KR200455938Y1 - Integrated board of graphic user interface - Google Patents

Abstract

The present invention relates to a 3D-based graphical user interface integrated board that can perform the function of the control board for the touch screen.

To this end, the present invention provides an output unit for outputting a 3D-based graphical user interface screen having a plurality of menu items on a display; and a graphical user interface unit and a graphical user interface on which a system supporting the 3D-based graphical user interface are implemented. A control unit including a micro control unit configured to perform a command input through the touch screen panel, and a touch screen panel mounted on an upper portion of the display, and a command input through the graphic user interface through a user's touch input to the touch screen panel. It further includes a touch screen driver for recognizing, so that the user can easily adjust all the systems in a multi-system such as communication or home network, the space can be efficiently arranged in the product design of the touch screen additional display, such as product compactness It can be the enemy design.

Description

INTEGRATED BOARD OF GRAPHIC USER INTERFACE}

The present invention relates to a graphical user interface integrated board, and more particularly to a 3D-based graphical user interface integrated board that can perform the function of the control board for a touch screen.

BACKGROUND Touch screens are known as input devices integrated or added to a computer, a portable transmission device, a display device, and a personal data processing device (PDA). The touch screen (touch panel) is one of the input devices, but has advantages in that the input is simpler, fewer malfunctions, and even text input is possible than other input devices such as a mouse or a keyboard.

Current touch screens are turning to high reliability, providing new functions, durability, and manufacturing techniques related to design and processing, including materials and materials, rather than the general functions as input devices. It is diversifying.

In the touch screen method, there is a resistive touch screen formed by combining two sheets of resistive components which are separated by a spacer and arranged to be in contact with each other by pressing, and are capacitive, ultrasonic, optical sensor, and electromagnetic induction. There is a touch screen by the formula. The touch screens of these various methods are different from each other in terms of signal amplification, resolution, and difficulty in design and processing technology. Therefore, the touch screen is designed in consideration of optical characteristics, electrical characteristics, and mechanical characteristics.

Meanwhile, the touch screens corresponding to the display and the input device are driven through separate control boards. In particular, in the process of assembling the touch screen on the existing display, the weak connection wiring is easily broken or long in appearance, and the signals transmitted through the long wiring can easily be distorted by the display control board. In the case where the display is assumed to be LCD and the touch screen positioned above the LCD is a digitizer, various problems caused by the wiring of the display and the touch screen may be understood through the schematic cross-sectional structure of FIG. 1.

1 is a schematic cross-sectional view of a general case of mounting a digitizer on the LCD. As shown in FIG. 1, the LCD 1 has sealants 3 formed at both ends on a lower substrate 2 on which a thin film transistor is formed, and the sealant 3 has an upper substrate 4 and a lower portion positioned thereon. It is a kind of adhesive agent for adhering the board | substrate 2, and is a sealing agent for holding a liquid crystal between the board | substrates. In addition, a first anisotropic conductive film 5a is disposed on one side of the lower substrate 2, and a second anisotropic conductive film 5b is formed on the printed circuit board 6 at a position separated from the lower substrate 2. The FPC (Flexible Printed Cable) 7 is bonded to the first and second anisotropic conductive films 5a and 5b, and the driving IC 8 is provided on the FPC 7. A linearizer is installed on the upper substrate 4 to convert light incident from the outside into linearly polarized light. An electric field applying plate 10 is disposed on the linear flat panel 9 and a voltage sensing plate is disposed thereon. 11) where the electric field applying plate 10 and the voltage sensing plate 11 corresponds to the digitizer 12.

In the electric field applying plate 11 of the digitizer 12, a transparent electrode layer is formed on a substrate, and an electrode is formed thereon. Similarly, the voltage sensing plate 11 has a substrate, a transparent electrode layer, and a metal pattern layer. They output an electrical signal representing the pressure coming from the outside as position information.

The front view of the electric field applying plate 10 is shown as FIG. A plurality of electrodes 14 are formed at regular intervals along each side of the edge of the rectangular active region 13, which is the position detection region of the digitizer 10. In the inactive region 15 surrounding the active region 13, there is a wiring 16 connected to the electrode 14. Each wire 16 is connected to the electrode 14 via a portion of the edge of the non-active area 15 and another non-active area 15 from a driver which is an external circuit element. Here, the active region 13 is a region where the digitizer 12 actually detects a position, and has a flat straight metal plate or lattice metal plate structure. Thus, when there is an electrode 14 of the substrate constituting the digitizer 12 and the wiring 16 for signal transmission between the electrode and the driving unit, the existing wiring method takes into consideration the connection workability when connecting to the driving unit 17 side. The wiring 16 is collected in one direction. This wiring 16 is elongated and leads to the control board 17 for the touch screen.

In general, since the touch screen is matched 1: 1 with the display, the touch screen comes directly in front of the display as shown in FIG. 1. In most cases, the display will be a flat display, but it can be a curved display like a CRT.

In this case, the normal display places the driving unit behind the display and in some cases, the lower part of the display. In the case of a flat display, it may be an LCD, and in the case of a curved display, it may be a CRT. In either case, the driving unit is present at the optimum position for the display. In the prior art, since the touch screen driving control board 17 is manufactured separately from the display driving control board, the touch screen and the display must be connected to the touch screen by pulling the wire long after contacting the touch screen and the display as shown in FIG. 1. In other words, it had to be directly connected to each control board for completely independent driving, so it was difficult to avoid aesthetic, operational and product characteristics.

An object of the present invention is to propose a graphic user interface integrated board that implements a system supporting a 3D based graphical user interface on a display control board.

