JP6508652B2 - Information terminal device - Google Patents

Description

  The present invention relates to an information terminal device provided with a handwriting input device.

  Among information terminal devices such as tablet terminals, those capable of pen input and touch input with a finger or the like are known. Such an information terminal device can be configured to prevent a touch input from being made when a pen input is performed. For example, in the information input processing device described in Patent Document 1, when the dedicated pen approaches the electromagnetic induction type tablet device, the touch input is invalidated.

JP-A-9-138730

  However, in the information input processing device of Patent Document 1, for example, if the hand holding the dedicated pen contacts the pressure-sensitive resistive film tablet device before the dedicated pen approaches the electromagnetic induction tablet device, the touch input is performed. Is done. In this case, there arises a problem that touch input unintended by the user is effectively accepted.

  In view of such problems, the present invention has an object to provide an information terminal device capable of suppressing touch input which is not intended by a user when input by a pen is performed.

  An information terminal device according to a main aspect of the present invention includes a first input receiving unit that receives a touch input through an input receiving surface, a second input receiving unit that receives an input by a writing instrument through the input receiving surface, and a horizontal surface A first sensor unit for detecting an inclination, and a control unit. The control unit acquires an inclination of the input acceptance surface with respect to the horizontal plane based on a detection signal of the first sensor unit, and the inclination of the input acceptance surface with respect to the horizontal plane is equal to or less than a predetermined threshold. 1 Disable the touch input to the input reception unit.

  When the user places the information terminal device on a desk etc. and uses it, input with a writing instrument is assumed, and whether the user places the information terminal device on a desk etc, the inclination with respect to the horizontal plane of the input acceptance surface is It can be determined by whether or not it is equal to or less than a predetermined threshold. According to the information terminal device of this aspect, the touch input is invalidated based on the fact that the inclination of the input acceptance surface with respect to the horizontal surface is equal to or less than the predetermined threshold. Therefore, when the user places the information terminal device on a desk or the like and inputs using the writing instrument, it is possible to suppress a touch input that the user does not intend, such as the hand holding the writing instrument touching the input receiving surface.

  In addition, when the user holds the information terminal device in hand and uses it, input by both the writing instrument and the touch is assumed, and whether or not the user holds the information terminal device in hand, It can be determined whether the inclination with respect to the horizontal plane is larger than a predetermined threshold. When the inclination of the input acceptance surface with respect to the horizontal plane is larger than a predetermined threshold value, the possibility that the hand holding the writing instrument contacts the input acceptance surface is low. According to the information terminal device of this aspect, when the inclination of the input acceptance surface with respect to the horizontal surface is larger than the predetermined threshold, the touch input is not invalidated. Therefore, when the user holds and uses the information terminal device, input by both the touch and the writing instrument becomes possible, and the convenience of the user is improved. Further, in this case, since the possibility of the user's hand touching the input receiving surface is low, touch input unintended by the user is avoided in advance from the usage form.

  In this case, the first sensor unit may be configured as an acceleration sensor. Then, the control unit can acquire the inclination of the input receiving surface with respect to the horizontal plane based on the detection signal of the acceleration sensor.

  Alternatively, in this case, the first sensor unit may be configured to include a gyro sensor and an acceleration sensor. Then, the control unit can acquire the inclination of the input receiving surface with respect to the horizontal plane based on the detection signal of the gyro sensor and the detection signal of the acceleration sensor. Further, the control unit can accurately acquire the inclination of the input acceptance surface with respect to the horizontal plane, as compared to the case where it is based only on the detection signal of the acceleration sensor.

  The information terminal device according to this aspect may be configured to include a display unit configured to display a threshold setting screen for setting the predetermined threshold. The control unit may be configured to store the predetermined threshold received via the threshold setting screen in a storage unit. In this case, the user can set a predetermined threshold via the setting screen, so that the user can set the level for disabling the touch input according to the usage form.

  In the information terminal device according to the present aspect, the input acceptance surface is configured to be different in length and width, and the information terminal device according to the aspect is a second sensor unit for detecting the orientation of the input acceptance surface. Furthermore, it can be set as the structure provided. The control unit determines whether the input acceptance surface is vertical or horizontal based on a detection signal of the second sensor unit, and the input acceptance surface is the vertical direction when the input acceptance surface is vertical. The touch input to the first input reception unit may not be invalidated even if the inclination of the surface with respect to the horizontal plane is equal to or less than the predetermined threshold. When the input acceptance surface is vertically oriented, the possibility that the hand holding the writing instrument contacts the input acceptance surface is low. According to the information terminal device of this aspect, the touch input is not invalidated when the input acceptance surface is vertical. Therefore, even when the user places the information terminal device on a desk etc. and inputs using the writing instrument, if the input acceptance surface is vertical, input using both the touch and the writing instrument becomes possible, thus improving the convenience of the user. Do. Further, in this case, since the possibility of the user's hand touching the input receiving surface is low, touch input unintended by the user is avoided in advance from the usage form.

