JP3665521B2 - Display device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a display device having a multi-function switch around a display, and in particular, improves visibility when switching the function display of the switch.
[0002]
[Prior art]
There is known a display device in which a plurality of multi-function switches are installed around a display device and the function (function) of each switch is displayed in the vicinity of each switch on the display screen of the display device. In this type of display device, when an arbitrary switch is operated while looking at a function displayed in the vicinity of each switch on the display screen, a function (function) corresponding to the operated switch can be realized.
[0003]
With reference to FIG. 8, a function display switching operation associated with information screen switching in a conventional display device will be described.
A display 51 for displaying various information is installed on the front of the display device, and multifunction switches 51c, 51d, 51e are arranged around the display 51. The display screen of the display 51 is divided into an information display area 51a and a function display area 51b. In the information display area 51a, various information screens corresponding to the display switching operation and the running state are displayed. In the function display area 51b, the functions of the switches 51c, 51d, and 51e corresponding to the information screen of the information display area 51a are displayed. 8A and 8B, the information display area 51a displays the [energy flow screen] of the hybrid vehicle, and the function display area 51b corresponds to the [energy flow screen] of the information display area 51a. The function [mode, information, adjustment] of each function switch 51c, 51d, 51e, time [9:30], and room temperature [25 ° C.] are displayed. In the example of FIG. 8C, the information display area 51a displays [vehicle information selection screen], and the function display area 51b corresponds to each function switch 51c, 51d corresponding to the [vehicle information selection screen]. , 51e functions [end, selection, determination], time [9:30] and room temperature [25 ° C.] are displayed.
[0004]
As shown in (a), when the [energy flow A screen] is displayed in the information display area 51a of the display 51, when the function switch 51c corresponding to the function [mode] in the function display area 51b is operated, The information display area 51a is switched to the [energy flow B screen] as shown in FIG. At this time, the function display in the function display area 51b is not changed. If the function switch 51c corresponding to the function [mode] is operated while the [energy flow B screen] is displayed, the screen returns to the [energy flow A screen] shown in FIG.
[0005]
Further, when the function switch 51d corresponding to the function [information] in the function display area 51b is operated while the [energy flow A screen] shown in (a) is displayed, the information display area 51a as shown in (c). Is switched to [Vehicle Information Selection Screen], and the function in the function display area 51b is switched to a function for selecting vehicle information (end, selection, determination). When the function switch 52 corresponding to [End] is operated while this [Vehicle information selection screen] is displayed, the information display area 51a returns to the [Energy flow A screen] shown in FIG. The function 51b returns to [mode, information, adjustment].
[0006]
[Problems to be solved by the invention]
In the conventional display device, when the information screen of the information display area 51a is switched, the function in the function display area 51b is erased once, regardless of whether the function of the function display area 51b is changed or not. The time from deletion to display of this function is so short that it cannot be recognized by the human eye.
[0007]
Therefore, as in the case of switching from FIG. 8A to FIG. 8B, when the function of the function display area 51b is not changed in accordance with the switching of the information screen of the information display area 51a, the function of the function display area 51b is changed. It is visually recognized as being made continuously, and there is no particular problem.
[0008]
However, when the function in the function display area 51b is changed with the switching of the information screen in the information display area 51a as in the case of switching from FIG. 8A to FIG. 8C, the previous function is deleted. Even if a new function is displayed, the change of the function display may not be recognized by the occupant because the time between them is short, and the function change may not be noticed.
[0009]
An object of the present invention is to make an occupant recognize a change in function when changing a function display for a function switch.
[0010]
[Means for Solving the Problems]
The present invention will be described with reference to FIG. 2 showing an embodiment of the invention.
(1) The invention of claim 1 includes a display 41 having a screen divided into a first display area 41a and a second display area 41b, a plurality of switches 41c, 41d and 41e whose functions can be changed, and a plurality of switches The information screen corresponding to the operated switch among the switches 41c, 41d, and 41e is drawn in the first display area 41a, and the functions of the switches 41c, 41d, and 41e corresponding to the information screen in the first display area 41a The present invention is applied to a display device including drawing means 16 and 40 for drawing a screen in the second display area 41b.
When the drawing means 16 and 40 change the function of the second display area 41b in accordance with the switching of the information screen of the first display area 41a, the drawing means 16 and 40 draws the information screen of the first display area 41a. The drawing of the function screen in the second display area 41b is delayed.
(2) The display device according to claim 2 draws the information screen of the first display area 41a by the drawing means 16 and 40 and then sets the display width of the functional screen of the second display area 41b from 0 to a predetermined width. It is designed to expand gradually.
