JP5623140B2 - Vehicle operation input device - Google Patents

Description

  The present invention relates to an operation input device for a vehicle that improves selection operability of touch operation input.

  The center cluster arranged near the center of the driver's seat of the vehicle is provided with an operation input device for operating various in-vehicle devices such as car navigation, audio and air conditioner. This operation input device is equipped with a touch switch having a switch operation surface corresponding to various in-vehicle devices as a design panel of the center cluster, and an occupant (operator) touches the touch switch to operate various in-vehicle devices. Settings are to be made.

  The operation input device is provided with a lighting device (backlight) that illuminates the back side of the touch switch when the touch operation is performed to improve the visibility of the switch operation surface. If the occupant does not operate the touch switch, the lighting device is turned off and the switch operation surface is maintained in a blackout state. The center of the cluster is improved by making the switch operation surface difficult to see. Yes.

  In this type of touch sensor type operation input device, it is necessary for the operator to visually confirm and confirm the switch operation surface to be selected among the plurality of switch operation surfaces. However, if the operator does not touch the switch operation surface, the touch switch is maintained in a blackout state in which a plurality of switch operation surfaces are not displayed. Difficult to figure out what to do.

  Also, when the operator tries to touch the touch switch, the position of the switch operation surface can be adjusted by extending the operator's fingers to the center cluster located away from the seat without displaying the switch operation surface. Since it must be searched, the touch operation is troublesome and the operability is not high.

  On the other hand, when the operator's finger approaches the switch operation surface, the backlight is lit in the first pattern, a light transmission pattern is raised on the surface of the touch switch (design panel), and the operator's finger is placed on the raised portion. There has been proposed a capacitive switch device that is turned on in a second pattern when the finger touches it and changes the luminance, color, etc. of the light transmission pattern (see, for example, Patent Document 1). According to this conventional electrostatic capacitance type switch device, the switch position can be clearly recognized, so that the operability can be improved and the operation in the dark place can be performed.

JP 2006-128019 A

  By the way, if the electrostatic capacitance type switch device described in Patent Document 1 is used for the center cluster arranged near the center of the driver's seat of the vehicle, the operator can reach the center cluster at a position away from the seat. While extending a finger, it is necessary to accurately perform a touch operation on the touch response position in the switch operation surface to be selected. However, if the switch operation surface is formed small and the touch reaction position in the switch operation surface is determined, the touch reaction position may not be accurately touched and the operability is high. However, this measure is not taken in the electrostatic capacitance type switch device described in Patent Document 1. For this reason, there has been a demand for improving the selection operability of this type of touch sensor type operation input device.

  Accordingly, an object of the present invention is to provide a vehicular operation input device that improves the selectability of touch operation input.

[1] In order to achieve the above object, the present invention provides a touch switch that is provided in a vehicle interior and has a plurality of switch operation surfaces for operating an in-vehicle device by approaching or contacting an operator's fingers, and the touch switch. A light source that turns on or blinks the switch operation surface when in an operation state for operating the switch, and turns off the switch operation surface when in an operation standby state when the touch switch is not operated, and a control device that controls the light source; A touch detection area determination unit that determines a touch detection area of the touch switch according to an operation mode of the light source, and the touch detection area determination unit has a capacitance of the touch switch when in the operation state. first by setting the threshold value of determining the first touch sensing region, the electrostatic capacitance of the touch switch when in the operation standby state To provide a vehicle operation input device and changes the first touch sensing region in the second touch sensing region by setting the threshold value.

[2] The second touch detection area according to the above [1] is wider than the first touch detection area.

[3] The control device according to [1] monitors whether the finger of the operator approaches or contacts the first touch detection area and the second touch detection area, and the operator The light source is turned on or blinked when the finger of the user approaches the second touch detection area, and the operation of the in-vehicle device is executed when the finger of the operator touches the first touch detection area. And

[4] The control device according to [1] is configured to return to the operation standby state when contact of the finger of the operator with the first touch detection area is not detected within a predetermined time. And

  ADVANTAGE OF THE INVENTION According to this invention, even when selecting operation of a some switch operation surface in the state where a some switch operation surface is not displayed, the selection operativity of a switch operation surface can be improved.

