JP2008120162A - Lighting system for vehicle - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To inform a driver of the existence of an object to be lighted such as a pedestrian efficiently. <P>SOLUTION: This lighting system for a vehicle is provided with a headlight composed of a plurality of LED light sources which is capable of varying light distribution for each of divided regions divided into a plurality of regions by controlling the lighting of each LED light source, a camera photographing the front of the vehicle, a warning sound generator 21 generating a warning sound, and a light distribution control ECU controlling the light distribution of the headlight. The light distribution control ECU detects the pedestrian based on a result photographed by the camera, specifies the divided region corresponding to the pedestrian based on a pedestrian detection result, and controls the light distribution so that the specified divided region is lighted on and off. Moreover, the ECU controls the warning sound generator 21 so that the ECU generates the warning sound in synchronization with the light distribution control. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a vehicular illumination device, and more particularly to a vehicular illumination device that controls light distribution of a headlamp or the like.

  As a vehicular illumination device that controls light distribution of a headlamp or the like, for example, a technique described in Patent Document 1 has been proposed.

  In the technique described in Patent Literature 1, a plurality of light sources that illuminate different areas and form a predetermined light distribution pattern including a main light distribution unit and a peripheral light distribution unit as a whole, and a camera that images the front of the vehicle, , Based on the image acquired by the camera, when a dangerous object judging unit that judges a dangerous object for traveling of the vehicle as a dangerous substance, and the dangerous substance judged by the dangerous substance judging unit is outside the main light distribution unit In addition, it has been proposed to include a light source control unit that changes the direction of a plurality of light sources to illuminate a dangerous object.

Moreover, in the technique of patent document 1, it is described that a several light source may be controlled so that the pedestrian which is a dangerous material may be illuminated intermittently.
JP 2006-21631 A

  However, the presence of the pedestrian can be notified to the driver by intermittently illuminating the pedestrian, but there is room for improvement in the control because it is only a visual notification.

  In addition, for example, it is possible to generate a warning sound at the same time, but since there are a plurality of warning sounds in the vehicle, what is the generated warning sound is a warning sound by simply generating a warning sound, It may be difficult for the driver to recognize.

  The present invention has been made in consideration of the above facts, and an object thereof is to efficiently notify the driver of the presence of an illumination target such as a pedestrian.

  In order to achieve the above object, the invention described in claim 1 is directed to a vehicle illumination means capable of changing the light distribution for each divided area of the plurality of divided light distribution areas, and detection for detecting the presence of an illumination target. And means for specifying a divided area corresponding to the illumination target, a warning sound generating means for generating a warning sound, and a divided area specified by the specifying means when an illumination target is detected by the detecting means And control means for controlling the warning sound generating means so as to generate a warning sound in synchronism with the control of the light distribution.

  According to the first aspect of the present invention, the plurality of vehicle illumination means can change the light distribution for each divided region of the divided light distribution regions. As the vehicle illumination means, for example, a vehicle headlamp can be applied. The vehicle illumination means includes, for example, a plurality of light sources such as LED light sources that can be divided into divided regions by each light source, and light modulation from a light source such as a DMD (Digital Micromirror Device) or a liquid crystal element. A device that can be divided using an element or a device that can be divided using a shutter or the like can be used.

  The detecting means detects the presence of the illumination target. As the detection means, for example, a camera, a radar, or the like can be applied, and an illumination target such as a pedestrian in front of the vehicle can be detected by the camera, the radar, or the like.

  In the specifying unit, when the illumination target is detected by the detection unit, a divided region corresponding to the illumination target is specified, and the warning sound generating unit generates a warning sound.

  The control means is controlled to change the light distribution of the divided area specified by the specifying means, and the warning sound generating means controls so as to generate a warning sound in synchronization with the control of the light distribution. Is done.

  For example, as in the invention described in claim 6, the control means distributes the light so that the irradiation state in which light is irradiated to the divided area specified by the specifying means and the non-irradiation state in which no light is irradiated are repeated. By changing the light distribution by controlling, it is possible to notify the driver of the presence of an illumination target such as a pedestrian by changing the light distribution.

  In addition, since a warning sound is generated in synchronization with the light distribution control, it is possible to easily recognize what the warning sound is and to drive the presence of a lighting target such as a pedestrian by the warning sound. The user can be notified efficiently.

  Therefore, it is possible to efficiently notify the driver of the presence of an illumination target such as a pedestrian by visual notification and auditory notification synchronized with the visual notification.

