JP2011093454A - Display device for vehicle - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a display device for a vehicle, allowing a user to visually confirm a display region with an allowance, while preventing the transmission of light of a light source into a liquid crystal display when display items are not displayed on a display part. <P>SOLUTION: This projection type display device for the vehicle sets a non-display mode in the display region of the liquid crystal display 24 displaying the prescribed display items, and performs the dimming control of a point light source 41 for lighting the display region set with the non-display mode. The display device includes a display prediction means 55 for predicting the generation of interruption displays of the display items after prescribed hours. Based on the prediction result of the display prediction means 55, an increase control is performed to increase the luminance of the point light source 41 performed with the dimming control up to luminance when the display items are displayed on the display part. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a vehicle display device capable of displaying various types of information.

Conventionally, a head-up type vehicle display device that displays a virtual image on a windshield in front of the vehicle is known. As this type of vehicle display device, for example, there is a display system that projects a display image on a windshield by illuminating a liquid crystal display such as a TFT with a backlight and reflecting it with a concave mirror or the like. In such a vehicle display device, when nothing is displayed on the display area of the liquid crystal display, the display area is blocked so that light from the light source is not transmitted (for example, , See Patent Document 1).
However, since it is physically difficult to completely block light even when the display area of the liquid crystal display is set to a light-blocking state, the windshield display is displayed by the light transmitted through the liquid crystal display when the surroundings are dark, such as at night. In some cases, the area is slightly illuminated and visually recognized, and the user may feel bothered while driving. Therefore, when the non-display mode of the display area is selected on the liquid crystal display, the display is stopped and the backlight is turned off. When information such as an alarm is input, an alarm display item is displayed on the display. A vehicle display device has been proposed (see, for example, Patent Document 2).

Japanese Patent Laid-Open No. 7-315075 Japanese Patent No. 3510390

  However, the above-described vehicle display device turns off the backlight when the non-display mode is selected, and causes an alarm display item to appear on the display where the non-display mode should be selected when an alarm event occurs. There is a problem that the user during driving may be surprised at the start of display of the display item.

  The present invention has been made in view of the above circumstances, and prevents the light of the light source from being transmitted through the liquid crystal display when the display item is not displayed on the display unit, while allowing the user to have a sufficient display area. The display apparatus for vehicles which can visually recognize is provided.

  In order to solve the above problems, the invention described in claim 1 is a transmission type liquid crystal display (for example, the liquid crystal display 24 in the embodiment) for displaying a predetermined display item, and the liquid crystal display behind the liquid crystal display. A backlight (for example, the backlight 26 in the embodiment) provided with a light source (for example, the point light source 41 in the embodiment) and the display items of the liquid crystal display illuminated by the backlight to a vehicle occupant A display unit (for example, the display unit 16 in the embodiment) that displays in a visible manner, and a control unit (for example, the HUD control unit 40 in the embodiment) that performs display control of the liquid crystal display and light emission control of the light source are provided. The control unit controls the display area to be in a light-shielding state in a non-display state where none of the display items are displayed on the display area of the liquid crystal display. A display device for a vehicle that performs dimming control for reducing the luminance of a light source that illuminates a display area to be lower than the luminance at the time of displaying a display item on the display unit, and an interrupt display of the display item occurs after a predetermined time Display predicting means for predicting the display (for example, display predicting means 55 in the embodiment), and when the display area is in a non-display state, the control unit, based on a prediction result of the display predicting means, Increasing control is performed to increase the luminance of the light source that is dimmed to the luminance when displaying the display item on the display unit.

  According to a second aspect of the present invention, in the first aspect of the present invention, the operation input unit (for example, the operation input unit 60 in the embodiment) capable of setting and inputting a non-display mode for setting the display region in a non-display state is provided. The liquid crystal display is divided into a plurality of display areas capable of individually displaying a plurality of the display items, and the backlight includes the plurality of display areas (for example, the upper display area 35 and the lower display in the embodiment). A plurality of light sources (for example, the point light source 41 in the embodiment) provided for each region 36), the non-display mode can be individually set for the plurality of display regions, and the control unit The display area in which the display mode is set is set in a light-shielded state, and the luminance of the light source corresponding to the display area in the light-shielded state is reduced from the luminance when the display item is displayed on the display unit. And wherein the door.

  According to a third aspect of the present invention, in the first or second aspect of the present invention, the alarm level calculation means (for example, the alarm level calculation means 54 in the embodiment) for calculating the current risk level in the vehicle as an alarm level is provided. The display predicting means predicts that an interrupt display of the display item will occur after a predetermined time based on the alarm level calculated by the alarm level calculating means.

