JP2022116698A - Operation input device - Google Patents

Abstract

To provide an operation input device which enables easily recognition of a position of a switch in switch operation without an eyesore of operation even at night.SOLUTION: An operation input device 1 includes: an operation panel 10; an approach detection part 200 for detecting approach of fingers to the operation panel 10; a switch part 42 that is provided on the operation panel 10 and inputs operation; a symbol mark 11 provided on the switch part 42; a light source part 45 and a light source part 48 for illuminating the symbol mark 11; and a control part 300 for turning the light source part 45 and the light source part 48 on in turned off states when approach of the fingers is detected by the approach detection part 200.SELECTED DRAWING: Figure 3

Description

The present invention relates to an operation input device.

In general, an overhead console arranged on the ceiling of a vehicle compartment is equipped with illumination lamps, switches for the illumination lamps, and the like.
Since the symbol mark indicating the operation target is illuminated on the switch regardless of whether it is day or night, the driver can easily recognize the position of the switch.
Techniques for recognizing switch positions and techniques for improving visibility in this type of vehicle interior lighting device have been proposed (see, for example, Patent Document 1).
Further, a device has been proposed in which a touch switch is used as the switch of the vehicle interior lighting device described above, and the device is operated by touching a light-emitting portion on which a symbol mark is displayed.

JP 2019-001296 A

However, in a device operated by touching a light-emitting portion on which a symbol mark is displayed, the illuminated symbol mark may enter the field of vision of the driver, for example, when checking the rearview mirror while driving at night. , had the problem of being an eyesore.

SUMMARY OF THE INVENTION It is therefore an object of the present invention to provide an operation input device that can easily recognize the position of a switch when the switch is operated without being an eyesore when driving at night. aim.

Mode 1: One or more embodiments of the present invention comprise an operation panel, an approach detection section for detecting approach of a finger to the operation panel, a switch section provided on the operation panel for inputting an operation, and A symbol mark provided on a switch unit, a light source that illuminates the symbol mark, and a control unit that turns on the light source that has been extinguished when the proximity detection unit detects approach of a finger. proposes an operation input device characterized by

An operation input device according to one or more embodiments of the present invention includes an operation panel, an approach detection section for detecting approach of an operator's fingers, a switch section provided with a symbol mark illuminated by a light source, and a light source. and a control unit for controlling the lighting and extinguishing of the. The controller turns on the off light source when the approach detector detects the approach of the finger.
That is, in the operation input device according to one or more embodiments of the present invention, the symbol mark lights up when the operator's finger approaches the operation panel.
Therefore, since the symbol mark is turned off during driving, it is possible to prevent it from becoming an eyesore during nighttime driving.
In addition, when the finger is brought close to the operation panel, the symbol mark lights up, so that the switch to be operated and the touch position can be easily recognized.

Mode 2: In one or more embodiments of the present invention, the switch section is a first switch section in which the symbol mark lights up in an ON state and the symbol mark goes out in an OFF state, When the approach detection unit detects the approach of the finger, the control unit lights the symbol mark of the first switch unit in an OFF state, and the approach detection unit cancels the detection of the approach of the finger. The operation input device is characterized in that the symbol mark of the first switch portion in the ON state is kept lit and the symbol mark of the first switch portion in the OFF state is extinguished when the first switch portion is turned off.

An operation input device according to one or more embodiments of the present invention includes a first switch section that lights a symbol mark in an ON state and extinguishes a symbol mark in an OFF state. Then, the control unit lights the symbol mark when the approach of the finger is detected, continues lighting of the symbol mark of the first switch unit in the ON state when the detection of the approach of the finger is canceled, and further, The symbol mark of the first switch unit in the OFF state is extinguished.
That is, in the operation input device according to one or more embodiments of the present invention, when the finger is released from the operation panel, the symbol mark of the on-state switch portion lights up.
Therefore, even when the finger is away from the operation panel, the ON state of the switch can be recognized. In addition, when the proximity detector detects the approach of a finger, the symbol mark of the switch in the off state is also lit, so that the switch in the off state can be easily turned on.

