JP2006079238A - Touch panel device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a "touch panel device" for making an operator sensuously recognize a touch position by changing a feeling of click by suppressing the oscillation amount or oscillation interval or oscillation frequency of an oscillator according to the touch position of a touch panel surface. <P>SOLUTION: In this touch panel device for inputting data by tracing a touch panel surface, a touch position detecting part 13 detects a touch position on the touch panel, and an oscillation control part 14 oscillates a touch panel 11b by oscillating an oscillating element 11c with an oscillation frequency or oscillation interval or oscillation strength corresponding to the touch position. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a touch panel device, and more particularly to a touch panel device capable of performing blind touch input of setting data when setting data by tracing a touch panel surface.

The touch panel device is configured by laminating a transparent touch panel on a display surface such as a liquid crystal, and desired data can be input by touching a soft key displayed on the touch panel surface with a finger or a pen.
The touch panel device can also input data continuously by tracing the touch panel surface. FIG. 8 is an explanatory diagram of a conventional technique (see, for example, Patent Document 1 and Patent Document 2) for setting a graphic equalizer curve of an audio device by tracing the touch panel surface. When the equalizer curve setting screen EQIM is displayed on the touch panel and the touch panel is traced with a finger or the like, it is assumed that the gain indicated by the intersection of the traced curve EQC and each band frequency axis F0 to F6 is set. The image S is moved and displayed.

The conventional touch panel device has no feeling of input operation when touched. For this reason, a touch panel having a click feeling, that is, a data input operation feeling has been proposed (see, for example, Patent Document 3). Such a vibration type touch panel device displays various soft keys SK1 to SK3 on the touch panel surface TP as shown in FIG. 9, and when a predetermined soft key is touched, the piezoelectric element PD is driven to vibrate the touch panel. Generates a click feeling. Also, as shown in FIG. 10, when the audio mode screen is displayed on the touch panel TP and the touch panel surface TPS is touched with a finger or a pen to adjust balance / fade, and the left and right or up and down, the finger moves on the touch panel surface. Whenever it moves, the piezoelectric element PD is driven to vibrate the touch panel to generate an input operation feeling. The left / right volume ratio is controlled by the position of the touch panel surface TPS in the left / right direction, and the front / rear volume ratio is controlled by the position in the up / down direction.
JP-A-11-112254 JP 2004-7245 A JP 2003-122507 A

In a conventional vibration type touch panel device, when data is input by tracing the touch panel surface, the touch panel surface vibrates each time the finger moves to generate a click feeling, but the vibration is constant and the click feeling (pulse touch) (Feedback) is monotonous and lacks realism. Further, since the vibration is constant regardless of the touch position on the touch panel surface, it is difficult to perform a blind touch, and it is necessary to set data while viewing the display screen. That is, setting the volume adjustment, equalizer setting, and delay time of each speaker by tracing the touch panel surface is difficult unless the setting screen is viewed, and blind touch is impossible.
From the above, the object of the present invention is to control the vibration amount, vibration frequency, or vibration interval of the vibrator according to the touch position on the touch panel surface to change the click feeling so that the operator can recognize the touch position sensuously. That is.
Another object of the present invention is to enable setting and adjustment of data such as volume and equalization curve by blind touch.
Another object of the present invention is to select and move an image displayed on the touch panel surface, and move by changing the click feeling by controlling the vibration interval, vibration frequency or vibration intensity of the vibrator according to the image moving distance. It is to enable the operator to recognize the distance sensuously.
Another object of the present invention is to make it possible to set the delay time of each vehicle-mounted speaker by blind touch.

According to the present invention, the above object is achieved by the first and second touch panel devices that input data by tracing the touch panel surface.
The first touch panel device includes a vibration element that vibrates the touch panel, a touch position detection unit that detects a touch position on the touch panel surface, and vibration control that vibrates the vibration element at a vibration frequency, vibration interval, or vibration strength according to the touch position. Department.
In the first touch panel device, the vibration control unit controls any one of a vibration frequency, a vibration cycle, and a vibration intensity according to a touch position on the touch panel surface in the vertical direction or the horizontal direction, and the volume setting unit is set at the touch position. Set the volume based on.
In the first touch panel device, the vibration control unit controls any one of a vibration frequency, a vibration interval, and a vibration intensity according to the touch position in the vertical direction, and the vibration frequency and vibration according to the touch position in the horizontal direction. Another one of the interval and the vibration intensity is controlled, and the equalizer curve setting unit sets a gain in a predetermined frequency band based on the touch position.

