JP2017027294A - Display operation device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a display operation device that allows a tactile sense relative to a finger to discriminate an input state by a finger operation without relying upon a visual sense relative to a display unit.SOLUTION: In a display operation device comprising: a display unit 110; a touch panel 120; a plurality of oscillators 131 and 132; and a control unit 140, the control unit 140 is configured to: cause an oscillation of the plurality of oscillators 131 and 132 to be transmitted to a finger to be touched to the touch panel 120 in an area corresponding to an operation image; and control the oscillator so that a position of an oscillation emphasis part generating due to interference of the oscillations of the plurality of oscillators 131 and 132 moves relative to the finger in responce to a direction of increase/reduction in physical quantity displayed on a display image.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a display operation device having a screen that can be touched by a user.

  As a conventional display operation device, for example, a device disclosed in Patent Document 1 is known. The display operation device (electronic device) of Patent Literature 1 includes a display unit that displays an image, a panel that transmits the image of the display unit and detects a user's touch operation position with respect to a predetermined image, and a detection position. And a control unit for controlling the display state of the image on the display unit.

  Further, Patent Document 1 includes a plurality of vibration units that vibrate the panel, and according to the speed at which the user traces the panel and the spatial frequency in the tracing direction of the image displayed at the position where the user is tracing. The vibration of the vibration part is changed. Specifically, for example, the vibration amplitude or the phase of the drive waveform is changed according to the touch position of the user.

  As a result, when the user traces the panel displayed on the display unit, the user can feel a rough feeling on the finger or feel the vibration on the finger touching the panel. A tactile sensation according to the display image can be obtained.

Japanese Patent No. 5507760

  However, in the above-mentioned patent document 1, when a panel is traced, only a tactile sensation touched by vibration is obtained.

  In a touch operation on a panel, for example, an input for changing an operation condition is often performed on an operation target device. Specifically, an operation icon and an operation condition (operation state) image of the device are displayed on the display unit, and the operator touches the operation icon continuously or intermittently to thereby operate the operation target device. Change the operating conditions. The display of the operating condition is changed according to the operation, but the operator needs to operate while viewing the display unit (operating condition image) until the desired operating condition is reached. When performing a finger operation on the panel, it is desirable to be able to perform an operation by so-called blind touch so that the input state can be understood without continuing to look at the display unit.

  In view of the above problems, an object of the present invention is to provide a display operation device that can determine an input state by a finger operation by a tactile sensation on the finger without depending on a visual sense on a display unit.

  In order to achieve the above object, the present invention employs the following technical means.

In the first invention, a display unit (110) for displaying images (111a, 111b),
A touch panel (120) that is provided on the display unit (110) so that the images (111a, 111b) are transmitted, and a touch operation by a user's finger is performed;
A plurality of vibrators (131, 132) that vibrate the touch panel (120);
A display comprising: a control unit (140) for controlling the display state of the images (111a, 111b) based on a touch operation on the touch panel (120) and controlling the operating state of the plurality of vibrators (131, 132). An operating device,
The images (111a, 111b) include a display image (111a) for displaying increase / decrease in physical quantity and an operation image (111b) for increasing / decreasing physical quantity,
The control unit (140)
The vibration of the plurality of vibrating bodies (131, 132) is transmitted to the finger touched on the touch panel (120) in the area corresponding to the operation image (111b), and the physical quantity displayed on the display image (111a) According to the increase / decrease direction, the vibrating body (130) is controlled such that the position of the vibration emphasizing portion generated by the interference of vibrations of the plurality of vibrating bodies (131, 132) moves with respect to the finger. Yes.

  According to this invention, the position of the vibration emphasizing unit is moved with respect to the finger so as to correspond to the increase / decrease direction of the physical quantity. Therefore, whether the physical quantity is increasing or decreasing due to the movement of the position of the vibration emphasizing unit with respect to the finger applied to the operation image (111b) even if the user has not been watching the display image (111a) for a long time. In addition, it is possible to recognize how much it has increased or decreased. Therefore, it is possible to provide a display operation device that can determine an input state by a finger operation by a tactile sensation on the finger without depending on the visual sense of the display unit.

