JP2010055282A - Method of vibrating touch panel and touch panel device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a means for accurately feeding a response to a touch operation on a multi-touch panel back to a user. <P>SOLUTION: A finger contact detection means 3 indicates first vibration to a vibration means 5 via a vibration energy changing means 4 when detecting that a first finger has touched a touch panel (multi-touch panel) 2 that allows selection of multiple points, and indicates second vibration which is on a higher level of vibration than the first vibration to the vibration means 5 via the vibration energy changing means 4 when detecting that a second finger has touched the panel while the first finger keeps touching the panel. The vibration means 5 vibrates the multi-touch panel 2 by imparting the first or second vibration to the multi-touch panel 2 as indicated, and feeds the recognition of the touch back to the user who has touched the panel. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a touch panel type input device, and more particularly to a technique for feeding back and recognizing a touch input operation to a user by vibrating the touch panel when the user performs a touch input operation.

  A touch panel type input device that arranges a touch panel as an input device on the display screen of the display device and allows selection items such as icons displayed on the display screen to be selected by touching the touch panel is an ATM (automatic cash deposit device) ), And used in various information devices including display devices such as in-vehicle navigation devices and portable electronic devices (see Patent Documents 1 to 6).

  In Patent Documents 1 to 4, when a user performs a touch operation on an area on the touch panel corresponding to a selection item displayed on the display screen, the input is accepted and the touch panel is vibrated and touched. There has been proposed a technique for allowing a user to recognize that an input operation has been performed reliably by feeding back a response to the operation to the user.

  On the other hand, in the above-mentioned patent documents 5 to 6, separate signals representing each contact position on the touch panel plane with respect to each of the plurality of contacts are detected so as to detect a plurality of contacts occurring simultaneously at different positions in the plane of the touch panel. A technique has been proposed that enables processing by a combination of a plurality of simultaneous contact signals to improve the function of the touch panel device.

JP 2000-137576 A Japanese Patent Laid-Open No. 2003-016502 JP 2004-094389 A JP 2008-0665518 A Special table 2007-533044 gazette JP 2008-165575 A

  In the touch panel input device capable of multipoint selection described in Patent Documents 5 to 6, there is no mention of vibration means for feeding back a response to a touch operation to the user. When the vibration means is applied to the apparatus, the following problems occur.

  For example, when an input operation is performed by touching another position with the other finger while touching the position of one desired position with two fingers at the same time with two fingers at the desired two positions on the touch panel, On the touch panel, vibration due to detection of contact with the second finger is generated following vibration generated when contact with the first finger is detected. While the first finger is touching, the touch of the second finger is detected. When vibration occurs due to touch, it cannot be confirmed whether the vibration continues due to the touch of the first finger or the vibration due to the touch of the second finger. It may not be possible to determine whether the success or failure.

  Also, when the second finger touches the touch panel, the vibration felt by the second finger is already blocked by the first finger because the first finger is already in contact with the touch panel, and the vibration itself is weakened. In addition, there is a problem that the touch of vibration cannot be obtained accurately when touched with the second finger.

  The vibration means used in the conventional touch panel with a vibration function is required to have high-speed response in order to enhance the response to the user operation. For this reason, a piezoelectric element or a recording head which has been used recently in a disk-shaped recording apparatus is applied. There is also an example in which a pendulum-like vibrator that reciprocates at both ends is used instead of recording positioning. However, in order to obtain high-speed response of vibration, the weight of the weight part of the pendulum has to be reduced. Therefore, when the first finger is in contact with the touch panel, the vibration is inhibited by the first finger. It will be weakened.

  An object of the present invention is to provide means for enabling a response to a touch operation on a multi-touch panel to be accurately fed back to a user by vibration, and to solve the above-described problems.

  The touch panel vibration method of the present invention detects a contact in a touch panel device capable of outputting a signal for performing a process related to the plurality of contacts by detecting a plurality of contacts generated simultaneously at different positions in the touch panel plane. A touch panel vibration method for vibrating the touch panel when the touch panel is touched, when another contact with the touch panel is detected while the touch with the touch panel is continued, and is applied to the touch panel when the ongoing contact is detected The touch panel is vibrated by applying a vibration different from the generated vibration.

