TR201602796A2 - Vehicle step lamp - Google Patents

Abstract

An illumination apparatus for a vehicle is disclosed. The illumination apparatus comprise a light source disposed on a step portion. A first coating layer is molded over the step portion and the light source. A photoluminescent portion is disposed proximate a tread portion of the step portion. The light source is configured to emit a first emission to excite the photoluminescent portion to emit a second emission.

Description

DESCRIPTION VEHICLE STEP LIGHTING ATEIJ to the relevant Application LIGHTING SYSTEM WITH PHOTOOLUMINESCENT STRUCTURE." baslllZJEABD Patent The content of the application is in the continuation certificate. The above-mentioned relevant application is hereby incorporated by reference. is included in the document in its entirety.

Technical Field of the Invention This invention is associated with vehicle lighting systems, and in particular photoluminescent for vehicle tanks. It relates to a lighting apparatus with structures.

State of the Art of the Invention (Prior Art) Illumination from photoluminescent materials is a unique and attractive sight. Therefore, environment and task lighting It is desirable to place photoluminescent materials in certain ways.

Explanation of the Invention] Adapting one aspect of this invention, a lighting apparatus for a vehicle is described.

The lighting apparatus consists of an IglKl source located in a step klglnIEbla Step klglnEl/e @Hand welded with first coating layer on plandlB Step A photoluminescent k-i is placed in a position approximate to the kliinIlEl sI section. ISUZl the first emission to stimulate a second emission of sourceCphotoluminescent keH set to perform Adapting another aspect of this invention is the description of an illuminated marspie for a vehicle. is being done. AydIatllIhlgl marspie, a @KI resource located on a step klîlnlEUa The first coating layer is formed on the step kEmlîl and Ella welding. A second coating is placed on the first coating. Second the second coating of the energy from the first emission, at least one unmasked the first coating, so that it will pass through the air and illuminate the surface of the second coating. applied on Another aspect of this invention is the adaptation of an illuminated muzzle for a vehicle. is being done. AydIatllîhE louver is adjusted to produce the first emission and The step consists of an ISKI source located in the air conditioner the first coating layer is applied to the hand. The first coating is the dlSl To mask an azian kielnIE, a second overlay is selectively applied over the first overlay. coating is being applied a photoluminescent k-i is inserted. The first emission, the second coated For the purpose of illumination, it passes through the unmasked face.

This and other aspects of this invention, its purpose/properties, following description, claims and will be understood by those skilled in the field upon examination of the accompanying drawings and it will be appreciated.

Explanation of Figures In the figures: Figure 1 is a perspective view of a vehicle's footwell consisting of a lighting apparatus. is the view; Figure 2A depicts a photoluminescent structure applied as a coating; Figure 28 illustrates a photoluminescent structure applied as a single particle; Figure 2C shows multiple multiplexes applied as individual particles and included in a separate structure. photoluminescent; Figure 3 is to convert the first @Ki wavelength to a second wavelength that is at least A schematic representation of the front-lightingZl arrangement of an adjustable lighting apparatus. is the view.

Figure 4 is designed to convert the first related wavelength to a second wavelength at least. A schematic representation of the backlit hand arrangement of an adjustable lighting apparatus. is the view.

Figure 5 is a perspective view of a vehicle's pedestal consisting of a lighting apparatus. is a cross-section view; Figure 6 is a perspective view of a vehicle's footboard consisting of a lighting apparatus. is a cross-section view; and Figure 7 is a lighting with a controller configured to control the lighting. apparatusII a block diagramIB Distinction of the Invention As required, this specification is not disclosed here. This application, which can only be applied in alternative ways with the described constructions, is different. It is understood that the description is exemplary in nature. and bases do not have to be exaggerated or exaggerated with the definition of functions. may be minimized. Indirectly, the specific structural and functional distinctions disclosed herein It is not klîlHlayEEbarak, but nalel in different ways to meet people who have talent in this field. should be interpreted as a representative basis to teach As used herein, the expression "and/or" means an item consisting of two or more clauses. For use in the list, each of the listed items has its own edition. can be used or any combination of binary or more listed substances may be used. it means meaningful. For example, where a composition contains components A, B, and/or C. tellEBZbrsa, composition alone A'ylîlyalnlita B; C only; A and B together; A and C together; B and C together; or it may contain A, B and C together.

Used here, first, second, third, etc. statements, for clarity may present signs with reference to figures. For example, first and second air conditioners in basuli applications When sending, only the second air conditioner can be sent in connection and applications. This type indications are intended to indicate exemplary arrangements and compositions. service and unless otherwise expressly stated, any specific part of the specification applicationII refers to a specific number of parts or indispensable components should not be considered. Indirectly, these signs are various elements of the specification. hungry used individually and/or in various combinations for reference Clarity should be noted when referring to various possible applications.

