JP2020160787A - Control device - Google Patents

Abstract

To provide a control device that can suppress the decrease in operability.SOLUTION: An input control system 1 includes an input device 2 with an operation surface, a display device 5 including a display region where an image to be operated is displayed, and a control device 6. The control device 6 includes an operation region that can receive various input information in the operation surface of the input device 2, the operation region is sectioned into a plurality of input regions, and the control device 6 includes a control unit 60 that fixedly assigns a particular function to the information input to each input region.SELECTED DRAWING: Figure 1

Description

The present invention relates to a control device.

As a conventional technique, there is known an input device provided in a vehicle and displaying an input content operated by a driver on a display unit provided in the vehicle (see, for example, Patent Document 1).

This input device includes a touch pad provided on the steering wheel of the vehicle.

JP-A-2018-127013

In the case of a remote control system that is not a touch panel that directly touches the screen, intuitive operation is difficult unless the touch pad supports the screen configuration of the display screen.

Therefore, an object of the present invention is to provide a control device capable of suppressing a decrease in operability.

One aspect of the present invention has an operation area capable of receiving various input information, the operation area is divided into a plurality of input areas, and a specific function is provided for information input to each of the plurality of input areas. Provided is a control device having a control unit for which is fixedly assigned.

According to the present invention, a decrease in operability can be suppressed.

FIG. 1A is a schematic view showing an example of the inside of the vehicle according to the embodiment, and FIG. 1B is an example of a block diagram of an input control system. FIG. 2A is a schematic view showing an example of a projection area of the display device according to the embodiment, and FIG. 2B is a schematic view showing an example of steering. FIG. 3A is a schematic view showing an example of the left touchpad unit according to the embodiment, and FIG. 3B is an example of a cross-sectional view of the touchpad unit. FIG. 4A is a schematic view showing an example of a left display area of the projection area according to the embodiment, and FIG. 4B is a schematic view for explaining an example of division of the left touchpad. FIG. 4 (c) is a schematic view showing an example of a right display area of the projection area, and FIG. 4 (d) is a schematic view for explaining an example of division of the right touch pad. FIG. 5A is a schematic view showing an example of an icon displayed in the menu display area according to the embodiment and having a shape and arrangement forming a triangle as a whole, and FIG. 5B is a menu input. FIG. 5 (c) is a schematic view showing an example of division of a region, FIG. 5 (c) is a schematic view showing an example of icons having shapes and arrangements forming a hexagon as a whole, and FIG. 5 (d) is a menu. It is the schematic which shows an example of the division of an input area. FIG. 6A is a schematic view showing an example of an icon displayed in the menu display area according to the embodiment, and FIG. 5B is a schematic view showing an example of division of the menu input area. FIG. 6C is a schematic view showing an example of a menu display area for displaying two icons, and FIG. 6D is a schematic view showing an example of division of the menu area. FIG. 7 is a flowchart showing an example of the operation of the input control system according to the embodiment.

(Summary of Embodiment)
The control device according to the embodiment has an operation area capable of receiving various input information, the operation area is divided into a plurality of input areas, and the information input to each of the plurality of input areas is specified. It is roughly configured with a control unit that fixedly assigns the functions of.

Since this control device can be operated intuitively, it is possible to suppress a decrease in operability.

[Embodiment]
(Overview of Input Control System 1)
FIG. 1A is a schematic view showing an example of the inside of a vehicle, and FIG. 1B is an example of a block diagram of an input control system. FIG. 2A is a schematic view showing an example of a projection area of a display device, and FIG. 2B is a schematic view showing an example of steering. FIG. 3A is a schematic view showing an example of the touchpad unit on the left side, and FIG. 3B is an example of a cross-sectional view of the touchpad unit.

In each figure according to the embodiment described below, the ratio between the figures may differ from the actual ratio. Further, in FIG. 1B, the main signals and information flows are indicated by arrows.

As shown in FIGS. 1A to 2B, the input control system 1 controls an input device 2 having an operation surface 30a, a display device 5 having a display area on which an image to be operated is displayed, and a control device 5. It is roughly configured with the device 6.

