KR20140140261A - Infrared rays touch screen apparatus applied to display apparatus with curved surface - Google Patents

Abstract

The present invention relates to an infrared touch screen apparatus applied to a curved display apparatus with two opposite sides having a curved shape, the infrared touch screen apparatus includes: a plurality of infrared transmitting devices sequentially arranged in a first direction on one of two bent sides of the curved display apparatus; a plurality of infrared receiving devices sequentially arranged in a first direction to be opposite to the infrared transmitting devices on the other of the two bent sides of the curved display apparatus, and configured to receive infrared rays transmitted from the infrared transmitting devices, respectively; and a touch control unit configured to operate in a first scan control mode of controlling the infrared transmitting devices and the infrared receiving devices and in a second scan control mode of controlling the infrared receiving devices to receive infrared rays transmitted from the infrared transmitting devices diagonally positioned such that the infrared receiving devices can receive infrared rays transmitted from the infrared transmitting devices positioned in a direction opposite to the infrared receiving devices. The touch control unit operates in the first scan control mode to detect first touch coordinates in the first direction, and operates in the second scan control mode to detect second touch coordinates in a second direction perpendicular to the first direction, based on detected preliminary coordinates in the first direction and the first touch coordinates. Accordingly, the infrared touch screen apparatus may be applied even to a curved display apparatus by recognizing a single touch and a multi touch using a plurality of infrared transmitting devices and a plurality of infrared receiving devices, which are arranged on two opposite sides on a screen, respectively, that is, only two opposite bent sides of the curved display apparatus.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an infrared touch screen device for a curved display device,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an infrared touch screen device, and more particularly, to an infrared touch screen device applicable to a curved display device having two curved opposing sides.

Flexible displays are the next generation technology beyond the flat panel display stage, which means that the display can bend, bend, or speak without damage through thin, flexible technology like paper. This flexibility is also called paper-like display or digital paper. Flexible displays are recognized as a strategic infrastructure technology that responds to the ubiquitous computing era where information can be accessed anytime, anywhere.

Flexible displays, which use plastic materials and films as substrates instead of glass, are in the first place due to the demand for household appliances such as TVs and mobile devices, and they will form a huge market by commercialization of roll-type mass printing technology It is one of promising technologies for the future.

Flexible displays are expected to be applied to products with various designs because they are display media that can come closer to humans. Most of the flexible display modes that are currently being commercialized or developed are those using LCD, OLED, or electrophoretic based technologies.

However, in the case of a display device such as a TV, as shown in FIG. 1, a curved surface having a curved shape with two opposing sides Type display devices have recently been exhibited as prototypes through exhibitions.

In the case of the curved display device shown in FIG. 1, generally, two sides in a transverse direction have a warped shape. This solves the problem of the viewing angle of a flat panel display device such as an LCD or an OLED through a curved screen, The stereoscopic effect of the 3D content can be enhanced, and it is expected to be one of the flexible display devices that can be commercialized in recent years.

On the other hand, as an input device of an information processing apparatus such as a mobile device, a computer, or the like, a touch screen system has been widely used in recent years. 2. Description of the Related Art [0002] Generally, a touch screen is one of methods for configuring an interface between an information communication device using a variety of display devices and a user, and is a method in which a user touches a screen with a finger or a fan It is one of the input devices that can interface with the device in such a way.

Since the touch screen is an input device that can be easily used by both sexes by interactively and intuitively operating a computer or the like by simply touching a button displayed on the display device with a finger or the like, currently, a PDA (Personal Digital Assistant), a tablet PC , Mobile devices such as smart phones, displays for banks and government offices, various medical equipment, information on lighting, and guidance for major institutions.

In recent years, a PDP (Plasma Display Panel) or an LCD (Liquid Crystal Display) has been enlarged and its price has been lowered. Accordingly, a touch screen device has been installed on the front surface of PDP or LCD, A new application for use in the form of a < RTI ID = 0.0 >

As a method of recognizing the touch on the screen in the touch screen device, an infrared method, an ultrasonic method, a resistive film method, an electrostatic method and the like are used and put into practical use. As a touch screen device using a large screen such as a digital board, Touch screen devices are widely used.

