JP4019939B2 - VEHICLE DIGITAL LIGHTING DEVICE, ITS CONTROL DEVICE, AND CONTROL PROGRAM - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To positively provide a prescribed light distribution pattern with little analog unevenness. <P>SOLUTION: The optimum light distribution pattern P5 to the surroundings of a vehicle is automatically selected, and a road surface can be always illuminated with the selected optimum light distribution pattern P5 to the surroundings of the vehicle, which is preferable in traffic safety. The digital data of the light distribution patterns can be used as it is and the optimum light distribution pattern P5 to the surroundings of the vehicle can be controlled in a digital form, thus positively achieving the optimum light distribution pattern P5 to the surroundings of the vehicle with little analog unevenness. <P>COPYRIGHT: (C)2004,JPO&amp;NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention relates to a vehicle digital illumination device that selects a predetermined light distribution pattern and illuminates a road surface or the like with the selected predetermined light distribution pattern. In particular, the present invention relates to a vehicle digital lighting device that can reliably obtain a predetermined light distribution pattern without analog variation by digitally controlling the predetermined light distribution pattern.
[0002]
  In addition, the present invention automatically selects a predetermined light distribution pattern that is optimal for the surrounding environment of the vehicle, and illuminates the road surface or the like with the selected predetermined light distribution pattern, and a control device therefor And a control program (hereinafter referred to as a vehicle digital lighting system). In particular, the present invention relates to a vehicle digital lighting system that can reliably obtain a predetermined light distribution pattern without analog variation by digitally controlling the predetermined light distribution pattern.
[0003]
  In this specification, “road surface or the like” refers to a road surface, a person (pedestrian or the like) or an object (such as a preceding vehicle, an oncoming vehicle, a road sign or a building) on the road surface.
[0004]
[Prior art]
  A driver selects a predetermined light distribution pattern and automatically illuminates the road surface with the selected predetermined light distribution pattern, and a predetermined light distribution pattern that is optimal for the surrounding environment of the vehicle. 2. Description of the Related Art Conventionally, there has been an illumination device for a vehicle that selects and illuminates a road surface or the like with the selected predetermined light distribution pattern (for example, see Patent Document 1).
[0005]
[Patent Document 1]
          JP-A-9-104288 (paragraph numbers “0007” to “0018”)
[0006]
[Problems to be solved by the invention]
  The present invention relates to the improvement of the above-described conventional technique, and the object is to digitally control the predetermined light distribution pattern so that the predetermined light distribution pattern without analog variation is obtained. An object of the present invention is to provide a vehicular digital lighting device and a vehicular digital lighting system that can be reliably obtained.
[0007]
[Means for Solving the Problems]
  In order to achieve the above object, an invention according to claim 1 is provided such that an optical engine having a light source and a large number of minimal mirror elements are tiltably arranged, and the tilt angles of the numerous minimal mirror elements are arranged. Is digitally switched between the first tilt angle and the second tilt angle, and the reflection direction of light from the optical engine is digitally switched between the first reflection direction that is ON and the second reflection direction that is OFF. A digital light deflecting device, a storage device storing digital data of a plurality of light distribution patterns, a light distribution pattern selecting device for selecting a light distribution pattern for illuminating a road surface and outputting a selection signal, and an input One light distribution pattern among digital data of a plurality of light distribution patterns stored in the storage device based on an external signal such as a selection signal of the light distribution pattern selection device A control device that selects digital data and digitally controls switching of the plurality of minimal mirror elements based on the digital data of the selected light distribution pattern, and the reflection controlled by the control device A light irradiation device that irradiates a road surface with light of a selected light distribution pattern, which is ON reflected light from a digital light deflection deviceThe digital data of the light distribution pattern is binary multi-bit digital data which is created by a computer simulation method in the light distribution design of the vehicle lighting device and obtains a plurality of light intensity gradations. It is digital data to which light intensity gradations respectively corresponding to a large number of minimal mirror elements are given.It is characterized by that.
[0008]
  As a result, the invention according to claim 1 can digitally control the predetermined light distribution pattern using the digital data of the light distribution pattern created digitally as it is, so there is no analog variation. A predetermined light distribution pattern is surely obtained. Particularly, in the invention according to claim 1, since the driver selects the light distribution pattern, the structure of the apparatus is simplified correspondingly, and the manufacturing cost is reduced.In addition, according to the first aspect of the present invention, the digital data of the light distribution pattern obtained in the light distribution design of the vehicle lighting device can be used as it is as the digital data of the light distribution pattern for controlling the reflective digital light deflector. it can . For this reason, the invention according to claim 1 does not require creation of digital data of a light distribution pattern for control, and the manufacturing cost is reduced accordingly. Furthermore, the invention according to claim 1 uses the digital data of the ideal light distribution pattern created by the computer simulation method in the light distribution design of the lighting device of the vehicle as it is, and digitally converts the ideal light distribution pattern as it is. Since it forms and irradiates, the ideal light distribution pattern without an analog variation is obtained reliably.
[0009]
  The invention according to claim 2An optical engine includes a reflector that reflects light from a light source, and a collimator lens that emits reflected light from the reflector as parallel light to a plurality of minimal mirror element sides of a reflective digital light deflector, and an inner surface of the reflector Is provided with a reflection surface that allows the reflected light to enter the collimator lens incident surface with a light distribution with a high altitude at the center and a low luminous intensity at the periphery.It is characterized by that.
[0010]
  As a result, the invention according to claim 2The reflected light from the reflecting surface of the reflector is incident on the incident surface of the collimator lens with a light distribution that has a high luminous intensity (illuminance) at the center and a low luminous intensity (illuminance) at the periphery. For this reason, the invention according to claim 2 matches the light distribution of the illumination for the vehicle, that is, the light distribution in the center where the luminous intensity (illuminance) is high and the ambient luminous intensity (illuminance) is low. Light can be used effectively.
[0011]
  According to a third aspect of the present invention, there is provided a buffer storage device in which the storage device reads and stores digital data of a plurality of light distribution patterns stored in the storage medium in groups by region and country via the reading device. It is characterized by being.
[0012]
  As a result, since the invention according to claim 3 can obtain a digital data group of the light distribution pattern for each region / country where the vehicle travels, the lighting device for the vehicle is designed and manufactured for each region / country. There is no need, and one vehicle digital lighting device can be applied to many regions and countries. In addition, the invention according to claim 3 only needs to read the digital data group of the light distribution pattern for each region / country to be used from the storage medium via the reading device and store it in the buffer storage device. Does not require capacity storage.
[0013]
  According to a fourth aspect of the present invention, the control device inputs an external signal such as a selection signal and outputs it as a processing signal, and stores it in the storage device based on the processing signal of the external signal input device. A data selection device for selecting digital data of one light distribution pattern from among the digital data of a plurality of light distribution patterns, and a plurality of digital data based on the digital data of the light distribution pattern selected by the data selection device And a control signal output device for outputting a control signal for individually controlling switching of the minimal mirror element to the reflection type digital light deflecting device.
[0014]
  As a result, the invention according to claim 4 can reliably control the reflection type digital light deflecting device by the control device. Therefore, the light distribution with the selected predetermined light distribution pattern and no analog variation. The pattern will be obtained more reliably.
[0015]
  According to a fifth aspect of the present invention, an optical engine having a light source and a large number of minimal mirror elements are tiltably arranged, and the tilt angle of the numerous minimal mirror elements is set to a first tilt angle and a first tilt angle. A reflection type digital light deflecting device that digitally switches between two tilt angles and digitally switches the reflection direction of light from the optical engine between a first reflection direction that is ON and a second reflection direction that is OFF; A storage device storing digital data of the light distribution pattern, an ambient environment detection device that detects the ambient environment of the vehicle and outputs it as a detection signal, and an external signal such as a detection signal of the input ambient environment detection device The ambient environment of the vehicle is determined based on the determination, and based on this determination, the digital environment data of the plurality of light distribution patterns stored in the storage device is the most suitable for the ambient environment of the vehicle. Control that selects digital data of a simple light distribution pattern and digitally individually controls switching of the plurality of micro mirror elements based on the digital data of the light distribution pattern optimal for the environment surrounding the selected vehicle A light irradiating device that irradiates the road surface with light of a light distribution pattern that is ON reflected light from the reflective digital light deflecting device controlled by the control device and that is optimal for the surrounding environment of the vehicle, and PreparationThe digital data of the light distribution pattern is binary multi-bit digital data which is created by a computer simulation method in the light distribution design of the vehicle lighting device and obtains a plurality of light intensity gradations. It is digital data to which light intensity gradations respectively corresponding to a large number of minimal mirror elements are given.It is characterized by that.
[0016]
  As a result, the invention according to claim 5 automatically selects the optimal light distribution pattern for the surrounding environment of the vehicle, and constantly illuminates the road surface or the like with the optimal light distribution pattern for the selected surrounding environment of the vehicle. This is preferable for traffic safety. Further, the invention according to claim 5 is the same as the invention according to claim 1, and uses the digital data of the light distribution pattern created digitally as it is, and the predetermined light distribution pattern optimum for the surrounding environment of the vehicle. Therefore, it is possible to reliably obtain a predetermined light distribution pattern that is optimal for the surrounding environment of the vehicle without analog variations.Moreover, the invention according to claim 5 is similar to the invention according to claim 1 in that the digital data of the light distribution pattern obtained in the light distribution design of the lighting device of the vehicle is distributed to control the reflective digital light deflection apparatus. It can be used as it is as digital data of an optical pattern. For this reason, the invention according to claim 5 does not require creation of digital data of a light distribution pattern for control, and the manufacturing cost is reduced accordingly. Furthermore, the invention according to claim 5 uses the digital data of the ideal light distribution pattern created by the computer simulation method in the light distribution design of the lighting device of the vehicle as it is, and digitally converts the ideal light distribution pattern as it is. Since it forms and irradiates, the ideal light distribution pattern without an analog variation is obtained reliably.
[0017]
  The invention according to claim 6 is:An optical engine includes a reflector that reflects light from a light source, and a collimator lens that emits reflected light from the reflector as parallel light to a plurality of minimal mirror element sides of a reflective digital light deflector, and an inner surface of the reflector Is provided with a reflection surface that allows the reflected light to enter the collimator lens incident surface with a light distribution with a high altitude at the center and a low luminous intensity at the periphery.It is characterized by that.
[0018]
  As a result, the invention according to claim 6 is similar to the invention according to claim 2,The reflected light from the reflecting surface of the reflector is incident on the incident surface of the collimator lens with a light distribution that has a high luminous intensity (illuminance) at the center and a low luminous intensity (illuminance) at the periphery. For this reason, the invention according to claim 6 matches the light distribution of the illumination for the vehicle, that is, the light distribution in the center where the light intensity (illuminance) is high and the ambient light intensity (illuminance) is low. Light can be used effectively.
[0019]
  Further, the invention according to claim 7 is a buffer storage in which the storage device reads and stores the digital data of the plurality of light distribution patterns stored in the storage medium on a group basis for each region / country via the reading device. It is a device.
[0020]
  As a result, since the invention according to claim 7 can obtain the digital data group of the light distribution pattern for each region / country where the vehicle travels, similarly to the invention according to claim 3, the lighting device for the vehicle Therefore, it is not necessary to design and manufacture the vehicle for each region / country, and one digital lighting device for a vehicle can be applied to many regions / countries. Further, in the invention according to claim 7, similarly to the invention according to claim 3, the digital data group of the light distribution pattern for each region / country to be used is read from the storage medium via the reading device and buffered. Since it only needs to be stored in the storage device, a large-capacity storage device is not required.
[0021]
  In the invention according to claim 8, the ambient environment detection device detects a steering angle and / or steering speed of the steering wheel and outputs a steering signal, a raindrop sensor that detects rain and outputs a rain signal, a vehicle An illuminance sensor that detects the ambient light and outputs an illuminance signal, a turn sensor that detects the turn signal switch ON signal and outputs a turn signal, a vehicle speed sensor that detects the vehicle speed and outputs a vehicle speed signal, a wiper switch A wiper sensor that detects the ON signal and outputs a wiper signal, an imaging device that captures information around the vehicle and outputs an image signal, and detects a reflected wave from an object around the vehicle and outputs a radar signal Radar that detects the ambient humidity of the vehicle and outputs a humidity signal, temperature sensor that detects the ambient temperature of the vehicle and outputs a temperature signal Sir, a light sensor that detects the light switch ON signal and outputs a light signal, a posture sensor that detects the posture of the vehicle body and outputs a posture signal, a GPS that outputs a position information signal, etc. It comprises at least one of ETCs that output signals.
[0022]
  As a result, according to the eighth aspect of the invention, the ambient environment of the vehicle can be reliably detected by the ambient environment detection device, so that a light distribution pattern suitable for the ambient environment of the vehicle can be obtained more reliably.
[0023]
  The invention according to claim 9 is based on an external signal input device in which an external signal such as a detection signal of an ambient environment detection device is input as a processing signal and a processing signal of the external signal input device. An ambient environment determination device that determines the ambient environment of the vehicle and outputs it as a determination signal, and the vehicle from a plurality of light distribution pattern digital data stored in the storage device based on the determination signal of the ambient environment determination device A data selection device for selecting digital data of a light distribution pattern optimal for the ambient environment of the vehicle, and a plurality of micro mirror elements based on the digital data of the light distribution pattern optimal for the ambient environment of the vehicle selected by the data selection device A control signal output device for outputting a control signal for digitally controlling the switching of each of them to the reflection type digital light deflecting device. And butterflies.
[0024]
  As a result, the invention according to claim 9 is optimal for the surrounding environment of the selected vehicle because the reflective digital light deflecting device can be reliably controlled by the control device as in the invention according to claim 4. Thus, it is possible to more reliably obtain a predetermined light distribution pattern that has no analog variation.
