KR101325731B1 - Input device for electronic apparatus and method for operating electronic apparatus - Google Patents

Abstract

The present invention provides an electronic device input device and an electronic device driving method capable of controlling the pointer displayed on the screen of the electronic device simply and accurately. To this end, the present invention provides a method of driving an electronic device having an input means for inputting information by a touch and a screen display device on which a pointer is displayed by the touch, wherein the input means has an arbitrary direction at a point where a touch is made on the input means. Moving the pointer in a dragging direction when the dragging is performed; Stopping the movement of the pointer when the drag operation is stopped; And performing a command signal on an object indicated by the pointer when a state in which the movement of the pointer is stopped passes a predetermined time.

Description

INPUT DEVICE FOR ELECTRONIC APPARATUS AND METHOD FOR OPERATING ELECTRONIC APPARATUS}

The present invention relates to an electronic device input device and a method of driving the electronic device, and more particularly, to an electronic device driving method and an input device of the electronic device for controlling the input of the electronic device.

In order to input or control information in an electronic device, an input device of the electronic device is required. In the case of computers, the most widely used are mice and keyboards. It's also a touchpad for laptops and netbooks. Recently developed digital televisions are remote controls, and smart phones or smart pads such as iPad or Galaxy Tab are touch pads or touch screens. Anyone can easily enter the information they want, but there are many limitations.

Mouse devices are classified into mechanical, optical, photomechanical, and the like. In the case of the mechanical mouse device, the movement of the ball located at the bottom is detected and the pointer is moved correspondingly. The optical mouse device detects the movement of the optical mouse device by detecting a change in the grid pattern by a photo sensor located at the bottom of the optical mouse device as the optical mouse device moves on the pad of the grid pattern. Will move. In addition, the optical and mechanical mouse device detects the movement of the wheel having a slit by the photosensor to detect the movement of the optical and mechanical mouse device and move the pointer accordingly.

In the related art, a user moves a mouse device, and the mouse device detects a movement by the user and moves the pointer accordingly. Accordingly, in order to move the pointer using the mouse device, a space in which the mouse device can be moved is necessary.

The present invention provides an electronic device input device and an electronic device driving method capable of controlling the pointer displayed on the screen of the electronic device simply and accurately in a limited space.

The present invention provides a method of driving an electronic device having an input means for inputting information by a touch and a screen display device on which a pointer is displayed by the touch, wherein the input means is dragged in an arbitrary direction at a point where a touch is made on the input means. Moving the pointer in a dragging direction when a movement is made; Stopping the movement of the pointer when the drag operation is stopped; And performing a command signal on an object indicated by the pointer when a state in which the movement of the pointer is stopped passes a predetermined time.

The command signal may be a selection signal for a target indicated by the pointer or an execution signal of a program corresponding to the target.

In addition, when the command signal is a selection signal, an object indicated by the pointer is selected, and when an additional drag operation is performed, moving the object indicated by the pointer together in the additional dragging direction. It features.

The method may further include performing an additional command signal when the touch on the pointer is released.

The method may further include performing a drag operation on a target executed in response to the command signal in response to the pressing pressure applied to the input means.

In addition, the moving speed of the target executed in response to the command signal is characterized in that it is determined corresponding to the speed of the drag.

In addition, the moving speed of the target executed in response to the command signal is

After the movement of the pointer is stopped is characterized in that it depends on the time until the pressing pressure is applied.

In addition, the moving speed of the target executed in response to the command signal is characterized in that it is determined corresponding to the magnitude of the pressing pressure.

In addition, the moving speed of the target executed in response to the command signal is characterized in that moving at different speeds of at least two or more stages, depending on the magnitude of the pressing pressure.

In addition, the pressing pressure is characterized in that implemented by the switching operation.

In addition, the step of performing a command signal with respect to the object indicated by the pointer is characterized in that is performed only in one of the areas divided into the first area and the second area where the touch is made by the input means.

In addition, the pressing pressure is characterized in that implemented by a pressure sensor or a tactile sensor.

In addition, the input means is characterized in that it comprises a touch screen or a touch pad.