  In the touch panel vibration method of the present invention, the touch is performed in a touch panel device capable of outputting a signal for performing processing related to the plurality of contacts by detecting a plurality of contacts generated simultaneously at different positions in the touch panel plane. A touch panel vibration method for vibrating the touch panel when detected, wherein the touch panel is vibrated by the first vibration when the first contact to the touch panel is detected, and the first contact is continued while the first contact is continued. When the second contact with the touch panel is detected, the touch panel is vibrated by a second vibration different from the first vibration.

  The touch panel device according to the present invention is a touch panel device capable of outputting a signal for performing a process related to the plurality of contacts by detecting a plurality of contacts generated simultaneously at different positions in a plane of the touch panel. When a contact with respect to the touch panel is detected, the touch panel is provided with vibration means for vibrating the touch panel to confirm the contact, and the vibration means is detected when another contact with the touch panel is detected while the contact with the touch panel is continued. The touch panel has a function of applying a vibration different from the vibration applied to the touch panel when the ongoing contact is detected to vibrate the touch panel.

  Further, the touch panel device of the present invention is a touch panel device capable of outputting a signal for performing processing related to the plurality of contacts by detecting a plurality of contacts generated simultaneously at different positions in the plane of the touch panel. When the first contact with the touch panel is detected, the touch panel is vibrated by the first vibration, and when the second contact with respect to the touch panel is detected while the first contact is continued, the touch panel is vibrated with the second vibration. It is characterized by comprising a touch panel vibration means for vibrating by the above.

  The present invention relates to vibration of the touch panel when the first contact with respect to the touch panel is detected and vibration of the touch panel when the second contact with respect to the touch panel is detected while the first contact is continued. Since they are different, the vibration caused by the second contact can be distinguished and felt, and the input operation by the second contact can be clearly discriminated.

  FIG. 1 is a schematic block diagram of a touch panel device including a vibration means for a touch panel capable of multipoint selection according to a first embodiment of the present invention.

  In FIG. 1, a touch panel device 1 according to the present embodiment includes a multi-point selectable touch panel (hereinafter referred to as a multi-touch panel) 2, a finger contact detection unit 3 that detects whether a finger touches the multi-touch panel 2, and a first one. Vibration energy changing means 4 for instructing the second vibration in response to the touch of the second finger while the first finger is being touched, and the vibration energy changing means 4 And vibration means 5 for vibrating the multi-touch panel 2 with vibration energy instructed by the means 4.

  FIG. 2 is a time chart showing an operation example of the present embodiment when multipoint selection is performed. Hereinafter, the operation of the present embodiment will be described with reference to FIGS. Note that the vibration level of the vibration means in FIG. 2 simply shows the vibration energy intensity in the vertical direction.

  First, the multi-touch panel 2 is touched with the first finger. When the finger contact detection unit 3 confirms this touch after a predetermined time such as noise countermeasures, the finger contact detection unit 3 outputs a first touch detection signal to the vibration energy changing unit 4 in order to feed it back to the operator. When the vibration energy changing unit 4 receives the first touch detection signal from the finger contact detection unit 3, the vibration energy changing unit 4 outputs information for vibrating the multi-touch panel 2 with the first vibration energy to the vibration unit 5. When the information is input from the vibration energy changing unit 4, the vibration unit 5 vibrates the multi-touch panel 2 with the first vibration energy.

  When it is detected that the first finger is touching the multi-touch panel 2, the other position of the multi-touch panel 2 is touched by the second finger, and the finger contact detection means 3 performs noise countermeasures. When the touch by the second finger is confirmed after a predetermined time such as, the finger contact detection means 3 outputs a second touch detection signal to the vibration energy changing means 4 in order to feed back the touch to the operator. To do. When the vibration energy changing unit 4 receives the second touch detection signal from the finger contact detection unit 3, the vibration unit 5 transmits information for vibrating the multi-touch panel 2 with the second vibration energy larger than the first vibration energy. Output for. When the information is input from the vibration energy changing unit 4, the vibration unit 5 vibrates the multi-touch panel 2 with the second vibration energy that is larger than the first vibration energy.

