JP4290920B2 - Information equipment - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an information device apparatus including a display unit that displays, for example, a button display, and a touch panel operation unit that includes an operation button that specifies a button function corresponding to the button display that is being displayed on the display unit.
[0002]
[Prior art]
Conventionally, as such an information device, for example, a display unit that displays a button function as a button display on a screen, and an operation button that specifies a button function corresponding to the button display during the screen display without touching the display unit And a control operation is executed based on a button function designated by an operation button of the touch panel operation unit.
[0003]
[Problems to be solved by the invention]
However, according to the conventional information device, when the button function being displayed on the display unit is to be designated by the operation button of the touch panel operation unit, the button arrangement on the touch panel related to the operation button corresponding to the button function is arranged. Since it is necessary to check the position (touch determination area), the line of sight on the display screen of the display unit must be moved once on the touch panel to recognize the button arrangement position, and the user is burdened when operating the buttons. It takes.
[0004]
The present invention has been made in view of the above points, and an object of the present invention is to recognize the position of the operation button on the operation unit without moving the line of sight to the operation unit. It is an object of the present invention to provide an information equipment device that can greatly reduce the burden on the user.
[0005]
[Means for Solving the Problems]
In order to achieve the above object, the information equipment apparatus of the present invention inputs a display unit for displaying information and an information command for each operation button. For this purpose, the operation buttons are arranged in software on the position coordinates on the touch panel. A display control unit that includes an operation unit and a control unit that executes a control operation based on an information command input by the operation unit, and displays the operation button as a button display on the display unit. And during the button display identification display by the display unit in the display control unit, the operation button is arranged in the operation unit. Due to the vibration of the vibrator provided in the operation unit External notification section for external notification The control unit detects a touch position coordinate by detecting a touch position coordinate of the touch panel on the touch panel and a vibrator control unit that vibrates the vibrator in order to externally notify the position of the operation button in the operation part. A button determination unit that determines whether or not an operation button is arranged at the touch position coordinate detected by the touch coordinate detection unit, and an operation button is arranged at the touch position coordinate by the button determination unit. If it is determined that a special operation of the operation unit has been detected, a special operation determination unit that determines whether or not a special operation has been detected by the special operation determination unit. A command input unit that inputs an information command corresponding to the button, an execution count unit that counts the number of executions of the control operation corresponding to each operation button, and the execution count unit When the operation number storage unit that stores the counted number of executions for each operation button and the button determination unit determines that the operation button is arranged at the touch position coordinate of the touch position, the operation button corresponds to this operation button. A vibration pattern control unit that reads out the number of executions from the execution number storage unit and controls the vibrator control unit to control the vibration pattern of the vibrator based on the number of executions. Do It is characterized by .
[0006]
Therefore, according to the information equipment device of the present invention, the user of the information equipment device is configured to externally notify the position of the operation button in the operation unit during the button display identification display by the display unit. Even if the line of sight is not moved to the operation unit, the position of the operation button (touch determination area) can be recognized through the external notification unit, which can greatly reduce the burden on the user when operating the button. it can.
[0008]
Also According to the information equipment device of the present invention, the vibrator provided in the operation unit is vibrated so as to notify the outside of the position of the operation button in the operation unit. Even without moving the line of sight to the operation unit, it is possible to tactilely recognize the position of the operation button by the vibration operation of the vibrator provided in the operation unit.
[0010]
Also According to the information equipment apparatus of the present invention, since the operation unit is configured by a touch panel, a free button layout is possible.
[0012]
Also According to the information equipment device of the present invention, when it is determined that the operation button is arranged at the touch position coordinates, and when a special operation such as a double-click operation or a determination button operation is detected, the touch position operation is detected. Since the information command corresponding to the button is input, the information command corresponding to the operation button at the touch position can be input by a special operation.
[0014]
Also According to the information equipment device of the present invention, when it is determined that the operation button is arranged at the touch position coordinate of the touch position, the execution number corresponding to the operation button is read from the execution number storage unit, and this execution number Since the vibration pattern of the vibrator is controlled on the basis of the vibration frequency of the vibrator, the user of the information device apparatus can perform the number of executions corresponding to the operation button with the vibration pattern of the vibrator without moving the line of sight to the touch panel operation unit. Can be recognized tactilely.