In addition, the present invention provides a method of driving an electronic device having an input means for inputting information by a touch and a screen display device on which a pointer is displayed by the touch, wherein the input means has an arbitrary direction at a point where a touch is made on the input means. Moving the pointer in a dragging direction when the dragging is performed; Stopping the movement of the pointer when the drag operation is stopped; And performing a selection signal on an object indicated by the pointer when the state where the movement of the pointer has stopped is elapsed. And when the touch on the pointer is released, executing a program corresponding to the object indicated by the point.

In addition, when the touch on the pointer is released out of the object indicated by the pointer, the program corresponding to the object indicated by the point is not executed.

In addition, the step of executing the program corresponding to the object indicated by the point is characterized in that is performed only in one of the area divided into the first area and the second area where the touch is made by the input means.

In addition, in a method of driving an electronic device having an input means for inputting information by a touch and a screen display device on which a pointer is displayed by the touch, dragging in an arbitrary direction is performed at a point where the input means is touched. Moving the pointer in a dragging direction when made; Stopping the movement of the pointer when the drag operation is stopped; And performing a selection signal on an object indicated by the pointer when the state where the movement of the pointer has stopped is elapsed. Dragging an object indicated by the pointer when an additional drag operation is performed; Stopping movement of the object indicated by the pointer when the additional drag operation stops; And in response to the pressing pressure applied to the input means, moving the object indicated by the pointer on the screen in the additional dragging direction.

The method may further include executing a program corresponding to an object indicated by the point when the touch on the pointer is released.

In addition, the moving speed of the object indicated by the pointer is characterized in that it is determined corresponding to the speed of the drag.

In addition, the moving speed of the object indicated by the pointer is characterized in that it depends on the time until the pressing pressure is applied after the movement of the pointer is stopped.

In addition, the moving speed of the object indicated by the pointer is characterized in that it is determined corresponding to the magnitude of the pressing pressure.

In addition, the moving speed of the object indicated by the pointer is characterized by moving at different speeds of at least two or more stages according to the magnitude of the pressing pressure.

The performing of the selection signal on the object indicated by the pointer may be performed only in one region of the first region and the second region in which the touch is made by the input means.

The present invention also provides a housing; Input means having a first area and a second area to move the pointer of the screen display device by a touch and drag operation; Direction detecting means for generating a pointer movement direction signal according to a direction dragged to the input means; Speed sensing means for detecting the magnitude of the external force applied to the input means for generating a movement speed change signal of the pointer, the drag operation in at least one of the first region or the second region of the input means; When the pointer is stopped, the movement of the pointer is stopped, and when the state in which the movement of the pointer is stopped elapses after a predetermined time, a command signal is performed on the object indicated by the pointer, or the pointer is moved. Provides an electronic device input device.

The first region and the second region may each be an outer region disposed at an inner region and a boundary region of the inner region with respect to an arbitrary center point.

In addition, the first region and the second region is characterized by being divided into different heights.

In addition, the first region and the second region is characterized in that it is divided into a line-shaped projection disposed in the boundary region.

The command signal may be a selection signal for a target indicated by the pointer or an execution signal of a program corresponding to the target.

In addition, the moving speed of the point or the moving speed of the object selected by the command signal changes in response to the magnitude of the pressing pressure applied to the speed sensing means of the input means, or when the pressing pressure occurs, the movement of the point or the The movement of the selected object is stopped by the command signal.

According to the present invention, the pointer displayed on the screen of the electronic device can be controlled simply and accurately. By using the electronic device driving apparatus according to the present invention, it is possible to perform the pointer control of the screen display device with a minimum of movement.

When the present invention is implemented, a single touch is required without moving the cursor on the screen and selecting an icon or executing a program corresponding to the icon in an input unit that inputs using touch and drag. And drag and stop operations are possible. Accordingly, the user can greatly reduce the touch fatigue and greatly reduce the input error.

In addition, when it is necessary to move a relatively long section on an increasingly large point on the screen, a drag action and a press pressure action are linked to the pointer movement, so that even if the screen is relatively large, the pointer movement can be quickly and easily implemented. Can be.

In addition, in the case of implementing the screen enlargement or reduction operation by the multi-touch, the present invention can implement the enlargement or reduction operation of the screen with a minimum touch operation.

