TR201611601A2 - External Lighting System for a Vehicle - Google Patents

Abstract

A vehicle exterior lighting system is provided, and comprises light generating devices each connected to the vehicle body. At least one light detection device is included to detect ambient light levels. A controller is configured to selectively activate each light generating device at varying intensity as a function of the detected ambient light level and / or the determined ambient light direction.

Description

DESCRIPTION EXTERIOR LIGHTING SYSTEM FOR A VEHICLE Attachments to the relevant application The current application is “VEHICLE LIGHTING SYSTEM” filed on Nov 21, 2013. WITH PHOTOLUMINESCENT STRUCTURE" US Patent No. 14/086442]]]: 1 "DOOR" filed on January 23, 2015, whose application is partially continuation The continuation of his application, IlEl Yukarlöh, the references cited in their entirety are here are combined with the reference property.

Technical Field of the Invention The present invention relates to vehicle lighting systems in general and in particular It is about vehicle decoration systems using photoluminescent technology.

State of the Art of the Invention (Prior Art) Illumination created from photoluminescent materials, a unique and attractive viewing Indirectly, this type of construction provides a variety of lighting applications for Hand. automotive vehicles Find out Klala Açtlilamaslîl According to one aspect of the present invention, a vehicle lighting system is provided, and each It includes Ella production assemblies, which are attached to the vehicle body. Ambient Educational Levels At least one Handling device is included in order to perceive it. A controller, the perceived environment Variable as a function of hand level and/or set ambient @Hand direction To selectively activate each @Hand-made assembly in density madelandlEllBwaktadlEl According to another aspect of the present invention, there is provided a vehicle interior lighting system, and The vehicle contains a @El production assemblyE that attaches to the body. IsilZJ detection deviceenvironment Built to detect ElglLevel. to make it selectively @müretim emrelüikktif. According to another aspect of the present invention, a vehicle dlgl lighting control method It is provided and the work production assembliesII vehicle body klgin-at least one @El the perception of the ambient EgüLevels with the perception device and/or selective with varying density as a function of the determined direction of the ambient Iglglüll As a result, each of the industrial production devices is activated.

These and other aspects of the present invention, their purpose and characteristics, the following description, After review of the claims and accompanying figures by skilled persons will be understood and appreciated.

Figures can't be opened In the figures: FIGURE 1 shows a vehicle in front of a vehicle equipped with a vehicle interior lighting system according to a construction. perspective view.

FIG. 2 is a rear perspective view of the vehicle shown in FIG.

FIG. 3 is a side perspective view of the vehicle shown in FIG. 1.

FIG. 4 is the production of Elisi drawn along the line (IV-IV) in FIG. 1 according to a construction The assemblyEI is the cross-sectional view.

FIG. 5 illustrates the rationale for a method for controlling vehicle dETI Iglglul according to a structure. diagramIE FIGURE 6 and 7 is a vehicle equipped with a vehicle illumination system. layout shows.

Distinctive Element of the Invention As required, the detail of the present invention is disclosed here. However, the opened yapllândülnalarlîil, açElamas are available in various and alternative forms. It is understood that there are examples that can be made and the figures show a detailed design is not required and some figures can be enlarged to show the function in general. or downsized. Consequently, the specific structural and functional details explained here. Not as a weapon, but instead to apply the present invention in various aspects. it should be interpreted as an exemplary basis for teaching a person skilled in the art.

The term “and/or” as used hereinformatively refers to one or more parts. UseRelevant, print any of the listed parts yourself. or listed meaning that the items can be used in any combination of two or more. is coming. For example, when a composition is described that contains components A, B and/or C, this composition only A'yÇlyaInEta B, only C, combination of A and B, combination of A and C combination of B and C or combination of A, B and C may contain.