[0015]
Further, in the information equipment device according to the present invention, the control unit counts the number of executions of the control operation corresponding to each operation button, and the operation button counts the number of executions counted by the execution number count unit. When it is determined that the operation button is arranged at the touch position coordinate of the touch position by the execution number storage unit stored every time and the button determination unit, the execution number corresponding to the operation button is obtained from the execution number storage unit. A display area control unit that controls the display area of the button display corresponding to the operation button based on the number of times of execution of reading, and the operation button based on the number of times of execution read by the execution number storage unit And a touch panel control unit that controls a touch determination area on the touch panel.
[0016]
Therefore, according to the information equipment device of the present invention, when it is determined that the operation button is arranged at the touch position coordinate of the touch position, the number of executions corresponding to the operation button is read from the execution number storage unit and this execution is performed. Based on the number of times, the display area of the button display corresponding to the operation button and the touch determination area on the touch panel are controlled. For example, in the case of an operation button with a large number of executions, the display of the display unit corresponding to the operation button is displayed. Since the area and the touch determination area of the touch panel are controlled to be wide, for example, when the user of the information device device tries to operate an operation button with a large number of executions, the display is performed without moving the line of sight to the touch panel operation unit. The number of executions corresponding to the operation button can be visually recognized, and the touch determination area is wide. Since, touch operation to this operation button is also good.
[0017]
In order to achieve the above object, an information equipment device of the present invention includes a touch panel operation unit that inputs an information command for each operation button, and a control unit that executes a control operation based on the information command input by the touch panel operation unit. An information device device including a vibrator provided in the touch panel operation unit, wherein the control unit is provided in the touch panel operation unit so as to externally notify an arrangement position of the operation button in the touch panel operation unit. A vibrator control unit that vibrates the vibrator, an execution count unit that counts the number of executions of the control operation corresponding to each operation button, and the number of executions counted by the execution count unit for each operation button. And the vibration pattern of the vibrator should be controlled based on the number of executions of each operation button stored in the execution number storage unit. And to have a vibration pattern control unit for controlling the vibrator control unit.
[0018]
Therefore, according to the information device apparatus of the present invention, the vibration pattern of the vibrator is controlled based on the number of execution times of each operation button stored in the execution number storage unit. Even without moving the line of sight to the touch panel operation unit, it is possible to tactilely recognize the position of the operation button by the vibration operation of the vibrator provided in the touch panel operation unit. It is possible to tactilely recognize the number of executions corresponding to the operation button, and as a result, it is possible to greatly reduce the burden on the user when operating the button.
[0021]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an in-vehicle information equipment device showing an embodiment of an information equipment device of the present invention will be described based on the drawings.
[0022]
(Embodiment 1)
FIG. 1 is a block diagram showing a schematic configuration inside an in-vehicle information equipment device according to the first embodiment.
[0023]
An in-vehicle information device 1 shown in FIG. 1 is a device that controls and controls three electronic devices 2 such as a CD autochanger device, and is arranged near the center of a dashboard, for example. A display unit 11 that displays various information, a touch panel operation unit 12 that is arranged near the center console, for example, and inputs an information command for each operation button, and a control operation is performed based on the information command input by the touch panel operation unit 12. And a control unit 20 to be executed.
[0024]
FIG. 2 is a perspective view of the touch panel operation unit 12 of the in-vehicle information device apparatus 1 according to the first embodiment, and FIG. 3 is a cross-sectional view taken along the line AA.
[0025]
The touch panel operation unit 12 shown in FIGS. 2 and 3 is configured by a thin touch panel, and a touch panel 12A in which a plurality of operation buttons (not shown) are arranged in software and a vibrator 12B arranged in the lower part of the touch panel 12A. And a determination button 12C arranged at one end of the outer peripheral edge of the touch panel 12A. The vibrator 12B corresponds to the external notification unit described in the claims.
[0026]
The display unit 11 displays a button display corresponding to the operation button of the touch panel operation unit 12 on the screen, and this button display includes an arrangement position of the operation button, a button function name, and the like.