In the second invention, a display unit (110) for displaying an image;
A touch panel (120) that is provided on the display unit (110) so that an image is transmitted and is touched by a user's finger;
A plurality of vibrators (131, 132) that vibrate the touch panel (120);
A display operation device comprising: a control unit (140) that controls an image display state based on a touch operation on the touch panel (120) and controls an operation state of the plurality of vibrators (131, 132). ,
The control unit (140)
When switching the display state of an image based on a predetermined touch operation, vibrations of the plurality of vibrators (131, 132) are transmitted to a finger touched on the touch panel (120), and the image is visually displayed. The vibrating body (130) is controlled so that the position of the vibration emphasizing portion generated by the interference of vibrations of the plurality of vibrating bodies (131, 132) moves relative to the finger in accordance with the direction of change to It is a feature.

  According to the present invention, the distribution of the vibration emphasis unit is moved with respect to the finger so as to correspond to the visually changing direction of the image. Therefore, the user can recognize the visually changing direction of the image by moving the distribution of the vibration emphasizing unit with respect to the finger touched on the touch panel (120) without watching the image for a long time. Therefore, it is possible to provide a display operation device that can determine a visual change of an image by a tactile sensation on a finger without depending on the sight of the display unit.

  In addition, the code | symbol in the bracket | parenthesis of each said means shows a corresponding relationship with the specific means of embodiment description mentioned later.

It is a block diagram which shows a display operation apparatus. It is explanatory drawing which shows the display image and operation image in the display of 1st Embodiment. It is explanatory drawing which shows the generation | occurrence | production state of the vibration by a vibration apparatus. It is explanatory drawing which shows the movement state of the vibration emphasis part with respect to a finger | toe. It is explanatory drawing which shows the image in the display of 2nd Embodiment. It is explanatory drawing which shows the image in the display of 3rd Embodiment. It is explanatory drawing which shows the scroll condition of the image based on touch operation. It is explanatory drawing which shows the movement state of the vibration emphasis part with respect to a finger | toe.

  A plurality of modes for carrying out the present invention will be described below with reference to the drawings. In each embodiment, parts corresponding to the matters described in the preceding embodiment may be denoted by the same reference numerals, and redundant description may be omitted. When only a part of the configuration is described in each mode, the other modes described above can be applied to the other parts of the configuration. Not only combinations of parts that clearly indicate that the combination is possible in each embodiment, but also a combination of the embodiments even if they are not clearly specified unless there is a problem with the combination. It is also possible.

(First embodiment)
1st Embodiment which concerns on the display operation apparatus 100 of this invention is described using FIGS. 1-4. The display operation device 100 according to the present embodiment is applied to, for example, a vehicle air conditioner.

  In the display operation device 100, a touch panel 120 is provided on the surface of the display 110, and a user can view various information displayed on the display 110 through the touch panel 120. In addition, the user touches the operation surface (front surface) of the touch panel 120 and performs finger operation by finger touch, finger slide, and the like, thereby inputting input for changing display contents and operating condition of the vehicle air conditioner. It is possible to switch to information requested by the user. Furthermore, the display operation device 100 includes a vibration device 130. When the user performs a finger operation, the touch panel 120 is vibrated by the vibration device 130 (so-called vibration feedback is performed), and the user touches the fingertip during operation. Can get to.

  As shown in FIGS. 1 and 2, the display operation device 100 has a horizontally long rectangular front surface of the display 110. For example, the display 110 is in a standing posture in the center of the front surface of the instrument panel of the vehicle. It is arranged like that. The various information displayed on the display 110 is, for example, various images 111a and 111b showing air conditioning information (operation conditions such as an operation condition changeover switch and a temperature air volume) in the vehicle air conditioner. The display operation device 100 includes a display 110, a touch panel 120, a vibration device 130, a control circuit 140, and the like.

  The display 110 is a display unit that can switch and display the various types of information described above on the display surface. The display 110 is flat in the viewing direction, and the shape viewed from the viewing direction is a horizontally long rectangle. For example, a liquid crystal display, an organic EL display, or the like is used. The display 110 is connected to a control circuit 140 described later via an interface, and the display state of various information is controlled by the control circuit 140.

  Various types of information are displayed by images such as a display image 111a and an operation image 111b, for example. The display image 111a is an image showing increase / decrease in physical quantities related to the air conditioning conditions. Examples of the physical quantity include a set temperature and a set air volume. Here, the display image 111a will be described as an image displaying the set temperature.