  Note that, as in the invention described in claim 2, the control means operates when a plurality of illumination objects are detected by the detection means and a plurality of divided regions corresponding to each of the illumination objects are specified by the specifying means. The warning sound generation means may be controlled so as to generate a warning sound in synchronism with the light distribution control of the divided area corresponding to the illumination object with the highest priority by calculating the priority of the person's attention. For example, the driver's priority (for example, the distance to the pedestrian, the direction of travel of the pedestrian, etc.) for the lighting target such as a pedestrian is calculated, and the light distribution control is performed on the lighting target with the highest priority. By generating a warning sound in synchronization with the light distribution control, it is possible to efficiently notify the driver of a lighting object with a high priority. At this time, as in the invention described in claim 3, the control means may perform control so that the light distributions of the respective divided areas specified by the specifying means are different from each other.

  Further, according to the present invention, as in the invention described in claim 4, the illumination means for the vehicle is capable of changing the light distribution color, and the illumination target detection for detecting the type of the illumination object based on the detection result of the detection means You may make it further provide a selection means to select the light distribution color irradiated from a vehicle illumination means according to the kind of illumination object. That is, by this, the light distribution color can be changed according to the type of illumination target, so that the driver can be notified of the type of illumination target. For example, as in the invention described in claim 5, the illumination object detection means detects whether the illumination object is a pedestrian or a fallen object, thereby distinguishing the presence of the pedestrian or the fallen object from the driver. It is possible to notify.

  The vehicle illumination means may include a plurality of light sources (for example, light sources such as LED light sources) that can independently distribute light, as in the invention described in claim 7. Thereby, the light distribution can be changed for each of the divided areas divided into a plurality of areas.

  As described above, according to the present invention, the presence of an illumination target is detected and control is performed so as to change the light distribution in the divided area of the vehicle illumination unit corresponding to the illumination target, and the control is synchronized with the light distribution control. By generating a warning sound, it is possible to effectively notify the driver of the presence of a lighting target such as a pedestrian by visual notification and auditory notification synchronized with the visual notification.

  Hereinafter, an example of an embodiment of the present invention will be described in detail with reference to the drawings. FIG. 1 is a block diagram showing a configuration of a vehicular illumination apparatus according to an embodiment of the present invention.

  As shown in FIG. 1, in the vehicular illumination device 10 according to the embodiment of the present invention, a headlamp 12 provided in a vehicle is connected to a light distribution control ECU 14. The lighting and extinguishing of the lamp 12 are controlled.

  In the present embodiment, the light distribution control ECU 14 performs light distribution control so as to change the light distribution in a region corresponding to an illumination target such as a pedestrian in front of the light distribution region of the headlamp 12. The light distribution is changed by, for example, performing light distribution control so that an irradiation state in which light is irradiated to a region corresponding to an illumination target such as a pedestrian and a non-irradiation state in which light is not irradiated are repeated. That is, the area corresponding to the illumination target such as a pedestrian flashes.

  The light distribution control ECU 14 includes a microcomputer including a CPU 14A, a RAM 14B, a ROM 14C, and an I / O 14D.

  The ROM 14C of the light distribution control ECU 14 stores a table for performing light distribution control of the headlamp 12, a program for executing a light distribution control routine described later, and the RAM 14B performs various calculations performed by the CPU 14A. It is used as a memory for performing

  The switch 16, the camera 18, the warning sound generator 21, and the headlight driver 20 are connected to the I / O 14 </ b> D, and the operation state of the switch 16 and the photographing result in front of the vehicle by the camera 18 are related to the light distribution control ECU 14. Is input.

  The switch 16 instructs the headlamp 12 to be turned on / off, instructs the low beam and the high beam, and outputs the instruction result to the light distribution control ECU 14. The camera 18 captures the front of the vehicle and outputs the captured result to the light distribution control ECU 14, and the warning sound generator 21 generates a predetermined warning sound. The warning sound generator 21 may generate a previously stored voice or the like.

  Then, the light distribution control ECU 14 controls the headlamp driver 20 in accordance with the state of the switch 16 to turn on the headlamp 12 and detect a pedestrian in front based on the photographed image of the camera 18. Then, the light distribution of the headlamp 12 is controlled so that the light from the headlamp 12 to the area corresponding to the pedestrian repeats non-irradiation and irradiation. Further, at this time, the warning sound generator 21 is controlled to generate a warning sound in synchronization with the repetition of non-irradiation and irradiation of light from the headlamp 12.

  Two headlamps 12 are provided at the front end of the vehicle. As shown in FIG. 2, the light distribution area of the headlamp 12 is divided into a plurality of parts in the vehicle width direction. Thus, the light distribution and non-irradiation can be changed, so that the light distribution can be changed for each divided region, and the light distribution control ECU 14 controls the light irradiation or non-irradiation to each divided region.

