JP2006244041A - Input device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To easily select a desired operating function. <P>SOLUTION: This input device is provided with a display device 10 for displaying a plurality of icons and an operation knob 21 having a plurality of touch operating parts for detecting the selecting operation of an icon displayed at the display device 10. A groove 21a going via a plurality of touch operating parts is formed on the operation face of the operation knob 21, and a plurality of icons are displayed at a position relation similar to the arrangement of the plurality of touch operating parts at the display device 10. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a display unit that displays a plurality of operation functions, and an input device that includes an operation unit for performing an input operation of the operation functions displayed on the display unit.

  In recent years, operation functions of various devices such as an air conditioner, an audio, and a navigation device are displayed on a display screen in a vehicle, and an operation function displayed on the display screen is input from an operation unit provided separately from the display screen. An input device has been installed.

  In such an input device, each operation function is displayed on a display screen using a plurality of icons and the like, and for example, a touch pad using a resistive film type sensor or a capacitance sensor arranged on the back side of the touch pad is used. By detecting a touch operation on the operation surface, an input operation such as selection of an icon displayed on the display screen is performed. However, since the operation surface of such a touch pad is a flat surface, the operation position is difficult to understand.

Therefore, arc-shaped finger guide grooves are formed in the input pad for inputting touch operations so as to intersect vertically or horizontally, or surface changes, grooves, etc. are provided in the input pad so that the operation position can be recognized by the tentacles. Have been proposed (see, for example, Patent Document 1).
JP 2000-194502 A

  The finger guide groove provided in the apparatus described in Patent Document 1 is provided so that the user can discriminate the operation position of the touch panel with a tentacle, and the desired icon ( The operation function is not always selectable.

  The present invention has been made in view of the above problems, and an object thereof is to make it possible to easily select and operate a desired operation function.

  In order to achieve the above object, the invention according to any one of claims 1 to 3 includes a display unit that displays a plurality of operation functions and a plurality of touch operation units that detect a selection operation of the operation functions displayed on the display unit. And an operation surface of the operation unit is formed with a groove that passes through the plurality of touch operation units, and the display unit has a plurality of positions in the same positional relationship as the arrangement of the plurality of touch operation units. The operation function is displayed.

  As described above, since the groove through the plurality of touch operation parts is formed on the operation surface of the operation part, the user can grasp the position of the desired touch operation part by tracing the groove. The desired operation function can be easily selected and operated.

  FIG. 1 shows an external view of an input device according to an embodiment of the present invention. The input device in the present embodiment is installed at the center of an instrument panel of a vehicle and performs input operations of various functions of operation target devices such as an air conditioner, an audio, and a navigation device, and a display device as a display unit 10 and a main body 20 provided with an operation knob 21 as an operation unit.

  The display device 10 displays the operation status of an air conditioner, audio, etc., a map display screen of a navigation device, and the like, and displays an image corresponding to a signal input from a CPU (described later) provided in the main body 20. It is displayed on the screen 11. The display on the display screen 11 in FIG. 1 shows a display example of a menu screen in which a plurality of icons 12 are arranged in a circle.

  A circular operation knob 21 for performing an input operation by a touch operation is provided on the upper surface of the main body 20. A plurality of capacitance sensors are provided on the back side of the operation knob 21 in order to detect a touch operation, and the touch operation on the operation surface of the operation knob 21 is detected by these capacitance sensors. .

  2A is a perspective view of the operation knob 21 of FIG. 1 seen from above, and FIG. 2B is a cross-sectional view taken along line AA of FIG.

  As shown in FIGS. 2A and 2B, on the back side of the operation knob 21, a capacitance sensor 22 arranged in a lattice at the center of the operation knob 21 and along the outer periphery of the operation knob 21. Eight capacitance sensors 22 are provided. Each of these capacitance sensors 22 constitutes a plurality of touch operation units on the operation surface of the operation knob 21.

  In addition, a plurality of grooves 21 a are formed on the operation surface of the operation knob 21 in a circular shape so as to pass through each touch operation unit configured by a capacitance sensor 22 provided along the outer periphery of the operation knob 21. Has been. By these grooves 21 a, irregularities are formed on the operation surface of the operation knob 21 along the outer periphery.