It is the schematic which shows the driver's seat front vehicle interior of the vehicle provided with the operation input device which concerns on suitable embodiment of this invention. It is a figure for demonstrating schematic structure of the operation input apparatus which concerns on embodiment. It is a schematic block diagram which shows the example of 1 structure of the operation input apparatus which concerns on embodiment. It is a figure for demonstrating a touch detection area | region. It is a schematic block diagram which shows the example of 1 structure of the touch sensor detection circuit of the operation input device which concerns on embodiment. It is a signal waveform diagram used in order to explain operation of the operation input device concerning an embodiment, (a) is a detection signal of capacitance by touch operation, (b) is an output signal of sensitivity 1, (c ) Represents a detection signal of sensitivity 2. It is a flowchart which shows the operation | movement aspect of the operation input apparatus which concerns on embodiment.

  Preferred embodiments of the present invention will be specifically described below with reference to the accompanying drawings.

(Overall configuration in front of the front seat of the vehicle)
In FIG. 1, in front of a front seat of a vehicle 1, an instrument panel 2 made of a synthetic resin and equipped with instruments and a passenger seat airbag is arranged in the vehicle width direction. A center cluster 3 is disposed near the center of the instrument panel 2. A display 4 capable of displaying various selection screens is provided on the design surface side of the center cluster 3.

  As shown in FIG. 1, an operation input device 10 for performing input operations on various in-vehicle devices is provided on the periphery of the display 4 of the center cluster 3. This operation input device 10 is suitably used as a touch operation device when operating an in-vehicle device. The in-vehicle device that is symmetrical to the operation of the operation input device 10 is an operation device installed inside the vehicle 1. As an example, this operating device is an operating device installed in the room of the vehicle 1 such as a car navigation system, an audio system, and an air conditioner.

(Configuration of operation input device)
As shown in FIGS. 1 and 2, the operation input device 10 is provided with a design panel 11 that functions as a touch switch. On the back surface of the design panel 11, an operation display unit 13 for displaying a switch operation surface 12 corresponding to various operation devices is provided. For example, a plastic plate, a plastic film, or a plastic sheet is preferably used for the operation display unit 13. Examples of the material of the transparent resin material include acrylic resins and polycarbonate resins.

  The operation display unit 13 is formed with a light-shielding printing layer that is silk-printed except for a portion corresponding to the display shape, for example. The printed layer is formed with a light-transmitting removal display portion serving as the switch operation surface 12 that is not printed. The extracted display portion is made up of letters, numbers, figures, symbols, or patterns. In addition, what printed the printing layer directly on the back surface of the design panel 11 may be used.

  When the light source that illuminates the back side of the design panel 11 is turned off, the switch operation surface 12 is not displayed. When the light source is turned on, the visible light is shielded in the region where the design panel 11 is printed and transmitted through the switch operation surface 12 which is the region where the design panel 11 is not printed. The switch operation surface 12 is a touch reaction area corresponding to a display area which is a removal display section.

  As shown in FIG. 2, a capacitive touch sensor 14 is disposed on the back surface of the operation display unit 13. The touch sensor 14 includes a transparent electrode for detecting capacitance, which is a switch element that detects the approach or contact of an occupant's finger. The transparent electrode is formed in a pattern by a thin film of metal oxide such as ITO (indium tin oxide) that is transparent to visible light, for example. The touch sensor 14 may be installed inside the design panel 11.

  As shown in FIG. 2, an LED substrate 16 on which a plurality of light emitting diodes 15 (hereinafter referred to as “LEDs 15”) are mounted is disposed on the back surface of the touch sensor 14. The LED 15 is a light source for irradiating the design panel 11 with the back surface, and is individually mounted on the LED substrate 16 corresponding to each of the plurality of switch operation surfaces 12.

  When the switch operation surface 12 of the design panel 11 is illuminated by the LED 15 being turned on or blinking, the operation input device 10 is in an operation state for operating the in-vehicle device. The occupant selects and designates a plurality of switch operation surfaces 12 displayed on the design panel 11 with the touch sensor 14 to display function items corresponding to the switch operation surfaces 12 on the screen of the display 4 or switch operation surfaces. 12 can be made to perform a desired operation.

  By the way, when the occupant does not touch the touch sensor 14, an operation standby state (when the LED is turned off) continues in a blackout state in which the plurality of switch operation surfaces 12 of the design panel 11 disappear. In this operation standby state, it is difficult for the occupant to grasp which position on the design panel 11 should be touched.