  According to a fourth aspect of the present invention, in the invention according to any one of the first to third aspects, a day / night determination means for determining whether the current time zone is daytime or nighttime (for example, in the embodiment) Day / night determination means 56) is provided, and when the day / night determination means determines that it is daytime, the control unit sets the luminance of the light source when the display item is displayed on the display unit to the first luminance. And when the day / night determination means determines that it is night, the luminance of the light source when the display item is displayed on the display unit is set to a second luminance lower than the first luminance. When the occurrence of the interrupt display is predicted by the display predicting unit and the luminance of the light source is increased, the luminance of the light source is reduced to the first luminance even if the day / night determining unit determines that it is nighttime. Increase It is characterized in.

  According to the first aspect of the present invention, in the vehicle display device that transmits the light of the light source from behind the liquid crystal display and displays the display items of the liquid crystal display on the display unit, the predetermined display items are not displayed. In this case, the display area of the display item is set in a light-shielded state, and the luminance of the light source arranged behind the display area in the light-shielded state is controlled to be reduced to a predetermined value or less, while the display predicting means displays it after a predetermined time When it is predicted that an interruption display of an item will occur, the brightness of the light source that has been reduced to a predetermined level or less is controlled to increase the light intensity of the light source from the liquid crystal display in the display area that is in the light-shielded state in the non-display state. If the display item is interrupted and displayed from the non-display state, it can be prevented from leaking from the liquid crystal display in advance before the display item is interrupted. The light of the point light source 41 is used to guide the user's line of sight in a state where the display unit 16 is slightly lit, and the user can recognize that the interrupt display of the display item starts after a predetermined time. Therefore, there is an effect that it is possible to make the user visually recognize the display items that are interrupted and displayed with a margin.

  According to the invention described in claim 2, in addition to the effect of claim 1, when a plurality of display areas are set, the display area selected by the occupant through the operation input unit among the plurality of display areas By setting to the non-display mode, the display area of the liquid crystal display set to the non-display mode is blocked, and the luminance of the light source arranged behind the liquid crystal display that is blocked is reduced. Therefore, it is possible to prevent the light emitted from the light source from passing through the display area in which the non-display mode is set and the display unit from emitting light. Further, when the display item is interrupted and displayed in the display area in the non-display mode, the luminance of the light source that has been controlled to decrease is increased, and the display unit emits light slightly by the light transmitted through the display area. It is possible for the user to recognize in advance that the interrupt display will occur after a predetermined time, so that even when a plurality of display areas are set, the user can visually recognize the display unit with a margin. There is an effect that can be done.

  According to the invention described in claim 3, in addition to the effect of any one of claims 1 to 3, based on the alarm level calculated by the alarm level calculation means, the display prediction means interrupts the display item, For example, the brightness of the light source corresponding to the display area in the non-display state before the interrupt display of the display item based on the alarm level is predicted, assuming that the alarm interrupt display is generated according to the alarm level. Since the display unit can be slightly lit by the light transmitted through the display area, the user is not surprised when the display item is interrupted based on the alarm level. In addition, since the brightness of the light source is increased before the display item based on the alarm level is interrupted, the display item based on the alarm level can be promptly displayed on the display unit when it is time to actually perform the interrupt display. There is an effect that can be done.

  According to the invention described in claim 4, when the day / night determination means determines whether the current time zone is daytime or nighttime, and determines that it is nighttime, the brightness of the light source when displaying the display item is determined. By setting the second luminance for nighttime lower than the first luminance for daytime, it is predicted that the display item will be interrupted after a predetermined time while preventing the display portion from becoming dazzling at night. If it is determined that it is nighttime, the light source is caused to emit light with the first luminance for daytime, so that it is interrupted as compared with the case where the light source is turned on with the second luminance for nighttime. Before the display, the display unit emits light and the display image of the display item due to interruption becomes bright, so that the occupant can notice that the display item is interrupted and the sight of the occupant is more reliably guided to the display unit. Let There is an effect that can.

1 is an overall configuration diagram of a vehicle display device according to an embodiment of the present invention. It is a figure which shows each display area of the liquid crystal display in embodiment of this invention. It is a figure which shows arrangement | positioning of the point light source 41 of the backlight corresponding to each display area of the liquid crystal display of FIG. It is sectional drawing which shows typically arrangement | positioning with the liquid crystal display and backlight of the projection apparatus in embodiment of this invention. It is a block diagram which shows the HUD control part and meter control part in embodiment of this invention. It is a block diagram which shows schematic structure of the HUD control part in embodiment of this invention. It is a graph which shows the luminance range for nighttime and the luminance range for daytime of the point light source in embodiment of this invention. It is a front view of the liquid crystal display when the non-display mode is set in the upper display area in the embodiment of the present invention. It is a front view of the liquid crystal display just before the display item in the embodiment of the present invention is interrupted and displayed. It is a front view of the liquid crystal display in which the display item when the alarm level in the embodiment of the present invention is high is displayed in an interrupted manner in the full screen display area. It is a front view of the liquid crystal display with which the display item when the alarm level in the embodiment of the present invention is low is displayed in an interrupted manner in the upper display area.