  FIGS. 3A and 3B are views showing an example of a headlamp applicable to the vehicular illumination device 10 according to the embodiment of the present invention.

  For example, as shown in FIG. 3A, the headlamp 12 can be applied with a plurality of LED light sources 24, and the headlamp driver 20 controls turning on and off of the plurality of LED light sources 24. Thus, it is possible to perform irradiation or non-irradiation of light on each divided region 22 shown in FIG. FIG. 3A shows an example of a headlamp that includes two LED lamps 26 each having a plurality of LED light sources 24. For example, one LED lamp 26 is used for a low beam and the other LED lamp 26 is used for a high beam. You may make it use properly as.

  As shown in FIG. 3 (B), the headlamp 12 reflects light from one light source 28 by a DMD (Digital Micromirror Device) 30 and irradiates the front of the vehicle through a lens 31. You may make it apply. The DMD 30 includes a plurality of micromirrors 32 as shown in FIG. 3C, and is a device that can control the rotation of each micromirror 32. That is, a light source driver 34 for turning on the light source 28 as a headlamp driver 20 and a DMD driver 36 for driving the rotation of each micromirror 32 of the DMD 30 are provided. By controlling the rotation of each micro mirror 32 of the DMD 30 by 36, it is possible to control the irradiation or non-irradiation of light to each divided region shown in FIG.

  In the present embodiment, the following description is given assuming that a plurality of LED light sources 24 are provided. Further, the configuration of the headlamp 12 is not limited to the above. For example, a plurality of shutters that block light that illuminates the front of the vehicle from a single light source are provided, and the size of each shutter is made to correspond to the divided area. In addition, it may be possible to irradiate or not irradiate each divided region shown in FIG. 2, or a light modulation element such as a liquid crystal element other than the DMD 30 may be used instead of the DMD 30.

  FIG. 4A is a view for explaining a divided region of the headlamp 12 of the vehicle lighting device 10 according to the embodiment of the present invention.

  As shown in FIG. 4A, the divided pattern of the divided areas of the headlamp 12 according to the present embodiment is such that the divided width of the divided area at the substantially central portion in the vehicle width direction is wider than the end in the vehicle width direction. It is set to be short in the direction, and gradually becomes a divided region that is long in the vehicle width direction toward the outside in the vehicle width direction. Note that the division pattern is not limited to this.

  Moreover, the LED light source 24 corresponding to each divided area is set in advance in the headlamp 12, and the plurality of LED light sources 24 are selectively turned on to turn on / off each divided area.

  For example, in the present embodiment, as shown in FIG. 1 corresponds to the LED light source No. 1. 1 to 8 correspond to each other, and the divided region No. LED light source 24 corresponding to 2 is LED light source No. 2. 9 to 12 correspond to each other, and the divided region No. 3 corresponds to the LED light source No. 3. 13 to 15 are associated with each other, and the divided region No. 4 corresponds to LED light source No. 4. 16 and the divided region No. LED light source 24 corresponding to LED No. 5 17 to correspond to the divided area No. 6 corresponds to the LED light source No. 18 and 19 are associated with each other, and the divided region No. 7 corresponds to the LED light source No. 20 to 22 correspond to each other, and the divided area No. 8 corresponds to the LED light source No. 23-27 are made to correspond. Then, by controlling the turning on and off of the LED light source 24 corresponding to each divided region, light irradiation or non-irradiation can be performed for each divided region. Therefore, the correspondence shown in FIG. The area correspondence table 38 is stored in the ROM 14C or the like, and the light distribution control ECU 14 performs lighting control using the light source divided area correspondence table 38, so that the headlamp 12 can be turned on and off for each area. It becomes.

  In the present embodiment, the divided area is determined based on the number of lighting of the LED light source 24. However, the present invention is not limited to this. For example, the size of the divided area is determined based on the size or characteristics of the lens or the light source. You may do it.

(First embodiment)
The light distribution control of the first embodiment of the present invention will be described. In the present embodiment, a pedestrian in front of the vehicle is detected, and light distribution control is performed so that the divided region 22 corresponding to the pedestrian among the light distribution regions of the headlamp 12 is repeatedly irradiated and non-irradiated. A warning sound is generated in synchronization with the repetition of non-irradiation and irradiation of the divided area 22. In the present embodiment, the divided region 22 is controlled to repeat light irradiation and non-irradiation by blinking the LED light source 24 corresponding to the divided region where the pedestrian exists.