Referring to FIGS. 1-3, the vehicle lighting system for a vehicle (12) (10) will now be described herein according to a work done. System (10), each, front body Vehicle (12) including edge(16), rear body edge(18) and side body edge(20) The bodywork couplings include one or more Eig production assemblies(14). Sample EKI production assemblies (14), front, rear and side body k-ilarll (16, 18, 20) to create columns and sales by covering a large area are arranged in rectangular strips. However, with EE production assemblies (14), It can be arranged in other shapes and sizes when requested and it can be arranged in a smaller area. coverage should be appreciated. In addition, EE] production assemblies HAND (14) at the same time to circumvent vehicle (12) other body parts not shown here, such as hood, roof can be made should be appreciated. Here, EEI production assemblies (14) mediated (12) EKI production assemblies (14) are similarly mediated, although it has been described as (12) is intended to be adapted into As such, each ADD manufacturing assemblyE(14) can be configured as a print[I]Zl LED arrangement. can be achieved. Heat generation devices (14) can be shaped into the EZII and are known in the art. any vehicle can be connected to the corresponding bodywork k-ilarE.

Still at FIGURES 1-3[Founding Eila, the system (10) additionally checks the ambient EgiEl levels. It contains at least one Equalizing device for detection. System according to a built (10), means (12) are made to detect ambient Elglevels that are correct with the front end. includes the conventional day/night sensor (22). In addition, system (10), vehicle (12) rear It is built to view the right place and the tool with a different view. a camera (24). Images taken by the camera (24) are taken from the rear (12) kEnEa can be processed to determine the correct media Egilîlevels. more As will be described in detail, each of the production devices (14) is based on the algae-declared medium. a variable as a function of level and/or ambient Egill determined direction. can be selectively activated.

Referring to FIG. 4, a cross-sectional view of the EE production assembly 14, a thick polycarbonate, poly-methyl methacrylate (PMMA) or polyethylene terephthalate (PET) a substrate 26 which may contain material. Positive electrode (28), substrateE (26) issued on and not to be traded with it, containing or containing silver It contains a conductive epoxy, such as epoxy containing Positive electrode (28), semiconductor ink emitting radiation arranged in (32) and applied on the positive electrode (28). multiple @Ekaynagüb electrically connected, such as diodes (LEDs) (30) Positive electrode (28) is the positive electrode disposed in semiconductor ink (32). Multiple Ella sources such as Sila emitting diodes (LEDs) (30) applied on (28) Electrically connected Negative electrode 34, not to be wiped with it It contains a transparent or translucent conductive material such as indium tin oxide.

Positive and negative electrodes (28, 34) in alternative configurations IgiEi production assemblyII In this case, the positive electrode (28) is separated from the LEDs (30). a transparent or semi-transparent medium to allow it to be transmitted through the spreading Sigil. material must be included. Positive and negative electrodes & (28, 34) each, connected Connected to a controller through the mixed busbar (62, 64) and the opposite conductor cables (42, 44). (36) are electrically connected tolEl Busbars (38, 40), positive and negative electrodes. (28, the right connectionEhoktalarDbaralar (38, 40) a uniform mountain of sanityElEhlElEtesvik To do this, each bar (38, 40) can be in their opposite corners.

The controller (36) can be placed in various places in the vehicle (12) and the conductive cables The (42, 44) vehicle (12) can be passed through the corresponding body clin. Controller (36), Controller that is communicatively connected to the day/night sensor (22) and camera (24) (36) simultaneously provides a power supply corresponding to the operating vehicle power supply at 12 to 16 VDC. source (46) may be electrically connected. The isua production shown in FIGS. 1-3 each of the assemblies (14) can likewise be connected to the controller 36 and thus Activation of each @El generation assembly II (14) independently of the controller (36) It is envisaged that the controller (36) may be provided with a A memory 50 with processor 48 and instructions 52 executed by processor 48 may contain. Instructions (52), day/night sensor (22), camera (24) or other one or more input signals (ie signals 54 and 55) that can be detected by vehicle equipment. depending on the controller (36) to control each production assembly (IEQ14) selectively. provides the opportunity The LEDs (30) are randomly or controlled in the semiconductor ink (32). can be distributed. LEDs (30) are gallium nitride, approximately 5 to 400 microns in size. can correspond to micro LEDs and semiconductive ink (32) One or more gallium, indium, silicon carbide, phosphorus and/or translucent It can contain various binders and dielectric materials such as polymeric binders. half conductive ink (32), ink made of selected some-(s) of the positive electrode (28) It can be applied with various printed roses, including spraying and silk screen processes.