The tool which is usually referred to as the marspie is the stepslî or the stair k-ilarÇl It can be used in vehicles to assist passengers boarding. To the passengers of the marspie Although it is intended to be helpful, sometimes due to dark environment lighting and conditions. They can be difficult to see. In such cases, the passenger may not be able to step on the steps. This invention it contains a lighting apparatus that can be adjusted to light a light of the marspie Thus, the step air conditioner can be used more visibly and the vehicle appearance can be illuminated to improve.

Referring to Figure 1, a tool containing a step clunuu. (8) perspective view is shown. The step kEQ10) may contain a lighting apparatus (EQIZ). Various in applications, lighting apparatus EQIZ), step kEinII (10) p. about a section (16) it can be processed to illuminate the step surface (14). In some applications explained here, photoluminescent materials for laying at least one occupancy of the step surface (14) usable. The invention is for the vehicle (8), by making at least one use of the step surface (14). Besides offering a good view, it can also provide important security features.

In order to illuminate a usage of the step surface (14), the step clinlEb (10) is a SIK] can be sourced/expanded. According to a doHândlEilna @El resourceEbasamak klâlnII (10) top can be placed on the surface. A heat sourced polymeric polymeric material layer. The corresponding first coating layer (18) may be coated. Step on the surface (14), a second coating layer on the first coating layer II (18) EXO) applicable. On top of the first coating layer II (18), the first coating layer II a second coating so that it is exposed to its surroundings (8) by means of a decreasing unmasked blade IIQZZ layerEXO) can be applied selectively. SIK] energy or the first @K1 in this arrangement emission from at least one unmasked blade (22) to illuminate the step surface (14) can be passed on. In an exemplary structure, the lighting apparatus (12), section sI (16) It may contain a photoluminescent km 24 located at a nearby location. Bazliyapiland IEInnas photoluminescent k-i (24), this k-i (24) will be illuminated by a backlit hand arrangement It can be placed on a suitable surface and/or It can be dispersed into a material corresponding to the first coating layer Ela 18 . Photoluminescent k! (24) this k- (24) at least one unmasked air conditioner (22) near the step surface (14) to be placed with at least one clinic, also with a front-lit arrangement can be illuminated. Such arrangements will be explained separately in Figure 3-5. Here, the unmasked k-ilar (22) in each yapliândlîilna that is opened (14) may come against the regions that can be illuminated selectively. Unmasked k. (22) digit along the longitudinal direction (26) of the vehicle (8) so that its surface (14) is significantly illuminated. can be seriously extended. In this embodiment, the lighting apparatus El(12); tool (8) visual It can also provide attractive lighting that will improve its appearance, allowing the vehicle (8) to be safely secured. for the vehicle to provide security lighting to ensure illuminated can make it possible to obtain a marspit (28).

At least one source of IgIK source is present in buildings constructed with photoluminescent k-(24). Use to selectively illuminate the flyer may be in communication with a controller. light source It may emit a stimulus emission or a first emission directed to the photoluminescent chamber 24 .

Excitation emission, photoluminescent klgtnlEl (24) absorption range of photoluminescent material It may consist of the first wavelength of the relative energy, which can be tuned to the opposite.

Photoluminescent light despite receiving stimulus emission. (24) adaptable and first A triple Eémission (30) having a second wavelength different from the wavelength may emit an emission. In this way, one or more photoluminescent light fixtures lengthening of the marspie (28), making use of the material. a continuous line along the direction (26). the environment may cause glare. ClthEmission (30) In Figure 1, unmasked in approximation k-idan 22 is indicated by extending lines.

Emitted as the first wavelength from at least one LIGHT source @[gilîbtomatik or To activate and/or set it manually, various devices in communication with the controller systems and devices can be used. Islla source. a level of intensity or illumination, a ambient conditions, detection of the approach to the vehicle, or any detection It can be adjusted as a mix. Is[IZJ source for various vehicle situations. also selective as counterHIZJ It can be clarified as. For example Fifty] source one ignition event., locking or unlocking operation, gear shifting, safety brake activation, a key yakiasmaleh vs. karsHJK] can be enabled. Fifty in Some Applications] a resource tool keyII or key-related entity[g`IEia and/or a remote key entry Devices can also be set to be illuminated against the incoming signal.

Referring to Figures 2A-2C, a photoluminescent structureE(42) ornament in general, a tool a coating (for example, a film) that can be applied to the hardware- or surface of a vehicle an individual particle that can be placed on a vehicle, and a vehicle equipped with a separate applied as more than one individual particle included with a structure is shown. Photoluminescent structure(42) open here to the photoluminescent person (24) karsl1]]Z] may come. At the most basic level, make photoluminescentEl(42), dashed in Figures 2A and ZB an energy presented as a single-layer or multi-layered IZI making, represented by lines The transform layer can contain IE(44). Here, equipped with the OpenElandlgiD, a file belonging to the vehicle (8) it may correspond to the surface material, panel, and/or any clay.

energy conversion layer44), selected from a phosphorescent and/or fluorescent material energy conversion elements. may contain one or more photoluminescent materials.

