KR101657658B1 - Input apparatus, vehicle comprising the same and control method for the vehicle - Google Patents

Abstract

The present invention is to provide an input device capable of multi-directional operation according to a tilting operation and a rotation operation of a dial operation portion of a user, a vehicle including the same, and a control method thereof.
The input device according to one aspect includes a dial operation unit for generating a cursor movement signal according to a tilting operation and a rotation operation, and a display unit for displaying a direction selection screen when a tilting operation in a predetermined direction is input for a preset time.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an input device, a vehicle including the input device,

An input device to which a command for operating the vehicle is input, and a vehicle including the same.

The vehicle includes a cluster for displaying a running function such as a vehicle speed, an engine speed, a fuel amount, a cooling water, and vehicle information.

In addition to basic driving functions, the vehicle can include functions such as audio function, video function, navigation function, air conditioning control, seat control, lighting control, and the like.

In recent years, studies have been continuously conducted on an input device for allowing a user to more easily call and execute functions of the vehicle, thereby making the function operation safer and easier. For example, a dial operation portion capable of rotating operation is often used have. The dial control unit is advantageous in that the execution time is short, the usability is high, and the operation is intuitive as compared with the button-type input apparatus when the list search or the continuous value change is needed.

One aspect of the present invention is to provide an input device capable of multi-directional operation according to a tilting operation and a rotating operation of a dial operation portion of a user, a vehicle including the same, and a control method thereof.

An input device according to one aspect includes: a dial operation unit for generating a cursor movement signal in accordance with a tilting operation and a rotation operation; And a display unit for displaying a direction selection screen when a tilting operation in a predetermined direction is inputted for a preset time.

In addition, the direction selection screen may be provided so that a plurality of directions can be selected.

In addition, the direction selection screen may be provided so that a plurality of directions including a direction that can be set by the tilting operation can be selected.

Further, the display unit can display the movement of the cursor in accordance with the operation of the dial operating unit.

Further, the direction selection screen can be displayed around the cursor.

Further, when a tilting operation is input in the dial operating section, the display section can display a cursor that moves according to the tilting operation.

Further, the display unit can display a cursor that moves according to the rotation operation when the rotation operation is input in the dial operation unit.

Further, the tilting operation may include tilting in a plurality of predetermined directions.

Further, the rotating operation may include rotating in at least one of a clockwise direction and a counterclockwise direction.

A vehicle according to one aspect, comprising: a dial operating section for generating a cursor moving signal in accordance with a tilting operation and a rotating operation; And a display unit for displaying a direction selection screen when a tilting operation in a predetermined direction is inputted for a preset time.

In addition, the direction selection screen may be provided so that a plurality of directions can be selected.

In addition, the direction selection screen may be provided so that a plurality of directions including a direction that can be set by the tilting operation can be selected.

Further, the display unit can display the movement of the cursor in accordance with the operation of the dial operating unit.

Further, the direction selection screen can be displayed around the cursor.

A method of controlling a vehicle according to one aspect includes: inputting a tilting operation to a dial operating portion; And displaying a direction selection screen on the display unit when a tilting operation in a predetermined direction is inputted for a preset time.

Further, the step of displaying the direction selection screen may include displaying a direction selection screen around the cursor displayed on the display unit.

The method may further include the step of displaying the rotation operation direction input to the direction selection screen when the rotation operation is input to the dial operation unit.

The method may further include displaying a moving cursor in accordance with the rotation operation input to the display unit.

According to the input device according to one aspect, the vehicle including the same, and the control method thereof, it is possible to improve the convenience of the user by supporting the multi-directional operation of the dial operating portion.

1 is an external view of a vehicle according to an embodiment.
2 is a view showing an internal configuration of a vehicle according to an embodiment.
3 is a block diagram of an input device in accordance with one embodiment.
4 and 5 are diagrams illustrating a dial control unit according to an embodiment.
6 is a view showing a state in which the dial operating section is operated.
7 is a view showing a state in which the dial operating portion is tilted.
8 is a block diagram showing a configuration of a vehicle according to an embodiment.
9 is a flowchart showing a control method of a vehicle according to an embodiment.
FIGS. 10 to 15 illustrate how the user operates the dial control unit and how the cursor is displayed on the display unit.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings.