The second touch panel device includes a vibration element that vibrates the touch panel, a display control unit that moves and displays an image displayed on the touch panel surface, a distance calculation unit that calculates a moving distance of the image, a vibration frequency according to the image moving distance, or A vibration control unit is provided that vibrates the vibration element at a vibration interval or vibration intensity.
The display control unit displays an image of a speaker in the vehicle interior on the touch panel surface, and moves and displays a predetermined speaker image. The vibration control unit sets a vibration frequency, a vibration interval, or a vibration intensity according to the moving distance of the speaker image. In addition to the control, the delay time setting unit sets the delay time of the audio signal input to the speaker based on the image moving distance.

According to the present invention, it is possible to control the vibration amount, vibration frequency, or vibration interval of the vibrator according to the touch position on the touch panel surface to change the click feeling so that the operator can sensibly recognize the touch position. This makes it possible to set and adjust the volume and equalization curve by blind touch.
According to the present invention, the image displayed on the touch panel surface is moved and displayed, and the image moving distance is manipulated by changing the click feeling by controlling the vibration frequency, vibration interval or vibration intensity of the vibrator according to the image moving distance. This makes it possible for a person to perceive sensibly, and this makes it possible to set the delay time of each on-vehicle speaker by blind touch.

1A and 1B are schematic explanatory diagrams of a first touch panel device that inputs data by tracing the touch panel surface, and detects a touch position on the touch panel surface TP of a pointer PNT such as a finger or a pen, The touch panel surface is vibrated at a vibration frequency, vibration interval, or vibration intensity corresponding to the touch position. The vibration interval is an interval between vibrations when intermittently vibrating.
In FIG. 1A, a volume adjustment screen is displayed, and the vibration intensity of the touch panel surface is controlled according to the touch position in the vertical direction of the touch panel surface TP (vibration frequency and vibration interval are constant). Set the volume. That is, the volume adjustment amount is set in the vertical direction, and the vibration is reduced because the adjustment amount is small at the bottom of the volume adjustment screen, and the vibration is increased because the adjustment amount is large at the top. In this way, when the touch panel surface is traced upward from the bottom of the screen by blind touch, vibration gradually increases and the volume increases. Further, when tracing from the top to the bottom, the vibration gradually decreases and the volume decreases. That is, since there is a correlation between the magnitude of vibration and the volume adjustment amount, the volume can be adjusted by blind touch.
It is also possible to configure the volume adjustment amount in the horizontal direction instead of the up / down direction, to decrease the adjustment amount by decreasing the adjustment amount to the left of the volume adjustment screen, and to increase the adjustment amount by increasing the adjustment amount to the right. it can. Further, instead of controlling the vibration intensity, the vibration frequency or vibration interval can be controlled.

  In FIG. 1 (B), an equalizer curve setting screen is displayed, and the vibration intensity and vibration frequency (or vibration interval) of the touch panel surface are controlled according to the two-dimensional touch position of the touch panel surface TP, and the touch position is displayed. Set equalizer curve based on. That is, the vertical direction is gain, the lower the setting screen, the smaller the gain is, and the smaller the vibration is. Also, the horizontal direction is the band frequency, the left side is the lower band frequency, so the vibration frequency is reduced (or the vibration interval is increased), and the right side is the higher band frequency, the vibration frequency is increased (or the vibration interval is reduced). . In this way, the gain increases as the vibration increases, the band frequency increases as the vibration frequency increases, and there is a correlation between the magnitude of the vibration and the gain, and the vibration frequency (vibration interval) and the band. Since there is also a correlation with the frequency, the equalizer curve can be set by blind touch.