Mode 3: In one or more embodiments of the present invention, the switch section is a second switch section in which the symbol mark lights up when in the OFF state and the symbol mark goes out in the ON state, When the approach detection unit detects the approach of the finger, the control unit lights the symbol mark of the second switch unit in an ON state, and the approach detection unit cancels the detection of the approach of the finger. The operation input device is characterized in that the symbol mark of the second switch portion in the OFF state is kept lit and the symbol mark of the second switch portion in the ON state is extinguished when the second switch portion is turned off.

An operation input device according to one or more embodiments of the present invention includes a second switch section that lights a symbol mark in an OFF state and extinguishes a symbol mark in an ON state. The control unit lights the symbol mark when the approach of the finger is detected, and when the detection of the approach of the finger is canceled, continues lighting of the symbol mark of the second switch unit in the off state, and further turns on the symbol mark. The symbol mark of the second switch section in the state is extinguished.
That is, in the operation input device according to one or more embodiments of the present invention, only the symbol mark of the switch portion in the off state lights up when the finger is released from the operation panel.
Therefore, even when the finger is away from the operation panel, the off state of the switch can be recognized.
In addition, when the proximity detector detects the approach of a finger, the symbol mark of the on-state switch is also lit, so that the on-state switch can be easily turned off.

Mode 4: In one or more embodiments of the present invention, the light source includes a first light source that emits a first color and a second light source that emits a second color, and the control unit comprises: The first light source is turned on when the proximity detection unit detects the approach of the finger, and the switch unit is operated while the first light source is turned on to change the state (on, off) of the switch unit. , the second light source is turned on instead of the first light source, or the second light source is turned on together with the first light source.

A manipulation input device in one or more embodiments of the present invention comprises a first light source and a second light source, each of a different color. Then, the control unit turns on the first light source when the approach detection unit detects the approach of the fingers. Furthermore, when the state of the switch section is changed by operating the switch section, the control section turns off the first light source and turns on the second light source, or turns on the first light source and the second light source.
That is, in the operation input device according to one or more embodiments of the present invention, the illumination color of the symbol changes depending on whether the switch is on or off.
Therefore, it is possible to check whether the switch operation has been effectively recognized, and it is possible to easily recognize the current ON state and OFF state of the switch.

According to one or more embodiments of the present invention, there is an advantage that the position of the switch can be easily recognized when the switch is operated without being an eyesore for driving at night.

1 is an exploded perspective view showing the overall configuration of an operation input device according to an embodiment of the present invention; FIG. It is the figure which showed the operation panel of the operation input device which concerns on embodiment of this invention. It is a figure showing composition of a control board of an operation input device concerning an embodiment of the present invention. It is the figure which showed the control circuit structure of the operation input device which concerns on embodiment of this invention. It is a flow chart explaining processing of the operation input device concerning the embodiment of the present invention. It is the figure which illustrated the display of the display panel of the operation input device which concerns on embodiment of this invention. It is a flow figure explaining lighting control processing of an operation input device concerning an embodiment of the present invention. It is the figure which showed the operation panel of the operation input device which concerns on the modification of this invention.

<Embodiment>
An operation input device 1 according to the present embodiment will be described with reference to FIGS. 1 to 7. FIG.

<Structure and Configuration of Operation Input Device 1>
The operation input device 1 according to the present embodiment is, for example, a device that includes an illumination lamp in the vehicle interior and an operation switch for operating the illumination, and is arranged in front of the ceiling in the vehicle interior.
As shown in FIG. 1, the operation input device 1 includes an operation panel 10, a frame 20, a design panel 30, a control board 40, and a cover 50. As shown in FIG.
The operation panel 10 is incorporated in the opening 30A of the design panel 30 together with the frame 20. As shown in FIG.
Also, the control board 40 is attached to the rear surface of the design panel 30 .
Furthermore, a cover 50 that is part of the housing of the operation input device 1 is fastened to the design panel 30 so as to cover the control board 40 .

