JP2015182499A - Operation device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an operation device that enables a user to intuitively operate, and is good in operability.SOLUTION: Three circles are provided concentrically, a set temperature display part is provided in a center circular region, and a set temperature reception part is provided in an inner arcuate region adjoining the circular region. Further, a set air capacity display part and a set air capacity reception part are provided in one body in an outer arcuate region. The set temperature reception part detects a user's operation on a detection region in the inner arcuate region, and specifies a set temperature based upon the user's operation. The set air capacity reception part detects a user's operation on a detection region in the outer arcuate region, and specifies a set air capacity based upon the user's operation.

Description

  The present invention relates to an operation device that receives a user operation on an in-vehicle device.

  Various electric devices such as an air conditioner (hereinafter referred to as an air conditioner) and an audio device are mounted on the vehicle. An operation panel having switches and buttons for operating these devices is disposed in the vicinity of a driver's seat such as an instrument panel of a vehicle (see, for example, Patent Document 1). In recent years, with the increase in the number of devices mounted on vehicles and the increase in functionality of each device, more switches are required, and a touch panel type operation panel that can be installed in a limited space in the vehicle. Is being installed in vehicles.

JP 2007-261335 A

However, even in the case of a touch panel type operation panel, when the number of switches or the like increases, it is necessary to watch the operation panel in order to search for a switch to be operated, and it takes time to search for the switch, so that the operability is deteriorated. There is a problem.
Further, the vehicle is provided with a display unit for displaying a set value set for the electric device at a position different from the operation panel. For example, a display unit for displaying the temperature or air volume set for the air conditioner is provided. Therefore, there is a problem that it is difficult for the user to perform an intuitive operation because it is necessary to search and operate a switch to be operated while confirming a setting value for the electric device with the display content of the display unit.

  The present invention has been made in view of such circumstances. The object is to provide an operating device that can be operated intuitively by the user and that can improve operability.

  An operating device according to the present invention is provided in an operating device that accepts a setting value setting operation for a setting item related to control of an in-vehicle device, a display unit that displays the setting value for the setting item, and a surrounding of the display unit. A detection unit that detects a movement operation that moves while touching the detection region, a specifying unit that specifies a setting value corresponding to the moving operation detected by the detection unit, and a setting value specified by the specifying unit. And a display control unit to be displayed on the display unit.

  According to the present invention, the detection area for receiving the setting value is provided so as to surround the display unit that displays the setting value for the setting item. The controller device accepts a setting value corresponding to a moving operation that moves while in contact with the detection area as a setting value for the setting item. Since the detection area where the user performs an operation is provided so as to surround the display unit for displaying the set value, the relationship between the operation area (detection area) and the display unit is intuitive and easy to operate. Further, even if an operation region is provided so as to surround the display unit, the design is not impaired, and the visibility with respect to the display unit is not impaired. Furthermore, since the set value is input by a moving operation with respect to the detection area, the user can perform an intuitive operation.

  The operating device according to the present invention further includes an outer detection unit that detects a contact operation with respect to an outer detection region provided so as to surround the detection region, and the specific unit is configured to respond to the contact operation detected by the outer detection unit. The setting value for the setting item different from the setting item is specified.

  According to the present invention, the outer detection area is provided so as to surround the detection area, and the controller device sets the setting value according to the moving operation with respect to the detection area and the setting value according to the contact operation with respect to the outer detection area, respectively. Accepted as setting values for different setting items. Therefore, it is possible to input setting values for each setting item by performing a moving operation or a contact operation on a plurality of detection areas.

  The operating device according to the present invention is characterized in that the display area of the display unit and the detection area are provided concentrically.

  According to the present invention, the display area for displaying the set value and the operation area (detection area) for inputting the set value are provided concentrically. Therefore, a set value can be input by performing, for example, an arcuate movement operation on the operation area.

  In the operating device according to the present invention, the display unit displays a set temperature for an air conditioner mounted on a vehicle, and the specifying unit detects the set temperature according to a moving operation detected by the detecting unit. And the set air volume for the air conditioner is specified in accordance with the contact operation detected by the outer side detection unit.

  According to the present invention, an operation area (detection area) for receiving a set temperature is provided so as to surround a display unit that displays a set temperature for the air conditioner, and a set air volume for the air conditioner is set so as to surround the operation area. A receiving operation area (outside detection area) is provided. Therefore, it is possible to improve the operability of the operating device that receives an operation on the air conditioner mounted on the vehicle.

  According to the present invention, it is possible to easily find an operation area (for example, an operation switch) to be operated by a user, and to realize an operation device with good operability and capable of intuitive operation.

FIG. 2 is a block diagram illustrating a configuration of an operating device according to the first embodiment. FIG. 3 is a schematic diagram illustrating an appearance of an operation unit and a display unit according to the first embodiment. FIG. 3 is a schematic diagram illustrating an example of an operation method for the operation device according to the first embodiment. FIG. 10 is a schematic diagram illustrating another example of an operation method for the operation device according to the first embodiment. FIG. 10 is a schematic diagram illustrating another example of an operation method for the operation device according to the first embodiment. FIG. 10 is a schematic diagram illustrating another example of an operation method for the operation device according to the first embodiment. 3 is a flowchart illustrating a procedure of processing performed by the controller device according to the first embodiment. FIG. 12 is a schematic diagram illustrating still another example of an operation method for the operation device according to the first embodiment. FIG. 6 is a schematic diagram illustrating an appearance of an operation unit and a display unit according to a second embodiment.

  Hereinafter, an operating device according to the present invention will be described in detail with reference to the drawings illustrating embodiments thereof. In the following, an embodiment in which the operating device according to the present invention is applied to an operating device for operating an air conditioner (air conditioner) mounted on a vehicle will be described, but this is an example and the present invention is not limited thereto.