  In this embodiment, even when the selection operation of the plurality of switch operation surfaces is performed in a state where the plurality of switch operation surfaces are not displayed, the operation input device 10 that improves the selection operability of the switch operation surface 12 of the design panel 11 is provided. It has the main structure. Therefore, the configuration of the operation input device 10 is not limited to the illustrated example.

(Configuration of operation input control device)
As illustrated in FIG. 3, the operation input device 10 according to the illustrated example includes an operation input control device 20 that controls driving of the touch sensor 14 and the LED 15. The operation input control device 20 includes a microcomputer that is a CPU unit including a CPU, a ROM, and a RAM (hereinafter referred to as “microcomputer 20”). The microcomputer 20 is electrically connected to the LED 15 connected via the LED drive circuit 17 and the touch sensor 14 connected via the touch sensor detection circuit 18. The microcomputer 20 turns on, blinks, or turns off the LED 15 via the LED drive circuit 17 in accordance with a signal from the touch sensor detection circuit 18.

(Configuration of touch detection area determination unit)
As shown in FIG. 3, the microcomputer 20 is further provided with a touch detection area determination unit 21 that determines the touch detection area of the touch sensor 14 in accordance with the operation mode of the LED 15. Here, determining the touch detection area means reducing or enlarging the touch detection area.

  The touch detection area determination unit 21 includes, for the plurality of switch operation surfaces 12, a first threshold value (detection threshold voltage) of the capacitance of the touch sensor 14 when the LED is turned on and blinking, and the touch sensor 14 when the LED is turned off. Data relating to the second threshold value (detection threshold voltage) of the capacitance is stored. The first touch detection area 22 is determined based on the first threshold value and the detection signal from the touch sensor 14, and the second touch detection area is determined based on the second threshold value and the detection signal from the touch sensor 14. 23 is determined.

  The first touch detection area 22 corresponding to the switch operation surface 12 where the transparent electrode 14a for capacitance detection exists is set to sensitivity 1 as shown in FIGS. 4 (a) and 4 (b). On the other hand, the second touch detection area 23 corresponding to the switch operation surface 12 without the transparent electrode 14 a is set wider than the detection area of the first touch detection area 22. When the LED is turned off, the touch operation is enabled in the second touch detection area 23 including the first touch detection area 22, and the occupant's fingers approach or contact between the switch operation surfaces 12 adjacent to each other. Even touch detection is possible.

(Configuration of touch sensor detection circuit)
Referring to FIG. 5, FIG. 5 shows a configuration example of the touch sensor detection circuit 18 according to this embodiment. The oscillator 18d that outputs an AC signal is a connector of the touch sensor 14 in series via an operational amplifier 18c that amplifies the AC signal output from the oscillator 18d and a load resistor 18b that adjusts the AC signal amplified by the operational amplifier 18c. It is connected to the part 18a.

  As shown in FIGS. 4 and 5, the transparent electrode 14 a of the touch sensor 14 is connected to the connector portion 18 a via a lead wire 14 b. One end of an operational amplifier 18e is connected between the connector portion 18a and the load resistor 18b. At the other end of the operational amplifier 18e, a BPF (Band-Pass-Filter) 18f that passes only a predetermined frequency and removes noise, a rectifier 18g including a diode that rectifies an AC signal, and a rectified rectified signal Is connected in series with an LPF (Low-Pass-Filter) 18 h that converts DC into a DC signal.

  When an AC signal output from the oscillator 18d is input to the touch sensor 14 via the operational amplifier 18c and the load resistor 18b, the touch sensor 14 is in a state where an AC voltage is applied. Here, for example, when the occupant performs a touch operation on the switch operation surface 12 of the design panel 11, a capacitance is formed between the occupant's finger and the transparent electrode 14 a, and an alternating current is energized via the occupant's finger due to an AC voltage. To do. Thereby, the amplitude of the AC signal of the connector portion 18a of the touch sensor 14 is reduced. This voltage signal is amplified by the operational amplifier 18e, rectified by the rectifier 18g after passing through the BPF 18f, and the detection signal Vs changed by the touch operation is output as a DC signal by the LPF 18h.

(Output voltage input to the microcomputer)
Referring to FIG. 6, signal waveforms used for explaining the operation of the operation input device 10 are shown in FIGS. In the following description, the reference voltage 100 (Vs) output in a state where the occupant does not operate the switch is 2 V, and the first threshold value 40 determined by the touch detection area determination unit 21 when the LED is lit or blinking is set to 1. 5V, and the second threshold value 41 determined by the touch detection area determining unit 21 when the LED is turned off is 1.7V.

