TR201604821A2 - Illuminating molding for a vehicle - Google Patents

Abstract

A molding for a vehicle is provided herein. The molding includes a plurality of light sources. A photoluminescent structure is configured to luminesce in response to excitation by at least a portion of the light sources. A viewable portion is illuminated by the photoluminescent structure.

Description

DESCRIPTION LIGHTING MOLD FOR A VEHICLE References to the relevant application The current application is “VEHICLE LIGHTING SYSTEM” filed on Nov 21, 2013. WITH PHOTOLUMINESCENT STRUCTURE.” basllElÇ] 14/086,442 number[l]]:| US Patent “DOOR” filed on January 23, 2015, which is the follow-up to the application Continuation of the application The relevant applications cited are hereby referenced in their entirety. Technical Field of the Invention The present invention relates to vehicle lighting systems in general and photoluminescent systems in particular. Yapllârlîlt is related to the vehicle lighting systems used.

State of the Art of the Invention (Prior Art) Illumination from photoluminescent materials is a unique and compelling viewing Therefore, Elsîla provides various lighting applications with such structures. They are intended to be applied to automotive vehicles for this purpose. Xia Explanation of the Invention] According to one aspect of the present invention, a kalliil of a vehicle is provided, named Kallü, Contains multiple sources of work. Sources of photoluminescent structures.. at least one part A visible light k-i, make photoluminescentEliarafEUan aydIatllBaktadE According to another aspect of the present invention, a stay is provided for a motor vehicle. Thickness contains multiple sources of heat. At least one source of photoluminescent materials Adaptation by the clinic. Made to illuminate wrongly, it can be seen one km, make photoluminescentAdyd byEIatllBwaktadEl A controller, LglEl resourcesII YapHandlElüiaktadlE to check the activation status According to another aspect of the present invention, a formula for a motor vehicle Kalli-al contains multiple ls-LIE sources. Photoluminescent structure @El sourcesII to be clarified as [U] adapted by at least one member of the public YapllândIEllB'iktadlB Visible km, photoluminescent visible here, the k-i appears in a metallic form when in the illuminated state.

These and other aspects of the present invention, purposes and properties, following description, following examination of the claims and accompanying drawings by those skilled in the art. will be understood and appreciated.

Opening Shapes[lilllamal:l In the figures: FIG. 1, a vehicle driver's side equipped with luminescent thicknesses according to a structure] perspective view.

FIGURE 2 is a passenger-side vehicle equipped with luminescent hearts according to a structure. perspective view; FIG. 3 is a cross-sectional view kaIII along line (II-II) in FIG.

FIGURE 4 illustrates the energy conversion process of creating a single color according to a construction. shows.

FIGURE 5, energy conversion for creating one or more colors according to a structure shows the process.

FIG. 6 is the tool using the callilar shown in FIGS. 1 and 2 according to a structure. block diagram of ayd Iatma systemIE Detail of the Invention As required, the detail of the present invention is disclosed here. However, the openings are available in various and alternative ways. A detailed design demonstration of the figures that are understood to have examples that can be made is not required and the baselines can be enlarged to show the function overview. or downsized. Indirectly, certain structural and functional details explained here. Not as a syllabus, but instead to apply the present invention in various aspects. it should be interpreted as an exemplary basis for teaching to a person skilled in the art.

As used herein, the term "and/or" refers to one or more parts. using the listed parts. any one's own bass. 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'yuyalnîta 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.

The description below is a tool. adaptable to be placed on is doing. Rema It contains at least one photoluminescent structure.

Adaptable photoluminescent structure & visible cuffs in one or more colors lighting & current invention, automobile lighting applications. to be oriented although the teachings provided here are similarly, not to be confused with this, air draft & sea vesselEliJ train, ATV (for carrying one or more passengers, such as off-road vehicleDZl designed & other types of vehicles. It is appreciated that lighting applications can also be applied. should be done.