Next, a vehicle display device according to an embodiment of the present invention will be described with reference to the drawings.
The vehicle display device 10 according to this embodiment displays a display image including information such as alerting an occupant by reflecting light on the vehicle interior side surface of the windshield 11 of the vehicle.

  FIG. 1 shows a longitudinal section of a vehicle display device 10 disposed in front of a driver's seat of a vehicle, and rises from the front of a floor panel (not shown) in the vehicle width direction in the front of the vehicle interior of the vehicle. A dashboard upper 13 is formed, and a cowl top 14 is disposed on the upper edge of the dashboard upper 13 over the vehicle width direction. A windshield 11 is attached to an opening (not shown) in front of the passenger compartment in an inclined state in which it rises from the vicinity of the cowl top 14 toward the rear of the passenger compartment. Light emitted from a projection device 18 to be described later is reflected and displayed as a display image on a predetermined region (hereinafter simply referred to as a display unit) 16 on the surface of the windshield 11 on the vehicle interior side. .

  An instrument panel 17 is attached to the interior of the dashboard upper 13 in the vehicle width direction. The instrument panel 17 is provided with in-vehicle devices such as a car navigation device (not shown) and instruments such as a speedometer. The instrument panel 17 is formed with a housing part 19 for housing the projection device 18 constituting the vehicle display device 10 in the vicinity of the windshield 11, and an opening 20 of the housing part 19 is formed in the instrument panel. 17 is arranged on the upper surface 21.

  The projection device 18 is a device that projects light for reflecting and displaying a display image on the display unit 16 of the windshield 11. The projection device 18 includes a housing 23 in which an upper opening 22 is formed. In the housing 23, a projector 32 including a liquid crystal display 24, a light diffusion plate 25, a backlight 26, and a heat sink 29, and The plane mirror 27 and the concave mirror 28 are accommodated. A cover member 30 that closes the upper opening 22 is attached to the housing 23.

  The liquid crystal display 24 is a transmissive liquid crystal display such as a TFT (Thin Film Transistor), and is based on a control command from a HUD control unit 40 (see FIGS. 5 and 6) to be described later. The predetermined display items are displayed. The display items displayed on the liquid crystal display 24 are capable of transmitting light. For example, when the display items are displayed as characters, the light is transmitted only through the lines constituting the characters, and the surroundings thereof. Is shaded as background.

  As shown in FIG. 2, the liquid crystal display 24 is formed in a substantially rectangular shape when viewed from the front, and the entire liquid crystal display 24 can be used as a single full-screen display area 34 (described later). Specifically, the upper display area 35 and the lower display area 36 that is slightly smaller than the upper display area 35 can be used by being divided into two upper and lower areas. In the full-screen display area 34, the upper display area 35, and the lower display area 36, display items made up of characters, videos, and the like can be individually displayed by the HUD control unit 40, and the display items are not displayed. In other words, the light of the backlight 26 is blocked by displaying the background over the entire display area. FIG. 2 shows an example of the liquid crystal display 24 in which a fuel gauge is displayed as a display item in the upper display area 35 and a vehicle speed meter is displayed as a display item in the lower display area 36. Further, in FIG. 2, a state in which light from the backlight 26 is slightly transmitted despite being in a light-shielded state around the display item is shown by shading (hereinafter, FIGS. 8 to 11 are also shown). The same).

  The light diffusing plate 25 diffuses the light from the backlight 26 and is disposed between the liquid crystal display 24 and the backlight 26. Light emitted from the backlight 26 is diffused by the light diffusing plate 25 until it reaches the back surface of the liquid crystal display 24, and reaches the back surface of each display area of the liquid crystal display 24 substantially uniformly. It has become.

  As shown in FIGS. 3 and 4, the backlight 26 includes a substrate 42 on which a plurality of point light sources 41 are mounted. The plurality of point light sources 41 arranged on the substrate 42 are regularly arranged at predetermined intervals, respectively (showing an example of arrangement in 3 rows and 5 columns in FIG. 3). Illuminate from the back side (back). Further, the backlight 26 is more specific for each area facing each display area of the liquid crystal display 24, more specifically, the upper and lower display areas 35 and 36, based on the control command of the HUD control unit 40. The point light source 41 is turned on, turned off, and dimmed for each of the upper area 43 and the lower area 44 (see FIG. 3). As the point light source 41 of the backlight 26, for example, a white LED (Light Emitting Diode) is used. Here, FIG. 4 schematically shows the positional relationship of the liquid crystal display 24, the light diffusion plate 25, and the backlight 26 described above, and the liquid crystal display 24 and the substrate 42 of the backlight 26 are parallel to each other. The point light source 41 is mounted on the substrate 42 on the liquid crystal display 24 side. Further, a light diffusion plate 25 is disposed in close contact with the liquid crystal display 24 on the back side of the liquid crystal display 24. As shown in FIG. 1, a heat sink 29 for cooling the point light source 41 is attached to the backlight 26, and this heat sink 29 is accommodated in the lower case 31 of the housing 23.

