WO2019230478A1 - On-vehicle device operation apparatus and on-vehicle device operation system - Google Patents

Abstract

The present invention improves the operability of an on-vehicle device, and is provided with: a touching operation unit 10 that senses multiple kinds of touching operations including flicking operations in multiple directions and outputs touching operation sensing signals therefor; and a control unit 20 that issues a control command for an on-vehicle device B depending on the touching operation sensing signals, wherein the control unit 20 allocates multiple control commands in advance for the respective flicking directions of the flicking operations with respect to the touching operation unit 10, and when the flicking directions are recognized from inputs of the touching operation sensing signals, the control unit 20 outputs the control commands allocated to the respective flicking directions.

Description

In-vehicle device operation device and in-vehicle device operation system

The present invention relates to an in-vehicle device operation device and an in-vehicle device operation system for operating various devices mounted on a vehicle such as an HVAC device, an AV device, and a navigation device.

Conventionally, in this type of invention, as described in Patent Document 1, for example, the touch operation panel is divided into a plurality of areas according to a plurality of types of operation contents for the in-vehicle device, and the operation contents are respectively included in these areas. Some buttons are designed to display an operation button.

JP 2012-123449 A

In such a conventional on-vehicle touch operation panel, it is necessary to accurately select and operate a target operation button from a plurality of types of operation buttons. For this purpose, an operator operates while gazing at the operation buttons. However, there is a risk of hindering driving. It is also possible for the operator to remember the absolute position of the operation button with his / her body and operate without gazing, but to be able to operate accurately without gazing at all the positions of the operation buttons. It is difficult.
As another means, it is conceivable that the operation button is selected based on the relative position from the position where the finger was released last time, such as a touch pad used in a PC or the like. It is necessary to memorize the position where the finger is released.

In order to solve such a problem, the present invention has the following configuration.
A touch operation unit that detects a plurality of types of touch operations including flick operations in multiple directions and outputs the touch operation detection signal; and a control unit that issues a control command for the in-vehicle device in response to the touch operation detection signal. The control unit pre-allocates a plurality of control commands for each flick direction of the flick operation with respect to the touch operation unit, and when the control unit recognizes the flick direction from the input touch operation detection signal, An in-vehicle device operating device that outputs the control command assigned in the flick direction.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an external view illustrating an example of an in-vehicle device operation device and an in-vehicle device operation system according to the present invention. It is a block diagram which shows schematic structure of the same vehicle equipment operating device and vehicle equipment operating system. It is a top view which shows an example of a display part. It is a top view which shows the state which is tapping the touch operation part with a finger | toe, and the cross-shaped line has shown the part by which tap operation was carried out. It is a top view which shows an example of a touch operation part, and the radial dashed-two dotted line has each shown the flick direction. It is a flowchart which shows an example of control operation | movement about the same vehicle equipment operating device. It is a flowchart which shows a part of control operation following FIG. It is a flowchart which shows a part of control operation following FIG. It is a top view which shows the state which flicks the touch operation part with a finger | toe, and the cyclic | annular dashed-two dotted line has shown the direction which slides a finger | toe. It is a block diagram which shows schematic structure about the other examples of the vehicle equipment operation apparatus and vehicle equipment operation system which concern on this invention.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the following description, the same reference numerals in different drawings indicate parts having the same function, and repeated description in each drawing will be omitted as appropriate.

1 and 2 show an in-vehicle device operation system A including an example of an in-vehicle device operation device 1 according to the present invention.
The in-vehicle device operating system A includes an in-vehicle device operating device 1 and a plurality of types of in-vehicle devices B controlled by the in-vehicle device operating device 1.

The in-vehicle device operation device 1 detects a plurality of types of touch operations including flick operations in a plurality of directions and outputs the touch operation detection signal, and the in-vehicle device B for the in-vehicle device B according to the touch operation detection signal. A control unit 20 that issues a control command and a display unit 30 that displays an operation guide screen 30a in response to a signal from the control unit 20 are mounted at appropriate locations in the vehicle.