FIGURES 1 and Z, and a tool (10) d&nl:l according to a construction shown in general. The device (10) is a decorative and/or protective device or contains more stay&. For example, a few stays in FIGURES 1 and 2 (12- While the roof duct stays against the stays (16 and 18), each of them, the vehicle. (10) side It is placed on the marspie (22, 24) opposite the EIlBilSl positioned on both sides. However, stay& locationsII not match with those shown in FIGURES 1 and 2&Ie tool (10) and it should also be appreciated that it may contain other locations within it at the same time. SameEtamanda following the tutorials provided here, side cowl stays|,`_lalt cowl stays,`_lwindows sheds& etc. It is thought that other types of stays such as Also here is the description the retained bone is not fixed to a certain size, shape, and length [where they are placed on the gi&ie have linear and/or non-linear segments to complement the substrate possible should be appreciated. It remains according to the currently shown construction (12-18) each one is the length of stay (12-18) exposed to the vehicle (10) and the sound environment to a large extent. It contains a visible k&nE{26) that can extend across. in more detail below As described, the visible k-i (26) is relative to one or more vehicle-related conditions. luminous and has a metallic appearance when not cleared can happen.

Referring to FIG. 3, a cross-sectional view of the kaIII(12) according to a construction is shown. Rim (14-18) or other stays mounted in a similar way It can be understood that& stay as shown in FIG. 3& (12), previously FIGS 1 and As shown in Fig. 2, the lSII forming assembly (28), photoluminescent (30) and visible klîfnEQZö) has an arrangement containing ylIg'llBrlSl may correspond to the assembly and include a substrate 32 with the lowest layer. Lower (PMMA), polyester, polypropylene or polyethylene terephthalate (PET) material and It is arranged on the desired surface of the vehicle on which it can be moved (12).

Alternatively, as a cost-saving measure, the substrate 32 can be pre-existed directly through the media. which is the structure (ie, the kaIIE(12) field tool desired surface). For example with respect to kalliîla (12), the substrate (32) is additionally capable of adding conductivity to the @Eolusturma assembly It can be faced with extruded aluminum ceiling channels. a positive electrode 34. Positive electrode 34, not to be wiped with it contains a conductive epoxy, such as a silver-containing or legume-containing epoxy. positive electrode (34) is disposed in conductive ink (38) and has a positive electrode (34) use at least one of the multiple LED sources (36) applied. electrically connected Similarly, a negative electrode (40) is an LED source. (36) uses at least one electrical wire. The connected & Negative electrode (40) is arranged on the conductive ink (38) and a transparent or semi-transparent conductor, such as indium tin oxide, not to be sealed with it contains material. In addition, each of the positive and negative electrodes (34, 40) from karsEIJKJ electrically connected Busbars (46, 48) with positive and negative electrodes (34, 40) Kars EdgesCan be printed along the hand and between the busbars (46, 48) and the conductive ends (50, 52). Intended to encourage uniform distribution of minds along the connecting points (46, 48) each bar (46, 48) can be mixed-edges Etla.

LED sourcesE(36), a random or controlled flash in the semiconductor ink (38) It can be dispersed and photoluminescent (30) correctly oriented or focused SigiEJ / separating It can be done for. LED sources36), which are approximately ZJS to 400 microns in size gallium nitride can be mixed with micro LEDs and the semiconductor ink (38) one or more gallium, indium, silicon carbide, phosphorus and/or splitter, but not silEIIIJJ It may contain various bonds and dielectric materials such as transparent polymeric bonds.