More specifically, the dispersion of the LEDs 30 in the semiconductor ink 32 /e a large QuantityCryarDeposition of conductive ink (32) with leisla positive and negative electrodes (28, 34) is envisaged to be shaped and sized to be aligned. Printed Additional information regarding the layouts of 12 ULTRA FINE PRINTED LED LAYER” titled in US Patent (Lowenthal et al.) angled Still referring to FIG. 4, a photoluminescent makell56, negative electrode (34) is drawn up on it. photoluminescent EKSG), coating, layer, film or other can be arranged as a suitable precipitate. According to the currently shown construction make photoluminescentE(56), an energy conversion layerIE(58), optional stability layerID Arranged by multi-layer cohesion with (60) and optional protection layer IEI(62) can be achieved. Energy conversion layer E(58), with phosphorescent or fluorescent properties at least one photoluminescent material (64) having energy-converting elements contains. For example, photoluminescent material (64), raylens, xanthans, polyphyrins, It may contain organic or inorganic fluorescent dyes, including phthalocyanines. In addition or alternatively photoluminescent material (64), YAG; may contain phosphors. The energy conversion layer (ECSS) is an energy conversion layer using various methods. (64) of the photoluminescent material in the polymer matrix to create a homogeneous counterpart. It can be prepared by mountain BiasEi/assl. Such methods are used in a energy conversion layer II (58) preparation from formulationhand and energy conversion layer II (58) may include coating on the negative electrode (34). energy conversion layerEI(58), dyeing, template printing flexography, spraying, half coating, daldlEina, roller coating and rod coating through to the negative electrode (34) applicable. Alternatively, the energy conversion layerEl(58), slîEltaslîLlEElortamEl It can also be prepared with methods that do not use it. For example, energy conversion layerEKSS), extrusion, injection seal, compression seal, calendering, hand forming etc. solid state solution (in dry form) that can be incorporated into the polymer matrix that can form vasculum homogeneous karlgß) into the photoluminescent material (64) daglfllöîaslîl vasEislıla can be prepared.

Photoluminescent structure(56), photoluminescent in energy conversion layer(58) Optical optionally to protect the material 64 from related and thermal degradation associated with or integrated into the energy conversion layer (58) as It may include a stability layer that can be constructed as a separate layer.

Separated from photoluminescent structure(56), photoluminescent structureEJSö) and environmental exposure Stability layer to protect it from physical and chemical damage. (60) or a layer of protection that is optically bonded or adhered to any other layerEll62) may contain. Stability layer(60) and/or protection layer62), each layer wart: coated or printed or sulllaminated or embossed or other any suitable means may then be combined with the energy conversion layer 58 . A in the activated state (i.e. not photoluminescent illumination hide [SIK] production gear(14) unnoticeably as long as [SIK] production gearIE(14) A cloaking element (66) arranged on the photoluminescent make.. (56) can be achieved. For example, the hiding element El(66) can be either plain or compatible with the background. It can be a metal-coated layer. In this regard, many (14) carefully apply large areas of the tool (12) without affecting the aesthetics of the tool (12) can be arranged to cover. Composed of photoluminescent (56), spring-loaded IglEla from LEDs (30) in working style Made to illuminate incorrectly with warning. More specifically, LEDs (30) yayllân @El enters the energy conversion process and the photoluminescent material (64) LEDs that are partially converted and re-emitted from there at a different wavelength (30) EE spread by the introductory @Barak here and is flat in FIG. re-spring from photoluminescent material (64) SIK) here It is expressed as a transformed llli and is indicated by dashed arrows in FIG.

According to one construction photoluminescent material (64), also known as downcycle, input It is formulated to convert Slgb at a longer wavelength.

