a second direction (ie, a vertical direction) perpendicular to the first direction, so that a second image signal (ie, vertical image data) transmitted from the second video card 22 is provided. To the second selection region 123 overlapping the first selection region 113 and the second signal regions 121 and 122 disposed on the side portions (ie, upper and / or lower sides) of the second selection region 123. Display on the second area including.

The control unit 20 is an apparatus electrically connected to the first display unit 11 and the second display unit 12 to control operations of the first display unit 11 and the second display unit 12. It may be formed of one printed circuit board provided with. In addition, the controller 20 may be configured to display the first image signal and the second image signal received from the first video card 21 and the second video card 22 of the computer device. 12), and controls so that the image signal is displayed only in one of the first selection area 113 of the first area and the second selection area 123 of the second area.

More specifically, the controller 20 first selects one of the first image signal and the second image signal as the first image signal, and firstly selects the first selection region 113 and the second region of the first region according to the image signal. Only one selection area of the second selection area 123 of the area may be operated. In this case, the first video signal may select only one of the first selection region 113 and the second selection region 123 where the first display unit 11 and the second display unit 12 overlap each other to select the corresponding video signal. The non-selected area that is displayed is a signal that controls not to project the corresponding video signal. That is, the controller 20 first controls not to project the image signal in the selection area that is not selected according to the image signal.

In other words, as shown in FIG. 3A, when the first image signal, which is horizontal image data, is selected as the first image signal, the controller 20 selects the first selection region 113 and the second selection region 123. ) To display the first image signal on the first selection region 113 and not to display the second image signal on the second selection region 123.

In addition, as shown in FIG. 3B, when the second image signal, which is vertical image data, is selected as the first image signal, the controller 20 selects the first selection region 113 and the second selection region 123. ) Displays the second image signal on the second selection area 123 and controls not to display the first image signal on the first selection area 113.

Meanwhile, the controller 20 may first apply a manual mode or an automatic mode to select an image signal.

The manual mode is a mode in which any one of the first video signal and the second video signal is selected as a first video signal according to input information manually input by a user, and accordingly, the user manually designates a screen to be prioritized.

More specifically, the manual mode designates a screen to be prioritized by manually inputting input information from the cross-shaped display device 10 to the screen mode that the user of the computer device determines to have priority. For example, if you want to designate the horizontal screen as the first screen, you can double-click the upper left end of the horizontal screen with a mouse. In addition, in the manual mode, when the priority screen is to be changed, the current priority screen may be maintained until a priority mode signal is input to the non-priority screen or a signal for changing to the automatic mode is input. For example, a computer user may decide to use landscape mode or portrait mode, and manually change the mode by double-clicking a horizontal area or a vertical area. At this time, the initial mode is referred to as the previous end mode.

In addition, the automatic mode is a mode in which a user automatically selects a video signal of which a change (eg, a window window) of the first image signal and the second video signal last occurred (for example, a change in a window window) is a priority video signal. First, a screen switching is automatically performed by inputting a signal for switching the screen switching to the automatic mode. That is, in the automatic mode, the control unit 20 controls to automatically display the video signal of which the change of the display unit last occurs among the first video signal and the second video signal.

For example, in the automatic mode, the active window of the window is newly created, activated in an inactive state, or the active window itself moves to move the first selection area 113 (a2) and the second selection area 123 (b2). When occupied, the screen where the active window was originally located (horizontal screen or vertical screen) becomes the priority screen. At this time, the non-priority among a2 and b2 is not projected on the screen.

In addition, when the active window window is out of the screen area of the current use mode, the length of the active window is determined by comparing the length of the active window with the length. In other words, if the length is long, the mode is changed to the horizontal mode, and if the length is changed to the portrait mode.

In order to implement such an operation, the controller 20 first coordinates the first selection region 113 and the first signal regions 111 and 112 of the first display unit 11 with respect to the first direction and the second direction, respectively. A second position in which the first position information is set and coordinates the second selection region 123 and the second signal regions 121 and 122 of the second display unit 12 with respect to the first direction and the second direction, respectively. Set location information. Then, the control unit 20 displays the first display unit such that the image signal is displayed only in one of the first selection region 113 and the second selection region 123 based on the first position information and the second position information. (11) and the operation of the second display unit 12 are controlled.

The location information setting logic by the controller 20 will be described.

Prior to this, the first video card 21 in the computer device includes a memory area a2 corresponding to the first selection area 113 and a memory area a1 corresponding to the first signal areas 111 and 112. a3). The second video card 22 may be divided into a memory area b2 corresponding to the second selection area 123 and a memory area b1 and b3 corresponding to the second signal areas 121 and 122. do.

As described above, the first video card 21 and the second video card 22 provide the first image signal and the second image signal having the divided memory regions to the first display portion 11 and the second display portion 12. In addition, the first display unit 11 and the second display unit 12 display the first image signal and the second image signal, respectively. In this case, the controller 20 first selects one of the first image signal and the second image signal as the first image signal, first projects the image signal on a2 or b2 included in the image signal, and first includes the image signal. Controls not to project an image signal on b2 or a2 that is not.

In addition, pixel signal point coordinate information is set in the memory area of the first video card 21 and the second video card 22 as shown in FIGS. 7A and 7B, respectively. Is provided. The control unit 20 provides pixel signal point coordinate information for the first video card 21 and the second video card 22 with the first position information for the first display unit 11 and the second display unit 12, respectively. After setting the second position information, the first image signal and the second image signal are displayed on the first display unit 11 and the second display unit 12 based on the first position information and the second position information.