The control unit 60 has an operation area capable of receiving various input information, the operation area is divided into a plurality of input areas, and a specific function is fixed to the information input to each of the plurality of input areas. It is configured to be assigned by. Further, the control device 6 is roughly configured to include a control unit 60 that associates the input area of the input device 2 that executes the function assigned to the specific image displayed on the display device 5 with the display position of the specific image. There is. The operation area of the present embodiment is the operation surface 30a of the input device 2.

The control unit 60 divides the operation surface 30a into a plurality of input areas according to the display positional relationship of a specific image.

Further, the control unit 60 divides the shape of the input region according to the shape of the operation surface 30a. For example, in FIGS. 4A and 4B, the first input area 301a to the first input area 301d have a shape corresponding to the menu input area 301 of the operation surface 30a.

The control unit 60 is configured to allocate a function to each of the divided input areas. Further, the control unit 60 is roughly configured so as to divide the operation area so that one function is assigned to one corner or side of the operation area.

The input control system 1 is configured so that, for example, the in-vehicle device of the vehicle 8 can be operated as the operation target device 89. As an example, the in-vehicle device is an air conditioner, a music and video reproduction device, a navigation device, a vehicle control device capable of making various settings related to the vehicle 8 such as seat arrangement and automatic driving.

As an example, as shown in FIG. 1A, the vehicle 8 is arranged on the meter display 84 arranged on the meter panel 83, the main display 86 arranged on the center console 81b, and the instrument panel 81c, and is arranged on the windshield 88. A head-up display 87 that projects a display object onto the projection area 870 of the windshield 88, and a display device such as a room mirror monitor 880 arranged on the windshield 88 are provided.

The input control system 1 is configured to display a hierarchical GUI display screen on at least one of these display devices. The input control system 1 of the present embodiment is configured to display the GUI in the projection area 870 of the head-up display 87 as the display device 5, for example, as shown in FIG. 2A. On the display screen of this GUI, functions and setting values that can be controlled by the input control system 1 are displayed as images.

(Configuration of input device 2)
As shown in FIG. 1B, the input device 2 of the present embodiment includes a touch pad unit 2a and a touch pad unit 2b.

The touch pad unit 2a and the touch pad unit 2b are arranged on the left and right spoke portions (spoke portions 851 and spoke portions 852) of the steering wheel 85, for example, as shown in FIG. 2 (b). The spoke portions 851 and spoke portions 852 connect a base portion 850 on which an alarm, an airbag, or the like is arranged and a ring portion 853 gripped by the user. Further, as shown in FIG. 2B, for example, the spoke portions 851 and the spoke portions 852 extend substantially horizontally at the steering position in which the vehicle 8 is traveling straight, and connect the base portion 850 and the ring portion 853.

The touch pad unit 2a and the touch pad unit 2b can be operated by the user in a state where the ring portion 853, the spoke portion 851, and the spoke portion 852 are gripped by the left hand 9a and the right hand 9b. In FIG. 2B, the user is performing the operation by tracing the operation surface 30a using the operation finger 90 (thumb of the left hand 9a) while holding the steering wheel 85. The input control system 1 may be configured to include either the touch pad unit 2a or the touch pad unit 2b.

Further, the input device 2 is not limited to the touch pad unit 2a and the touch pad unit 2b, and may be configured by using the touch pad 82 of the floor console 81a located between the driver's seat 80a and the passenger's seat 80b, or the center. A touch pad arranged on the console 81b or the door trim 81d may be used.

Each of the touch pad unit 2a and the touch pad unit 2b is roughly configured with a touch pad 3 and a switch 4. The user operates a plurality of functions of the operation target device 89 by using the touch pad unit 2a and the touch pad unit 2b.

When the operation target device 89 is an air conditioner, the functions include, for example, a function of adjusting the temperature, a function of adjusting the air volume, a function of switching the air outlet, and the like. When the operation target device 89 is a music and video playback device, the functions include, for example, a function of playing content, a function of fast-forwarding content, a function of fast-rewinding content, and a function of selecting content. When the operation target device 89 is a navigation device, the functions include, for example, a function of setting a destination, a function of selecting a route to a searched destination, a function of selecting a destination from a history, and a function of registering a registered location. Functions include a function to switch the scale of the displayed map. When the operation target device 89 is a vehicle control device, the functions include a function for adjusting the volume, a function for adjusting the sound quality, a function for adjusting the brightness of the display device, a function for setting the position of the seat cushion and the backrest, and the function for setting the position of the seat cushion and the backrest. It is a function to set each setting of the device that assists driving.