  In this case, the second sensor unit may be configured as an acceleration sensor. Then, the control unit can determine the orientation of the input acceptance surface based on the detection signal of the acceleration sensor.

  In the information terminal device according to this aspect, the control unit is configured to invalidate the touch input to the first input receiving unit by not notifying the execution unit of the application of a signal from the first input receiving unit. It can be done. In this case, the touch input to the first input receiving unit can be smoothly disabled as compared with the case where the operation itself of the first input receiving unit is disabled to invalidate the touch input.

  In the information terminal device according to the present aspect, the writing instrument and the second input receiving unit may be configured by an electromagnetic digitizer. In this way, accepting an input by the writing instrument can be realized with a simple configuration.

  As described above, according to the present invention, it is possible to provide an information terminal device capable of suppressing an unintended touch input by the user when an input by a pen is performed.

  The effects and significances of the present invention will become more apparent from the description of the embodiments shown below. However, the embodiment shown below is merely an example when implementing the present invention, and the present invention is not limited to the one described in the following embodiment.

Fig.1 (a) is a front view of the information terminal device which concerns on Embodiment 1, FIG.1 (b) is a figure which shows the cross section of the information terminal device which concerns on Embodiment 1. FIG. FIGS. 2A and 2B are diagrams showing a part of the top surface of the information terminal device according to the first embodiment. FIG. 3 is a block diagram showing the configuration of the information terminal device according to the first embodiment. FIG. 4 is a flowchart illustrating processing when the touch pad according to the first embodiment detects a touch input. FIG. 5A is a flowchart showing processing for setting a threshold according to the first embodiment, and FIG. 5B is a view showing a configuration of a threshold setting screen according to the first embodiment. FIG. 6A is a view showing a state in which the angle of the input acceptance surface according to the first embodiment with respect to the horizontal plane is equal to or less than a threshold, and FIG. 6B is a diagram showing the angle of the input acceptance surface with the horizontal plane according to the first embodiment. It is a figure which shows the state larger than a threshold value. FIG. 7 is a flowchart illustrating processing when the touch pad according to the modification of the first embodiment detects a touch input. FIG. 8 is a flowchart illustrating processing when the touch pad according to the second embodiment detects a touch input. FIG. 9A is a view showing a state in which the input acceptance surface according to the second embodiment is vertically oriented, and the angle of the input acceptance surface with respect to the horizontal plane is equal to or less than a threshold; It is a figure which shows the state which the said input reception surface faces vertically, and the angle with respect to the horizontal surface of the input reception surface is larger than a threshold value. FIG. 10A is a view showing a state in which the input acceptance surface according to the second embodiment is horizontal and the angle of the input acceptance surface with respect to the horizontal plane is equal to or less than a threshold, and FIG. 10B relates to the second embodiment. It is a figure which shows the state which an input reception side faces sideways, and the angle with respect to the horizontal surface of an input reception surface is larger than a threshold value.

First Embodiment
In the first embodiment, the present invention is applied to a tablet terminal which is a kind of information terminal device. It is assumed that the information terminal device of Embodiment 1 is used for education. The present invention is not limited to tablet terminals, and may be applied to other types of information terminal devices such as mobile phones and notebook computers.

  Fig.1 (a) is a front view of the information terminal device 1, FIG.1 (b) is a figure which shows the cross section of the information terminal device 1, FIG.2 (a), (b) is an information terminal device It is a figure which shows a part of upper surface of 1. FIG. In FIG. 1A to FIG. 2B, XYZ axes orthogonal to one another are shown for convenience. The X-axis direction is the direction in which the short side of the input reception surface 31a described later extends, the Y-axis direction is the direction in which the long side of the input reception surface 31a extends, and the Z-axis direction is perpendicular to the input reception surface 31a It is a direction.

  As shown in FIGS. 1A and 1B, the information terminal device 1 includes a housing 10, a digitizer pen 20, and a touch panel 30. The housing 10 is provided with a housing portion 11 for housing the digitizer pen 20. At the tip 21 of the digitizer pen 20, a winding coil and a capacitor are disposed. The touch panel 30 has a configuration in which a cover 31, a liquid crystal display unit 32, a touch pad 33, and a digitizer sensor 34 are overlapped in the Z-axis direction.

  The cover 31 is transparent and covers the housing 10. The front side surface (surface on the Z axis positive side) of the cover 31 is a flat surface. Input to the touch pad 33 and the digitizer sensor 34 is performed via the input receiving surface 31 a of the cover 31. The input receiving surface 31 a is a rectangular surface located at the center of the front surface of the cover 31, and corresponds to an area where the input to the touch pad 33 and the digitizer sensor 34 can be received. The input acceptance surface 31a is configured to have different lengths in the vertical and horizontal directions.

  The liquid crystal display unit 32 includes a liquid crystal panel and an LED backlight for illuminating the liquid crystal panel, and displays various images.