2 is a diagram for explaining a method of recognizing a touch in an infrared touch screen device. 2, a plurality of X-axis infrared ray transmitting elements 100a are arranged in the X-axis direction and an X-axis infrared ray receiving element 100b is arranged opposite to the X-axis infrared ray transmitting element 100a in the infrared touch screen device. . Similarly, a plurality of Y-axis infrared ray transmitting elements 200a are arranged in the Y-axis direction, and a Y-axis infrared ray receiving element 200b is arranged so as to face the Y-axis infrared ray transmitting element 200a.

2, when a specific position on the screen is touched with a finger or the like, the output from the X-axis infrared ray transmitting element 100a and the Y-axis infrared ray transmitting element 200a The infrared rays are shielded by the fingers and the touch coordinates are grasped by using the principle that the X-axis infrared ray receiving element 100b and the Y-axis infrared ray receiving element 200b at that position can not receive infrared rays.

The infrared touch screen device includes an X-axis infrared ray transmitting device 100a, a Y-axis infrared ray transmitting device 200a, an X-axis infrared ray receiving device 100b, a Y And the axial infrared ray receiving element 200b, respectively, thereby recognizing the touch occurring on the screen of the display device.

However, when the above-described infrared touch screen device is applied to the curved display device shown in FIG. 1, there is a problem that the above-described touch recognition principle of the infrared touch screen device can not be used.

More specifically, the X-axis infrared ray transmitting element 100a and the X-axis infrared ray receiving element 100b installed on the lateral side of the curved display device, i.e., the bent side, recognize the touch even when the screen 210 is warped No problem.

However, the Y-axis infrared ray transmitting element 200a and the Y-axis infrared ray receiving element 200b installed on the longitudinal side of the curved display device, that is, the non-bent side, are arranged on the screen 210 bent in the longitudinal direction, There arises a problem that the touch is recognized by the touch without generating the touch.

Fig. 3 is a cross-sectional view taken along the line III-III in Fig. 1. It can be seen that the screen of the curved display device is warped, and the Y-axis infrared ray transmitting element 200a And a Y-axis infrared ray receiving element 200b are arranged, respectively.

Referring to FIG. 3, the user desires to recognize the infrared touch screen device as a touch when touching the actual screen 210, as shown in FIG. 3 (a). However, due to the warped state of the screen 210 of the curved display device, the screen 210 is positioned deeply in the direction of the screen 210 from the Y-axis infrared ray transmitting element 200a and the Y-axis infrared ray receiving element 200b , The infrared ray emitted from the Y-axis infrared ray transmitting element 200a is covered before the user's finger touches the screen 210, as shown in FIG. 3 (b).

Such a phenomenon becomes more serious toward the center of the screen 210, but such an error can not be solved by the current infrared touch screen device.

Accordingly, it is an object of the present invention to provide an infrared touch screen device applicable to a curved display device having a curved shape with two sides.

According to another aspect of the present invention, there is provided an infrared touch screen device for use in a curved display device having a curved shape with two sides facing each other, A plurality of infrared transmitting elements arranged; And a plurality of infrared rays receiving units for receiving infrared rays transmitted from the plurality of infrared ray transmission elements, sequentially arranged in a first direction opposite to the plurality of infrared ray transmission elements on the other one of the two sides of the curved surface display device, A device; A first scan control mode in which the plurality of infrared ray transmitting elements and the plurality of infrared ray receiving elements are controlled so as to receive infrared rays from infrared ray transmitting elements located in a direction facing each of the infrared ray receiving elements, And a touch control unit operating in a second scan control mode for controlling infrared rays from an infrared ray transmitting device located in a diagonal direction, wherein the touch control unit operates in a first scan control mode, Detects a second touch coordinate in a second direction perpendicular to the first direction based on the preliminary coordinates in the first direction detected by operating in the second scan control mode and the first touch coordinates And an infrared touch screen which is applied to a curved display device having two opposing curved surfaces, It is achieved by the device.