FIG. 2 is a schematic explanatory diagram of a second touch panel device that inputs data by tracing the touch panel surface. The image displayed on the touch panel surface is moved by a dragging operation with a pointer PNT such as a finger or a pen. The touch panel surface is vibrated at a vibration frequency, vibration interval or vibration strength according to the frequency.
For example, when images SP _{FL to} SP _RR of speakers in the vehicle interior are displayed and the delay time of the audio signal input to each speaker is set, a predetermined speaker image is selected and moved by the pointer PNT. The delay time is increased as the image moving distance from the reference position (initial speaker position) to the touch position increases. Further, the length of the vibration interval is controlled according to the moving distance. For example, since the delay time becomes longer as the moving distance from the reference position becomes longer, the vibration interval of the touch panel is made longer. In this way, since there is a correlation between the vibration interval and the delay time, the delay time can be adjusted by blind touch.

FIG. 3 is a configuration diagram of the touch panel device when setting a volume. The touch panel device 11 has a configuration in which a transparent touch panel 11b is laminated on a liquid crystal display device 11a, and a vibration unit 11c for vibrating the touch panel 11b is provided. In addition, the vibration part 11c is comprised by the piezoelectric element etc., and the structure is known, For example, please refer to patent document 3, although it is not explained in full detail here.
When the user instructs volume setting, the input / output control unit 12 displays a volume setting screen on the touch panel 11b. In this state, in order to increase the volume, the screen is traced from the bottom to the top with the pointer PNT. The touch position / movement direction detection unit 13 detects the vertical touch position Y of the pointer PNT and the movement direction D of the pointer and inputs them to the input / output control unit 12 and the vibration frequency / vibration intensity control unit 14.
The input / output control unit 12 obtains the volume adjustment value VOL based on the touch position Y and the moving direction D of the pointer, and inputs the volume adjustment value VOL to the audio circuit 15, and the audio circuit 15 controls the volume based on the volume adjustment value VOL. It should be noted that the lower the volume adjustment screen VSCR, the smaller the adjustment amount, and the higher the adjustment amount. Also, the volume is increased when the touch panel surface is traced from the bottom to the top, and the volume is decreased when the touch panel surface is traced from the top to the bottom.

The position-vibration intensity table 16 stores the correspondence between the touch position and the vibration intensity. That is, the correspondence between the touch position and the vibration intensity is stored such that the lower the volume adjustment screen VSCR, the smaller the vibration and the higher the vibration adjustment screen VSCR. The vibration frequency / vibration intensity control unit 14 obtains the vibration intensity corresponding to the touch position Y from the position-vibration intensity table 16, generates a vibrator drive signal corresponding to the vibration intensity, and drives the vibration part actuator 17. Controls the vibration amplitude of the vibration part. The vibration frequency and vibration interval are constant. As a result, when the touch panel surface is traced from the bottom to the top on the volume adjustment screen VSCR, the volume increases gradually while the vibration of the touch panel surface gradually increases. Conversely, when tracing from the top to the bottom, the volume gradually decreases while the vibration gradually decreases.
As described above, according to the first embodiment, a correlation can be generated between the magnitude of the vibration and the volume adjustment amount, and thus the volume can be adjusted by blind touch.
In the above description, the vibration frequency and the vibration interval are made constant, and the vibration amplitude is controlled according to the touch position. However, any one of the vibration frequency, the vibration interval, and the vibration amplitude is controlled according to the touch position. You can also.

FIG. 4 is a configuration diagram of the touch panel device in the case where an equalizer curve is set. The same parts as those in FIG.
When the user instructs setting of the equalizer curve, the input / output control unit 12 displays an equalizer curve setting screen EQSCR on the touch panel 11. In this state, in order to set the equalizer curve, the setting screen is traced according to the desired equalizer curve with the pointer PNT. The two-dimensional touch position detection unit 21 detects the horizontal and vertical touch positions (X, Y) of the pointer PNT and inputs them to the input / output control unit 12 and the vibration frequency / vibration intensity control unit 14.
The input / output control unit 12 obtains a gain (equalizer curve) of each band frequency based on the touch position (X, Y) that is continuously input, and inputs the gain to the audio circuit 15. The audio circuit 15 controls the sound quality by setting the gain of each band frequency, that is, the equalizer curve to the graphic equalizer. It is assumed that the vertical direction of the equalizer curve setting screen EQSCR is a gain, the gain is smaller at the lower part of the setting screen and larger at the upper part. Further, it is assumed that the horizontal direction is the band frequency, the band frequency is lower toward the left and the band frequency is higher toward the right.