  The touch pad 33 is transparent, is disposed on the display surface of the liquid crystal display unit 32, and receives an input by a finger or the like (hereinafter referred to as "touch input") through the input receiving surface 31a. The touch pad 33 is a capacitive touch pad. When the touch input is performed, the touch pad 33 detects the touch input based on the change in capacitance, and outputs a coordinate signal indicating the touched position and an area signal indicating the touched area. The coordinate signal and the area signal are transmitted to the control unit 70 described later by a hardware interrupt. When the touch pad 33 is a touch pad compatible with so-called multi-touch capable of simultaneously detecting a plurality of touches, the touch pad 33 outputs coordinate signals and area signals as described above by the number of touches.

  The digitizer sensor 34 is disposed below the display surface of the liquid crystal display unit 32, and receives an input from the digitizer pen 20 through the input receiving surface 31a. The digitizer sensor 34, together with the digitizer pen 20, constitutes an electromagnetic digitizer. In the digitizer sensor 34, a sensor coil is disposed at each coordinate position. The digitizer sensor 34 applies an alternating current to each sensor coil at a constant cycle.

  When the digitizer pen 20 approaches the digitizer sensor 34, an alternating current flowing in each sensor coil of the digitizer sensor 34 generates an induced electromotive force in the winding coil of the digitizer pen 20. In the digitizer pen 20, the induced electromotive force causes a current to flow in an LC resonant circuit composed of a winding coil and a capacitor. Thus, when current flows in the winding coil, an induced electromotive force is generated in the sensor coil near the digitizer pen 20 among the sensor coils on the digitizer sensor 34 side. The digitizer sensor 34 identifies the sensor coil in which the largest induced electromotive force has occurred, and outputs a coordinate signal indicating the coordinate position of the sensor coil.

  The digitizer pen 20 is configured such that when it is pressed against the input receiving surface 31 a, the winding coil disposed inside the digitizer pen 20 is contracted. When the digitizer pen 20 is pressed against the input receiving surface 31 a and the winding coil is contracted, the amount of current flowing through the sensor coil of the digitizer sensor 34 changes. The digitizer sensor 34 outputs a touch signal indicating that the digitizer pen 20 has touched in response to the change in the amount of current. When the digitizer pen 20 is separated from the input receiving surface 31a, the contraction of the winding coil is eliminated, so the amount of current flowing through the sensor coil of the digitizer sensor 34 changes. The digitizer sensor 34 outputs a separation signal indicating that the digitizer pen 20 has separated in response to the change in the amount of current.

  In addition, since it is assumed that the information terminal device 1 is utilized for educational purposes, it is assumed that the digitizer pen 20 is mainly used for an input. Therefore, touch input will be used supplementary. Specifically, when the user places the information terminal device 1 on a desk or the like and uses it, the input by the digitizer pen 20 is assumed, and the user holds the information terminal device 1 in use and uses it The input by both digitizer pen 20 and a touch is assumed to. Thus, the means used for input to the information terminal device 1 differs depending on the usage pattern of the user.

  As shown in FIGS. 2A and 2B, the touch switching switch 40 is disposed on the upper surface of the information terminal device 1 (the surface parallel to the XZ plane on the Y-axis negative side). The touch changeover switch 40 is a slide switch, and is configured to be movable in the X-axis direction by the user. The touch switching switch 40 receives an operation for enabling and disabling touch input on the touch pad 33. When the touch changeover switch 40 is moved in the negative direction of the X-axis and turned on as shown in FIG. 2A, the touch input to the touch pad 33 is effectively switched. On the other hand, when the touch changeover switch 40 is moved in the positive direction of the X-axis and turned off as shown in FIG. 2B, the touch input to the touch pad 33 is switched to ineffective.

  FIG. 3 is a block diagram showing the configuration of the information terminal device 1.

  As shown in FIGS. 1A to 2B, the information terminal device 1 includes a liquid crystal display unit 32, a touch pad 33, a digitizer sensor 34, a digitizer pen 20, and a touch changeover switch 40. Equipped with Further, the information terminal device 1 includes an acceleration sensor 50, a gyro sensor 60, and a control unit 70. The acceleration sensor 50, the gyro sensor 60, and the control unit 70 are housed in a housing 10 shown in FIG.

  The acceleration sensor 50 detects acceleration in three orthogonal axis directions (X, Y, and Z axis directions in FIG. 1A), and outputs acceleration in the three axial directions as a detection signal. The gyro sensor 60 detects angular velocities around three orthogonal axes (around the XYZ axes in FIG. 1A), and outputs angular velocities around the three axes as detection signals.

  The control unit 70 includes a CPU, and a storage unit 71 including a ROM, a RAM, a flash memory, and the like. The storage unit 71 stores various programs, a threshold value d0 to be described later, an angle of the input receiving surface 31a with respect to the horizontal plane, and a direction of the input receiving surface 31a. The control unit 70 receives a signal from each unit of the information terminal device 1, and controls each unit of the information terminal device 1 according to a program stored in the storage unit 71.

  The control unit 70 is provided with the functions of the handwritten application execution unit 72, the inclination acquisition unit 73, and the orientation determination unit 74 by the programs held in the storage unit 71.