A transmission PCB having a fin shape corresponding to a fin shape of the curved display device and mounted on one side of the curved display device, the plurality of infrared transmission devices being mounted along the first direction; Further comprising a receiving PCB having a fin shape corresponding to a fin shape of the curved display device and mounted on the other side of the curved display device, the plurality of infrared receiving devices being mounted along the first direction can do.

The first touch coordinates and the preliminary coordinates may be detected from the coordinates of the infrared ray receiving element of the plurality of infrared ray receiving elements whose infrared rays are blocked from the plurality of infrared ray transmitting elements in the first direction.

The touch controller may further include a distance between the first touch coordinates and the preliminary coordinates, a distance between the coordinates of the infrared transmitter transmitting the infrared rays to the infrared receiver corresponding to the preliminary coordinates and the preliminary coordinates, And the second touch coordinates can be calculated on the basis of the distance between the mutually opposed infrared transmitting element and the infrared receiving element.

(여기서, C_2nd는 상기 제2 터치 좌표이고, D_2nd는 상호 대향한 적외선 송신소자와 적외선 수신소자 간의 거리이고, D_1st1은 상기 제1 터치 좌표와 상기 예비 좌표 간의 거리이고, D_1st2는 상기 예비 좌표와 상기 예비 좌표에 해당하는 적외선 수신소자에 적외선을 송출한 적외선 송신소자의 상기 제1 방향으로의 좌표 간의 거리이다)에 의해 상기 제2 터치 좌표를 산출할 수 있다.In addition,

(Wherein, C _2nd is the second, and the touch coordinates, D _2nd is the distance between the mutually opposed and the distance between the infrared ray transmitting element and an infrared receiving element, D _1st1 is the first touch coordinates and the pre-coordinate, D _1st2 is the The distance between the preliminary coordinates and the coordinates in the first direction of the infrared transmitter transmitting the infrared rays to the infrared receiver corresponding to the preliminary coordinates).

The second touch coordinates may be calculated based on a distance between the first touch coordinates and the preliminary coordinates, and an angle formed between the infrared ray receiving element corresponding to the preliminary coordinates and the infrared ray transmitter in the first direction.

(여기서, C_2nd는 상기 제2 터치 좌표이고, D_1st1은 상기 제1 터치 좌표와 상기 예비 좌표 간의 거리이고, θ는 상기 예비 좌표에 해당하는 적외선 수신소자와 적외선 송신소자가 상기 제1 방향에 대해 이루는 각도이다)에 의해 상기 제2 터치 좌표를 산출할 수 있다.In addition,

(Where C _2nd is the second touch coordinate, D _1st1 is the distance between the first touch coordinate and the preliminary coordinate, and? Is an infrared ray receiving element corresponding to the preliminary coordinates and an infrared ray transmitter The second touch coordinates can be calculated by the following equation.

The second scan control mode may include a first diagonal scan control mode in which each of the infrared ray receiving elements is controlled to receive infrared rays from an infrared ray transmitting element positioned in a first diagonal direction, And a second diagonal scan control mode for controlling to receive infrared rays from an infrared ray transmitting element located in a second diagonal direction opposite to the first diagonal scan control mode; The touch control unit may be configured to, when one of the first touch coordinates is detected in the process of operating in the first scan control mode, when the first touch control coordinate mode and the second diagonal scan control mode are operated in the second scan control mode, Wherein when the first touch coordinate is detected in the process of operating in the first scan control mode, the first touch coordinate is detected when the first touch coordinate is detected in the second scan control mode, It is possible to detect the second touch coordinates by operating at least one of the first diagonal scan control mode and the second diagonal scan control mode.

According to the present invention, a plurality of infrared transmitting elements and a plurality of infrared receiving elements arranged on only two opposite sides of a curved display device, By recognizing multi-touch, an infrared touch screen device can be applied to a curved display device.