  That is, by configuring the liquid crystal display 24, the light diffusion plate 25, and the backlight 26 as described above, for example, display items are displayed in the upper display area 35 or the lower display area 36 of the liquid crystal display 24, and the upper When the point light source 41 of the backlight 26 arranged in the upper area 43 and the lower area 44 facing the display area 35 and the lower display area 36 is turned on, the light from the point light source 41 is diffused by the light diffusion plate 25. Thus, the back surface of the liquid crystal display 24 is evenly irradiated and the display items displayed on the liquid crystal display 24 are transmitted. In this embodiment, the case where the liquid crystal display 24 is divided into the upper and lower parts by dividing the liquid crystal display 24 into the upper display area 35 and the lower display area 36 has been described, but the display area is not limited to the upper and lower parts. Alternatively, the display area may be divided in the diagonal direction, or three or more display areas may be set. Further, the size of each display area may be appropriately allocated.

The flat mirror 27 reflects the light of the backlight 26 transmitted through the liquid crystal display 24, that is, the display item displayed on the liquid crystal display 24 toward the concave mirror 28.
The concave mirror 28 is formed in a predetermined concave shape, receives light reflected by the flat mirror 27, and further reflects it toward the display unit 16 of the windshield 11. The predetermined concave shape of the concave mirror 28 corrects the distortion of the display image on the display unit 16 caused by the windshield 11 being inclined. Then, by correcting the distortion of the display image, the display (reflection) image of the display unit 16 can be visually recognized by the user according to the display items displayed on the liquid crystal display 24. Note that a display item displayed on the display unit 16 may be enlarged by disposing a magnifying lens on the optical path.

  The cover member 30 is a member that closes the opening 20 in order to prevent intrusion of dust, foreign matter, and the like into the housing 23, and is formed in a flat plate shape or a substantially circular arc section that is slightly curved along the vehicle front-rear direction. . The cover member 30 is formed of a transparent resin or transparent glass that can sufficiently transmit the projection light, and the upper surface of the cover member 30 is attached to be inclined slightly forward of the vehicle from the horizontal.

  That is, in the projection device 18 having the above-described configuration, the liquid crystal display 24 is illuminated by the backlight 26 from the back, so that the light is transmitted through the display items displayed on the liquid crystal display 24 and the transmitted light. After being reflected by the flat mirror 27 and the concave mirror 28 and transmitted through the transparent cover member 30, it is reflected by the display unit 16 and reaches the user's viewpoint area as a display image.

  The HUD control unit 40 (see FIGS. 5 and 6) controls the display control of the liquid crystal display 24 and the light emission control of the point light source 41, more specifically, the full screen display region 34 set in the liquid crystal display 24. The display items are individually controlled for the upper display area 35 and the lower display area 36, and the lighting control, extinguishing control, and dimming control of the point light source 41 are performed for each of the upper and lower areas 43 and 44 described above. Perform by adjustment.

  As shown in FIG. 6, an operation input unit 60 is connected to the HUD control unit 40, and the operation input unit 60 allows a plurality of display areas, more specifically, an upper display area 35 and a lower display area 36 to be displayed. The non-display mode can be set individually. The operation for setting the non-display mode is performed via an operation switch (not shown) provided on the steering wheel. The operation for setting the non-display mode by the operation input unit 60 includes a selection operation for selecting a display area and a confirmation operation for confirming the operation content.

  When the non-display mode is set via the operation input unit 60 for each of the upper display area 35 and the lower display area 36 of the liquid crystal display 24, the HUD control unit 40 displays the display in which the non-display mode is set. The display item of the area is controlled to be in a non-display state, more specifically, the display area is controlled to be in a light shielding state, and the point light source 41 arranged in the area corresponding to the display area is controlled to be dimmed to a predetermined luminance.

  Here, even if the liquid crystal display 24 is controlled to be in the light shielding state, it is physically impossible to completely block the light of the backlight 26 by the liquid crystal display 24 in the light shielding state. Reference numeral 40 designates a point light source 41 with dimming control at a sufficiently low predetermined brightness such that light emitted from the display unit 16 cannot be visually recognized by light leaking from the liquid crystal display 24 in a light-shielded state. FIG. 8 shows a dimming control of the point light source 41 arranged in the upper area 43 facing the upper display area 35 set in the non-display mode, while the vehicle speedometer is in the lower display area 36 not set in the non-display mode. The case where the display control which displays the display item of is performed is shown. By performing the dimming control as described above, for example, the display unit 16 slightly emits light due to the light of the point light source 41 leaking from the liquid crystal display 24 in the light-shielding state while the lighting state of the point light source 41 is maintained. In addition to preventing the point light source 41, it is possible to increase the brightness of the point light source 41 more quickly than when the point light source 41 is completely turned off. Note that the point light source 41 is controlled to be turned off until the ignition of the vehicle is turned off and then turned on.