  The handwriting application executing unit 72 activates and deactivates the handwriting application, and the handwriting function according to the coordinate signal and area signal output from the touch pad 33, and the coordinate signal, contact signal and separation signal output from the digitizer sensor 34. Run. The handwriting application includes a note application that can be superimposed on an arbitrary image displayed on the liquid crystal display unit 32 and handwritten.

  In the case of the note application, when the coordinate signal of the touch pad 33 is detected, drawing of a line on the image displayed on the liquid crystal display unit 32 is performed according to the coordinate signal and the area signal. When the coordinate signal of the touch pad 33 is not detected, the drawing of the line is ended. When the touch signal of the digitizer pen 20 is detected, drawing of a line on the image displayed on the liquid crystal display unit 32 is started according to the coordinate signal of the digitizer sensor 34. Thereafter, a line is drawn according to the coordinate signal output by the movement of the digitizer pen 20 until the separation signal of the digitizer pen 20 is detected. When the separation signal of the digitizer pen 20 is detected, the drawing of the line is ended. By executing the image storage process, an image such as a handwritten line or character is stored in the storage unit 71 together with the background image.

  The inclination acquisition unit 73 acquires the inclination (angle d) of the input reception surface 31 a with respect to the horizontal plane based on the detection signal of the acceleration sensor 50 and the detection signal of the gyro sensor 60. Specifically, based on the detection signal of the acceleration sensor 50, the inclination acquisition unit 73 sets the angle d stored in the storage unit 71 at the reference time point on the basis of the time when the gravity direction matches the Z-axis negative direction. Reset. The inclination acquisition unit 73 acquires, based on the detection signal of the gyro sensor 60, the rotation angles from the reference time point of the input reception surface 31a at constant intervals. Then, the inclination acquisition unit 73 acquires the current angle d by adding the acquired rotation angle to the angle d stored in the storage unit 71. The acquired angle d is stored in the storage unit 71. Thus, the angle stored in the storage unit 71 indicates the angle of the input receiving surface 31a with respect to the horizontal plane at the present time.

  Based on the detection signal of the acceleration sensor 50, the direction determination unit 74 determines whether the input reception surface 31a is in the vertical direction or in the horizontal direction. Specifically, the direction determination unit 74 acquires the direction of gravity based on the detection signal of the acceleration sensor 50, and determines the direction of the input reception surface 31a based on the acquired direction of gravity. For example, when the angle of the short side of the input acceptance surface 31a with respect to the direction of gravity is larger than the angle of the long side of the input acceptance surface 31a with respect to the direction of gravity, the input acceptance surface 31a is determined to be vertically oriented. Conversely, when the angle of the short side of the input acceptance surface 31a with respect to the direction of gravity is smaller than the angle of the long side of the input acceptance surface 31a with respect to the direction of gravity, the input acceptance surface 31a is determined to be horizontal. The orientation determination unit 74 determines the orientation of the input reception surface 31 a at regular intervals, and stores the determination result in the storage unit 71. Thus, the direction stored in the storage unit 71 indicates the direction of the input reception surface 31a at the present time.

  FIG. 4 is a flowchart showing processing when the touch pad 33 detects a touch input. The process in FIG. 4 is started when the touch pad 33 detects a touch input and the control unit 70 receives the coordinate signal and the area signal output from the touch pad 33.

  When receiving the coordinate signal and the area signal from the touch pad 33, the control unit 70 determines whether the touch switching switch 40 is on (S11). When the touch switch 40 is off (S11: NO), the process shown in FIG. 4 ends without performing the process of S13 described later. As described above, since the touch input is always invalidated when the touch switch 40 is off, only the input performed by the digitizer pen 20 is valid.

  If the touch switch 40 is on (S11: YES), the control unit 70 determines whether the angle d of the input receiving surface 31a with respect to the horizontal plane is larger than a predetermined threshold value d0 (S12). As described above, the angle d is continuously updated by the inclination acquisition unit 73 and stored in the storage unit 71. The threshold value d0 is stored in advance in the storage unit 71 as a value for determining whether or not the user's hand holding the digitizer pen 20 contacts the input acceptance surface 31a when the user performs input using the digitizer pen 20. It is done. The threshold value d0 is set to, for example, 60 degrees as an initial value. As described later, the threshold value d0 can be set via the threshold value setting screen 80.

  If the angle d of the input acceptance surface 31a with respect to the horizontal plane is less than or equal to the threshold value d0 (S12: NO), the control unit 70 ends the process without executing the process of S13. In this case, the control unit 70 does not notify the handwriting application execution unit 72 as a touch event of the coordinate signal and the area signal received from the touch pad 33. That is, the touch input performed by the user on the touch pad 33 is invalidated. If the angle d is equal to or smaller than the threshold value d0, the user's hand holding the digitizer pen 20 is likely to touch the input receiving surface 31a. Therefore, by the touch input being invalidated, unintended touch input is suppressed.