Photoluminescent material absorbs the input electromagnetic radiation to a longer wavelength a color-forming element that does not possess and input electromagnetic radiation does not have It can be formulated to convert the operative into electromagnetic radiation. entered and exited The difference in wavelength between electromagnetic radiations as El Stokes shift namedlandlEIIhaktadlEl ve ISIK], which corresponds to the change in wavelength and is generally lower The basic operating mechanism for an energy conversion process called conversion functions. At least one STRONG wavelength in the various applications described here (e.g. first wavelength etc.), electromagnetic used in the conversion process it comes to radiation.

Photoluminescent k-i, an energy conversion layer (for example, energy conversion layer E(44)) containing at least one photoluminescent structure.142). energy conversion layerHand (44) to create a homogeneous mixture using the various methods shown in Figure 2C. The photoluminescent material can be prepared by dispersing it into a polymer matrix 50 . Such methods from a formulation of the energy conversion layer II (44) Equipped with a vehicle with an energy conversion layer (44) in preparation, or the surface of its surface may include coating on a planar and/or non-planar substrate. Energy converting layerll44), painting, screen printing, spraying, hollow coating, daldlhandnalhandplating, Equipped with a vehicle by means of roller coating and bar coating, or on its surface applicable. separate, energy conversion layerEQ44) can also be made by methods. For example, to create the energy conversion layer El(44), one or more a solid solution consisting of photoluminescent material (for example, a homogeneous dry A compostable polymer may be added to a matrix 50 . Polymer matrix (50) extrusion, injection molding, compound molding, calendilla, EH] forming, etc. with can be shaped. One or more of the energy conversion layer II (44) as particles A tool with single or multi-layered energy conversion layersE(44) It can be placed on the hardware or the panel. Energy conversion layerE(44) multilayer each layer can be solidly coated. In addition, The layers can be prepared by separating them and then together to form a solid layer. can be laminated and embossed. Perform a monolithic and multi-layered energy conversionEIZl To prepare, the layers can be co-extruded. Intelligibility NameEla, photoluminescent The polymer matrix (50) composed of the material, lg[g]lEl, is a second wavelength that minimizes the first wavelength. to show that both can be used in a similar way to convert to wavelength ad., hereinafter referred to as the energy conversion layer (44).

Referring to Figures 2A and ZB, the photoluminescent fabric (42) is optionally The photoluminescent material found with the conversion layer (44) is photolytic and thermally at least one stability layer to protect it from degradation. (46) may have. stability layer-a46), energy-conversion layer-a-field (44) optically connected and adhesively separated can be set as a layer. Stability layerHand(46) at the same time, energy conversion layer 44 may be integrated. Photoluminescent:[42] optionally, this yaw-[(42) Stability to protect from physical and chemical damage from environmental exposure optically bonded to layers Eb (46) or any layer or coating, and Yaplgtlîllân may contain a layer of protection (48).

Stability layerEl(46) and/or protection layerEl(48), each layer wetted coated or painted, laminated and embossed with an integrated photoluminescent structureEI(42) energy conversion layerEI(44) can be combined. Alternatively, add several layers to a substructure ad. By submitting can be combined with coating, lamination or embossing. Infrastructure then, an integrated make photoluminescentHand (42) create ad. can be laminated or embossed.

After the photoluminescent material (42) has been created, a selected tool is attached to the hardware or its surface. applicable.

Photoluminescent in some ELapplications:[42), a tool as shown in Figure 2C donani- may be included as one or more individual particles. Make photoluminescentHand (42) is a polymer, applied as a structure adjacent to a vehicle hardware or panel. also as one or more individual multi-layered IZparticles distributed in the formulation can be presented. Photoluminescent structures to be used with at least one photoluminescent use of a medium Additional information on creation is disclosed by posting the entire specification here. Created by Kingsley et al., submitted July 31, 2012, #8,232,533: "HIGH EFFICIENCY ELECTROMAGNETIC ENERGY CONVERSION AND PHOTOLIC AND ENVIRONMENTALLY STABLE SOFTWARE FOR SUSTAINABLE SECONDARY EMISSIONS LAYER STRUCTURE" is included in the patent titled IJBD. Referring to Fig. 3, the lighting apparatusGenerally, the backlit handpiece embodiment (62) is shown. Backlight regulation (62), at least one may illustrate an exemplary application corresponding to the conversion to the emission (30) emissions. ÇllZIE emission (30), photoluminescent light (24) may falsely correspond to Elgh. This @Ekaynagian in arrangement (66) spring stimulus emission (64), photoluminescent keinI (24) the energy conversion layer(44) is transformed into the multiplexemission (30).