  Here, the light distribution control performed by the light distribution control ECU 14 of the vehicle lighting device 10 according to the first embodiment of the present invention will be described in detail. FIG. 5 is a flowchart showing a light distribution control routine performed by the light distribution control ECU 14 of the vehicle lighting device 10 according to the first embodiment of the present invention. The light distribution control routine shown in FIG. 5 is started when lighting of the headlamp 12 is instructed by the operation of the occupant switch 16. Further, when the switch 16 is provided with the automatic lighting mode, the automatic lighting may be instructed by the occupant, and may be started when a predetermined condition for lighting the headlamp 12 is satisfied.

  When the lighting of the headlamp 12 is instructed by the operation of the occupant switch 16, the headlamp 12 is turned on in step 100. That is, the CPU 14 </ b> A controls the headlamp driver 20 via the I / O 14 </ b> D to drive the LED light sources 24 of the two headlamps 12, thereby turning on the headlamp 12.

  In step 102, the photographing result obtained by photographing the front of the vehicle with the camera 18 is acquired by the light distribution control ECU 14 via the I / O 14D, and the process proceeds to step 104.

  In step 104, a pedestrian is detected by the CPU 14A based on the photographing result of the camera 18, and the process proceeds to step 106. In addition, the detection of a pedestrian can be detected using various known techniques etc., for example, can be detected using image processing.

  Subsequently, in step 106, it is determined by the CPU 14A whether or not there is a pedestrian ahead. If the determination is affirmative, the process proceeds to step 108, and if the determination is negative, the process proceeds to step 112.

  In step 108, the divided area of the headlamp 12 corresponding to the area where the pedestrian is present is specified by the CPU 14A, and the process proceeds to step 110.

  In step 110, areas other than the divided area 22 corresponding to the pedestrian are turned on, the divided area 22 corresponding to the pedestrian is blinked, a warning sound is generated in synchronization with the blinking, and the process proceeds to step 114. That is, the light distribution control ECU 14 controls the headlamp driver 20 so that the divided area corresponding to the pedestrian blinks, so that the driver can recognize the presence of the pedestrian. In addition, since the warning sound is generated from the warning sound generator 21 in synchronization with the blinking of the divided areas, confusion with other warning sounds can be avoided. If a warning sound has already been generated in synchronization with the blinking of the divided area, the warning sound synchronized with the blinking of the specific divided area is muted and the warning synchronized with the blinking of the specified divided area is performed. Generate sound.

  On the other hand, in step 112, if the divided area blinks and a warning sound is being generated, resetting is performed, that is, the blinking divided area is turned on and the generation of the warning sound is stopped, and the process proceeds to step 114.

  In step 114, the CPU 14A determines whether or not the switch 16 has been turned off. If the determination is negative, the process returns to step 102 and the above processing is repeated, and the determination in step 114 is affirmed. The process proceeds to step 116, the headlamp 12 is turned off, and the series of processes is terminated.

  Thus, by performing the above-mentioned light distribution control by the light distribution control ECU 14 of the vehicle lighting device 10 according to the present embodiment, as shown in FIG. 6A, when a pedestrian exists in front of the vehicle. Divides the light distribution area of the headlamp into a plurality of parts, and controls the light distribution so that the divided area corresponding to the pedestrian (division area No. 6 in FIG. 6A) blinks. Can be visually notified to the driver. In addition, since a warning sound is generated in synchronization with the blinking of the divided areas, in addition to visual notification, the presence of a pedestrian can be audibly notified to the driver. Here, there may be a plurality of warning sounds in the vehicle, and it is considered that the driver cannot recognize what warning sound. In this embodiment, the warning sound is generated in synchronization with the blinking of the divided areas. Therefore, it is possible to easily recognize that the warning sound is a warning sound indicating that a pedestrian is present ahead from the blinking of the divided area synchronized with the warning sound.

  Therefore, it is possible to efficiently notify the driver of the presence of an illumination target such as a pedestrian by visual notification and auditory notification synchronized with the visual notification.

  In the present embodiment, the high beam and the low beam are not particularly mentioned, but the above light distribution control may be performed only for the high beam region, or the above light distribution control may be performed for the high beam and low beam regions. Alternatively, the light distribution control described above may be performed only for the low beam region. For example, when a pedestrian is present in the high beam area while running on a low beam, only the divided areas corresponding to the pedestrians in the high beam area blink as shown in FIG. Light distribution control may be performed so as to generate sound.

(Second Embodiment)
In the first embodiment, the divided area where the pedestrian is present blinks and a warning sound is generated in synchronization with the blinking. In the second embodiment, when a plurality of pedestrians are detected, The divided areas are turned on and a warning sound is generated according to the priority of the driver's attention.