  On the other hand, when the angle d of the input acceptance surface 31a with respect to the horizontal plane is larger than the threshold value d0 (S12: YES), the control unit 70 sends the coordinate application and the area signal received from the touch pad 33 to the handwritten application execution unit 72 as a touch event. It notifies (S13). Thereby, the handwriting application execution unit 72 executes the handwriting function according to the coordinate signal and the area signal output from the touch pad 33. When the angle d is larger than the threshold value d0, the user's hand holding the digitizer pen 20 is unlikely to touch the input receiving surface 31a. Therefore, even if touch input is enabled, the possibility of unintended touch input is low.

  FIG. 5A is a flowchart showing a process for setting the threshold value d0.

  The control unit 70 determines whether or not an instruction for displaying the threshold setting screen 80 shown in FIG. 5B has been issued by the user (S21). When an instruction to display the threshold setting screen 80 is issued (S21: YES), the control unit 70 causes the liquid crystal display unit 32 to display the threshold setting screen 80 (S22).

  FIG. 5B is a diagram showing the configuration of the threshold setting screen 80. As shown in FIG. The threshold setting screen 80 includes a threshold input area 81, an angle acquisition button 82, an OK button 83, and a cancel button 84. The user selects the threshold value input area 81, and inputs a value to be set as the threshold value d0 into the threshold value input area 81 using a software keyboard or the like. The user can also input the angle d of the current input acceptance surface 31 a with respect to the horizontal plane into the threshold value input area 81 by pressing the angle acquisition button 82. The user presses the OK button 83 when setting the value input in the threshold value input area 81 as the threshold value d0, and presses the cancel button 84 when the threshold value d0 is not set.

  Referring back to FIG. 5A, when the user presses the OK button 83 (S23: YES), the control unit 70 stores the value input to the threshold value input area 81 as the threshold value d0 in the storage unit 71 (S24) , The threshold setting screen 80 is closed. On the other hand, when the user presses the cancel button 84 (S23: NO), the control unit 70 discards the value input to the threshold value input area 81 and closes the threshold value setting screen 80.

<Effect of Embodiment 1>
As described above, according to Embodiment 1, the following effects are achieved.

  When the user places the information terminal device 1 on a desk or the like and uses it, an input by the digitizer pen 20 is assumed. According to the first embodiment, when the user places the information terminal 1 on a desk or the like and performs input with the digitizer pen 20, even when the touch switch 40 is on, the user's hand holding the digitizer pen 20 inputs Unintended touch input for the user, such as touching the reception surface 31a, can be suppressed.

  FIG. 6A shows a state in which the angle d of the input receiving surface 31a with respect to the horizontal plane is equal to or less than the threshold value d0. When the angle d is equal to or less than the threshold value d0, it is assumed that the user places the information terminal device 1 on a desk or the like and uses it. In this case, the user's hand holding the digitizer pen 20 easily contacts the input receiving surface 31a. In FIG. 6A, a portion surrounded by an ellipse shows a portion of the input reception surface 31a in contact with the user's hand. However, in this case, according to the process shown in FIG. 4, even when the touch switch 40 is on, the touch input is invalidated. Thereby, it is possible to suppress an unintended touch input for the user.

  Further, when the user holds the information terminal device 1 and uses it, input by both the digitizer pen 20 and the touch is assumed. According to the first embodiment, when the user holds the information terminal device 1 and uses it, input can be made by both the digitizer pen 20 and the touch, which improves the convenience of the user.

  FIG. 6B is a diagram showing a state in which the angle d of the input receiving surface 31a with respect to the horizontal plane is larger than the threshold value d0. If the angle d is larger than the threshold value d0, it is assumed that the user holds the information terminal device 1 and uses it. In this case, the user's hand holding the digitizer pen 20 does not easily touch the input receiving surface 31a. In this case, according to the process shown in FIG. 4, when the touch switch 40 is on, the touch input is not invalidated. As a result, input by both the digitizer pen 20 and the touch becomes possible, and the convenience of the user is improved. Further, in this case, since the possibility of the user's hand touching the input receiving surface 31a is low, touch input which is not intended by the user is avoided in advance from the use form.

  When the user wants to suppress an unintended touch input, the touch input can be invalidated by turning off the touch switch 40 in advance. However, if the digitizer pen 20 performs an input without forgetting to invalidate the touch input, there is a possibility that an unintended touch input may occur. Even in this case, according to the process shown in FIG. 4, it is possible to suppress unintended touch input. In addition, when the user wants to immediately start the input by the digitizer pen 20, the user may omit the operation of turning off the touch changeover switch 40. Even in this case, according to the process shown in FIG. 4, unintended touch input is suppressed. Therefore, even when the touch changeover switch 40 is on, the operation of turning off the touch changeover switch 40 can be omitted, and the input by the digitizer pen 20 can be started immediately.

  Further, since the user can set the value of the threshold value d0 via the threshold setting screen 80, the user can set the level for disabling the touch input according to the usage form. That is, when the user places the information terminal device 1 on a desk or the like, or when the user holds the information terminal device 1 in use, the angle d of the input acceptance surface 31 a with respect to the horizontal plane is Depends on According to the first embodiment, it is possible to set the level at which the touch input is invalidated in accordance with the user's usage pattern.