Alternatively, the photoluminescent material 64, also known as upconversion, is the ingressing lglgllîl. It can be formulated to convert a lighter wavelength to Sigia. Each approximately, the photoluminescent material (64) transformed by @El afterletla karsHJEl The incoming photoluminescent fabric (56) can be emitted or used with an energy cascade. and here is another one with the converted SIK) energy conversion layer EUa (58) acts as the input row to stimulate photoluminescent material formulation and thus, the transformed photoluminescent yaplîllan (56) can spring or it can be used as the logging EiZl and the process continues like this. description here According to the transformation processes, the Ezlaki wave between the incoming ElZl and the transformed EiZl The difference in wavelength is known as the Stokes shift and is due to a change in wavelength. It acts as the basic operating mechanism for the corresponding energy conversion process. doing According to a manufactured Ena, the photoluminescent material (64) is a color expressed in a desired color. The emission spectrum is formulated to have a Stokes shift- which leads to is being done. For example, the energy conversion process is carried out by down-conversion and thus entering the EK) of the visibility spectrum such as blue, violet or ultraviolet (UV) Eig. EgiEil at the lower end. This is how blue, violet or UV LEDs can be made in other colors The use of LEDs with the advantage of connectivity or the desired color on the LEDs. It can be used as LEDs (30), which together provide photoluminescent (56) LEDs (30). provides the opportunity In alternative configurations, energy conversion layers(58), each with an input Egilîl It was made to convert to a longer or more kea wavelength. may contain photoluminescent material. Made of a differentEliotoluminescent materials, the energy conversion layers 58 may be interspersed therein. Alternatively the differenceIEI photoluminescent materials can be isolated from each other if desired. For example, different photoluminescent materials arranged to alternate in mosaic or other pattern can be achieved. In any construction, each photoluminescent material uniquely from the corresponding edge of the LEDs (30), which can be arranged in different shapes. can be warned. In some/apilânduna, each different photoluminescent material emerges. The illumination is an Egil EiZl transformed from each different Zphotoluminescent material into an arc. karEElik-kars[[[EI future associated transformed Egil with emission spectrum Formulated to have a Stokes shift, causing it to be expressed in a unique color can be achieved. Emitted from two or more different Eliotoluminescent materials Egil karElElEiasEa a wide variety of colors, stimulated by a single photoluminescent material can be expressed in an inaccessible way. Considered colors, OKHand suitable KENEZI, which can be obtained by choosing photoluminescent materials and LED combinations. EiZlkarEmlar, which includes any combination of green and blue Egil. different Additional information on the arrangement of photoluminescent materials and the corresponding LEDs is fully filed April 27, 2015, incorporated herein by reference vasEislîla In the US Patent No. 14/697,035 entitled "LIGHT GENERATION DEVICE RELATED TO A VEHICLE" (Salter et al). 8.232.533 numbered “HIGH EFFICIENCY ELECTROMAGNETIC ENERGY” filed on PHOTOLIC AND ENVIRONMENTAL FOR RECYCLABLE AND SUSTAINABLE SECONDARY EMISSIONS STABLE MULTI-LAYER STRUCTURE" as disclosed in the US Patent (Kingsley et al.) and the entire explanation thereof is hereby incorporated by reference. Referring to FIG. 5, a rationale for a d& @El control method 68 is presented. The diagram is shown according to a different construction. Method 68, controller of system 10 It can be applied by (36) parties and Ella production assemblies II (14) vehicles & (12) front, rear and atiflia will be found and described for the sake of example. Named (70), controller (36), vehicle (12) front Use the day/night sensor (22) or other device to detect the ambient IgHZJ level in the clinic (16) activates a suitable sensor. Named (72), controller (36), vehicle (12) rear clin. Use the camera (24) or other suitable device