[0027]
In addition, the control unit 20 detects a touch position on the touch panel 12A of the touch panel operation unit 12 as a touch position coordinate, and displays the touch position coordinate detected by the touch coordinate detection unit 21 on the display unit 11. Based on the display coordinate conversion unit 22 that converts the display position coordinate on the display screen and the display position coordinate converted by the display coordinate conversion unit 22, for example, the touch position is displayed as a cursor on the display screen of the display unit 11. In addition, a display control unit 23 that controls the display unit 11, a special operation detection unit 24 that detects a special operation such as a button operation of the determination button 12C or a double click operation, and a vibrator control that controls the vibrator 12B. A main control unit 26 that controls the entire control unit 20, and an output control unit 27 that controls the electronic device 2.
[0028]
The main control unit 26 determines whether or not the operation button is arranged at the touch position coordinate detected by the touch coordinate detection unit 21, and the button determination unit 26A operates the operation button at the touch position coordinate. And a command input unit 26B for inputting an information command corresponding to the operation button at the touch position to the output control unit 27 when the special operation is detected by the special operation detection unit 24. ing. The output control unit 27 executes a control operation related to the button function corresponding to the information command based on the information command.
[0029]
Next, operation | movement of the vehicle-mounted information equipment apparatus 1 which shows 1st Embodiment is demonstrated. FIG. 4 is a flowchart showing the processing operation of the control unit 20 related to the first touch panel operation processing inside the in-vehicle information device apparatus 1 according to the first embodiment.
[0030]
The first touch panel operation process is a process of vibrating the vibrator 12B disposed below the touch panel 12A when it is determined that there is an operation button at the touch position on the touch panel 12A.
[0031]
In FIG. 4, the control unit 20 determines whether or not a touch operation on the touch panel 12A is detected by the touch coordinate detection unit 21 (step S11). When the touch coordinate detection unit 21 detects a touch operation, the touch coordinate detection unit 21 detects touch position coordinates corresponding to the touch position (step S12).
[0032]
The display coordinate conversion unit 22 converts the touch position coordinates detected by the touch coordinate detection unit 21 into display position coordinates on the display screen (step S13). Further, the display control unit 23 displays a cursor on the display position coordinates corresponding to the touch position based on the display position coordinates converted by the display coordinate conversion unit 22 (step S14). Note that the user of the in-vehicle information device apparatus 1 can recognize the touch position on the display screen by displaying the cursor displayed on the display unit 11.
[0033]
Further, the button determination unit 26A of the main control unit 26 determines whether or not there is an operation button on the touch position coordinates corresponding to the touch position on the touch panel 12A (step S15). When it is determined that there is an operation button on the touch position coordinates, the main control unit 26 starts the vibration operation of the vibrator 12B through the vibrator control unit 25 (step S16). Note that the user of the in-vehicle information device apparatus 1 can tactilely recognize that the operation button is arranged at the touch position by the vibration operation of the vibrator 12B, and further visually check the button display of the display unit 11. By doing so, the contents of the button function can be recognized.
[0034]
Further, the main control unit 26 determines whether or not a special operation such as a button operation of the determination button 12C or a double click operation is detected at the touch position coordinates corresponding to the touch position through the special operation detection unit 24 ( Step S17).
[0035]
When the command input unit 26B of the main control unit 26 detects a special operation through the special operation detection unit 24, the command input unit 26B notifies the output control unit 27 of an information command related to the button function of the operation button corresponding to the touch position. Then, the output control unit 27 executes a control operation related to the button function of the operation button corresponding to the touch position based on this information command (step S18), and operates in step S16 through the vibrator control unit 25. By stopping the vibration operation of the vibrator 12B that has been started (step S19), this processing operation is terminated.
[0036]
If the touch operation is not detected in step S11 or if there is no operation button on the touch position coordinate corresponding to the touch position in step S15, this processing operation is terminated.
[0037]
If no special operation is detected in step S17, the control unit 20 determines whether or not a touch release for canceling the touch operation is detected through the touch coordinate detection unit 21 (step S20). If the touch control is detected, the vibrator control unit 25 of the control unit 20 stops the vibration operation of the vibrator 12B that started the operation in step S16 (step S21), and proceeds to step S11. When the touch release is detected in step S20, the cursor displayed on the display unit 11 is also erased from the display screen.
[0038]
If no touch release is detected in step S21, the process proceeds to step S20 to continue monitoring the special operation detection by the special operation detection unit 24.