  In addition, the control unit 70 invalidates the touch input to the touch pad 33 by not notifying the signal from the touch pad 33 to the handwritten application execution unit 72. Thereby, the touch input to the touch pad 33 can be smoothly invalidated. That is, in the case where the operation of the touch pad 33 is invalidated to invalidate the touch input, it is difficult to quickly switch between valid and invalid of the touch input. Also, in this case, when the switching between the valid and invalid states of the touch input is continuously performed, the touch pad 33 is likely to be in an abnormal state. However, as in the first embodiment, when the signal from the touch pad 33 is not notified to the handwritten application execution unit 72 in order to invalidate the touch input, the touch on the touch pad 33 is compared with the above case. You can disable input smoothly.

  The digitizer pen 20 and the digitizer sensor 34 constitute an electromagnetic digitizer. When the digitizer pen 20 and the digitizer sensor 34 are configured as described above, it is possible to receive an input from the digitizer pen 20 with a simple configuration.

<Example of Modification of Embodiment 1>
In the first embodiment, when the angle d of the input receiving surface 31 a with respect to the horizontal plane is equal to or less than the threshold value d0, all touch input is invalidated. However, by separately providing a unit that enables touch input, even if the angle d is equal to or less than the threshold value d0, touch input may be enabled.

  FIG. 7 is a flowchart showing processing in the case where the touch pad 33 in the present modified example detects a touch input. In the process of FIG. 7, processes of S14 to S16 are added to the process of FIG. 4 after S11. The other controls and configurations are the same as in the first embodiment. Hereinafter, points different from the first embodiment will be described.

  If the touch switching switch 40 is on (S11: YES), the control unit 70 determines whether the touch input is a switching operation of the forced touch input flag (S14). The switching operation is a touch input to a place (for example, a corner of the input reception surface 31a) where the possibility of being erroneously touched when the input by the digitizer pen 20 is normally performed is low. When the touch input is a switching operation of the forced touch input flag (S14: YES), the control unit 70 switches the forced touch input flag (S15). Specifically, the control unit 70 sets the forced touch input flag to off if the forced touch input flag is on, and turns on if the forced touch input flag is off. The forced touch input flag is stored in the storage unit 71, and a value (for example, 0) corresponding to off and a value (for example, 1) corresponding to on are set. The forced touch input flag is set to OFF in advance when the information terminal device 1 is activated.

  If the touch input is not the switching operation of the forced touch input flag (S14: NO), the control unit 70 determines whether the forced touch input flag is on (S16). When the forcible touch input flag is on (S16: YES), the control unit 70 does not make the determination based on the angle d, and uses the coordinate signal and the area signal received from the touch pad 33 as a touch event. 72 is notified (S13). On the other hand, when the forced touch input flag is off (S16: NO), the control unit 70 performs the determination based on the angle d of the input acceptance surface 31a with respect to the horizontal plane in S12.

  As described above, when the forcible touch input flag is used, even when the angle d is equal to or less than the threshold value d0, the touch input can be performed. For example, when the user wants to perform touch input while using the information terminal device 1 on a desk or the like, the user turns on the forced touch input flag by the switching operation. In this case, since the touch input is enabled regardless of the angle d, the user can perform the touch input in addition to the input by the digitizer pen 20.

  In the present modification, switching of the forced touch input flag is performed when the touch input is performed on a predetermined place. However, the present invention is not limited to this, and when the digitizer pen 20 performs an input at a place where the input by the digitizer pen 20 is normally difficult to perform (for example, a corner of the input reception surface 31a), the forced touch input flag is switched. It may be done. Further, when the switching instruction is input based on the menu displayed on the liquid crystal display unit 32 by the digitizer pen 20 and the touch input, the forced touch input flag may be switched.

Second Embodiment
In the first embodiment, when the angle d of the input receiving surface 31 a with respect to the horizontal plane is equal to or less than the threshold value d0, all touch input is invalidated. However, even if the angle d is equal to or less than the threshold value d0, touch input may be enabled under a predetermined condition.

  FIG. 8 is a flowchart illustrating processing when the touch pad 33 according to the second embodiment detects a touch input. The process of FIG. 8 is the process of FIG. 4 to which the process of S21 is added between S11 and S12. The other controls and configurations are the same as in the first embodiment. Hereinafter, points different from the first embodiment will be described.

  When the touch switching switch 40 is on (S11: YES), the control unit 70 determines whether the input receiving surface 31a is in the vertical direction (S21). As described above, the orientation of the input reception surface 31 a is acquired by the inclination acquisition unit 73 at regular intervals, and stored in the storage unit 71.