1 is an exploded perspective view and a cross-sectional view of a first embodiment of a drive device for an electronic device according to the present invention.
2 to 5 are cross-sectional views of a second embodiment of a drive device for an electronic device according to the present invention.
6 and 7 are cross-sectional views of a third embodiment of a drive device for an electronic device according to the present invention.
8 is a sectional view of a fourth embodiment of a drive device for an electronic device according to the present invention;
Figure 9 is a photograph implementing the input unit used in the drive device of the electronic device according to the present invention.
FIG. 10 is a photograph of a driving device of an electronic device including the input unit illustrated in FIG. 9.
Fig. 11 is a plan view showing an input unit having two display areas as another embodiment of the input unit used in the driving apparatus of the electronic apparatus according to the present invention.
12 is a flowchart illustrating a method of driving an electronic device according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, in order to facilitate a person skilled in the art to easily carry out the technical idea of the present invention. do.

1 is an exploded perspective view and a cross-sectional view according to a first embodiment of a driving device of an electronic device according to the present invention.

As shown in FIG. 1, the driving apparatus for an electronic device according to the present embodiment includes a housing 100 in which a seating groove 110 is formed, and a mouse body 200 in which a whole or a part of the seating groove 110 is inserted. And a direction detecting unit 310 mounted on an upper surface of the mouse body or an inner wall of the seating groove 110 to generate a pointer movement direction signal by detecting a direction of an external force applied to the mouse body 200, and It is installed on the bottom surface of the mouse body 200 or the inner wall or the bottom surface of the inlet groove to detect the magnitude of various external forces such as the pressing pressure applied to the mouse body 200 to generate an additional movement signal or pointer speed change signal of the pointer. It is configured to include a speed detecting means (320).

As shown in the present embodiment, the direction detecting means 310 may be manufactured by a touch pad method on the upper surface of the mouse body, and the speed detecting means 320 is manufactured by a switch method on the bottom surface of the mouse body 200. It may also be configured to be mounted one or more. That is, the direction detecting means 310 has the same function as a general touch pad and can be manufactured in any configuration as long as the pointer can be moved. If the surface can be mounted anywhere, and can measure the size of the external force including the pressing pressure of the mouse body 200 can be manufactured in any configuration.

2 to 5 are cross-sectional views of a second embodiment of a drive device for an electronic device according to the present invention.

The driving apparatus of the electronic device according to the present embodiment may be configured to receive the user's force by providing the speed detecting unit 320 and the direction detecting unit 310.

As shown in FIGS. 2 to 4, the driving apparatus of the electronic device according to the present embodiment senses a direction of an external force applied laterally to the housing 100 and a direction detecting means for generating a pointer movement direction signal ( 310 and a speed sensing means 320 for detecting a magnitude of an external force applied in an up and down direction to generate a pointer speed change signal, wherein the direction sensing means 310 and the speed sensing means 320 are touched. The pad structure may be mounted on the upper surface of the housing 100 in a lamination manner, may be manufactured in one piece, or may be manufactured in parallel in some cases.

In the parallel method, as shown in FIG. 5, a direction sensing means 310 region such as a touch pad and a speed sensing means 320 region such as a pressure sensor or a switch are separately disposed on a housing or a PCB, and then the glass 350 is placed thereon. ) It can be configured with the same equipment. In this case, when the glass 350 on the direction detecting means 310 is dragged, the direction detecting means 310 is detected and the pointer is moved. When the glass is pressed, the pressure sensor or the switch of the speed detecting means 320 is detected. The pointer's moving speed changes.

3, when the user pushes the direction detecting means 310 and the speed detecting means 320 with a finger, the force pushing with the finger is generally applied at an angle, the direction detecting means. The force applied to the 310 and the speed detecting means 320 may be divided into a horizontal force and a vertical force.

At this time, the direction detecting means 310 detects a horizontal force to generate a pointer movement direction signal, and the speed detecting means 320 detects a vertical force to generate a pointer speed change signal. For example, when the user first touches the finger on the upper surface of the direction detecting means 310, the direction detecting means 310 is generated as a movement direction signal of the pointer, and when the user applies an external force in the vertical direction with the finger. When pushing, the pressure of the speed detecting means 320 is sensed to generate a movement speed change signal of the pointer.

The touch pad configured to sense the direction and magnitude of the applied force is widely applied to various mobile communication terminals and portable electronic devices, and thus a detailed description thereof will be omitted.