1 is a view showing an example of a general curved display device,
2 is a view for explaining a touch recognition method of a conventional infrared touch screen device,
FIG. 3 is a cross-sectional view taken along the line III-III in FIG. 1, illustrating a recognition error of a conventional infrared touch screen device in a curved display device,
4 is a diagram illustrating a configuration of a touch screen system to which an infrared touch screen device according to the present invention is applied,
FIG. 5 is a diagram illustrating a configuration of an infrared touch screen device according to the present invention,
6 to 8 are views for explaining a method of recognizing a touch by an infrared touch screen device according to the present invention,
9 is a view for explaining a method of recognizing a multi-touch by an infrared touch screen device according to the present invention.

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

4 is a diagram illustrating a configuration of a touch screen system to which the infrared touch screen device 100 according to the present invention is applied. The touch screen system includes a curved display device 200 for displaying an image, an information processing device 300 for displaying an image through the curved display device 200, And an infrared touch screen device 100 for recognizing the generated touch and transmitting the recognized touch to the information processing apparatus 300. [

The curved display device 200 displays a video signal transmitted from the information processing device 300 on a screen and may be provided in various forms such as a liquid crystal display (LCD), a plasma display panel (PDP), and an OLED . 4, the curved display device 200 according to the present invention is provided with a curved surface shape having two curved surfaces facing each other, and it is exemplified that the curved surface display device 200 has two curved shapes in the transverse direction .

The information processing apparatus 300 generates a video signal corresponding to an image to be displayed through the curved display device 200 and transmits the generated video signal to the curved display device 200. The information processing apparatus 300 according to the present invention is provided in the form of a personal computer, a notebook computer, or the like.

5, the infrared touch screen device 100 includes a plurality of infrared ray transmitting devices 10a, a plurality of infrared ray receiving devices 10b, and a touch control unit 30. [ In addition, the infrared touch screen device 100 may include an interface unit 40 for exchanging data with the information processing apparatus 300.

The plurality of infrared ray transmitting elements 10a and the plurality of infrared ray receiving elements 10b detect a touch occurring on the screen of the curved display apparatus 200. [ In the present invention, a plurality of infrared ray transmitting elements 10a are sequentially arranged in a first direction, for example, a lateral direction or an X-axis direction, and a plurality of infrared ray receiving elements 10b are arranged opposite to the plurality of infrared ray transmitting elements 10a In the first direction.

Here, the plurality of infrared ray transmitting elements 10a according to the present invention are sequentially arranged in a first direction on either one of two curved sides of the curved display device 200, and the plurality of infrared ray receiving elements 10b are curved Type display device 200 are sequentially arranged in the first direction on the remaining one of the two sides of the fin.

That is, in the present invention, a plurality of infrared ray transmitting elements 10a and a plurality of infrared ray receiving elements 10b are provided only on two curved sides of the curved display device 200, and infrared rays are not installed on the remaining two sides .

4 and 5, in the present invention, a plurality of infrared ray transmitting elements 10a are mounted on a PCB 11a for transmission and installed in a curved display device 200, and a plurality of infrared ray receiving elements (10b) is mounted on the receiving PCB (11b) and installed in the curved display device (200).

The PCB 11a for transmission is installed on one side of the curved surface display device 200 so that a plurality of infrared ray transmitting elements 10a are sequentially arranged on one side of the curved surface display device 200 along the first direction And the receiving PCB 11b is installed on the other side of the curved display device 200 so that the plurality of infrared receiving devices 10b are arranged on the other side of the curved display device 200 So that they are sequentially arranged along one direction.

Hereinafter, a method of recognizing the user's touch by installing only the infrared ray transmitting element 10a and the infrared ray receiving element 10b on both sides of the curved surface display device 200 will be described in detail.

The touch control unit 30 senses that the infrared ray receiving element 10b is touched by an object such as a finger between the infrared ray transmitting element 10a and the infrared ray receiving element 10b to block the infrared ray receiving element 10b from receiving infrared rays, .