[0025]
  In the invention according to claim 10, the surrounding environment determination device determines whether there is an oncoming vehicle or a preceding vehicle from an image signal output by imaging information around the vehicle of the imaging device, and determines whether there is an oncoming vehicle or a preceding vehicle. An oncoming / preceding vehicle judgment unit that outputs a presence signal or an oncoming / no preceding vehicle signal, an image signal output by imaging information around the vehicle of the imaging device, and a vehicle speed sensor that detects the vehicle speed and outputs it A highway that outputs a highway signal or a general road signal by judging a highway / general road from at least one of a vehicle speed signal, a position information signal output from a GPS, etc., and a communication signal output from an ETC General road determination unit, image signal output by imaging information around the vehicle of the imaging device, illuminance signal output by detecting the ambient brightness of the vehicle of the illuminance sensor, GPS of the ambient environment detection device An urban area determination unit and an imaging apparatus that determine whether or not an urban area from at least one of the positional information signals output from the signal and output a signal that is an urban area or a signal that is not an urban area (for example, a signal that is a suburb) At least one of an image signal output by imaging information around the vehicle, a turn signal output by detecting an ON signal of a turn signal switch of a turn sensor, and a position information signal output from a GPS or the like An intersection determination unit that determines whether the vehicle is an intersection from a signal and outputs a signal that is an intersection or a signal that is not an intersection; a steering signal and a vehicle speed sensor that are output by detecting the steering angle and / or steering speed of the steering sensor steering wheel At least one of a vehicle speed signal output by detecting the vehicle speed and a position information signal output from a GPS or the like A straight line / curve judgment unit that judges straight line / curve of road alignment and outputs a straight line signal / curve signal from the No. signal, detects rain signal of rain of raindrop sensor, and detects ON signal of wiper switch of wiper sensor A rain determination unit that determines whether or not it is rain from the output wiper signal, and outputs a signal that is rain or a signal that is not rain, and an image signal that is output by imaging information around the vehicle of the imaging device The radar signal output by detecting the reflected wave from the object around the radar vehicle, the humidity signal output by detecting the humidity around the vehicle of the humidity sensor and the temperature of the vehicle around the temperature sensor A fog determination unit that determines whether or not a mist is detected from at least one of the detected and output temperature signals, and outputs a signal that is a mist or a signal that is not mist, and a vehicle of an imaging device An image signal output by imaging the surrounding information, a wiper signal output by detecting the wiper switch ON signal of the wiper sensor, and a temperature signal output by detecting the temperature of the vehicle around the temperature sensor, A snow judgment unit that judges whether or not it is snow from at least one signal and outputs a signal that is snow or a signal that is not snow; An attitude determination unit that determines an attitude change and outputs an attitude change signal corresponding to the amount of change in the attitude of the vehicle body, a vehicle speed signal output by detecting the vehicle speed of the vehicle speed sensor, and a position information signal output from a GPS or the like Alternatively, it is determined whether or not the signal is waiting from the image signal output by imaging information around the vehicle of the imaging device, and a signal waiting signal or a signal not waiting signal is output. Signal waiting determination unit that is configured from at least one of, characterized in that.
[0026]
  As a result, the invention according to claim 10 can reliably determine the surrounding environment of the vehicle by the surrounding environment determining device, and thus can more reliably obtain a light distribution pattern suitable for the surrounding environment of the vehicle.
[0027]
  According to an eleventh aspect of the present invention, the data selection device includes an oncoming / preceding vehicle determination unit, an expressway / general road determination unit, an urban area determination unit, an intersection determination unit, a straight line / curve determination unit, a rain determination unit, a fog Based on a determination signal from at least one of the determination unit and the snow determination unit, a light distribution pattern that is optimal for the surrounding environment of the vehicle from among a plurality of light distribution pattern digital data stored in the storage device Based on a main data selection unit for selecting the digital data and a determination signal from the signal wait determination unit or the posture determination unit from among the digital data of a plurality of light distribution patterns stored in the storage device. And an interrupt data selection section for interrupting and selecting digital data of a light distribution pattern optimal for the attitude of the main data selection section.
[0028]
  As a result, in the invention according to claim 11, the main data selection unit can select the digital data of the light distribution pattern optimum for the surrounding environment of the vehicle from the main data among the digital data of the light distribution pattern. Therefore, digital data of a light distribution pattern that is optimal for the surrounding environment of the vehicle can be selected more reliably and quickly. According to the eleventh aspect of the present invention, an interrupt control routine can be configured by the interrupt data selection unit with respect to the main control routine by the main data selection unit. For this reason, the invention according to claim 11 can select the digital data of the light distribution pattern optimal for the surrounding environment of the vehicle more finely, and can control the data selection accurately and quickly. .
[0029]
  According to a twelfth aspect of the present invention, an optical engine having a light source and a large number of minimal mirror elements are disposed so as to be tiltable, and the tilt angles of the numerous minimal mirror elements are defined as a first tilt angle and a first tilt angle. A reflection type digital light deflecting device that digitally switches between two tilt angles and digitally switches the reflection direction of light from the optical engine between a first reflection direction that is ON and a second reflection direction that is OFF; A storage device that stores digital data of the light distribution pattern, an ambient environment detection device that detects the ambient environment of the vehicle and outputs it as a detection signal, and ON reflected light from the reflective digital light deflection device. The light distribution device that irradiates the road surface with light having a light distribution pattern that is optimal for the surrounding environment of the vehicle, and the light distribution pattern that is optimal for the surrounding environment of the vehicle. An external signal input device that inputs an external signal such as a detection signal of the ambient environment detection device and outputs it as a processing signal, and a process of the external signal input device An ambient environment determination device that determines the ambient environment of the vehicle based on the signal and outputs it as a determination signal, and digital data of a plurality of light distribution patterns stored in the storage device based on the determination signal of the ambient environment determination device A data selection device that selects digital data of a light distribution pattern that is optimal for the surrounding environment of the vehicle from among the above, and a large number based on the digital data of the light distribution pattern that is optimal for the ambient environment of the vehicle selected by the data selection device A control signal output for outputting a control signal for individually controlling switching of the individual minimal mirror elements to the reflection type digital light deflector Yes and location, theThe digital data of the light distribution pattern is binary multi-bit digital data which is created by a computer simulation method in the light distribution design of the lighting device of the vehicle and obtains a plurality of light intensity gradations. Digital data to which light intensity gradations corresponding to each of a plurality of minimal mirror elements are provided,It is characterized by that.
[0030]
  As a result, the invention according to the twelfth aspect is the same as the inventions according to the fourth and ninth aspects, and the reflective digital light deflecting device can be reliably controlled by the control device in the vehicle digital lighting device. Thus, a predetermined light distribution pattern that is optimal for the surrounding environment of the vehicle and that has no analog variation can be obtained more reliably.Moreover, the invention according to claim 12 controls the reflection type digital light deflecting device with the digital data of the light distribution pattern obtained in the light distribution design of the lighting device of the vehicle, as in the inventions according to the first and fifth aspects. The light distribution pattern can be used as it is as digital data. For this reason, the invention according to claim 12 does not require creation of digital data of a light distribution pattern for control, and the manufacturing cost is reduced accordingly. Furthermore, the invention according to claim 12 uses the digital data of the ideal light distribution pattern created by the computer simulation method in the light distribution design of the vehicle lighting device as it is, and digitally converts the ideal light distribution pattern as it is. Since it forms and irradiates, the ideal light distribution pattern without an analog variation is obtained reliably.
[0031]
  Claims13In the invention according to the present invention, the surrounding environment determination device determines whether there is an oncoming vehicle / preceding vehicle from an image signal output by imaging information around the vehicle of the imaging device, and an oncoming vehicle / preceding vehicle presence signal or oncoming vehicle・ An oncoming vehicle / preceding vehicle judgment unit that outputs a no-preceding vehicle signal, an image signal output by imaging information around the vehicle of the imaging device, a vehicle speed signal output by detecting the vehicle speed of the vehicle speed sensor, GPS, etc. A highway / general road judgment unit for judging a highway / general road from at least one of the positional information signal outputted from the ETC and the communication signal outputted from the ETC, An image signal output by imaging information around the vehicle of the imaging device, an illuminance signal output by detecting the ambient brightness of the vehicle of the illuminance sensor, and output from the GPS of the ambient environment detection device An urban area determination unit that determines whether the area is an urban area from at least one of the position information signals, and outputs a signal that is an urban area or a signal that is not an urban area; It is determined whether or not it is an intersection from at least one of the image signal, the turn signal output by detecting the ON signal of the turn signal switch of the turn sensor, and the position information signal output from GPS or the like. An intersection determination unit that outputs a signal that is an intersection or a signal that is not an intersection, a steering signal that is output by detecting the steering angle and / or steering speed of the steering sensor steering wheel, and a vehicle speed signal that is output by detecting the vehicle speed of the vehicle speed sensor, Straight line by judging road alignment straight line / curve from at least one of position information signals output from GPS etc. Whether it is rain from the rain signal output by detecting the rain from the raindrop sensor and the wiper switch ON signal by detecting the wiper switch ON signal by detecting the rain of the raindrop sensor A rain judgment unit that outputs a signal that is rain or a signal that is not rain, an image signal that is output by imaging information around the vehicle of the imaging device, and a reflected wave from an object around the radar vehicle At least one of the radar signal output by detecting the humidity, the humidity signal output by detecting the humidity around the vehicle of the humidity sensor, and the temperature signal output by detecting the temperature around the vehicle of the temperature sensor A fog determination unit that determines whether the signal is fog from one signal and outputs a signal that is fog or a signal that is not fog; an image signal that is output by imaging information around the vehicle of the imaging device; Whether at least one of the wiper signal output by detecting the ON signal of the wiper switch of the iper sensor and the temperature signal output by detecting the temperature around the vehicle of the temperature sensor is snow or not. A snow judgment unit that outputs a signal indicating whether it is snow or a signal that is not snow, detects a posture of the vehicle body of the posture sensor, determines a change in the posture of the vehicle body from the output posture signal, and determines the amount of change in the posture of the vehicle body A posture determination unit that outputs a corresponding posture change signal, a vehicle speed signal output by detecting the vehicle speed of the vehicle speed sensor, a position information signal output from GPS or the like, and information on the surroundings of the vehicle of the imaging device From at least one of the signal waiting judgment units for judging whether or not waiting for a signal from the output image signal and outputting a signal waiting for a signal or a signal not waiting for a signal It is made, characterized in that.
[0032]
  As a result, the claims13In the invention according to the sixth aspect, as in the invention according to the tenth aspect, the ambient environment determination device can reliably determine the ambient environment of the vehicle, so that a light distribution pattern suitable for the ambient environment of the vehicle can be obtained more reliably. be able to.
[0033]
  Claims14According to the invention, the data selection device includes an oncoming vehicle / preceding vehicle determination unit, an expressway / general road determination unit, an urban area determination unit, an intersection determination unit, a straight line / curve determination unit, a rain determination unit, a fog determination unit, and a snow determination. Based on the determination signal from at least one determination unit, the digital data of the light distribution pattern most suitable for the surrounding environment of the vehicle is selected from the digital data of the plurality of light distribution patterns stored in the storage device Based on the determination signal from the main data selection unit and the signal waiting determination unit or the posture determination unit, the digital data of a plurality of light distribution patterns stored in the storage device is optimal for the signal waiting or the vehicle body posture. An interrupt data selection unit that interrupts and selects digital data of a light distribution pattern by interrupting selection of the main data selection unit.
[0034]
  As a result, the claims14As in the invention according to claim 11, in the invention according to claim 11, the digital data of the light distribution pattern optimum for the surrounding environment of the vehicle among the digital data of the light distribution pattern by the main data selection unit. Therefore, the digital data of the light distribution pattern optimal for the surrounding environment of the vehicle can be selected more reliably and quickly. Claims14According to the invention, an interrupt control routine can be configured by the interrupt data selection unit with respect to the main control routine by the main data selection unit. For this purpose, the claims14According to this invention, digital data having a light distribution pattern optimal for the surrounding environment of the vehicle can be selected more finely, and data selection can be controlled accurately and quickly.
[0035]
  Claims15According to the invention, an optical engine having a light source and a large number of minimal mirror elements are arranged to be tiltable, and the tilt angles of the numerous minimal mirror elements are set to a first tilt angle and a second tilt angle. A reflective digital light deflector that digitally switches and digitally switches the direction of reflection of light from the optical engine between a first reflective direction that is ON and a second reflective direction that is OFF; and the reflective digital light deflector A light irradiation device that irradiates the road surface with light having a light distribution pattern that is ON reflected light from the device and that is optimal for the surrounding environment of the vehicle, and an ambient environment detection device that detects the surrounding environment of the vehicle and outputs it as a detection signal And digital data of multiple light distribution patternsA binary multi-bit digital data which is created by a computer simulation method in a light distribution design of a lighting device of a vehicle and obtains a plurality of light intensity gradations. Digital data with brightness gradations corresponding to each mirror elementIs a control program for illuminating a road surface or the like with a light distribution pattern that is optimal for the surrounding environment of the vehicle by the vehicle digital lighting device having In order to illuminate a road surface or the like with a light distribution pattern, an external signal input device inputs an external signal such as a detection signal of the ambient environment detection device and outputs it as a processing signal to a computer, and an ambient environment determination device Determining the ambient environment of the vehicle based on the processing signal of the external signal input device and outputting the determination signal as a determination signal; and a data selection device stored in the storage device based on the determination signal of the ambient environment determination means Selecting the most suitable light distribution pattern digital data from the multiple light distribution pattern digital data and the control signal output A control signal for digitally controlling the switching of the plurality of micro mirror elements individually based on the digital data of the light distribution pattern optimum for the surrounding environment of the vehicle selected by the data selection device. And outputting to the digital light deflection apparatus.
[0036]
  As a result, the claims15As in the inventions according to the fourth, ninth, and twelfth aspects, the reflective digital light deflecting device can be reliably controlled by the control device in the vehicle digital lighting device. A light distribution pattern that is optimal for the surrounding environment and has no analog variation can be obtained more reliably.In addition, the invention according to claim 15 is similar to the inventions according to claims 1, 5, and 12, wherein the digital data of the light distribution pattern obtained in the light distribution design of the lighting device of the vehicle is converted into the reflective digital light deflection apparatus. It can be used as it is as digital data of a light distribution pattern for controlling. For this reason, the invention according to claim 15 does not require creation of digital data of a light distribution pattern for control, and the manufacturing cost is reduced accordingly. Furthermore, the invention according to claim 15 uses the digital data of the ideal light distribution pattern created by the computer simulation technique in the light distribution design of the vehicle lighting device as it is, and digitally converts the ideal light distribution pattern as it is. Since it forms and irradiates, the ideal light distribution pattern without an analog variation is obtained reliably.
[0037]
  Claim16According to the invention, the step executed by the surrounding environment determination device determines whether or not there is an oncoming vehicle or a preceding vehicle from an image signal output by the oncoming vehicle / preceding vehicle determination unit imaging information around the vehicle of the imaging device. Step of outputting an oncoming vehicle / preceding vehicle presence signal or an oncoming vehicle / preceding vehicle no signal, an image signal output by the highway / general road judging unit imaging information around the vehicle of the imaging device, a vehicle speed sensor A highway signal or a general road by judging at least one of a vehicle speed signal output by detecting the vehicle speed, a position information signal output from GPS, etc., a communication signal output from ETC, or The step of outputting a general road signal, the image signal output by the urban area determination unit imaging information around the vehicle of the imaging device, and the illuminance output by detecting the brightness of the vehicle surroundings of the illuminance sensor Determining whether or not it is an urban area from at least one of the position information signals output from the GPS of the surrounding environment detection device, etc., and outputting a signal that is an urban area or a signal that is not an urban area, intersection determination An image signal output by imaging the surroundings of the vehicle of the imaging device, a turn signal output by detecting an ON signal of a turn signal switch of the turn sensor, a position information signal output from a GPS, etc. A step of determining whether or not the vehicle is an intersection from at least one of the signals and outputting a signal of an intersection or a signal that is not an intersection; a straight line / curve determination unit detects a steering angle and / or a steering speed of a steering sensor; The output steering signal and the vehicle speed signal output by detecting the vehicle speed of the vehicle speed sensor, the position output from GPS, etc. A step of determining a road linear line / curve from at least one of the information signals and outputting a linear signal or a curve signal; a rain signal and a wiper sensor output by the rain determining unit detecting rain of the raindrop sensor; Detecting a wiper switch ON signal and determining whether or not it is rain from the output wiper signal and outputting a rain signal or a non-rain signal, and a fog determination unit around the vehicle of the imaging device Image signal output by imaging information, radar signal output by detecting reflected waves from objects around radar vehicle, humidity signal output by detecting humidity around vehicle of humidity sensor And a temperature signal output by detecting the temperature around the vehicle of the temperature sensor, and determining whether or not it is fog from at least one signal or fog signal or fog A step of outputting a signal that is not, an image signal output by the snow judging unit imaging information around the vehicle of the imaging device, a wiper signal that is output by detecting an ON signal of a wiper switch of the wiper sensor, and a temperature sensor A step of determining whether or not it is snow from at least one of the temperature signals output by detecting the temperature around the vehicle, and outputting a signal that is snow or a signal that is not snow; A step of determining a change in the posture of the vehicle body from the posture signal output by detecting the posture of the vehicle body of the sensor and outputting a posture change signal corresponding to the amount of change in the posture of the vehicle body, the signal waiting determination unit is a vehicle speed of the vehicle speed sensor A vehicle speed signal output by detecting the vehicle, a position information signal output from GPS, etc., and an image signal output by imaging information around the vehicle of the imaging device. Step of outputting a signal not signal or signal wait is waiting for a signal to determine whether the signal waiting, comprising at least one step among, characterized in that.