In this embodiment, only the case where the speed detecting means 320 is mounted below the direction detecting means 310 is described, but the direction detecting means 310 and the speed detecting means 320 may be mutually changed. have. That is, the direction detecting means 310 may be first mounted on the upper surface of the housing 100, and the speed detecting means 320 may be mounted thereon.

In addition, the direction detecting means 310 and the speed detecting means 320 may have various shapes, but in some cases, the direction detecting means 310 and the speed detecting means 320 may have a square or disc shape so as to receive the force evenly in any direction. have. At this time, the direction detecting means 310 is a direction detecting means (A) so that the direction detecting means 310 does not generate a pointer movement direction signal when the user first touches the finger to the center of the speed detecting means 320 Both the 310 and the speed detecting means 320 may be formed in a ring shape having a through hole in a center portion thereof.

In addition, the direction detecting means 310 is applied to the external force from the reference position when the external force is applied to a point spaced in one direction from the center of the reference position (for example, the center point of the through hole) as shown in FIG. It may be configured to generate a pointer movement direction signal in the direction toward the point. At this time, the speed detecting means 320 is configured to generate a pointer speed change signal by detecting the magnitude of the applied external force, as in the embodiment shown in Figs.

In this case, the pointer movement direction and the pointer movement are only detected by detecting a force for pressing the specific position of the ring-shaped direction detecting means 310 in the vertical direction without using the through hole as a reference position without detecting the horizontal force. The speed can be set at once. Therefore, the user does not need to separately apply the vertical external force and the horizontal external force to the point where the direction detecting means 310 and the speed detecting means 320 are stacked, or apply an external force that is inclined in one direction. By simply applying an external force, the pointer movement direction and the pointer movement speed can be freely manipulated.

2 to 4, if the direction detecting means 310 and the speed detecting means 320 is configured to receive a force directly, the mouse body 200 can be omitted, so the configuration is not only very simple This has the advantage of miniaturization of the product.

In addition, the speed detecting means 320 may be configured to increase the pointer moving speed when the direction detecting means 310 detects two or more touches or two or more touch pressures within a set time. .

For example, when the user senses the contact or the application of the contact pressure two or more times by lightly hitting two or more times in one direction within a short time, the speed detecting means 320 is caused by the downward pressing force Apart from increasing or decreasing the pointer moving speed, the pointer moving speed may be increased. Therefore, the user can easily increase the moving speed of the pointer simply by touching the upper surface of the direction detecting means 310 or the speed detecting means two or more times without applying a large downward pressing force.

6 and 7 are cross-sectional views of a third embodiment of a drive device for an electronic device according to the present invention.

Referring to FIGS. 6 and 7, the electronic device driving apparatus according to the present embodiment detects a movement of the housing 100 on the bottom of the housing 100 and generates a pointer movement signal to generate a movement signal. This may be further provided. The movement detecting means 330 may be applied as an optical sensor used in a conventional optical mouse as long as it can detect a movement of the housing 100, or may be applied as an assembly of a ball, a roller, and an encoder used in a conventional ball mouse. It may be. That is, the movement detecting means 330 as described above is widely applied to a conventional mouse in various ways, and a detailed description thereof will be omitted.

As such, if the movement detecting means 330 is further provided, the user can use the driving device of the electronic device according to the present invention by moving the entire housing 100 as if it is a conventional mouse.

In addition, the bottom surface of the housing 100 is provided with a signal transmission switch 340 for detecting whether the housing 100 is seated on the ground, as shown in Figure 6 the housing 100 is seated on the ground In the movement detecting means 330 can be operated, as shown in Figure 7 may be configured such that the movement detecting means 330 is not operated in a state in which the housing 100 is spaced apart from the ground.

The signal transfer switch has various structures such as an optical sensor and a magnetic sensor as well as a mechanical switch that detects whether the housing 100 is seated on the ground by drawing in and out of the housing 100 as shown in this embodiment. It can be replaced by the switch of.

As such, when the signal transmission switch 340 is additionally provided, the user can easily select whether to operate the movement detecting means 330 through on / off of the signal transmission switch.

8 is a sectional view of a fourth embodiment of a drive device for an electronic device according to the present invention. In particular, FIGS. 8 to 10 illustrate a driving device of an electronic device having a touch pad.