The touch controller 30 according to the present invention includes a plurality of infrared ray transmitting elements 10a and an infrared ray receiving element 10b which are operated in a first scan control mode and a second scan control mode and arranged to face each other in a first direction And detects the detected touch.

More specifically, when the touch control unit 30 operates in the first scan control mode, the touch control unit 30 is operated to receive infrared rays from the infrared ray transmitting element 10a positioned in the direction in which the respective infrared ray receiving elements 10b face each other The infrared ray transmitting element 10a and the plurality of infrared ray receiving elements 10b.

For example, in the scanning direction are arranged in the sequence of n infrared transmitting device (10a) TX _i, when the sequence of n infrared receiving elements (10b) RX _i arranged in the scan direction, i is an infrared transmitting element (10a And the infrared receiving element 10b, and i = 0, 1, 2, ..., n-2, nl.

At this time, when the touch control unit 30 operates in the first scan control mode, the plurality of infrared ray transmitting elements 10a sequentially control the infrared rays to emit, and when the infrared ray receiving elements 10b face each other, To receive the infrared rays emitted from the light source 10a. That is, the infrared ray emitted from the infrared ray transmitting element 10a TX ₀ is received by the infrared ray receiving element 10b RX ₀ and the infrared ray emitted from the infrared ray transmitting element 10a TX ₁ is received by the infrared ray receiving element 10b RX ₁ .

6, the touch controller 30 controls the first touch coordinate X0 in the first direction, that is, the X-axis touch coordinates in the X-axis direction .

On the other hand, the touch controller 30 detects the first touch coordinate (X0) through the operation in the first scan control mode, and then operates in the second scan control mode. In the second scan control mode, the touch controller 30 controls the infrared ray receiving elements 10b to receive infrared rays from the infrared ray transmitting element 10a located diagonally. Then, the touch control unit 30 determines whether or not the preliminary coordinates X2 in the first direction detected through the operation in the second scan control mode and the first touch coordinates X0 detected in the first scan control mode Axis touch coordinates, which is a second touch coordinate in a second direction perpendicular to the first direction, that is, in the Y-axis direction.

Referring to FIG. 7, the touch control unit 30 controls the infrared ray receiving element 10b located in the diagonal direction in the scanning direction of the infrared ray transmitting element 10a to receive infrared rays, respectively. Here, it is defined that the touch controller 30 operates in the second scan control mode using the infrared ray transmitting element 10a and the infrared ray receiving element 10b located in the diagonal direction in the scan direction as a first diagonal scan control mode .

For example, the first touch-control section 30 includes a first infrared transmitting element in the diagonal scan control mode (10a) TX _0, TX _1, TX _2, ..., _n-1-p TX transmits the infrared sequentially And controls the infrared ray receiving elements 10b and 10b such that RX _{0 + p} , RX _{1 + p} , RX _{2 + p} , ..., RX _n-1 sequentially receive infrared rays.

Here, the P value is a value for determining the infrared ray receiving element 10b that receives the infrared ray from the infrared ray transmitting element 10a in the diagonal direction in the first diagonal scan control mode, And the angle with respect to one direction (X-axis direction in Fig. 7) is determined.

8, the infrared rays emitted from one infrared ray transmitting element 10a are radiated at a predetermined angle so that a plurality of infrared ray receiving elements 10b adjacent to the opposite infrared ray receiving elements 10b of the opposite infrared ray receiving element 10b, (10b) can receive infrared rays. In the second scan control mode of the present invention, when the infrared ray transmitting element 10a sequentially emits infrared rays, the infrared ray receiving element 10b facing the infrared ray receiving element 10b receiving the infrared rays synchronously with the infrared ray receiving element 10b, The infrared receiving element 10b is determined to be the peripheral infrared ray receiving element 10b, so that the control as shown in Fig. 7 becomes possible.