1 is an external view of a vehicle according to an embodiment.

1, a vehicle 100 according to an embodiment includes a main body 1 that forms an appearance of a vehicle 100, a front glass that provides a driver inside the vehicle 100 with a view of the front of the vehicle 100, A driving device 60 for rotating the wheels 51 and 52, a door 71 for shielding the interior of the vehicle 100 from the outside, And side mirrors 81 and 82 for providing the field of view of the rear of the vehicle 100. [

The front glass 30 is provided on the upper side of the main body 100 so that a driver inside the vehicle 100 can obtain time information in front of the vehicle 100. The windshield glass is also called a windshield glass.

The wheels 51 and 52 include a front wheel 51 provided on the front of the vehicle and a rear wheel 52 provided on the rear side of the vehicle and the driving device 60 includes a front wheel 51 and a rear wheel 52, (51) or the rear wheel (52). Such a drive unit 60 may employ an engine for generating a rotational force by burning fossil fuel or a motor for generating a rotational force by receiving power from a capacitor (not shown).

The door 71 is rotatably provided on the left and right sides of the main body 1 so that the driver can ride inside the vehicle 100 at the time of opening and shields the inside of the vehicle 100 from the outside at the time of closing .

The side mirrors 81 and 82 include a left side mirror 81 provided on the left side of the main body 1 and a right side mirror 82 provided on the right side. Side information and rear-side time information.

In addition, the vehicle 100 may include a proximity sensor for detecting obstacles or other vehicles behind the vehicle, and a rain sensor for detecting rainfall and precipitation.

As one example of the proximity sensor, a sensing signal is transmitted to a side or rear surface of a vehicle, and a reflection signal reflected from an obstacle such as another vehicle is received. Further, based on the waveform of the received reflection signal, it is possible to detect the presence of an obstacle behind the vehicle 100 and to detect the position of the obstacle. Such a proximity sensor may employ a method of detecting ultrasonic waves and detecting a distance to an obstacle by using ultrasonic waves reflected from obstacles.

FIG. 2 is a block diagram illustrating an internal configuration of a vehicle according to an exemplary embodiment of the present invention, and FIG. 3 is a block diagram illustrating an input device according to an exemplary embodiment of the present invention. 4 and 5 are views showing a dial operation unit 111 according to an embodiment of the present invention.

2, the vehicle may include a dashboard having a gear box 120, a center pedestal 130, a steering wheel 140, and the like.

The gear box 120 is provided with a speed change gear 121 for a vehicle speed change. In addition, as shown in the drawings, a dial operation portion 111 for controlling the user to perform the main function of the navigation device 10 or the vehicle may be installed in the gear box 120. [

The center fascia 130 may include an air conditioner, a clock 132, an audio device 133, a navigation device 10, and the like. The air conditioner controls the temperature, humidity, air cleanliness and air flow inside the vehicle to keep the interior of the vehicle comfortable. The air conditioner may include at least one discharge port installed in the center fascia 130 and discharging air. The center fascia 130 may be provided with a button or a dial for controlling the air conditioner or the like. A user such as a driver can control the air conditioner of the vehicle by using a button or dial arranged on the center pace.

According to the embodiment, the navigation device 10 may be installed in the center fascia 130. The navigation device 10 may be embedded in the center pacea 130 of the vehicle. The center pacea 130 may be provided with an input unit for controlling the navigation device 10. [ Depending on the embodiment, the input of the navigation device 10 may be located at a different location than the center fascia. For example, the input unit of the navigation device 10 may be formed around the display unit 300 of the navigation device 10. [ As another example, the input unit of the navigation device 10 may be installed in the gear box 120 or the like.