(Embodiment 1)
FIG. 1 is a block diagram illustrating a configuration of an operating device according to the first embodiment. The operation device 1 according to the first embodiment is provided at a position that can be operated by a driver sitting in a driver's seat, for example, like an instrument panel of a vehicle. The operating device 1 is connected to an ECU (Electronic Control Unit) 3 that controls various in-vehicle devices mounted on the vehicle via a communication line L1 laid in the vehicle. The ECU 3 is connected to an air conditioner 2 installed at an appropriate location of the vehicle via a communication line L2, for example. Note that an in-vehicle device other than the controller device 1 and the ECU 3 may be connected to the communication line L1, and an in-vehicle device other than the ECU 3 and the air conditioner 2 may be connected to the communication line L2. The controller device 1 and the ECU 3 can communicate with each other via the communication line L1, and the ECU 3 and the air conditioner 2 can communicate with each other via the communication line L2. Communication via the communication lines L1 and L2 is performed based on a communication standard such as CAN (Controller Area Network) or LIN (Local Interconnect Network). Note that the controller 1, the air conditioner 2, and the ECU 3 may be connected to the same communication line.

The operation device 1 includes a control unit 10, a storage unit 11, an operation unit 12, a display unit 13, a communication unit 14, and the like.
The control unit 10 is a CPU (Central Processing Unit) or an MPU (Micro Processor Unit). The control unit 10 performs various processes by appropriately reading and executing the control program stored in the storage unit 11 and controls the operation of each unit of the controller device 1. The storage unit 11 is an EEPROM (Electrically Erasable Programmable Read Only Memory) or a flash memory. The storage unit 11 stores a control program to be executed by the control unit 10, various data, various data generated when the control unit 10 executes the control program, and the like.

  The communication unit 14 is a communication interface for connecting to the communication line L1, and performs communication via the communication line L1 between the ECU 3 connected to the communication line L1 and other in-vehicle devices. Specifically, the communication unit 14 performs a process of transmitting information provided from the control unit 10 to the ECU 3, a process of receiving information transmitted from the ECU 3, and the like. When the communication unit 14 receives information via the communication line L1, the communication unit 14 sends the received information to the control unit 10.

  The display unit 13 displays various information according to instructions from the control unit (display control unit) 10. In the first embodiment, the display unit 13 displays setting values (setting information) set for the air conditioning conditions (setting items) of the air conditioner 2. Specifically, the display unit 13 includes a set temperature display unit 13 a for displaying the set temperature of the air conditioner 2 and a set air volume display unit 13 b for displaying the set air volume of the air conditioner 2. In addition to the set temperature display unit 13a and the set air volume display unit 13b, a display unit for displaying set values for other setting items, the operating state of the air conditioner 2, and the like may be provided.

  The operation unit 12 receives a setting operation for setting values (setting information) for the air conditioning conditions (setting items) of the air conditioner 2 and sends the received setting values to the control unit 10. Specifically, the operation unit 12 includes a set temperature receiving unit 12 a that receives a set temperature for the air conditioner 2 and a set air volume receiving unit 12 b that receives a set air volume for the air conditioner 2. In addition to the set temperature receiving unit 12a and the set air volume receiving unit 12b, a receiving unit that receives set values for other setting items may be provided.

  FIG. 2 is a schematic diagram illustrating the appearance of the operation unit 12 and the display unit 13 according to the first embodiment. In the example shown in FIG. 2, three circles are arranged concentrically, and the central circular region corresponds to the set temperature display portion 13a. The set temperature display unit 13a has, for example, three 7-segment displays provided in a circular area, and displays the temperature set via the set temperature receiving unit 12a on the 7-segment display. In FIG. 2, the set temperature display part 13a displays 27.5 ° C.

  An arc-shaped area adjacent to the circular area (hereinafter referred to as an inner arc area) corresponds to the set temperature receiving unit 12a. The set temperature reception unit 12a includes a touch sensor such as a capacitance method, a resistance film method, or an electromagnetic induction method, and detects a user operation on the inner arc region using the touch sensor. In the example shown in FIG. 2, “TEMP” is attached to the lower position in the inner arc region as a mark indicating the set temperature receiving unit 12 a. In the inner arc region, a mark “Lo” indicating the minimum temperature is attached to the left side of “TEMP”, a mark “Hi” indicating the maximum temperature is attached to the right side, and a mark “25 ° C.” is indicated at the upper position. 25 "is attached. In the inner arc region, the region from the “Lo” position to the “Hi” position in the clockwise direction is a detection region for the operation by the user, and the set temperature reception unit (detection unit) 12 a A contact operation (touch operation) and a movement operation (slide operation) are detected.

  In the first embodiment, the operation body that performs the contact operation and the movement operation with respect to the set temperature reception unit 12a (detection region) is described as an example of the user's finger, but is not limited to the user's finger. Further, the contact operation is an operation of leaving the set temperature receiving unit 12a after the user's finger contacts the set temperature receiving unit 12a, and the moving operation is a state in which the user's finger is in contact with the set temperature receiving unit 12a. This is an operation of moving (sliding) clockwise or counterclockwise along the detection area (set temperature receiving unit 12a) and leaving the set temperature receiving unit 12a.

  The set temperature reception unit 12a detects whether or not a user's finger has touched the detection area, and calculates a contact position (hereinafter referred to as an operation position) with respect to the detection area when the user's finger contacts the detection area. To do. The operation position can be indicated by, for example, a distance from the “Lo” position or a distance from the “Hi” position in the detection region. The set temperature reception unit 12a detects whether or not the user's finger has moved away from the detection area, and sets the operation position at predetermined time intervals (for example, every several tens of milliseconds or several hundreds of milliseconds) until the user's finger leaves. calculate. The set temperature receiving unit (specifying unit) 12a specifies a set temperature (set value) corresponding to the user's operation based on the sequentially calculated operation positions. A method for specifying the set temperature by the set temperature receiving unit 12a will be described later. The set temperature receiving unit 12a sends the specified set temperature to the control unit 10, and the control unit 10 controls the set temperature display unit 13a to display the set temperature acquired from the set temperature receiving unit 12a.

