KR20140046178A - Flexible display apparatus and method for compensating input data of touch in flexible display apparatus - Google Patents

Abstract

The flexible display device (100) according to the present invention includes: a flexible display panel (110) which is capable of displaying even while being bent and which uses a touch input; a bending sensor (120) which is placed on the upper and lower sides of the flexible display panel (110) and measures the bending information corresponding to the bending of the flexible display panel (110); and a processor (130) which estimates the bending position of the display panel by analyzing the bending information and corrects the touch area according to the bending position. [Reference numerals] (110) Flexible display panel; (120) Bending sensor; (130) Processor; (140) Memory

Description

TECHNICAL FIELD [0001] The present invention relates to a flexible display device and a flexible display device, and more particularly to a flexible display device and a flexible display device,

The technique described below relates to a method of correcting a touch input in a flexible display device using a touch panel and a flexible display device using the method.

Recently, a display field for processing and displaying information has been rapidly developed, and various display devices have been developed and become popular.

Specific examples thereof include a liquid crystal display device (LCD), a plasma display panel (PDP) device, a field emission display device (FED), an electroluminescence display device (ELD) ). These display devices exhibit excellent performance in reducing thickness, weight, and power consumption.

In recent years, a flexible display device capable of maintaining the display performance even if bent like paper using a flexible material such as plastic instead of a glass substrate having no conventional flexibility has been attracting attention as a next generation flat panel display device. The flexible display device can be folded or rolled up, since it is not damaged when folded or rolled like a paper.

The flexible display device can use a touch input as an interface. If the flexible display device is warped, the user's touch input may be erroneously input at a different point or different intensity than the user's intention.

The technique described below is intended to provide a method of correcting a touch input to be input to a device exactly as the user intends, even in a situation where the flexible display device is bent.

The solutions to the technical problems described below are not limited to those mentioned above, and other solutions not mentioned can be clearly understood by those skilled in the art from the following description.

One example of the flexible display device described below is a flexible display panel capable of being displayed even when warped and using a touch input, a warp sensor disposed at the upper side or the lower side of the flexible display panel to measure warp information according to the warp of the flexible display panel, A processor for analyzing the information to estimate the curved shape of the display panel and correcting the touch area according to the curved shape.

One example of the flexible display device may further include a memory for storing a touch correction value table corresponding to the warp information, the center position of the touch input, and the strength of the touch input. The processor corrects the touch area by searching for the touch correction value corresponding to the curvature information, the center position of the touch input, and the intensity of the touch input in the touch correction value table.

The processor preferably performs correction to enlarge the touch area according to the intensity of the touch input when the curved direction of the touch area is convex.

In the case where the curved direction of the touch region is concave, the processor preferably performs correction to reduce the touch region according to the intensity of the touch input.

It is preferable that the processor performs a correction to reduce the touch area according to the intensity of the touch input when the touch is input to the center position of the curved area in which the curved direction is concave.

The processor may perform correction to move the touch area in a direction in which the inclination angle of the flexible display panel is negative (-) according to the intensity of the touch input when a touch is input to an area other than the center position of the curved area.

One example of the touch correction method in the flexible display device described below includes a step of performing a touch input on the flexible display panel by the user, a step of measuring the curvature information of the flexible display panel by the curvature sensor of the flexible display device, And the processor analyzes the warping information and corrects the touch region in which the touch input is input.

The step of correcting the touch region may include correcting the warp information, the center position of the touch input, and the touch correction value corresponding to the strength of the touch input in the memory storing the touch correction value table according to the warp information, the center position of the touch input, And corrects the touch area.

The warp information is any one or more of information constituted by warped angles depending on the warped direction, the center position of the warped region, and the position on the flexible display panel.

In the step of correcting the touch area, when the curved direction of the touch area is convex, it is preferable to perform correction to enlarge the touch area according to the strength of the touch input.

In the step of calibrating the touch area, when the curved direction of the touch area is concave, it is preferable to perform correction to reduce the touch area according to the strength of the touch input.

The step of correcting the touch area may include performing a correction to move the touch area in a direction in which the inclination angle of the flexible display panel is negative (-) in accordance with the intensity of the touch input when a touch is input to an area other than the center position of the curved area desirable.