In this respect, conductive ink (38), LED sourcesII (36) density, various lighting applicationsVarious LED sources (36) applicable for handheld concentrations may include IEI. LED sources(36) and semi] conductive ink (38) available from Nth Degree Technologies Worldwide can be achieved. Semiconductive ink (38) positive electrode (34) selected kEtn-(larlub) through a variety of printed brooches, including inkjet and silkscreen processes applicable. More specifically LED sourcesII (36) semiconductor ink (38) precipitation of a large amount of conductive ink (38) that can be dispersed into shaped to align with the positive and negative electrodes (34, 40) and dimensionedlEIIBiasEl is envisaged. Ultimately, the positive and negative electrodes (34, 40) electrically connected LED sources & (36) air conditioner (46, 48), controller (42), power It can be illuminated by the combination of the source (44) and the conductive ends (50, 52). A The power supply(44) according to the construction, against the vehicle power supply operating at 12 to 16 VDC[l]]Zl can come. Additional information on the construction of heat generators, in full here count]]:l“ULTRA-THIN PRINTED LED LAYER REMOVED FROM THE SUBSTRATE” baslllZlElABD It is disclosed in his patent (Lowenthal et al.) Currently referring to FIG. 3, make photoluminescent(30), a coating, layer, film. or as other suitable precipitate is disposed on the negative electrode (40). Currently photoluminescent material(30), an energy conversion layer I:(54), according to the structure shown multi-layerIEIiJir with optional stability layerIEa56) and optional protection layerIEa58) can be arranged.

Energy conversion layerEl(54), energy with phosphorescent or fluorescent properties comprising at least one photoluminescent material (60) having transforming elements. For example, photoluminescent material (60), including raylens, xanthans, polyphyrins, phthalocyanines It may contain organic or inorganic fluorescent dyes. Additionally or alternatively Phosphors from the group of Ce additives such as photoluminescent material (60), YAG; CeE may contain. The energy conversion layer (54) is formed into a homogeneous layer using various methods. In order to create a reciprocal, the photoluminescent material (60) in the polymer matrix is dispersed [ElIB" origin: l Vasius can be prepared. Such methods are based on a slîel tasljîlED environment. energy conversion layer (54) preparation from formulation and energy conversion layer II (54) to be coated on negative electrode (40) or other desired substrate may contain. Energy conversion layerEl(54), painting, flexography with template printing spraying, yarilZJ coating, roller coating and stick coating vasiulus negative can be applied to the electrode (40). Alternatively, the energy conversion layerEI(54), sIEEI It can also be prepared by methods that do not use stonework. For example, energy conversion layerE(54), extrusion, injection-calling, compression-calling, calendering, @Il with shaping etc. KatElhal that can be incorporated into the polymer matrix that can be formed dispersion of photoluminescent material (60) into solution (dry homogeneous mixture) vasßsula can be prepared.