[0038]
  As a result, the claims16The invention according to claim 10,13As in the invention according to the invention, the ambient environment determination device can reliably determine the ambient environment of the vehicle, so that a light distribution pattern suitable for the ambient environment of the vehicle can be obtained more reliably.
[0039]
  Claims17According to the invention, the steps executed by the data selection device are as follows: the main data selection unit is an oncoming / preceding vehicle determination unit, an expressway / general road determination unit, an urban area determination unit, an intersection determination unit, a straight line / curve determination unit, a rain Based on a determination signal from at least one of the determination unit, the fog determination unit, and the snow determination unit, the digital data of a plurality of light distribution patterns stored in the storage device is optimal for the surrounding environment of the vehicle A main data selection step for selecting digital data of a proper light distribution pattern, and an interrupt data selection unit of a plurality of light distribution patterns stored in the storage device based on a determination signal from a signal waiting determination unit or an attitude determination unit. Interrupt the main data selection step of the main data selection unit and interrupt the digital data of the optimal light distribution pattern for the signal waiting or body posture from the digital data And having the interrupt data selection step of-option, a.
[0040]
  As a result, the claims17The invention according to claim 11,14Similarly to the invention according to the present invention, the main data selection unit can select the digital data of the light distribution pattern most suitable for the surrounding environment of the vehicle from the main data among the digital data of the light distribution pattern. The digital data of the light distribution pattern optimal for the surrounding environment can be selected more reliably and quickly. Claims17According to the invention, an interrupt control routine can be configured by the interrupt data selection unit with respect to the main control routine by the main data selection unit. For this purpose, the claims17According to this invention, digital data having a light distribution pattern optimal for the surrounding environment of the vehicle can be selected more finely, and data selection can be controlled accurately and quickly.
[0041]
DETAILED DESCRIPTION OF THE INVENTION
  Hereinafter, two examples of embodiments of a digital lighting system for a vehicle according to the present invention and two examples of embodiments of a digital lighting system for a vehicle according to the present invention will be described with reference to the accompanying drawings. Note that the present invention is not limited to the embodiments.
[0042]
  In the figure, the symbol “U” indicates the upper side as viewed from the driver side. The symbol “D” indicates the lower side as viewed from the driver side. The symbol “L” indicates the left side when the front is viewed from the driver side. The symbol “R” indicates the right side when looking forward from the driver side. The sign “HL-HR” is horizontal on the screen.LineShow. The symbol “VU-VD” similarly indicates vertical lines on the screen.
[0043]
(Description of Configuration of First Embodiment of Digital Lighting System for Vehicle)
"Description of overall configuration"
  FIGS. 1-14 shows Embodiment 1 of the digital lighting system for vehicles concerning this invention. This vehicle digital lighting system illuminates a road surface or the like with a light distribution pattern P5 optimum for the surrounding environment of the vehicle, and in this example, is a headlamp for an automobile.
[0044]
  As shown in FIG. 1, the vehicle digital lighting system includes an optical engine 1, a reflective digital light deflection device 2, a light irradiation device 3, a storage device 4, an ambient environment detection device 5, and a control device 6. Are provided.
[0045]
"Explanation of optical engine"
  As shown in FIG. 2, the optical engine 1 includes a discharge lamp 10 (output is, for example, 35 W) as a light source, a reflector 11 that reflects light L1 from the discharge lamp 10, and reflected light L2 from the reflector 11. And a collimator lens (parallelizing lens) 12 that emits the light as parallel light L3.
[0046]
  On the inner surface of the reflector 11, an aluminum vapor deposition, silver coating or the like is applied and a reflecting surface 13 is provided. The reflecting surface 13 is a reflecting surface formed from a NURBS free-form surface (see Japanese Patent Laid-Open No. 2001-35215), and the reflected light L2 is applied to the incident surface 14 of the collimator lens 12 as shown in FIG. ) And (C). The light distribution shown in FIGS. 2B and 2C has a light distribution with a high light intensity (illuminance) at the center and a low light intensity (illuminance) in the center. Since the distribution, that is, the luminous intensity distribution at the center is high and the luminous intensity distribution at the surroundings is low, the light L1 from the discharge lamp 10 can be used effectively.
[0047]
"Description of the reflective digital light deflector"
  The reflective digital light deflecting device 2 (see Japanese Patent Laid-Open Nos. 8-201708 and 11-231234) is a minimum mirror element group digital drive device, a reflective optical modulation element, or a spatial light modulation. Or an optical information processing element or an optical switch.
[0048]
  As shown in FIGS. 3 to 8, the reflective digital light deflecting device 2 includes a CMOS substrate (SRAM memory semiconductor) 20, a conductor 21 disposed on the CMOS substrate 20, and a torsion hinge on the conductor 21. A yoke 23 is disposed so as to be tiltable via 22, and a minimal mirror element 25 supported by the yoke 23 via a post 24. That is, the reflection type digital light deflecting device 2 is a device in which a mechanical function, an optical function, and an electrical function are integrated on one semiconductor chip. The CMOS substrate 20 is a driving unit and has an address.forIt consists of a transistor. The yoke 23 is a movable part and has a landing tip (spring tip, bouncing tip) 27.
[0049]
  The reflection type digital light deflecting device 2 is configured such that a large number of the minimal mirror elements 25 are tiltable. The number of the plurality of micro mirror elements 25 is, for example, 720 × 480 = 345600, 800 × 600 = 4800000, 1024 × 768 = 786432, 1280 × 1024 = 1310720, or Any number.
[0050]
  The reflection-type digital light deflecting device 2 digitally switches the tilt angle of the plurality of minimal mirror elements 25 between a first tilt angle and a second tilt angle, and is parallel to the collimator lens 12 of the optical engine 1. The reflection direction of the light L3 is digitally switched between an ON first reflection direction and an OFF second reflection direction. The reflection type digital light deflecting device 2 is a device that performs a so-called high-speed switching operation of light. Hereinafter, the posture state of the minimal mirror element 25 will be described in detail with reference to FIG.
[0051]
  That is, at the time of no energization, the minimal mirror element 25 is in a horizontal state (neutral state) called a flat state indicated by a dotted line. When energized, the minimal mirror element 25 is changed from a horizontal state to a state indicated by a solid line (ON state) or a state indicated by an alternate long and short dash line by electrostatic attraction according to the output to the address memory of the CMOS substrate 20. Each of them is tilted to (OFF state).
[0052]
  The ON state indicated by the solid line of the minimal mirror element 25 is:For horizontal stateIn a state of tilting to the first tilt angle + θ (for example, + 10 ° or + 12 °, etc.)TheIn this ON state, the light L3 from the optical engine 1 is reflected in the ON first reflection direction indicated by the solid line arrow. The reflected light L4 indicated by the solid line arrow is reflected toward the light irradiation device 3 at an angle 2θ with respect to the incident light L3 to illuminate the road surface and the like.
[0053]
  The OFF state indicated by the alternate long and short dash line of the minimal mirror element 25 is:For horizontal stateIt is in a state tilted to the second tilt angle −θ (for example, −10 ° or −12 °, etc.)TheIn the OFF state, the light L3 from the optical engine 1 is reflected in the OFF second reflection direction indicated by the one-dot chain line arrow. The reflected light L5 indicated by the one-dot chain line arrow is reflected to the optical absorber 26 side at an angle 6θ with respect to the incident light L3, and is invalidated.
[0054]
  Further, the minimal mirror element 25 in the horizontal state reflects the parallel light L3 from the optical engine 1 in the third reflection direction indicated by the dotted arrow. The reflected light L6 indicated by the dotted arrow is reflected at an angle 4θ with respect to the incident light L3.
[0055]
  The reflection-type digital light deflecting device 2 is configured to control each of the plurality of minimum mirror elements 25 one by one according to a control signal output from the control device 6, for example, all white, all black, and intermediate multiple gradations (for example, In the case of 8 bits, it is possible to finely control gray of 256-2 = 254 gradation). Hereinafter, ON / OFF control of a large number of micromirror elements 25 will be described in detail with reference to FIG.
[0056]
  That is, as shown in FIG. 7A, each of the plurality of minimum mirror elements 25 is a pixel, and the position of the pixel (minimum mirror element 25) in the x direction among the plurality of minimum mirror elements 25 is determined. , 0, 1, 2, 3, 4... M, and the position of the pixel (minimal mirror element 25) in the y direction is 0, 1, 2,.(M + 1) × (n + 1)720 × 480 = 345600, 800 × 600 = 4800000, 1024 × 768 = 786432, or 1280 × 1024 = 1310720, or any number of micro mirror elements 25 The total number. When the control signal output from the control device 6 is “1”, the minimal mirror element 25 is turned on. When the control signal output from the control device 6 is “0”, the minimal mirror element 25 is turned on. Is in an OFF state.
[0057]
  Said(M + 1) × (n + 1)The small mirror elements 25 are changed to (0,0) → (1,0) → (2,0) → (3,0) →... → (m, 0) → (0,1) → (1,1 ) → (2,1) → (3,1) → ... → (m, 1) → (0,2) → (1,2) → (2,2) → (3,2) → ... → (m , 2) →... → (m, n), while controlling one by one by the control signal “1” or “0” output from the control device 6.
[0058]
  The control signal “1” or “0” output from the control device 6 is binary bit data. For example, as shown in FIG. 7B, in the case of 4 bits, 2^FourSince 2 × 2 × 2 × 2 = 16, it is possible to finely control the light to be all white, all black, or intermediate 16-2 = 14 gray levels. That is, in 4 bits (T1, T2, T3, T4), as shown in FIG. 8, (1, 1, 1, 1) 100% luminous whiteness and (0, 0, 0, 0) Of all black with a luminous intensity of 0%, (1, 0, 0, 0), (0, 1, 0, 0), (0, 0, 1, 0), (0, 0, 0, 1), ( 1, 1, 0, 0), (1, 0, 1, 0), (1, 0, 0, 1), (0, 1, 1, 0), (0, 1, 0, 1), ( 14 of 0, 0, 1, 1), (1, 1, 1, 0), (1, 0, 1, 1), (1, 1, 0, 1), (1, 1, 1, 0) It is possible to finely control gradation gray.
[0059]
  In the case of 8 bits, 2⁸= 2 × 2 × 2 × 2 × 2 × 2 × 2 × 2 = 256, so that it is possible to finely control the light to be all white, all black, or intermediate 256-2 = 254 gray levels. .
[0060]
  As described above, the reflection-type digital light deflecting device 2 makes the reflected light from the minimal mirror element 25 white for a certain period of time by using the pulse width modulation method according to the gradation within a certain period of time. The remaining time is black. Then, human vision perceives as a gradation (for example, a gray scale of 0 to 255 in the case of 8 bits) by integrating the white time. For this reason, the reflection type digital light deflecting device 2 controls the ON time per unit time, thereby realizing light shade (light intensity difference, illuminance difference) of the light distribution pattern.
[0061]
"Explanation of light irradiation device"
  The light irradiation device 3 includes:As shown in FIG.A diverging lens 30 for diverging ON light L4 from the reflective digital light deflector 2, and a condensing lens (projection lens) 31 for irradiating a road surface or the like with emitted light L7 from the diverging lens 30 as irradiation light L8; It is composed of
[0062]
"Description of storage devices"
  The storage device 4 is, for example, an internal storage device (magnetic disk such as a hard disk or semiconductor storage means such as RAM or ROM) built in a computer, or an external storage device (CD-) external to the computer. An optical storage medium such as a ROM, or a semiconductor storage medium such as a storage card). The storage device 4 stores digital data of a plurality of light distribution patterns.
[0063]
  The digital data of the plurality of light distribution patterns stored in the storage device 4 is grouped in units of groups for each region / country in which the vehicle travels. This makes it possible to obtain the optimal light distribution pattern for the road conditions in the region / country where the vehicle travels, without changing the entire lighting system for the vehicle, simply by changing the digital data of the light distribution pattern for each region / country. It will be. This eliminates the need for optical design and manufacture of a vehicle lighting device for each region / country, thereby reducing the manufacturing cost.
[0064]
  Here, the optimal light distribution pattern for the road conditions in the region / country where the vehicle is traveling is, for example, that there are many narrow intersections and curved roads on the left-hand side of Japan. In the US, the road conditions in the United States are right-handed and there are many vast straight roads. As the light distribution pattern, for example, a light distribution pattern for passing, a light distribution pattern for traveling, a light distribution pattern for general roads, a light distribution pattern for highways, a light distribution pattern for urban areas, a light distribution pattern for suburbs, and for straight lines Light distribution pattern, curve light distribution pattern, intersection light distribution pattern, mountain road light distribution pattern, winding road light distribution pattern, rain light distribution pattern, fog light distribution pattern, snow light distribution pattern, etc. .
[0065]
  The digital data of the light distribution pattern is digital data obtained by combining the various light distribution patterns. For example, as shown in FIG. 9 and FIG. 10, “1. General road / straight line / light distribution data”, “2. General road / straight line / passing light distribution data”, “3. Urban area / straight line / passing light distribution data” Light distribution data ”,“ 4. Highway / straight line / passing light distribution data ”,“ 5. Highway / curve / passing light distribution data ”,“ 6. Highway / straight line / light distribution data ” "7. Highway / curve / running light distribution data", "8. General road / curve / running light distribution data", "9. General road / curve / passing light distribution data", "10. General Road / intersection light distribution data ”,“ 11. Urban area / straight line / light distribution data ”,“ 12. Urban area / curve / passing light distribution data ”,“ 13. Urban area / curve / light distribution data ” , “14. City / intersection light distribution data”, etc. .
[0066]
“Description of digital data of light distribution pattern”
  Hereinafter, the light distribution data shown in FIGS. 9 and 10, that is, the digital data of the light distribution pattern will be described. The digital data of the light distribution pattern is binary multi-bit digital data that is created by a computer simulation method in the light distribution design of the lighting device of the vehicle and obtains a plurality of light intensity gradations. In FIG. 9, the luminous intensity (illuminance) at the center of the lattice pattern of the light distribution pattern is higher than the luminous intensity (illuminance) of the white peripheral part. That is, each light distribution pattern is a light distribution pattern that satisfies each standard.
