KR101251021B1 - Methode for adjusting image of touch screen - Google Patents

Abstract

According to an aspect of the present invention, there is provided a method for adjusting a touch screen output screen, the method comprising: a first step of setting a partial region of the output window as a screen adjustment area when a contact means contacts an output window of the touch screen; When an arc-type drag having a curvature within a setting range is applied within the screen adjustment area, the screen displayed on the output window is enlarged or reduced in accordance with the direction of the arc-shaped drag, and a unidirectional drag having a curvature of less than a set value is applied. And a second step of moving the screen displayed on the output window in the drag direction of the one-way drag when applied within the screen adjustment area. By using the touch screen output screen adjustment method according to the present invention, the screen of the touch screen can be enlarged and reduced using only one finger, and the screen can be continuously moved even if the drag is not repeated several times. There is an advantage that the enlargement speed of the screen and the reduction speed of the screen and the moving speed of the screen can be easily changed.

Description

Method for adjusting image of touch screen}

The present invention relates to an output screen adjusting method for adjusting the size of the screen displayed on the touch screen or scrolling the screen, and more particularly, even if the multi-touch is not applied, the screen is enlarged or reduced or displayed in various directions. The present invention relates to an output screen adjusting method configured to be displayed by scrolling.

The touch screen is a function of adding a device called a touch panel to an output screen that outputs an image. The touch screen is implemented in various ways such as capacitive type, resistive mesh type, and infrared type. It is configured to have a function to determine the location of the touch point when the fingertip or other object is touched. Therefore, when you touch the text or picture information displayed on the touch screen by hand, it is possible to grasp the user's choice according to the contact position and to process the corresponding command by computer, so that the user can easily find the information he / she wants. You can get it.

Due to these characteristics, the touch screen is widely used for guidance terminals in places that are widely used by the public, that is, subways, department stores, banks, etc., and is not only applied to sales terminals at various stores but also for general business purposes. have.

Meanwhile, with the development of a central processing unit (CPU) and a storage device (memory) embedded in a portable terminal such as a mobile communication terminal, various applications are executed and processed in the portable terminal. That is, the portable terminal can execute not only an application for performing voice and data communication but also an application for playing a game, playing an audio file and a video file, capturing a video and a photo, and displaying an electronic map. As various applications can be executed in the portable terminal, the size of the screen of the portable terminal is gradually increased for the smooth use of the application.

As the portable terminal becomes smaller and the screen of the portable terminal becomes larger, the input means of the portable terminal is gradually changing from a keypad to a touch screen. In other words, when a portable terminal includes both a keypad and a screen, the screen becomes relatively small. Therefore, a technology for relatively increasing the screen size by integrating a screen and an input means into a single device using a touch screen This is commonly used.

However, even in a portable terminal equipped with a touch screen, it is still difficult to display various information on one screen. This problem occurs because the screen size of the portable terminal is inevitably smaller than the screen size of a personal computer (PC) used in a normal home. In particular, when searching a web page on a mobile terminal, viewing an electronic map, viewing a high resolution image file, etc., the screen size of the portable terminal often needs to be enlarged or reduced. Occurs.

If the user wants to enlarge the image displayed on the touch screen, the user can enlarge the image by touching two points on the image with two fingers and then widen the distance between the two fingers. On the contrary, when the image to be displayed on the touch screen is to be reduced, the two images can be reduced by touching two points on the image with two fingers and then narrowing the distance between the two fingers.

However, since two or more fingers must be used to implement the multi-touch, it is very difficult to hold the portable terminal with one hand and multi-touch. That is, in order to enlarge or reduce the screen during movement, the user must hold the portable terminal with one hand and multi-touch with the other hand. Therefore, both hands of the user are required. Therefore, a user who is inconvenient to use one hand or a user who carries a baggage with one hand has a disadvantage in that it is almost impossible to enlarge or reduce the screen of the portable terminal while moving.

In addition, in order to scroll the screen of the touch screen in one direction, a drag signal must be applied on the screen of the touch screen, and in order to scroll far away, the drag in one direction is repeated several times. There is a discomfort to do.

The present invention is proposed to solve the above problems, it is possible to enlarge and reduce the screen of the touch screen using only one finger, it is possible to continuously scroll the screen without repeating the drag several times The purpose is to provide a method for adjusting the touch screen output screen.