  As shown in FIG. 5, the HUD control unit 40 is connected to a meter control unit 47 that controls instruments provided on the instrument panel 17 of the vehicle. The meter control unit 47 is input with vehicle state information detected by various sensors (not shown) such as a seat belt sensor and a vehicle speed sensor. Status information is input to the HUD control unit 40. The meter control unit 47 is connected to a multi-information display 50 arranged in a meter panel in front of the driver's seat of the vehicle. The multi-information display 50 includes a liquid crystal display 48 and a backlight 49, and various information such as vehicle state information can be displayed by an operation input to the operation input unit 60.

  As shown in FIG. 6, the vehicle on which the vehicle display device 10 described above is mounted is provided with an obstacle detection means 52 and an abnormality detection means 53, and the detection results of these obstacle detection means 52 and the abnormality detection means 53. Based on the above, the display item of the alarm is displayed on the display unit 16 by the display control of the HUD control unit 40.

  The obstacle detection means 52 detects an obstacle ahead of the host vehicle based on a detection result of a millimeter wave radar (not shown), etc., and the collision between the obstacle and the host vehicle is based on the distance to the obstacle or a relative distance. An allowance time TCC (Time to collision) is calculated. Then, the obstacle detection means 52 outputs the calculated collision margin time TCC information to the HUD control unit 40 and the meter control unit 47.

Further, the HUD control unit 40 is provided with an abnormality detection means 53, an alarm level calculation means 54, a display prediction means 55, and a day / night determination means 56.
The abnormality detection unit 53 detects an abnormal state having a relatively low urgency, for example, no wearing of a seat belt or excessive speed based on vehicle state information input from the meter control unit 47.

  The alarm level calculation means 54 is based on the information on the collision allowance time TCC of the obstacle detection means 52 described above and the detection result of the abnormality detection means 53, and more specifically, the current danger level of the vehicle, more specifically, the possibility of collision. An alarm level corresponding to the urgency is calculated. The alarm level information output from the alarm level calculation means 54 includes identification information for identifying the type of alarm. Further, although the case where the alarm level is calculated by the alarm level calculation means 54 has been described, a map or table of the alarm type or the collision allowance time TCC is stored in advance in a nonvolatile memory, and the map or table or the like is stored. The alarm level may be obtained with reference to FIG.

  The display predicting means 55 predicts that an interrupt display of a display item will occur after a predetermined time, for example, based on an alarm level. In other words, the display predicting means 55 determines that the vehicle is in a vehicle state that requires projection of display items on the display unit 16 after a predetermined time based on the alarm level or the like. Here, the display item interruption display means that the non-display mode is once canceled and a display item such as an alarm is displayed for the display area set to the non-display mode.

  Whether the day / night determination means 56 determines whether the current time zone is daytime or nighttime based on GPS signal received by a GPS antenna of a car navigation device (not shown) mounted on the vehicle or current time information such as a clock mounted on the vehicle. Alternatively, the determination is made day and night based on the ON / OFF state of the headlight of the vehicle.

The HUD control unit 40 controls the brightness of the point light source 41 when displaying the display items on the liquid crystal display 24 based on the determination result of the day / night determination means 56. More specifically, when the day / night determination means 56 determines that it is daytime, the point light source 41 has a relatively high first luminance for daytime (for example, about 5000 [cd / m ² ]). ) And when it is determined that it is nighttime, the luminance of the point light source 41 is set to a second luminance for nighttime (for example, about 50 [cd / m ² ], which is lower than the first luminance. ). The reason why the first luminance with relatively high luminance is set for daytime is because the outside of the passenger compartment is bright. For example, if the luminance is low when the outside of the passenger compartment is bright, the display items on the display unit 16 are difficult to visually recognize. Because it becomes. The reason why the second luminance having a relatively low luminance is set for nighttime is because the outside of the passenger compartment is dark. For example, if the luminance is high in the dark outside the passenger compartment, the display unit 16 may feel dazzling. .

The HUD control unit 40 adjusts the luminance of each point light source 41 of the backlight 26 by PWM (Pulse Width Modulation) control. FIG. 7 is a graph with the luminance [Cd / m ² ] of the backlight 26 as the vertical axis and the PWM duty ratio [%] during driving of the backlight 26 as the horizontal axis, and the luminance range for nighttime and the luminance range for daytime. Respectively. The luminance range for nighttime is a luminance range relatively lower than the luminance range for daytime (indicated by an arrow in FIG. 7), and the first luminance is set in the luminance range for daytime, A second luminance is set within the luminance range. Na us, FIG. 7 shows an example of a case of adjusting the first luminance according to the vehicle exterior illuminance on the assumption that passing through the dark place such as a tunnel in the daytime, and the upper portion of the luminance range for nighttime Although the lower portion of the daytime luminance range slightly overlaps, the daytime luminance range may be set so that no overlapping portion occurs. Further, when at least one of the first luminance and the second luminance is set in the overlapping portion, the first luminance is maintained so that the relationship of “second luminance” <“first luminance” is maintained. A brightness and a second brightness are set.