[0067]
  Lighting devices for vehicles, for example, headlamps, fog lamps, vent lamps(Bending lamp)For road safety, curve lamps, side lamps, etc., it is necessary and important to illuminate the road surface and the like with a predetermined light distribution pattern defined by laws and regulations. For this reason, in the lighting device for vehicles, light distribution design is performed by a simulation method using a computer so that a predetermined light distribution pattern is reliably obtained for each lamp and for each function. .
[0068]
  The light distribution design is performed based on an ideal light distribution pattern that satisfies a predetermined light distribution pattern. This ideal light distribution pattern was created digitally by a computer using a pattern irradiated on a screen 10m ahead from the vehicle lighting device so that it matches the light distribution pattern that actually illuminates the road surface, etc. It is. The ideal light distribution pattern digitally created by this computer is an image that can be seen by the human eye due to the color distribution of the illuminance change. For example, the ideal light distribution pattern is digitally represented on an 8-bit 256 gradation scale. .
[0069]
  Here, as shown in FIG. 2, the size of the screen is 51.2 degrees on both the left and right sides with respect to the vertical vertical line VU-VD, and on each of the upper and lower sides with respect to the left and right horizontal line HL-HR. The angle is 38.4 °. On the other hand, when 0.1 ° × 0.1 ° of the screen is one pixel, the screen has 1024 × 768 = 786432 pixels. The number of the minimum mirror elements 25 of the reflection type digital light deflecting device 2 is 1024 × 768 = 786432. As a result, one of the minimum mirror elements 25 of the reflection type digital light deflecting device 2 corresponds to one pixel of the screen.
[0070]
  As a result, by controlling 1024 × 768 = 786432 minimum mirror elements one by one, it is possible to finely control 786432 pixels of the light distribution pattern one by one. Further, the reflection type digital light deflecting device 2 includes 786432 minimum mirror elements one by one, all white, all black, and many gradations of light (for example, in the case of 8 bits,254(Gradation) ash and fine control.
[0071]
  As described above, the vehicle digital lighting system according to the first embodiment is based on the digital data of the ideal light distribution pattern, that is, based on the digital data of 256 gradations of 786432 pixels, the reflective digital light deflection. By controlling the 786432 minimum mirror elements of the device 2 by 256 gradations one by one, an ideal light distribution pattern can be digitally formed and irradiated to illuminate the road surface and the like. That is, the vehicle digital lighting system apparatus according to the present invention uses the digital data of the ideal light distribution pattern as it is, forms and irradiates the ideal light distribution pattern as it is, and illuminates the road surface and the like. To do.
[0072]
"Explanation of ambient environment detector"
  The ambient environment detection device 5 detects the ambient environment of the vehicle and outputs it as a detection signal. As shown in FIG. 11, the ambient environment detection device 5 detects a steering angle and / or steering speed of a steering wheel and outputs a steering signal, a rain sensor that detects rain and outputs a rain signal, An illuminance sensor that detects the brightness around the vehicle and outputs an illuminance signal, and a turn signal switch(Blinker switch)A turn sensor that detects an ON signal and outputs a turn signal, a vehicle speed sensor that detects a vehicle speed and outputs a vehicle speed signal, a wiper sensor that detects a wiper switch ON signal and outputs a wiper signal, An imaging device that captures surrounding information and outputs a signal based on the image (image signal), a radar that detects a reflected wave from an object around the vehicle and outputs a radar signal, and a humidity around the vehicle A humidity sensor that detects and outputs a humidity signal, a temperature sensor that detects a temperature around the vehicle and outputs a temperature signal, a light sensor that detects a light switch ON signal and outputs a light signal, An attitude sensor that detects an attitude and outputs an attitude signal, and a GPS receiver that receives a position information signal output from a GPS or a ground station (such as an electronic reference point) For example if a car navigation), and is configured and ETC for outputting a communication signal as it enters the toll road, from at least one of such like. As described above, the ambient environment detection device 5 is composed of one sensor or a plurality of sensors.
[0073]
  The steering sensor is provided with a plurality of slits at equal intervals on a rotating body that rotates in conjunction with steering of the steering wheel, and a sensor such as a photo interrupt is provided across the slits of the rotating body. The steering wheel angle is converted into an electrical signal to detect the rotation direction / position of the steering wheel, and a detection signal is output to the control device 6. The raindrop sensor outputs a HI level signal to the control device 6 when it is raining and a LO level signal when it is not raining. The illuminance sensor outputs a HI level signal to the control device 6 when the brightness around the vehicle is a certain value or more, and a LO level signal when the brightness is a certain value or less. The turn sensor outputs a HI level signal to the control device 6 when the turn signal switch is ON and a LO level signal when the turn signal switch is OFF. The vehicle speed sensor outputs a vehicle speed signal whose pulse changes according to the speed of the vehicle to the control device 6. The wiper sensor outputs a HI level signal to the control device 6 when the wiper switch is ON, and a LO level signal when the wiper switch is OFF. The image pickup apparatus includes an image processing circuit (not shown), picks up information around the vehicle, outputs an image signal to the image processing circuit, and the image processing circuit processes the image signal to detect an oncoming vehicle. A HI level signal or LO level signal is output to the control device 6 depending on the presence / absence of a preceding vehicle, the presence / absence of fog, the presence / absence of an intersection, and the highway / general road.
[0074]
"Explanation of control device"
  As shown in FIG. 1, the control device 6 inputs an external signal such as a detection signal of the ambient environment detection device 5 and outputs it as a processing signal, and processing of the external signal input device 60. An ambient environment determination device 61 that determines the ambient environment of the vehicle based on the signal and outputs it as a determination signal, and a plurality of light distribution patterns stored in the storage device 4 based on the determination signal of the ambient environment determination device 61 The data selection device 62 for selecting the digital data of the light distribution pattern optimal for the surrounding environment of the vehicle from the digital data of the above, and the digital data of the light distribution pattern optimal for the ambient environment of the vehicle selected by the data selection device 62 Based on the control signal, a control signal for digitally controlling the switching of the plurality of micro mirror elements 25 individually is sent to the reflective digital light deflecting device 2. A control signal output unit 63 to force and has a.
[0075]
  The control device 6 uses a computer mounted on a vehicle. As the computer, for example, a computer that controls (controls) car navigation, car audio, a mobile phone, and the like is used. Moreover, the said control apparatus 6 may be a case where the computer which is not mounted in the vehicle, for example, a portable personal computer etc., is used. In this case, if the user-preferred digital data is stored in the portable personal computer, even if the vehicle changes, the user-preferred light distribution pattern can be obtained anytime by connecting the portable personal computer to the changed vehicle. It will be. The control device 6 is controlled by a general operating system (OS). In this way, the control device 6 is configured separately from the reflective digital light deflection device 2.
[0076]
  As shown in FIG. 1, a central processing unit / CPU 66 is mounted on the control device 6 (computer). The central processing unit / CPU 66 includes the ambient environment determination device 61 and the data selection device 62. Although not shown, the central processing unit / CPU 66 is mounted with a main storage device and a buffer storage device in which a control program is stored.
[0077]
  The external signal input device 60 of the control device 6 is, for example, an interface circuit. The control signal output device 63 of the control device 6 is, for example, a driver circuit.
[0078]
"Explanation of the surrounding environment judgment device"
  As shown in FIG. 12, the surrounding environment determination device 61 determines whether there is an oncoming vehicle or a preceding vehicle from an image signal output by imaging information around the vehicle of the imaging device of the surrounding environment detection device 5. The oncoming vehicle / preceding vehicle judgment unit that outputs an oncoming vehicle / preceding vehicle presence signal or an oncoming vehicle / preceding vehicle no signal, and information on the surroundings of the imaging device of the ambient environment detection device 5 (for example, on the road surface) Image signal output by imaging a white line or a median strip), a vehicle speed signal output by detecting the vehicle speed of the vehicle speed sensor of the ambient environment detection device 5, the GPS of the ambient environment detection device 5 and the ground A position information signal (referred to as a position information signal output from a GPS or the like in this specification) output from a station (such as an electronic reference point) and received by a GPS receiver (for example, car navigation), the surroundings A highway / general road determination unit that determines a highway / general road from at least one of the communication signals output from the ETC of the boundary detection device 5 and outputs a highway signal / general road signal; An image signal output by imaging information around the vehicle of the imaging device of the environment detection device 5, an illuminance signal output by detecting the brightness of the vehicle around the illuminance sensor of the ambient environment detection device 5, It is determined whether or not it is an urban area from at least one of the positional information signals output from the GPS or the like of the surrounding environment detection device 5, and a signal that is an urban area or a signal that is not an urban area (for example, a signal that is a suburb) An image that is output by picking up information on the surroundings of the vehicle of the imaging device of the surrounding environment detection device 5 and the surrounding environment detection device 5 (for example, the white line of the intersection drawn on the road surface, etc.) At least one of a signal, a turn signal output by detecting an ON signal of a turn signal switch of a turn sensor of the ambient environment detection device 5, and a position information signal output from a GPS or the like of the ambient environment detection device 5 An intersection determination unit that determines whether or not the vehicle is an intersection from the signal and outputs a signal that is an intersection or a signal that is not an intersection, and detects the steering angle and / or steering speed of the steering sensor of the steering sensor of the surrounding environment detection device 5 The output steering signal and the vehicle speed signal output by detecting the vehicle speed of the vehicle speed sensor of the ambient environment detection device 5, the position information signal output from the GPS of the ambient environment detection device 5, the ambient environment detection device 5 An image signal output by imaging information around the vehicle of the imaging device (for example, a curved white line drawn on the road surface) A straight line / curve determination unit for determining a straight line / curve of road alignment from at least one signal and outputting a straight line signal or a curve signal; and rain output by detecting rain of the raindrop sensor of the ambient environment detection device 5 The signal and the wiper signal output by detecting the ON signal of the wiper switch of the wiper sensor of the ambient environment detection device 5, information on the surroundings of the vehicle of the imaging device of the ambient environment detection device 5 (for example, wetness of rain on the road surface) A rain determining unit that determines whether or not it is raining from at least one of the image signals output by imaging the reflectance according to the condition, and the like, and outputs a signal that is raining or a signal that is not raining, An image signal output by imaging information around the vehicle of the imaging device of the ambient environment detection device 5, and a reflected wave from an object around the vehicle of the radar of the ambient environment detection device 5 The radar signal detected and output, the humidity signal output by detecting the humidity around the vehicle of the humidity sensor of the ambient environment detection device 5, and the ambient temperature of the vehicle of the temperature sensor of the ambient environment detection device 5. A fog determination unit that determines whether or not it is fog from at least one of the detected and output temperature signals, and outputs a signal that is fog or a signal that is not fog, and imaging of the ambient environment detection device 5 An image signal output by imaging information around the vehicle of the device, a wiper signal output by detecting an ON signal of a wiper switch of the wiper sensor of the ambient environment detection device 5, and a temperature of the ambient environment detection device 5 A signal that is snow or a signal that is not snow is determined by determining whether or not it is snow from at least one of the temperature signals output by detecting the temperature around the vehicle of the sensor. An attitude change corresponding to the amount of change in the attitude of the vehicle body by determining the change in the attitude of the vehicle body from the attitude signal output by detecting the attitude of the vehicle body of the snow judgment unit to output and the attitude sensor of the ambient environment detection device 5 A posture determination unit that outputs a signal; a vehicle speed signal output by detecting a vehicle speed of a vehicle speed sensor of the ambient environment detection device 5; a position information signal output from a GPS or the like of the ambient environment detection device 5; and A signal for determining whether or not a signal is waiting from an image signal output by imaging information around the vehicle of the imaging device of the surrounding environment detection device 5 and outputting a signal waiting for a signal or a signal not waiting for a signal It comprises at least one of a waiting determination unit and the like. As described above, the ambient environment determination device 61 is composed of one determination unit or a plurality of determination units. In addition, since the white line drawn on the road surface which the imaging device of the surrounding environment detection device 5 images as information around the vehicle is defined in the Road Traffic Law, it can be used as high quality information.
[0079]
"Description of data selection device"
  As shown in FIG. 13, the data selection device 62 includes an oncoming / preceding vehicle judgment unit, an expressway / general road judgment unit, an urban area judgment unit, an intersection judgment unit, a straight line / curve judgment unit of the surrounding environment judgment device 61. Based on a determination signal from at least one determination unit among the rain determination unit, the fog determination unit, and the snow determination unit, the vehicle is selected from the digital data of the plurality of light distribution patterns stored in the storage device 4. Based on a main data selection unit that selects digital data of a light distribution pattern that is most suitable for the surrounding environment and a determination signal from the signal waiting determination unit or the posture determination unit of the surrounding environment determination device 61, the data is stored in the storage device 4. The digital data of the light distribution pattern that is most suitable for the signal waiting or the posture of the vehicle body is selected from among the plurality of digital data of the light distribution patterns by interrupting the selection of the main data selection unit. Having interrupt data selector which, a.
[0080]
(Description of the operation of the first embodiment of the vehicle digital lighting system)
  The vehicle digital lighting system according to the first embodiment is configured as described above, and the operation thereof will be described below with reference to FIG.
[0081]
  First, the surrounding environment detection device 5 detects an environment around the vehicle, for example, a district situation, a road situation, or a weather situation where the vehicle is traveling, and outputs a detection signal to the control device 6 (S1). When the detection signal is input to the control device 6, the interface circuit of the external signal input device 60 inputs an external signal such as each detection signal of the surrounding environment detection device 5 and processes it into a signal that can be handled by the control device 6. The processing signal is output to the ambient environment determination device 61 (S2). When the processing signal is input to the ambient environment determination device 61, the ambient environment determination device 61 determines the ambient environment of the vehicle based on the processing signal of the external signal input device 60, and sends the determination signal to the data selection device 62. Output (S3).