In the touch section in which the occupant approaches or touches the first touch detection area 22 with fingers, as shown in FIGS. 6A and 6B, the detection voltage (detection signal) 101 is the first touch detection area. The voltage drops from the reference voltage 100 to the detection voltage V _A based on the electrostatic capacity generated by approaching or contacting 22. This detection voltage _VA is output to the microcomputer 20 via the touch sensor detection circuit 18.

The microcomputer 20 determines whether or not a touch operation has been performed on the switch operation surface 12 by an occupant based on the first threshold value 40 and the detection voltage _VA . The detection voltage _VA shown in FIGS. 6A and 6B is compared by a comparator circuit or the like, and the touch detection area determination unit 21 determines that the touch operation in the first touch detection area 22 has been performed. Will do.

In the touch section in which the occupant approaches or touches the second touch detection area 23 with fingers, the detection voltage (detection signal) 102 approaches or approaches the second touch detection area 23 as shown in FIG. The voltage drops from the reference voltage 100 to the detection voltage V _B based on the capacitance generated by the contact. This detection voltage V _B is output to the microcomputer 20 via the touch sensor detection circuit 18.

The microcomputer 20 determines whether or not a touch operation has been performed on the switch operation surface 12 by the occupant based on the second threshold value 41 and the detection voltage V _B. The detection voltage V _B shown in FIG. 6C is compared by a comparator circuit or the like, and the touch detection area determination unit 21 determines that a touch operation in the second touch detection area 23 has been performed. .

(Operation mode of operation input device)
Next, an example of an operation mode performed by the operation input device 10 in this embodiment will be described with reference to the flowchart of FIG. In the following description of the operation mode, the microcomputer 20 is assumed unless otherwise specified. Further, the first threshold value 40 shown in FIG. 6B is assumed to be sensitivity 1, and the second threshold value 41 shown in FIG. Assume that the second touch detection area 23 shown in FIG. 4 is set to a sensitivity 2 that is higher in detection sensitivity than the sensitivity 1 of the first touch detection area 22.

  Now, it is in the operation standby state in which the state in which the plurality of switch operation surfaces 12 of the design panel 11 are in the blackout state where they disappeared (step S1). When the LED is turned off, the touch detection area determination unit 21 sets the capacitance of the touch sensor 14 to a sensitivity 2 higher than the sensitivity 1 and touches the second touch detection area 23 including the first touch detection area 22. Operation is enabled (step S2). During this process, the microcomputer 20 monitors whether or not the occupant's fingers have approached the touch sensor 14 (step S3).

  In the process of step S3, when it is determined that the occupant's finger is not approaching the touch sensor 14, the process returns to step S3 and the same process is repeated. If it is determined that the occupant's finger has approached the touch sensor 14, the microcomputer 20 turns on or blinks the LED 15 via the LED drive circuit 17 (step S4). Then, the process proceeds to the next step S5. During this process, the touch detection area determination unit 21 sets the capacitance of the touch sensor 14 to sensitivity 1, enables a touch operation only in the first touch detection area 22, and proceeds to the next step S6. To do.

  In the process of step S <b> 6, the microcomputer 20 monitors whether or not the occupant's fingers have touched the touch sensor 14. If it is determined that the occupant's fingers have touched the touch sensor 14, the process proceeds to the next step S7. In the process of step S7, the setting state of the in-vehicle device corresponding to the touch sensor 14 touched is displayed on the display 4, or a predetermined operation is performed to operate the in-vehicle device.

  If it is determined in step S6 that the occupant's finger is not in contact with the touch sensor 14, it is determined whether a predetermined time of, for example, about 10 seconds has elapsed (step S8). If it is determined that the predetermined time has not elapsed, the process returns to step S6 and the same processing is repeated. If it is determined that the predetermined time has elapsed, the process returns to step S1. And the operation standby state in which the some switch operation surface 12 displayed on the design panel 11 disappeared is maintained.

  By the above processing, even when the switch operation surface 12 is in the operation standby state in which the switch operation surface 12 disappears, the selectivity of the switch operation surface 12 can be improved by turning on or blinking the LED 15.