(3) The display device according to claim 3 is configured to draw the function screen of the second display area 41b after a predetermined time from the drawing of the information screen of the first display area 41a by the drawing means 16 and 40. Is.
(4) In the display device according to claim 4, a plurality of switches 41 c, 41 d, 41 e are arranged around the second display region 41 b outside the screen of the display device 41.
(5) In the display device according to the fifth aspect, the plurality of switches 41 c, 41 d, 41 e are touch switches arranged in the second display area 41 b of the screen of the display device 41.
[0011]
In the section of the means for solving the above-described problem, a diagram of an embodiment is used for easy understanding of the description. However, the present invention is not limited to the embodiment.
[0012]
【The invention's effect】
According to the present invention, when the function of the second display area is changed in accordance with the switching of the information screen of the first display area, the second display area can be changed from the drawing of the information screen of the first display area. Delay drawing of function screen. Specifically, for example, after the information screen of the first display area is drawn, the display width of the function screen of the second display area may be gradually enlarged from 0 to a predetermined width. The function screen of the second display area may be drawn after a predetermined time after the information screen of the display area is drawn. As a result, it is possible to allow the occupant to reliably recognize a change in the function accompanying the screen switching.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
An embodiment of the invention in which the present invention is applied to a display device for a hybrid vehicle will be described. The present invention is not limited to display devices for hybrid vehicles, and can be applied to display devices for any vehicle and any device.
[0014]
FIG. 1 shows the configuration of an embodiment. In the figure, a thick solid line indicates a transmission path of mechanical force, and a thick broken line indicates a power line. A thin solid line indicates a control line, and a double line indicates a hydraulic system.
The power train of this hybrid vehicle includes a motor 1, an engine 2, a clutch 3, a motor 4, a continuously variable transmission 5, a speed reducer 6, a differential device 7, and drive wheels 8. A clutch 3 is interposed between the engine 2 and the motor 4, and the output shaft of the motor 1, the output shaft of the engine 2, and the input shaft of the clutch 3 are connected to each other, and the output shaft of the clutch 3 and the motor 4 The output shaft and the input shaft of the continuously variable transmission 5 are connected to each other.
[0015]
When the clutch 3 is engaged, the engine 2 and the motor 4 serve as a vehicle propulsion source, and when the clutch 3 is released, only the motor 4 serves as a vehicle propulsion source. The driving force of one or both of the engine 2 and the motor 4 is transmitted to the drive wheels 8 via the continuously variable transmission 5, the speed reducer 6, and the differential device 7. The continuously variable transmission 5 is supplied with pressure oil from the hydraulic device 9, and the belt is clamped and lubricated. An oil pump (not shown) of the hydraulic device 9 is driven by a motor 10.
[0016]
The motors 1, 4 and 10 are AC machines such as a three-phase synchronous motor or a three-phase induction motor, the motor 1 is mainly used for engine starting and power generation, and the motor 4 is mainly used for vehicle propulsion and braking. The motor 10 is for driving an oil pump of the hydraulic device 9. The motors 1, 4 and 10 are not limited to alternating current machines, and direct current motors can also be used. In addition, when the clutch 3 is engaged, the motor 1 can be used for vehicle propulsion and braking, and the motor 4 can be used for engine starting and power generation.
[0017]
The clutch 3 is a powder clutch and can adjust the transmission torque. The clutch 3 may be a dry single plate clutch or a wet multi-plate clutch. The continuously variable transmission 5 is a continuously variable transmission such as a belt type or a toroidal type, and the gear ratio can be adjusted steplessly.
[0018]
The motors 1, 4 and 10 are driven by inverters 11, 12 and 13, respectively. In the case where a DC motor is used for the motors 1, 4 and 10, a DC / DC converter is used instead of the inverter. The inverters 11 to 13 are connected to the main battery 15 through a common DC link 14, and the DC charging power of the main battery 15 is converted into AC power and supplied to the motors 1, 4, 10. The main battery 15 is charged by converting the AC generated power 4 into DC power. Since the inverters 11 to 13 are connected to each other via the DC link 14, the electric power generated by the motor during the regenerative operation can be directly supplied to the motor during the power running operation without going through the main battery 15. it can. As the main battery 15, various batteries such as a lithium-ion battery, a nickel-hydrogen battery, and a lead battery, and an electric double layer capacitor, so-called power capacitor, can be used.