Referring to FIG. 8, the driving device of the electronic device according to the present embodiment includes a touch pad. The touch pad according to the present embodiment is characterized in that the input signal can be received on the X, Y, and Z axes. To this end, it includes a touch pad with X, Y-axis direction detection, and a device with Z-axis speed detection.

8 is a touch pad having an X and Y axis direction sensing function, and a lower part of FIG. 9 is a rubber type switch having a Z axis speed sensing function, and an X and Y axis direction sensing function shown at the top. It is disposed under the touchpad having a. Thus, the two devices are combined to receive an input signal on the X, Y, and Z axes.

Of course, also in this case, as described above, the direction detecting means 310 and the speed detecting means 320 may be mounted on the upper surface of the housing 100 in a stacked manner, and may be manufactured in one piece. In some cases, as shown in Figure 5 may be manufactured in parallel. In particular, since the touchpad serving as the direction detecting means only needs to generate a pointer movement signal, both of the capacitive type and the pressure sensitive type can be applied.

FIG. 9 is a photograph showing an input unit used in a driving device of an electronic device according to the present invention, and FIG. 10 is a photograph showing a driving device of an electronic device including the input unit shown in FIG. 9.

As shown in FIG. 9, the input unit used in the driving apparatus of the electronic device described in the present invention may be implemented in a disc shape, and may function as a touch pad, and the disc form provided in the input unit may input a pressure signal. It is implemented to receive.

In more detail, the input unit for inputting information by a touch, that is, the touch pad unit is provided. The signal input by the driving device of the electronic device is displayed on the display device by wire or wirelessly. The driving device of the electronic device may function as an input of a mouse of a computer system, and may be used as an input means of a digital television. In addition, the display device may be a television monitor, a monitor of a computer system, or a monitor of various electronic devices. In addition, the monitor may be any one of all kinds of monitors such as LED, LCD, plasma panel, CRT monitor.

FIG. 10 is a photograph illustrating a state in which an input unit illustrated in FIG. 9 is mounted on an electronic device. As shown in Figure 10, the driving device of the electronic device according to the present invention can be implemented in the form of a remote control. In some cases, it may be implemented as a touch pad of a notebook, or may be implemented as an input device different from a keyboard and a mouse.

11 is a plan view showing an input unit having two display regions as another embodiment of the input unit used in the driving apparatus of the electronic device according to the present invention.

As shown in FIG. 11, when the input device of the electronic device according to the present embodiment is implemented, a part to be touched may be divided into a first area and a second area. Here, the first region is an inner region, and the second region is an edge region surrounding the first region. The present invention proposes that if a drag is stopped for a predetermined time after the drag is made in the touched state and the stopped state continues, an additional command is executed. In some cases you may not want to execute additional commands.

In this case, when the dragging is stopped and the stopped state is continued, the user can conveniently control the point of the screen by providing the distinguished areas where the additional commands are executed and the non-executed areas.

In the first area, the pointer moves only for the drag operation, and in the second area, when a certain time passes after the drag operation stops, the target indicated by the point on the screen is selected or executed. Is to implement.

12 is a flowchart illustrating a method of driving an electronic device according to an embodiment of the present invention.

Referring to FIG. 12, the signal input by the driving device of the electronic device is displayed by the movement of the pointer on the screen display device. Looking in detail the process of being displayed and moved by the pointer, first, the pointer is moved in the dragging direction when a drag is made in an arbitrary direction at the point where the first touch is made to the input unit of the driving device of the electronic device. The input unit can be either a touch screen or a touch pad.

Subsequently, it detects whether a certain amount of time lasts when the drag operation stops. If the drag operation stops for a longer time than the scheduled time while the touch is in effect, the command is executed on the instruction point indicated by the point on the screen. The command may be to select an object indicated by the point or to execute a program corresponding to the object indicated by the point. For example, if a certain time elapses while stopping a drag operation of a point on an icon on the desktop of a window program and maintaining a touched state, the icon is selected or executed.

If an additional drag is made after the icon is selected, not only the cursor or the point is moved but also the icon indicated by the point moves along the so-called drag and drop state.