to detect the ambient level that is correct (18). activates the sensor. The names (70 and 72) are shown and described in a linear way. although they can be arranged at the same time or in a different lea order. realizable should be appreciated. AcI Iida (74), controller (36), tool (12) side- (20) determines the correct level of media activity. According to one construction, the controller (36) Search for perceived media @Levels with medium (12) towards front (16) and back (18) by calculating the value of the media (12) to the sidebEb (20) the correct media Egis determines. Alternatively, the middle (12) is sideways. (20) the right environment Elgllîl level can be detected using a special ISiElsensor. Named (76), controller (36), depending on the ambient light levels on the front, rear and half sides (16, 18, 20) of the vehicle (12) the medium with respect to the vehicle (12) determines the direction of Elgiöllöl. Named (78), controller (36), The ambient Sigil levels determined in the names (70-74) and the environment Sigilîl levels determined in the names (76) selectively at varying densities depending on the direction @IE Production assembliesIE(14) makes it active. As described here, the medium Egüdogal lglgllîdyani sun iglgiûîlve At the same time, such as the hand that comes from other vehicle, street light, and a similar element. dlîlgllîl includes the interest directed towards the tool (12) from the sources. Indirectly, Strict Production assembliesII (14) the environment that hits the vehicle (12) must be adjusted as Iglglub half throughMa @Hand production assemblies (14), perceived gloss[IZIar|:| to be balanced llStlEllable. That is, the [glEl production assemblies II (14) can be illuminated at higher intensity, while in other places @Hand Production assembliesII (14) found at lower intensity lighting can be provided. As a result, the vehicle (12) can be loaded from the front, rear or side (16, 18, 20). Lighting provided by Ella Production equipmentsEl(14) is equally mountain-[gllî appears and thus this gives the vehicle (12) a more elegant appearance.ElnaktadlEl Referring to FIGURES 6-7, an example layout shown accordingly. As shown, lSlKl production assemblies(14), vehicle (12) rear body klîlnub (18) is connected and arranged in satIEllar and columns. In this example, The sun hits the rear body air conditioner (18) of the angle in a direction indicated by Elgluok (80) For example, only a portion of the tool & (12). Sun Elglila is in direct contact with a typical DJE may come against the twilight situation. In such a case, the line production assembliesII (14) at the same density, back body klgfn- (18) direct view-[gileda rear body kEfnlEllEl (18) left side. true EIKJ production assemblies placed II (14) perceived brightnessOther body terminal II (18) right The perceived brightness of the LGIKl generation device, which is positioned correctly, is likely to be higher. In order to compensate for this, the controller (36) must be used by the vehicle (12) of the rear body. (18) can determine the level and direction of media interest, and then, the rear body climate- (18) brightness detected directly in legumes, evenly throughout the rear body kEfnIJIS) @Handmade assembliesIE(14) activated at varying densities to disperse somehow can bring. For example, LHEL fabrication assemblies (14), shown in FIG. a gradient density along the rear body klElnEUB) as indicated by the shading Here, darker shading, higher ambient Etlgllîl Increases its visibility between levels with higher density for Elnak Elgb karslüKl is coming. If applicable, the controller (36) must be individually adjusted to the determined ambient Elglß level and side to side[Ella production with tool (12) front (16) and sides (20) as hand devices IE(14) can also be activated. According to the understandable example, intermediate (12) front (16) and Istrian production assemblies with right side (20b) (i.e. with rear viewfinder) hand(14), direct solar Elgluts become active at lower intensity indirectly, as they are protected EEEJ Production assemblies with tool (12) on the left hand (20a) Intended to compensate for left-sided k-probes directly exposed to Eglulevels It can be activated at a variable intensity.