[0019]
As shown in FIG. 2, the controller 16 includes a CPU 16a, a memory 16b, a V-RAM 16c, etc., and the rotational speed and torque of the engine 2, the transmission torque of the clutch 3, the rotational speed and torque of the motors 1, 4 and 10, and continuously variable While controlling the gear ratio of the transmission 5, etc., display control of the indicator 41 mentioned later is performed.
[0020]
As shown in FIG. 2, the controller 16 is connected to various sensors and various actuators in addition to the main switch 20, the light switch 21, the vehicle speed sensor 22, the display drive circuit 40, the display 41, and the like. The main switch 20 detects a key setting position of the vehicle, that is, an ACC position, an IGN-ON position, and a START position. The light switch 21 detects lighting of a small lamp or a headlamp of the vehicle. The vehicle speed sensor 22 detects the traveling speed Vsp of the vehicle.
[0021]
In this embodiment, the screen of the display 41 is divided into an information display area 41a and a function display area 41b, and function switches 41c, 41d, and 41e are arranged around the function display area 41b outside the screen of the display 41. . In the information display area 41a, an information screen corresponding to the operated switch among the function switches 41c, 41d, 41e is displayed. In the function display area 41b, the functions (functions) of the function switches 41c, 41d, 41e corresponding to the information screen of the information display area 41a are displayed in the vicinity of the function switches 41c, 41d, 41e. In addition, the display width W of the function screen in the function display area 41b can be changed from 0 to a specified width Wo.
[0022]
The display drive circuit 40 displays the information screen and the function screen stored in the V-RAM 16c in the information display area 41a and the function display area 41b of the display 41 according to the information screen and function screen drawing commands from the controller 16, respectively. draw. The contacts 42, 43, and 44 are switch contacts corresponding to the function switches 41c, 41d, and 41e, respectively. When one of the function switches 41c to 41e is pressed according to the function display in the function display area 41b, the contact corresponds to the pressed switch. The contact closes.
[0023]
In this embodiment, function switches 41c, 41d, and 41e are provided around the screen of the display 41, and the respective functions are displayed in the vicinity of the function switches 41c, 41d, and 41e in the function display area 41b of the display 41. However, a touch switch may be provided in the vicinity of each function display in the function display area 41b of the screen of the display 41, and used as a function switch.
[0024]
3 to 6 show the transition of the display screen of the display 41 in accordance with the function switch operation. With reference to these drawings, switching of the display screen in accordance with the operation of the function switches 41c, 41d, and 41e will be described.
In FIG. 3, when the vehicle key is set to the ACC position, an [opening screen] is displayed for a predetermined time. After that, when the vehicle key is set to the IGN-ON position, [Energy Flow A Screen Daytime] indicating the flow of energy among the engine, motor and battery is displayed. When the vehicle's small lamp or headlamp is turned on, [Energy Flow A Screen Night] is displayed.
[0025]
In the [energy flow A screen], functions [mode, information, adjustment] corresponding to the function switches 41c, 41d, and 41e are displayed in the function display area 41b. When the switch 41c corresponding to the [mode] display is operated, the information display area 41a is switched to the [energy flow B screen], and when the [mode] is operated again, the information display area 41a is returned to the [energy flow A screen] again. Note that the function in the function display area 41b is not changed when the [mode] switch 41c is operated.
[0026]
When the [Information] switch 41d is operated in the [Energy flow A or B screen], the information display area 41a is switched to the [Information selection screen] and the function in the function display area 41b is changed to [End, selection, determination]. Switch. This [information selection screen] will be described later. When the switch 41c corresponding to the function [end] display is operated on the [information selection screen], the display areas 41a and 41b return to the [energy flow A or B screen] and its function display [mode, information, adjustment].
[0027]
Further, when the [Adjustment] switch 41e is operated in the [Energy flow A or B screen], the information display area 41a is switched to the [Adjustment selection screen] and the function in the function display area 41b is changed to [End, selection, determination]. Switch. This “adjustment selection screen” will be described later. When the [Finish] switch 41c is operated on the [Adjustment selection screen], the display areas 41a and 41b return to the [Energy flow A or B screen] and its function display [Mode, information, adjustment].