(Structure of touchpad 3)
As shown in FIGS. 3A and 3B, the touchpad 3 of the touchpad unit 2a includes a main body 30 having a rectangular operation surface 30a. The main body 30 is provided with ribs 31 around it. As an example, the touch pad 3 of the touch pad unit 2b has the same shape as the touch pad 3 of the touch pad unit 2a. The shape of the touch pad 3 is not limited to this. Hereinafter, the touch pad unit 2a will be mainly described.

The touch pad 3 is configured to detect a touch input and a tracing operation on the operation surface 30a. As the touch pad 3, for example, a touch pad such as a resistive film type or a capacitance type can be used. As an example, the touch pad 3 of the present embodiment uses a capacitance type touch pad.

Further, the touch pad 3 is arranged so that the plurality of drive electrodes and the plurality of detection electrodes intersect with each other while maintaining insulation. The drive electrode and the detection electrode are attached to a member made of, for example, glass or polycarbonate. Since the touch pad 3 of the present embodiment is pushed with respect to the operation surface 30a, it is made of a hard resin such as polycarbonate, which is hard to bend by the push operation.

The touch pad 3 scans all combinations of the plurality of drive electrodes and the plurality of detection electrodes, reads out the capacitance of each combination, and uses the capacitance information for one cycle as detection information in the control device 6. Output. Note touchpad 3 touchpad unit 2a periodically outputs the detection information S ₁ to the control device 6. Further, the touch pad 3 of the touch pad unit 2b periodically outputs the detection information S ₃ to the control device 6.

As shown in FIGS. 2 (a) and 2 (b), the touch pad 3 is attached to the housing 10 so that the operation surface 30a is exposed from the opening 11. The housing 10 has, for example, a box shape having an opening 11 on the upper surface. As shown in FIG. 2B, the opening 11 is formed by a protruding portion 13 projecting inward from the inner side surface 12 of the upper portion of the housing 10. The lower surface 130 of the protrusion 13 faces the upper surface 310 of the rib 31 of the touch pad 3.

In the touch pad 3, the switch 4 and the first elastic body 15 to the fourth elastic body 18 are arranged between the back surface 30b and the bottom surface 14 of the housing 10.

The switch 4 and the first elastic body 15 to the fourth elastic body 18 apply an elastic force to the touch pad 3, and the upper surface 310 of the rib 31 of the touch pad 3 is the lower surface 130 of the protrusion 13 of the housing 10. Is pressed against. The touch pad 3 is prevented from coming off the housing 10 by the contact between the rib 31 and the protruding portion 13. In the input device 2, an elastic body may be arranged between the upper surface 310 and the lower surface 130.

The user can make a selection decision (selection decision) by, for example, performing a push operation on the touch pad 3.

The operation surface 30a of the touch pad 3 is divided into a menu input area 301 and a direct input area 302 by a dotted line on the paper surface of FIG. 3A, for example. The dotted line shown in FIG. 3A is a line drawn for explanation and is not a line actually drawn. The line that divides the menu input area 301 and the direct input area 302 may be formed on the operation surface 30a by printing or the like.

Here, the touch pad 3 on the right side has an arrangement in which the touch pad 3 on the left side, the menu input area 301, and the direct input area 302 are interchanged. That is, the direct input area 302 is set on the ring portion 853 side of the steering 85, and the menu input area 301 is set on the base 850 side. This is because the direct input area 302 is arranged at a position where touch input is easy while the steering wheel 85 is gripped, and the menu input area 301 is arranged at a position where the operating finger is extended and traced easily.

The direct input area 302 is divided into a first touch area 302d to a third touch area 302f with a dotted line on the right side of the paper surface in FIG. 3A as a boundary.