The position-vibration intensity table 22 stores the correspondence (Y-Vd) between the vertical touch position and the vibration intensity. That is, the correspondence between the vertical touch position and the vibration intensity is stored so that the vibration is smaller at the lower part of the equalizer curve setting screen EQSCR and the vibration is larger at the upper part. Further, the position-vibration frequency table 23 stores a correspondence (X-Vf) between the horizontal direction touch position and the vibration frequency. That is, the correspondence between the horizontal direction touch position and the vibration frequency is stored so that the vibration frequency is lower toward the left of the equalizer curve setting screen EQSCR and the vibration frequency is higher toward the right.
The vibration frequency / vibration intensity control unit 14 obtains the vibration intensity according to the vertical touch position Y from the position-vibration intensity table 22 and obtains the vibration frequency according to the horizontal / vertical direction touch position X from the position-vibration frequency table 23. Then, a vibrator drive signal corresponding to the vibration intensity and vibration frequency is generated to drive the vibration part actuator 17, and the vibration amplitude and vibration frequency of the vibration part 11c are controlled. The vibration interval is constant. As a result, when the equalizer curve setting screen EQSCR is traced according to a desired equalizer curve, the vibration amplitude and the vibration frequency change according to the two-dimensional touch position. That is, the gain increases as the vibration amplitude increases, and the band frequency increases as the vibration frequency increases, and there is a correlation between the magnitude of the vibration and the gain, and there is also a correlation between the vibration frequency and the band frequency. Because there is, you can set the equalizer curve by blind touch.
In the above description, the vibration intensity and the vibration frequency are controlled. However, any two of the vibration intensity, the vibration frequency, and the vibration interval may be controlled according to the touch position.

FIG. 5 is a configuration diagram of the touch panel device in the case of setting the delay time of the audio signal input to the speaker. The same parts as those in FIG. As shown in FIG. 6, the distances from the speakers SP _FL , SP _FR , SP _RL , SP _RR to the ears of the driver DRV are different in the acoustic space in the vehicle interior, and the time T _FL when the sound reaches the ears from the speakers. T _FR, T _RL, the difference in T _RR occurs. Therefore, in the car audio device, in order to make the time for the sound from each speaker to reach the ear, the audio signal input to each speaker is delayed. Conventionally, a delay time setting screen is displayed as shown in FIG. 7, a speaker is selected with a knob, and then a delay time is set using an increment key and a decrement key. However, such a setting operation can only be used to set the display screen, and the delay time cannot be set by blind touch.
Therefore, in the present invention, as shown in FIG. 5, a delay time setting screen (having speaker images SP _{FL to} SP _RR in the vehicle interior) DTSCR is displayed, and a predetermined speaker image is selected by a pointer PNT. It moves, controls the length of the delay time according to the moving distance, and controls the vibration interval of the touch panel surface according to the moving distance.