As shown in FIG. 2, the operation panel 10 is provided with a plurality of symbol marks 11 (four locations: 12A, 12B, 12C, and 13 in this embodiment) that indicate operation positions.
The operation panel 10 is made of a light-shielding material, but the symbol mark 11 indicating the operation position is made of a translucent material.
That is, the symbol mark can be displayed on the operation panel 10 by turning on the light source arranged on the back side of the operation panel 10 .

The frame 20 has a structure for guiding the light from the light source described above to the symbol mark 11 of the operation panel 10, is arranged on the back surface of the operation panel 10, and is fixed to the design panel 30 together with the operation panel 10. there is

The design panel 30 includes illumination units 31C, 31L, and 31R that emit light from illumination lamps.
An illumination lens (not shown) is arranged in the illumination section 31C, and light from an illumination light source arranged on the back surface of the design panel 30 is emitted.
For example, the illumination unit 31C emits light for illuminating the interior of the vehicle.
Illumination lenses (not shown) are provided in the illumination units 31L and 31R, and light from illumination light sources provided on the back surface of the design panel 30 is emitted.
For example, the illumination units 31L and 31R emit spot illumination light for partially illuminating the driver's seat, the passenger's seat, and the like.

The control board 40 will be described with reference to FIGS. 3 and 4. FIG.
As shown in FIG. 3, the control board 40 has at least an illumination light source section 41, a switch section 42, a finger proximity sensor 49, and a CPU 100. As shown in FIG.

The illumination light source unit 41 includes light sources 41A to 41D, a light source 41L, and a light source 41R.
Here, the light sources 41A to 41D are light sources for indoor illumination emitted from the illumination section 31C described above.
Further, the light source 41L is a light source for spot illumination emitted from the illumination section 31L described above.
Further, the light source 41R is a light source for spot illumination emitted from the illumination section 31R described above.
For the light sources 41A to 41D, the light source 41L, and the light source 41R, for example, high-brightness white LEDs are used.

The switch section 42 includes a first switch section 43 and a second switch section 46 .

The first switch part 43 in the operation input device 1 is an operation member for turning on and off the lighting in the vehicle.
The first switch section 43 includes a switch section 44 and a light source section 45 .
The switch section 44 includes switches 44A to 44C.
Also, the light source unit 45 includes light sources 45A to 45C.
As shown in FIG. 4, the switches 44A-44C are touch sensors provided on the control board 40, and are arranged behind the symbol marks 12A-12C arranged on the operation panel 10, respectively.
The outputs of the switches 44A-44C are connected to the CPU 100, and the CPU 100 detects touch operations on the symbol marks 12A-12C.
The light sources 45A-45C are light sources for displaying the symbol marks 12A-12C, respectively.
For example, white LEDs are used for the light sources 45A to 45C, and the symbol marks are displayed in white.

When the CPU 100 detects a touch operation on the symbol mark 12A, the CPU 100 turns on the light source 41L. Thereafter, the light source 41L is repeatedly turned off and on each time a touch operation on the symbol mark 12A is detected. That is, the illumination of the illumination section 31L is repeatedly turned off and on.
Further, when the CPU 100 detects a touch operation on the symbol mark 12B, the CPU 100 turns on the light sources 41A to 41D. Thereafter, the light sources 41A to 41D are repeatedly turned off and on each time a touch operation on the symbol mark 12B is detected. That is, the illumination of the illumination unit 31C is repeatedly turned off and on.
Furthermore, when the CPU 100 detects a touch operation on the symbol mark 12C, the CPU 100 turns on the light source 41R. Thereafter, the light source 41R is repeatedly turned off and on each time a touch operation on the symbol mark 12C is detected. That is, the illumination of the illumination section 31R is repeatedly turned off and on.