  The operation image 111b is an image for a touch operation for the user to increase or decrease the physical amount of the display image 111a. The operation image 111b is, for example, an operation condition changeover switch (icon) for increasing or decreasing the set temperature, the set air volume, and the like. Here, the operation image 111b will be described as an image displaying a set temperature changeover switch. Furthermore, the operation image 111b includes an increase operation image 111b1 for increasing the physical quantity and a decrease operation image 111b2 for decreasing the physical quantity.

  The touch panel 120 is transparent, has a horizontally long rectangular plate shape corresponding to the display surface of the display 110, is a position detection unit based on a touch operation, and is arranged to face the display surface. The image on the display 110 can be seen by the user through the touch panel 120.

  The touch panel 120 is connected to a control circuit 140 to be described later via an interface. When the user touches the surface (operation surface) of the touch panel 120 with a finger, the touch panel 120 senses the touched position on the touch panel 120 (left / right / up / down position coordinates) and uses the sensed position as a position signal to control the control circuit. 140 is output.

  As the touch panel 120, various types such as a capacitance type or a resistance film type can be used, for example. In the present embodiment, the touch panel 120 employs a capacitance type (self-capacitance type). Note that the capacitive touch panel 120 is configured such that the finger touches the touch panel 120 based on a change in capacitance that occurs in accordance with the position of the finger between a user's fingertip and a plurality of electrodes provided on the touch panel 120. A position signal indicating where it is located is generated.

  The vibration device 130 is a vibrating body that vibrates the touch panel 120, and is provided, for example, on the upper side and the lower side of the touch panel 120. Hereinafter, the vibration device 130 provided on the upper side is referred to as the upper vibration device 131, and the vibration device 130 provided on the lower side is referred to as the lower vibration device 132. Each of the vibration devices 131 and 132 is disposed in an area corresponding to the operation image 111b on the display 110 among the upper side and the lower side of the touch panel 120. Each of the vibration devices 131 and 132 is connected to a control circuit 140 to be described later via an interface.

  For example, a vibrator (Force Reactor) is used for each of the vibration devices 131 and 132. In the vibrator, a vibrating body in which a coil is supported by a leaf spring is stored in a case, and permanent magnets are installed at both ends of the case. When a current is applied to the coil, a magnetic field is generated, and the coil moves in a certain direction to generate acceleration. When the application of current is stopped, the coil is returned to the original position by the leaf spring. The vibrator generates vibration based on such behavior. As the vibration device, in addition to the vibrator, a piezoelectric element, a vibration motor, a linear actuator, a voice coil motor, or the like can be used.

  When the upper vibration device 131 is operated by the control circuit 140, the vibration is set to move mainly downward in the direction along the operation surface of the touch panel 120. Further, when the lower vibration device 132 is operated by the control circuit 140, the vibration is set to move upward in the direction along the operation surface of the touch panel 120. In each of the vibration devices 131 and 132, the frequency, phase, amplitude, and the like of the generated vibration are arbitrarily set by the control circuit 140.

  The control circuit 140 includes a CPU, a RAM, a storage medium, and the like, and based on the position signal of the user's finger on the touch panel 120, the display state of the image (display image 111a) on the display 110, and each vibration device 131. , 132 is controlled. The control circuit 140 corresponds to the control unit of the present invention.

  The operation of the display operation device 100 configured as described above will be described with reference to FIGS.

  When the user performs a touch operation on the operation image 111b, the touch panel 120 outputs a position signal of the position touched by the finger to the control circuit 140. When the position signal corresponds to the region of the increase operation image 111b1, the control circuit 140 gives an instruction to increase the set temperature to the air conditioner and displays the display temperature so that the set temperature value of the display image 111a increases. 110 display is changed. Similarly, when the position signal corresponds to the region of the decrease operation image 111b2, the control circuit 140 gives an instruction to the air conditioner to decrease the set temperature, and the set temperature value of the display image 111a decreases. Then, the display on the display 110 is changed.

  When the touch operation is continuously performed on the operation image 111b, the control circuit 140 continuously changes the display of the set temperature value of the display image 111a. When the touch operation is intermittently performed, the control circuit 140 140 changes the display of the set temperature value by a predetermined change amount (for example, in increments of 0.5 ° C.) every time the touch is performed.