(Effect of embodiment)
According to the operation input device 10 according to the above-described embodiment, the sensitivity of the capacitance for determining whether or not the touch operation is performed according to the respective LED operation modes when the LED is turned off and when the LED is turned on or blinking. The configuration is adjusted. For this reason, when the selection operation of the plurality of switch operation surfaces 12 is performed in the operation standby state in which the plurality of switch operation surfaces 12 of the design panel 11 remain in a blackout state in which the plurality of switch operation surfaces 12 have disappeared, Since the area that functions as 14a is expanded, the detection performance of the touch operation can be improved. In addition, the selection operation of the switch operation surface 12 can be easily, smoothly and reliably performed in the flow of operating the switch operation surface 12 of the design panel 11.

  As is clear from the above description, the vehicle operation input device of the present invention has been described based on the above embodiments, but the present invention is limited to the above embodiments, modifications, and illustrated examples. However, the present invention can be implemented in various modes without departing from the scope of the invention. In the present invention, for example, other embodiments as shown below are possible.

(Other embodiments)
(1) In the illustrated example, the first and second touch detection areas 22 and 23 are variable by changing the detection voltage threshold according to the LED operation mode when the LED is turned off and when the LED is turned on or blinking. Although the example of a structure to perform was demonstrated, it is not limited to this. As another example of the configuration for changing the touch detection area, the touch detection area may be changed by setting the first and second threshold values 40 and 41 to the same value and changing the amplitude of the oscillator. Good. When the LED is turned off, the amplitude of the oscillator is set large.
(2) As yet another example of the configuration for changing the touch detection area, the touch detection area may be changed by changing the gain of the receiving-side amplifier, and various forms can be adopted. Of course.
(3) In the illustrated example, the touch sensor 14 is exemplified by a capacitance type sensor, but may be a contact detection type sensor or a non-contact detection type sensor using pressure, optics, radio waves, or the like.
(4) In the illustrated example, the operation input device 10 is provided in the peripheral portion of the display 4 of the center cluster 3, but for example, the instrument panel 2 other than the center cluster 3 that is difficult to operate unless the occupant takes a forward leaning posture. It may be provided on the design surface or the screen of the display 4.

DESCRIPTION OF SYMBOLS 1 ... Vehicle, 2 ... Instrument panel, 3 ... Center cluster, 4 ... Display, 10 ... Operation input apparatus, 11 ... Design panel, 12 ... Switch operation surface, 13 ... Operation display part, 14 ... Touch sensor, 14a ... Transparent Electrode, 14b ... Lead wire, 15 ... LED, 16 ... LED substrate, 17 ... lED drive circuit, 18 ... Touch sensor detection circuit, 18a ... Connector part, 18b ... Load resistance, 18c, 18e ... Operational amplifier, 18d ... Oscillator, 18f ... BPF, 18g ... rectifier, 18h ... LPF, 20 ... microcomputer, 21 ... touch detection area determining unit, 22 ... first touch detection area, 23 ... second touch detection area, 40 ... first threshold, 41 ... Second threshold, 100 ... reference voltage, 101, 102 ... detection signal

Claims (4)

A touch switch that is provided in the vehicle interior and has a plurality of switch operation surfaces for operating on-vehicle devices by approaching or contacting the operator's fingers;
A light source that turns on or blinks the switch operation surface when in an operation state for operating the touch switch, and turns off the switch operation surface when in an operation standby state in which the touch switch is not operated;
A control device for controlling the light source;
A touch detection area determination unit that determines a touch detection area of the touch switch according to an operation mode of the light source;
The touch detection region determining unit, the first touch sensing region determined by setting the first threshold value of the capacitance of the touch switch when in the operating state, the touch when in the operation standby state An operation input device for a vehicle, wherein the first touch detection area is changed to a second touch detection area by setting a second threshold value of a capacitance of the switch . The vehicle operation input device according to claim 1, wherein the second touch detection area is wider than the first touch detection area. The control device monitors whether or not the operator's finger has approached or contacted the first touch detection area and the second touch detection area, and the operator's finger has detected the second touch. 2. The vehicle according to claim 1, wherein the light source is turned on or blinked when approaching a detection area, and the operation of the in-vehicle device is executed when the finger of the operator touches the first touch detection area. Operation input device. 2. The vehicle according to claim 1, wherein the control device returns to the operation standby state when contact with the finger of the operator is not detected within a predetermined time with respect to the first touch detection area. Operation input device.

Images