As shown in FIG. 3 , the second switch section 46 includes a switch section 47 and a light source section 48 .
The switch section 47 includes a switch 47A.
Further, the light source section 48 includes a first light source 48A and a second light source 48B.
As shown in FIG. 4 , the switch 47A is a touch sensor provided on the control board 40 and arranged behind the symbol mark 13 arranged on the operation panel 10 .
Also, the output of the switch 47A is connected to the CPU 100, and the CPU 100 detects the touch operation on the symbol mark 13. FIG.
When the touch operation on the symbol mark 13 is detected by the CPU 100, the ON/OFF of the function of turning on the interior lighting is switched in conjunction with the opening and closing of the door. Then, the CPU 100 switches the function between off and on each time a touch operation on the symbol mark 13 is detected.

The first light source 48A and the second light source 48B are light sources for displaying the symbol mark 13 .
Here, the first light source 48A and the second light source 48B are light sources emitting light of different colors. For example, a white LED is used for the first light source 48A and a red LED is used for the second light source 48B.
Details of lighting control of the first light source 48A and the second light source 48B will be described later.

As shown in FIG. 4, the finger proximity sensor 49 is arranged on the control board 40 .
The finger proximity sensor 49 is a sensor that detects the proximity of a finger to the operation panel 10 , and the sensor output of the finger proximity sensor 49 is connected to the CPU 100 .

As shown in FIG. 3 , the CPU 100 includes an approach detection section 200 and a control section 300 .
Note that the approach detection unit 200 and the control unit 300 are part of the functions of the CPU 100 having a well-known RAM, ROM, I/O bus, etc. (not shown).
The CPU 100 controls the operation input device 1 as a whole according to the control program stored in the ROM.
For example, the CPU 100 monitors the state of the accessory power source of the vehicle, the unlocked state of the doors, and the like, and based on the monitoring information, the processing of the operation input device 1 is started or terminated.

The proximity detection unit 200 detects whether or not a finger approaches the operation panel 10 based on the sensor output of the finger proximity sensor 49 .
Then, the detection result of the approach detection unit 200 is transferred to the control unit 300 .

In the control unit 300, lighting control of the lighting light source unit 41, the light source unit 45, and the light source unit 48 is performed based on the detection result of the approach detection unit 200 and the detection results of the switch unit 44 and the switch unit 47. will be
The lighting control process executed by the control unit 300 will be described later.

<Processing Flow of Operation Input Device 1>
A processing flow of the operation input device 1 executed by the CPU 100, the approach detection unit 200 and the control unit 300 will be described with reference to FIGS. 5 to 7. FIG.

As shown in FIG. 5, the CPU 100 determines whether or not the doors of the vehicle are unlocked (step S10).
When the CPU 100 determines that the vehicle door is unlocked ("YES" in step S10), the process proceeds to step S20.
On the other hand, when the CPU 100 determines that the doors of the vehicle are not unlocked ("NO" in step S10), the process returns to step S10 and shifts to the standby mode.

The approach detection unit 200 determines whether or not the approach of a finger to the operation panel 10 has been detected (step S20).
If the approach detection unit 200 determines that the approach of fingers has been detected ("YES" in step S20), the process proceeds to step S30.
On the other hand, if the approach detector 200 determines that the finger approach is not detected ("NO" in step S20), the process returns to step S20 and shifts to the standby mode.
In addition, as shown in (1) of FIG. 6, in step S20, nothing is displayed on the operation panel 10 .

When the approach of fingers is detected in step S20, the controller 300 turns on the light sources 45A to 45C and the first light source 48A (step S30).
That is, when the process of step S30 is executed, all the symbol marks provided on the operation panel 10 are displayed when the proximity of fingers is detected, as shown in FIG. 6(2).
It should be noted that the display example shown here is a display example in the case where the function of turning on the interior lighting in conjunction with the opening and closing of the door is turned on.

Next, the CPU 100 determines whether or not the symbol mark 11 on the operation panel 10 has been touched based on the outputs of the switches 44A to 44C and the switch 47A (step S40).
When the CPU 100 determines that the symbol mark 11 has been touched ("YES" in step S40), the process proceeds to step S50.
On the other hand, when the CPU 100 determines that the symbol mark 11 is not touched ("NO" in step S40), the process proceeds to step S60.