  Thereafter, when it is detected that the touch of the multi-touch panel 2 with the first finger or the second finger is released, the finger contact detection means 3 outputs a release signal of the first and second touch detection signals. In response to the release signal, the vibration of the multi-touch panel 2 by the first and second vibration energy is stopped. When the first and second fingers are simultaneously touched on the multi-touch panel 2, the touch previously detected by the finger contact detection unit 3 is output as the first touch detection signal.

  In this embodiment, since the vibration energy when touched with the first finger is different from the vibration energy when touched with the second finger, the second finger is touched when touching with the first finger. The feedback vibration when touched with can be clearly recognized by the change of the vibration level, and it can be easily confirmed that the touch with the second finger is successful.

  In the above embodiment, the multi-touch panel 2 is continuously vibrated while the finger contact detection unit 3 outputs the touch detection signal of the multi-touch panel 2, but the touch detection signal of the multi-touch panel 2 is output. Thereafter, it may be configured to vibrate only for a certain time. FIG. 3 is a time chart showing an operation example of such an embodiment.

  2 is different from the time chart shown in FIG. 2 in that the multi-touch panel 2 is vibrated for a certain time from the first vibration energy from the time when the touch of the first finger is detected, and the touch of the first finger is continued even after the end of the vibration. When the touch of the second finger is detected in the continuous state, the multi-touch panel 2 is moved with the second vibration energy larger than the first vibration energy from the time when the touch of the second finger is detected. The point is that it is vibrated for a certain time.

  Also in this embodiment, the vibration energy of the vibration excited when touched with the second finger is larger than the vibration excited when touched with the first finger, so that the vibration can be distinguished. It is easy to confirm that the touch with the second finger is successful.

  FIG. 4 is a schematic block diagram of a touch panel device provided with vibration means for a touch panel capable of multipoint selection according to a second embodiment of the present invention.

  In the first embodiment, the first vibration and the second vibration are distinguished by changing the vibration energy applied to the same vibration means. However, in the present embodiment, two vibration means having different vibration characteristics are used. The vibration is made to correspond to the vibration when the touch of the first finger is detected and when the touch of the second finger is detected, respectively.

  The touch panel device 11 of the present embodiment includes a multi-touch panel 12, finger contact detection means 13 that detects whether a finger touches the multi-touch panel 12, and a first vibration that instructs a first vibration when the first finger touches. The vibration energy setting means 14, the second vibration energy setting means 16 for instructing the second vibration when the second finger touches while the first finger touch is continued, and the first vibration energy setting means 14 First vibration means 15 that vibrates the multi-touch panel 12 with the instructed vibration energy, and second vibration means 17 that vibrates the multi-touch panel 12 with the vibration energy instructed by the second vibration energy setting means 16 are provided. .

  For example, as an example of the first vibration means 15, a vibration means having high-speed response by continuous fine displacement such as a piezoelectric element can be used. As an example of the second vibration means 17, a mobile phone or the like The vibration motor that is used (vibration caused by the movement of a relatively large center of gravity that causes vibration when the eccentric weight connected to the motor rotates) can be used.

  FIG. 5 is a time chart showing an operation example of the second embodiment when multipoint selection is performed. Hereinafter, the operation of the present embodiment will be described with reference to FIGS.

  First, the multi-touch panel 12 is touched with the first finger. When the finger contact detection unit 13 confirms this touch after a predetermined time such as noise countermeasures, the finger contact detection unit 13 outputs a first touch detection signal to the first vibration energy setting unit 14 in order to feed back the touch to the operator. To do. When the first vibration energy setting means 14 receives the first touch detection signal from the finger contact detection means 13, the first vibration energy setting means 14 sends information for vibrating the multi-touch panel 12 with the first vibration energy to the first vibration means 15. Output. When the above information is input from the first vibration energy setting means 14, the first vibration means 15 vibrates the multi-touch panel 12 with the first vibration for a certain period of time.