As shown in FIG. 2A, the menu input area 301 of the touch pad 3 of the touch pad unit 2a is an area in which the menu displayed in the menu display area 874 of the projection area 870 can be scrolled up and down. Further, as shown in FIG. 2A, the menu input area 301 of the touch pad 3 of the touch pad unit 2b is an area in which the menu displayed in the menu display area 876 of the projection area 870 can be scrolled up and down. .. The menu input area 301 is not limited to scrolling menus and the like, and may allow movement of the cursor and the like.

As shown in FIG. 2A, in the direct input area 302 of the touch pad 3 of the touch pad unit 2a, the first touch area 302a to the third touch area 302c are displayed in the direct display area 875 of the projection area 870. It corresponds to the icon 875a to the icon 875c as a specific image. The user can select a desired icon from the icons 875a to 875c by performing touch input in the touch area of the direct input area 302 on the touch pad unit 2a side.

The icon 875a is assigned a function of returning to the state before the processing when the processing instructed via the touch pad 3 on the left side is performed. The icon 875b is assigned a function to raise the volume. The icon 875c is assigned a function of lowering the volume.

In the direct input area 302 of the touch pad 3 of the touch pad unit 2b, as shown in FIG. 2A, the first touch area 302d to the third touch area 302f are displayed in the direct display area 877 of the projection area 870. It corresponds to the icon 877a to the icon 877c as a specific image. The user makes a desired touch input from the icons 877a to 877c by performing a touch input to any of the first touch areas 302d to the third touch area 302f of the direct input area 302 of the touch pad 3 of the touch pad unit 2b. You can select the icon.

The icon 877a is assigned a function of returning to the state before the processing when the processing instructed via the touch pad 3 on the right side is performed. The icon 877b is assigned an auto-cruise control function, which is a driving assistance function. The icon 877c is assigned a lane keep assist function, which is a driving assistance function.

The control device 6 sets an absolute coordinate system suitable for touch input with respect to the direct input area 302 of the touch pad 3. Further, the control device 6 sets a relative coordinate system or an absolute coordinate system with respect to the menu input area 301 according to the display of the display device 5. The control device 6 sets the relative coordinate system in the menu input area 301 when the trace operation is suitable, and sets the absolute coordinate system in the menu input area 301 when the touch input is suitable.

(Configuration of switch 4)
As shown in FIGS. 2A and 2B, the switch 4 is arranged near the center of the operation surface 30a. The switch 4 is a micro switch that detects the push-down of the touch pad 3, that is, the push operation performed on the operation surface 30a.

The switch 4 applies an elastic force so that the touch pad 3 and the housing 10 come into contact with each other. Therefore, an initial load (preload) is applied to the switch 4.

The switch 4 is configured so that the button 40 is pushed by the push operation to turn on, and when the push operation is completed, the button 40 returns to the original position and turns off as the touch pad 3 rises. The switch 4 is not limited to a mechanical switch such as a micro switch, and may be a non-contact switch using a magnetic sensor or the like, or a load sensor that detects a push operation by detecting a load associated with the push operation. good.

When the switch 4 is turned on, the switch 4 outputs a switch signal to the control device 6. The switch 4 of the touch pad unit 2a outputs the switch signal S ₂ to the control device 6. Further, the switch 4 of the touch pad unit 2b outputs the switch signal S ₄ to the control device 6.

(Structure of 1st elastic body 15 to 4th elastic body 18)
As the first elastic body 15 to the fourth elastic body 18, for example, a sponge, a coil spring, rubber, or the like can be used. The first elastic body 15 to the fourth elastic body 18 of the present embodiment are coil springs as an example.

The first elastic body 15 to the fourth elastic body 18 are arranged at the four corners of the touch pad 3. The first elastic body 15 to the fourth elastic body 18 support the touch pad 3 and apply an elastic force to the touch pad 3 in the direction opposite to the push operation direction.

(Configuration of display device 5)
The display device 5 is an organic EL (= Electro-Luminescence) display, a liquid crystal display, a head-up display, or the like. As described above, the display device 5 of the present embodiment is a head-up display 87. The display device 5 performs a display suitable for touch input in an absolute coordinate system.

As shown in FIG. 2A, the projection area 870 of the head-up display 87 has a left display area 871, a right display area 872, and a center display area 873.