Through the above-described method, the touch controller 30 detects the preliminary coordinates X2 through operation in the first diagonal scan control mode, as shown in FIG. In the present invention, the first touch coordinates (X0) and the preliminary coordinates (X2) are obtained from the plurality of infrared ray receiving elements 10b of the infrared ray receiving element 10b whose infrared rays are not received from the plurality of infrared ray transmitting elements 10a, As shown in Figs. 6 and 5, the first touch coordinate X0 X0 is detected, and the preliminary coordinate X2 X2 is detected.

On the other hand, when the detection of the first touch coordinates X0 and the preliminary coordinates X2 is completed, the touch controller 30 determines the distance between the first touch coordinates X0 and the preliminary coordinates X2, the preliminary coordinates X2, The distance between the coordinates X1 in the first direction of the infrared transmitting element 10a which has transmitted the infrared rays to the infrared receiving element 10b corresponding to the coordinate X2 and the distance between the coordinates X1 in the first direction, And the second touch coordinates are calculated based on the distance between the elements 10b.

7, the distance D _1st1 between the first touch coordinates X0 and the preliminary coordinates X2 is obtained through a deviation between the preliminary coordinates X2 and the first touch coordinates X0, The distance D _1st2 between the coordinates X1 in the first direction of the infrared ray transmitting element 10a that has transmitted the infrared rays to the infrared ray receiving element 10b corresponding to the coordinates X2 and the preliminary coordinates X2 is the preliminary coordinates X2, And the coordinate (X1) of the infrared transmitting element 10a. The distance D _2nd between the infrared transmitting element 10a and the infrared receiving element 10b facing each other is determined when the infrared touch screen device 100 according to the present invention is installed in the curved display device 200. [

In this case, when the position of the infrared ray receiving element 10b is taken as the Y axis, the second touch coordinates, that is, the Y-axis touch coordinates, can be expressed by C _2nd , which is the distance from the position of the infrared ray receiving element 10b to the touch position , And can be calculated through [Equation 1].

[Equation 1]

7, the angle? Between the infrared radiation direction and the first direction (the X-axis direction in FIG. 7) can be set through the above-described P value in addition to the above-mentioned formula (1) It is possible to calculate C < _2nd > as the second touch coordinate through Expression [2].

&Quot; (2) "

In the above-described embodiment, the second scan control mode operates in the first diagonal scan control mode in which the second scan control mode is scanned in the diagonal direction as shown in FIG. Here, the second scan control mode according to the present invention may be configured such that the infrared ray transmitting element 10a and the infrared ray receiving element 10b are synchronized with each other in the direction opposite to the diagonal direction shown in FIG. 7, Of course it is.

Here, when the touch controller 30 detects a single touch in the first scan control mode, that is, when one first touch coordinate X0 is detected, when the touch controller 30 operates in the second scan control mode, Mode and the second diagonal scan control mode.

9, when more than two first touch coordinates X0 are detected in the process of operating in the first scan control mode, that is, when multi-touch is generated, 2 scan control mode, it operates in one or both of the first diagonal scan control mode and the second diagonal scan control mode to detect the second touch coordinates.

In FIG. 9, when the first diagonal scan control mode is operated, a virtual image area UI is generated and it is difficult to accurately detect the coordinates. However, when operating in the second diagonal scan control mode, have.

In the above-described embodiments, the infrared transmitting element 10a and the infrared receiving element 10b are arranged to face each other in the first direction, i.e., the X axis direction, but they are arranged in the second direction, i.e., the Y axis direction It is needless to say that the technical matters of the present invention can be applied.

Although several embodiments of the present invention have been shown and described, those skilled in the art will appreciate that various modifications may be made without departing from the principles and spirit of the invention . The scope of the invention will be determined by the appended claims and their equivalents.