[0039]
According to the first embodiment, when it is determined that an operation button is disposed at a touch position on the touch panel 12A of the touch panel operation unit 12, the vibrator 12B provided at the lower part of the touch panel 12A is vibrated. Therefore, even if the user of the in-vehicle information device apparatus 1 does not move his / her line of sight to the touch panel operation unit 12, the user can tactilely recognize the position of the operation button by the vibration operation of the vibrator 12B provided in the touch panel operation unit 12. As a result, the burden on the user when operating the buttons can be greatly reduced.
[0040]
(Embodiment 2)
FIG. 5 is a block diagram showing a schematic configuration inside the in-vehicle information equipment device showing the second embodiment. In addition, about the structure same as the vehicle-mounted information equipment apparatus 1 which shows 1st Embodiment of FIG. 1, the same code | symbol is attached | subjected and description about the overlapping structure and operation | movement is abbreviate | omitted.
[0041]
The difference between the in-vehicle information device 1A shown in FIG. 5 and the in-vehicle information device 1 shown in FIG. 1 is that it has a function of changing the vibration pattern of the vibrator 12B based on the execution frequency ranking of the operation buttons. It is in.
[0042]
The in-vehicle information device device 1A includes an execution number counting unit 31 that counts the number of executions of an operation button, an execution number storage unit 32 that stores the number of executions counted by the execution number counting unit 31 for each operation button, and a button When the determination unit 26A determines that the operation button is arranged at the touch position coordinate of the touch position, the number of executions corresponding to each operation button is read, and the touch position is determined based on the number of executions of each operation button. A vibration pattern control unit 33 that calculates the execution frequency rank corresponding to the coordinate operation button, reads the vibration pattern value corresponding to the execution frequency rank, and sets the vibration pattern value in the vibrator control unit 25; Yes.
[0043]
It is assumed that the vibration pattern control unit 33 stores and holds different vibration pattern values for each execution frequency order. The vibration pattern value corresponds to the ON / OFF cycle of the vibrator 12B, and the vibration cycle of the vibrator 12B is changed by changing the ON / OFF cycle.
[0044]
Next, the operation of the in-vehicle information device device 1A showing the second embodiment will be described. FIG. 6 is a flowchart showing the processing operation of the control unit 20 related to the second touch panel operation process of the in-vehicle information device device 1A according to the second embodiment.
[0045]
The second touch panel operation process shown in FIG. 6 is a process of vibrating the vibrator 12B with a vibration pattern corresponding to the execution frequency order of the operation buttons when it is determined that there is an operation button at the touch position on the touch panel 12A. is there.
[0046]
In FIG. 6, the control unit 20 determines whether or not the touch coordinate detection unit 21 has detected a touch operation on the touch panel 12A (step S31). When the touch coordinate detection unit 21 detects a touch operation, the touch coordinate detection unit 21 detects a touch position coordinate corresponding to the touch position (step S32).
[0047]
The display coordinate conversion unit 22 converts the touch position coordinates detected by the touch coordinate detection unit 21 into display position coordinates on the display screen (step S33). Further, the display control unit 23 displays a cursor on the display position coordinates corresponding to the touch position based on the display position coordinates converted by the display coordinate conversion unit 22 (step S34).
[0048]
Further, the button determination unit 26A of the main control unit 26 determines whether or not there is an operation button on the touch position coordinate of the touch position on the touch panel 12A (step S35).
[0049]
When the button determination unit 26A determines that there is an operation button on the touch position coordinates, the vibration pattern control unit 33 reads out the number of executions of each operation button from the execution number storage unit 32 (step S36), and each operation button Based on the number of execution times, the execution frequency order corresponding to the operation buttons on the touch position coordinates is calculated (step S37).
[0050]
Further, the vibration pattern control unit 33 reads out the vibration pattern value corresponding to the execution frequency order (step S38), and sets the vibration pattern value in the vibrator control unit 25 so that the vibration pattern value is vibrated based on the vibration pattern value. The vibration operation of the child 12B is started (step S39). It should be noted that the user of the in-vehicle information device apparatus 1A can tactilely recognize that the operation button is arranged at the touch position by the vibration operation of the vibrator 12B, as well as the vibration of the vibrator 12B. The number of executions can be recognized by the pattern, and further, the contents of the button function can be recognized by viewing the button display of the display unit 11.