The steering wheel 140 is a device for adjusting the running direction of the vehicle and includes a rim 141 held by a driver and a spoke (not shown) connected to the steering device of the vehicle and connecting the rim 141 to a hub of a rotary shaft for steering 142). According to the embodiment, the spokes 142 may be provided with operating devices 142a and 142b for controlling various devices in the vehicle, for example, an audio device.

In addition, the dashboard may further include various instrument panels capable of displaying the traveling speed of the vehicle, the engine speed or the remaining amount of fuel, and a globe box capable of storing various items according to the embodiment.

The audio device 133 includes an operation panel having a plurality of buttons for performing various functions. The audio device may provide a radio mode for providing radio functions and a media mode for reproducing audio files of various storage media containing audio files. The buttons formed on the operation panel of the audio device 133 may be divided into buttons providing functions related to performing the radio mode, buttons providing functions related to performing the media mode, and buttons commonly used in the two modes. have.

The input device 110 according to an embodiment will be described in detail with reference to Figs. 3 to 5. Fig.

3 to 5, the input device 110 according to an embodiment of the present invention will be described in detail.

The input device 110 includes a dial operation portion 111 capable of rotating operation and the dial operation portion 111 may be installed in the gear box 120 in the vehicle as shown in Fig. The gear box 120 may be generally installed between the driver's seat and the passenger's seat inside the vehicle, and various parts related to the shift stick 121 and the shift may be installed or built-in. Various buttons 123 may be provided outside the gear box 120 according to the embodiment.

The dial operating portion 111 may include a knob-type main body 112 that can be held by a user and can be rotated. Various buttons 115a to 115c may be provided around the dial control unit 111 to assist the function of the dial control unit 111 or to perform a separate independent function.

As shown in Fig. 4, the dial operating portion 111 is provided so as to be rotatable in a clockwise or counterclockwise direction (R1, R2) along a predetermined rotational axis. The dial operating section 111 may be inclined in at least one direction d1 to d4 with respect to the central axis of the dial operating section 111, as shown in Fig. For example, as shown in Fig. 5, the dial control section 111 can be inclined in the front-rear and left-right directions d1 to d4. Of course, depending on the embodiment, the body 112 may be inclined in more diverse directions. A user can input a predetermined instruction or command by operating the main body 112 to rotate the main body 112 or to tilt the main body 112 in a specific direction.

Further, a touch pad TP capable of inputting through a touch may be provided on the upper surface of the dial control unit 111. [ The user can input a predetermined instruction or command to the touch pad TP of the dial operation unit 111 by inputting a predetermined touch gesture. The touch pad TP can be realized by various known touch panel such as a depressurization type or an electrostatic type.

The dial control unit 111 may include various components related to the operation of the dial control unit 111 in its interior. The dial control unit 111 may be provided with a rotary shaft member that is rotatably coupled to the dial control unit 111, various kinds of components associated therewith, and the like. The rotating shaft member may have a structure capable of tilting the dial operating portion 111 in the above-described four directions d1 to d4.

The dial control section 111 may contain various semiconductor chips, a printed circuit board, and the like therein. A semiconductor chip according to an example may perform information processing or store data. The semiconductor chip analyzes a predetermined electrical signal generated according to the movement of the dial operating portion 111 or the operation of the button formed on the dial operating portion 111, generates a predetermined control signal according to the analyzed contents, 400, see Fig. 8 below).

Fig. 6 is a view showing a state in which the dial operating section 111 is operated, and Fig. 7 is a view showing a state in which the dial operating section 111 is tilted.

When operating the dial operating section 111, the user usually arms the armrest and operates the dial operating section 111. [ The dial operating portion 111 can be tilted in the forward, backward, left and right directions (d1 to d4), and can be rotated in a predetermined direction (r1, r2) along a predetermined rotational axis.

Thus, the disclosed embodiment provides an input device 110, a vehicle 100 including the same, and a control method thereof, which are provided so as to be capable of multi-directional operation in accordance with a tilting operation and a turning operation with respect to the dial operating portion 111. [ Hereinafter, this will be described in detail.