  When it is detected that the first finger is touching the multi-touch panel 12, the multi-touch panel 12 is touched with the second finger, and the finger contact detection means 13 performs a predetermined time such as noise countermeasures. When this touch is confirmed later, the finger contact detection means 13 outputs a second touch detection signal to the second vibration energy setting means 16 in order to feed it back to the operator. When the second vibration energy setting unit 16 receives the second touch detection signal from the finger contact detection unit 13, the second vibration energy setting unit 16 outputs information for vibrating the multi-touch panel 12 to the second vibration unit 17. When the information is input from the second vibration energy setting unit 16, the second vibration unit 17 vibrates the multi-touch panel 12 with a second vibration having vibration characteristics different from the first vibration for a certain period of time.

  When a piezoelectric element is used as the first vibration means 15 and a vibration motor is used as the second vibration means 7, the amplitude, mass, and frequency during vibration are different between the piezoelectric element and the vibration motor. In addition to changing the voltage, the vibration energy setting means sets the optimum vibration energy for each of the piezoelectric element and the vibration motor. When the first and second fingers are simultaneously touched on the multi-touch panel 2, the touch previously detected by the finger contact detection unit 13 is output as the first touch detection signal.

  In this embodiment, since a plurality of vibration means having different vibration characteristics are used in combination, the first and second vibrations can be easily distinguished by changing the quality of vibration that is difficult to obtain with only a single vibration means. Become. In the case of the operation flow shown in FIG. 2, the difference is not clearly seen only by the change in the vibration level, and it is somewhat difficult to understand, but if the means for changing the vibration quality as in this embodiment is adopted, The first and second vibrations can be easily identified.

  If the vibration means has different vibration characteristics, even if the energy applied by the second vibration energy setting means 16 is smaller than the energy applied by the first vibration energy setting means 14, it can be recognized as strong vibration. Yes, you can feel strong vibration with less energy.

  In the above embodiment, the first vibration means 15 and the second vibration means 17 are configured by a combination of vibration means having different vibration characteristics. However, the first vibration means 15 and the second vibration means 17 can be realized by combining vibration means having the same vibration characteristics. In that case, the first vibration means 15 is installed so as to vibrate in a horizontal direction with the touch panel 12, and the second vibration means 17 is arranged so as to vibrate in a direction perpendicular to the touch panel 12. It can also be changed.

  In this case, since the vibration applied in the horizontal direction is less likely to be transmitted compared to the vibration applied in the vertical direction, even if the energy applied by the first vibration energy setting means 14 and the second vibration energy setting means 16 is equal, I feel strongly the vibration applied in the vertical direction when touching with my finger. In this way, by arranging the vibration means having the same vibration characteristics so as to change the direction of vibration, it is possible to obtain vibration that feels strong even with the same vibration energy.

  FIG. 6 is a schematic block diagram of a touch panel device including vibration means for a touch panel capable of multipoint selection according to a third embodiment of the present invention.

  This embodiment does not use a means for setting vibration energy, but uses a difference in vibration characteristics of vibration means itself configured to be able to vibrate with electric power supplied from a fixed power source. The basic configuration is the same as in the second embodiment.

  The touch panel device 21 according to the present embodiment detects a touch panel 22 capable of simultaneously recognizing a plurality of fingers and whether the finger touches the touch panel. When the first finger touches, the first vibrating means 24 is vibrated, and the second one. And finger contact detection means 23 that vibrates the second vibration means 25 when the finger is touched.

  An example of the first vibration means 24 is a vibration means having high-speed response by continuous fine displacement such as a piezoelectric element, and an example of the second vibration means 25 is a vibration motor (used in a mobile phone or the like). It is assumed that the vibration characteristics are different, for example, vibration caused by movement of a relatively large center of gravity that causes vibration by rotation of an eccentric weight connected to a motor.

  In this embodiment, the vibration energy changing means is not used, and the difference in the vibration characteristics of the vibration means itself is used, so that it can be realized with a simple hardware configuration.

  In the above embodiments, the multipoint selection by the first and second two contacts has been described. However, the present invention is also applicable to a case of three or more simultaneous contacts, and at the time of detecting each contact, This can be realized by providing means for vibrating the multi-touch panel with different vibrations.

  Further, in each of the above embodiments, finger contact detection means is used as means for detecting contact with the multi-touch panel 2, but not limited to fingers, for example, a pen or the like that can make contact with the multi-touch panel 2 as appropriate. It can be realized as a contact detection means for detecting contact by the contact medium.