[0051]
Further, the main control unit 26 determines whether a special operation is detected on the touch position coordinates corresponding to the touch position through the special operation detection unit 24 (step S40).
[0052]
When the command input unit 26A of the main control unit 26 detects a special operation through the special operation detection unit 24, the command input unit 26A notifies the output control unit 27 of an information command related to the button function of the operation button corresponding to the touch position. Then, the output control unit 27 executes a control operation related to the button function of the operation button corresponding to the touch position based on this information command (step S41), and operates in step S39 through the vibrator control unit 25. The vibration operation of the started vibrator 12B is stopped (step S42).
[0053]
Then, the execution number counting unit 31 increments the execution number of the operation button that executed this control operation by +1 and updates it in the execution number storage unit 32 (step S43), and ends this processing operation.
[0054]
If no touch operation is detected in step S31, or if there is no operation button on the touch position coordinates corresponding to the touch position in step S35, this processing operation is terminated.
[0055]
If no special operation is detected in step S40, the control unit 20 determines whether or not a touch release for releasing the touch operation has been detected through the touch coordinate detection unit 21 (step S44).
[0056]
When detecting the touch release, the vibrator control unit 25 of the control unit 20 stops the vibration operation of the vibrator 12B started in step S39 (step S45), and proceeds to step S31. When the touch release is detected in step S44, the cursor display being displayed on the display unit 11 is erased from the display screen.
[0057]
If the touch release is not detected in step S44, the process proceeds to step S45 in order to continue monitoring the special operation detection by the special operation detection unit 24.
[0058]
According to the second embodiment, when it is determined that an operation button is arranged at the touch position on the touch panel 12A of the touch panel operation unit 12, the touch position is related to the number of execution times of each operation button. Since the execution frequency rank of the operation buttons is calculated, the vibration pattern value corresponding to the execution frequency rank is read, and the vibrator 12B is vibrated based on the vibration pattern value. Is capable of tactilely recognizing the arrangement position of the operation button by the vibration operation of the vibrator 12B without moving the line of sight to the touch panel operation unit 12, and the execution related to the operation button at the touch position by the vibration pattern value. The number of times can be recognized, and as a result, the burden on the user when operating the buttons can be greatly reduced.
[0059]
In the second embodiment, the ON / OFF cycle of the vibrator 12B is used as the vibration pattern value. However, when a vibration motor is used as the vibrator 12B, for example, In the case where a piezoelectric ceramic element is used as the vibrator 12B using the rotation speed, an input voltage amplitude value or a signal frequency may be used.
[0060]
(Embodiment 3)
Next, an in-vehicle information equipment device showing a third embodiment will be described. FIG. 7 is a block diagram showing a schematic configuration inside the in-vehicle information equipment device according to the third embodiment. In addition, about the structure same as the vehicle-mounted information equipment apparatus 1 which shows 1st Embodiment shown in FIG. 1, the same code | symbol is attached | subjected and description about the overlapping structure and operation | movement is abbreviate | omitted.
[0061]
7 is different from the in-vehicle information device 1 shown in FIG. 1 in that the display area and the touch determination area corresponding to the operation button are variable based on the execution frequency ranking of the operation button. It has the function of The touch determination area corresponds to the touch area of the operation button on the touch panel 12A, and is an area for determining whether or not the operation button is arranged at the touch position by the button determination unit 26A.
[0062]
The in-vehicle information device apparatus 1B shown in FIG. 7 counts with the execution number counting unit 41 that counts the number of executions of the operation buttons and the execution number counting unit 41 instead of the vibrator 12B and the vibrator control unit 25. The execution count storage unit 42 that stores the execution count for each operation button, and when the button determination unit 26A determines that the operation button is arranged at the touch position coordinate of the touch position, the execution count corresponding to each operation button Is calculated, the execution frequency rank of each operation button is calculated based on the execution frequency of each operation button, the setting pattern value corresponding to the execution frequency rank of each operation button is read, and the setting pattern value corresponding to each operation button is read Corresponding to each operation button based on the setting pattern value set by the setting pattern control unit 43 and the setting pattern control unit 43 A display area control unit 44 for changing the display region, on the basis of the setting pattern value, and a touch panel control unit 45 for changing the touch decision area corresponding to each operation button.