[0028]
In FIG. 4, when the [selection] switch 41d is operated on the [information selection screen], selectable information in the order of fuel consumption information → maintenance data → trip data → vehicle diagnosis → fuel consumption information is highlighted. When the [determination] switch 41e is operated while the fuel consumption information is highlighted, the information display area 41a is switched to the [energy meter screen] indicating the average fuel consumption, instantaneous fuel consumption, and instantaneous regenerative energy, and the function in the function display area 41b is displayed. Switches to [Return, History]. In the [energy meter screen], no function is assigned to the function switch 41e. When the [history] switch 41d is operated in the [energy meter screen], the information display area 41a is switched to the [energy meter history screen] indicating the history of fuel consumption and regenerative energy at a predetermined distance to the current location, and the function display area 41b The function switches to [Return, Scale △, Scale ▽]. When the [Return] switch 41c is operated on the [Energy meter history screen], the display areas 41a and 41b return to the [Energy meter screen] and the function [Return, history], and further on the [Energy meter screen], the [Return] switch 41c is set. When operated, the display areas 41a and 41b return to the [information selection screen] and the function [end, selection, determination].
[0029]
When the [Enter] switch 41e is operated while the maintenance data is highlighted in the [Information selection screen], the information display area 41a switches to the [Maintenance data screen] indicating the replacement timing of the engine oil, oil filter and brake pads. At the same time, the function in the function display area 41b is switched to [return, selection, determination]. When the [selection] switch 41d is operated on the [maintenance data screen], maintenance items that can be selected in the order of engine oil → oil filter → brake pad → engine oil are highlighted. If the [Enter] switch 41e is operated while an arbitrary maintenance item is highlighted, the information display area 41a switches to the [maintenance time setting screen] of the selected maintenance item and the function in the function display area 41b [returns]. , Adjustment, Reset). When the [Return] switch 41c is operated on the [Replacement time setting screen], the display areas 41a and 41b return to the [Maintenance data screen] and the function [Return, selection, determination], and the [Return] switch on the [Maintenance data screen]. When 41c is operated, the display areas 41a and 41b return to the [information selection screen] and the function [end, selection, determination].
[0030]
When the [Enter] switch 41e is operated while the trip data is highlighted on the [Information Selection Screen], the information display area 41a is switched to the [Trip Data Screen] showing the travel time, travel distance and average vehicle speed, and the function The function of the display area 41b is switched to [return, reset]. In this [trip data screen], no function is assigned to the function switch 41e. When the [Return] switch 41c is operated on the [Trip data screen], the display areas 41a and 41b return to the [Information selection screen] and the function [End, selection, determination].
[0031]
When the [Determination] switch 41e is operated while the vehicle diagnosis is highlighted on the [Information Selection Screen], the information display area 41a is switched to the [Vehicle Diagnosis Screen] for selecting the diagnosis target and the function display area 41b. The function switches to [Back, Select, Confirm]. When the [return] switch 41c is operated on this [vehicle diagnosis screen], the display areas 41a and 41b return to the [information selection screen] and the function [end, selection, determination].
[0032]
When the [selection] switch 41d is operated on the [vehicle diagnosis screen], the diagnosis objects are displayed in reverse order in order and can be selected. When the [determination] switch 41e is operated while an arbitrary diagnosis target is highlighted, as shown in FIG. 5, the information display area 41a is switched to the [warning display screen] and the function display area when traveling. The function 41b switches to [Return]. On the other hand, when the vehicle is stopped, the information display area 41a is switched to the “warning display detail screen” and the function in the function display area 41b is switched to “return”. During the traveling [warning display screen], a display for warning the abnormality to be diagnosed is performed, and during the stop [warning display detail screen], a detailed display for the abnormality to be diagnosed is performed. When the [Return] switch 41c is operated on any screen, the display areas 41a and 41b return to the [Vehicle diagnosis screen] and the function [Return, selection, determination].
[0033]
In FIG. 6, when the [selection] switch 41d is operated on the [adjustment selection screen], the adjustment target is highlighted in the order of screen → clock → screen and can be selected. When the [decision] switch 41e is operated while the screen is highlighted, the information display area 41a is switched to the [screen adjustment screen], and the function in the function display area 41b is switched to [return, selection, execution]. When the [Select] switch 41d is operated in the [Screen Adjustment Screen], the screen adjustment items are highlighted in the order of dimming adjustment → screen blanking → brightness → darkening adjustment, and can be selected. For example, if the [Execute] switch 41e is operated while the brightness is highlighted, the information display area 41a is switched to the [Brightness adjustment screen], and the function in the function display area 41b is [Set, Adjustment Δ, Adjustment ▽]. To switch to]. When the [SET] switch 41c is operated on the [BRIGHTNESS ADJUSTMENT SCREEN], the brightness adjusted by the [ADJUSTMENT Δ] switch 41d or the [ADJUSTMENT ▽] switch 41e is set, and then the display areas 41a and 41b are displayed on the [screen adjustment screen]. ] And function [return, select, execute]. When the [Return] switch 41c is operated on the [Screen adjustment screen], the screen returns to the [Adjustment selection screen]. When the clock is selected and determined on the [Adjustment selection screen], the information display area 41a is switched to the [Clock adjustment screen], and when the [Return] switch 41c is operated on the [Time adjustment screen], the information display area 41a is changed to [Adjustment selection screen]. Return to Screen.