  If the input reception surface 31a is vertically oriented (S21: YES), the control unit 70 does not make the determination based on the angle d, and uses the coordinate signal and the area signal received from the touch pad 33 as a touch event as a handwriting application The execution unit 72 is notified (S13). Thereby, the touch input is effective regardless of the angle d with respect to the horizontal plane of the input reception surface 31a. If the input acceptance surface 31a is vertically oriented, the user's hand holding the digitizer pen 20 is less likely to touch the input acceptance surface 31a. Therefore, even if touch input is enabled, the possibility of unintended touch input is low. On the other hand, when the input acceptance surface 31a is horizontal (S21: NO), the control unit 70 performs the determination based on the angle d of the input acceptance surface 31a with respect to the horizontal plane in S12.

<Effect of Embodiment 2>
As described above, according to the second embodiment, the following effects are achieved.

  When the input acceptance surface 31a is vertically oriented, touch input is not invalidated unlike the first embodiment, even if the angle d of the input acceptance surface 31a with respect to the horizontal plane is equal to or less than the threshold value d0. Thereby, even when the user places the information terminal device 1 on a desk or the like, if the input reception surface 31a is vertically oriented, input by both the digitizer pen 20 and the touch becomes possible. Convenience is improved.

  FIG. 9A is a diagram showing a state in which the input receiving surface 31a is vertically oriented and the angle d is equal to or less than the threshold value d0. As described with reference to FIG. 6A, when the angle d is small, the user's hand holding the digitizer pen 20 easily contacts the input receiving surface 31a. However, when the input acceptance surface 31 a is vertically oriented, the user's hand holding the digitizer pen 20 is positioned with respect to the digitizer pen 20 in the direction in which the short side of the input acceptance surface 31 a extends. For this reason, the user's hand holding the digitizer pen 20 does not easily touch the input receiving surface 31 a. In the case of the state of FIG. 9A, according to the process shown in FIG. 8, when the touch switch 40 is on, the touch input is not invalidated. Therefore, since input by both digitizer pen 20 and touch becomes possible, the convenience of the user is improved. In addition, since the possibility of the user's hand touching the input receiving surface 31a is low, touch input which is not intended by the user is avoided from the usage form.

  FIG. 9B is a diagram showing a state in which the input receiving surface 31a is vertically oriented and the angle d is larger than the threshold value d0. In this case, as described with reference to FIG. 6B, when the angle d is large, the user's hand holding the digitizer pen 20 does not easily touch the input receiving surface 31a. In addition, since the input receiving surface 31a is vertically oriented, the user's hand holding the digitizer pen 20 does not easily touch the input receiving surface 31a. In the case of the state shown in FIG. 9B, according to the process shown in FIG. 8, the touch input is not invalidated when the touch switch 40 is on. Therefore, the convenience of the user is improved, and unintended touch input is avoided in advance from the usage form.

  FIG. 10A is a diagram showing a state in which the input receiving surface 31a is in the horizontal direction and the angle d is equal to or less than the threshold value d0. As described with reference to FIG. 6A, when the angle d is small, the user's hand holding the digitizer pen 20 easily contacts the input receiving surface 31a. Furthermore, when the input acceptance surface 31 a is in the horizontal direction, the user's hand holding the digitizer pen 20 is positioned with respect to the digitizer pen 20 in the direction in which the long side of the input acceptance surface 31 a extends. For this reason, the user's hand holding the digitizer pen 20 easily contacts the input receiving surface 31 a. In FIG. 10A, a portion surrounded by an ellipse shows a portion of the input reception surface 31a in contact with the user's hand. However, in the case of the state of FIG. 10A, according to the process shown in FIG. 8, even when the touch switch 40 is on, the touch input is invalidated. Thus, it is possible to suppress an unintended touch input for the user.

  FIG. 10B is a diagram showing a state in which the input receiving surface 31a is in the horizontal direction and the angle d is larger than the threshold value d0. Also in this case, the user's hand holding the digitizer pen 20 is likely to touch the input receiving surface 31a because the input receiving surface 31a is landscape. However, as described with reference to FIG. 6B, when the angle d is large, it is difficult for the user's hand holding the digitizer pen 20 to touch the input receiving surface 31a. In the case of the state shown in FIG. 10 (b), according to the process shown in FIG. 8, when the touch switch 40 is on, the touch input is not invalidated. Therefore, the convenience of the user is improved, and unintended touch input is avoided in advance from the usage form.

  Although the process of S21 for determining whether or not the input acceptance surface 31a is vertical is performed between the processes of S11 and S12, the process of S21 is determined as NO in the process of S12. It may be done later. In this case, the process proceeds to S13 if determined as YES in S21, and the process of S13 is skipped if determined as NO in S21.

  As mentioned above, although embodiment of this invention was described, this invention is not restrict | limited at all to the said embodiment.

  For example, in the above embodiment, the input using the pen is performed by the electromagnetic digitizer pen 20 and the digitizer sensor 34, but may be performed by another type of handwriting input device. Further, in the above embodiment, the touch pad 33 is a capacitive touch pad, but may be a touch pad of another type such as a pressure sensitive type or a light detection type.

  In the above embodiment, when the touch pad 33 detects a touch input, the coordinate signal and the area signal are transmitted from the touch pad 33 to the control unit 70 by a hardware interrupt. However, the present invention is not limited to this, and the coordinate signal and the area signal may be transmitted from the touch pad 33 to the control unit 70 by the control unit 70 making an inquiry to the touch pad 33 at a constant interval.