  The outermost arc-shaped area (hereinafter referred to as the outer arc area) corresponds to the set air volume display unit 13b and the set air volume receiving unit 12b. In the example shown in FIG. 2, an air volume mark is attached at a lower position in the outer arc region as a mark indicating that the set air volume receiving unit 12 b and the set air volume display unit 13 b. In the outer arc region, a mark “−” indicating that the air volume is weak (decreases the air volume) is attached to the left side of the air volume mark, and a mark “+” indicating that the air volume is strong (increases the air volume) is displayed on the right side. It is attached. In the outer arc region, the region from the “−” position to the “+” position in the clockwise direction is a display region in the set air volume display unit 13b and a detection region in the set air volume receiving unit 12b.

  In the example shown in FIG. 2, the set air volume display portion 13b is provided on the back side of the plate portion having a light guide hole formed in the shape of each divided region obtained by dividing the display region into seven portions, It has seven light sources and the like disposed so as to face each light guide hole. For example, an LED (Light Emitting Diode) is used as the light source. The set air volume display unit 13b is set via the set air volume receiving unit 12b with light from the light source that has passed through each light guide hole by turning on / off each light source according to an instruction from the control unit 10. Display air volume. In the set air volume display unit 13b, when all the light sources are turned off, the air conditioner 2 is in a stopped state, and when one light source on the “−” side is turned on, the set air volume is in the first stage. Indicates that Further, it indicates that a strong air volume is set by one step every time one light source is turned on from the “−” side. FIG. 2 shows a state where the second stage air volume is set. The set air volume display unit 13b is not limited to a configuration that displays the set air volume by turning on / off each light source, and may be any configuration that has a display mode in which the area corresponding to the set air volume and the remaining area are different. For example, the setting air volume display unit 13b may be realized by a touch panel, and different colors may be displayed in an area corresponding to the setting air volume and the remaining area.

The set air volume receiving unit 12b has a touch sensor like the set temperature receiving unit 12a, and the touch sensor is provided on the display surface side of the set air volume display unit 13b (the front side of the plate portion having the light guide hole). Yes. The set air volume receiving unit (detecting unit) 12b detects a user's contact operation (touch operation) and movement operation (slide operation) with respect to the detection region in the outer arc region.
Specifically, the set air volume receiving unit 12b detects whether or not the user's finger has touched the detection area. When the user's finger has touched the detection area, the contact position (operation position) with respect to the detection area. Is calculated. The operation position in the set air volume receiving unit 12b can be indicated by, for example, a distance from the position “−” or a distance from the position “+” in the detection region. Further, the operation position may be indicated in a divided area including the operation position in the set air volume receiving unit 12b by using a divided area in the display area of the set air volume display unit 13b. The set air volume receiving unit 12b detects whether or not the user's finger has left the detection area, and sets the operation position at predetermined time intervals (for example, every several tens of milliseconds or several hundreds of milliseconds) until the user's finger leaves. calculate. The set air volume receiving unit (specifying unit) 12b specifies the set air volume (set value) corresponding to the user's operation based on the sequentially calculated operation positions. A method for specifying the set air volume by the set air volume receiving unit 12b will be described later. The set air volume receiving unit 12b sends the specified set air volume to the control unit 10, and the control unit 10 controls the set air volume display unit 13b to display the set air volume acquired from the set air volume receiving unit 12b.

  In the controller device 1 according to the first embodiment, the set temperature receiving unit 12a specifies the set temperature based on the user's operation on the detection region in the inner arc region, and the set air volume receiving unit 12b corresponds to the detection region in the outer arc region. The set air volume is specified based on the user's operation. In addition to such a configuration, the control unit 10 performs a set temperature specifying process based on the operation position calculated by the set temperature receiving unit 12a and a set air volume specifying process based on the operation position calculated by the set air volume receiving unit 12b. It is good also as a structure.

Next, a method for specifying the set temperature by the set temperature receiving unit 12a and a method for specifying the set air volume by the set air volume receiving unit 12b will be described. FIG. 3 is a schematic diagram illustrating an example of an operation method for the operation device 1 according to the first embodiment.
FIG. 3A shows an example of an operation method when setting the temperature for the air conditioner 2. As shown in the left diagram of FIG. 3A, when the current set temperature is 25.0 ° C., the user touches the finger near the position “25” in the set temperature receiving unit 12a (inner arc region), and the desired temperature Is moved clockwise or counterclockwise along the inner arc region to the position corresponding to. Note that the user performs a clockwise movement operation to increase the temperature, and performs a counterclockwise movement operation to decrease the temperature.

  The set temperature receiving unit 12a calculates the operation position with respect to the detection area in the inner arc area at predetermined time intervals, and specifies the set temperature based on the sequentially calculated operation positions. When a contact operation is performed on the position “25” in the detection region, the set temperature receiving unit 12a specifies the temperature corresponding to the current operation position in the moving operation from the contact operation as the set temperature. Specifically, “Lo” is a position corresponding to 18.0 ° C., “Hi” is a position corresponding to 32.0 ° C., and it depends on the distance from the current operation position to “Lo” or “Hi”. Identify the set temperature. That is, it is possible to set the temperature from 18 ° C. to 32 ° C. via the set temperature receiving unit 12a.

  The set temperature receiving unit 12a sends the specified set temperature to the control unit 10, and the control unit 10 controls the set temperature display unit 13a based on the set temperature acquired from the set temperature receiving unit 12a to display the set temperature. Let The set temperature receiving unit 12a sequentially performs the detection process of the user's operation position and the specified process of the set temperature while the user's moving operation is performed on the inner arc region, so that the setting according to the user's operation position The temperature is appropriately changed and displayed on the set temperature display portion 13a. As a result, the user can check the current set temperature based on his / her operation, and when the desired set temperature is reached, the user only has to end the moving operation, so operability is good. In addition, since the temperature corresponding to the distance from “Lo” or “Hi” in the inner arc region becomes the set temperature, the user can perform intuitive operations.