Accordingly, the vehicle exterior delivery system (10) is advantageously described herein. has been made. It should be appreciated that the system 10 described herein can be adapted for various functions. should be done. For example, relevant production fittingsII (14) functional or decorative lighting For example, ISIL production assemblies(14), front The existing vehicle can also be operated to supplement the headlights and taillights.

In the other example, Ella production devicesE(14), vehicle (12) reverse maneuver or other maneuver ElambalarEblarak can be worked on. In yet another example, for example, Ella production devicesII (14) are used as a switchback signal or other indicators. llStlEllable. These are a few potential use cases for the system (10). and those skilled in the art, other lighting that may benefit from the system (10) described herein. applications.. varl[g]IEl1acept.

For purposes of explaining and describing existing teachings, “substantially” and “approximately” terms herein do not refer to any quantitative comparison, value, measurement or other statement. used to represent the degree of inherent uncertainty attributable to alülnaktadE AyrlEla The terms "to a large extent" and "yaklasllZI' are the subject of the leading to a change in its basic function - change of quantitative representation from the stated reference used to indicate the degree of display Without breaking the concepts of the present invention, above, on the above-mentioned structure It is understood that variations and changes may be made, and in addition, such terms, unless their language expressly indicates otherwise. inclusion[gliinlasllüialllü] a 8 MM Na Na w mmVNHHJHJHÜJHHUn-nn.”vu-”n”HHÜÜHHHHHH.ud”.u””nunHHHHwu./H.m.u.un”Huuuuuünunnn” #mm k « 8 « ,v « « Detect ambient light level towards the front of the vehicle Detect the ambient light level towards the rear of the vehicle Determine the ambient light level towards the side of the vehicle Determine the direction of ambient light Light production based on ambient light levels and ambient light direction activate your gear selectively

Claims (1)

REQUIREMENTS Vehicle lighting system, including: at least one @sense device to detect ambient-sensitive levels, each with ISIL production devices connected to the vehicle body, and the sensed environment as a function of the EG Level and/or the determined ambient @Ki direction as a production function of the selective intensity structure to make the controller. Body kEmII vehicle& front, rear and side. Vehicle external illumination system according to Claim 1, which it includes. Vehicle lighting according to claim Z, in which at least one Hand-held sensing device ELE includes a day/night sensor to detect ambient LH-levels with the front of the vehicle correct At least one Hand-sensing device II in addition to the rear of the vehicle. Vehicle language lighting system according to claim 3, which includes a camera made to detect the correct ambient Elglj levels. The side through the controller. front and back of the vehicle to determine the correct level of media interest. Vehicle illumination system according to system 4 made-[giljl] for calculating the interpolation of the correctly detected environment [SIgiEllevels]. The lglEl production assemblies located in the same bodywork klglnHa are arranged along the k-i and the controller's body. the unevenly oriented environment ElgiEb was wrongly equipped with the same light body. Vehicle lighting system according to claim 1 with a photoluminescent structure, containing the following: a heat-inducing environment, each connected to the vehicle body. yapllândlEllân controller. Body kEnll vehicle front, rear and side lighting system according to claim 8, which includes vehicle interior lighting system. Vehicle lighting system according to claim 8, comprising a day/night sensor. The vehicle side of the vehicle lighting Controller according to claim 10, which includes a camera configured to detect. Vehicle leveling system according to system 11, designed to calculate the intermediary value of the sensed ambient Efficiency levels towards the front and rear of the vehicle, in order to determine the correct level of ambient Efficiency. Egil adaptive, which contains photoluminescent structure and photoluminescent structure, emitted from pressure LEDs. that is, the vehicle interior lighting system according to claim 8, which is made to illuminate manually. A vehicle with the following names Elusive Eating method: EEat least one EEsensing device that is connected to the vehicular body with production devices Detection of ambient EquilibriumsEa detection of ambient ELevel and/or ambient Elasticity of each determined direction as a production function selectively activating as a production function. Vehicle lighting system according to Claim 14, including bodywork and vehicle front, rear and side. Vehicle illumination according to claim 15, wherein at least one E-detection deviceEE includes a day/night sensor for detecting ambient E-levels towards the front of the vehicle, in addition to the rear of the vehicle with at least one E-detection device. Vehicle lighting system according to claim 16, which includes a camera built to detect the correct environmental EEEI levels. The instrumented side of the controller. Vehicle Leveling System according to structure-[giljlsystem 17] for calculating the intermediary value of the perceived ambient Efficiency levels towards the front and rear of the vehicle, in order to determine the correct environmental Efficiency level. EE production assemblies with the same [body body] 0 k. The environment in which the controller is disposed throughout and the body part of the controller is oriented unevenly, but the perceived brightness with the EE production assemblies in the same bodyshell is not activated at least Exterior lighting according to Claim 14, in which it contains a photoluminescent structure made to illuminate by Etigl radiating from the printed HJILEDs