8 is a block diagram showing a configuration of an input device 110 according to an embodiment. The vehicle 1 according to one embodiment may include the configuration of the input device 110 as it is, and a description overlapping with FIG. 8 will be omitted.

Referring to FIG. 8, the input device 110 may include a dial control unit 111, a driver 200, a display unit 300, and a controller 400.

The dial operation unit 111 generates a cursor movement signal in response to the tilting operation and the rotation operation, and outputs the cursor movement signal to the control unit 400. A description overlapping with that relating to the dial control section 111 will be omitted.

The driving unit 200 receives a driving signal of the display unit 300 from the control unit 400 and outputs a driving signal to the display unit 300. The driving signal of the display unit 300 may include a driving signal for cursor movement.

The display unit 300 can display the movement of the cursor in accordance with the operation of the dial operating unit 111 together with the screen to be operated.

The display unit 300 may be the display unit 300 of the navigation device, but is not limited thereto. The display unit 300 may employ a liquid crystal display (LCD) panel or a light emitting diode (LED) panel, and may include a touch screen panel (touch screen panel) TSP) can be employed.

The controller 400 controls the overall operation of the input device 110 and the signal flow between the internal components of the input device 110 and processes the data.

The control unit 400 includes a processor 410, a ROM 420 in which a control program 430 for controlling the input device 110 is stored, and a ROM 420 in which a signal or data input from the dial control unit 111 is stored And a RAM 430 used as a storage area corresponding to various jobs stored in the input device 110. The processor 410 and the ROM 420 and the RAM 430 may include internal And can be interconnected via a bus.

The control unit 400 receives the cursor movement signal generated by the dial control unit 111, provides the cursor movement signal to the signal processing process, and transmits the cursor movement signal to the driving unit 200.

 More specifically, the control unit 400 can determine the operation intention of the user by determining operation signals such as a tilting operation and a rotation operation inputted to the user through the dial operation unit 111. [

The controller 400 may control the user to move the cursor of the display unit 300 in the direction of the tilting operation when the tilting operation is input in the four directions d1 to d4 from the user, Or the counterclockwise direction (R1, R2), it is possible to control the cursor of the display unit 300 to be moved in the direction of the input rotation operation.

When the tilting operation in a predetermined direction is input for a preset time, the controller 400 determines the intention of the user as a multi-direction search intention and displays a direction selection screen on the display unit 300. [ The direction selection screen may be provided so that a plurality of directions can be selected, and a plurality of directions including four directions (d1 to d4) that can be set by a tilting operation can be selected in a more detailed manner. That is, the multi-directional search function can be provided by allowing the dial operation unit 111 to perform the tilting operation as well as the turning operation.

Next, a control method of the vehicle 1 according to one embodiment will be described. 10 to 15 are views showing a state in which the user operates the dial control unit 111 and thus the movement of the cursor displayed on the display unit 300 Fig.

9, a method of controlling the vehicle 1 according to an embodiment includes a step 510 in which a tilting operation is input to the dial operation unit 111, a step 520 in which a cursor moves in a tilting direction, A step 530, a step 540 of displaying a direction selection screen, a step of inputting a turning operation 550, and a step of moving a cursor 560 in a turning operation direction, when a tilting operation in a certain direction is input for a time period .

Referring to FIG. 10, a cursor 301 may be displayed at a preset default position on the initial screen of the display unit 300 according to an example.

When the tilting operation is inputted to the dial operating section 111 in the state as shown in Fig. 10, the cursor 301 can move in the tilting operating direction.

For example, when the tilting operation is inputted in the direction d1 as shown in FIG. 11, the cursor 301 of the display unit 300 can move in the direction d1 as shown in FIG.

Next, when a tilting operation in a predetermined direction is input for a predetermined time, the direction selection screen 303 can be displayed.