Subsequently, it is determined whether there is a pressing pressure in the input unit in a state where the drag operation is continued or when the drag operation is stopped. Here, the pressing pressure may be implemented by a rubber type switch having a Z-axis speed sensing function described with reference to FIG. 8, or may be implemented by a pressure sensor or a tactile sensor. The pressing pressure may be realized by a simple switching operation. When implemented as a switch, the pointer may be implemented to move in response to the on-off operation.

If there is a pressing pressure while the drag operation is in progress, the moving speed increases or decreases, and if there is a pressing pressure while the drag operation is stopped, the instruction point indicated by the point continues to move in the dragged direction. The instruction point indicated by the point may be a selected icon or a window window indicating a program executed by the icon.

In addition, when a drag is made to another point on the basis of the point where the pressing pressure is applied, the instruction object indicated by the point is moved in the dragging direction.

In addition, the command signal may be additionally performed when the touch on the pointer is released.

In addition, the moving speed of the instruction object indicated by the point corresponding to the magnitude of the pressing pressure may be maintained at a constant speed or may be configured to change. In addition, when a pressure sensor or a tactile sensor is provided, the indication object indicated by the point moves at a different speed of at least two or more stages according to the magnitude of the pressing pressure.

In addition, when the pressing pressure is implemented in the switching operation, when the pressing pressure is applied two or more times at the same point, the moving speed of the indicating object indicated by the point may be changed. That is, when a switching operation is given twice or three times at the same touch point within a predetermined time, the moving speed of the indicating object indicated by the point may gradually increase.

In addition, in response to the pressing pressure in the state in which the dragging is stopped, it may be linked to the speed of dragging the moving speed of the instruction object indicated by the point. To speed up the first drag and move the point indicated by the point relatively quickly when the pressing force is applied at the point where it is stopped, to slow down the first dragging speed and to indicate the point relatively when the pressing pressure is applied to the point where it is stopped. It can be implemented to move the object slowly.

On the other hand, by controlling the magnitude of the drag speed and the pressing pressure it is possible to adjust the moving speed of the indication target indicated by the point. When the dragging speed is fast and the pressing pressure is high, When the dragging speed is fast and the pressing pressure is small, When the dragging speed is relatively slow and the pressing pressure is small, When the dragging speed is relatively slow and the pressing pressure is large You can vary the speed at which points move. By properly combining the two cases of the pressing pressure and the dragging speed, the moving speed of the pointed object indicated by the point can be determined.

In addition, the operation in which the command signal is performed on the object indicated by the pointer may be implemented to be performed only in one of the regions divided into the first region and the second region in which the input means is touched.

The present invention can be implemented as a method for driving an electronic device comprising the following steps.

A driving method of an electronic device is a driving method of an electronic device having an input means for inputting information by a touch and a screen display device on which a pointer is displayed by a touch. When the drag is made, the pointer is moved in the dragging direction, the movement of the pointer is stopped when the dragging operation is stopped, and a selection signal is selected for the object indicated by the pointer when the movement of the pointer has elapsed. Is performed, and when the touch on the pointer is released, the program corresponding to the object indicated by the point is executed.

Here, the method may further include performing a drag operation on the target executed in response to the program in response to the pressing pressure applied to the input means.

In addition, the moving speed of the target executed in response to the program may be characterized in that it is determined corresponding to the speed of the drag.

In addition, the moving speed of the target executed in response to the program may be characterized in that it depends on the time until the pressing pressure is applied after the movement of the pointer is stopped.

In addition, the movement speed of the object indicated by the pointer may be determined according to the magnitude of the pressing pressure.

In addition, the moving speed of the object indicated by the pointer may be characterized by moving at different speeds of at least two or more stages according to the magnitude of the pressing pressure.

In addition, the step of executing a program corresponding to the object indicated by the point may be performed only in one of the regions divided into the first region and the second region where a touch is made by the input means.

In addition, the present invention can be implemented as a method for driving an electronic device comprising the following steps.

A driving method of an electronic device is a driving method of an electronic device having an input means for inputting information by a touch and a screen display device on which a pointer is displayed by a touch. When the drag is made, the pointer moves in the dragging direction. When the drag operation stops, the pointer stops moving. When the pointer stops moving after a predetermined time, a selection signal is applied to the object indicated by the pointer. The object indicated by the pointer is dragged when the additional drag operation is performed, and the movement of the object indicated by the pointer is stopped when the additional drag operation is stopped, and in response to the pressing pressure applied to the input means, the additional drag is The object indicated by the pointer in the direction is moved on the screen.