Touch screen output screen adjustment method according to the present invention for achieving the above object,

A first step of setting a portion of the output window as a screen adjustment area when the contact means contacts the output window of the touch screen;

A second step of expanding or reducing the screen displayed on the output window according to the direction of the arc-type drag when an arc-type drag having a curvature within a setting range is applied within the screen adjustment area;

.

The second step,

As the drag distance of the arc-type drag is increased, the enlargement ratio or reduction ratio of the screen displayed on the output window is increased.

The second step,

As the drag speed of the arc-type drag increases, an enlargement rate increase rate or a reduction rate increase rate of the screen displayed on the output window is accelerated.

The second step,

When the contact means is stopped in contact with the screen adjustment area after the arc drag is over a set angle or more than a set distance, a display is displayed on the output window while the contact between the contact means and the screen adjustment area is maintained. The enlargement or reduction of the displayed screen is configured to continue.

The second step,

When a one-sided drag having a curvature of less than a set value is applied within the screen adjustment area, the screen displayed on the output window is configured to move in the drag direction of the one-way drag.

The second step,

The moving speed of the screen displayed on the output window is accelerated as the drag speed of the one-way drag increases.

The second step,

When the contact means stops in contact with the screen adjustment area after the one-way drag is over a set distance, the screen displayed on the output window moves while the contact between the contact means and the screen adjustment area is maintained. It is configured to last.

Touch screen output screen adjustment method according to the present invention,

A first step of setting a portion of the output window as a screen adjustment area when the contact means contacts the output window of the touch screen;

A second step of expanding or reducing the screen displayed on the output window according to the direction of the drag when a one-way drag having a curvature of less than a set value is applied within the screen adjustment area;

.

The second step,

As the drag distance of the one-way drag increases, the enlargement or reduction ratio of the screen displayed on the output window is increased.

The second step,

As the drag speed of the one-way drag increases, an enlargement rate increase rate or a reduction rate increase rate of the screen displayed on the output window is accelerated.

The second step,

When the contact means stops in contact with the screen adjustment area after the one-way drag is over a set distance, the enlargement of the screen displayed on the output window while the contact between the contact means and the screen adjustment area is maintained. Or the reduction is continued.

The second step,

When an arc-type drag having a curvature within a setting range is applied within the screen adjustment area, the screen displayed on the output window is moved, and as the drag direction of the arc-shaped drag is reversed, the screen displayed on the output window is moved. The direction is configured to be reversed.

The second step,

As the drag speed of the arc-type drag increases, the moving speed of the screen displayed on the output window is accelerated.

The second step,

When the contact means is stopped in contact with the screen adjustment area after the arc drag is over a set angle or more than a set distance, a display is displayed on the output window while the contact between the contact means and the screen adjustment area is maintained. The movement of the displayed screen is configured to continue.

Touch screen output screen adjustment method according to the present invention,

A first step of setting a portion of the output window as a screen adjustment area when the contact means contacts the output window of the touch screen;

When an arc-type drag having a curvature within a setting range is applied within the screen adjustment area, the screen displayed on the output window is moved, and as the drag direction of the arc-shaped drag is reversed, the screen displayed on the output window is moved. A second step in which the direction is reversed;

.

The second step,

As the drag speed of the arc-type drag increases, the moving speed of the screen displayed on the output window is accelerated.

The second step,

When the contact means stops in contact with the screen adjustment area after the arc-type drag has proceeded over a set distance, the screen displayed on the output window moves while the contact between the contact means and the screen adjustment area is maintained. It is configured to last.

The first step,

When the contact means is in contact with the output window is configured such that a predetermined region including the point where the contact means is in contact with the screen adjustment area.

The first step,

And at least one of a reference point indicating the center of the screen adjustment area and a boundary line indicating the edge of the screen adjustment area.

The first step,

The screen adjustment area is configured to be output in an opaque or translucent state.

The first step,

The screen adjustment area is set when the contact means contacts the output window for a set number of times or more within a set time.

The first step,

The screen adjustment area is configured when the contact means continuously contacts the output window for a predetermined time.

The screen adjustment area is configured to disappear when a predetermined time elapses after the contact means is spaced apart from the screen adjustment area.

The screen adjustment area is configured to disappear when the contact means is re-contacted more than a set number of times or a set time after being spaced apart from the screen adjustment area.