  Specifically, in the second embodiment, when a plurality of pedestrians are detected, the priority of the driver's attention for each pedestrian (for example, the direction of travel of the pedestrian, the distance between the vehicle and the pedestrian, etc.) And the blinking cycle is determined according to the priority, and the divided area where the pedestrian is present blinks at the determined cycle, and the warning is synchronized with the blinking cycle with the highest priority among the calculated priorities. Generate sound. That is, when the light distribution control ECU 14 of the second embodiment detects a plurality of pedestrians with respect to the first embodiment, the light distribution control ECU 14 specifies a plurality of corresponding divided areas, and also determines the distance to each pedestrian and walking. The priority of the driver's attention is calculated based on the moving direction of the driver. Then, according to the calculated priority, for example, the higher the priority, the shorter the blinking period, etc., the divided area blinks at the set period, and the synchronized with the blinking period corresponding to the divided area with higher priority To generate a warning sound.

  FIG. 7 is a flowchart illustrating a light distribution control routine performed by the light distribution control ECU of the vehicle lighting device according to the second embodiment of the present invention. Similar to the first embodiment, the light distribution control routine is started when lighting of the headlamp 12 is instructed by an operation of the occupant's switch 16. Further, when the switch 16 is provided with the automatic lighting mode, the automatic lighting may be instructed by the occupant, and may be started when a predetermined condition for lighting the headlamp 12 is satisfied.

  When the lighting of the headlamp 12 is instructed by the operation of the occupant switch 16, the headlamp 12 is turned on in step 200. That is, the CPU 14 </ b> A controls the headlamp driver 20 via the I / O 14 </ b> D to drive the LED light sources 24 of the two headlamps 12, thereby turning on the headlamp 12.

  In step 202, the photographing result obtained by photographing the front of the vehicle with the camera 18 is acquired by the light distribution control ECU 14 via the I / O 14D, and the process proceeds to step 204.

  In step 204, a pedestrian is detected by the CPU 14A based on the photographing result of the camera 18, and the process proceeds to step 206. In addition, the detection of a pedestrian can be detected using various known techniques etc., for example, can be detected using image processing.

  Subsequently, at step 206, it is determined by the CPU 14A whether or not there is a pedestrian ahead. If the determination is affirmative, the process proceeds to step 208, and if the determination is negative, the process proceeds to step 220.

  In step 208, the CPU 14A determines whether or not there are a plurality of pedestrians. If the determination is affirmative, the process proceeds to step 214. If the determination is negative, the process proceeds to step 210.

  In step 210, since there are not a plurality of pedestrians, the divided area of the headlamp 12 corresponding to the area where the pedestrian is present is specified by the CPU 14A, and the process proceeds to step 212.

  In step 212, areas other than the divided area 22 corresponding to the pedestrian are turned on, the divided area 22 corresponding to the pedestrian is blinked, and a warning sound is generated in synchronization with the blinking, and the process proceeds to step 222. That is, the light distribution control ECU 14 controls the headlamp driver 20 so that the divided area corresponding to the pedestrian blinks, so that the driver can recognize the presence of the pedestrian. In addition, since the warning sound is generated from the warning sound generator 21 in synchronization with the blinking of the divided areas, confusion with other warning sounds can be avoided. If a warning sound has already been generated in synchronization with the blinking of the divided area, the warning sound synchronized with the blinking of the specific divided area is muted and the warning synchronized with the blinking of the specified divided area is performed. Generate sound.

  In Step 214, since there are a plurality of pedestrians, the divided area of the headlamp 12 corresponding to each pedestrian is specified by the CPU 14A, and the process proceeds to Step 216. That is, when there are a plurality of pedestrians, a divided area corresponding to each pedestrian is specified.

  In step 216, the priority is calculated by the CPU 14A based on the distance to each pedestrian, the traveling direction of the pedestrian, etc., and the process proceeds to step 218. For example, the priority is calculated by calculating the distance from the captured image of the camera 18 to each pedestrian or detecting the traveling direction of the pedestrian. The closer the distance to the pedestrian, the higher the priority. The higher the priority, the higher the pedestrian travel direction is closer to the vehicle travel direction.