[0034]
Next, the drawing operation of the information display area 41a and the function display area 41b when the display screen of the display device 41 is switched by the display screen switching program shown in FIG. 7 will be described.
When the vehicle key is set to the ACC position, the CPU 16a of the controller 16 executes this display screen switching program at intervals of 10 msec. In step 1, the operation of the function switches 41c to 41e is detected by the contacts 42 to 44. If any of the function switches is operated, the process proceeds to step 2, and if not operated, the process proceeds to step 11.
[0035]
<Drawing when there is no function switch operation>
If none of the function switches 41c to 41e has been operated, display is made in step 11 in consideration of inputs from the various sensors 20 to 22 and other controllers on the information display screen in the information display area 41a. The contents are reviewed and the information screen is determined again and stored in the V-RAM 16c. Then, the process proceeds to step 12, and a function screen having a specified width Wo of the function display area 41b corresponding to the information screen of the information display area 41a is determined and stored in the V-RAM 16c. In step 13, the information screen of the information display area 41 a and the function screen of the function display area 41 b stored in the V-RAM 16 c are sent to the display drive circuit 40 to cause the display 41 to draw.
[0036]
<< Drawing when the function switch is operated >>
If any of the function switches 41c to 41e is operated, the process proceeds to step 2, and the information screen of the information display area 41a corresponding to the operated switch is considered in consideration of inputs from the various sensors 20 to 22 and other controllers. Determined and stored in the V-RAM 16c. In step 3, the function of the function display area 41b corresponding to the information screen of the information display area 41a determined in step 2 is set. In the subsequent step 4, the function set this time is compared with the function set last time and stored in the memory 16b to check whether the function has been changed. If the function has been changed, the process proceeds to step 5, and if not changed, the process proceeds to step 12. Note that even when only a part of the functions corresponding to the function switches 41c to 41e are changed, the functions are handled as changed.
[0037]
<< Drawing when function is not changed >>
If the function set this time is the same as the function set last time, in step 12, the function screen of the specified width Wo of the function display area 41b corresponding to the information screen of the information display area 41a determined in step 2 is determined. And stored in the V-RAM 16c. In step 13, the information screen of the information display area 41 a and the function screen of the function display area 41 b stored in the V-RAM 16 c are sent to the display drive circuit 40 to cause the display 41 to draw.
[0038]
The information screen of the information display area 41a is switched according to the operation of any one of the function switches 41c to 41e. When the function of the function display area 41b is not changed in accordance with the screen switching of the information display area 41, both display areas 41a , 41b is temporarily deleted, a new information screen is drawn in the information display area 41a, and the same screen as the function screen previously displayed in the function display area 41b is drawn again with the specified width Wo. cure. In other words, if the function is not changed when the information screen is switched, the same function screen is displayed again immediately after the function screen is erased. As mentioned above, since the time until the function screen is erased and displayed again is short, the occupant recognizes that the same function is displayed continuously before and after the information screen is switched, and the problem is Absent.
[0039]
<< Drawing when function is changed >>
If the function set this time is different from the function set last time, the new function is displayed after the previous function is erased as described above. You may not notice that the function has been changed before and after switching the information screen.
[0040]
Therefore, in this embodiment, when a function is changed at the time of switching information screens, a new information screen is drawn in the information display area 41a, and at the same time, a new function screen is not drawn in the function display area 41b. The drawing of the function screen is delayed from the drawing of. Specifically, immediately after the information screen is switched, the function screen display width W (see FIG. 2) of the function display area 41b is set to 0, and the function screen is displayed from the right end of the screen to the specified width Wo over a predetermined time, for example, 500 msec. The display width W is gradually increased. In this way, the function screen is gradually displayed from the right end of the display 41 when the information screen is switched, and the change of the function can be surely recognized by the occupant.