[0082]
  The ambient environment determination device 61 executes the following first determination step to tenth determination step. That is, the oncoming vehicle / preceding vehicle determination unit determines whether there is an oncoming vehicle / preceding vehicle from an image signal output by imaging the information around the vehicle of the imaging device of the ambient environment detection device 5 and determines whether there is an oncoming vehicle / preceding vehicle. A first determination step of outputting a vehicle presence signal or an oncoming vehicle / preceding vehicle absence signal. The highway / general road determination unit detects and outputs an image signal output by imaging information around the vehicle of the imaging device of the surrounding environment detection device 5 and a vehicle speed sensor of the vehicle speed sensor of the surrounding environment detection device 5. A highway / general road is determined from at least one of a vehicle speed signal, a position information signal output from the GPS of the surrounding environment detection device 5, and a communication signal output from the ETC of the surrounding environment detection device 5. A second determination step of outputting a highway signal or a general road signal; The urban area determination unit detects and outputs the image signal output by imaging information around the vehicle of the imaging device of the ambient environment detection device 5 and the brightness of the vehicle around the illuminance sensor of the ambient environment detection device 5. A signal that is an urban area or a signal that is not an urban area is output from at least one of the illuminance signal and the position information signal output from the GPS of the surrounding environment detection device 5 and the like. 3 Judgment step. The intersection determination unit detects and outputs an image signal output by imaging information around the vehicle of the imaging device of the surrounding environment detection device 5 and an ON signal of the turn signal switch of the turn sensor of the surrounding environment detection device 5. A signal that is an intersection or a signal that is not an intersection is determined based on at least one of the turn signal and the position information signal output from the GPS of the surrounding environment detection device 5 and the like. Judgment step. The straight line / curve determination unit detects and outputs the steering signal output by detecting the steering angle and / or the steering speed of the steering sensor of the surrounding environment detecting device 5 and the vehicle speed sensor of the surrounding environment detecting device 5. A fifth determination step of determining a road line straight line / curve from at least one of the vehicle speed signal and the position information signal output from the GPS of the surrounding environment detection device 5 and outputting the straight line signal or the curve signal. The rain determining unit detects rain from the rain sensor of the surrounding environment detection device 5 and outputs a rain signal and a wiper signal output by detecting the ON signal of the wiper switch of the wiper sensor of the surrounding environment detection device 5. And a sixth determination step of determining whether the signal is rain and outputting a signal that is rain or a signal that is not rain. The fog determination unit detects an image signal output by imaging information around the vehicle of the imaging device of the ambient environment detection device 5, and a reflected wave from an object around the vehicle of the radar of the ambient environment detection device 5. The detected radar signal, the humidity sensor of the ambient environment detection device 5 detects the ambient humidity of the vehicle, and the detected ambient temperature of the ambient environment detection device 5 detects the ambient temperature of the vehicle. A seventh determination step of determining whether or not it is a fog from at least one of the generated temperature signals and outputting a signal that is a fog or a signal that is not a fog; The snow determination unit detects and outputs an image signal output by imaging information around the vehicle of the imaging device of the ambient environment detection device 5 and an ON signal of the wiper switch of the wiper sensor of the ambient environment detection device 5. It is determined whether or not it is snow from at least one of the wiper signal and the temperature signal output by detecting the temperature around the vehicle of the temperature sensor of the ambient environment detection device 5, or the signal or snow An eighth determination step for outputting a signal that is not. The attitude determination unit detects the attitude of the vehicle body of the attitude sensor of the surrounding environment detection device 5 and determines the change in the attitude of the vehicle body from the output attitude signal and outputs an attitude change signal corresponding to the amount of change in the attitude of the vehicle body A ninth determination step. The signal waiting determination unit detects the vehicle speed of the vehicle speed sensor of the ambient environment detection device 5 and outputs the vehicle speed signal, the position information signal output from the GPS of the ambient environment detection device 5 or the like, and the ambient environment detection device 5 It is a tenth determining step of determining whether or not waiting for a signal from an image signal output by imaging information around the vehicle of the imaging device and outputting a signal waiting signal or a signal not waiting for a signal. Note that the determination step executed by the ambient environment determination device 61 may include at least one of the first determination step to the tenth determination step, or may include other determination steps. It may be what is being done.
[0083]
  When the determination signal is input to the data selection device 62, returning to FIG. 14, the data selection device 62 is stored in the storage device 4 based on the determination signal of each determination unit of the surrounding environment determination means 5. The digital data of the light distribution pattern most suitable for the surrounding environment of the vehicle is selected from the digital data of the light distribution pattern (S4). The data selection device 62 includes a main data selection unit and an interrupt data selection unit. The main data selection unit of the data selection device 62 is an oncoming / preceding vehicle determination unit, an expressway / general road determination unit, an urban area determination unit, an intersection determination unit, a straight line / curve determination unit, a rain determination unit, Based on a determination signal from at least one of the fog determination unit and the snow determination unit, the optimal distribution for the surrounding environment of the vehicle from among the digital data of a plurality of light distribution patterns stored in the storage device 4. Select digital data of light pattern.
[0084]
  For example, when the highway / general road determination unit determines that the road is a general road, the straight line / curve determination unit determines that the road is a straight line, and the oncoming / preceding vehicle determination unit determines that there is no oncoming / preceding vehicle, the main data selection unit 9 and FIG. 10, “1. General road / straight line / light distribution data for travel” is selected. When the highway / general road determination unit determines that the road is a general road, the straight line / curve determination unit determines that the road is a straight line, and the oncoming / preceding vehicle determination unit determines that there is an oncoming / preceding vehicle, the main data selection unit 9 and “2. Light distribution data for general road / straight line / passing” shown in FIG. When the urban area determination unit determines that the city is an urban area, the straight line / curve determination unit determines that the vehicle is a straight line, and the oncoming / preceding vehicle determination unit determines that there is an oncoming / preceding vehicle, the main data selection unit displays “3. Urban area / straight line / passing light distribution data” shown in FIG. When the highway / general road determination unit determines that it is a highway, the straight line / curve determination unit determines that the vehicle is a straight line, and the oncoming / preceding vehicle determination unit determines that there is an oncoming / preceding vehicle, the main data selection unit 9 and “4. Highway / straight line / passing light distribution data” shown in FIG. When the highway / general road determination unit determines that the road is a highway, the straight line / curve determination unit determines that the vehicle is a curve, and the oncoming / preceding vehicle determination unit determines that there is an oncoming / preceding vehicle, the main data selection unit 9 and “5. Highway / curve / passing light distribution data” shown in FIG. When the highway / general road determination unit determines that the road is an expressway, the straight line / curve determination unit determines that the vehicle is a straight line, and the oncoming / preceding vehicle determination unit determines that there is no oncoming / preceding vehicle, the main data selection unit “6. Expressway / straight line / running light distribution data” shown in FIG. When the highway / general road determination unit determines that the road is a highway, the straight line / curve determination unit determines that the vehicle is a curve, and the oncoming / preceding vehicle determination unit determines that there is no oncoming / preceding vehicle, the main data selection unit “7. Expressway / curve / light distribution data for driving” shown in FIG. When the highway / general road determination unit determines that the road is a general road, the straight line / curve determination unit determines that the road is a curve, and the oncoming / preceding vehicle determination unit determines that there is no oncoming / preceding vehicle, the main data selection unit “8. General road / curve / running light distribution data” shown in FIG. When the highway / general road determination unit determines that the road is a general road, the straight line / curve determination unit determines that the road is a curve, and the oncoming / preceding vehicle determination unit determines that there is an oncoming / preceding vehicle, the main data selection unit “9. General road / curve / passing light distribution data” shown in FIG. When the highway / general road determination unit determines that the road is a general road and the intersection determination unit determines that the road is an intersection, the main data selection unit selects “10. Light distribution data for general road / intersection” shown in FIG. . When the urban area determination unit determines that the area is an urban area, the straight line / curve determination unit determines that the vehicle is a straight line, and the oncoming / preceding vehicle determination unit determines that there is no oncoming / preceding vehicle, the main data selection unit is shown in FIG. Select “11. Urban area, straight line, travel light distribution data”. When the urban area determination unit determines that it is an urban area, the straight line / curve determination unit determines that the vehicle is a curve, and the oncoming / preceding vehicle determination unit determines that there is an oncoming / preceding vehicle, the main data selection unit is shown in FIG. Select “12. Urban area / curve / passing light distribution data”. When the urban area determination unit determines that the area is an urban area, the straight line / curve determination unit determines that the vehicle is a curve, and the oncoming / preceding vehicle determination unit determines that there is no oncoming / preceding vehicle, the main data selection unit is shown in FIG. Select “13. Urban area / curve / light distribution data for driving”. When the urban area determination unit determines that it is an urban area and the intersection determination unit determines that it is an intersection, the main data selection unit selects “14. Urban area / intersection light distribution data” shown in FIG. The light distribution data selected by the main data selection unit is the main data other than from “1. Light distribution data for general roads / straight lines / travel” to “14. Light distribution data for urban areas / intersections”. There are various types of light distribution data depending on the combination of selection by the selection unit.
[0085]
  Here, when the road surface or the like is illuminated with the light distribution data selected by the main data selection unit of the data selection device 62, the signal waiting determination unit of the surrounding environment determination device 61 determines that the signal is waiting, Alternatively, the posture determination unit of the surrounding environment determination device 61 determines a change in the posture of the vehicle body. Then, the interrupt data selection unit of the data selection device 62 waits for a signal from the plurality of light distribution pattern digital data stored in the storage device 4 based on the determination signal from the signal waiting determination unit or the posture determination unit or the vehicle body. The digital data of the light distribution pattern most suitable for the posture is selected by interrupting the selection of the main data selection unit. That is, an interrupt routine by the interrupt data selection unit is established with respect to the main routine by the main data selection unit. After this interrupt routine is completed, the process returns to the main routine.
[0086]
  When the data selection device 62 selects the digital data of the light distribution pattern optimal for the surrounding environment of the vehicle based on the determination of the surrounding environment determination device 61, the driver circuit of the control signal output device 63 returns to FIG. Based on the digital data of the light distribution pattern optimum for the surrounding environment of the vehicle selected by the device 62, the reflection type digital light deflecting device 2 sends a control signal for digitally controlling the switching of the multiple minimal mirror elements 25 individually. (S5).
[0087]
  When the control signal is output from the control device 6 to the reflective digital light deflecting device 2, the reflective digital light deflecting device 2 converts the control signal into digital data having a light distribution pattern that is optimal for the surrounding environment of the vehicle. Based on this, ON / OFF switching of a large number of minimal mirror elements 25 is controlled. As a result, the digital lighting system for a vehicle according to the first embodiment automatically selects the light distribution pattern P5 optimum for the surrounding environment of the vehicle, and optimally distributes the light distribution pattern P5 for the selected surrounding environment of the vehicle. Can be used to illuminate the road surface.
[0088]
(Description of the effect of the first embodiment of the vehicle digital lighting system)
  The vehicle digital lighting system according to the first embodiment is configured as described above, and the effects thereof will be described below.
[0089]
  The vehicle digital lighting system according to the first embodiment automatically selects a light distribution pattern optimal for the surrounding environment of the vehicle, and displays a road surface or the like with the light distribution pattern P5 optimal for the selected surrounding environment of the vehicle. Since it can always light, it is preferable on traffic safety. Further, the vehicle digital lighting system according to the first embodiment digitally uses a digitally generated light distribution pattern digital data as it is, and digitally generates a predetermined light distribution pattern P5 that is optimal for the surrounding environment of the vehicle. Since it can be controlled, a predetermined light distribution pattern P5 that is optimal for the surrounding environment of the vehicle without analog variation can be reliably obtained.
[0090]
  In the vehicle digital lighting system according to the first embodiment, the digital data of the light distribution pattern obtained in the light distribution design of the vehicle lighting device is converted into the digital light distribution pattern for controlling the reflective digital light deflecting device 2. Since the data can be used as it is, it is not necessary to create digital data of a control light distribution pattern, and the manufacturing cost is reduced accordingly.
[0091]
  In addition, the vehicle digital lighting system according to the first embodiment can reliably detect the surrounding environment of the vehicle by the surrounding environment detection device 5, so that the light distribution pattern P <b> 5 suitable for the surrounding environment of the vehicle can be further ensured. Can get to.
[0092]
  In the vehicle digital lighting system according to the first embodiment, the reflective digital light deflecting device 2 can be reliably controlled by the control device 6, so that the predetermined arrangement optimal for the surrounding environment of the selected vehicle can be obtained. The light distribution pattern P5 that is the light pattern P5 and has no analog variation can be obtained more reliably.
[0093]
  In the vehicle digital lighting system according to the first embodiment, the ambient environment determination device 61 can reliably determine the ambient environment of the vehicle, so that the light distribution pattern P5 suitable for the ambient environment of the vehicle can be more reliably determined. Can get to.
[0094]
  In addition, in the vehicle digital lighting system according to the first embodiment, the main data selection unit uses the main data selection unit to select the light distribution pattern digital data optimum for the surrounding environment of the vehicle from the main data. Therefore, the digital data of the light distribution pattern optimal for the surrounding environment of the vehicle can be selected more reliably and quickly. In the vehicle digital lighting system according to the first embodiment, the interrupt data selection unit can configure an interrupt control routine for the main control routine by the main data selection unit. For this reason, the vehicle digital lighting system according to the first embodiment can select the digital data of the light distribution pattern optimal for the surrounding environment of the vehicle more finely, and can control the data selection accurately and accurately. Can be done quickly.
[0095]
(Description of Embodiment 2 of Digital Lighting System for Vehicle)
  15 and 16 show a second embodiment of the vehicle digital lighting system according to the present invention. In the figure, the same reference numerals as those in FIGS. 1 to 14 denote the same components.
[0096]
  The vehicle digital lighting system according to the second embodiment uses a buffer storage device 64 mounted on a central processing unit / CPU 66 of the control device 6 as a storage device. As shown in FIG. 15, the buffer storage device 64 is connected to an external signal input device 60 and a data selection device 62. The external signal input device 60 includes a storage medium.65A reading device 67 for reading data stored in is connected.
[0097]
  The light distribution pattern digital data stored in the buffer storage device 64 is stored in a semiconductor storage medium such as a storage card (hereinafter referred to as a storage medium 65) as shown in FIG. The storage medium 65 stores digital data of light distribution patterns in units of groups, for example, for Japan, for the US, for Australia, etc., for each region / country. The digital data of the light distribution pattern of the group unit for each region / country stored in the storage medium 65 is read and stored in the buffer storage device 64 via the reading device 67 and the external signal input device 60. The
[0098]
  Since the vehicle digital lighting system according to the second embodiment is configured as described above, a digital data group of a light distribution pattern can be obtained for each region / country in which the vehicle travels. Therefore, it is not necessary to design and manufacture the vehicle for each region / country, and one digital lighting device for a vehicle can be applied to many regions / countries. The vehicle digital lighting system according to the second embodiment reads a digital data group of light distribution patterns for each region / country to be used from the storage medium 65 via the reading device 67 and the external signal input device 60. Therefore, a large capacity storage device is not required.
[0099]
(Description of Embodiment 1 of Digital Lighting Device for Vehicle)
  FIG. 17 shows Embodiment 1 of the vehicle digital lighting device according to the present invention. In the figure, the same reference numerals as those in FIGS. 1 to 16 denote the same components.
[0100]
  The vehicle digital lighting system according to the first embodiment automatically selects a predetermined light distribution pattern P5 that is optimal for the surrounding environment of the vehicle, and illuminates the road surface or the like with the selected predetermined light distribution pattern P5. In contrast, the vehicle digital lighting device according to the first embodiment selects a predetermined light distribution pattern P7 and illuminates a road surface or the like with the selected predetermined light distribution pattern P7.
[0101]
  That is, the vehicle digital lighting system according to the first embodiment automatically selects a predetermined light distribution pattern P5 optimum for the surrounding environment of the vehicle by the surrounding environment detection device 5, the surrounding environment determination device 61, and the like. On the other hand, the vehicle digital lighting device according to the first embodiment isThe driver uses the light distribution pattern selector 7A predetermined light distribution pattern P7 is selected.
[0102]
  The light distribution pattern selection device 7 is connected to an external signal input signal device 60 of the control device 6, and the external signal input device 60 is connected to a data selection device 62 of a central processing unit / CPU 66. In the light distribution pattern selection device 7, the driver selects a light distribution pattern that illuminates the road surface and the like, and outputs a selection signal based on the selection to the external signal input signal device 60 of the control device 6.
[0103]
  The vehicular digital lighting device according to the first embodiment is configured as described above, and the operation and effect thereof will be described below.