Make photoluminescent EQ30) optionally available in energy conversion layer (54) to protect the photoluminescent material (60) from iglei keIEi and thermal degradation. stability layerIZ(18). Stability layerE{56), optically energy conversion a separate layer combined with or integrated with a layer (54) can be made as AyrEla photoluminescent structure(30), photoluminescent structureELIZK30) in order to protect it from physical and chemical damage caused by environmental exposure. stability layer. (56) or any other layer (stability layerEE (56) In the absence of a transform layerIEb (54)) an optically connected or built-in protection layer E(58). Stability layerIZ(56) and/or protection layerE(58), each coating/either printing/either sluamination or embossing The vasföhsüia can be combined with the energy conversion layer (54). photoluminescent structures EFFICIENT ELECTROMAGNETIC ENERGY CONVERSION AND SUSTAINABLE SECONDARY EMISSIONS PHOTOLIC AND ENVIRONMENTALLY STABLE MULTI-LAYER CONSTRUCTION FOR" (Kingsley et al.) and all disclosures thereof are hereby incorporated by reference. located in Photoluminescent material (60), @Boost assembly (28) LED sourcesII (36) after SigillI of a certain wavelength coming from at least one kianl It is formulated to adapt. As a result, entering @El is an energy transformation. enters the process and re-radiates at a different wavelength. photoluminescent material (60), also known as downconversion, entering Elgiüiaha long It is formulated to convert Elgh at one wavelength. As an alternaive photoluminescent material (60), also known as upconversion, is an intrusion iglgiijuaha kyla It can be formulated to convert lggia at wavelengths. In each approach, @Ki immediately photoluminescent (30) converted by photoluminescent material (60) can be emitted or used in an energy cascade and here, the converted SIK) another photoluminescent material formulation with energy conversion layers (54). acts as lglEi, which logs in to warn, and thus subsequently converted iglEi also photoluminescent (30) can be emitted or used as an incoming @Hand in light and The process continues like this. According to the transformation principles described here, the stimulus is related to The difference in the converted @Earasliaki wavelength is known as the Stokes shift and @El The basic operation of the energy conversion process corresponding to a change in wavelength it works as a mechanism Again with reference to FIG. 3, visible k-i (26) photoluminescence.. (30) is drawn up on it. BazEJ/apllând Elnas, visible k-i (26), a plastic, silicone or urethane material and photoluminescent.. (30) and @ua forming Preferably, visible k-i (26), photoluminescent do (30) çllZlan converted to lâlgb at least kliinen it must be permeable to this On the other hand, the visible k-i (26) is photoluminescent when performing an energy conversion process. Yaplj(30) sides will be illuminated In addition, visible k-i (26), upper caliber guardian ElisEIa photoluminescent structure (EBO) and @IKI forming mechanism (28) also protect the function. can see. The visible k-i (26) indicates the visual potential when in the luminescent state. arranged in a planar and/or curved manner to enrich can be achieved. Like the photoluminescent structure(30) and the IglKl generating assembly (28), visible k-i (26) can also benefit from a slim design so that the overall profile of the thick (12) can help minimize In some structures, a decorative layer (62) is combined with visible k-i (26). make photoluminescentE(30) inter. can be placed. The decorative layer 62 is a polymeric material or other suitable material and may be made of visible material. (26) made to change or control its appearance. For example decorative layer 62, visible k! (26) in the illuminated state, visible tissue (26) It can be made to give a metallic appearance. Decorative in other constructions layer (62), overlay (12) of any color to stick the paintwork. can be painted. In any case, the decorative layer (62) is photoluminescent. (30) an energy will not be blocked from lighting the visible clinic(26) when the conversion process occurs it should be at leastElzlan klgtnen lglPermeable in a way By referring to FIGURE 4, an energy source is used to create monochrome lighting. The transformation process 64 is illustrated according to a structure. For example, energy The transformation process 54 is described below using the pattern 12 shown in FIG.

In this construction, photoluminescent.. (30) energy conversion layerEl (54), LED Elgllcontinuous arrows from sources (36) are different from the one associated with @Ela who logged in Yapllândlîllüilgl to transform visible lSlgia (i.e. dashed arrows) having a wavelength contains only one photoluminescent material (60). More specifically, photoluminescent material (60), LED sources (36) are supplied with an Egil emission wavelength. It is formulated to have an absorption spectrum. photoluminescent material (60) at the same time, according to the practice of transformed visible Sigil illumination having an emission spectrum expressed in the desired color that can change It is formulated to have a Stokes slip. SIK with rotated view) visible k-i (26) through it, kallfitan (12) yayllB1akta and thus visible klîlnl (26) Energy conversion in a building process (64) is performed via downconversion so that the input SIK) blue, purple or ultraviolet (UV) at the lower end of the visibility spectrum, such as ISJKI. Like this BiasElie previous Relatively cost advantage over energy conversion process Available LED sources: l(36) It provides the opportunity to be used as The lighting provided offers a unique and attractive viewing experience. Energy conversion to bring together lîlîa in multiple colors The process 66 is illustrated according to a structure. Energy conversion for consistent purpose The process 66 is also described below using the calliil 12 shown in FIG. 3 . This energy conversion layerE(54), energy conversion layer in yapliândlîilna. (54) interspersed It contains two different Ephotoluminescent materials (60, 68). Alternatively, photoluminescent materials (60, 68) can be isolated from each other when desired. energy at the same time transformation layer II (54) may contain more than two different Zphotoluminescent materials and this In this case, it should be appreciated that the teachings provided below are similarly valid. A The energy conversion process (66) in yapllândlîilna can be induced by welding blue, violet and/or UV The sub-transformation using iglgiEl occurs vaslfâslsila.