When the CPU 100 determines that the symbol mark 11 has been touched (“YES” in step S40), the control unit 300 controls lighting of the illumination light source unit 41, the light source unit 45, and the light source unit 48. is done. (Step S50).
Details of the lighting control of the light source executed in step S50 will be described later.

When the CPU 100 determines that the touch operation to the symbol mark 11 has not been performed ("NO" in step S40), the approach detection unit 200 determines whether or not the detection of the approach of the finger has been canceled. (step S60).
In other words, it is determined whether or not the finger that once approached the operation panel 10 has moved away.
If the approach detection unit 200 determines that the detection of the approach of the finger has been canceled ("YES" in step S60), the process proceeds to step S70.
On the other hand, when it is determined that the approach detection unit 200 has not canceled the finger approach detection (“NO” in step S60), the process returns to step S40 to continue the process.

When the approach detection unit 200 determines that the detection of the approach of the finger has been canceled ("YES" in step S60), the control unit 300 controls the switches of the first switch unit 43 that are currently turned on. continues to light up, and the symbol marks of the switches of the first switch section 43 that are currently turned off are extinguished (step S70).
Furthermore, the control unit 300 continues to light up the symbol mark 13 of the switch 47A of the second switch unit 46 that is currently turned off, and the switch of the second switch unit 46 that is currently turned on. The display of the symbol mark 13 of 47A is extinguished (step S70).

When the process of step S70 is executed, as shown in (4) of FIG. 6, for example, the switch 44A is operated, and if the light source 41L is currently lit (ON state), the light source 45A continues lighting, and the symbol mark 12A continues to be displayed.
Further, when the process of step S70 is executed, as shown in (4) of FIG. 6, for example, the switches 44B and 44C are not operated, and the light sources 41A to 41D and the light source 41R are currently turned off. If it is (off state), the light source 45B and the light source 45C are extinguished, and the display of the symbol marks 12B and 12C is extinguished.

Further, when the process of step S70 is executed, as shown in (5) of FIG. 6, for example, the switch 47A of the second switch section 46 is operated, and the interior lighting is turned on in conjunction with the opening and closing of the door. When it is set to not (off state), the lighting of the second light source 48B is continued, and the red display of the symbol mark 13 is continued.
That is, when the switch 47A of the second switch section 46 is operated and the interior lighting is set to be turned on in conjunction with the opening and closing of the door (ON state), the second light source 48B is extinguished and the symbol mark is displayed. 13 is extinguished.

When the process of step S70 ends, the CPU 100 determines whether the accessory power source of the vehicle is off and whether the door is locked (step S80).
If the CPU 100 determines that the accessory power source of the vehicle is off and the door is locked ("YES" in step S80), the process ends.
On the other hand, when the CPU 100 determines that the accessory power supply of the vehicle is off and the door is not locked ("NO" in step S80), the process returns to step S20 to continue the process.

<Lighting Control Processing in Step S50>
The lighting control process executed in step S50 will be described below with reference to FIG.

When the CPU 100 determines that the symbol mark 11 of the operation panel 10 has been touched ("YES" in step S40), it is determined whether the touched switch is the switch of the first switch section 43 or not. is determined (step S100).
When the CPU 100 determines that the touch-operated switch is the switch of the first switch section 43 ("YES" in step S100), the process proceeds to step S110.
On the other hand, when the CPU 100 determines that the touch-operated switch is not the switch of the first switch section 43 ("NO" in step S100), the process proceeds to step S140.

When the CPU 100 determines that the touch-operated switch is the switch of the first switch unit 43 ("YES" in step S100), the control unit 300 sets the touch-operated switch to the current OFF state. It is determined whether or not (step S110).
If the control unit 300 determines that the state of the touch-operated switch is currently off ("YES" in step S110), the process proceeds to step S120.
On the other hand, if the controller 300 determines that the state of the touch-operated switch is not currently off ("NO" in step S110), the process proceeds to step S130.
Note that the above-described off state refers to a state in which the light source of the illumination light source unit 41 is turned off, and the on state refers to a state in which the light source of the illumination light source unit 41 is on.