The left display area 871 is a display area corresponding to the touch pad 3 arranged on the left side of the steering wheel 85. The left display area 871 includes a menu display area 874 and a direct display area 875.

The menu display area 874 is an area for displaying a menu, an icon, a cursor, or the like that is a specific image by the menu input area 301 of the touch pad unit 2a. The display area on which the specific image of the present embodiment is displayed is the menu display area 874.

The direct display area 875 is an area for displaying corresponding to the first touch area 302a to the third touch area 302c of the direct input area 302 of the touchpad unit 2a.

The right display area 872 is a display area corresponding to the touch pad 3 arranged on the right side of the steering wheel 85. The right display area 872 includes a menu display area 876 and a direct display area 877.

The menu display area 876 is an area for displaying a menu, an icon, a cursor, or the like that is a specific image by the menu input area 301 of the touch pad unit 2b. The display area on which the specific image of the present embodiment is displayed is the menu display area 874.

The direct display area 877 is an area for displaying corresponding to the first touch area 302d to the third touch area 302f of the direct input area 302 of the touch pad unit 2b.

By operating the menu input area 301 of the left and right touchpads 3, the user selects and determines the icons displayed in the menu display area 874 and the menu display area 876, scrolls the menu, operates the cursor, and the like. Can be done.

Further, the user can select and determine the icons displayed in the direct display area 875 and the direct display area 877 by operating the direct input areas 302 of the left and right touch pads 3.

In the central display area 873, the image 873a relating to the function selected and determined by the input device 2 is displayed.

(Configuration of control device 6)
The control unit 60 of the control device 6 is, for example, a CPU (= Central Processing Unit) that performs calculations and processing on the acquired data according to a stored program, a RAM (= Random Access Memory) 61 that is a semiconductor memory, and a ROM ( = Read Only Memory) and so on. In this ROM, for example, a program for operating the control unit 60 is stored. The RAM 61 is used, for example, as a storage area for temporarily storing a calculation result or the like. Further, the RAM 61 stores image information 890, which is image information to be displayed on the display device 5, acquired from the operation target device 89.

The control unit 60 generates display control information S ₅ based on the acquired image information 890 and controls the display device 5. Display device 5 displays an image based on the display control information S _5. Display device 5 of this embodiment, since the head-up display 87, and displays the image on the projection region 870 based on the display control information S _5.

Further, the control unit 60 generates the operation information S6 based on the operation performed on the touch pad 3 and the operation performed on the switch 4, and outputs the operation information S ₆ to the operation target device 89.

The control unit 60 divides the menu input area 301 into a plurality of input areas according to the display positional relationship of a specific image. The division of the menu input area 301 will be described below.

FIG. 4A is a schematic view showing an example of the left display area of the projection area, and FIG. 4B is a schematic view for explaining an example of division of the left touchpad. c) is a schematic view showing an example of a right display area of the projection area, and FIG. 4 (d) is a schematic view for explaining an example of division of the right touch pad. FIG. 4A is an image when "music playback" is selected by scrolling the menu list 878 displayed in the menu display area 874 of FIG. 2A.

In FIG. 2A, the menu list 878 displays three items of "music playback", "nearby restaurant", and "reminder", but other items are displayed by scrolling. ..

Icons 874a to 874d are displayed in two rows and two columns in the menu display area 874 of the left display area 871 shown in FIG. 4A. The icons 874a to 874d are displayed after screen transition is performed by scrolling the menu list 878 shown in FIG. 2A and selecting and determining "music playback".

A playback function, a registration function, a fast forward function, and a fast rewind function are assigned to the icons 874a to 874d. The functions of the icons 874a to 874d are executed by touch input. Therefore, when the touch pad 3 remains in the relative coordinate system, the touch input position does not necessarily match the position of the icon to be operated, so that it is difficult to operate the touch pad 3 without moving the line of sight to the left display area 871.

The control unit 60 switches the coordinate system set in the menu input area 301 from the relative coordinate system to the absolute coordinate system according to the positional relationship of the icons in order to correspond to the screen transition based on the acquired image information 890.