The screen adjustment area is configured to disappear when the contact means touches a point outside the screen adjustment area.

When a point out of the screen adjustment area of the output window is multi-touched by another contact means while the contact means is in contact with the screen adjustment area, the first input signal generated when the output window is single-touched; Further includes a third step of generating a different second input signal.

The first input signal is an input signal identical to a signal input when the mouse is left clicked, and the second input signal is an input signal identical to the signal input when the mouse is right-clicked.

By using the touch screen output screen adjustment method according to the present invention, the screen of the touch screen can be enlarged and reduced using only one finger, and the screen can be continuously moved even if the drag is not repeated several times. There is an advantage that the enlargement speed of the screen and the reduction speed of the screen and the moving speed of the screen can be easily changed.

1 illustrates a display terminal equipped with a touch screen.
2 to 5 illustrate a method for adjusting a touch screen output screen according to the present invention.
6 to 8 illustrate a second embodiment of the method for adjusting the touch screen output screen according to the present invention.
9 shows a third embodiment of a method for adjusting a touch screen output screen according to the present invention.

Hereinafter, an embodiment of a touch screen output screen adjusting method according to the present invention will be described in detail with reference to the accompanying drawings.

1 illustrates a display terminal equipped with a touch screen, and FIGS. 2 to 5 illustrate a method of adjusting a touch screen output screen according to the present invention.

The display terminal equipped with the touch screen 100 is configured to input a signal when the touch screen 100 is touched using a contact means P such as a stylus pen or a finger, and the touch screen 100 is generally It is divided into an output window 110 for displaying a search screen, a function window 120 for inputting a website address, and a basic information window 130 for providing basic information such as battery remaining capacity or current time. In this case, the touch screen 100 is configured such that the screen displayed through the output window 110 can be enlarged and reduced and displayed. The enlargement and reduction of the screen is performed after touching two points on the output window 110. It is implemented by the operation of increasing or decreasing the distance between the two touch points. However, in order to implement such an operation method, since two fingers must be touched to the output window 110, it is very difficult to implement an operation of enlarging or reducing the screen simultaneously with noise with one hand.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a method for adjusting a touch screen output screen configured to be enlarged and reduced and displayed by a signal input using only one finger.

Means for applying a drag signal, such as a finger, to the output window 110 of the touch screen 100 to enlarge and reduce the output screen by using the touch screen output screen adjustment method according to the present invention ( Hereinafter referred to as 'contact means (P)'). When the contact means P contacts the output window 110 as described above, the screen adjustment area 200 having a predetermined radius is set around the contact point as shown in FIG. 2. The screen adjustment area 200 is an area set to receive a signal for screen size adjustment and screen movement. The size and shape of the screen adjustment area 200 may be variously changed.

After the screen adjustment area 200 is set, if the contact means P is dragged in the arc direction in the screen adjustment area 200, that is, an arc-shaped drag having a curvature within the setting range is in the screen adjustment area 200. When applied, the screen displayed on the output window 110 is enlarged or reduced according to the direction of the arc-shaped drag. For example, as shown in FIG. 3, when an arc-like drag in the screen adjustment area 200 is applied in the clockwise direction, the screen displayed on the output window 110 is enlarged. In contrast, the screen as shown in FIG. 4 is enlarged. When an arc-like drag in the adjustment area 200 in the counterclockwise direction is applied, the screen displayed on the output window 110 may be reduced. At this time, the direction of the arc-type drag applied to enlarge the screen and the direction of the arc-type drag applied to reduce the screen may be interchanged. For example, the screen may be enlarged when an arc-like drag in a counterclockwise direction is applied, and the screen may be reduced when an arc-like drag in a clockwise direction is applied.

As mentioned above, when the touch screen 100 is configured to enlarge and reduce the displayed screen when an arc-shaped drag having a curvature within a setting range is applied, the user enlarges or reduces the screen using only one finger. It has the advantage that it is very easy to use. For example, when using a portable terminal such as a smartphone, a handheld terminal is usually operated by hand. In such a case, the index finger, middle finger, ring finger, and the holding finger are used to take the portable terminal and only the thumb is touch screen ( Since it is used to touch and drag 100, there is a disadvantage in that it is not possible to implement multi-touch with a hand holding a portable terminal. That is, when using a portable terminal to which an output screen adjusting method is applied, in which a screen is enlarged and reduced through multi-touch as in the related art, the screen can be enlarged or reduced only by holding the portable terminal with one hand and performing multi-touch operation with the other hand. Therefore, there is a disadvantage that it is very difficult to enlarge and reduce the screen when the hands cannot be used freely. However, when using a portable terminal to which the output screen adjusting method according to the present invention is applied, the screen can be enlarged and reduced even with the thumb of a hand holding the portable terminal.