According to the illustrated example, the in-vehicle device B includes an HVAC (Heating, Ventilation, and Air Conditioning) device b1 that performs air conditioning, ventilation, and defrosting in the vehicle, an AV (audiovisual) device b2 that emits music and video, and a road guide. For example, the navigation apparatus b3 may be an electric door or an electric roof panel.

The touch operation unit 10 is, for example, a capacitive touch panel device having a well-known structure, and detects the contact of a finger of a driver of the vehicle, the contact position, and the like, and outputs the detection signal.
According to the illustrated example, the touch operation unit 10 does not have a display function, but a touch display panel device having a display function can be used.
The touch operation unit 10 is mounted at a position where the driver of the vehicle can easily operate with a finger, and is exposed and provided on the center console a1 between the front seats, for example, as shown in FIG.

The control unit 20 is an electronic circuit including a CPU (Central Processing Unit), a storage device 21 such as a ROM and a RAM, various input / output devices, a timer, and the like, for example, a small computer such as a one-chip microcomputer. It can be configured.
The control unit 20 stores in advance image data to be displayed on the display unit 30, a control program, and the like, and performs output to the display unit 30 and various in-vehicle devices B by executing the control program.
The control program previously assigns (associates) a plurality of types of operation guide screens, a plurality of types of control commands, and the like displayed on the display unit 30 for each operation mode with respect to the touch operation unit 10.
The control unit 20 may be configured integrally with the touch operation unit 10 or the display unit 30 or may be a separate body.

The display unit 30 is a liquid crystal display device, and displays a plurality of types of operation guide screens 30a including the operation guide screen 30a shown in FIG. 3 in response to a signal from the control unit 20. According to the example shown in FIG. 1, the display unit 30 is exposed and mounted on an instrument panel in the vehicle.

3 is assigned to the HVAC device b1 and stored in advance in the storage device 21 of the control unit 20. In addition, the storage device 21 stores an operation guide screen (not shown) assigned to the AV device b2, an operation screen (not shown) assigned to the navigation device b3, and the like.

On the operation guide screen 30a, a plurality of types of image images 31 to 38 corresponding to a plurality of types of control commands are annularly arranged so as to correspond to each flick direction of the flick operation on the touch operation unit 10, and these image images 31 are arranged. Arrows 30b indicating the direction of the flick operation (hereinafter referred to as the flick direction) are arranged radially corresponding to each of the image images.
For example, the image 31 is an image that represents the on / off control of the front defogger. An arrow 30b adjacent to the inside is formed so as to be directed to the image 31.
The plurality of types of image images 31 to 38 are associated with the plurality of types of in-vehicle devices B and stored in the storage device 21 of the control unit 20.

Next, an example of characteristic processing by the control unit 20 for the in-vehicle device operating device 1 and the in-vehicle device B having the above-described configuration will be described in detail with reference to the flowcharts shown in FIGS.

First, when power is supplied by an operation such as key-on, the control unit 20 calls an initial screen from the storage device 21 and displays it on the display unit 30 (step S1).
This initial screen may be, for example, the operation guide screen 30a shown in FIG. 3, or may be another operation guide screen or a screen other than the operation guide screen.

Next, the control unit 20 determines whether or not the touch operation on the touch operation unit 10 has been performed based on the touch operation detection signal input from the touch operation unit 10 (step S2), and the touch operation has been performed. If so, the process proceeds to the next step S3, and if not, the process returns to step S1.
The touch operation detection signal includes a detection signal when a touch operation is performed with one finger, a detection signal when a touch operation is performed with two fingers, and a touch operation with three fingers. It is possible to use a touch operation detection signal of various operation patterns such as a detection signal in the case of a touch.