1 is a schematic block diagram of a touch panel device including vibration means for a touch panel capable of multipoint selection according to a first embodiment of the present invention. It is a time chart which shows the operation example of 1st Embodiment when multipoint selection is made. It is a time chart which shows the other operation example of 1st Embodiment when multipoint selection is made. It is a schematic block diagram of the touchscreen apparatus provided with the vibration means for the touchscreen which can select multipoint which shows the 2nd Embodiment of this invention. It is a time chart which shows the operation example of 2nd Embodiment when multipoint selection is made. It is a schematic block diagram of the touch panel apparatus provided with the vibration means for the touch panel which can select multipoint which shows the 3rd Embodiment of this invention.

Explanation of symbols

1,11,21 Touch panel device 2,12,22 Multi-touch panel 3,13,23 Finger contact detecting means 4 Vibration energy changing means 5 Vibration means 14 First vibration energy setting means 15, 24 First vibration means 16 Second Vibration energy setting means 17, 25 Second vibration means

Claims (12)

The touch panel is vibrated when the contact is detected in a touch panel device capable of outputting a signal for performing processing related to the plurality of contacts by detecting a plurality of contacts generated simultaneously at different positions in the touch panel plane. A touch panel vibration method,
When another touch on the touch panel is detected while the touch on the touch panel is ongoing, the touch panel is vibrated by applying a vibration different from the vibration applied to the touch panel when the ongoing touch is detected. A touch panel vibration method characterized by that. The touch panel is vibrated when the contact is detected in a touch panel device capable of outputting a signal for performing processing related to the plurality of contacts by detecting a plurality of contacts generated simultaneously at different positions in the touch panel plane. A touch panel vibration method,
When the first contact to the touch panel is detected, the touch panel is vibrated by the first vibration, and when the second contact to the touch panel is detected while the first contact is continued, the touch panel is moved to the touch panel. A touch panel vibration method, wherein the vibration is caused by a second vibration different from the first vibration.   The touch panel vibration method according to claim 2, wherein the second vibration has vibration energy larger than that of the first vibration.   The touch panel vibration method according to claim 2, wherein the touch panel is vibrated in a horizontal direction by the first vibration, and the touch panel is vibrated in a vertical direction by the second vibration.   The touch panel vibration method according to claim 2, wherein the first vibration and the second vibration have different vibration characteristics.   6. The touch panel vibration method according to claim 5, wherein the first vibration is displacement vibration due to a piezoelectric element, and the second vibration is vibration due to rotation of an eccentric weight connected to a motor. . In the touch panel device capable of outputting a signal for performing processing related to the plurality of contacts by detecting a plurality of contacts that occur simultaneously at different positions in the touch panel plane,
When contact with the touch panel is detected, the touch panel includes vibration means for vibrating the touch panel to confirm the contact, and the vibration means detects another contact with the touch panel while contact with the touch panel is continued. A touch panel device having a function of applying a vibration to the touch panel that is different from the vibration applied to the touch panel when the ongoing contact is detected. In the touch panel device capable of outputting a signal for performing processing related to the plurality of contacts by detecting a plurality of contacts that occur simultaneously at different positions in the touch panel plane,
When the first contact with the touch panel is detected, the touch panel is vibrated by the first vibration, and when the second contact with respect to the touch panel is detected while the first contact is continued, the touch panel is moved with the first touch. A touch panel device comprising touch panel vibration means for vibrating by a second vibration different from the above vibration.   9. The touch panel vibration means includes means for vibrating the touch panel by setting the level of the second vibration to a value larger than the level of the first vibration. The touch panel device described.   The touch panel vibration means applies first vibration means for applying horizontal vibration to the touch panel as the first vibration, and first vibration means for applying vertical vibration to the touch panel as the second vibration. The touch panel device according to claim 8, comprising two vibration means.   The touch panel vibration means includes first vibration means and second vibration means for vibrating the touch panel by vibrations having different vibration characteristics as the first vibration and the second vibration. The touch panel device according to claim 8, wherein the touch panel device is characterized. Displacement vibration means using a piezoelectric element is used as the first vibration means, and vibration means by rotation of an eccentric weight connected to a motor is used as the second vibration means. Item 12. The touch panel device according to Item 11.

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