  When the set temperature receiving unit 12a detects that the user's moving operation has ended (the user's finger has left the detection area), the set temperature receiving unit 12a notifies the control unit 10 of the end of the user's operation. When notified of the end of the user's operation, the control unit 10 uses the set temperature (the set temperature displayed on the set temperature display unit 13a) acquired from the set temperature receiving unit 12a immediately before as the set temperature for the air conditioner 2. Accept. Then, the control unit 10 transmits an operation instruction at the received set temperature from the communication unit 14 to the air conditioner 2. The control unit 10 transmits an operation instruction for the air conditioner 2 to the ECU 3, and the ECU 3 controls the air conditioner 2 by transmitting the received operation instruction to the air conditioner 2. The control unit 10 may be configured to transmit the received set temperature to the ECU 3, and the ECU 3 may generate an operation instruction at the received set temperature and transmit it to the air conditioner 2. The operation instruction for the air conditioner 2 output from the operation device 1 may be transmitted directly from the operation device 1 to the air conditioner 2 in addition to the configuration transmitted to the air conditioner 2 via the ECU 3. When the moving operation is performed up to the position corresponding to 27.5 ° C. as indicated by the arrow in the left diagram of FIG. 3A, the control unit 10 transmits an operation instruction at the set temperature 27.5 ° C. to the air conditioner 2. To do. The air conditioner 2 performs an operation according to the operation instruction acquired from the controller device 1.

  FIG. 3B shows an example of an operation method when the air volume is set for the air conditioner 2. As shown in the left diagram of FIG. 3B, when the current set air volume is in the second stage, the user can set the position corresponding to the light source being lit (front of the light source being lit) in the set air volume receiving unit 12b (outer arc region). A finger is brought into contact with the vicinity of the position (side position), and a movement operation is performed clockwise or counterclockwise along the outer arc region to a position corresponding to a desired air volume. Note that the user performs a clockwise movement operation to increase the air volume, and performs a counterclockwise movement operation to decrease the air volume.

  The set air volume receiving unit 12b calculates the operation position with respect to the detection area in the outer arc area at predetermined time intervals, and specifies the set air volume based on the sequentially calculated operation positions. When a contact operation is performed on the position corresponding to the light source that is lit in the detection area, the set air volume receiving unit 12b specifies the air volume corresponding to the current operation position in the moving operation from the contact operation as the set air volume. . Specifically, the air volume according to the divided area including the current operation position is specified. When the moving operation indicated by the arrow in the left diagram of FIG. 3B is performed, the air volume at the fourth stage is specified as the set air volume.

  The set air volume receiving unit 12b sends the specified set air volume to the control unit 10, and the control unit 10 controls the set air volume display unit 13b based on the set air volume acquired from the set air volume receiving unit 12b, and displays the set air volume. Let The set air volume display unit 13b turns on the light source corresponding to the set air volume to be displayed. The set air volume accepting unit 12b sequentially performs the detection process of the user's operation position and the specific process of the set air volume while the user's moving operation is performed on the outer arc region, so that the setting according to the operation position of the user The air volume is appropriately changed and displayed on the set air volume display unit 13b. Thereby, the user can check the current set air volume based on his / her operation, and when the desired set air volume is reached, the user only has to end the moving operation, so the operability is good. Moreover, since the stage of the set air volume is changed every time the user's operation position moves in each divided area in the outer arc area, the user's intuitive operation becomes possible.

  The set air volume receiving unit 12b notifies the control unit 10 of the end of the user's operation when detecting that the user's moving operation has ended (the user's finger has left the detection area). When notified of the end of the user's operation, the control unit 10 uses the set air volume (the set air volume currently displayed on the set air volume display unit 13b) acquired from the set air volume receiving unit 12b immediately before as the set air volume for the air conditioner 2. Accept. The control unit 10 transmits an operation instruction with the received set air volume from the communication unit 14 to the air conditioner 2. Also here, the control unit 10 transmits an operation instruction for the air conditioner 2 to the air conditioner 2 via the ECU 3. When the moving operation is performed up to the position corresponding to the fourth stage as indicated by an arrow in the left diagram of FIG. 3B, the control unit 10 transmits an operation instruction with the air volume at the fourth stage to the air conditioner 2. The air conditioner 2 performs an operation according to the operation instruction acquired from the controller device 1. The set air volume receiving unit 12b may be configured to detect a simple contact operation in addition to the user's moving operation with respect to the outer arc region and receive the air volume corresponding to the operation position in the detected contact operation as the set air volume.

The controller device 1 of the first embodiment is not limited to the temperature setting method based on the operation on the set temperature receiving unit 12a and the air volume setting method based on the operation on the set air volume receiving unit 12b as described above. 4-6 is a schematic diagram which shows the other example of the operating method with respect to the operating device 1 of Embodiment 1. FIG.
FIG. 4A shows another example of the operation method when setting the temperature for the air conditioner 2. In the example shown in FIG. 4A, the maximum temperature (for example, 32 ° C.) is set by the user performing a contact operation on the position of “Hi” in the set temperature receiving unit 12a (inner arc region). When the user performs a contact operation on the position “Lo” in the set temperature receiving unit 12a, a minimum temperature (for example, 18 ° C.) is set.

  Specifically, when the contact operation with respect to the position of “Hi” (or “Lo”) in the detection region is detected, the set temperature receiving unit 12a identifies the maximum temperature (or the minimum temperature) as the set temperature. The set temperature reception unit 12a notifies the control unit 10 of the end of the user operation together with the specified set temperature. The control unit 10 displays the set temperature (HI or Lo) acquired from the set temperature receiving unit 12a on the set temperature display unit 13a and transmits an operation instruction at the acquired set temperature to the air conditioner 2. Also here, the control unit 10 transmits an operation instruction for the air conditioner 2 to the air conditioner 2 via the ECU 3. As shown in the left diagram of FIG. 4A, when a contact operation is performed on the position “Hi”, the control unit 10 changes the display temperature of the set temperature display unit 13 a to “HI” and sets the temperature at the set temperature of 32 ° C. An operation instruction is transmitted to the air conditioner 2. The maximum temperature or the minimum temperature may be set by performing a contact operation by long pressing (for example, about 2 seconds or more) on the position of “Hi” or “Lo” in the set temperature receiving unit 12a. .