[0041]
First, in step 5, the function set this time is stored in the memory 16b, and the function setting value is updated. In the subsequent step 6, the timer T for determining the display width W of the function screen in the function display area 41b is reset and started. In step 7, it is confirmed whether the time measured by the timer T has reached a set time, for example, 500 msec. If the set time has been reached, the process proceeds to step 12;
[0042]
If the time measured by the timer T is not the set time, the display width W of the function screen is set in step 8 according to the time measured by the timer T. In other words, when the time count of the timer T is 0, the display width W is set to 0, the display width W is increased as the time count increases, and the display width W is just specified when the time count reaches the set time. The width Wo is set.
[0043]
In the subsequent step 9, the function screen corresponding to the set width W among the function screens corresponding to the new information screen (determined in step 2) in the information display area 41 is stored in the V-RAM 16c. Specifically, the display content for the set width W is extracted from the right end of the function screen having the specified width Wo and stored in the V-RAM 16c.
[0044]
In step 10, the information screen (stored in step 2) of the information display area 41a stored in the V-RAM 16c and the function screen (stored in step 9) of the function display area 41b are sent to the display drive circuit 41, and the display 41 is drawn. Thereafter, the process returns to step 7 to check whether the time measured by the timer T has reached the set time.
[0045]
When the time measured by the timer T reaches the set time, the process proceeds to step 12, and the function screen having the specified width Wo corresponding to the new information screen (determined in step 2) in the information display area 41 is stored in the V-RAM 16c. In the following step 13, the information screen (stored in step 2) of the information display area 41a stored in the V-RAM and the function screen (stored in step 12) of the function display area 41b are sent to the display drive circuit 41 and displayed. The container 41 is drawn. Then, the execution of the display screen switching program is terminated.
[0046]
As described above, when changing the function for the function switches 41c to 41e in accordance with the switching of the information screen, the display width W of the function screen is gradually increased, so that the function change can be surely made to the passenger. Can be recognized.
[0047]
In the above-described embodiment, when the function is changed at the time of switching the information screen, the display width W of the function screen is gradually increased from 0 to the specified width Wo so that the passenger can recognize the change of the function. However, the function may be displayed with a specified width Wo after a predetermined time has elapsed after the information screen is drawn, that is, a time difference may be provided between the information screen drawing and the function screen drawing.
[Brief description of the drawings]
FIG. 1 is a diagram showing a configuration of an embodiment.
FIG. 2 is a diagram illustrating a configuration of an embodiment following FIG. 1;
FIG. 3 is a diagram showing transition of a display screen in accordance with a function switch operation.
FIG. 4 is a diagram illustrating a transition of a display screen accompanying a function switch operation following FIG. 3;
FIG. 5 is a diagram illustrating a transition of the display screen accompanying the function switch operation, continued from FIG. 4;
FIG. 6 is a diagram showing transition of the display screen accompanying the function switch operation following FIG. 5;
FIG. 7 is a flowchart showing a display screen switching program.
FIG. 8 is a diagram for explaining a function display switching operation associated with information screen switching in a conventional display device;
[Explanation of symbols]
1, 4, 10 motor
2 Engine
3 Clutch
5 continuously variable transmission
6 Reduction gear
7 Differential
8 Drive wheels
9 Hydraulic system
11-13 Inverter
14 DC link
15 Main battery
16 controller
20 Main switch
21 Light switch
22 Vehicle speed sensor
40 Display drive circuit
41 Display
41a Information display area
41b Function display area
41c to 41e Function switch
42 to 44 Function switch contacts
W Display width of function display area
Wo function display area specified display width
T timer

Claims (5)

A display that divides the screen into a first display area and a second display area;
Multiple switches that can change functions,
An information screen corresponding to an operated switch of the plurality of switches is drawn on the first display area, and a function screen of each switch corresponding to the information screen of the first display area is displayed on the second display area. In a display device comprising drawing means for drawing in a display area,
When the drawing means changes the function of the second display area in accordance with the switching of the information screen of the first display area, the drawing means draws the second display area from the drawing of the information screen of the first display area. A display device that delays drawing of a functional screen of a display area. The display device according to claim 1,
The display device is characterized in that after the information screen of the first display area is drawn, the display width of the function screen of the second display area is gradually enlarged from 0 to a predetermined width. The display device according to claim 1,
The display device, wherein the drawing means draws a function screen of the second display area after a predetermined time from drawing the information screen of the first display area. In the display device according to any one of claims 1 to 3,
The display device, wherein the plurality of switches are arranged around a second display area outside the screen of the display. In the display device according to any one of claims 1 to 3,
The display device, wherein the plurality of switches are touch switches arranged in a second display area of the screen of the display.

Images