[0063]
The setting pattern control unit 43 stores and holds setting pattern values for setting the display area and the touch determination area for each execution frequency order. This setting pattern value is executed when, for example, the execution frequency order has five stages. This is a setting value for changing the size to 1.5 times, 1.2 times, 1 time, 0.8 times, and 0.5 times the size of the standard display area and the standard touch determination area in descending order.
[0064]
Next, operation | movement of the vehicle-mounted information equipment apparatus 1B which shows 3rd Embodiment is demonstrated. FIG. 8 is a flowchart showing the processing operation of the control unit 20 related to the third touch panel operation processing of the in-vehicle information device device 1B according to the third embodiment.
[0065]
The third touch panel operation process shown in FIG. 8 is based on the execution frequency order of each operation button arranged on the touch panel 12A, and the display area of the display unit 11 corresponding to each operation button and the touch of the touch panel operation unit 12. This is a process for controlling the determination area.
[0066]
In FIG. 8, the control unit 20 determines whether the touch operation on the touch panel 12A is detected by the touch coordinate detection unit 21 (step S51). When the touch coordinate detection unit 21 detects a touch operation, the touch coordinate detection unit 21 detects a touch position coordinate corresponding to the touch position (step S52).
[0067]
The display coordinate conversion unit 22 converts the touch position coordinates detected by the touch coordinate detection unit 21 into display position coordinates on the display screen (step S53). Further, the display control unit 23 displays a cursor on the display position coordinates corresponding to the touch position based on the display position coordinates converted by the display coordinate conversion unit 22 (step S54).
[0068]
Further, the button determination unit 26A of the main control unit 26 determines whether or not there is an operation button on the touch position coordinate of the touch position on the touch panel 12A (step S55).
[0069]
If the main control unit 26 determines that there is an operation button on the touch position coordinate by the button determination unit 26A, has the special control detection unit 24 detected the special operation at the touch position coordinate corresponding to the touch position? It is determined whether or not (step S56).
[0070]
Further, when the command input unit 26B of the main control unit 26 detects a special operation through the special operation detection unit 24, the command input unit 26B notifies the output control unit 27 of an information command related to the button function of the operation button corresponding to the touch position. Then, the output control unit 27 executes the control operation related to the button function of the operation button corresponding to the touch position based on this information command (step S57), and executes this control operation through the execution number counting unit 41. The number of executions of the operation button is incremented by +1 and stored and updated in the execution number storage unit 42 (step S58).
[0071]
Next, the main control unit 26 determines whether or not to update the display screen being displayed on the display unit 11 through the display control unit 23 (step S59). The update of the display screen means that each operation button has a plurality of levels. For example, when a special operation is performed on the operation button for selecting the CD mode from the source selection mode screen, the next level playback is performed. The level of the operation button for selecting a function or the like is shifted. In response to the level shift, the display screen of the display unit 11 is similarly shifted from the source selection mode screen to the CD function screen. This means that the display screen corresponding to the same hierarchy is shifted in conjunction with the hierarchy shift.
[0072]
If the display screen being displayed on the display unit 11 is to be updated, the setting pattern control unit 43 reads the display screen, that is, the number of executions of the operation buttons in the same hierarchy from the execution number storage unit 42 (step S60). Based on the number of executions of each operation button, the execution frequency rank of each operation button is calculated (step S61), and the setting pattern value corresponding to the execution frequency rank of each operation button is read (step S62).
[0073]
Then, the setting pattern control unit 43 sets a setting pattern value corresponding to the execution frequency order of each operation button through the display area control unit 44, controls the display area of the button display of each operation button, and touch panel control unit The setting pattern value corresponding to the execution frequency rank of each operation button is set through 45, the touch determination area of each operation button is controlled (step S63), and the process proceeds to step S51.
[0074]
If no special operation for the operation button at the touch position is detected in step S56, the control unit 20 determines whether the touch release is detected through the touch coordinate detection unit 21 (step S64).
[0075]
If the touch release is detected in step S64, the process proceeds to step S51 in order to detect a new touch operation. If the touch release is not detected in step S64, the process proceeds to step S56 in order to continue monitoring the special operation detection by the special operation detection unit 24.