FIG. 4B shows another example of the operation method when setting the air volume for the air conditioner 2. In the example shown in FIG. 4B, each time the user performs a contact operation once on the position of “+” in the set air volume receiving unit 12b (outer arc region), the air volume is set one step higher than the immediately preceding set air volume. The Each time the user performs a contact operation once on the position “−” in the set air volume receiving unit 12b, the air volume is set one step lower than the immediately preceding set air volume.
Specifically, when the set air volume receiving unit 12b detects a contact operation with respect to the position of “+” (or “−”) in the detection area, the set air volume is increased by one step stronger (or weaker) than the immediately preceding set air volume. To be specific. The set air volume receiving unit 12b notifies the control unit 10 of the end of the user's operation together with the specified set air volume. The control unit 10 causes the set air volume display unit 13b to display the set air volume acquired from the set air volume receiving unit 12b, and transmits an operation instruction with the acquired set air volume to the air conditioner 2. Also here, the control unit 10 transmits an operation instruction for the air conditioner 2 to the air conditioner 2 via the ECU 3. As shown in the left diagram of FIG. 4B, when the current setting air volume is the first stage air volume and the contact operation for the position “+” is performed once, the control unit 10 displays the setting air volume display unit 13b. The display air volume is changed to the air volume at the second stage, and an operation instruction at the air volume at the second stage is transmitted to the air conditioner 2.

FIG. 5A shows another example of the operation method when setting the temperature for the air conditioner 2. In the example shown in FIG. 5A, each time the user performs a flick operation once in the clockwise direction (rightward direction) with respect to the set temperature receiving unit 12a (inner arc region), a predetermined value (for example, 0. 0) is set. 5 ° C) Increased temperature is set. Each time the user performs a flick operation once in the counterclockwise direction (left direction) with respect to the set temperature receiving unit 12a, a temperature that is a predetermined value (for example, 0.5 ° C.) lower than the previous set temperature is set. Is done.
Note that the flick operation is an operation of paying (flicking) the surface of the set temperature receiving unit 12a after the user's finger contacts the set temperature receiving unit 12a (detection region).

  The set temperature receiving unit 12a calculates an operation position for the detection area in the inner arc area at predetermined time intervals, and detects whether or not a flick operation has been performed on the detection area based on the calculated operation position. For example, it is determined whether or not the time from when the user's finger contacts the detection area until the user leaves the detection area is within a predetermined range (for example, within 0.5 seconds). If there is a change in position, it is determined that a flick operation has been performed. The set temperature receiving unit 12a detects the operation direction related to the flick operation based on the operation positions calculated sequentially.

  When the set temperature receiving unit 12a detects that a clockwise (or counterclockwise) flick operation has been performed, the set temperature receiving unit 12a sets a temperature that is higher (or lower) by a predetermined value (for example, 0.5 ° C.) than the previous set temperature. Specify the set temperature. The set temperature reception unit 12a notifies the control unit 10 of the end of the user operation together with the specified set temperature. The control unit 10 displays the set temperature acquired from the set temperature receiving unit 12a on the set temperature display unit 13a, and transmits an operation instruction at the acquired set temperature to the air conditioner 2. Also here, the control unit 10 transmits an operation instruction for the air conditioner 2 to the air conditioner 2 via the ECU 3. As shown in the left diagram of FIG. 5A, when a clockwise flick operation is performed once in a state where the current set temperature is 25 ° C., the control unit 10 sets the display temperature of the set temperature display unit 13a to “25”. .5 ”and an operation instruction at the set temperature of 25.5 ° C. is transmitted to the air conditioner 2.

  FIG. 5B shows another example of the operation method when setting the air volume for the air conditioner 2. In the example shown in FIG. 5B, each time the user performs a flick operation once in the clockwise direction with respect to the set air volume receiving unit 12b (outer arc region), the air volume that is increased by one step from the immediately preceding set air volume is set. . Each time the user performs a flick operation once in the counterclockwise direction with respect to the set air volume receiving unit 12b, the air volume is set one step lower than the previous set air volume. The set air volume receiving unit 12b calculates an operation position for the detection area in the outer arc area at predetermined time intervals, and detects whether or not a flick operation has been performed on the detection area based on the calculated operation position. The set air volume receiving unit 12b detects the operation direction related to the flick operation based on the operation positions calculated sequentially. The set air volume receiving unit 12b determines whether or not a flick operation has been performed in the same process as the set temperature receiving unit 12a.

  When the set air volume receiving unit 12b detects that a clockwise (or counterclockwise) flick operation has been performed, the set air volume accepting unit 12b identifies the set air volume that is one step stronger (or weaker) than the previous set air volume. The set air volume receiving unit 12b notifies the control unit 10 of the end of the user's operation together with the specified set air volume. The control unit 10 causes the set air volume display unit 13b to display the set air volume acquired from the set air volume receiving unit 12b, and transmits an operation instruction with the acquired set air volume to the air conditioner 2. Also here, the control unit 10 transmits an operation instruction for the air conditioner 2 to the air conditioner 2 via the ECU 3. As shown in the left diagram of FIG. 5B, when a clockwise flick operation is performed once in a state where the current set air volume is the first stage air volume, the control unit 10 displays the displayed air volume on the set air volume display unit 13b. Is changed to the air volume of the second stage, and an operation instruction with the air volume of the second stage is transmitted to the air conditioner 2.

  FIG. 6A shows another example of the operation method when setting the temperature for the air conditioner 2. In the example shown in FIG. 6A, when the user performs a moving operation in the clockwise direction (right direction) with respect to the set temperature receiving unit 12a (inner arc region), the moving distance related to the moving operation is changed from the immediately preceding set temperature. The temperature to which the corresponding value is added is set. When the user performs a moving operation in the counterclockwise direction (left direction) with respect to the set temperature receiving unit 12a, a temperature obtained by subtracting a value corresponding to the moving distance related to the moving operation from the immediately preceding set temperature. Is set. The starting point of the moving operation here may be anywhere within the detection area in the inner arc area.