100: Infrared touch screen device 200: Curved display device
300: Information processing device
10a: Infrared ray transmitting element 10b: Infrared ray receiving element
11a: transmitting side PCB 11b: receiving side PCB
30: touch control unit 40: interface unit

Claims (8)

1. An infrared touch screen device applied to a curved display device having two sides facing each other,
A plurality of infrared transmitting elements sequentially arranged in a first direction on either side of two curved sides of the curved display device;
And a plurality of infrared rays receiving units for receiving infrared rays transmitted from the plurality of infrared ray transmission elements, sequentially arranged in a first direction opposite to the plurality of infrared ray transmission elements on the other one of the two sides of the curved surface display device, A device;
A first scan control mode in which the plurality of infrared ray transmitting elements and the plurality of infrared ray receiving elements are controlled so as to receive infrared rays from infrared ray transmitting elements located in a direction facing each of the infrared ray receiving elements, And a touch control unit operating in a second scan control mode for controlling to receive infrared rays from an infrared ray transmitting element located in a diagonal direction,
Wherein the touch control unit operates in a first scan control mode to detect a first touch coordinate in the first direction and operates in a second scan control mode to detect a preliminary coordinate in the first direction, And the second touch coordinates in a second direction perpendicular to the first direction are detected on the basis of the detected second touch coordinates.
The method according to claim 1,
A transmission PCB having a fin shape corresponding to a fin shape of the curved display device and mounted on one side of a curved surface of the curved display device, the plurality of infrared transmission devices being mounted along the first direction;
Further comprising a receiving PCB having a fin shape corresponding to a fin shape of the curved display device and mounted on the other side of the curved display device, the plurality of infrared receiving devices being mounted along the first direction And the infrared touch screen device is applied to a curved display device.
3. The method of claim 2,
Wherein the first touch coordinates and the preliminary coordinates are detected from the coordinates in the first direction of the infrared ray receiving element whose reception of infrared rays from the plurality of infrared ray transmitting elements among the plurality of infrared ray receiving elements is blocked, Type display device.
The method of claim 3,
The touch control unit,
A distance between the first touch coordinates and the preliminary coordinates, a distance between the coordinates in the first direction of the infrared transmitter transmitting the infrared rays to the infrared receiver corresponding to the preliminary coordinates and the preliminary coordinates, And the second touch coordinates are calculated on the basis of the distance between the infrared ray receiving element and the infrared ray receiving element.
5. The method of claim 4,
The touch control unit may include:

(Wherein, C _2nd is the second, and the touch coordinates, D _2nd is the distance between the mutually opposed and the distance between the infrared ray transmitting element and an infrared receiving element, D _1st1 is the first touch coordinates and the pre-coordinate, D _1st2 is the And the second touch coordinates are calculated based on the preliminary coordinates and the coordinates in the first direction of the infrared transmitter transmitting the infrared rays to the infrared receiver corresponding to the preliminary coordinates) Applied infrared touch screen device.
The method of claim 3,
Wherein the second touch coordinates are calculated based on a distance between the first touch coordinates and the preliminary coordinates, and an angle formed by the infrared ray receiving element corresponding to the preliminary coordinates and the infrared ray transmitter in the first direction, An infrared touch screen device applied to a display device.
The method according to claim 6,
The touch control unit may include:

(Where C _2nd is the second touch coordinate, D _1st1 is the distance between the first touch coordinate and the preliminary coordinate, and? Is an infrared ray receiving element corresponding to the preliminary coordinates and an infrared ray transmitter And the second touch coordinates are calculated based on the first touch coordinates and the second touch coordinates.
7. The method according to any one of claims 2 to 6,
Wherein the second scan control mode includes a first diagonal scan control mode in which each of the infrared ray receiving elements is controlled to receive infrared rays from an infrared ray transmitting element positioned in a first diagonal direction, And a second diagonal scan control mode for controlling to receive infrared rays from an infrared ray transmitting element located in a second diagonal direction,
The touch control unit
When one of the first touch coordinates is detected during the operation in the first scan control mode, the first diagonal scan control mode and the second diagonal scan control mode, when operating in the second scan control mode, Detects the second touch coordinates,
When at least two of the first touch coordinates are detected during operation in the first scan control mode, at least one of the first diagonal scan control mode and the second diagonal scan control mode when operating in the second scan control mode, And the second touch coordinates are detected by operating the second touch coordinates.

Images