[0076]
If the touch operation is not detected in step S51, or if there is no operation button at the touch position in step S55, or if the display screen is not updated in step S59, this processing operation is terminated.
[0077]
According to the third embodiment, the number of executions of each operation button on the same level arranged on the touch panel 12A of the touch panel operation unit 12 is read, and each operation on the same level is determined based on the number of executions of each operation button. The execution frequency rank corresponding to the button is calculated, the setting pattern value corresponding to the execution frequency rank of each operation button is read, and the display area of the display unit 11 corresponding to each operation button and the touch panel operation are read based on these setting pattern values Since the setting of the touch determination area of the unit 12 is changed, the user of the in-vehicle information device device 1B does not have to move the line of sight to the touch panel operation unit 12 when trying to operate an operation button with a large number of executions, for example. The number of executions corresponding to the operation button can be visually recognized by the button display on the display unit 11, and the touch determination can be performed. Since the band is widened, touch operation to this operation button is also good.
[0078]
In the third embodiment, the size of the display area of the button display is changed based on the setting pattern value corresponding to the execution frequency order. However, the shape, color, etc. of the display area are changed. Also good.
[0079]
In the third embodiment, the display area and the touch determination area corresponding to each operation button are controlled for all operation buttons arranged on the same level on the touch panel 12A. The display area and the touch determination area may be controlled only for the operation buttons at the touch position among the operation buttons arranged in the same hierarchy.
[0080]
In the above-described embodiment, the execution pattern storage unit 32 (42) stores and holds setting pattern values, vibration pattern values, and the like for each execution frequency rank. Alternatively, the vibration pattern value may be stored and held.
[0081]
Furthermore, in the above-described embodiment, the in-vehicle information device 1 (1A, 1B) such as a car audio device has been described as an example. However, an information device including the touch panel operation unit 12 and the display unit 11, for example, Needless to say, the present invention can be applied to information devices such as home personal computers, PDAs, ticket vending machines, game machines, and information devices for visually impaired persons, and the same effects can be obtained.
[0082]
【The invention's effect】
According to the information equipment device of the present invention configured as described above, the operation unit is informed of the position of the operation button during the button display identification display by the display unit. The user can recognize the position (touch determination area) of the operation button through the external notification unit without moving his / her line of sight to the operation unit, which greatly reduces the burden on the user when operating the button. can do.
[0083]
In addition, according to the information device apparatus of the present invention, the vibrator provided in the operation unit is vibrated to notify the outside of the position of the operation button in the operation unit. Even if the line of sight is not shifted to the part, the position of the operation button can be tactilely recognized by the vibration operation of the vibrator provided in the operation part.
[0084]
Further, according to the information equipment device of the present invention, it is determined that the operation button is arranged at the touch position coordinate of the touch position, and the number of executions corresponding to the operation button is read from the execution number storage unit, Based on this, the vibration pattern of the vibrator is controlled, so that the user of the information equipment device can sense the number of executions corresponding to the operation button with the vibration pattern of the vibrator without moving the line of sight to the operation unit. Can be recognized.
[0085]
Further, according to the information equipment device of the present invention, it is determined that the operation button is arranged at the touch position coordinate of the touch position, and the number of executions corresponding to the operation button is read from the execution number storage unit, On the basis of this, the display area corresponding to this operation button and the touch determination area of the touch panel operation part are controlled. For example, in the case of an operation button having a large number of executions, the display area and touch corresponding to this operation button are displayed. Since the control is performed so that the determination area is widened, the user of the information equipment device can display the button on the display unit without moving the line of sight to the touch panel operation unit, for example, when operating the operation button with a large number of executions. The number of executions corresponding to the operation button can be visually recognized, and the touch determination area is widened. Touch operation also becomes good.
[0086]
Further, according to the information equipment device of the present invention, since the vibration pattern of the vibrator is controlled based on the number of executions of each operation button stored in the execution number storage unit, the user of the information equipment device Even without moving the line of sight to the touch panel operation unit, it is possible to tactilely recognize the position of the operation button by the vibration operation of the vibrator provided in the touch panel operation unit. It is possible to tactilely recognize the number of executions corresponding to the operation button, and as a result, it is possible to greatly reduce the burden on the user when operating the button.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a schematic configuration inside an in-vehicle information equipment device showing a first embodiment of the information equipment device of the present invention.