  In step 218, the areas other than the divided areas 22 corresponding to the pedestrians are turned on, and the specified divided areas are blinked at different periods according to the priorities, and the divided areas corresponding to the pedestrians with higher priorities are blinked. A warning sound is generated in synchronism with the process, and the routine proceeds to step 222. That is, when the light distribution control ECU 14 controls the headlight driver 20, the divided areas corresponding to the plurality of pedestrians are blinked, so that the driver can recognize the presence of the pedestrians. In addition, since the warning sound is generated from the warning sound generator 21 in synchronization with the blinking of the divided areas, confusion with other warning sounds can be avoided. Further, since a warning sound is generated in synchronization with a blinking cycle corresponding to a pedestrian with a high priority of driver's attention, the driver is notified of a pedestrian with a high priority of attention among a plurality of pedestrians. be able to. If a warning sound has already been generated in synchronization with the blinking of the divided area, the warning sound that was synchronized with the blinking of the specific divided area is muted and the divided area with the high priority specified this time is blinked. Generates a warning sound synchronized with the.

  On the other hand, in step 220, if the divided area blinks and a warning sound is being generated, resetting is performed, that is, the blinking divided area is turned on and the generation of the warning sound is stopped, and the process proceeds to step 222.

  In step 222, it is determined by the CPU 14A whether or not the switch 16 is turned off. If the determination is negative, the process returns to step 202 and the above-described processing is repeated, and the determination in step 222 is affirmed. The process proceeds to step 116, the headlamp 12 is turned off, and the series of processes is terminated.

  Thus, by performing the above-mentioned light distribution control by the light distribution control ECU 14 of the vehicle lighting device according to the present embodiment, as shown in FIG. 8, when there are a plurality of pedestrians in front of the vehicle, The light distribution area of the headlamp 12 is divided into a plurality of areas, and the light distribution control is performed so that the divided areas corresponding to each pedestrian (division areas No. 2 and 6 in FIG. 8) blink. The driver can be notified visually. At this time, the presence of the pedestrian can be effectively notified to the driver by changing the blinking cycle for each pedestrian according to the priority of the driver's attention.

  Furthermore, in this embodiment, when there are a plurality of pedestrians, a warning sound is generated in synchronization with the blinking cycle of the divided areas corresponding to the pedestrians having a high driver's attention priority among the plurality of pedestrians. Therefore, the recognition degree of a pedestrian with a high priority of attention among a plurality of pedestrians can be increased, and the presence of a pedestrian with a high priority can be efficiently notified to the driver. Therefore, also in this embodiment, the presence of an illumination target such as a pedestrian can be efficiently notified to the driver by visual notification and auditory notification synchronized with the visual notification.

(Third embodiment)
In the first embodiment and the second embodiment, the divided area where the pedestrian is present blinks. However, in the third embodiment, the pedestrian and the fallen object are distinguished and detected instead of merely blinking light and dark. The flashing is a different color for pedestrians and falling objects.

  Specifically, in the third embodiment, a plurality of LED light sources 24 of the headlamp 12 that can emit light with at least two colors or a LED light source 24 having a different color for each divided region is applied. The light distribution control ECU 14 detects whether a pedestrian is present ahead or a fallen object is present from the captured image of the camera 18. For example, it is possible to distinguish and detect whether a pedestrian or a fallen object by judging the shape or the like. Moreover, you may make it detect body temperature etc. using an infrared sensor.

  Then, the light distribution control ECU 14 performs control so that, when a fallen object or a pedestrian is detected, the corresponding divided region 22 of the headlamp blinks and a warning sound is generated in synchronization with the blinking cycle. At this time, the fallen object and the pedestrian are distinguished by blinking in a different color between the fallen object and the pedestrian. In the present embodiment, when the presence of a pedestrian is detected, the headlamp driver 20 is controlled so that the divided area corresponding to the pedestrian blinks in a predetermined first color. If detected, the headlamp driver 20 is controlled so that the divided area corresponding to the fallen object blinks in a second color different from the first color. The first color and the second color can be appropriately set differently. For example, a color such as red can be applied as the first color, and a color such as yellow can be applied as the second color. .

  FIG. 9 is a flowchart illustrating a light distribution control routine performed by the light distribution control ECU of the vehicle lighting device according to the third embodiment of the present invention. Similar to the first embodiment, the light distribution control routine is started when lighting of the headlamp 12 is instructed by an operation of the occupant's switch 16. Further, when the switch 16 is provided with the automatic lighting mode, the automatic lighting may be instructed by the occupant, and may be started when a predetermined condition for lighting the headlamp 12 is satisfied.

  When the lighting of the headlamp 12 is instructed by the operation of the occupant switch 16, the headlamp 12 is turned on in step 200. That is, the CPU 14 </ b> A controls the headlamp driver 20 via the I / O 14 </ b> D to drive the LED light sources 24 of the two headlamps 12, thereby turning on the headlamp 12.