  In addition, when there is a touch operation on the operation image 111b as described above, the control circuit 140 activates the vibration devices 131 and 132. In the present embodiment, for example, the frequency of vibration from the vibration devices 131 and 132 is fixed to a predetermined frequency.

  As shown in FIG. 3, when the phase of vibration from each vibration device 131, 132 is the same phase, the difference Δ in the path from each vibration device 131, 132 to the finger position is an integer m times the vibration wavelength λ. If there is, the mutual vibration is strengthened at the position of the finger, and the amplitude (the antinode part of the vibration) is increased. That is, a vibration emphasis part is formed by mutual vibration interference. If the vibration phases from the vibration devices 131 and 132 are the same phase and the path difference Δ from the vibration devices 131 and 132 to the finger position is an integer m + ½ times the vibration wavelength λ, The vibrations of the finger are weakened at the position of the finger, and the amplitude (the vibration antinode) is reduced.

  In the present embodiment, the control circuit 140 is touched in accordance with the increasing / decreasing direction of the set temperature (physical quantity) displayed on the display image 111a based on the vibration behavior as described above by the vibration devices 131 and 132. The position of the vibration emphasizing portion formed to strengthen the finger is moved.

  For moving the position of the vibration emphasizing unit, the control circuit 140 responds by changing (sweeping) the phase (or phase and amplitude) of the vibrations by the vibration devices 131 and 132 with time, for example.

  Specifically, when the finger touches the increase operation image 111b1 by a touch operation, that is, when the set temperature (physical quantity) is increased, the control circuit 140 sets the set temperature value to a predetermined value on the display 110. The display is changed so as to increase by a change (for example, 0.5 ° C.). Along with the change of the set temperature value, the control circuit 140 moves the position of the vibration emphasizing portion with respect to the finger from the lower side to the upper side at regular time intervals as shown in FIG. The vibration devices 131 and 132 are controlled as follows. At this time, the finger feels like vibrations crawl from the lower side toward the upper side.

  Conversely, when the finger touches the decrease operation image 111b2 by a touch operation, that is, when the set temperature (physical quantity) is decreased, the control circuit 140 causes the display 110 to change the set temperature value by a predetermined amount. The display is changed so as to decrease (for example, 0.5 ° C.). Along with the change of the set temperature value, the control circuit 140 controls each vibration so that the position of the vibration emphasis unit moves (shifts) from the upper side to the lower side with respect to the finger at regular time intervals. The devices 131 and 132 are controlled. At this time, the finger is given a feeling of vibration coming from the upper side to the lower side.

  As described above, in the present embodiment, the control circuit 140 transmits the vibrations of the vibration devices 131 and 132 to the finger touched on the touch panel 120 in the region corresponding to the operation image 111b and displays the vibration on the display image 111a. The display 110 and the vibration devices 131 and 132 are controlled so as to move the position of the vibration emphasizing unit generated by the vibration interference of the vibration devices 131 and 132 with respect to the finger in accordance with the increase / decrease direction of the physical quantity. ing.

  As a result, even if the user has not been watching the display image 111a for a long time, whether the physical quantity has increased or decreased due to the movement of the position of the vibration emphasis unit with respect to the finger applied to the operation image 111b, You can recognize how much it has increased or decreased. Therefore, it is possible to provide the display operation device 100 that can determine the input state by the finger operation by the sense of touch to the finger without depending on the sight of the display unit.

  In this embodiment, when the display 110 is installed in a standing posture, the control circuit 140 moves the position of the vibration emphasis unit from the lower side to the upper side when the physical quantity increases, and the physical quantity Is reduced, the position of the vibration emphasis part is moved from the upper side to the lower side. Thereby, the increase / decrease direction of the physical quantity and the movement direction of the vibration emphasizing unit coincide with each other in the vertical direction, so that it can be easily grasped sensuously.

(Second Embodiment)
A second embodiment is shown in FIG. In the second embodiment, a shortcut operation image 111b3 is added to the increase operation image 111b1 and the decrease operation image 111b2 as the operation image 111b with respect to the first embodiment. It is assumed that the vibration control as described above is applied based on the image 111b3.