In addition, another object of the present invention is to propose a graphic user interface integrated board that can perform the function of the control board for a touch screen.

Graphical user interface integrated board according to an embodiment of the present invention for achieving the above object is an output unit for outputting a 3D-based graphical user interface screen having a plurality of menu items on the display; and supports the 3D-based graphical user interface A control unit including a graphic user interface unit on which a system is implemented and a micro control unit performing a command input through the graphic user interface; and a touch screen panel mounted on an upper portion of the display and input through the graphic user interface. And a touch screen driver for recognizing a command through a user's touch input to the touch screen panel.

Preferably, the touch screen driver includes an A / D converter for converting a command value input through a graphic user interface into a digital value.

When the user touches a certain position of the touch screen panel, the touch screen driver may correspond to a command for a coordinate value of the position and a previously stored coordinate value to recognize a command input by the user. It is preferable to include.

It is preferable to further include; an input unit for receiving the image information output to the display.

And a memory for storing data regarding various screens to be displayed on the display and transmitting a screen corresponding to the input command to the controller when a specific command is input through the touch screen.

As described in detail above, the graphical user interface integrated board according to an embodiment of the present invention is implemented by a system supporting a 3D-based graphical user interface on the control board for the display to facilitate the user in a multi-system such as communication or home network All systems can be tuned.

In addition, the integrated graphic user interface board according to an embodiment of the present invention is possible to efficiently arrange the space in the product design of the touch screen additional display can be optimized design such as compact product.

Hereinafter, with reference to the drawings the preferred embodiment of the present invention will be described in detail.

3 is a conceptual diagram of a graphic user interface integrated board according to an embodiment of the present invention.

As shown in FIG. 3, the integrated board 100 includes a power supply unit 30 for supplying power to each component, an input unit 40 for receiving image information output on the display 11, and a display 11. An output unit 50 for outputting a 3D-based graphic user interface screen having a plurality of menu items, a control unit 60 including a GUI unit (graphical user interface) 64 and an MCU unit (microcontrol unit) 68, The memory 70 stores data relating to various screens to be displayed on the display 11, and a touch screen driver 80 connected to and communicated with the touch screen 10.

The output unit 50 receives the timing information and the R, G, B color information, etc. necessary for the display 11 from the control unit 60, and the signals suitable for the gate and data drivers 52 and 54, respectively. It includes a display controller 58 to send a change to the color controller 56, and a color processing unit 56 that serves as a kind of color table for configuring the correct color.

The controller 60 may include a graphical user interface (64) in which a graphic user interface system based on 3D graphics is implemented, and a micro control unit for performing various commands by a user's touch of the touch screen 10 (Micro). Control Unit, 68). On the other hand, the 3D-based graphical user interface is a known technology, it is described in detail in Korean Patent Publication No. 2002-0051936.

The memory 70 stores data regarding various screens to be displayed on the display 11, and when a specific command is input through the touch screen 10, the controller 60 displays a screen corresponding to the input command. To print). On the other hand, the memory 70 is divided into a ROM and a RAM, and data relating to a screen or the like corresponding to a program or a command is stored in the ROM.

The touch screen driver 80 switches the touch screen 10 and controls the A / D converter 38 at an appropriate timing. When the user touches a certain position of the touch screen 10, the touch screen driver 80 controls the coordinates of the touch screen 10. By transmitting a clock to the touch controller 84 so as to switch and drive the touch controller 84 and the touch screen 10 to recognize the command input by the user by corresponding to a command for a previously stored coordinate value. X, Y for the clock generator 86, the A / D converter 82 for converting the value into a digital value when the touch is made, and the data received from the A / D converter 82 by the touch controller 84 It includes an interface unit 88 that serves as an interface to transmit the coordinate value, that is, data on the coordinate value of the point touched on the touch screen 10 to the control unit 60. Meanwhile, the interface unit 88 may use various standards such as a universal serial bus (USB) capable of data transmission.

Meanwhile, the touch screen panel 10 is mounted on the upper portion of the display 11 to detect a user's touch. As an example of the display 11, a liquid crystal display (LCD), a plasma display panel (PDP), and a CRT ( Color Ray Tude).

1 is a schematic cross-sectional view of a general case in which the digitizer is mounted on the LCD.

2 is a front view of the digitizer of FIG.

3 is a conceptual diagram of a graphic user interface integrated board for display according to an embodiment of the present invention

Description of the Related Art [0002]

     50: output unit 60: control unit

     64: GUI part 68: MCU

     80: touch screen driver 100: integrated board

Claims (5)

An output unit for outputting a 3D-based graphic user interface screen having a plurality of menu items on a display; A control unit including a graphic user interface unit on which a system supporting the 3D-based graphic user interface is implemented and a micro control unit configured to execute a command input through the graphic user interface; And a touch screen driver mounted on an upper portion of the display and configured to recognize a command input through the graphic user interface through a user's touch input to the touch screen panel. The method of claim 1, And the A / D converter converting a command value input through a user's touch input to the touch screen panel into a digital value. The method of claim 1, When the user touches a certain position of the touch screen panel, the touch screen driver corresponds to a command for a coordinate value stored in advance and a previously stored coordinate value to recognize what the user inputs. Graphical user interface integrated board comprising a. The method of claim 1, And an input unit configured to receive image information output on the display. The method of claim 1, And a memory configured to store data regarding various screens to be displayed on the display and to transmit screen information corresponding to the input command to the controller when a specific command is input through the touch screen panel. board.

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