  In this case, the set temperature receiving unit 12a calculates the operation position for the detection region in the inner arc region at a predetermined time interval, and calculates the movement direction and the movement distance related to the movement operation based on the calculated operation position. The set temperature receiving unit 12a specifies a change value of the set temperature based on the calculated movement distance. For example, when the movement distance is the longest distance from the position “Lo” to the position “Hi” in the inner arc region, the set temperature reception unit 12a specifies the change value as the maximum value 14. When the moving distance is not the longest distance, the set temperature receiving unit 12a identifies a change value corresponding to the moving distance by multiplying the maximum value 14 by the ratio of the moving distance to the longest distance. When the moving direction is clockwise, the set temperature receiving unit 12a specifies a temperature obtained by adding the specified change value to the immediately preceding set temperature as the set temperature, and when the moving direction is counterclockwise, The temperature obtained by subtracting the specified change value from the set temperature is specified as the set temperature.

  The set temperature receiving unit 12a sends the specified set temperature to the control unit 10, and the control unit 10 causes the set temperature display unit 13a to display the set temperature acquired from the set temperature receiving unit 12a. Since the set temperature receiving unit 12a repeats the above-described processing while the user's movement operation is performed on the inner arc region, the set temperature corresponding to the user's operation position is appropriately changed to the set temperature display unit 13a. Is displayed. As a result, the user can check the current set temperature based on his / her operation, and when the desired set temperature is reached, the user only has to end the moving operation, so operability is good. In addition, since the temperature corresponding to the moving direction and the moving distance related to the moving operation with respect to the inner arc region is the set temperature, the user can perform an intuitive operation.

  When the set temperature receiving unit 12a detects that the user's moving operation has ended, the set temperature receiving unit 12a notifies the control unit 10 of the end of the user's operation. When notified of the end of the user's operation, the control unit 10 receives the set temperature acquired from the set temperature receiving unit 12a immediately before as the set temperature for the air conditioner 2, and issues an operation instruction at the received set temperature to the air conditioner 2. Send to. Also here, the control unit 10 transmits an operation instruction for the air conditioner 2 to the air conditioner 2 via the ECU 3. As shown in the left diagram of FIG. 6A, when a moving operation corresponding to the change value 5 ° C. is performed in a state where the current set temperature is 25 ° C., the control unit 10 sets the set temperature 30.0 ° C. Is sent to the air conditioner 2.

  FIG. 6B shows another example of the operation method when setting the air volume for the air conditioner 2. In the example shown in FIG. 6B, when the user performs a moving operation in the clockwise direction with respect to the set air volume receiving unit 12b (outer arc region), the setting air volume is strengthened according to the moving distance related to the moving operation from the immediately preceding set air volume. The air volume is set. When the user performs a moving operation in the counterclockwise direction with respect to the set air volume receiving unit 12b, the air volume weakened according to the moving distance related to the moving operation is set from the immediately preceding set air volume. The starting point of the moving operation here may be anywhere within the detection area in the outer arc area.

  Specifically, the set air volume receiving unit 12b calculates an operation position for the detection area in the outer arc area at predetermined time intervals, and calculates a movement direction and a movement distance related to the movement operation based on the calculated operation position. . Further, the set air volume receiving unit 12b specifies a change value (change stage) of the set air volume based on the calculated movement distance. For example, in each divided area in the outer arc area, the number of divided areas operated by the moving operation is specified at the change stage. For example, as shown in the left diagram of FIG. 6B, when a moving operation over two divided regions is performed, the change stage is specified as two stages. Then, when the moving direction is clockwise, the set air volume receiving unit 12b specifies, from the immediately preceding set air volume, the specified air volume that has been determined to be changed in the change stage, and when the moving direction is counterclockwise, From the specified change stage, the weak air volume is specified as the set air volume.

  The set air volume receiving unit 12b sends the specified set air volume to the control unit 10, and the control unit 10 causes the set air volume display unit 13b to display the set temperature acquired from the set air volume receiving unit 12b. The set air volume accepting unit 12b repeats the above-described process while the user's movement operation is performed on the outer arc region, so that the set air volume according to the user's operation position is appropriately changed to the set air volume display unit 13b. Is displayed. Thereby, the user can check the current set air volume based on his / her operation, and when the desired set air volume is reached, the user only has to end the moving operation, so the operability is good. Further, since the air volume according to the moving direction and the moving distance related to the moving operation with respect to the outer arc region becomes the set air volume, the user can perform an intuitive operation.

  The set air volume receiving unit 12b notifies the control unit 10 of the end of the user's operation when detecting that the user's moving operation has ended. When notified of the end of the user's operation, the control unit 10 receives the set air volume acquired from the set air volume receiving unit 12b immediately before as the set air volume for the air conditioner 2. Then, the control unit 10 transmits an operation instruction with the received set air volume to the air conditioner 2. Also here, the control unit 10 transmits an operation instruction for the air conditioner 2 to the air conditioner 2 via the ECU 3. As shown in the left diagram of FIG. 6B, when the movement distance is moved clockwise by two divided areas while the current set air volume is the first stage air volume, the control unit 10 An operation instruction with three levels of airflow is transmitted to the air conditioner 2.

Below, the process which the operating device 1 of this Embodiment 1 performs is demonstrated based on a flowchart. FIG. 7 is a flowchart illustrating a procedure of processing performed by the controller device 1 according to the first embodiment.
In the controller device 1, the set temperature reception unit 12a of the operation unit 12 determines whether or not a user operation (temperature setting operation) on the detection region in the inner arc region has been started (S1). When it is determined that the temperature setting operation is started (S1: YES), the set temperature receiving unit 12a calculates the user's operation position with respect to the detection region (inner arc region) (S2), and sets according to the calculated operation position. The temperature is specified (S3).

  For example, as described with reference to FIG. 3A, the set temperature reception unit 12a specifies the temperature corresponding to the current operation position in the user's move operation with respect to the detection area as the set temperature. Note that the set temperature reception unit 12a may specify a set temperature according to various operations of the user with respect to the detection region by the method (process) described based on FIG. 4A, FIG. 5A, or FIG. 6A. In addition, the set temperature receiving unit 12a may specify the set temperature according to the content of the user's operation on the detection region by switching the above-described process according to the type of the user's operation.