FIG. 2 is a perspective view illustrating a schematic configuration of a touch panel operation unit of the in-vehicle information device device according to the first embodiment.
FIG. 3 is a cross-sectional view taken along the line AA of the touch panel operation unit of the in-vehicle information device device showing the first embodiment.
FIG. 4 is a flowchart showing a processing operation of a control unit related to a first touch panel operation process of the in-vehicle information device device showing the first embodiment.
FIG. 5 is a block diagram showing a schematic configuration inside an in-vehicle information device device showing a second embodiment;
FIG. 6 is a flowchart showing a processing operation of a control unit related to a second touch panel operation process of the in-vehicle information device device showing the second embodiment.
FIG. 7 is a block diagram showing a schematic configuration inside an in-vehicle information equipment device showing a third embodiment;
FIG. 8 is a flowchart showing a processing operation of a control unit related to a third touch panel operation process of the in-vehicle information device device showing the third embodiment.
[Explanation of symbols]
1 (1A, 1B) In-vehicle information equipment (information equipment)
11 Display
12 Touch panel operation unit (operation unit)
12A touch panel
12B vibrator (external notification unit)
20 Control unit
21 Touch coordinate detector
23 Display controller
24 Special operation detector
25 Vibrator controller
26A Button judgment part
26B Command input section
31 (41) Execution count section
32 (42) Execution count storage unit
33 Vibration pattern controller
43 Setting pattern controller
44 Display area controller
45 Touch panel controller

Claims (3)

A display unit for displaying information, an operation unit configured by arranging operation buttons in software on position coordinates on the touch panel in order to input an information command for each operation button, and an information command input by this operation unit An information equipment device having a control unit that executes a control operation based on
Wherein a display control section for identification on the display unit of the operation buttons as buttons displayed on the identification in the display of the button display by the display unit in the display control unit, the position of the operation button in the operation unit by the vibration of the vibrator provided on the operation unit possess an external notification unit for external notification,
The controller is
A vibrator control unit that vibrates the vibrator to externally notify the position of the operation button in the operation unit;
A touch coordinate detection unit that detects a touch position of the touch panel using touch position coordinates;
A button determination unit for determining whether or not an operation button is arranged at the touch position coordinates detected by the touch coordinate detection unit;
When it is determined by the button determination unit that an operation button is arranged at the touch position coordinates, a special operation determination unit that determines whether a special operation of the operation unit is detected,
When it is determined that the special operation is detected by the special operation determination unit, a command input unit that inputs an information command corresponding to the operation button at the touch position;
An execution count section for counting the number of executions of the control operation corresponding to each operation button;
An execution number storage unit that stores the number of executions counted by the execution number counting unit for each operation button;
When the button determination unit determines that the operation button is arranged at the touch position coordinate of the touch position, the execution number corresponding to the operation button is read from the execution number storage unit, and based on the execution number, A vibration pattern control unit for controlling the vibrator control unit to control a vibration pattern of the vibrator;
Information device system characterized by have a. The controller is
When operating in the touch position coordinates button of the touch position in front Symbol button determination unit is determined to be located, read the number of executions corresponding to the operation button from the execution frequency storage unit, based on the number of executions, A display area control unit for controlling the display area of the button display corresponding to the operation button;
Based on the execution count read by the execution frequency storage unit, corresponding to the operation button, according to claim 1, characterized in that it has a touch panel control unit that controls the touch decision area on the touch panel Information equipment device. An information device apparatus having a touch panel operation unit that inputs an information command for each operation button and a control unit that executes a control operation based on the information command input by the touch panel operation unit,
Having a vibrator provided in the touch panel operation section;
The controller is
A vibrator control unit that vibrates a vibrator provided in the touch panel operation unit to externally notify the position of the operation button in the touch panel operation unit;
An execution count section for counting the number of executions of the control operation corresponding to each operation button;
An execution number storage unit that stores the number of executions counted by the execution number counting unit for each operation button;
And a vibration pattern control unit that controls the vibrator control unit to control the vibration pattern of the vibrator based on the number of execution times of each operation button stored in the execution number storage unit. Information equipment device.

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