The technology described below can accurately receive the touch input of the user regardless of the bowing of the device in the flexible display device. In the technique described below, the touch input correction method can be implemented by a software method, so that the touch input can be easily corrected without any additional hardware.

The effects of the techniques described below are not limited to those mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the following description.

1 is a block diagram schematically showing a configuration of a flexible display device capable of correcting a touch input.
Fig. 2 (a) is an example of a configuration in which a flexible display panel and a warp sensor are arranged, and Fig. 2 (b) is an example in which a warp sensor operates.
3 is an exemplary view illustrating a touch input error that may occur in a curved flexible display device.
4 is an example of a method of correcting a touch input error occurring in a bent flexible display device.
5 is a flowchart schematically showing a procedure of a touch correction method in a flexible display device.

While the invention is susceptible to various modifications and alternative forms, specific embodiments thereof are shown by way of example in the drawings and will herein be described in detail. It should be understood, however, that the intention is not to limit the invention to the specific embodiments,

It is to be understood that the invention includes all modifications, equivalents, and alternatives falling within the spirit and scope of the claims.

The terms first, second, A, B, etc., may be used to describe various components, but the components are not limited by the terms, but may be used to distinguish one component from another . For example, without departing from the scope of the present invention, the first component may be referred to as a second component, and similarly, the second component may also be referred to as a first component. And / or < / RTI > includes any combination of a plurality of related listed items or any of a plurality of related listed items.

As used herein, the singular " include "should be understood to include a plurality of representations unless the context clearly dictates otherwise, and the terms" comprises & , Parts or combinations thereof, and does not preclude the presence or addition of one or more other features, integers, steps, components, components, or combinations thereof.

Before describing the drawings in detail, it is to be clarified that the division of constituent parts in this specification is merely a division by main functions of each constituent part. That is, two or more constituent parts to be described below may be combined into one constituent part, or one constituent part may be divided into two or more functions according to functions that are more subdivided. In addition, each of the constituent units described below may additionally perform some or all of the functions of other constituent units in addition to the main functions of the constituent units themselves, and that some of the main functions, And may be carried out in a dedicated manner. Therefore, the existence of each component described in the present specification should be interpreted as a function. For this reason, the configuration of the components according to the flexible display device 100 of the present invention is not limited to the extent that the object of the present invention can be achieved It should be clear that in Fig.

Hereinafter, the touch correction method in the flexible display device 100 and the flexible display device 100 will be described in detail with reference to the drawings.

1 is a block diagram schematically showing a configuration of a flexible display device 100 capable of correcting a touch input.

The flexible display device 100 according to the present invention includes a flexible display panel 110 which can be displayed even when warped and which uses a touch input, a flexible display panel 110 disposed on the upper or lower side of the flexible display panel 110, And a processor 130 for estimating the warped shape of the display panel by analyzing the warping information and correcting the touch area according to the warped shape.

The present invention can be applied to the flexible display panel 110 irrespective of the kind of the flexible display panel 110 if the flexible display panel 110 is displayable. The flex sensor measures the warp information of the flexible display panel 110. [ Preferably, the warp sensor 120 is disposed in a grid shape in a plane parallel to the flexible display panel 110.

2 (a) is an example of a configuration in which the flexible display panel 110 and the bending sensor 120 are disposed, and Fig. 2 (b) is an example in which the bending sensor 120 operates. Generally, the flexible display panel 110 is positioned on the upper side and the bending sensor 120 is disposed on the lower side of the flexible display panel 110. As shown in FIG. 2, the warp sensor 120 preferably has a plurality of sensors arranged in a grid shape. The warp sensor 120 shown at the upper left of FIG. 2 (b) is shaded. A shaded sensor means a sensor with a high degree of warpage. In this way, the flexure sensor 120 can measure the flexing strength of the flexible display panel 110 and the position at which the flexure occurs.

Although not shown in FIG. 2, the flexible display panel 110 is positioned at the upper end of the display device, and the fixed panel where the curvature sensor 120 is disposed below the flexible display panel 110 exists. The display and control may be a form in which the flexible substrate on which the memory 140 and the processor 130 are disposed may be a separate panel or the memory 140 and the processor 130 may be arranged on the fixed panel .

The present invention is intended to provide a method and an apparatus for correcting a touch input error due to warping of the flexible display panel 110. Accordingly, the essential constitution of the present invention will be mainly described, and a configuration necessary for the remaining flexible display device 100 The description will be omitted.