If the control unit 300 determines that the state of the touch-operated switch is currently off (“YES” in step S110), the control unit 300 turns on the illumination light source corresponding to the touch-operated switch. is turned on (step S120).
For example, when the touch operation of the switch 44A is detected, the light source 41L corresponding to the switch 44A is turned on.

On the other hand, if the control unit 300 determines that the state of the touch-operated switch is not currently off ("NO" in step S110), the control unit 300 controls the illumination corresponding to the touch-operated switch. light source is turned off (step S130).
For example, when the touch operation of the switch 44A is detected, the light source 41L corresponding to the switch 44A is turned off.

When the CPU 100 determines that the touch-operated switch is not the switch of the first switch section 43 ("NO" in step S100), the control section 300 changes the state of the operated switch 47A to the current OFF state. It is determined whether or not (step S140).
That is, it is determined whether or not the function set by touching the switch 47A is turned off.
If control unit 300 determines that the operated switch is currently in the OFF state ("YES" in step S140), the process proceeds to step S150.
On the other hand, when control unit 300 determines that the state of the touch-operated switch is not currently off ("NO" in step S140), the process proceeds to step S170.

If the control unit 300 determines that the operated switch is currently in the OFF state (“YES” in step S140), the control unit 300 turns on the first light source 48A and turns on the second light source 48B. is extinguished (step S150).
When the process of step S150 is executed, as shown in (2) of FIG. 6, the function of turning on the interior lighting in conjunction with the opening and closing of the door is set to the ON state, thereby turning on the first light source 48A. and the symbol mark 13 is displayed in white.

Then, the CPU 100 turns on the function of turning on the interior lighting in conjunction with the opening and closing of the door (step S160).

If the control unit 300 determines that the state of the touch-operated switch is not currently off ("NO" in step S140), the control unit 300 turns off the first light source 48A and turns off the second light source. 48B is lit (step S170).
When the process of step S170 is executed, as shown in (3) of FIG. 6, the function of turning on the interior lighting in conjunction with the opening and closing of the door is set to the OFF state, thereby turning on the second light source 48B. The symbol mark 13 is displayed in red.

Next, the CPU 100 turns off the function of turning on the interior lighting in conjunction with the door opening/closing (step S180).
In step S170, the light source to be turned on is changed from the first light source 48A to the second light source 48B to change the display color of the symbol mark 13, but the first light source 48A and the second light source 48B are turned on at the same time. , and the display color of the symbol mark 13 may be changed.
When the lighting control process in step S50 described above ends, the process proceeds to step S60.

<Action/effect>
As described above, the operation input device 1 according to the present embodiment includes the operation panel 10, the approach detection unit 200 that detects approach of a finger to the operation panel 10, and the operation input device provided on the operation panel 10 for inputting an operation. The switch section 42, the symbol mark 11 provided in the switch section 42, the light source section 45 and the light source section 48 that illuminate the symbol mark 11, and the proximity detection section 200 turn off the light source when the approach of fingers is detected. and a control unit 300 for lighting.

In the operation input device 1 according to the present embodiment, the operation panel 10, the approach detection unit 200 that detects the approach of the operator's fingers, and the switch provided with the symbol mark 11 illuminated by the light source units 45 and 48 are provided. 42, and a control unit 300 that controls turning on and off of the light source. When the approach detection unit 200 detects the approach of a finger, the control unit 300 turns on the light source that has been turned off.
That is, in the operation input device 1, the symbol mark 11 lights up when the operator's fingers approach the operation panel.
Therefore, since the symbol mark 11 is turned off during driving, it is possible to prevent it from becoming an eyesore during nighttime driving.
Further, when the finger is brought close to the operation panel 10, the symbol mark 11 lights up, so that the switch to be operated and the touch position can be easily recognized.