On the other hand, when the contact means P touches the output window 110, whether the touch is a touch for setting the screen adjustment area 200 or a touch for selecting an icon or the like shown in the output window 110. It may be necessary to clearly distinguish between them. Therefore, when the contact means P contacts the output window 110 more than the number of times set within a predetermined time, a part of the output window 110 is set as the screen adjustment area 200 or the contact means P is set. Preferably, a part of the output window 110 is configured to be set as the screen adjustment area 200 when the state of continuous contact with the output window 110 is maintained over time. For example, a part of the output window 110 is configured to be set as the screen adjustment area 200 when the contact means P touches the output window 110 twice in succession, or the contact means P is output. Preferably, a portion of the output window 110 is set to the screen adjustment area 200 when the window 110 is in contact with the window 110 for at least 2 seconds.

Of course, when the contact means P is in contact with the output window 110 for a short time once, a portion of the output window 110 may be configured to be set to the screen adjustment area (200). For example, when a portion where an execution icon is displayed in the output window 110 is touched, an operation (such as executing a specific program or moving to a linked website) is performed and the output window 110 is displayed. When an empty space without an execution icon is touched, the screen adjustment area 200 may be set around the touched point. That is, the environment and conditions under which a portion of the output window 110 is set as the screen adjustment area 200 may be variously changed.

The screen adjustment area 200 may be set to include a point where the contact means P is in contact with the output window 110 as shown in the present embodiment, or a point at which the contact means P is in contact. It may also be set at a specific point away from. In this case, it is preferable that the screen adjustment area 200 is set to include a point where the contact means P is in contact so that an arc-type drag can be input immediately after the setting of the screen adjustment area 200 is implemented.

In addition, an arc-shaped drag for enlarging and reducing the screen should be made in the screen adjustment area 200. If the user cannot recognize which part of the output window 110 is set as the screen adjustment area 200, the circular motion may be changed. Difficulties arise in arc drag input. Therefore, when the screen adjustment area 200 is set, both the reference point 210 indicating the center of the screen adjustment area 200 and the boundary line 220 indicating the edge of the screen adjustment area 200 are output or the At least one of the reference point 210 and the boundary line 220 may be configured to be output. In addition, even if the reference point 210 or the boundary line 220 is not output, the screen adjustment area 200 may be output in an opaque or translucent state so that the user can recognize the screen adjustment area 200 with the eyes. .

On the other hand, when the screen adjustment area 200 is no longer needed, the screen adjustment area 200 should be configured so that the screen adjustment area 200 has a contact means P from the screen adjustment area 200. It is configured to disappear when the set time elapses after being spaced apart, or to disappear when the contact means (P) is re-contacted more than a set number of times or after a set time after being separated from the screen adjusting area 200, or the screen adjusting area ( It may be configured to disappear when the contact means (P) is in contact with the point out of the 200. If the screen adjustment area 200 is configured to automatically disappear when a set time elapses after the contact means P is separated from the screen adjustment area 200, a separate operation for disappearing the screen adjustment area 200 is performed. If the screen adjustment area 200 is configured to disappear when the contact means P is re-contacted more than a set number of times or after a set time after being spaced apart from the screen adjustment area 200, the screen adjustment area 200 is unnecessary. When the control panel 200 is configured to disappear when the touch means P is touched to a point outside the screen adjusting area 200, the screen adjusting area 200 disappears. There is an advantage that the signal input becomes easier. As such, the signal input method for disappearing the screen adjustment area 200 according to the user's needs may be changed and applied to various methods other than the above-described method according to the user's convenience.