As described above, when the touch on the pointer is released, the program corresponding to the object indicated by the point may be executed.

In addition, the moving speed of the object indicated by the pointer may be determined corresponding to the speed of the drag, and the moving speed of the object indicated by the pointer is determined by the time until the pressing pressure is applied after the pointer stops moving. It can be implemented to vary. Here, the moving speed of the object indicated by the pointer may be determined corresponding to the magnitude of the pressing pressure. In addition, the movement speed of the object indicated by the pointer may be implemented to move at different speeds of at least two or more stages according to the magnitude of the pressing pressure.

In addition, the step of performing the selection signal with respect to the object indicated by the pointer may be implemented to be performed only in one of the areas divided into the first area and the second area where the touch is made by the input means.

In addition, the following input device of the electronic device may be implemented for the above-described driving.

The input device of the electronic device according to the present embodiment includes an input means having a first area and a second area and a direction dragged to the input means to move the pointer of the screen display device by a housing, a touch and a drag operation. Direction detecting means for generating a pointer movement direction signal; And a speed detecting means for detecting a magnitude of an external force applied to the input means to generate a change speed signal of the pointer. When the dragging operation is stopped in at least one of the first region and the second region of the input means. When the movement of the pointer is stopped and the state in which the movement of the pointer is stopped elapses after a predetermined time, a command signal is performed or a pointer moves to a target indicated by the pointer.

Here, the first region and the second region may be implemented as an inner region disposed at an inner region and a boundary region of the inner region with respect to an arbitrary center point.

In addition, the first area and the second area may be implemented to be divided into different heights, and the first area and the second area may be divided into line-shaped protrusions disposed in the boundary area, and the command signal may be indicated by a pointer. It may be characterized in that the selection signal for the target or the execution signal of the program corresponding to the target.

Also, the moving speed of the point or the moving speed of the object selected by the command signal is changed in correspondence to the magnitude of the pressing pressure applied to the speed sensing means of the input means, or when the pressing pressure occurs, It can be implemented to stop the movement of the subject.

In addition, as described above, although the information transmitted by the driving device of the electronic device according to the present embodiment has been described as being used to move a point of the screen display device or an object indicated by the point, it may be applied to control the scrolling of the screen. have. Again, this can be achieved by controlling both scrolling and points.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limiting the scope of the present invention. I will understand. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by the scope of the appended claims, as well as the appended claims.

Claims (29)