When the user instructs setting of the delay time, the input / output control unit 12 displays a delay time setting screen DTSCR on the touch panel 11. In this state, in order to set the delay time of the right front speaker, moved by dragging to select the speaker image SP _FR pointer PNT. The two-dimensional touch position detection unit 31 detects the horizontal and vertical touch positions (X, Y) of the pointer PNT and inputs them to the input / output control unit 12 and the distance calculation unit 32.
The input / output control unit 12 calculates the image moving distance D from the reference position (initial speaker position) based on the touch position (X, Y), determines the delay time t _FR based on the moving distance, and determines the audio circuit 15. The audio circuit 15 delays the audio signal input to the front right speaker based on the delay time _tFR .
The distance calculation unit 32 calculates the movement distance D based on the touch position (X, Y) and inputs it to the vibration interval control unit 33. The distance-vibration interval table 34 stores a correspondence (D-V _INT ) between the moving distance and the vibration interval. That is, the correspondence between the movement distance and the vibration interval is stored such that the shorter the movement distance, the shorter the vibration interval, and the longer the movement distance, the longer the vibration interval.
The vibration interval control unit 33 obtains a vibration interval corresponding to the moving distance D of the speaker image from the distance-vibration interval table 34, generates a vibrator drive signal corresponding to the vibration interval, and drives the vibration unit actuator 17, The vibration interval of the vibration part 11c is controlled. However, the vibration frequency and vibration amplitude are constant. As a result, when a predetermined speaker image is moved on the delay time setting screen DTSCR, the vibration interval and the set delay time change according to the image moving distance. That is, the longer the moving distance, the longer the vibration interval and the longer the delay time. Thus, a correlation can be established between the vibration interval and the delay time to be set, and the delay time can be set by blind touch.
In the above description, the vibration interval is controlled. However, any one of the vibration intensity, the vibration frequency, and the vibration interval may be controlled according to the movement distance.

FIG. 3 is a schematic explanatory diagram of a first touch panel device that inputs data by tracing a touch panel surface. It is a schematic explanatory drawing of the 2nd touchscreen apparatus which inputs data by tracing a touchscreen surface. It is a block diagram of the touch panel apparatus in the case of setting a volume. It is a block diagram of the touch panel apparatus in the case of setting an equalizer curve. It is a block diagram of the touch panel apparatus in the case of setting the delay time of the audio signal input into a speaker. It is explanatory drawing for the reason which sets the delay time of an audio signal. It is conventional delay time setting explanatory drawing. It is conventional art explanatory drawing which sets the graphic equalizer curve of an audio apparatus by tracing a touchscreen surface. It is a software key input explanatory diagram of a vibration type touch panel device. It is explanatory drawing which adjusts balance / fader by the trace operation of a touchscreen surface.

Explanation of symbols

11 Touch Panel Device 12 Input / Output Control Unit 13 Touch Position / Moving Direction Detection Unit 14 Vibration Frequency / Vibration Intensity Control Unit 15 Audio Circuit 16 Position-Vibration Intensity Table 17 Vibration Unit Actuator

Claims (5)

In a touch panel device that inputs data by tracing the touch panel surface,
A vibrating element that vibrates the touch panel,
A touch position detector for detecting a touch position on the touch panel surface;
A vibration control unit that vibrates the vibration element at a vibration frequency, a vibration interval, or a vibration intensity according to a touch position;
A touch panel device comprising: The vibration control unit controls a vibration frequency, a vibration interval, and a vibration intensity according to a touch position in a vertical direction or a horizontal direction on the touch panel surface, and a volume setting unit that sets a volume based on the touch position.
The touch panel device according to claim 1, further comprising: The vibration control unit controls any one of a vibration frequency, a vibration interval, and a vibration intensity according to the touch position in the vertical direction, and another vibration frequency, vibration interval, and vibration strength according to the touch position in the left-right direction. An equalizer curve setting unit that controls one and sets a gain in a predetermined frequency band based on the touch position;
The touch panel device according to claim 1, further comprising: In a touch panel device that inputs data by tracing the touch panel surface,
A vibrating element that vibrates the touch panel,
A display control unit for moving and displaying an image displayed on the touch panel surface;
A distance calculation unit that calculates an image moving distance A vibration control unit that vibrates the vibration element at a vibration frequency, a vibration interval, or a vibration intensity according to the image moving distance;
A touch panel device comprising: The display control unit displays a speaker image in the passenger compartment on the touch panel surface, and moves and displays a predetermined speaker image. The vibration control unit displays any one of a vibration frequency, a vibration interval, and a vibration intensity according to the image moving distance. A delay time setting unit that controls and sets a delay time of an audio signal input to the speaker based on the moving distance;
The touch panel device according to claim 4, further comprising:

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