On the other hand, when using the method of enlarging or reducing the screen by the multi-touch method, if the screen magnification and reduction ratio desired by the user is very large (that is, to enlarge the screen very large or very small) output window 110 The multi-touch operation of the two points and the drag operation to increase or decrease the distance between the two touched points must be repeated several times, which has the disadvantage of cumbersome operation for screen enlargement and reduction. The present invention may be configured to increase or reduce the magnification of the screen displayed on the output window 110 as the drag distance of the arc-shaped drag is increased to solve the above problems. That is, the screen may be continuously enlarged while the arc-like drag in the clockwise direction is in progress (see FIG. 3), and the screen is continuously reduced while the arc-like drag in the counterclockwise direction is in progress. As such, when the drag distance of the arc-shaped drag is increased, the enlargement ratio and reduction ratio of the screen are increased, the user may contact the contact means P to the output window 110 (more clearly, the screen adjustment area 200). The advantage is that the screen can be enlarged and reduced in various ratios without touching it twice.

In addition, as the drag speed of the arc-shaped drag is increased, the screen is displayed on the output window 110 so that the magnification increase speed or the reduction rate increase speed is accelerated. The relatively much enlarged or reduced much, and when dragging slowly, the screen may be configured to expand or shrink relatively less. When the enlargement and reduction ratio of the screen is configured to be variable according to the drag speed as described above, the user can enlarge or reduce the screen even more even when the user drags the arc by the same distance, thereby increasing the convenience of use.

In addition, the method for adjusting the touch screen output screen according to the present invention may be configured such that the enlargement or reduction of the screen continues even if the circular drag progresses to a certain degree and stops. That is, when the contact means P is stopped in contact with the screen adjustment area 200 after the arc-shaped drag is performed over the set angle or more than the set distance, the contact means P and the screen adjustment area 200. While the contact is maintained, the enlargement or reduction of the screen displayed on the output window 110 may be configured to continue. For example, when the circular drag is more than one round, that is, 360 ° or more, the screen is continuously enlarged or reduced even when the contact means P is no longer dragged and stops in contact with the screen adjustment area 200. It may be configured to. Similarly, after the circular drag continues for a predetermined distance or more, the screen may be continuously enlarged or reduced even if the contact means P no longer moves and stops in contact with the screen adjustment area 200. . If the screen is configured to continue to enlarge or reduce even when the circular drag is stopped, the user can enlarge or reduce the screen at a high ratio even if the circular drag does not last for a long time, thereby making it very convenient. There is an advantage.

On the other hand, the touch screen output screen adjustment method according to the present invention, when the drag applied in the screen adjustment area 200 is a one-sided drag having a curvature of less than the set value, that is, the linear drag or the gradient is very small and straight and In the case of a similar drag, the screen displayed on the output window 110 may be configured to move in the drag direction of the one-way drag. For example, when dragging downward in the screen adjustment area 200 as shown in FIG. 5, the screen output to the output window 110 is downward in the drag direction as if the screen output to the monitor is scrolled downward. It can be configured to move to. Accordingly, the user can freely move the screen output to the output window 110 by the desired distance by repeating the one-way drag as described above several times in the screen adjustment area 200. When the screen is configured to move when the one-way drag is applied in the screen adjustment area 200 as described above, the user can enlarge, reduce or move the screen even if the contact means P is moved only within the screen adjustment area 200. The advantage is that both can be implemented. The function of moving the screen in the dragging direction is a function that is already applied to a portable terminal that is currently commercialized, such as a smartphone, and thus description of the operation thereof will be omitted.

On the other hand, as the arcuate drag speed is increased, as the enlargement and reduction of the screen is accelerated, the moving speed of the screen displayed on the output window 110 is accelerated as the drag speed of the one-way drag is increased. Can be. In addition, when the contact means (P) is stopped in contact with the screen adjustment area 200 after the one-way drag proceeds more than a set distance, between the contact means (P) and the screen adjustment area 200 While the contact is maintained, the movement of the screen displayed on the output window 110 may be configured to continue. As such, when the moving speed of the screen increases or the stopping of the drag is configured according to the drag speed, the user can move the screen far away even if the user performs a one-way drag within a short interval. It has the advantage of convenience.

6 to 8 illustrate a second embodiment of the method for adjusting the touch screen output screen according to the present invention.