  The HUD control unit 40 causes the display unit 16 to project an interrupt display of an alarm display item using the projection device 18. At this time, the HUD control unit 40 projects the display item on the liquid crystal display 24 larger when the alarm level is relatively high, and smaller than when the alarm level is high when the alarm level is relatively low. Display control to project. Here, the size of the display item is changed according to the area of the display area for displaying the display item. For example, when a large display item is displayed, the display area is displayed in a large display area, which is a combination of a plurality of display areas, as in the full screen display area 34, whereas when a small display item is displayed, the area is relatively small. Display in the display area. In the present embodiment, an example will be described in which the full-screen display area 34 is used when a large alarm display item is displayed, and the upper display area 35 is used when a small alarm display item is displayed.

  The HUD control unit 40 displays the display item after a predetermined time by the display predicting means 55 when at least one of the upper display area 35 and the lower display area 36 set in the liquid crystal display 24 is in the non-display mode. If the interruption display is predicted to occur, the luminance of the point light source 41 that illuminates the display area in which the non-display mode is set, that is, the luminance of the point light source 41 that is controlled to be dimmed below the predetermined luminance by the non-display mode is set. Regardless of the determination result by the day / night determination means 56, the increase control is performed up to the first luminance. This makes it possible to display the display item of the interrupt display on the display unit 16 with higher brightness than the display item of the normal display that is not the interrupt display, particularly at night, and reliably before the interrupt display. The passenger can be recognized.

The vehicle display device 10 of this embodiment has the above-described configuration. Next, an example of the operation of the vehicle display device 10 will be described.
First, when the user turns on the ignition of the vehicle, the vehicle display device 10 is activated. Immediately after startup, display control is performed by the HUD control unit 40 so as to be in the state when the ignition is turned off last time or the initial setting state. Here, the display state shown in FIG. 2, that is, the state in which the fuel gauge is displayed in the upper display area 35 and the vehicle speed meter in the lower display area 36 is displayed as a display item will be described as a state immediately after startup.

The HUD control unit 40 divides the liquid crystal display 24 of the projection device 18 into an upper display area 35 and a lower display area 36, and individually displays display items in the upper display area 35 and the lower display area 36, respectively. Here, when the display content is changed by the user, display items other than the fuel meter and the vehicle speed meter described above, for example, an engine speed meter, a shift position indicator, audio information, and the like are displayed as display items.
At this time, if the day / night determination means 56 determines that it is daytime, the point light source 41 of the backlight 26 is adjusted to the first luminance to illuminate the display items of the liquid crystal display 24 from behind, while it is determined to be nighttime. Then, the point light source 41 of the backlight 26 is adjusted to the second luminance, and the display items of the liquid crystal display 24 are illuminated from behind.

  In the normal display mode that is not the non-display mode, the alarm level calculated by the alarm level calculation means 54 is high. For example, when there is a possibility of a rear-end collision, an interrupt display is performed for the currently displayed display item, and all The screen display area 34 is switched to display a display item such as “attention for rear-end collision”, and this display item is projected as a display image on the display unit 16 (see FIG. 10). On the other hand, when the seat belt having a relatively low alarm level is not worn, an interrupt display is performed for the display item currently displayed in the upper display area 35, and only the upper display area 35 is displayed as shown in FIG. A display item that prompts the user to wear the seat belt is displayed, and the display item is projected on the display unit 16 as a display image.

  On the other hand, when the user feels that the display image of the display items displayed on the display unit 16 is troublesome, for example, when the non-display mode is set for the upper display area 35 via the operation input unit 60, the upper display When the area 35 is set in a light-shielding state and the point light source 41 in the upper area 43 is controlled to be reduced to the above-described predetermined luminance, and the non-display mode is set in the lower display area 36, the lower display area 36 is in a light-shielding state. At the same time, the point light source 41 in the lower area 44 is controlled to be reduced to the predetermined luminance described above. As a result, the display image of the display unit 16 on which the display item was displayed disappears, and light emission of portions of the display unit 16 corresponding to the upper and lower display areas 35 and 36 is prevented.

  When the non-display mode is set for at least one of the upper display area 35 and the lower display area 36 and the display predicting means 55 predicts that an interrupt display of a display item will occur after a predetermined time, The brightness of the point light source 41 in the area corresponding to the display area in the non-display mode, in other words, the brightness of the point light source 41 reduced to a predetermined brightness or lower is displayed on the liquid crystal display 24 before the display item by interrupt display is displayed. For example, it is increased to the first luminance from the time when it is predicted that the interrupt display is generated. As in the normal display mode described above, when the alarm level is high, the alarm display item is displayed in the full screen display area 34, and when the alarm level is low, the alarm display item is displayed in the upper / lower display area 35. , 36 is displayed.