For example, when the tilting operation in the direction d1 as shown in FIG. 11 is input for a preset time, the controller 400 determines the intention of the user as a multi-direction search intention. Accordingly, the movement of the cursor 301 moving in the d1 direction is stopped, and the direction selection screen 303 can be displayed around the stopped cursor 301 as shown in Fig.

The direction selection screen 303 may be provided in the form of wrapping around the cursor 301 and may be divided into a plurality of direction selection sections including a continued tilting operation direction. That is, the direction selection screen 303 is divided into a plurality of direction selection sections and can provide rotation operation direction information to the user.

The direction selection screen 303 may be provided such that the direction d1, which is the tilting direction, is displayed in the default setting direction. For example, as shown in FIG. 12, an A1 section indicating a d1 direction may be displayed as a basic rotation direction selection section.

Next, when the rotation operation is inputted, the cursor 301 can be moved in the rotation operation direction. In this case, when the rotation operation is inputted, the step of displaying the rotation operation direction inputted to the direction selection screen 303 may further include the step of displaying the rotation operation direction.

For example, when the rotation operation is inputted in the clockwise direction R1 as shown in FIG. 13 in the state as shown in FIG. 12, the rotation direction selection period of the direction selection screen 303 is also changed to the clockwise direction R1, . ≪ / RTI > That is, as shown in FIG. 14, the rotation direction selection section can be moved from the section A1 to the section A2.

When the rotation direction of the A2 section is selected by the rotation operation, the cursor 301 can move in the direction indicated by the A2 section as shown in FIG.

The input device 110, the vehicle 1 including the input device 110, and the control method thereof have been described, and the technical idea of the invention is not limited thereto.

100: vehicle
110: input device
111: Dial control unit
400:

Claims (18)

A dial operation unit for generating a cursor movement signal in accordance with a tilting operation and a rotation operation; And
And a display unit for displaying a direction selection screen when a tilting operation in a predetermined direction is inputted for a predetermined time,
The direction selection screen includes:
And a plurality of directions including a direction that can be set by the tilting operation can be selected. The method according to claim 1,
The direction selection screen includes:
An input device provided so as to be capable of selecting a plurality of directions. delete The method according to claim 1,
The display unit includes:
And displays the movement of the cursor in accordance with the operation of the dial operating section. 5. The method of claim 4,
The direction selection screen includes:
The input device being displayed around the cursor. 5. The method of claim 4,
The display unit includes:
When the tilting operation is input in the dial operating section,
And a cursor that moves according to the tilting operation. 5. The method of claim 4,
The display unit includes:
When the rotary operation is input by the dial operation unit,
And displays a cursor moving in accordance with the rotation operation. The method according to claim 1,
In the tilting operation,
And tilting in a plurality of predetermined directions. The method according to claim 1,
The above-
Clockwise, counterclockwise, and the like. A dial operation unit for generating a cursor movement signal in accordance with a tilting operation and a rotation operation; And
And a display unit for displaying a direction selection screen when a tilting operation in a predetermined direction is inputted for a predetermined time,
The direction selection screen includes:
And a plurality of directions including a direction that can be set by the tilting operation can be selected. 11. The method of claim 10,
The direction selection screen includes:
And a plurality of directions are selectable. delete 11. The method of claim 10,
The display unit includes:
And displays the movement of the cursor in accordance with the operation of the dial operating section. 14. The method of claim 13,
The direction selection screen includes:
The vehicle being displayed around the cursor. A step of inputting a tilting operation to the dial operating section; And
And displaying a direction selection screen on a display unit when a tilting operation in a predetermined direction is input for a predetermined time,
The direction selection screen includes:
And a plurality of directions including a direction that can be set by the tilting operation can be selected. 16. The method of claim 15,
Wherein the step of displaying the direction selection screen comprises:
And displaying the direction selection screen around a cursor displayed on the display unit. 16. The method of claim 15,
And displaying the input rotation direction on the direction selection screen when the rotation operation is input to the dial operation unit. 16. The method of claim 15,
And displaying a cursor moving on the display unit according to the input rotation operation.

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