  FIG. 3 shows a block configuration of the input device 1. The input device 1 includes a plurality of capacitance sensors 22, a display device 10, and a CPU 24. Further, a signal corresponding to a user operation is input to the CPU 24 from a push button switch (not shown). In addition, the CPU 24 is connected to the air conditioner ECU, the audio, and the navigation apparatus using cables, and performs bidirectional communication via these cables.

  The electrostatic capacitance sensor 22 has a pair of electrodes (not shown), and is applied to the operation knob 21 based on a change in capacitance between the electrodes caused by a finger touching the operation surface of the operation knob 21. A touch operation is detected, and a detection signal is output to the CPU 24 via a wiring pattern (not shown) formed on the flexible substrate 23.

  The display device 10 displays an image corresponding to the signal input from the CPU 24 on the display screen 11 as described above.

  The CPU 24 includes a ROM, a RAM, an I / O, a communication controller, and the like, and performs various processes according to a program stored in the ROM.

  The CPU 24 displays the operation status of the air conditioner, the audio, etc., the map display screen of the navigation device, etc. on the display screen 11 of the display device 10, and detects the touch operation detection signal input from the capacitance sensor 22 according to this display. The signal based on this is output to operation target devices such as an air conditioner ECU, audio, and navigation device. The CPU 24 also performs a process of switching various signals input from the operation target devices such as an air conditioner ECU, an audio, and a navigation device to the display device 20.

  Next, the general operation of the CPU 24 will be described. When the power is turned on, the CPU 24 displays a plurality of operation functions as icons on the display screen of the display device 10 in the same positional relationship as the eight touch operation units provided along the outer periphery of the operation knob 21.

  FIG. 4 shows a display example when three icons 12 of “air conditioner”, “audio”, and “navigation device” are displayed in a circular shape on the display screen of the display device 10. Although the number of icons displayed on the display screen 11 of the display device 10 can be displayed up to eight, which is the same as the number of touch operation units provided along the outer periphery of the operation knob 21, all eight are displayed. There is no need to do this, and three may be used as in this case.

  Here, when the user performs a touch operation on the touch operation unit having the same positional relationship as the “air conditioner” on the display screen 11 in the operation knob 21, the touch operation is detected from the capacitance sensor 22 provided in the touch operation unit. A detection signal indicating this has been input to the CPU 24. The CPU 24 inverts the color of the icon indicating “air conditioner” based on the detection signal.

  Next, when the user traces on the circular groove 21 a formed on the operation surface of the operation knob 21 and touches the touch operation unit having the same positional relationship as “audio” on the display screen 11 in the operation knob 21. A detection signal indicating that a touch operation has been detected is input to the CPU 24 from the capacitance sensor 22 provided in the touch operation unit. Based on this detection signal, the CPU 24 returns the icon indicating “air conditioner” to the original color and inverts the icon indicating “audio”.

  Furthermore, when the user traces on the circular groove 21 a formed on the operation surface of the operation knob 21 and touches the touch operation unit having the same positional relationship as the “navigation device” on the display screen 11 on the operation knob 21. A detection signal indicating that the touch operation is detected is input to the CPU 24 from the capacitance sensor 22 provided in the touch operation unit, and the CPU 24 sets the icon indicating “audio” to the original color based on the detection signal. The icon indicating “navigation device” is reversed and the color is inverted.

  As described above, when another touch operation unit is selected and operated from the touch operation unit with the operation knob 21, the groove 21 a passing through the plurality of touch operation units is formed on the operation surface of the operation knob 21. By tracing the groove 21a, it is possible to easily grasp the desired position of the touch operation unit.

  Further, when a signal indicating “decision” is input from a push button switch (not shown) in response to a user operation in a state where the icon indicating “navigation device” is reversed, the CPU 24, based on this signal, A menu screen of “navigation device” is displayed on the display screen 11. In this menu screen, a plurality of icons 12 indicating the operation function of the “navigation device” are displayed on the display screen of the display device 10 in the same positional relationship as the eight touch operation units provided along the outer periphery of the operation knob 21. Display. The operation functions of the “navigation device” include, for example, “map display”, “destination setting”, etc., as shown in FIG.