Photoluminescent materials (60 and 68)warn:layrlgl]ö oltadlB In other words, photoluminescent materials (60 and 68), Stoke, which gives non-overlapping absorption spectra and different emission spectra. shifts are formulated to have Ilei. Photoluminescent at the same time emitted from photoluminescent materials (60, 68) in formulating materials (60, 68). converted SIK) to the corresponding Stoke without warning the other, unless otherwise requested. Care should be taken to select the slip II. LED as an example according to a precedent LED sources shown in the form of sources.. (36) first künyalnîta photoluminescent to emit lgfglEl, which has an emission wavelength that excites the material 60 is being built and led to the conversion of the incoming light into the first color visible light. Similarly, the LED source (36b) is shown as an example. sourcesII (36) an emission that stimulates the photoluminescent material (68) in the second use made for the incoming lglgE/aymak with a wavelength Preferably the first and second colors, leading to the conversion of visible light in color visually distinguishable from each other. From this point of view, the LED sourcesEl(36a and 36b), photoluminescent structure (30) a controller to cause it to illuminate in various colors It can be selectively activated using 42 . For example, the controller 42 Activate only LED sources (Ellll36a) to excite the photoluminescent material (60). and causes visible kEi (26) to be illuminated in the first color. Alternatively, the controller 42 can be used specifically to excite the photoluminescent material 68. only LED sourcesIE(36b) can be activated and visible klgmI (26) second Also, alternatively, the controller (42) LED sources to cause adaptation of photoluminescent material (60, 68)IEQ36a and 36b) can activate together and the visible color (26) KarlsÇIEiEl is one color, causing it to be illuminated in the third color More different than two energy conversion layers containing photoluminescent material to achieve a wide variety of colors can be achieved. Predicted colors, selection of suitable photoluminescent materials and karsUJKI from LED sources, which can be obtained by manually manipulating klEinlZIîJ includes combinations of these, including green, blue and white.

Referring to FIG. 6, one of the lighting system (70) according to a construction plan view is shown. For exemplary purposes, the vehicle lighting system (70) Although it contains kallilarE(12-18) shown in FIGURES 1 and 2, in other structures may contain more or less kallpl. Each thickness (12-18) is shown in FIG. remain. (12) can be arranged in a similar way and the energy shown in FIGS. 4 and 5 may use one of the conversion processes (64, 66). In other words, the given kalII(12- 18) In addition, if it is understood that it can be made to illuminate in one or more colors, given thickness (12-18), visible shield (26) Ella permeability properties, photoluminescent make.. (30) the arrangement of certain calluses (12-18) and/or the photoluminescent material(s) photoluminescent make.. (30) depending on the shape of the energy conversion layer (54) diffusedJSl It is understood that it can be illuminated in various models. Play each kalII(, It is selectively controlled by one or more controllers. in FIG. 6 As shown as an example, the controller 42 corresponding to that shown in FIG. A power supply (44) whose supply may be opposed is electrically connected. The controller 42 may be located at various locations in the medium 10 and communicate with a memory 74. It includes the processor (72) in its state. Memory (74) operable by processor (72) storage instructions. The instructions (76) are the lgllîl associated with each kalliîla (12-18). related to checking the activation status of the LEDs (36) of the generating assembly (28) and the LED for the controller (42) supplied kaIII (12-18) ISlKl generating assembly. resourcesII (36) allows at least one clan to be selectively activated. The controller (42) provides one or more vehicle equipment. (78) openRa connect and check the activation status of each @El generator (28). The Controller (42) uses the aI-n signals from there to transmit the data to the intermediary communication. One or more vehicles can communicate with the equipment EIa (78) via bus (80) and Not to be deleted by this means, the vehicle (10) operating status, indoor and indoor status, keyed proximity status, remote signal from portable electronic device, environment related vehicle-related conditions such as any other information or control signal that can be used to set or adjust able to receive signals.