2 to 5 illustrate only the case in which the screen is enlarged and reduced when an arc-type drag is applied to the screen adjustment area 200. However, in the touch screen output screen adjusting method according to the present invention, the screen adjustment area 200 is illustrated. The screen may be enlarged and reduced when a one-way drag is applied to the screen. That is, as shown in FIG. 6, when the one-way drag is applied upward in the screen adjustment area 200, the screen displayed on the output window 110 is enlarged, and as shown in FIG. 7, the screen adjustment area ( The screen displayed on the output window 110 may be reduced when the one-way drag is applied downward in the 200. Of course, the drag direction of the one-way drag for screen expansion and the drag direction of the one-way drag for screen reduction may be changed in various ways.

Even when the screen is enlarged or reduced when the one-way drag is applied to the screen adjustment area 200 as in the present embodiment, as the drag distance is increased, the enlargement or reduction ratio of the screen displayed on the output window 110 is increased. It can be configured to increase. In this case, when the one-way drag is applied to the screen adjustment area 200, the drag distance cannot be larger than the diameter of the screen adjustment area 200, so that the screen is enlarged and the screen is reduced by one drag operation. There is a limit to the rate. Therefore, the user can freely increase the magnification and reduction ratio of the screen output to the output window 110 by repeating the one-way drag as described above several times in the screen adjustment area 200. In addition, when the screen is enlarged and reduced when the one-way drag is applied to the screen adjustment area 200, the increase or decrease rate of the magnification of the screen displayed on the output window 110 increases as the drag speed of the one-way drag increases. The contact means P and the screen adjustment are configured such that an increase speed is accelerated or when the contact means P is stopped in contact with the screen adjustment area 200 after the one-way drag has been progressed over a set distance. While the contact between the regions 200 is maintained, the enlargement or reduction of the screen displayed on the output window 110 may be continued.

In addition, in FIGS. 2 to 5, only the case in which the screen is moved when the one-way drag is applied to the screen adjustment area 200 is described. However, the touch screen output screen adjusting method according to the present invention provides curvature within a setting range. The screen displayed on the output window 110 may be moved when the circular drag having the circular drag is applied to the screen adjustment area 200. In this case, as the drag direction of the arc-type drag is reversed, it is preferable that the moving direction of the screen displayed on the output window 110 is reversed. For example, as illustrated in FIG. 8, when an arc-type drag is applied in the screen adjustment area 200 in a clockwise direction, the screen displayed on the output window 110 is moved upward, and the screen adjustment area 200 is moved. When the arc-like drag is applied in the counterclockwise direction, the screen displayed on the output window 110 is preferably configured to move downward. In addition, even when the screen is moved when an arc-type drag is applied to the screen adjustment area 200, as the drag speed of the arc-type drag is increased, the moving speed of the screen displayed on the output window 110 is accelerated. Or the contact means P and the screen adjustment when the contact means P is stopped in contact with the screen adjustment area 200 after the arc-shaped drag is performed over the set angle or the set distance. The movement of the screen displayed on the output window 110 may be maintained while the contact between the regions 200 is maintained.

In addition, the touch screen output screen adjustment method according to the present invention, whether or not the function to enlarge or reduce the screen displayed on the output window 110 is implemented, arc-shaped drag having a curvature within the setting range. When is applied to the screen adjustment area 200 may be configured to move the screen displayed on the output window 110. Of course, in this case, as the drag direction of the arc-shaped drag is changed in the opposite direction, it is preferable that the moving direction of the screen displayed on the output window 110 be changed in reverse. In this case, as in the above-described embodiment, as the drag speed of the arc-shaped drag is increased, the moving speed of the screen displayed on the output window 110 is accelerated, or after the arc-shaped drag proceeds more than a set distance. Moving of the screen displayed on the output window 110 while contact between the contact means P and the screen adjustment area 200 is maintained when the contact means P is stopped in contact with the screen adjustment area 200. This can be configured to last.

9 shows a third embodiment of a method for adjusting a touch screen output screen according to the present invention.

In the touch screen output screen adjusting method according to the present invention, as shown in FIG. 9, the contact means P (the index finger in this embodiment) is in contact with the screen adjusting area 200 in the output window 110. When the point out of the screen adjustment area 200 is multi-touched by another contact means P (thumb in this embodiment), the first input signal generated when the output window 110 is single-touched The method may further include generating a second input signal different from. That is, when the index finger is touched away from the screen adjustment area 200 in the output window 110 while the index finger is spaced apart from the screen adjustment area 200, the first input signal is generated, but the index finger is displayed on the screen. The second input signal may be generated when the user touches a point outside the screen adjustment area 200 of the output window 110 with a thumb while making contact with the adjustment area 200.