The flexible display device 100 according to the present invention may further include a memory 140 for storing a touch correction value table corresponding to the warping information, the center position of the touch input, and the intensity of the touch input.

The processor 130 searches the touch correction value table for the curvature information, the center position of the touch input, and the touch correction value corresponding to the intensity of the touch input, and corrects the touch area based on the searched touch correction value.

The curvature information is information composed of at least one of curved directions, center positions of curved regions, and information composed of curved angles according to positions on the flexible display panel 110. Hereinafter, the terms constituting the warp information will be described.

The curved direction refers to the direction in which the flexible display panel 110 is bent. Assuming that one plane is curved, one side becomes convex and the opposite side of the convex side becomes concave. In the following description, the direction of the convex surface of the flexible display panel 110 is defined as positive (positive) direction, and the direction of the concave surface is defined as - (negative) direction. The warp sensor 120 can measure the direction in which the flexible display panel 110 is warped.

The case where the flexible display panel 110 is bent is various. For example, the paper may be folded once in one direction, or the cross section of the flexible display panel 110 may be expressed as a wave pattern. When the flexible display panel 110 is folded once, the curved direction is + on one side and - on the opposite side. However, when curved like a wave pattern, the convex part is + on one side, and the concave part is + . Therefore, the definition of the bent direction in the present invention is different from that of the flexible display panel 110.

The center position of the curved region does not refer to the center of the entire area where the curvature occurs in the flexible display panel 110. [ The center position of the curved region means the bottom of the convexly curved region or the concave curved region.

The inclined angle (inclined angle) according to the position on the flexible display panel 110 means an angle formed between a plane and a specific position on the panel, assuming that the flexible display panel 110 is placed on a plane.

FIG. 3 is an exemplary view illustrating a touch input error that may occur in the curved flexible display device 100. FIG. 3 shows a touch error occurring in a non-plane curved surface. As can be seen from Fig. 3, there is inconsistency between the intended touch area and the actual touch area. The area indicated by red is the actual touch area, and the area indicated by green is the area where the touch input was intended.

For example, in a convex surface, a touch occurs in a portion smaller than an intended touch region, and a touch in an area larger than the intended touch region occurs in a concave surface (b). In the case of a curved surface, not only the size of the area but also the inconsistency of the touch position may occur. For example, if a curved surface is constructed as shown in the figure at the right, the top part of the curved surface is touched first before the intended touch area (c).

4 is an example of a method of correcting a touch input error occurring in the curved flexible display device 100. Referring to FIG. In FIG. 4, + and - indicate the warped direction. In FIG. 4, the area indicated by red is the actual touch area, and the area indicated by green is the corrected touch area.

In Fig. 4 (a), the touch region in which the touch input is generated is a vertex in which the curved direction is convex (+) and the center position of the curved region. In this case, the processor 130 performs correction to enlarge the touch area in proportion to the intensity of the touch input. Even if it is not the center position of the curved region, if the curved direction of the touch region in which the touch input occurs is convex (+), correction for enlarging the touch region is performed.

In Fig. 4 (b), the touch region in which the touch input is generated is a trough, which is the center position of the curved region, while the curved direction is concave (-). In this case, the processor 130 performs correction to reduce the touch area in proportion to the intensity of the touch input. Even if it is not the center position of the curved region, if the curved direction of the touch region in which the touch input occurs is concave (-), correction for reducing the touch region is performed.

In FIG. 4 (c), the touch region in which the touch input occurs is a position other than the center position of the curved region. In this case, the processor 130 performs the correction to move the touch area in the negative (-) direction of the inclination angle of the flexible display panel 110 according to the intensity of the touch input.

Hereinafter, a touch correction method in the flexible display device 100 will be described, and a portion corresponding to the configuration described in the above-described flexible display device 100 will be briefly described.

FIG. 5 is a flowchart schematically showing a procedure of a touch correction method in the flexible display device 100. FIG.

First, the user performs touch input on the flexible display panel 110 (S1). (S2). If there is no warping in the touch area, a command corresponding to the touch input is immediately performed (S5).