  For example, when the set temperature is changed, the shortcut operation image 111b3 is an operation image displayed as a pop-up by combining the operation status of each operation image 111b1 and 111b2 or the outside air temperature and the operation status.

  The shortcut operation image 111b3 is popped up on the upper side of the increase operation image 111b1 in response to an operation on the increase operation image 111b1, for example, when it is desired to change the set temperature value to the MAX value at a stroke when getting on in winter. The operation image enables the temperature setting of the MAX value by the touch operation. Alternatively, the shortcut operation image 111b3 is displayed on the lower side of the decrease operation image 111b2 in response to an operation on the decrease operation image 111b2, for example, when it is desired to change the set temperature value to the MIN value at the time of boarding in summer. An operation image is displayed that pops up and allows the temperature of the MIN value to be set by a touch operation. The operations on the operation images 111b1 and 111b2 correspond to the predetermined touch operation of the present invention.

  The shortcut operation image 111b3 causes the user to visually change the image on the display 110. The direction in which the shortcut operation image 111b3 appears with respect to each operation image 111b1 and 111b2 is the direction in which the image on the display 110 visually changes.

  In the present embodiment, the control circuit 140 switches the image display state based on the touch operation of the operation images 111b1 and 111b2. At this time, when the shortcut operation image 111b3 is popped up, the control circuit 140 transmits the vibrations of the vibration devices 131 and 132 to the finger touched on each operation image 111b1 (111b2). Then, the control circuit 140 performs control so that the position of the vibration emphasizing unit generated by vibration interference with respect to the finger is moved in accordance with the direction in which the shortcut operation image 111b3 is displayed.

  Specifically, when the shortcut operation image 111b3 is displayed on the upper side of the increase operation image 111b1, the position of the vibration emphasis part is moved from the lower side to the upper side. Conversely, when the shortcut operation image 111b3 is displayed below the reduction operation image 111b2, the position of the vibration emphasis portion is moved from the upper side to the lower side.

  As a result, even if the user has not seen the image on the display 110 for a long time, the movement of the position of the vibration emphasis unit relative to the finger applied to the operation image 111b has caused the shortcut operation image 111b3 to pop up in the moving direction. Can be recognized. Therefore, it is possible to provide a display operation device that can determine a visual change of an image by a tactile sensation on a finger without depending on the sight of the display unit.

(Third embodiment)
A third embodiment is shown in FIGS. The display operation device according to the third embodiment is applied to a vehicle navigation device.

  The navigation device uses a satellite positioning system, and is a device that displays position information (map information) indicating the position of the host vehicle or guidance information to a desired destination. In the navigation device, for example, as shown in FIG. 6, a map showing the position of the host vehicle or the destination is displayed on the display 110 as an image.

  When the user wants to scroll the map to see another position, the user operates the scroll operation image 111b4. The scroll operation image 111b4 is an image inspired by arrows indicating the left-right direction and the up-down direction. The user touches an arrow in a desired direction in the scroll operation image 111b4 when viewing another position. By this touch operation, as shown in FIG. 7, the map image is scrolled so that the area desired by the user can be seen. The operation on the scroll operation image 111b4 corresponds to the predetermined touch operation of the present invention.

  The scrolling of the map image causes the user to visually change the image on the display 110. The direction in which the map image is scrolled is the direction in which the image on the display 110 visually changes.

  In the present embodiment, the control circuit 140 switches the image display state based on the touch operation on the scroll operation image 111b4. That is, the map image is scrolled. At this time, the control circuit 140 transmits the vibrations of the vibration devices 131 and 132 to the finger touched on the scroll operation image 111b4. Then, the control circuit 140 controls to move the position of the vibration emphasizing unit generated by the vibration interference with respect to the finger in accordance with the direction in which the map image is scrolled.

  Specifically, as shown in FIG. 8, when the map image is scrolled to the left side, the position of the vibration emphasis unit is moved from the right side to the left side. Similarly, when the map image is scrolled to the right side, the position of the vibration enhancement unit is moved from the left side to the right side. The same applies to the vertical direction.