Next, the control unit 20 recognizes the type of the touch operation from the touch operation detection signal from the touch operation unit 10, selects an operation guide screen corresponding to the type of the touch operation, and displays it on the display unit 30 (step S3). . According to a preferred example of the present embodiment, the type of the touch operation is related to the number of fingers performing the touch operation (see FIG. 4).
More specifically, the control unit 20 recognizes the number of fingers that have performed a touch operation according to the number, coordinates, and the like of touch operation detection signals from the touch operation unit 10, and an operation guide screen corresponding to this number. Is displayed from the storage device 21 and displayed on the display unit 30.
In the control example shown in the flowchart of FIG. 6, when the number of fingers performing the touch operation is one, the operation guide screen 30 a (see FIG. 3) for the HVAC device b <b> 1 is displayed and there are two fingers. An operation guide screen (not shown) for the AV device b2 is displayed on the screen, and if there are three, an operation guide screen (not shown) for the navigation device b3 is displayed (steps S4 to S6). reference).

Then, after displaying the operation guide screen as described above, the control unit 20 recognizes the flick direction from the next input touch operation detection signal, and outputs a control command assigned to the flick direction (FIG. 7). To FIG. 8).
More specifically, the control unit 20 starts counting by a timer set at a predetermined time (step S11), and determines whether or not there is a flick operation on the touch operation unit 10 within the time (step S12). ~ S13) If there is no flick operation and a time-out occurs, the process returns to step S1, and if there is a flick operation, the timer stops counting (step S14), and the process proceeds to the next step S15. Proceed.
Here, the flick operation means that the screen of the display unit 30 is touched with one finger and the finger is repelled in any of the circumferential directions divided into a plurality of equal parts (eight parts in the illustrated example). It means the operation to move to.
The control unit 20 recognizes the presence / absence of the flick operation and the flick direction from the continuous change of the touch operation detection signal accompanying the movement of the finger on the touch operation unit 10.

Next, the control part 20 calls the control command allocated for every said flick direction from the memory | storage device 21, and outputs this control command to the corresponding vehicle equipment B.
More specifically, the control unit 20 determines whether the flick direction recognized as described above is any one of top, top right, right, bottom right, bottom, bottom left, left, top left, and the flick direction. Processes a to h corresponding to directions are started.

For example, when the flick direction is upper right, the process b is started.
In the process b, the control unit 20 starts counting by a timer set at a predetermined time (step S21), and determines whether or not there is a flick operation on the touch operation unit 10 within the time (steps S22 to S23). ), If there is no flick operation and timed out, the process returns to step S1, and if there is a flick operation, the counting by the timer is stopped (step S24), and the process proceeds to the next step S25.

In step S25, the control unit 20 calls a control command associated with the upper right image 31 on the display unit 30, and outputs this control command to the HVAC device b1.
In the illustrated example, this control command is a signal that turns on the front defogger when it is off and turns it off when it is on.

In the next steps S26 to S27, counting by a timer set to a predetermined time is started (step S26), the time is elapsed (step S27), and the process is returned to step S1.

In the illustrated example, the case where the processing b is executed by the flick operation toward the image image 31 and the front defogger is controlled is described. However, the flick operation toward the other image images 32 to 38 is performed. In this case, the other processes a, c to h selected according to the flick direction are executed. The flowcharts for these other processes a, c to h are omitted.

Therefore, according to the in-vehicle device operation device 1 and the in-vehicle device operation system A configured as described above, it is possible to select a plurality of types of operation guide screens by changing the number of fingers of the tap operation. Various types of operations can be selected by changing the direction of the swipe operation. For this reason, many types of operation with respect to multiple types of vehicle-mounted equipment B can be performed, without gaze at a fingertip or memorize | stored button position, and the operativity is favorable.

In addition, according to the said embodiment, although various control instructions were selected only by the flick direction accompanying a flick operation, as another example, after the control part 20 recognizes a flick direction, cyclic | annular swipe operation When recognizing (see FIG. 9), it is also possible to output a control command corresponding to the rotational direction of the swipe operation.
More specifically, the control unit 20 performs processing for adjusting the volume of the AV device b2 according to the direction of the flick operation after the operation guide screen for the AV device b2 is selected by the tap operation described above. When a selection is made, and when an annular clockwise swipe operation (see FIG. 9) for the touch operation unit 10 is recognized, a control command for increasing the volume of the AV device b2 is output.
Also according to this other example, it is possible to perform the operation on the in-vehicle device B without gazing at the fingertip or storing the button position, and the operability is good.