In the operation input device 1 according to the present embodiment, the symbol mark 12 is turned on when the switch portion 42 is in the ON state, and the symbol mark 12 is turned off when the switch portion 42 is in the OFF state. When the approach detection unit 200 detects the approach of fingers, the symbol mark 12 of the first switch unit 43 in the OFF state is lit, and when the detection of the approach of the fingers is canceled in the approach detection unit 200, the ON state is turned on. The lighting of the symbol mark 12 of the first switch portion 43 is maintained, and the symbol mark 12 of the first switch portion 43 in the OFF state is turned off.

The operation input device 1 according to the present embodiment includes a first switch section 43 that turns on the symbol mark 12 in the ON state and extinguishes the symbol mark 12 in the OFF state. Then, the control unit 300 turns on the symbol mark 12 when the approach detection unit 200 detects the approach of the finger, and turns on the first switch when the approach detection unit 200 cancels the detection of the approach of the finger. The lighting of the symbol mark 12 of the portion 43 is continued, and the symbol mark 12 of the first switch portion 43 in the OFF state is turned off.
That is, in the operation input device 1, when the finger is removed from the operation panel 10, only the symbol mark of the switch that is in the ON state is lit.
Therefore, even when the finger is away from the operation panel 10, it is possible to easily recognize which switch is set to the ON state.

In the operation input device 1 according to the present embodiment, the symbol mark 13 is turned on when the switch portion 42 is in the off state, and the symbol mark 13 is turned off when the switch portion 42 is in the on state. When the approach detection unit 200 detects the approach of fingers, the symbol mark 13 of the second switch unit 46 in the ON state is lit, and when the detection of the approach of the fingers is canceled in the approach detection unit 200, the switch is in the OFF state. The lighting of the symbol mark 13 of the second switch section 46 is maintained, and the symbol mark 13 of the on-state second switch section 46 is turned off.

The operation input device 1 according to the present embodiment includes a second switch section 46 that lights the symbol mark 13 in the OFF state and turns off the symbol mark 13 in the ON state. Then, the control unit 300 turns on the symbol mark 13 when the approach detection unit 200 detects the approach of the finger, and turns off the second switch when the approach detection unit 200 cancels the detection of the approach of the finger. The lighting of the symbol mark 13 of the portion 46 is continued, and the symbol mark 13 of the second switch portion in the ON state is turned off.
That is, in the operation input device 1, when the finger is removed from the operation panel 10, only the symbol mark of the switch that is turned off lights up.
Therefore, even when the finger is away from the operation panel 10, it is possible to easily recognize which switch is set to the OFF state.
In general, functions such as turning on the interior lighting in conjunction with opening and closing the doors are very frequently used with the function turned on. Sometimes the symbol mark is illuminated.
Therefore, since the symbol mark is turned off when the function is on, it is possible to prevent it from becoming an eyesore during nighttime driving.
Also, the symbol mark is not displayed when the function is on, but is displayed when the finger is brought close to the operation panel 10, so that the switch position can be easily recognized when the switch is operated.

In the operation input device 1 according to this embodiment, the light source unit 48 includes a first light source 48A that emits a first color and a second light source 48B that emits a second color, and the control unit 300 detects approach. When the approach of a finger is detected in the unit 200, the first light source 48A is turned on. The second light source 48B is turned on instead of the one light source 48A, or the second light source 48B is turned on together with the first light source 48A.

The operation input device 1 in this embodiment includes a first light source 48A and a second light source 48B of different colors. Then, when the approach detection unit 200 detects the approach of the fingers, the control unit 300 turns on the first light source 48A. Furthermore, when the state of the switch 47A is changed by operating the switch 47A, the control unit 300 turns off the first light source 48A and turns on the second light source 48B, or turns off the first light source 48A and the second light source 48B. lights up.
That is, in the operation input device 1, the display color of the symbol changes depending on whether the switch is on or off.
Therefore, it is possible to easily recognize the on state and the off state of the switch.
Moreover, when the operation panel 10 is touch-operated to change the state of the switch, the color of the symbol changes, so that it is possible to easily recognize whether or not the input of the touch operation has been accepted.