  Accordingly, the user can recognize that the map image has been scrolled by the movement of the position of the vibration emphasizing unit with respect to the finger applied to the scroll operation image 111b4 even if the user has not been watching the map image on the display 110 for a long time. . Therefore, it is possible to provide a display operation device that can determine a visual change of an image by a tactile sensation on a finger without depending on the sight of the display unit.

(Other embodiments)
In the first embodiment, the physical quantity to be increased or decreased is the set temperature value of the air conditioner. However, the present invention is not limited to this and may be the set air volume value of the air conditioner. Moreover, it is good also as a volume value in an audio apparatus, the receiving frequency of a radio station, etc. not only in an air conditioner.

  Further, in each of the above-described embodiments, the position of the vibration emphasizing portion formed in an intensifying manner is moved in accordance with the direction in which the physical quantity increases or decreases, or in the direction in which the image visually changes. However, by arbitrarily changing any or all of the individual drive timings (time difference until each vibration device starts driving), amplitude, driving time, number of times of driving and time interval of the plurality of vibrating devices provided The occurrence distribution of the vibration emphasis unit may be changed. That is, you may make it change the distribution by the probability density of the surface vibration in arbitrary coordinates.

  Moreover, although the vibration apparatus 130 was installed in the upper side and the lower side of the touch panel 120, you may install it in the left side and the right side. Further, the set number of vibration devices 130 may be three or more.

  The control circuit 140 controls the display 110 and the vibration device 130, but may be a plurality of control units that individually control the display 110 and the vibration device 130.

  Moreover, although this display operation apparatus was demonstrated as what is mounted in a vehicle, not only this but a stationary use, a portable use, etc. can be utilized widely.

100 Display Operation Device 110 Display (Display Unit)
111a Display image (image)
111b Operation image (image)
120 Touch panel 130 Vibration device (vibrating body)
140 Control circuit (control unit)

Claims (5)

A display unit (110) for displaying images (111a, 111b);
A touch panel (120) that is provided on the display unit (110) so that the images (111a, 111b) are transmitted, and a touch operation by a user's finger is performed;
A plurality of vibrators (131, 132) for vibrating the touch panel (120);
A control unit (140) for controlling a display state of the images (111a, 111b) based on the touch operation on the touch panel (120) and controlling an operating state of the plurality of vibrators (131, 132); A display operation device comprising:
The images (111a, 111b) include a display image (111a) for displaying increase / decrease in physical quantity and an operation image (111b) for performing increase / decrease in physical quantity,
The controller (140)
The vibration of the plurality of vibrating bodies (131, 132) is transmitted to the finger touched on the touch panel (120) in the region corresponding to the operation image (111b), and the display image (111a) is transmitted. Corresponding to the increasing / decreasing direction of the displayed physical quantity, the vibrating body (131, 132) is moved so that the position of the vibration emphasizing unit generated by the vibration interference of the vibrating bodies (131, 132) moves with respect to the finger 130), and a display operation device. The display unit (110) is installed in a standing posture,
The control unit (140) moves the position of the vibration emphasizing unit from the lower side to the upper side when the physical quantity increases, and moves the position of the vibration emphasizing unit from the upper side to the lower side when the physical quantity decreases. The display operation device according to claim 1, wherein the display operation device is moved. A display unit (110) for displaying an image;
A touch panel (120) that is provided on the display unit (110) so that the image is transmitted and is touched by a user's finger;
A plurality of vibrators (131, 132) for vibrating the touch panel (120);
A display operation comprising: a control unit (140) for controlling a display state of the image based on the touch operation on the touch panel (120) and controlling an operation state of the plurality of vibrators (131, 132). A device,
The controller (140)
When switching the display state of the image based on the predetermined touch operation, vibrations of the plurality of vibrators (131, 132) are transmitted to the finger touched by the touch panel (120), and In response to the visually changing direction of the image, the vibration emphasizing unit generated by the vibration interference of the plurality of vibrating bodies (131, 132) moves relative to the finger. A display operation device characterized by controlling the body (130). The image includes the operation image (111b1, 111b2) for the touch operation,
The direction in which the image visually changes is a direction in which a shortcut operation image (111b3) pop-up is displayed with respect to the operation image (111b1, 111b2). Display operation device.   The display operation device according to claim 3, wherein the visually changing direction of the image is a direction in which the image is scrolled based on a scroll operation of the user.

Images