Moreover, in the said embodiment, although the touch operation part 10 and the display part 30 were each comprised separately, as another example, like the vehicle equipment operation device 2 shown in FIG. As a configuration of the display unit 30, it is also possible to use a touch display panel device 40 that integrally includes a touch operation function and a display function.
The touch display panel device 40 has a well-known structure in which a capacitive touch panel device and a liquid crystal display are overlaid. The touch display panel device 40 senses a driver's finger contact and contact position, and outputs a sensing signal to the control unit 20. In response to a signal from the control unit 20, a plurality of types of operation guide screens including the operation guide screen 30a are displayed.
And this touch display panel apparatus 40 is mounted | worn with appropriate places, such as instrument panel a1 and center console a2.
In this other example, when the control unit 20 senses the first tap operation on the display unit 30, an operation guide screen corresponding to the number of tapped fingers with the tap position as a center (in the example of FIG. 10). According to this, the operation guide screen 30a) is displayed. The subsequent processing is substantially the same as in the above-described embodiment.
According to this other example, the touch operation unit and the display unit can be configured in a space-saving manner as well as substantially the same effect as the above embodiment, and the tap operation is performed first. The operation guide screen is displayed at the position, and the operability is good.

In the above embodiment, the display unit 30 is provided. As another example, the display unit 30 may be omitted from the in-vehicle device operation apparatus 1 and only the touch operation unit 10 may be provided.

As described above, the embodiments of the present invention have been described in detail. However, the specific configuration is not limited to these embodiments, and even if there is a design change or the like without departing from the gist of the present invention, Included in the invention. In addition, the above-described embodiments can be combined by utilizing each other's technology as long as there is no particular contradiction or problem in the purpose and configuration.

1: In-vehicle device operation device 10: Touch operation unit 20: Control unit 30: Display unit 30a: Operation guide screen 31 to 38: Image image A: In-vehicle device operation system B: In-vehicle device b1: HVAC device b2: AV device b3: Navigation device

Claims (7)

1. A touch operation unit that detects a plurality of types of touch operations including flick operations in multiple directions and outputs the touch operation detection signal; and a control unit that issues a control command for the in-vehicle device in response to the touch operation detection signal. ,
   The control unit pre-assigns a plurality of control commands for each flick direction of the flick operation on the touch operation unit,
   When the controller recognizes a flick direction from the input touch operation sensing signal, the controller outputs the control command assigned to the flick direction.
2. A display unit that displays an operation guide screen according to a signal from the control unit,
   The in-vehicle device operation device according to claim 1, wherein the operation guide screen includes a plurality of image images corresponding to the plurality of control commands arranged in a ring shape so as to correspond to each flick direction. .
3. The control unit previously assigns a plurality of the operation guide screens corresponding to a plurality of in-vehicle devices,
   The control unit recognizes the type of the touch operation from the touch operation detection signal, and selects the operation guide screen to be displayed on the display unit according to the type of the touch operation. The in-vehicle device operation device described.
4. The control unit recognizes the number of fingers that have performed the touch operation as the type of the touch operation, and selects the operation guide screen to be displayed on the display unit according to the number of fingers. The in-vehicle device operating device according to claim 3.
5. The control unit previously assigns a plurality of the operation guide screens corresponding to a plurality of in-vehicle devices,
   The control unit recognizes the number of fingers that performed the touch operation from the input touch operation sensing signal, selects the operation guide screen according to the number of fingers, displays the operation guide screen on the display unit, and then The in-vehicle device operation device according to claim 2, wherein a flick direction is recognized from a touch operation detection signal input to the control unit and the control command assigned to the flick direction is output.
6. The control unit according to any one of claims 1 to 5, wherein when the control unit recognizes an annular swipe operation on the touch operation unit, the control unit outputs a control command according to a rotation direction of the swipe operation. In-vehicle device operation device.
7. An in-vehicle device operation system comprising: the in-vehicle device operation device according to any one of claims 1 to 6; and a plurality of types of in-vehicle devices controlled by the in-vehicle device operation device.

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