  When the set temperature receiving unit 12a specifies the set temperature, the control unit 10 displays the specified set temperature on the set temperature display unit 13a (S4), and the set temperature receiving unit 12a displays the detection region (inner arc region). It is determined whether or not the user's temperature setting operation has been completed (S5). When it is determined that the temperature setting operation has not ended (S5: NO), the controller device 1 returns the process to step S2, and repeats the operation position calculation process and the set temperature specifying process by the set temperature receiving unit 12a. The set temperature receiving unit 12a performs a calculation process of the user's operation position with respect to the detection area every predetermined time, and performs a set temperature specifying process corresponding to the calculated operation position each time the operation position is calculated. When it is determined that the temperature setting operation has been completed by the set temperature receiving unit 12a (S5: YES), the control unit 10 sends an operation instruction at the set temperature specified by the set temperature receiving unit 12a immediately before to the communication unit. 14 is transmitted to the air conditioner 2 (S6), and the process is terminated. Specifically, the control unit 10 transmits an operation instruction for the air conditioner 2 to the ECU 3, and the ECU 3 controls the air conditioner 2 according to the received operation instruction.

  When it is determined in step S1 that the temperature setting operation has not been started (S1: NO), the set air volume receiving unit 12b of the operation unit 12 starts a user operation (air volume setting operation) on the detection area in the outer arc area. It is determined whether or not (S7). If it is determined that the air volume setting operation has not been started (S7: NO), the controller device 1 returns the process to step S1. When it is determined that the air volume setting operation has been started (S7: YES), the set air volume accepting unit 12b calculates the user's operation position with respect to the detection area (outer arc area) (S8), and sets according to the calculated operation position. The air volume is specified (S9).

  For example, as described with reference to FIG. 3B, the set air volume receiving unit 12b specifies the air volume corresponding to the current operation position in the user's moving operation with respect to the detection area as the set air volume. The set air volume receiving unit 12b may specify the set air volume according to various user operations on the detection area by the method (process) described based on FIG. 4B, FIG. 5B, or FIG. 6B. The set air volume receiving unit 12b may specify the set air volume according to the user's operation content on the detection area by switching the above-described processing according to the type of the user's operation.

  When the set air volume accepting unit 12b specifies the set air volume, the control unit 10 displays the specified set air volume on the set air volume display unit 13b (S10), and the set air volume accepting unit 12b displays the detection area (outer arc area). It is determined whether or not the user's air volume setting operation is completed (S11). If it is determined that the air volume setting operation has not ended (S11: NO), the controller device 1 returns the process to step S8, and repeats the operation position calculation process and the set air volume specifying process by the set air volume receiving unit 12b. The set air volume receiving unit 12b performs a process for calculating the user's operation position with respect to the detection area every predetermined time, and each time the operation position is calculated, performs a process for specifying the set air volume according to the calculated operation position. When it is determined by the set air volume accepting unit 12b that the air volume setting operation has been completed (S11: YES), the control unit 10 sends an operation instruction with the set air volume specified by the set air volume accepting unit 12b immediately before to the communication unit. 14 is transmitted to the air conditioner 2 (S12), and the process is terminated.

  In the operation unit 12 of the controller device 1 according to the first embodiment, a set temperature display unit 13a and a set temperature receiving unit 12a are provided in a circular region and an inner circular arc region provided concentrically. Therefore, since the user can operate the set temperature receiving unit 12a while confirming the current set temperature displayed on the set temperature display unit 13a, the operability is good. Further, the set air volume display unit 13b and the set air volume receiving unit 12b are integrally provided in the outer arc region. Therefore, since the user can operate the set air volume receiving unit 12b while confirming the current set air volume displayed on the set air volume display unit 13b, intuitive operation is possible and operability is good.

In the operating device 1 according to the first embodiment, a set temperature receiving unit 12a and a set air volume receiving unit 12b are provided in the inner arc region and the outer arc region, respectively, and one operation switch is configured. Therefore, the temperature setting and the air volume setting for the air conditioner 2 can be performed using one operation switch, and the number of operation switches can be reduced. Note that not only the temperature setting and air volume setting for the air conditioner 2 but also settings for three or more setting items may be performed using a single operation switch.
Note that, by reducing the number of operation switches, it is possible to reduce a burden when searching for an operation switch to be operated by the user. As described above, the operation device 1 according to the first embodiment can easily find the operation switch to be operated by the user and is easy to operate. Therefore, the user does not need to pay attention to the operation switch (operation unit 12) to ensure safety. it can.

  The display unit 13 of the controller device 1 according to the first embodiment has a configuration in which only the set temperature is displayed in the circular area. However, the display unit 13 is not limited thereto, and setting values for a plurality of setting items are displayed in the circular area. Also good.

Next, in the controller device 1 according to the first embodiment, a different method for specifying the set temperature based on the operation on the set temperature receiving unit 12a will be described. FIG. 8 is a schematic diagram illustrating still another example of the operation method for the operation device 1 according to the first embodiment.
In the example shown in FIG. 8A, in the set temperature receiving unit 12a shown in FIG. 2, a star mark is attached instead of the mark “25” attached at the upper position in the inner arc region. When the user performs a contact operation on the star mark in the set temperature receiving unit 12a (inner arc region), a pre-registered favorite temperature is set as the set temperature. For example, when the user performs a long press operation (for example, a contact operation of about 2 seconds or more) on the star mark while the desired temperature is set, the control unit 10 sets the set temperature at this time as the favorite temperature. Is stored (registered) in the storage unit 11.

  In such a configuration, when the set temperature receiving unit 12a detects a contact operation with respect to a star mark in the detection area, the set temperature receiving unit 12a specifies the favorite temperature stored in advance in the storage unit 11 as the set temperature. The set temperature receiving unit 12a notifies the control unit 10 of the end of the user operation together with the specified set temperature. The control unit 10 causes the set temperature display unit 13a to display the set temperature (favorite temperature) acquired from the set temperature receiving unit 12a, and transmits an operation instruction at the acquired set temperature to the air conditioner 2. In the example shown in FIG. 8A, 28 ° C. is set as the favorite temperature, and when the contact operation is performed on the star mark in the state where the current set temperature is 25 ° C., the control unit 10 displays the set temperature display unit 13a. The display temperature is changed to the favorite temperature (28.0 ° C.), and an operation instruction at the favorite temperature is transmitted to the air conditioner 2.