<Modification>
As shown in FIG. 8, the operation panel 10 may also display telltales 60 such as seat belts and airbags.
Since this type of display is a warning display, it is necessary to ensure that the driver notices it.
However, when the symbol mark 11 is displayed at the same time, the warning display and the symbol mark are mixed, which may make it difficult for the driver to recognize the warning display.
However, in the operation input device 1 described above, the symbol mark 11 is extinguished and only the warning display is displayed during driving, so the warning display can be clearly indicated to the driver.
Further, when the finger is brought close to the operation panel 10, the symbol mark 11 lights up, so that the switch to be operated and the touch position can be easily recognized.

Further, in the operation input device 1 described above, touch sensors are used for the switches 44A to 44C and the switch 47A to detect switch operations, but mechanical switches may be used to detect switch operations.

Further, in the operation input device 1 described above, the touch operation of the operation panel 10 is detected by the touch sensor provided on the control board 40, but the touch operation may be detected by a liquid crystal panel and a touch panel.
That is, a method of displaying a symbol mark on a liquid crystal panel and detecting a touch operation by a touch panel may be used.

The processing of the CPU 100, the approach detection unit 200 and the control unit 300 is recorded in a recording medium readable by the computer system, and the program recorded in this recording medium is read by the CPU 100, the approach detection unit 200 and the control unit 300, By executing it, the operation input device 1 of the present invention can be realized. The computer system here includes hardware such as an OS and peripheral devices.

Also, the "computer system" includes the home page providing environment (or display environment) if the WWW (World Wide Web) system is used. Also, the program may be transmitted from a computer system storing this program in a storage device or the like to another computer system via a transmission medium or by a transmission wave in a transmission medium. Here, the "transmission medium" for transmitting the program means a medium having a function of transmitting information, such as a network (communication network) such as the Internet and a communication line (communication line) such as a telephone line.

Further, the program may be for realizing part of the functions described above. Further, it may be a so-called difference file (difference program) that can realize the above-described functions in combination with a program already recorded in the computer system.

Although the embodiment of the present invention has been described in detail with reference to the drawings, the specific configuration is not limited to this embodiment, and includes design within the scope of the gist of the present invention.

1; operation input device 10; operation panel 11; symbol mark 20; frame 30; design panel 40; second switch section 47; switch section 48; light source section 49; finger proximity sensor 50; cover 100; CPU
200; approach detection unit 300; control unit

Claims (4)

an operation panel;
an approach detection unit that detects approach of fingers to the operation panel;
a switch unit provided on the operation panel for inputting an operation;
a symbol mark provided on the switch;
a light source that illuminates the symbol mark;
a control unit that turns on the light source in an off state when the proximity detection unit detects the approach of the finger;
An operation input device comprising: The switch unit is a first switch unit in which the symbol mark lights up in an ON state and the symbol mark goes out in an OFF state,
When the approach detection unit detects the approach of the finger, the control unit lights the symbol mark of the first switch unit in an OFF state, and the approach detection unit cancels the detection of the approach of the finger. 2. The operation input device according to claim 1, wherein the symbol mark of the first switch section in an ON state is kept lit and the symbol mark of the first switch section in an OFF state is extinguished when the operation input device is turned off. . The switch section is a second switch section in which the symbol mark lights up when in an off state and the symbol mark goes out when in an on state,
When the approach detection unit detects the approach of the finger, the control unit lights the symbol mark of the second switch unit in an ON state, and the approach detection unit cancels the detection of the approach of the finger. 2. The operation input device according to claim 1, wherein the symbol mark of the second switch section in the off state is kept lit and the symbol mark of the second switch section in the on state is extinguished when the second switch section is turned on. . The light source includes a first light source that emits a first color and a second light source that emits a second color. When the first light source is turned on and the switch is operated to change the state of the switch (on or off) while the first light source is turned on, the second light source is turned on instead of the first light source. 4. The operation input device according to claim 2, wherein the second light source is turned on together with the first light source.

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