In this way, when the touch point outside the screen adjustment area 200 is configured to generate different types of input signals depending on whether or not the contact means P is in contact with the screen adjustment area 200, the touch screen Since various types of input signals can be applied to 100, various functions such as copying a file or querying the attributes of a file can be performed. For example, when the first input signal is set to the same input signal as the signal input when the mouse left clicks, and the second input signal is set to the same input signal as the signal input when the mouse is right-clicked, FIG. As shown in FIG. 9, when the index finger is in contact with the screen adjustment area 200, when the user touches a point outside the screen adjustment area 200 of the output window 110 with the thumb, various types of execution menus are included. The menu window 300 may be displayed. In this way, the menu window 300 displayed when the multi-touch is substantially the same as the menu window displayed when the mouse is right-clicked, and thus a detailed description thereof will be omitted.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the scope of the present invention is not limited to the disclosed exemplary embodiments. It will also be appreciated that many modifications and variations will be apparent to those skilled in the art without departing from the scope of the present invention.

100: touch screen 110: output window
120: function window 130: basic information window
200: screen adjustment area 210: reference point
220: border 300: menu window

Claims (27)

A first step in which a part of the output window 110 is set as the screen adjustment area 200 when the contact means P contacts the output window 110 of the touch screen 100;
A second step of expanding or reducing the screen displayed on the output window 110 according to the direction of the arc-type drag when an arc-type drag having a curvature within a setting range is applied in the screen adjustment area 200;
Including but not limited to:
The screen adjustment area when the contact means P is in contact with the output window 110 for a set number of times or more within the set time, or when the contact means P is continuously in contact with the output window 110 for a set time. Touch screen output screen adjustment method, characterized in that configured to be set (200).
The method of claim 1,
The second step comprises:
And an enlargement ratio or a reduction ratio of the screen displayed on the output window 110 is increased as the drag distance of the arc-type drag is increased.
The method of claim 2,
The second step comprises:
And a magnification increase rate or a reduction rate increase rate of the screen displayed on the output window 110 is accelerated as the drag speed of the arc-type drag is increased.
The method of claim 2,
The second step comprises:
When the contact means P is stopped in contact with the screen adjustment area 200 after the arc-type drag has proceeded more than a set angle or more than a set distance, the contact means P and the screen adjustment area 200 The touch screen output screen adjusting method, characterized in that the enlargement or reduction of the screen displayed on the output window 110 is maintained while the contact between the two is maintained.
The method of claim 1,
The second step comprises:
When a one-sided drag having a curvature of less than a set value is applied within the screen adjustment area 200, the screen displayed on the output window 110 is configured to move in the dragging direction of the one-way drag. How to adjust output screen.
The method of claim 5,
The second step comprises:
Touch screen output screen adjusting method, characterized in that the movement speed of the screen displayed on the output window 110 is accelerated as the drag speed of the one-way drag is increased.
The method of claim 5,
The second step comprises:
When the contact means P stops in contact with the screen adjustment area 200 after the one-way drag has been performed for a set distance or more, the contact between the contact means P and the screen adjustment area 200 is lost. Touch screen output screen adjusting method, characterized in that configured to continue the movement of the screen displayed on the output window 110 while being maintained.
A first step in which a part of the output window 110 is set as the screen adjustment area 200 when the contact means P contacts the output window 110 of the touch screen 100;
A second step of expanding or contracting the screen displayed on the output window 110 according to the direction of the drag when a one-sided drag having a curvature of less than a set value is applied to the screen adjustment area 200;
Including but not limited to:
The screen adjustment area when the contact means P is in contact with the output window 110 for a set number of times or more within the set time, or when the contact means P is continuously in contact with the output window 110 for a set time. Touch screen output screen adjustment method, characterized in that configured to be set (200).
9. The method of claim 8,
The second step comprises:
And an enlargement ratio or a reduction ratio of the screen displayed on the output window 110 is increased as the drag distance of the one-way drag increases.
10. The method of claim 9,
The second step comprises:
Touch screen output screen adjustment method, characterized in that configured to be accelerated to increase the rate of increase or reduction rate of the screen displayed on the output window 110 as the drag speed of the one-way drag.