  In step 302, the photographing result obtained by photographing the front of the vehicle with the camera 18 is acquired by the light distribution control ECU 14 via the I / O 14D, and the process proceeds to step 304.

  In step 304, a pedestrian or a fallen object is detected by the CPU 14A based on the photographing result of the camera 18, and the process proceeds to step 306. Note that detection of pedestrians and fallen objects can be performed using various known techniques, for example, detection using image processing, or determination of whether a pedestrian or fallen object is performed using an infrared sensor or the like. May be.

  Subsequently, in step 306, the CPU 14A determines whether there is a pedestrian or a fallen object. If the determination is affirmed, the process proceeds to step 308. If the determination is negative, the process proceeds to step 318.

  In step 308, the CPU 14A determines whether or not a pedestrian has been detected. If the determination is affirmative, the process proceeds to step 314. If the determination is negative, the process proceeds to step 310.

  In step 310, the divided area of the headlamp 12 corresponding to the area where the pedestrian is present is specified by the CPU 14A, and the process proceeds to step 312.

  In step 312, areas other than the divided area 22 corresponding to the pedestrian are turned on, the divided area 22 corresponding to the pedestrian is blinked in the first color, a warning sound is generated in synchronization with the blinking, and the process proceeds to step 320. That is, when the light distribution control ECU 14 controls the headlamp driver 20, the divided area corresponding to the pedestrian blinks in the first color, so that the driver can recognize the presence of the pedestrian. In addition, since the warning sound is generated from the warning sound generator 21 in synchronization with the blinking of the divided areas, confusion with other warning sounds can be avoided. If a warning sound has already been generated in synchronization with the blinking of the divided area, the warning sound synchronized with the blinking of the specific divided area is muted and the warning synchronized with the blinking of the specified divided area is performed. Generate sound. Further, the blinking color of the divided area specified last time is reset, and the divided area specified this time is blinked in the first color.

  In step 314, the divided area of the headlamp 12 corresponding to the falling object is specified by the CPU 14A, and the process proceeds to step 316.

  In step 316, areas other than the divided area 22 corresponding to the falling object are turned on, the divided area 22 corresponding to the falling object is blinked in the second color, a warning sound is generated in synchronization with the blinking, and the process proceeds to step 320. That is, when the light distribution control ECU 14 controls the headlamp driver 20, the divided area corresponding to the fallen object blinks in the second color, so that the driver can recognize the presence of the pedestrian. In addition, since the warning sound is generated from the warning sound generator 21 in synchronization with the blinking of the divided areas, confusion with other warning sounds can be avoided. If a warning sound has already been generated in synchronization with the blinking of the divided area, the warning sound synchronized with the blinking of the specific divided area is muted and the warning synchronized with the blinking of the specified divided area is performed. Generate sound. Further, the blinking color of the divided area specified last time is reset, and the divided area specified this time is blinked in the second color.

  On the other hand, in step 318, if the divided area blinks and a warning sound is being generated, resetting is performed, that is, the blinking divided area is turned on and the generation of the warning sound is stopped, and the process proceeds to step 320.

  In step 320, the CPU 14A determines whether or not the switch 16 is turned off. If the determination is negative, the process returns to step 302 and the above processing is repeated, and the determination in step 320 is affirmed. The process proceeds to step 322, the headlamp 12 is turned off, and the series of processes is terminated.

  Thus, the same effect as 1st Embodiment can be acquired by performing the above-mentioned light distribution control by light distribution control ECU14 of the illuminating device for vehicles concerning this embodiment.

  In this embodiment, as shown in FIGS. 10A and 10B, the pedestrian and the fallen object blink in different colors, so the driver distinguishes the pedestrian from the fallen object. Can be notified. 10A shows a case where the illumination target is a pedestrian, and FIG. 10B shows a case where the illumination target is a falling object.

  In the third embodiment, the pedestrian and the falling object are distinguished and detected, and the light distribution is controlled so as to blink the divided areas with different colors. However, there are a plurality of pedestrians and falling objects. In this case, as in the second embodiment, the light distribution may be controlled so as to have different blinking periods.

  In the above embodiments, the camera 18 is used to detect the forward pedestrian. However, the present invention is not limited to this, and the forward pedestrian is detected using various techniques such as radar. It may be.

  In each of the above embodiments, the headlamp 12 is applied as the vehicle illumination means of the present invention. However, the present invention is not limited to this, and an auxiliary headlamp or other vehicle illumination means is applied. You may do it.