In a driving method of an electronic device comprising an input means for inputting information by a touch and a screen display device on which a pointer is displayed by the touch,
Moving the pointer in a dragging direction when a dragging is made in an arbitrary direction at a point where a touch is made on the input means;
Stopping the movement of the pointer when the drag operation is stopped; And
Performing a command signal on a target indicated by the pointer when the state where the movement of the pointer stops has passed a predetermined time;
Electronic device driving method comprising a.
The method of claim 1,
And the command signal is a selection signal for an object indicated by the pointer or an execution signal of a program corresponding to the object.
3. The method of claim 2,
When the command signal is a selection signal,
And moving the object indicated by the pointer together in the additional dragging direction when an object indicated by the pointer is selected and then an additional drag operation is performed.
The method of claim 1,
And when the touch on the pointer is released, an additional command signal is performed.
3. The method according to claim 1 or 2,
And a dragging operation of the object executed in response to the command signal, in response to the pressing pressure applied to the input means.
The method of claim 5, wherein
And a moving speed of the target executed in response to the command signal is determined corresponding to the speed of the drag.
The method of claim 5, wherein
The moving speed of the target executed in response to the command signal is
The electronic device driving method of claim 1, wherein the electronic device varies according to a time from when the pointer is stopped to the time when the pressing pressure is applied.
The method of claim 5, wherein
The moving speed of the target executed in response to the command signal is
And a method corresponding to the magnitude of the pressing pressure.
The method of claim 8,
The moving speed of the target executed in response to the command signal is
According to the magnitude of the pressing pressure, the electronic device driving method, characterized in that moving at at least two different speeds.
The method of claim 5, wherein
The pressing pressure is an electronic device driving method, characterized in that implemented by the switching operation.
The method of claim 5, wherein
The pressing pressure is an electronic device driving method, characterized in that implemented by a pressure sensor or a tactile sensor.
The method of claim 1,
And the step of performing a command signal on the object indicated by the pointer is performed only in one of the regions divided into the first region and the second region where the touch is made by the input means.
The method of claim 1,
The input means is an electronic device driving method comprising a touch screen or a touch pad.
In a driving method of an electronic device comprising an input means for inputting information by a touch and a screen display device on which a pointer is displayed by the touch,
Moving the pointer in a dragging direction when a dragging is made in an arbitrary direction at a point where a touch is made on the input means;
Stopping the movement of the pointer when the drag operation is stopped;
Performing a selection signal on a target indicated by the pointer when the state where the movement of the pointer has stopped is elapsed; And
When the touch on the pointer is released, executing a program corresponding to an object indicated by the pointer
Electronic device driving method comprising a.
15. The method of claim 14,
And when the touch on the pointer is released outside of the object indicated by the pointer, the program corresponding to the object indicated by the pointer is not executed.
15. The method of claim 14,
And the step of executing a program corresponding to the object indicated by the pointer is performed only in one of the regions divided into a first region and a second region where a touch is made by the input means.
In a driving method of an electronic device comprising an input means for inputting information by a touch and a screen display device on which a pointer is displayed by the touch,
Moving the pointer in a dragging direction when a dragging is made in an arbitrary direction at a point where a touch is made on the input means;
Stopping the movement of the pointer when the drag operation is stopped; And
Performing a selection signal on a target indicated by the pointer when the state where the movement of the pointer has stopped is elapsed;
Dragging an object indicated by the pointer when an additional drag operation is performed;
Stopping movement of the object indicated by the pointer when the additional drag operation stops; And
In response to the pressing pressure applied to the input means, moving the object indicated by the pointer on the screen in the additional dragging direction;
Electronic device driving method comprising a.
The method of claim 17,
And when a touch on the pointer is released, executing a program corresponding to an object indicated by the pointer.
The method of claim 17,
The moving speed of the object indicated by the pointer is determined corresponding to the speed of the drag.
The method of claim 17,
The moving speed of the object indicated by the pointer is
The electronic device driving method of claim 1, wherein the electronic device varies according to a time from when the pointer is stopped to the time when the pressing pressure is applied.
The method of claim 17,
The moving speed of the object indicated by the pointer is
And a method corresponding to the magnitude of the pressing pressure.
The method of claim 17,
The moving speed of the object indicated by the pointer is
According to the magnitude of the pressing pressure, the electronic device driving method, characterized in that moving at at least two different speeds.
The method of claim 17,
The performing of the selection signal on the object indicated by the pointer is performed only in one of the regions divided into the first region and the second region where the touch is made by the input means.
housing;
Input means having a first area and a second area to move the pointer of the screen display device by a touch and drag operation;
Direction detecting means for generating a pointer movement direction signal according to a direction dragged to the input means;
It is provided with a speed detecting means for detecting the magnitude of the external force applied to the input means for generating a movement speed change signal of the pointer,
At least one of the first region and the second region of the input means stops the movement of the pointer when the dragging operation stops, and when the state in which the movement of the pointer is stopped passes a predetermined time, the pointer The electronic device input device, characterized in that the command signal is carried out to the target indicated by or the pointer is moved.
25. The method of claim 24,
And the first region and the second region are outer regions disposed at an inner region and a boundary region of the inner region with respect to an arbitrary center point.
25. The method of claim 24,
The electronic device input device, characterized in that the first area and the second area are divided into different heights.
25. The method of claim 24,
The first region and the second region are electronic device input, characterized in that divided into a line-shaped projection disposed in the boundary area.
25. The method of claim 24,
And the command signal is a selection signal for an object indicated by the pointer or an execution signal of a program corresponding to the object.
The method of claim 24,
The movement speed of the pointer or the movement speed of the object selected by the command signal changes in response to the magnitude of the pressing pressure applied to the speed sensing means of the input means, or the movement of the pointer or the command signal when the pressing pressure occurs. Electronic device input device characterized in that the movement of the selected object is stopped by.

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