As shown in FIG. 4B, the control unit 60 divides the menu input area 301 into the first input area 301a to the fourth input area 301d and associates them with the icons 874a to 874d. The first input area 301a is provided in the upper left like the display position of the icon 874a in order to correspond to the display position of the icon 874a. Further, the control unit 60 also makes the second input area 301b to the fourth input area 301d correspond to the display positions of the icons 874b to 874d.

Icons 876a to 876d are displayed in two rows and two columns in the menu display area 876 of the right display area 872 shown in FIG. 4C. The icons 876a to 876d are displayed in the menu display area 876 by the touch operation of the direct input area 302 of the touch pad unit 2b on the right side.

A setting cancel function, a set speed (+) function, a set speed (−) function, and an inter-vehicle distance setting function are assigned to the icons 876a to 876d. The functions of the icons 876a to 876d are executed by touch input.

The control unit 60 switches the coordinate system set in the menu input area 301 from the relative coordinate system to the absolute coordinate system according to the positional relationship of the icons in order to correspond to the screen transition based on the acquired image information 890.

As shown in FIG. 4D, the control unit 60 divides the menu input area 301 into the fifth input area 301e to the eighth input area 301h and associates them with the icons 876a to 876d. The fifth input area 301e is provided in the upper right corner like the display position of the icon 876a in order to correspond to the display position of the icon 876a. Further, the control unit 60 also makes the sixth input area 301f to the eighth input area 301h correspond to the display positions of the icons 876b to 876d.

FIG. 5A is a schematic view showing an example of an icon having a shape and arrangement forming a triangle as a whole, and FIG. 5B is a schematic view showing an example of division of a menu input area. The icons 874a to 874c shown in FIG. 5A have a shape obtained by dividing a triangle. The alternate long and short dash line shown in FIGS. 5 (b), 5 (d), and 6 (b) indicates an icon as a reference for division. The boundaries of the input area are indicated by dotted lines.

The control unit 60 divides the menu input area 301 so as to include the vertices of the triangle and accepts the touch input. This division is made by a straight line connecting the center of each side of the triangle and the center of gravity of the triangle. By imagining each vertex of the triangle and touch-inputting, the user can perform a first input area 301a corresponding to the icon 874a, a second input area 301b corresponding to the icon 874b, and a third input area 301b corresponding to the icon 874c. The input area 301c can be operated.

FIG. 5 (c) is a schematic view showing an example of an icon having a shape and arrangement forming a hexagon as a whole, and FIG. 5 (d) is a schematic view showing an example of division of a menu input area. .. The icons 874a to 874f shown in FIG. 5C have hexagonal divided shapes.

The control unit 60 extends the boundary between adjacent icons to divide the menu input area 301 and accepts touch input. The user touch-inputs by imagining the outer peripheral side of the hexagon, so that the user can input the first input area 301a corresponding to the icon 874a, the second input area 301b corresponding to the icon 874b, and the third input area 301b corresponding to the icon 874c. It is possible to operate the input area 301c, the fourth input area 301d corresponding to the icon 874d, the fifth input area 301e corresponding to the icon 874e, and the sixth input area 301f corresponding to the icon 874f. ..

FIG. 6A is different from FIG. 5A in the arrangement of the icons. Therefore, FIG. 6B is different from FIG. 5A in the divided shape of the menu input area. The icons 874a to 874c shown in FIG. 6A have a shape divided by a line connecting each vertex and the center of gravity.

The control unit 60 divides the menu input area 301 so as to include the vertices of the triangle and the side connecting the vertices, and accepts the touch input. By touch-inputting the side of the triangle as an image, the user can input the first input area 301a corresponding to the icon 874a, the second input area 301b corresponding to the icon 874b, and the third input corresponding to the icon 874c. It becomes possible to operate the area 301c.

In FIG. 6C, two icons are arranged side by side. In FIG. 6D, the menu input area 301 is divided by a line extending the boundary of the arranged icons. The user can operate the icon 874a corresponding to the first input area 301a and the icon 874b corresponding to the second input area 301b by touch-inputting the icons 874a and the icon 874b in accordance with the arrangement.

In the case of the input area as shown in FIGS. 5 (a) to 6 (d), if the operation surface is a triangle or a hexagon, it becomes easier to intuitively recall the switch arrangement.