However, if warping is confirmed in step S2, warp information is measured through the warp sensor 120 of the flexible display device 100 (S3). 5, the step of measuring the warp information is separately configured. However, when the warp occurs, the warp information is measured through the warp sensor 120. FIG. Therefore, it is preferable to obtain the warping information corresponding to the touch area among the warping information already obtained in step S3.

Then, the processor 130 of the flexible display device 100 analyzes the warp information to correct the touch area (S4), and finally executes the instruction according to the corrected touch input value (S5), the entire process is terminated.

A key configuration of the touch correction method in the flexible display device 100 according to the present invention is that a user performs a touch input on the flexible display panel 110 and a step in which the flexion sensor 120 of the flexible display device 100 is flexibly The step of measuring warping information of the display panel 110 and the step of analyzing the warping information of the processor 130 of the flexible display device 100 and correcting the touch region inputted with the touch input.

The step of measuring the warp information is a step of acquiring warp information corresponding to the touch region in the measured warp information.

The step of correcting the touch area includes a step of correcting the touch information in the memory 140 storing the touch correction value table according to the warping information, the center position of the touch input, and the strength of the touch input, The curled information is information that is any one or more of information formed by a curved direction, a center position of a curved region, and a bent angle according to a position on the flexible display panel 110. [

In the step of correcting the touch area, when the curved direction of the touch area is convex, the touch area is enlarged according to the intensity of the touch input.

The step of correcting the touch area may include performing correction to reduce the touch area according to the intensity of the touch input when the curved direction of the touch area is concave.

In the step of correcting the touch area, when a touch is inputted to an area other than the center position of the curved area, the touch area is moved according to the intensity of the touch input in the direction in which the inclination angle of the flexible display panel 110 is negative .

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. It will be understood that variations and specific embodiments which may occur to those skilled in the art are included within the scope of the present invention.

100: Flexible display device
110: Flexible display panel 120: Deflection sensor
130: Processor 140: Memory

Claims (12)

In the flexible display device,
A flexible display panel capable of display even when warped and using a touch input;
A warp sensor disposed on an upper side or a lower side of the flexible display panel to measure warp information according to warp of the flexible display panel; And
And a processor configured to analyze the bending information to estimate a curved shape of the display panel and to correct a touch area according to the curved shape. The method of claim 1,
Further comprising a memory for storing a touch correction value table corresponding to the warping information, the center position of the touch input, and the strength of the touch input,
Wherein the processor corrects the touch area by searching for the touch correction value corresponding to the curvature information, the center position of the touch input, and the intensity of the touch input in the touch correction value table. The method of claim 1,
The bending information may be at least one of information configured at a bending angle according to a bending direction, a center position of the curved area, and a position on the flexible display panel. The method of claim 3,
The processor
And correcting to enlarge the touch area according to the intensity of the touch input when the curved direction of the touch area is convex. The method of claim 3,
The processor
And when the curved direction of the touch area is concave, correcting to reduce the touch area according to the strength of the touch input. The method of claim 3,
The processor
Wherein when the touch is input to an area other than a center position of the curved area, the touch area is corrected to move in a negative direction of the tilt angle of the flexible display panel according to the intensity of the touch input. Performing a touch input on a flexible display panel by a user;
Measuring bending information of the flexible display panel by a bending sensor of the flexible display device; And
And correcting, by the processor of the flexible display device, the bending information to correct the touch area in which the touch input is input. 8. The method of claim 7,
The step of correcting the touch region
The touch correction value corresponding to the curvature information, the center position of the touch input, and the intensity of the touch input is retrieved from the memory storing the touch correction value table corresponding to the curvature information, the center position of the touch input, And correcting the touch area based on a result of the comparison. 8. The method of claim 7,
And wherein the bending information is at least one of information configured at a bending angle according to a bending direction, a center position of the curved area, and a position on the flexible display panel. 10. The method of claim 9,
The step of correcting the touch region
And correcting the enlarged touch area according to the strength of the touch input when the curved direction of the touch area is convex. 10. The method of claim 9,
The step of correcting the touch region
And correcting to reduce the touch area according to the strength of the touch input when the curved direction of the touch area is concave. 10. The method of claim 9,
The step of correcting the touch region
Wherein when the touch is input to an area other than a center position of the curved area, the touch panel is corrected to move the touch area in a negative direction of the tilt angle of the flexible display panel according to the intensity of the touch input / RTI >

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