8 to 11 show display examples of the liquid crystal display 24 from when the non-display mode is set to the upper display area 35 until the display item by the interrupt display is displayed. In addition, since the display content of the liquid crystal display 24 and the display content of the display part 16 are the same, it demonstrates below using the display of the liquid crystal display 24. FIG.
First, as shown in FIG. 8, when the upper display area 35 set in the non-display mode is in a non-display state and the display predicting means 55 predicts that an interrupt display of the display item will occur after a predetermined time, the display item is displayed. The brightness of the point light source 41 that is controlled to be dimmed in the upper area 43 corresponding to the upper display area 35 that has not been increased is increased from the predetermined brightness described above to the first brightness. Then, as shown in FIG. 9, the light from the point light source 41 is transmitted through the upper display area 35 in a light-shielded state, and the transmitted light is projected onto the display unit 16, and a portion corresponding to the upper display area 35 emits light slightly. And become visible. 9 shows a case where the light from the point light source 41 is not irradiated within a predetermined width from the edge of the upper display area 35. However, the light from the point light source 41 is applied to the entire surface including the edge of the upper display area 35. May be irradiated.

  Next, when a predetermined time elapses, an alarm interruption display is made in a predetermined display area of the liquid crystal display 24. For example, the interrupt display when there is a possibility of a rear-end collision with a high alarm level, as shown in FIG. 10, after the display items in the lower display area 36 for which the non-display mode is not set are deleted, the upper display area 35 And the lower display area 36 are combined into a full screen display area 34. On the other hand, an interruption display such as when the seat belt is not worn at a relatively low alarm level is displayed in the upper display area 35 or the lower display area 36 (showing the case of the upper display area 35 in FIG. 11). Even when the alarm level is relatively low, the display items displayed before the interrupt display is temporarily deleted.

  Thereafter, after the alarm display item is displayed as an interrupt, when the predetermined time has passed or the state that caused the alarm interrupt is resolved, the interrupt display is deleted and the state immediately before the interrupt, that is, the upper display area 35 is displayed. The display returns to the display state shown in FIG. 8 in which the non-display mode is set. In addition, you may make it return to the display state shown in FIG. 2 where the display mode is not set.

  Therefore, according to the vehicle display device of the embodiment described above, the vehicle display device 10 that transmits the light of the point light source 41 from behind the liquid crystal display 24 and displays the display items of the liquid crystal display 24 on the display unit 16. When the predetermined display item is in a non-display state, the display area of the display item is set in a light-shielded state, and the luminance of the point light source 41 arranged behind the display area in the light-shielded state is reduced to a predetermined value or less. On the other hand, when it is predicted by the display predicting means 55 that an interrupt display of a display item will occur after a predetermined time, the luminance of the point light source 41 that has been reduced to a predetermined value or less is controlled to increase so that it is in a non-display state. Further, it is possible to prevent the light from the point light source 41 from leaking from the liquid crystal display 24 in the display area in the light-shielding state and reflecting off the display unit 16 to emit light.

  Further, when the display item is interrupted and displayed from the non-display state, the point light source 41 light leaking from the liquid crystal display 24 is used in advance to make the display unit 16 emit light slightly before the display item is interrupted. To guide the user's line of sight and allow the user to recognize that the interrupt display of the display item will start after a predetermined time, so that the user can visually recognize the display item that is interrupted and displayed. Can do.

Further, when the upper display area 35 and the lower display area 36 are set, the display area selected by the occupant via the operation input unit 60 among these display areas is set to the non-display mode to be hidden. The display area set in the mode is set in the light-shielded state, and the luminance of the point light source 41 disposed behind the display area in the light-shielded state is controlled to decrease, so the display area in which the non-display mode is set It is possible to prevent the light from the point light source 41 from being transmitted and the display unit 16 to emit light.
When the upper display area 35 and the lower display area 36 are set and the display item is interrupted and displayed in the display area in the non-display mode, the luminance of the point light source 41 that has been controlled to decrease is increased. Since the display unit 16 emits a little light by the light transmitted through the display area, it is possible to make the user recognize in advance that the interrupt display of the display item will occur after a predetermined time, so that the user can display with a margin. The part 16 can be visually recognized.

  Further, based on the alarm level calculated by the alarm level calculation means 54, the display predicting means 55 predicts that an interrupt display of an alarm display item corresponding to the alarm level will occur, and the alarm corresponding to the alarm level is displayed. Before the display item is interrupted, the brightness of the point light source 41 corresponding to the display area in the non-display state is increased, and the display unit 16 emits light slightly by the light of the point light source 41 transmitted through the display area. Therefore, the user is not surprised when the interruption display of the display item based on the alarm level is performed. Further, since the brightness of the point light source 41 is increased before the alarm display item based on the alarm level is interrupted and displayed, the display item at the alarm level is promptly displayed on the display unit 16 when it is time to actually perform the interrupt display. Can be displayed.