Hereinafter, an example of the operation of the input control system 1 will be described with reference to the flowchart of FIG. In the following, the operation after the operation on the menu input area 301 of the left touch pad unit 2a is detected will be mainly described.

(motion)
When the screen transition is performed (Step 1), the control unit 60 of the control device 6 confirms the image displayed in the menu display area 874 of the left display area 871 based on the image information 890 acquired from the operation target device 89.

When an image suitable for touch input is displayed in the menu display area 874 (Step2: Yes), the control unit 60 divides the menu input area 301 according to the display arrangement of the image suitable for touch input, and also divides the menu input area 301 into an absolute coordinate system. Is set (Step 3). If the control unit 60 is in the relative coordinate system before the screen transition, the control unit 60 switches to the absolute coordinate system. Further, the control unit 60 sets the absolute coordinate system based on the divided input area when the absolute coordinate system is before the screen transition.

Here, in step 2, when the image suitable for touch input is not displayed (Step2: No), the control unit 60 ends the process without dividing the menu input area 301. When the absolute coordinate system is set in the screen transition, the control unit 60 switches the setting to the relative coordinate system.

(Effect of embodiment)
Since the input control system 1 according to the present embodiment can be operated intuitively, it is possible to suppress a decrease in operability.

Although some embodiments and modifications of the present invention have been described above, these embodiments and modifications are merely examples and do not limit the invention according to the claims. These novel embodiments and modifications can be implemented in various other embodiments, and various omissions, replacements, changes, etc. can be made without departing from the gist of the present invention. Moreover, not all combinations of features described in these embodiments and modifications are essential as means for solving the problems of the invention. Further, these embodiments and modifications are included in the scope and gist of the invention, and are included in the invention described in the claims and the equivalent scope thereof.

1 ... Input control system, 2 ... Input device, 2a, 2b ... Touch pad unit, 3 ... Touch pad, 4 ... Switch, 5 ... Display device, 6 ... Control device, 8 ... Vehicle, 9a ... Left hand, 9b ... Right hand, 10 ... Housing, 11 ... Opening, 12 ... Inner surface, 13 ... Projection, 14 ... Bottom surface, 15-18 ... First elastic body to fourth elastic body, 30 ... Main body, 30a ... Operation surface, 30b ... Back side, 31 ... ribs, 40 ... buttons, 60 ... control unit, 80a ... driver's seat, 80b ... passenger seat, 81a ... floor console, 81b ... center console, 81c ... instrument panel, 81d ... door trim, 82 ... touchpad, 83 ... Meter panel, 84 ... Meter display, 85 ... Steering, 86 ... Main display, 87 ... Head-up display, 88 ... Front glass, 89 ... Operation target device, 130 ... Bottom surface, 301 ... Menu input area, 301a to 301h ... 1st input area to 8th input area, 302 ... direct input area, 302a to 302c ... 1st touch area to 3rd touch area, 302d to 302f ... 1st touch area to 3rd touch area, 310 ... top surface, 850 ... base, 851,852 ... spokes, 853 ... ring, 870 ... projection area, 871 ... left display area, 872 ... right display area, 873 ... center display area, 873a ... image, 874 ... menu Display area, 874a to 874d ... Icon, 875 ... Direct display area, 875a to 875c ... Icon, 876 ... Menu display area, 876a to 876d ... Icon, 877 ... Direct display area, 877a to 877c ... Icon, 878 ... Menu list, 880 ... Room mirror monitor, 890 ... Image information

Claims (5)

A control that has an operation area capable of receiving various input information, the operation area is divided into a plurality of input areas, and a specific function is fixedly assigned to the information input to each of the plurality of input areas. A control device having a unit. The control unit divides into the plurality of input areas according to the display positional relationship of a specific image displayed on the display device.
The control device according to claim 1. The control unit divides the shape of the input area according to the shape of the operation area.
The control device according to claim 2. The control unit allocates one function to each of the divided input areas.
The control device according to any one of claims 2 to 3. The control unit divides the operation area so that one function is assigned to one corner or side of the operation area.
The control device according to claim 2 or 4.

Images