  Further, in the above-described embodiment, the inclination acquisition unit 73 acquires the angle of the input reception surface 31a with respect to the horizontal plane, but may acquire the angle of the input reception surface 31a with respect to the gravity direction. In this case, it is determined in S12 of FIGS. 4, 7 and 8 whether or not the angle of the input receiving surface 31a with respect to the gravity direction is smaller than the threshold value d0.

  In the above embodiment, the inclination acquisition unit 73 acquires the angle d of the input reception surface 31a with respect to the horizontal plane based on the detection signal of the acceleration sensor 50 and the detection signal of the gyro sensor 60, but only the detection signal of the acceleration sensor 50. The angle d may be obtained based on. In addition, using detection signals of both the acceleration sensor 50 and the gyro sensor 60 may make it possible to obtain the angle d more accurately than in the case where only the detection signal of the acceleration sensor 50 is used. In such a case, it is desirable that the inclination acquisition unit 73 use detection signals of both the acceleration sensor 50 and the gyro sensor 60 as in the above embodiment.

  In the above embodiment, the control unit 70 invalidates the touch input to the touch pad 33 by not notifying the coordinate application and the area signal received from the touch pad 33 to the handwritten application executing unit 72 as a touch event. However, the control unit 70 may invalidate the touch input to the touch pad 33 by disabling the operation of the touch pad 33. However, in this case, as described above, there is a possibility that the touch input to the touch pad 33 can not be invalidated smoothly, so it is desirable that the touch input to the touch pad 33 be invalidated as in the above embodiment.

  In the second embodiment, the control unit 70 determines the direction based on the direction of the input reception surface 31a stored in the storage unit 71 in S21 of FIG. The determination of the direction may be performed based on the detection signal of the acceleration sensor 50 without using the direction.

  Further, in the above-described embodiment, the touch input to the touch pad 33 is switched to be valid and invalid by the touch switching switch 40, but the touch switching switch 40 may be omitted. In this case, the process of S11 of FIGS. 4, 7 and 8 is omitted. Even when the touch switching switch 40 is omitted, if the control is performed as described above, the touch input is invalidated according to the angle and the direction of the input reception surface 31a, and thus unintended touch input can be suppressed.

  In addition to the above, the embodiment of the present invention can be variously modified as appropriate within the scope of the technical idea shown in the claims.

1 information terminal device 20 digitizer pen (writing instrument)
31a input acceptance surface 32 liquid crystal display (display)
33 Touch pad (1st input acceptance unit)
34 Digitizer Sensor (2nd Input Reception Unit)
50 acceleration sensor (first sensor, second sensor)
60 Gyro Sensor (1st Sensor Section)
70 control unit 71 storage unit 72 handwriting application execution unit (execution unit)
73 Slope acquisition unit (control unit)
74 Direction determination unit (control unit)
80 threshold setting screen

Claims (8)

A first input receiving unit that receives a touch input via the input receiving surface;
A second input receiving unit that receives an input by a writing instrument through the input receiving surface;
A first sensor unit for detecting an inclination with respect to a horizontal plane;
And a control unit,
The control unit
The inclination of the input acceptance surface with respect to the horizontal plane is acquired based on the detection signal of the first sensor unit,
Invalidating the touch input to the first input reception unit based on the inclination of the input reception surface with respect to the horizontal surface being equal to or less than a predetermined threshold value;
An information terminal device characterized by In the information terminal device according to claim 1,
The first sensor unit comprises an acceleration sensor.
An information terminal device characterized by In the information terminal device according to claim 1,
The first sensor unit comprises a gyro sensor and an acceleration sensor.
An information terminal device characterized by The information terminal device according to any one of claims 1 to 3.
A display unit configured to display a threshold setting screen for setting the predetermined threshold;
The control unit causes the storage unit to store the predetermined threshold received through the threshold setting screen.
An information terminal device characterized by The information terminal device according to any one of claims 1 to 4.
The input acceptance surface is configured to be different in length and width.
It further comprises a second sensor unit for detecting the orientation of the input acceptance surface,
The control unit
It is determined based on the detection signal of the second sensor unit whether the input acceptance surface is in the vertical orientation or in the horizontal orientation.
When the input acceptance surface is vertically oriented, the touch input to the first input acceptance unit is not invalidated even if the inclination of the input acceptance surface with respect to the horizontal plane is equal to or less than the predetermined threshold.
An information terminal device characterized by In the information terminal device according to claim 5,
The second sensor unit comprises an acceleration sensor.
An information terminal device characterized by In the information terminal device according to any one of claims 1 to 6,
The control unit invalidates the touch input to the first input reception unit by not notifying the execution unit of the application of a signal from the first input reception unit.
An information terminal device characterized by In the information terminal device according to any one of claims 1 to 7,
The writing instrument and the second input receiving unit constitute an electromagnetic digitizer.
An information terminal device characterized by

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