  Next, the user traces on the circular groove 21 a formed on the operation surface of the operation knob 21, and touches the touch operation unit having the same positional relationship as “map display” on the display screen 11 on the operation knob 21. Then, a detection signal indicating that the touch operation is detected is input to the CPU 24 from the capacitance sensor 22 provided in the touch operation unit, and the CPU 24 color-inverts the icon indicating “map display” based on the detection signal. Let

  Next, when a signal indicating “OK” is input from a push button switch (not shown) in response to a user operation in a state where the icon indicating “Map display” is reversed, the CPU 24 displays the display screen 11. Is switched to the display of the map display screen based on the signal input from the navigation device. Thus, CPU24 switches the screen displayed on the display screen 11 hierarchically according to a user's touch operation.

  Note that, in a state where such a map display screen is displayed, a finger operation is performed based on a touch operation detection signal input from each capacitance sensor 22 provided in a lattice shape at the center of the operation knob 21. Processing such as detecting the moving direction and scrolling the map display in the detected direction is performed.

  As described above, according to the above-described configuration, the operation surface of the operation knob 21 is formed with the groove 21a that passes through the plurality of touch operation units. Therefore, the user desires by tracing the groove 21a. The position of the touch operation unit to be performed can be grasped, and a desired operation function can be easily selected and operated.

  In addition, this invention is not limited to the said embodiment, Based on the meaning of this invention, it can implement with a various form.

  For example, the input device in the above embodiment is mounted on a vehicle and has been used as an example of performing various input operations such as a car air conditioner, a car audio, a car navigation device, etc., but is limited to such an application. Instead, it can be used as a device for performing various input operations.

  Moreover, although the example which detects a user's operation using a capacitance sensor was shown in the said embodiment, it is not limited to a capacitance sensor, For example, a resistance thin film type sensor, a load sensor, etc. are used. The user's operation may be detected.

  In addition, as shown in FIG. 2B, in the above-described embodiment, an example in which an uneven shape is formed on the operation surface of the operation knob 21 by forming the plurality of grooves 21a has been shown, but formation of one groove 21a is shown. Thus, a concave shape or a convex shape may be formed on the operation surface of the operation knob 21. In this case, the operability of the touch operation can be improved by increasing the width of the groove or increasing the depth of the groove. Here, the groove includes not only a concave shape with respect to the operation surface of the operation knob 21 but also a convex shape with respect to the operation surface of the operation knob 21.

  Moreover, in the said embodiment, the example which made the arrangement | positioning of the several touch operation part provided in the operation surface of the operation knob 21 and the operation function (icon) displayed on the display screen of the display apparatus 10 each circular was shown. However, it is not limited to the circumferential shape, and may be a polygon, for example.

1 is an external view of an input device according to an embodiment of the present invention. (A) is the figure which saw through the operation knob of FIG. 1 from the upper side, (b) is AA sectional drawing of (a). It is a figure which shows the block configuration of the input device which concerns on one Embodiment of this invention. It is a figure which shows the example of a display of the display screen of a display apparatus. It is a figure which shows the example of a display of the display screen of a display apparatus.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 ... Display apparatus, 11 ... Display screen, 12 ... Icon, 20 ... Main body,
21 ... Operation knob, 21a ... Groove, 22 ... Capacitance sensor,
23 ... Flexible substrate, 24 ... CPU.

Claims (2)

A display unit that displays a plurality of operation functions, and an operation unit that includes a plurality of touch operation units that detect a selection operation of the operation function displayed on the display unit,
On the operation surface of the operation unit, a groove that passes through the plurality of touch operation units is formed,
The input device, wherein the plurality of operation functions are displayed on the display unit in a positional relationship similar to the arrangement of the plurality of touch operation units. The plurality of touch operation units provided in the operation unit are arranged circumferentially,
The input device according to claim 1, wherein the groove is formed in a circular shape so as to pass through the plurality of touch operation units.

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