[0104]
  First, the driver selects a light distribution pattern for illuminating a road surface or the like with the light distribution pattern selection device 7. Then, the light distribution pattern selection device 7 outputs a selection signal based on the driver's selection to the external signal input signal device 60. The interface circuit of the external signal input device 60 inputs an external signal such as a selection signal from the light distribution pattern selection device 7, processes it into a signal that can be handled by the control device 6, and outputs the processed signal to the data selection device 62. To do.
[0105]
  Next, the data selection device 62 selects a driver from among a plurality of light distribution pattern digital data stored in the storage device 4 based on a selection signal from the light distribution pattern selection device 7 via the external signal input device 60. Selects the digital data of the selected light distribution pattern.
[0106]
  Then, the driver circuit of the control signal output device 63 generates a control signal for digitally controlling the switching of the multiple minimal mirror elements 25 based on the digital data of the light distribution pattern selected by the data selection device 62. Output to the reflection type digital light deflecting device 2.
[0107]
  When the control signal is output from the control device 6 to the reflective digital light deflecting device 2, the reflective digital light deflecting device 2 is based on the control signal, that is, the digital data of the light distribution pattern selected by the driver. ON / OFF switching of a large number of micromirror elements 25 is controlled. Thus, the vehicle digital lighting device according to the first embodiment can illuminate the road surface and the like with the light distribution pattern P7 selected by the driver. For example, the driver selects a light distribution pattern for general roads, straight lines, and traveling with the light distribution pattern selection device 7. Then, the data selection device 62 selects “1. General road / straight line / light distribution data for travel” shown in FIGS. 9 and 10 from the storage device 4, and this “1. General road / straight line / light distribution data for travel”. The reflective digital light deflecting device 2 is controlled based on the above, and the road surface or the like can be illuminated with the light distribution pattern for the general road / straight line / travel selected by the driver.
[0108]
  As described above, the vehicular digital lighting device according to the first embodiment is the same as the vehicular digital lighting system according to the first embodiment, and the digitally generated light distribution pattern digital data is used as it is. Since the predetermined light distribution pattern can be digitally controlled by using it, the predetermined light distribution pattern P7 having no analog variation is surely obtained.
[0109]
  In particular, in the vehicle digital lighting device according to the first embodiment, the driver performs the actions of the surrounding environment detection device 5 and the surrounding environment determination device 61 of the vehicle digital lighting system according to the first embodiment. Therefore, the surrounding environment detection device 5 and the surrounding environment determination device 61 are unnecessary, and the manufacturing cost is reduced accordingly.
[0110]
(Description of Embodiment 2 of Digital Lighting Device for Vehicle)
  FIG. 18 shows Embodiment 2 of the vehicle digital lighting device according to the present invention. In the figure, the same reference numerals as those in FIGS. 1 to 17 denote the same components.
[0111]
  The vehicular digital lighting device according to the second embodiment is a buffer storage device mounted on the central processing unit / CPU 66 of the control device 6 in substantially the same manner as the vehicular digital lighting system according to the second embodiment. 64 is used as a storage device. As shown in FIG. 18, the buffer storage device 64 is connected to an external signal input device 60 and a data selection device 62. The external signal input device 60 is connected to a reading device 67 for reading data stored in the storage medium 65 shown in FIG.
[0112]
  The vehicular digital lighting device according to the second embodiment is arranged in a group unit for each region / country stored in the storage medium 65 in substantially the same manner as the vehicular digital lighting system according to the second embodiment. The optical pattern digital data can be read and stored in the buffer storage device 64 via the reading device 67 and the external signal input device 60.
[0113]
  For this reason, the vehicle digital lighting device according to the second embodiment is substantially the same as the vehicle digital lighting system according to the second embodiment. Therefore, it is not necessary to design and manufacture vehicle lighting devices for each region / country, and one vehicle digital lighting device can be applied to many regions / countries. Further, the vehicular digital lighting device according to the second embodiment is similar to the vehicular digital lighting system according to the second embodiment, and the digital data group of the light distribution pattern for each region / country to be used is used. Since it is only necessary to read from the storage medium 65 via the reading device 67 and the external signal input device 60 and store it in the buffer storage device 64, a large-capacity storage device is not required.
[0114]
(Explanation of light distribution pattern control)
  In the vehicle digital lighting system and the vehicle digital lighting device according to the present invention, the light distribution pattern (light distribution pattern P5 optimum for the surrounding environment of the vehicle, light distribution selected by the driver) emitted from the light irradiation device 3 to the road surface or the like The pattern P7) is controlled and formed based on the light distribution data (digital data of the light distribution pattern) stored in the storage device 4 and the buffer storage device 64. Hereinafter, a control example of a light distribution pattern other than the light distribution pattern based on the light distribution data illustrated in FIGS. 9 and 10 will be described. The light distribution pattern according to the present invention uses the logic of AFS (Adaptive Front Lighting System or Advanced Front Lighting System) as it is.
[0115]
  The auto-leveling for the posture change of the vehicle body in the interrupt routine includes “2. Light distribution data for general roads / straight lines / passing”, “3. Light distribution data for urban areas / straight lines / passing” in FIG. The cut line CL in the “road / straight line / passing light distribution data” and “5. highway / curve / passing light distribution data” is based on the posture signal of the posture sensor in FIG. It moves up and down automatically based on the judgment. That is, based on the attitude signal of the attitude sensor, the attitude determination unit determines a change in the attitude of the vehicle body, and the data selection unit 62 determines the distribution of light distribution data whose cut lines CL stored in the storage device 4 are vertically different by a plurality of stages. The light distribution data having the upper and lower cut lines CL optimum for the posture of the vehicle body is selected from the inside. As a result, a light distribution pattern having a cut line CL optimum for the posture of the vehicle body is automatically obtained. Note that the driver may select light distribution data having the upper and lower cut lines CL optimal for the posture of the vehicle body via the light distribution pattern selection device 7. Thus, the cut line CL can be moved up and down with respect to the change in the posture of the vehicle body, which is preferable in terms of traffic safety.
[0116]
  In addition, when the vehicle is stopped while waiting for a signal when the road surface is illuminated with a predetermined light distribution pattern, the light reduction for the signal waiting in the interrupt routine is determined according to the determination by the signal waiting determination unit in FIG. The luminous intensity (illuminance) of the light pattern is 0. It becomes 0 during several seconds to several seconds, and when the vehicle starts, the luminous intensity (illuminance) of the predetermined light distribution pattern instantaneously returns from 0 to the original state. That is, the signal waiting determination unit determines signal waiting, and the data selection unit 62 selects signal waiting data stored in the storage device 4. As a result, dimming during signal waiting is automatically obtained. The driver may select light distribution data for dimming while waiting for a signal via the light distribution pattern selection device 7. In this way, glare is not given to oncoming vehicles and pedestrians during signal waiting, which is preferable in terms of traffic safety. Further, a discharge lamp that is a light source of the optical engine 110The light intensity (illuminance) of the light distribution pattern can be reduced or increased without turning on and off the lamp.10The durability of the light source is improved.
[0117]
  “2. Light distribution data for general road / straight line / passing”, “3. Light distribution data for urban area / straight line / passing”, “4. Light distribution data for highway / straight line / passing”, “5” .. Control light distribution pattern for passing light with blurred light distribution data so that the light intensity (illuminance) gradually changes from dark to bright parts on the cut line CL in "Highway / Curve / Passing light distribution data" You may do it. In this way, by blurring the cut line CL, the natural light change of the cut line CL as seen from the driver's eyes can be obtained, and the driver's eyes are healed.(It is hard to get tired)It is preferable for traffic safety.
[0118]
  In the daytime running light (DRL), the light distribution data for DRL (daytime running lamp) is obtained so that a predetermined light distribution pattern dedicated to daytime is obtained that is dimmed with respect to the light intensity (illuminance) of the predetermined light distribution pattern at night. You may make it control the light distribution pattern for daytime. Similarly, the light distribution pattern may be controlled by the light distribution data so that the light intensity (illuminance) of the predetermined light distribution pattern can be reduced or increased automatically or manually. Thus, the discharge lamp which is the light source of the optical engine 110The light intensity (illuminance) of the light distribution pattern can be reduced or increased without turning on and off the lamp.10The durability of the light source is improved. In addition, by obtaining a predetermined light distribution pattern for daytime use, that is, a light distribution pattern for DRL (Daytime Running Lamp), the presence of the host vehicle can be visually recognized by other drivers and pedestrians during the daytime. This is preferable for traffic safety.
[0119]
  In the light distribution pattern for driving, the camera sensing removes the light corresponding to the eyes or face of the driver of the oncoming car, and the eyes of the driver of the oncoming car according to the temporal change. Alternatively, the light distribution pattern may be controlled by the light distribution data so as to move along the locus of the face. In addition, when light is extracted, it is set to all black or gray having an arbitrary gradation with respect to all white. Thus, even if the light distribution pattern for traveling is used, glare is not given to the driver of the oncoming vehicle, which is preferable in terms of traffic safety.
[0120]
  In a light distribution pattern for passing, when a pedestrian is found by camera sensing, the light distribution pattern may be controlled by light distribution data so that the cut line of the light distribution pattern for passing is raised. . In addition, you may control as spot light which illuminates only a pedestrian. Thus, even if a light distribution pattern for passing is used, a pedestrian can be quickly recognized, which is preferable for traffic safety.
[0121]
  The light distribution pattern may be controlled by the light distribution data so that the left end or the right end of the predetermined light distribution pattern spreads outward according to the amount of the handle cut. Further, the light distribution pattern may be controlled by the light distribution data so that the left end or the right end of the predetermined light distribution pattern is used as a blinker or a turn signal lamp. In this case, the control may be performed with one light distribution pattern and may be controlled with three light distribution patterns of the central portion, the left end portion, and the right end portion.
[0122]
  As the light distribution pattern in the high-speed mode, for example, it is a light distribution pattern for passing, and the maximum luminous intensity (maximum illuminance) is 1.5 times that of the low-speed / medium-speed mode and is at a point 75 m ahead. The light distribution pattern may be controlled by the light distribution data.
[0123]
  When bad weather is judged by camera sensing, for example, in the case of rain, the light distribution pattern is controlled by the light distribution data so as to darken the bright part of the light distribution pattern. The light distribution pattern may be controlled with the light distribution data so that the cut line CL is obtained, and further, in the case of snow, the light distribution pattern may be controlled with the light distribution data so as to be darkened against reflection. .
[0124]
  The light distribution pattern may be controlled by the light distribution data so that the front portion of the light distribution pattern is brightened white and the front side is gray. In this way, by making the front of the light distribution pattern brighter white and making the front side gray, the driver's line of sight is directed toward the front white portion, that is, in the traveling direction, which is preferable for traffic safety. Further, the light distribution pattern may be controlled by the light distribution data so that a part of the light distribution pattern is irradiated to the overhead sign (OHS overhead sign) by camera sensing.
[0125]
  The light distribution data stored in the storage device 4 is hierarchized into a regional directory, a country directory, and a light distribution data directory. That is, the light distribution data is divided for each group / light distribution pattern digital data, for example, for Japan, for the United States, for Australia, etc. by region / country. Thereby, from the positional information output from GPS or a ground station (such as an electronic reference point) and received by a GPS receiver (for example, car navigation), the group unit for each region / country stored in the storage device 4 You may enable it to obtain the digital data of a light distribution pattern. In this way, when crossing a region / country, it is possible to automatically switch to the left-hand traffic division and the right-hand traffic division, which is preferable in terms of traffic safety. Moreover, it is not necessary to design and manufacture the vehicle lighting device for each region / country, and one vehicle digital lighting system and vehicle digital lighting device can be applied to many regions / countries.
[0126]
  Road conditions such as railroad crossings, tunnels, curves, etc. can be ascertained from several seconds ago from position information output from a GPS or ground station (such as an electronic reference point) and received by a GPS receiver (for example, car navigation). The light distribution pattern can be switched in advance, which is preferable for traffic safety.
[0127]
(Description of examples other than the embodiment)
  In the above embodiment, the headlamp has been described. However, the present invention is not limited to other lamps such as fog lamps, turn signal lamps, and brake lamps (especially for the sudden brake type, and notifies the subsequent vehicle of the sudden brake). For example, a flash lamp for a brake), or a combination thereof.
[0128]
  In the embodiment, when the vehicle digital lighting system and the vehicle digital lighting device are mounted on the left and right sides of the vehicle, the left and right light distribution patterns are different, but the left and right light distribution patterns are totalized. Thus, the light distribution data is configured so that a predetermined light distribution pattern is obtained.
[0129]
  In the above-described embodiment, the aspect ratio of the minimal mirror element 25 of the reflective digital light deflecting device 2 is 720 × 480, 800 × 600, 1024 × 768, or 1280 × 1024. The present invention may have an aspect ratio suitable for a light distribution pattern for a vehicle.
[0130]
  In the embodiment, the discharge lamp is used as the light source of the optical engine 1.10In the present invention, the discharge lamp10Other light sources such as incandescent lamps, halogen lamps, tungsten lamps, LEDs, and infrared LEDs may be used. Moreover, a plurality of light sources may be used instead of one.
[0131]
  In the embodiment, the layout of the optical engine 1 and the reflective digital light deflecting device 2 may be a layout other than that shown in FIG. For example, in the case of a truck or the like, a horizontally long flat layout is used, and in the case of a light vehicle, a vertically long cylindrical layout is used. That is, since the reflected light L4 finally reflected from the reflective digital light deflecting device 2 is digitally controlled, an analog shift of intermediate light from the optical engine 1 to the reflective digital light deflecting device 2 is performed. Can be ignored. For this purpose, the optical engine 1 can be laid out vertically, horizontally, above, below, diagonally, etc. according to the vehicle body specifications, or may be laid out in the vicinity of an air duct having a cooling effect.
[0132]
  In the above-described embodiment, the collimator lens 12 is interposed between the reflector 11 of the optical engine 1 and the reflective digital light deflector 2. In the present invention, however, the reflection from the reflector 11 is performed. The light may be directly incident on the reflective digital light deflector 2. In this case, effects such as non-uniformity of color aberration and unevenness of light due to the lens can be obtained.
[0133]
【The invention's effect】
  As is clear from the above, according to the digital lighting device for a vehicle and the digital lighting system for a vehicle according to the present invention (Claims 1 and 5), the digitally generated digital data of the light distribution pattern is used as it is. Since the predetermined light distribution pattern can be digitally controlled, a predetermined light distribution pattern free from analog variations can be reliably obtained.Moreover, according to the digital lighting device for a vehicle and the digital lighting system for a vehicle according to the present invention (claims 1, 5, 12, and 17), the digital data of the light distribution pattern obtained in the light distribution design of the vehicle lighting device is obtained. Since it can be used as it is as digital data of the light distribution pattern for controlling the reflection type digital light deflecting device, it is not necessary to create digital data of the light distribution pattern for control, and the manufacturing cost is reduced accordingly. . Furthermore, according to the digital lighting device for a vehicle and the digital lighting system for a vehicle according to the present invention (claims 1, 5, 12, 17), an ideal created by a computer simulation method in the light distribution design of the lighting device of the vehicle. Since the digital data of the light distribution pattern is used as it is and the ideal light distribution pattern is digitally formed and irradiated as it is, an ideal light distribution pattern without analog variations can be obtained with certainty.