  Further, in the light distribution control routine of each of the above embodiments, lights other than the specified divided area are turned on, the specified divided area is blinked, and a warning sound is generated in synchronization with the blinking (step 110), and processing similar thereto. (Steps 212, 218, 312, and 316) may be performed as in steps 150 to 143 shown in FIG. In FIG. 11, step 110 of the light distribution control routine of the first embodiment is replaced with steps 150 to 143. Moreover, what is necessary is just to apply according to each embodiment suitably, when applying to other embodiment.

  That is, in step 150, the CPU 14A determines whether or not there is a change in the specified divided area. If the determination is affirmative, the process proceeds to step 152. If the determination is negative, the process proceeds to step 114. The determination is affirmed because there is no specified divided region in the initial state.

  In step 152, the light distribution and the warning sound are reset. That is, if all the divided areas are turned on and a warning sound is generated, the sound is muted and the process proceeds to step 154. After the identified divided areas are blinked and a warning sound is generated in synchronization with the blinking Control goes to step 114.

It is a block diagram which shows the structure of the vehicle illuminating device concerning embodiment of this invention. It is a figure for demonstrating the division area of the light distribution range of the headlamp of the illuminating device for vehicles concerning embodiment of this invention. It is a figure which shows an example of the headlamp applicable to the illuminating device for vehicles concerning embodiment of this invention. (A) is a figure for demonstrating the division area of the headlamp of the illuminating device for vehicles concerning embodiment of this invention, (B) is a figure which shows a light source division area correspondence table. It is a flowchart which shows the light distribution control routine performed by light distribution control ECU of the illuminating device for vehicles concerning 1st Embodiment of this invention. (A) is a figure which shows an example of the light distribution control of the headlamp of the vehicle illuminating device concerning 1st Embodiment, (B) is a figure which shows an example of the light distribution control of a modification. It is a flowchart which shows the light distribution control routine performed by the light distribution control ECU of the vehicle illuminating device concerning 2nd Embodiment of this invention. It is a figure which shows an example of the light distribution control of the headlamp of the illuminating device for vehicles concerning 2nd Embodiment. It is a flowchart which shows the light distribution control routine performed by the light distribution control ECU of the vehicle illuminating device concerning 3rd Embodiment of this invention. It is a figure which shows an example of the light distribution control of the headlamp of the vehicle illuminating device concerning 3rd Embodiment, (A) shows the case where an illumination object is a pedestrian, (B) shows that an illumination object is a fallen object. It is a figure which shows a case. It is a flowchart which shows the modification of the light distribution control routine performed by light distribution control ECU of the illuminating device for vehicles concerning 1st Embodiment of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Vehicle lighting device 12 Headlamp 14 Light distribution control ECU
18 Camera 20 Headlight Driver 21 Warning Sound Generator 22 Divided Area 24 LED Light Source 28 Light Source 30 DMD
32 Micromirror

Claims (7)

A vehicle illumination means capable of changing the light distribution for each of the divided light distribution areas;
Detection means for detecting the presence of an illumination object;
A specifying unit that specifies a divided region corresponding to the illumination target when the detection target is detected by the detection unit;
A warning sound generating means for generating a warning sound;
Control means for controlling the warning sound generating means so as to generate a warning sound in synchronization with the control of the light distribution, while controlling to change the light distribution of the divided area specified by the specifying means,
A vehicle lighting device comprising:   The control means calculates a driver's attention priority when a plurality of illumination targets are detected by the detection means and a plurality of divided regions corresponding to each of the illumination targets are specified by the specifying means. 2. The vehicular lighting device according to claim 1, wherein the warning sound generating means is controlled so as to generate a warning sound in synchronization with the light distribution control of the divided area corresponding to the highest priority lighting target. .   The vehicular illumination device according to claim 2, wherein the control unit controls the light distribution of each divided region specified by the specifying unit to be in a different state according to the priority. The vehicle illumination means can change the light distribution color for each of the divided areas,
Illumination target detection means for detecting the type of illumination target based on the detection result of the detection means;
4. The apparatus according to claim 1, further comprising: a selection unit that selects a light distribution color emitted from the vehicle illumination unit according to a type of the illumination target. 5. Vehicle lighting device.   The vehicle illumination device according to claim 4, wherein the illumination target detection unit detects whether the illumination target is a pedestrian or a fallen object.   2. The control unit according to claim 1, wherein the control unit controls the light distribution so that an irradiation state in which light is irradiated to the divided region specified by the specifying unit and a non-irradiation state in which the light is not irradiated are repeated. The vehicle lighting device according to claim 5.   The vehicle illumination device according to any one of claims 1 to 6, wherein the vehicle illumination unit includes a plurality of light sources capable of independently distributing light.

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