In this case, the control unit 20 is a position of one selection area included in the first image signal among the first selection area 113 and the second selection area 123 of the first display unit 11 and the second display unit 12. Only the video signal of the corresponding point is displayed based on the information, and the video signal of the remaining selection area is not displayed.

In order to implement such an operation, the control unit 20 includes a location information setting algorithm, and sets the first location information and the second location information as shown in FIG. 8 by the location information conversion algorithm.

C set for the first selection region 113 and the second selection region 123 of the first display unit 11 and the second display unit 12, respectively, as shown in FIGS. 7A and 7B by the position information conversion algorithm. The first position information and the second position information of the point are converted into position information as shown in FIG. 8 in order to display an image signal in the present cruciform display apparatus 10.

That is, as shown in FIG. 7A, the point C of the first selection region 113 of the first display unit 11 is (x1, y1), and the second selection region of the second display unit 12 (see FIG. 7B). The point C in 123) is (x2, y2). As a result, in the present cruciform display apparatus 10, the point C for displaying an image signal in one of the first selection region 113 and the second selection region 123 by the image signal is (M, N ).

For example, when the first selection region 113 is selected by the first video signal, (M, N) is calculated as in Equation 1 below.

[Equation 1]

M = x1-a

N = y1

In addition, when the second selection area 123 is selected by the first video signal, (M, N) is calculated as in Equation 2 below.

[Equation 2]

M = y2

N = w + a-x2

The cruciform display apparatus 10 using the position information conversion algorithm as described above may implement a slide show sequentially showing a plurality of photographs, graphic images, moving images, etc. (hereinafter, referred to as photographs). At this time, by comparing the horizontal and vertical length of each picture to determine the screen mode that takes precedence on the basis of the long side, the screen mode of the non-priority screen mode is represented as a blank space. That is, when the picture is long, the horizontal screens a1, a2, and a3 are projected onto the first display unit 11 (b1 and b3 are multiplied, and b2 is ignored). , b3) is projected onto the second display unit 12 (in this case, a1 and a3 are blanked and a2 is ignored) to display the screen of the cross-shaped display device 10.

In addition, the size of the object (photo, video) that you want to display on the screen is compared each time, and the object is enlarged by setting it to landscape mode if the width is long and to the portrait mode if the length is long. It can also be.

According to the cross-shaped display device 10 according to an embodiment of the present invention configured as described above, when the data showing the horizontal data and the vertical data at the same time, such as a collection of pictures or work for data processing a large space of the data By spreading out, you can maximize the effect of viewing the data. In addition, according to an embodiment of the present invention, when placing a flat-screen monitor or TV horizontally, the inconvenience of having to view the reduced contents due to the inconsistent data types can be eliminated. In addition, according to one embodiment of the present invention, it is possible to enrich our lives by various religious external designs in the cross shape which is a symbol of Christianity. In addition, an embodiment of the present invention is capable of vertical screen broadcasting in a field in which vertical data is effectively provided, such as fashion or women, or broadcasting of uncompressed high-definition picture data, not video. In addition, according to an embodiment of the present invention, since a horizontal screen and a vertical screen can be broadcast simultaneously according to a method of effectively expressing a general broadcast shooting object, a new method of image art can be introduced, and accordingly, the development of the broadcasting industry can be introduced. Can help.

What has been described above is just one embodiment for carrying out a cross-shaped display device according to the present invention, and the present invention is not limited to the above embodiment, and it is outside the gist of the present invention as claimed in the following claims. Without this, anyone skilled in the art to which the present invention pertains will have the technical spirit of the present invention to the extent that various modifications can be made.

Claims (10)

A display apparatus for displaying video signals received from a first video card and a second video card, A first video signal provided in a first direction, the first video signal being transmitted from the first video card on a first area including a first selection area and a first signal area disposed on a side of the first selection area A first display unit; A second selection signal provided in a second direction perpendicular to the first direction, the second image signal transmitted from the second video card overlapping the first selection area, and disposed at a side of the second selection area; A second display unit for displaying on a second area including a second signal area; And And a controller configured to control operations of the first display unit and the second display unit, and to control an image signal to be displayed only in one of the first selection area and the second selection area. The method according to claim 1, The controller selects one of the first image signal and the second image signal as a first image signal, and operates only one selection region of the first selection region and the second selection region according to the priority image signal. Cruciform display device. The method according to claim 2, When the first image signal is selected as the first image signal, the controller displays the first image signal on a first selection area among the first selection area and the second selection area, and displays the first image signal on the second selection area. 2 A cruciform display device characterized by not displaying an image signal. The method according to claim 1, The controller may generate a manual mode signal or a preset automatic mode signal based on input information input from a user. The method according to claim 4, And wherein the passive mode signal selects one of the first image signal and the second image signal as a first image signal by a user. The method according to claim 4, And the automatic mode signal automatically selects a video signal of which the change of the corresponding display unit is last generated among the first video signal and the second video signal as a priority video signal. The method according to claim 1, And the first display unit and the second display unit are configured to form any one of a symmetrical cross shape, an asymmetrical cross shape, a 'b' shape, or a 'b' shape. The method according to claim 1, And the control unit sets first position information obtained by coordinates the first selection area and the first signal area with respect to the first direction and the second direction, respectively. The method according to claim 8, And the control unit sets second position information of coordinates of the second selection area and the second signal area of the second display unit with respect to a first direction and a second direction, respectively. The method according to claim 9, The controller controls an operation of the first display unit and the second display unit to display an image signal only in one of the first selection area and the second selection area based on the first location information and the second location information. Cross-shaped display device, characterized in that.

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