[0134]
  In particular, according to the vehicle digital lighting device according to the present invention (Claim 1), the driver selects the light distribution pattern, and accordingly, the structure of the device is simplified and the manufacturing cost is reduced. Moreover, according to the digital lighting system for a vehicle according to the present invention (Claim 5), a light distribution pattern optimum for the environment around the vehicle is automatically obtained, which is preferable in terms of traffic safety.
[0135]
  Also, a vehicle digital lighting device and a vehicle digital lighting system according to the present invention (claims)2, 6)Since the reflected light from the reflecting surface of the reflector is incident on the incident surface of the collimator lens with a light distribution that has a high luminous intensity (illuminance) in the center and a low luminous intensity (illuminance) in the surroundings, the light distribution of the vehicle illumination The light distribution from the light source can be used effectively because it matches the distribution, that is, the light distribution in which the luminous intensity (illuminance) in the center is high and the luminous intensity (illuminance) in the surroundings is low.
[0136]
  In addition, according to the vehicle digital lighting device and the vehicle digital lighting system according to the present invention (claims 3 and 7), a digital data group of a light distribution pattern can be obtained for each region / country where the vehicle travels. Therefore, it is not necessary to design and manufacture the vehicle lighting device for each region / country, and one vehicle digital lighting device can be applied to many regions / countries. According to the vehicle digital lighting device and the vehicle digital lighting system according to the present invention (claims 3 and 7), a digital data group of a light distribution pattern for each region / country to be used is read from a storage medium. Therefore, a large-capacity storage device is not required.
[0137]
  A vehicle digital lighting device and a vehicle digital lighting system according to the present invention (claims 4, 9, 12,15), The reflective digital light deflecting device can be reliably controlled by the control device, so that it is possible to more reliably obtain a selected light distribution pattern having no analog variation. Will be.
[0138]
  According to the digital lighting system for a vehicle according to the present invention (Claim 8), since the surrounding environment detection device can reliably detect the surrounding environment of the vehicle, a light distribution pattern suitable for the surrounding environment of the vehicle is provided. Furthermore, it can be obtained reliably.
[0139]
  A digital lighting system for a vehicle according to the present invention (claim 10,13, 16), The ambient environment determination device can reliably determine the ambient environment of the vehicle, so that a light distribution pattern suitable for the ambient environment of the vehicle can be obtained more reliably.
[0140]
  A vehicle digital lighting system according to the present invention (claim 11,14, 17), The main data selection unit can select the digital data of the light distribution pattern most suitable for the surrounding environment of the vehicle from the main data among the digital data of the light distribution pattern. Digital data having a light distribution pattern that is optimal for the environment can be selected more reliably and quickly. A vehicle digital lighting system according to the present invention (claim 11,14, 17), An interrupt control routine can be configured by the interrupt data selection unit with respect to the main control routine by the main data selection unit. To this end, the vehicle digital lighting system according to the present invention (claim 11,14, 17) Can select more finely the digital data of the light distribution pattern optimal for the surrounding environment of the vehicle, and can control the data selection accurately and quickly.
[Brief description of the drawings]
FIG. 1 is a functional block diagram of an overall configuration showing a first embodiment of a vehicle digital lighting system according to the present invention.
2A is an explanatory view showing an optical engine and a light irradiating device, FIG. 2B is an explanatory view showing a luminous intensity distribution as viewed from the line BB in FIG. 2A, and FIG. , (B)lightIt is explanatory drawing which shows degree distribution.
FIG. 3 is a perspective view showing a reflective digital light deflecting device.
FIG. 4 is a partially enlarged perspective view showing the configuration of the reflective digital light deflecting device.
FIG. 5 is a partially enlarged exploded perspective view showing the configuration of the reflective digital light deflecting device.
FIG. 6 is also an explanatory view showing the operation of the reflective digital light deflecting device.
7A is an explanatory diagram showing the position of a pixel of the reflective digital light deflector, and FIG. 7B is an explanatory diagram showing control of the pixel of the reflective digital light deflector. FIG.
FIG. 8 is also an explanatory diagram showing control of 16 gradations in 4 bits.
FIG. 9 is also an explanatory diagram showing a part of light distribution data and a schematic diagram thereof.
FIG. 10 is a block diagram showing a part of light distribution data in the same manner.
FIG. 11 is a block diagram showing a part of the ambient environment detection device.
FIG. 12 is a block diagram showing a part of the surrounding environment determination device.
FIG. 13 is also a block diagram showing a part of the data selection device.
FIG. 14 is also a flowchart showing the operation of the system.
FIG. 15 is a functional block diagram of an overall configuration showing a second embodiment of the vehicle digital lighting system according to the present invention.
FIG. 16 is an explanatory block diagram similarly showing light distribution data, a storage medium, a reading device, and a control device.
FIG. 17 is a functional block diagram of an overall configuration showing a first embodiment of the vehicle digital lighting device according to the present invention.
FIG. 18 is a functional block diagram of an overall configuration showing a second embodiment of the vehicle digital lighting device according to the present invention.
[Explanation of symbols]
U on
D bottom
L left
R right
VU-VD Vertical lines above and below the screen
Horizontal line on the left and right of the HL-HR screen
Light from L1 discharge lamp 10
Reflected light from the L2 reflector 11
L3 Parallel light from collimator lens 12
L4 ON reflected light from the reflective digital light deflecting device 2
L5 OFF reflected light from the reflective digital light deflector 2
L6 Reflected light from the reflection type digital light deflecting device 2 when no power is supplied
Light emitted from L7 diverging lens 30
L8 Light emitted from the condenser lens 31
P5 Light distribution pattern optimal for the vehicle's surrounding environment
P7 Selected light distribution pattern
CL cut line
1 Optical engine
10 Discharge lamp (light source)
11 Reflector
12 Collimator lens
13 Reflective surface
14 Incident surface
2 Reflective digital light deflector
20 CMOS substrate
21 Conductor
22 Torsion hinge
23 York
24 posts
25 Minimal mirror element
26 Light Absorber
27 Landing chip
3 Light irradiation device
30 Divergent lens
31 Condensing lens (projection lens)
4 storage devices
5 Ambient environment detector
6 Control device
60 External signal input device
61 Ambient environment judgment device
62 Data selection device
63 Control signal output device
64 buffer storage
65 Semiconductor storage media such as storage cards (storage media)
66 Central processing unit / CPU
67 Reader
7 Light distribution pattern selection device

Claims (17)

In the vehicle digital lighting device that illuminates the road surface with the selected light distribution pattern,
An optical engine having a light source;
A large number of minimal mirror elements are tiltably arranged, and the tilt angle of the numerous minimal mirror elements is digitally switched between a first tilt angle and a second tilt angle, and light from the optical engine is switched. A reflection-type digital light deflecting device that digitally switches the reflection direction between the first reflection direction of ON and the second reflection direction of OFF;
A storage device storing digital data of a plurality of light distribution patterns;
A light distribution pattern selection device for selecting a light distribution pattern for illuminating a road surface and the like and outputting a selection signal;
Select digital data of one light distribution pattern from digital data of a plurality of light distribution patterns stored in the storage device based on an external signal such as a selection signal of the light distribution pattern selection device that is input, A control device that digitally individually controls switching of the multiple minimal mirror elements based on the digital data of the selected light distribution pattern;
A light irradiation device that irradiates a road surface or the like with light of a selected light distribution pattern that is ON reflected light from the reflective digital light deflection device controlled by the control device;
Equipped with a,
The digital data of the light distribution pattern is binary multi-bit digital data that is created by a computer simulation method in a light distribution design of a vehicle lighting device and obtains a plurality of light intensity gradations. Digital data to which light intensity gradations corresponding to each of a plurality of minimal mirror elements are provided,
The vehicle digital lighting device characterized by the above-mentioned. The optical engine includes a reflector that reflects light from the light source, and a collimator lens that emits the reflected light from the reflector as parallel light to a plurality of minimum mirror element sides of the reflective digital light deflector. ,
The inner surface of the reflector is provided with a reflecting surface that causes the reflected light to enter the incident surface of the collimator lens with a light distribution with a high altitude at the center and a low luminous intensity at the periphery.
The vehicle digital lighting device according to claim 1.   The storage device is a buffer storage device that reads and stores digital data of the plurality of light distribution patterns stored in a storage medium in units of regions and countries through a reading device. The digital lighting device for a vehicle according to claim 1. The controller is
An external signal input device that inputs an external signal such as a selection signal and outputs it as a processing signal;
A data selection device that selects digital data of one light distribution pattern from digital data of a plurality of light distribution patterns stored in the storage device based on a processing signal of the external signal input device;
A control signal for outputting, to the reflection type digital light deflecting device, a control signal for digitally controlling switching of the plurality of minimal mirror elements individually based on the digital data of the light distribution pattern selected by the data selection device An output device;
The vehicle digital lighting device according to claim 1, comprising: In the vehicle digital lighting device that illuminates the road surface etc. with a light distribution pattern optimal for the surrounding environment of the vehicle,
An optical engine having a light source;
A large number of minimal mirror elements are tiltably arranged, and the tilt angle of the numerous minimal mirror elements is digitally switched between a first tilt angle and a second tilt angle, and light from the optical engine is switched. A reflection-type digital light deflecting device that digitally switches the reflection direction between the first reflection direction of ON and the second reflection direction of OFF;
A storage device storing digital data of a plurality of light distribution patterns;
An ambient environment detection device that detects the ambient environment of the vehicle and outputs a detection signal;
Based on the input external signal such as a detection signal of the ambient environment detection device, the ambient environment of the vehicle is determined, and based on this determination, from among the digital data of a plurality of light distribution patterns stored in the storage device The digital data of the light distribution pattern optimal for the surrounding environment of the vehicle is selected, and the switching of the plurality of micro mirror elements is digitally performed based on the digital data of the light distribution pattern optimal for the ambient environment of the selected vehicle. A control device for individually controlling,
A light irradiating device that irradiates a road surface or the like with light of a light distribution pattern that is ON reflected light from the reflective digital light deflecting device controlled by the control device and is optimal for the surrounding environment of the vehicle;
Equipped with a,
The digital data of the light distribution pattern is binary multi-bit digital data that is created by a computer simulation method in a light distribution design of a vehicle lighting device and obtains a plurality of light intensity gradations. Digital data to which light intensity gradations corresponding to each of a plurality of minimal mirror elements are provided,
The vehicle digital lighting device characterized by the above-mentioned. The optical engine includes a reflector that reflects light from the light source, and a collimator lens that emits the reflected light from the reflector as parallel light to a plurality of minimum mirror element sides of the reflective digital light deflector. ,
The inner surface of the reflector is provided with a reflecting surface that causes the reflected light to enter the incident surface of the collimator lens with a light distribution with a high altitude at the center and a low luminous intensity at the periphery.