10. The method of claim 9,
The second step comprises:
When the contact means P stops in contact with the screen adjustment area 200 after the one-way drag has been performed for a set distance or more, the contact between the contact means P and the screen adjustment area 200 is lost. Touch screen output screen adjusting method, characterized in that configured to continue to enlarge or reduce the screen displayed on the output window 110 while being maintained.
9. The method of claim 8,
The second step comprises:
When an arc-type drag having a curvature within a setting range is applied within the screen adjustment area 200, the screen displayed on the output window 110 is moved, and as the drag direction of the arc-type drag is reversed, the output window is changed. Touch screen output screen adjustment method, characterized in that configured to change the direction of movement of the screen displayed on the reverse.
The method of claim 12,
The second step comprises:
Touch screen output screen adjusting method, characterized in that configured to accelerate the movement speed of the screen displayed on the output window 110 as the drag speed of the arc-type drag is increased.
The method of claim 12,
The second step comprises:
When the contact means P is stopped in contact with the screen adjustment area 200 after the arc-type drag has proceeded more than a set angle or more than a set distance, the contact means P and the screen adjustment area 200 Touch screen output screen, characterized in that configured to continue the movement of the screen displayed on the output window 110 while the contact between them is maintained.
A first step in which a part of the output window 110 is set as the screen adjustment area 200 when the contact means P contacts the output window 110 of the touch screen 100;
When an arc-type drag having a curvature within a setting range is applied within the screen adjustment area 200, the screen displayed on the output window 110 is moved, and as the drag direction of the arc-type drag is reversed, the output window is changed. A second step in which the moving direction of the screen displayed on the 110 is reversed;
Touch screen output screen adjusting method comprising a.
16. The method of claim 15,
The second step comprises:
Touch screen output screen adjusting method, characterized in that configured to accelerate the movement speed of the screen displayed on the output window 110 as the drag speed of the arc-type drag is increased.
16. The method of claim 15,
The second step comprises:
When the contact means P stops in contact with the screen adjustment area 200 after the arc-type drag has proceeded over a set distance, the contact between the contact means P and the screen adjustment area 200 is lost. Touch screen output screen adjusting method, characterized in that configured to continue the movement of the screen displayed on the output window 110 while being maintained.
The method according to any one of claims 1 to 17,
In the first step,
When the contact means (P) is in contact with the output window 110, the touch screen output, characterized in that the predetermined region including the point where the contact means (P) is set as the screen adjustment area 200 is configured How to adjust the screen.
The method according to any one of claims 1 to 17,
In the first step,
And at least one of a reference point (210) representing a center of the screen adjustment area (200) and a boundary line (220) indicating an edge of the screen adjustment area (200).
The method according to any one of claims 1 to 17,
In the first step,
And the screen adjustment area 200 is configured to be output in an opaque or translucent state.
The method according to any one of claims 15 to 17,
In the first step,
And the screen adjustment area (200) is set when the contact means (P) is in contact with the output window (110) for a set number of times or more within a set time.
The method according to any one of claims 15 to 17,
In the first step,
And the screen adjustment area (200) is set when the contact means (P) is continuously in contact with the output window (110) for a set time.
The method according to any one of claims 1 to 17,
And the screen adjustment area 200 is configured to disappear when a predetermined time elapses after the contact means P is spaced apart from the screen adjustment area 200.
The method according to any one of claims 1 to 17,
The screen adjustment area 200 is configured to disappear when the contact means P is spaced apart from the screen adjustment area 200 and is re-contacted more than a set number of times or more than a set time. How to adjust.
The method according to any one of claims 1 to 17,
The screen adjustment area 200, the touch screen output screen adjustment method, characterized in that configured to disappear when the contact means (P) in contact with the point out of the screen adjustment area (200).
The method according to any one of claims 1 to 17,
When the point out of the screen adjustment area 200 of the output window 110 is multi-touched by another contact means P while the contact means P is in contact with the screen adjustment area 200. And a third step of generating a second input signal different from the first input signal generated when the output window 110 is single touched.
The method of claim 26,
Wherein the first input signal is an input signal identical to a signal input when the mouse is left-clicked, and the second input signal is an input signal identical to the signal input when the mouse is right-clicked. .

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