  Further, when the day / night determination means 56 determines whether the current time zone is daytime or nighttime, and it is determined that the current time zone is nighttime, the luminance of the point light source 41 is lower for the nighttime than the first luminance for daytime. By setting the second luminance, it is determined that it is night when it is predicted that an interruption display of the display item will occur after a predetermined time while preventing the display unit 16 from becoming dazzling at night. Even if the light source 41 is turned on, the point light source 41 is turned on with the first luminance for daytime, and therefore the light emission of the display unit 16 before the interrupt display is performed as compared with the case where the point light source 41 is turned on with the second luminance for nighttime. Further, since the display of the display item by interruption becomes bright, it is possible to make the occupant notice that the display item interruption display is performed more reliably, and to guide the occupant's line of sight to the display unit 16.

  In the above embodiment, the case where the alarm interruption display is performed based on the collision allowance time TCC to the obstacle detected by the obstacle detection means 52 has been described. For example, the forward curve is appropriately set based on the current vehicle speed. It may be determined whether or not it is possible to pass, and if it is determined that it cannot pass, an alarm interruption display may be performed.

  Moreover, although the case where the alarm level calculation means 54, the display prediction means 55, and the day / night determination means 56 were provided in the HUD control part 40 was demonstrated, these structures are provided separately from the HUD control part 40, alarm level calculation means The calculation result by 54, the prediction result by the display prediction unit 55, and the determination result by the day / night determination unit 56 may be transmitted to the HUD control unit 40, respectively.

  Moreover, although the said embodiment demonstrated the case where the display prediction means 55 estimated that the interruption display of a display item would generate | occur | produce after a predetermined time based on an alarm level, it is not restricted to this structure, For example, a driving | running | working state changed. The driving information is sometimes set to be interrupted and displayed, and the display predicting means 55 predicts that this driving information will be interrupted, and the light emission control of the backlight 26 is performed based on the prediction result. May be.

  Furthermore, in the above-described embodiment, the case where the luminance of the backlight 26 is set to the first luminance when displaying the alarm display item has been described. However, the first luminance is gradually or stepwise. The luminance may be increased to 1.

16 Display Unit 24 Liquid Crystal Display 26 Backlight 35 Upper Display Area 36 Lower Display Area 40 HUD Control Unit (Control Unit)
41 Point light source
54 alarm level calculation means 55 display prediction means 56 day / night determination means 60 operation input unit

Claims (4)

A transmissive liquid crystal display for displaying predetermined display items;
A backlight including a light source for illuminating the liquid crystal display from behind;
A display unit for displaying the display items of the liquid crystal display illuminated by the backlight so as to be visible to a vehicle occupant;
A control unit that performs display control of the liquid crystal display and light emission control of the light source,
In the non-display state where none of the display items are displayed on the display area of the liquid crystal display by the control unit, the display area is controlled to be in a light-shielding state, and the luminance of the light source that illuminates the display area is A vehicular display device that performs dimming control to reduce the brightness when displaying display items on the display unit,
A display predicting means for predicting that an interrupt display of the display item occurs after a predetermined time;
When the display area is in a non-display state, the control section displays the display item on the display section with the brightness of the light source on which the dimming control is performed based on the prediction result of the display prediction means. The vehicle display device is characterized by performing an increase control to increase the brightness of the vehicle. An operation input unit capable of setting and inputting a non-display mode for making the display area in a non-display state,
The liquid crystal display is divided into a plurality of display areas capable of individually displaying a plurality of the display items,
The backlight has a plurality of light sources provided for the plurality of display areas,
In the plurality of display areas, the non-display mode can be individually set,
The control unit sets the display area in which the non-display mode is set to a light-shielded state, and displays the brightness of a light source corresponding to the display area in the light-shielded state when displaying a display item on the display unit. The vehicle display device according to claim 1, wherein the vehicle display device reduces the brightness. An alarm level calculating means for calculating a current risk level in the vehicle as an alarm level;
3. The display prediction unit according to claim 1, wherein the display prediction unit predicts that an interrupt display of the display item occurs after a predetermined time based on the alarm level calculated by the alarm level calculation unit. Vehicle display device. A day / night determination means is provided to determine whether the current time zone is daytime or nighttime.
The control unit sets the luminance of the light source when displaying the display item on the display unit to a first luminance when the day / night determination unit determines that it is daytime, and the day / night determination unit When it is determined that the display item is at night, the luminance of the light source when the display item is displayed on the display unit is set to a second luminance lower than the first luminance, and the interrupt is performed by the display prediction unit. When the occurrence of a display is predicted and the luminance of the light source is increased, the luminance of the light source is increased to the first luminance even if the day / night determination means determines that it is nighttime. Item 4. The vehicle display device according to any one of Items 1 to 3.

Images