The vehicular digital lighting device according to claim 5.   The storage device is a buffer storage device that reads and stores the digital data of the plurality of light distribution patterns stored in a storage medium in units of regions and countries through a reading device. The digital lighting device for a vehicle according to claim 5. The ambient environment detection device is:
A steering sensor that detects the steering angle and / or steering speed of the steering wheel and outputs a steering signal,
A raindrop sensor that detects rain and outputs a rain signal,
An illuminance sensor that detects the brightness around the vehicle and outputs an illuminance signal,
A turn sensor that detects the ON signal of the turn signal switch and outputs a turn signal,
A vehicle speed sensor that detects the vehicle speed and outputs a vehicle speed signal,
A wiper sensor that detects the ON signal of the wiper switch and outputs a wiper signal,
An imaging device that images information around the vehicle and outputs an image signal;
Radar that detects the reflected wave from the object around the vehicle and outputs a radar signal,
A humidity sensor that detects the humidity around the vehicle and outputs a humidity signal,
A temperature sensor that detects the temperature around the vehicle and outputs a temperature signal,
A light sensor that detects the ON signal of the light switch and outputs a light signal,
An attitude sensor that detects the attitude of the vehicle body and outputs an attitude signal,
GPS that outputs position information signals,
ETC that outputs communication signals when entering toll roads,
The vehicle digital lighting device according to claim 5, wherein the vehicle digital lighting device is configured of at least one of the above. The controller is
An external signal input device that inputs an external signal such as a detection signal of the ambient environment detection device and outputs it as a processing signal;
An ambient environment determination device that determines the ambient environment of the vehicle based on the processing signal of the external signal input device and outputs the determination signal as a determination signal;
A data selection device for selecting digital data of a light distribution pattern most suitable for the surrounding environment of the vehicle from among a plurality of digital data of light distribution patterns stored in the storage device based on a determination signal of the ambient environment determination device; ,
Based on the digital data of the light distribution pattern optimum for the surrounding environment of the vehicle selected by the data selection device, a control signal for digitally controlling the switching of the multiple minimal mirror elements individually is sent to the reflective digital light A control signal output device for outputting to the deflection device;
The vehicle digital lighting device according to claim 5, comprising: The ambient environment judging device is:
The image of the surroundings of the imaging device of the surrounding environment detection device is used to determine whether there is an oncoming vehicle / preceding vehicle from an image signal output and output an oncoming vehicle / preceding vehicle presence signal or an oncoming vehicle / preceding vehicle no signal Oncoming / preceding vehicle judgment unit that outputs
An image signal output by imaging information around the vehicle of the imaging device of the ambient environment detection device, a vehicle speed signal output by detecting the vehicle speed of the vehicle speed sensor of the ambient environment detection device, and the ambient environment detection device A highway signal or a general road signal is output by judging a highway / general road from at least one of a position information signal output from a GPS or the like and a communication signal output from the ETC of the surrounding environment detection device. Highway / general road judgment section,
An image signal output by imaging information around the vehicle of the imaging device of the ambient environment detection device, an illuminance signal output by detecting the brightness of the vehicle around the illumination sensor of the ambient environment detection device, An urban area determination unit that determines whether or not the area is an urban area from at least one of the positional information signals output from the GPS of the surrounding environment detection device, and outputs a signal that is an urban area or a signal that is not an urban area,
An image signal output by imaging information around the vehicle of the imaging device of the ambient environment detection device, a turn signal output by detecting an ON signal of a turn signal switch of a turn sensor of the ambient environment detection device, An intersection determination unit that determines whether or not the vehicle is an intersection from at least one of the positional information signals output from the GPS or the like of the surrounding environment detection device, and outputs a signal that is an intersection or a signal that is not an intersection;
The steering signal output by detecting the steering angle and / or steering speed of the steering sensor of the steering sensor of the ambient environment detection device, the vehicle speed signal output by detecting the vehicle speed of the vehicle speed sensor of the ambient environment detection device, and the ambient environment A straight line / curve determination unit for determining a road line straight line / curve from at least one of the position information signals output from the GPS of the detection device and outputting a straight line signal or a curve signal;
Whether rain is detected from the rain signal output by detecting rain of the rain sensor of the ambient environment detection device and the wiper signal output by detecting the ON signal of the wiper switch of the wiper sensor of the ambient environment detection device. A rain determination unit that outputs a signal that is rain or a signal that is not rain,
An image signal output by imaging information around the vehicle of the imaging device of the ambient environment detection device, and a radar output by detecting a reflected wave from an object around the vehicle of the radar of the ambient environment detection device A humidity signal output by detecting the ambient humidity of the vehicle of the humidity sensor of the ambient environment detection device, and a temperature signal output by detecting the ambient temperature of the vehicle of the temperature sensor of the ambient environment detection device, A fog determination unit that determines whether or not it is fog from at least one signal and outputs a signal that is fog or a signal that is not fog;
An image signal output by imaging information around the vehicle of the imaging device of the ambient environment detection device, a wiper signal output by detecting an ON signal of a wiper switch of the wiper sensor of the ambient environment detection device, and the ambient The temperature sensor of the environment detection device detects the temperature around the vehicle and outputs a signal indicating whether it is snow or not based on at least one of the temperature signals output. Snow judgment part,
A posture determination unit that determines a change in the posture of the vehicle body from a posture signal output by detecting the posture of the vehicle body of the posture sensor of the surrounding environment detection device, and outputs a posture change signal according to the amount of change in the posture of the vehicle body;
The vehicle speed signal output by detecting the vehicle speed of the vehicle speed sensor of the ambient environment detection device, the position information signal output from the GPS of the ambient environment detection device, and the surroundings of the imaging device of the ambient environment detection device A signal waiting determination unit that determines whether or not the signal is waiting from the image signal output by imaging the information and outputs a signal waiting for the signal or a signal not waiting for the signal,
The vehicle digital lighting device according to claim 9, wherein the vehicle digital lighting device is configured of at least one of the above. The data selection device includes:
Among the oncoming / preceding vehicle judgment unit, the highway / general road judgment unit, the urban area judgment unit, the intersection judgment unit, the straight line / curve judgment unit, the rain judgment unit, the fog judgment unit, and the snow judgment unit of the surrounding environment judgment device Main data for selecting digital data of a light distribution pattern optimum for the surrounding environment of the vehicle from among digital data of a plurality of light distribution patterns stored in the storage device based on a determination signal from at least one determination unit A selection section;
Based on the determination signal from the signal waiting determination unit or the posture determination unit of the ambient environment determination device, it is optimal for the signal waiting or the posture of the vehicle body from among the digital data of a plurality of light distribution patterns stored in the storage device. An interrupt data selection unit for interrupting and selecting digital data of a light distribution pattern by interrupting selection of the main data selection unit;
The vehicle digital lighting device according to claim 10 , comprising: An optical engine having a light source;
A large number of minimal mirror elements are tiltably arranged, and the tilt angle of the numerous minimal mirror elements is digitally switched between a first tilt angle and a second tilt angle, and light from the optical engine is switched. A reflection-type digital light deflecting device that digitally switches the reflection direction between the first reflection direction of ON and the second reflection direction of OFF;
A storage device storing digital data of a plurality of light distribution patterns;
An ambient environment detection device that detects the ambient environment of the vehicle and outputs a detection signal;
A light irradiating device that irradiates the road surface with light of a light distribution pattern that is ON reflected light from the reflective digital light deflecting device and is optimal for the surrounding environment of the vehicle;
A vehicle lighting device equipped with a control device for illuminating a road surface or the like with a light distribution pattern optimal for the surrounding environment of the vehicle,
An external signal input device that inputs an external signal such as a detection signal of the ambient environment detection device and outputs it as a processing signal;
An ambient environment determination device that determines the ambient environment of the vehicle based on the processing signal of the external signal input device and outputs the determination signal as a determination signal;
A data selection device for selecting digital data of a light distribution pattern most suitable for the surrounding environment of the vehicle from among a plurality of digital data of light distribution patterns stored in the storage device based on a determination signal of the ambient environment determination device; ,
Based on the digital data of the light distribution pattern optimum for the surrounding environment of the vehicle selected by the data selection device, a control signal for digitally controlling the switching of the multiple minimal mirror elements individually is sent to the reflective digital light A control signal output device for outputting to the deflection device;
I have a,
The digital data of the light distribution pattern is binary multi-bit digital data that is created by a computer simulation method in a light distribution design of a vehicle lighting device and obtains a plurality of light intensity gradations. Digital data to which light intensity gradations corresponding to each of a plurality of minimal mirror elements are provided,
A control device for a vehicle digital lighting device. The ambient environment judging device is:
The image of the surroundings of the imaging device of the surrounding environment detection device is used to determine whether there is an oncoming vehicle / preceding vehicle from an image signal output and output an oncoming vehicle / preceding vehicle presence signal or an oncoming vehicle / preceding vehicle no signal Oncoming / preceding vehicle judgment unit that outputs
An image signal output by imaging information around the vehicle of the imaging device of the ambient environment detection device, a vehicle speed signal output by detecting the vehicle speed of the vehicle speed sensor of the ambient environment detection device, and the ambient environment detection device A highway signal or a general road signal is output by judging a highway / general road from at least one of a position information signal output from a GPS or the like and a communication signal output from the ETC of the surrounding environment detection device. Highway / general road judgment section,
An image signal output by imaging information around the vehicle of the imaging device of the ambient environment detection device, an illuminance signal output by detecting the brightness of the vehicle around the illumination sensor of the ambient environment detection device, An urban area determination unit that determines whether or not the area is an urban area from at least one of the positional information signals output from the GPS of the surrounding environment detection device, and outputs a signal that is an urban area or a signal that is not an urban area,
An image signal output by imaging information around the vehicle of the imaging device of the ambient environment detection device, a turn signal output by detecting an ON signal of a turn signal switch of a turn sensor of the ambient environment detection device, An intersection determination unit that determines whether or not the vehicle is an intersection from at least one of the positional information signals output from the GPS or the like of the surrounding environment detection device, and outputs a signal that is an intersection or a signal that is not an intersection;
The steering signal output by detecting the steering angle and / or steering speed of the steering sensor of the steering sensor of the ambient environment detection device, the vehicle speed signal output by detecting the vehicle speed of the vehicle speed sensor of the ambient environment detection device, and the ambient environment A straight line / curve determination unit for determining a road line straight line / curve from at least one of the position information signals output from the GPS of the detection device and outputting a straight line signal or a curve signal;
Whether rain is detected from the rain signal output by detecting rain of the rain sensor of the ambient environment detection device and the wiper signal output by detecting the ON signal of the wiper switch of the wiper sensor of the ambient environment detection device. A rain determination unit that outputs a signal that is rain or a signal that is not rain,
An image signal output by imaging information around the vehicle of the imaging device of the ambient environment detection device, and a radar output by detecting a reflected wave from an object around the vehicle of the radar of the ambient environment detection device A humidity signal output by detecting the ambient humidity of the vehicle of the humidity sensor of the ambient environment detection device, and a temperature signal output by detecting the ambient temperature of the vehicle of the temperature sensor of the ambient environment detection device, A fog determination unit that determines whether or not it is fog from at least one signal and outputs a signal that is fog or a signal that is not fog;
An image signal output by imaging information around the vehicle of the imaging device of the ambient environment detection device, a wiper signal output by detecting an ON signal of a wiper switch of the wiper sensor of the ambient environment detection device, and the ambient The temperature sensor of the environment detection device detects the temperature around the vehicle and outputs a signal indicating whether it is snow or not based on at least one of the temperature signals output. Snow judgment part,
A posture determination unit that determines a change in the posture of the vehicle body from a posture signal output by detecting the posture of the vehicle body of the posture sensor of the surrounding environment detection device, and outputs a posture change signal according to the amount of change in the posture of the vehicle body;
The vehicle speed signal output by detecting the vehicle speed of the vehicle speed sensor of the ambient environment detection device, the position information signal output from the GPS of the ambient environment detection device, and the surroundings of the imaging device of the ambient environment detection device A signal waiting determination unit that determines whether or not the signal is waiting from the image signal output by imaging the information and outputs a signal waiting for the signal or a signal not waiting for the signal,
The vehicle digital lighting device control device according to claim 12, comprising at least one of the control devices. The data selection device includes:
Among the oncoming / preceding vehicle judgment unit, the highway / general road judgment unit, the urban area judgment unit, the intersection judgment unit, the straight line / curve judgment unit, the rain judgment unit, the fog judgment unit, and the snow judgment unit of the surrounding environment judgment device Main data for selecting digital data of a light distribution pattern optimum for the surrounding environment of the vehicle from among digital data of a plurality of light distribution patterns stored in the storage device based on a determination signal from at least one determination unit A selection section;
Based on the determination signal from the signal waiting determination unit or the posture determination unit of the ambient environment determination device, it is optimal for the signal waiting or the posture of the vehicle body from among the digital data of a plurality of light distribution patterns stored in the storage device. An interrupt data selection unit for interrupting and selecting digital data of a light distribution pattern by interrupting selection of the main data selection unit;
The control device for a vehicle digital lighting device according to claim 13 . An optical engine having a light source;
A large number of minimal mirror elements are tiltably arranged, and the tilt angle of the numerous minimal mirror elements is digitally switched between a first tilt angle and a second tilt angle, and light from the optical engine is switched. A reflection-type digital light deflecting device that digitally switches the reflection direction between the first reflection direction of ON and the second reflection direction of OFF;
A light irradiating device that irradiates the road surface with light of a light distribution pattern that is ON reflected light from the reflective digital light deflecting device and is optimal for the surrounding environment of the vehicle;
An ambient environment detection device that detects the ambient environment of the vehicle and outputs a detection signal;
Digital data of a plurality of light distribution patterns , which is binary multi-bit digital data created by a computer simulation method in a light distribution design of a lighting device for a vehicle and capable of obtaining a plurality of light intensity gradations, the reflection type digital data A storage device storing digital data to which light intensity gradations respectively corresponding to a plurality of minimal mirror elements of the light deflection device are stored;
A control program for illuminating a road surface or the like with a light distribution pattern optimal for the surrounding environment of the vehicle by a vehicle digital lighting device comprising:
In order to illuminate the road surface etc. with a light distribution pattern that is optimal for the surrounding environment of the vehicle,
An external signal input device inputs an external signal such as a detection signal of the ambient environment detection device and outputs it as a processing signal;
A surrounding environment determining device determining a surrounding environment of the vehicle based on a processing signal of the external signal input device and outputting the determination signal;
The data selection device selects the digital data of the light distribution pattern most suitable for the ambient environment of the vehicle from the digital data of the plurality of light distribution patterns stored in the storage device based on the determination signal of the ambient environment determination means And steps to
The control signal output device digitally controls the switching of the plurality of micromirror elements individually based on the digital data of the light distribution pattern optimum for the surrounding environment of the vehicle selected by the data selection device Outputting to the reflective digital light deflector;
A control program for a digital lighting device for a vehicle for executing the above. The steps executed by the ambient environment determination device include:
The oncoming vehicle / preceding vehicle determination unit determines whether there is an oncoming vehicle / preceding vehicle from the image signal output by imaging information around the vehicle of the imaging device of the ambient environment detection device, and detects the oncoming vehicle / preceding vehicle presence signal Or a step of outputting an oncoming / no preceding vehicle signal,
An image signal output by the highway / general road determination unit imaging information around the vehicle of the imaging device of the ambient environment detection device, a vehicle speed output by detecting the vehicle speed of the vehicle speed sensor of the ambient environment detection device Expressway / general road is judged from at least one of signal, position information signal output from GPS of surrounding environment detection device, communication signal output from ETC of surrounding environment detection device, and expressway Outputting a signal or a general road signal,
The urban area judgment unit sensed and output the image signal output by imaging information around the vehicle of the imaging device of the ambient environment detection device, and the brightness of the vehicle around the illuminance sensor of the ambient environment detection device. Determining whether it is an urban area from at least one of the illuminance signal and the positional information signal output from the GPS of the surrounding environment detection device, etc., and outputting a signal that is an urban area or a signal that is not an urban area,
The intersection determination unit detects and outputs an image signal output by imaging information around the vehicle of the imaging device of the ambient environment detection device, and an ON signal of a turn signal switch of the turn sensor of the ambient environment detection device. Determining whether or not an intersection from at least one of the turn signal and the positional information signal output from the GPS of the surrounding environment detection device, and outputting a signal that is an intersection or a signal that is not an intersection;
The straight line / curve determination unit detects the steering angle and / or the steering speed of the steering sensor of the steering sensor of the surrounding environment detection device and outputs the steering signal and the vehicle speed sensor of the surrounding environment detection device. Determining a straight line / curve of road alignment from at least one of the vehicle speed signal and the position information signal output from the GPS of the surrounding environment detection device, and outputting the straight line signal or the curve signal;
The rain judgment unit detects rain from the rain sensor of the ambient environment detection device and outputs a rain signal and a wiper signal output by detecting the ON signal of the wiper switch of the wiper sensor of the ambient environment detection device. Determining whether there is a signal that is raining or not raining,
The fog determination unit detects an image signal output by imaging information around the vehicle of the imaging device of the ambient environment detection device, and detects a reflected wave from an object around the vehicle of the radar of the ambient environment detection device. The output radar signal, the humidity sensor output from the humidity sensor of the ambient environment detection device detects the ambient humidity of the vehicle, and the temperature sensor of the ambient environment detection device detects the ambient temperature of the vehicle and is output. Determining whether or not it is fog from at least one of the detected temperature signals, and outputting a signal that is fog or a signal that is not fog;
A wiper output by detecting an image signal output by the snow determination unit imaging information around the vehicle of the imaging device of the ambient environment detection device and an ON signal of a wiper switch of the wiper sensor of the ambient environment detection device It is determined whether or not it is snow from at least one of the signal and the temperature signal output by detecting the ambient temperature of the vehicle of the temperature sensor of the ambient environment detection device, and a signal that is snow or not snow Outputting a signal;
The attitude determination unit detects the attitude of the vehicle body of the attitude sensor of the surrounding environment detection device and determines the change in the attitude of the vehicle body from the output attitude signal and outputs an attitude change signal corresponding to the amount of change in the attitude of the vehicle body Step,
A signal waiting determination unit detects the vehicle speed of the vehicle speed sensor of the ambient environment detection device and outputs a vehicle speed signal, a position information signal output from the GPS of the ambient environment detection device, and the imaging of the ambient environment detection device A step of determining whether or not waiting for a signal from an image signal output by imaging information around the vehicle of the device and outputting a signal waiting for a signal or a signal not waiting for a signal;
The control program for a vehicle digital lighting device according to claim 15 , comprising at least one of the steps. The steps performed by the data selection device include:
Main data selection unit is oncoming / preceding vehicle determination unit, highway / general road determination unit, urban area determination unit, intersection determination unit, straight line / curve determination unit, rain determination unit, fog determination unit, snow Based on a determination signal from at least one determination unit among the determination units, the digital data of the light distribution pattern most suitable for the surrounding environment of the vehicle among the digital data of the plurality of light distribution patterns stored in the storage device A main data selection step for selecting
An interrupt data selection unit waits for a signal from a plurality of light distribution pattern digital data stored in the storage device based on a determination signal from a signal waiting determination unit or an attitude determination unit of the ambient environment determination device or a vehicle body Interrupt data selection step for interrupting and selecting the digital data of the light distribution pattern optimal for the posture of the main data selection unit by interrupting the main data selection step;
The control program for a vehicle digital lighting device according to claim 16 , comprising:

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