When the current @hand generator (28) is activated, the controller (42) incoming photoluminescent structureIlEl (30) aydIandlglEbarlakllgiEEto impress @El creation It can control the 1SlEmission intensity of the LEDs (36) of the assembly (28). For example, The controller (42) adjusts the density of the existing LglKl generator (28) to the pulse width. vasllisula can control modulation or correct mental control. In addition or alternatively, the controller (42) illuminates the visible klgl (26) and[g]1: to influence the bur LEDs (36) of the existing Hand Creation assembly (28) have at least one cluster can control the time. For example, controller (42) kaIII (12-18) from karsHJEL visible air conditioner (26) present to exhibit at least one climate continuous lighting For at least one side of the LEDs (36) of the handpiece assembly (28) can be kept in an activated state. Alternatively, the controller (42) may receive the corresponding]]]Zl incoming kaIII (12-18) visible kEIN (26) will exhibit at least one kg of nuance fading At least one of the LEDs (36) of the hand forming assembly (28) present in the figure is II Varying time intervals can cause sudden flashes. BazülrapllândlElnada controller (42) various colors along the corresponding khalII (12-18) visible kglnli(26) and/or specific LED sources (36) at different times to generate interest patterns. k-proactive.

According to a Yapıândlîn, the controller (42), kars[l]]îl coming kallEl (12-18), entering the vehicle (10) or vehicle passengers leaving the vehicle (10). when the vehicle (10) is parked to provide illumination and one or more of the vessels. largely due to unlocking and/or unlocking any of the Hand-forming assemblies (28) to exhibit a brilliant level of illumination. can control one. Controller after door locking and/or closing (42) can disable any currently active @E-creation mechanism (28) or the incoming calligraphy (12-18) will exhibit a different level of illumination, i.e. reduced In this way, it can control any of the labor forming assemblies (28).

For the purposes of explaining and describing the existing teachings, 'substantially' and 'approximately' terms do not refer to any quantitative comparison, value, measurement or other statement herein. used to represent the inherent degree of uncertainty attributable to The terms “to a large extent” and “approximately” are the subject matter in question here. leading to a change in its basic function - change of quantitative representation from the stated reference BiaktadlEl used to indicate the degree of display On the above-mentioned structure without departing from the concepts of the present invention It is understood that variations and changes may be made, and in addition, such Conceptually, the following claims are not biased unless their language expressly indicates otherwise. inclusive

Claims (1)

REQUESTS kalliîl for a vehicle, containing the following: multiple @Ekaynaglsîl yapllândlîllöiâlphotoluminescent structure and photoluminescent structureEliarafIan ayd Iatllân, visible k-i. Multiple @Ekaynagliîlhîl baskEIJJILED as per claim 1 Thick Photoluminescent structureII Ella sourcesEllEl at least one klgln Idan Elgluvisible light springs visible Elgla subconstructed with at least one photoluminescent material made by Iggilöl, blue @El purple @Eve UV According to Claim 3, where it contains one of the siq-i. containing a decorative layer placed and the decorative layer is least transparent to the hand and gives a visible air-conditioning metallic appearance when visibly illuminated. Thickness according to claim 1, including a controller. Thickness according to claim 6, where the controller determines at least one of the emission intensity and duration of the emission of heat. sourcesII was made to commemorate at least one side-by-side warning [EI]. and ManualResourcesA controller built to control the manual activation status. Take at least one air conditioner of multiple LED sources of photoluminescent nature. The incoming lSlglEl includes one of the blue lgllîl purple lSllZl and the UV lSlthari as claimed in claim 10. In addition, photoluminescence can be seen between k-i. containing the decorative layer placed and the decorative layer is at least partially permeable and gives a metallic appearance to the visible kn10 when illuminated stays according to claim 8 Each @Ekaynagül igllge of the controller has determined the intensity of the mission and the minimum of one of the emission duration According to Kalliîl Containing the following, more than one Elm-welded relevant source for a vehicle is at least one side warning. Photoluminescent structureII @E sourcesEllEl contains at least one photoluminescent material made to convert into visible light rays downstream of EllEl contains at least one photoluminescent material Remains according to claim 15. Calligraphy according to claim 16. In addition to containing a decorative layer placed at visible intervals with a photoluminescent structure, the decorative layer is the least brittled light permeable and the visible light gives a metallic appearance when it is in a visible light condition. Kallfil according to claim 14, which includes a controller for checking the activation status of @El resourcesII as claimed in claim 19, where the controller determines at least one of each EKI resource @Bemission intensity and @Emission time