FIG. 8B shows a configuration in which the set temperature receiving unit 12a and the set temperature display unit 13a are integrally provided in the inner arc region, similarly to the set air volume receiving unit 12b and the set air volume display unit 13b. In the example shown in FIG. 8B, the set temperature display unit 13a displays the temperature set via the set temperature receiving unit 12a in the same manner as the set air volume display unit 13b. Even in such a configuration, the user can easily find the set temperature receiving unit 12a when performing temperature setting, and intuitive operation is possible.
At this time, as shown in FIG. 8B, operation switches such as an OFF button for turning off the power of the air conditioner 2 and an AUTO button for instructing automatic control of the air conditioner 2 are provided in the central circular area. Also good.

  In the controller device 1 according to the first embodiment, the set temperature receiving unit 12a and the set air volume receiving unit 12b are configured to detect the user's contact operation and moving operation with respect to the detection region using a touch sensor. In addition, for example, a configuration may be adopted in which proximity sensors are provided in the set temperature reception unit 12a and the set air volume reception unit 12b, and the proximity operation of the user with respect to the detection region is detected by the proximity sensor. Note that the proximity operation is an operation in which the user's finger or the like approaches a position within a predetermined distance from the surface of the detection region.

(Embodiment 2)
Below, the operating device of Embodiment 2 is demonstrated. Since the operating device of the second embodiment has the same configuration as the operating device 1 of the above-described first embodiment, the same components are denoted by the same reference numerals and description thereof is omitted. Note that since the appearance of the operation unit 12 and the display unit 13 of the operation device 1 of the second embodiment is different from the operation device 1 of the first embodiment described above, only the appearance of the operation unit 12 and the display unit 13 will be described.

  FIG. 9 is a schematic diagram illustrating the appearance of the operation unit 12 and the display unit 13 according to the second embodiment. In the operating device 1 according to the first embodiment described above, the set temperature display unit 13a, the set temperature receiving unit 12a, the set air volume receiving unit 12b, and the set air volume display unit 13b are configured by one operation switch. In the operating device 1 according to the second embodiment, the set temperature display unit 13a and the set temperature receiving unit 12a are configured by one temperature operation switch, and the set air volume display unit 13b and the set air volume receiving unit 12b are one air flow operation switch. It consists of The processes performed by the set temperature receiving unit 12a, the set air volume receiving unit 12b, the set temperature display unit 13a, and the set air volume display unit 13b are the same as in the first embodiment.

  FIG. 9A shows a configuration in which a temperature operation switch and an air volume operation switch are provided in this order from the left. In the temperature operation switch, in two concentric circles, a set temperature display unit 13a is provided in a central circular region, and a set temperature receiving unit 12a is provided in an outer arc region. In the air volume operation switch, the set air volume display unit 13b and the set air volume receiving unit 12b are integrally provided in a concentric outer circular arc region. In the air volume operation switch, an OFF button for turning off the power of the air conditioner 2 and an AUTO button for instructing automatic control of the air conditioner 2 are provided in the central circular area.

Further, when the temperature setting for the air conditioner 2 can be performed separately on the driver seat side and the passenger seat side (PASSENGER), a configuration including three operation switches as shown in FIG. 9B may be adopted. FIG. 9B shows a configuration in which a passenger seat side temperature operation switch, an air volume operation switch, and a driver seat side temperature operation switch are provided in this order from the left. The passenger seat side temperature operation switch and the driver seat side temperature switch have the same configuration.
As described above, even if the temperature operation switch and the air volume operation switch are provided separately, intuitive operation is possible in each of the temperature operation switch and the air volume operation switch, and operability is improved. The effect that it is good is acquired.

  Although the operation device 1 of the above-described first and second embodiments is for receiving an operation on the air conditioner 2 mounted on the vehicle, the present invention is not limited to this and is applied to an operation device for receiving operations on various other devices. can do. For example, the configuration of the present invention can be applied to an operation device that receives an operation on a device such as a car navigation device or an audio device mounted on a vehicle. Moreover, the structure of this invention is applicable also to the operating device which receives operation with respect to the apparatus installed in places other than a vehicle.

  It should be thought that embodiment disclosed this time is an illustration and restrictive at no points. The scope of the present invention is defined by the terms of the claims, rather than the meanings described above, and is intended to include any modifications within the scope and meaning equivalent to the terms of the claims.

DESCRIPTION OF SYMBOLS 1 Operation apparatus 2 Air conditioner 10 Control part (display control part)
12 Operation part 13 Display part 12a Set temperature reception part (detection part, specific part)
12b Setting air volume reception unit (detection unit, identification unit)
13a Set temperature display section (display section)
13b Set air volume display section (display section)

Claims (4)

In an operating device that accepts a setting value setting operation for a setting item related to control of an in-vehicle device,
A display unit for displaying a setting value for the setting item;
A detection unit that detects a moving operation that moves in contact with a detection region that is provided so as to surround the display unit;
A specifying unit for specifying a setting value corresponding to the moving operation detected by the detecting unit;
An operation device comprising: a display control unit that causes the display unit to display a setting value specified by the specifying unit. An outer detection unit for detecting a contact operation with respect to the outer detection region provided so as to surround the detection region;
The operating device according to claim 1, wherein the specifying unit specifies a setting value for a setting item different from the setting item in accordance with a contact operation detected by the outer side detection unit. The operating device according to claim 1, wherein the display area and the detection area of the display unit are provided concentrically. The display unit is configured to display a set temperature for an air conditioner mounted on the vehicle,
The specifying unit specifies the set temperature in accordance with the movement operation detected by the detection unit, and specifies the set air volume for the air conditioner in accordance with the contact operation detected by the outside detection unit. The operating device according to claim 2.

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