Separated for an exemplary application of the backlitEdit (62)] Explanation is given in Figure S.

The stimulus emission (64) is from the first wavelength (A1); ÇETEEMISSION (30) at least second The lighting apparatus (12) consists of a wavelength (A2), the medium (8) a substrate (68), panel, or its surface, for example, the first coating layer. (18) through coating It contains a photoluminescent structure (42) that can be applied. Photoluminescent material mirror At the same time, the energy conversion layer (44) can be distributed into the corresponding polymer matrix (50) and the first coating layer II (18) may be used to Hand-form a formation. BaseHand energy conversion layer(44), stability layer_(46), and/or protection in applications layer. (48) may also have.

The first @Hand source is incorrectly activated by at least one light source (66). (66) stimulated emission (64) may be emitted. Energy conversion layer II (44) photoluminescent k-i (24), the excited emission (64) having the first wavelength (A1) and the second wavelength (A2) which can be converted to çlthllmission (30). Cllitllmission (30), photoluminescent k-idan (24) It can contain more than one wavelength adjusted to @Electronic in any color.

Referring to Figure 1, openlEland[gll:lüzere, bazüyapllândlülnas [first] sourceEI(66), Photoluminescent k-i (24) side conversion without performing the emission of glucuronidal (64) can be given directly to the media. In such structures, lSlKlkaynagEQ66), energy transform layerEllEl (44) absorption range[glIl:l] instead of targeting step surface (14) unmasked k-idan (22) adjusted to fit a desired color scheme to illuminate different wavelengths may occur. This is because in such applications, the induced emission (64) and a Stokes shift that will drastically change the color between chithEmission (30) - In the context of this specification, with reference to the photoluminescent membrane (24) Unopened built land, (66) emission from Ella, to three[th|:lemission (30) may emit wavelengths similar to the emissions described by reference.

In some applications, the lighting apparatus EQIZ), including the energy conversion layer Ela (44) the second wave, which minimizes the excited emission (64) of the first wavelength (A1). at least one photoluminescent calibrated to convert the contains material. It is necessary to create more than one wavelength of the Çllîtß mission (30) a photoluminescent material, green-emitting a photoluminescent material, and/or a blue-emitting photoluminescent material.

Green and blue emitting photoluminescent materials, a wide variety of SIK for chihlEmission (30)] They can be combined to create colors.

Each of the photoluminescent materials is used with an energy conversion layer (44). çlthEl depending on a particular photochemical structure or combination of photochemical structures Density, wavelength and peak absorption wavelengths may differ. For example, the energy conversion layer flux (44) to change the color of the trichmission (30) stimulus emission (64) to activate photoluminescent materials at different intensities. The PowerEmission (30) can be changed by adjusting the wavelength. Emitting klîilnEIJyesil and blue Emission in a wide variety of colors, in addition to or as an alternative to photoluminescent materials (30) to create the differenceI photoluminescent materials alone or various Can be used in combinations. Thus, the lighting apparatus (12) is required for the vehicle (8). to provide the lighting effect ad. adjustable for various applications.

It can also be named as a warning source (at least one Handsource resourceEQGG) and at least As an example, the operational source (66) that can be operated to emit the stimulus emission (64), halogen lighting, fluorescent lighting, ISIKJ emitting diodes (LEDs), organic LEDs (OLEDs), polymer LEDs (PLEDs), catalytic lighting or warning emission (64) Any Wsource, such as any enlightenment form that can be set to give may form. Warning from at least one @IKI sourceglEUan (66)! emission (64), first wavelength (A1) energy conversion layer II (44) one or more photoluminescent It can be adjusted to correspond to at least one absorption wavelength of the material. first wave The energy conversion layerIZ(44) can be adapted and çlKtD It may penetrate one or more of three [thI:tie lengths] that come into contact with the emission (30).

The stimulus emission 64 of at least one of the various photoluminescent materials that may be used herein. by targeting the absorption wavelength, an excitation source for the energy conversion layer(44) can provide. In this case, the lighting apparatus (12) can set the desired LIGHT intensity and color. can be set to control the chithIE emission (30) to create In an exemplary application, Fifty] sourcesE(66), blue spectrum color range- kars[l]]Z] It contains a small LED that is tuned to emit the incoming first wavelength (A1). Blue spectral range of wavelengths, usually expressed as blue lSlKl (~440-500 nm) In some applications, first wavelength (A1), ultraviolet or Wavelengths close to the ultraviolet color range[g] (~250-450 nm) may occur. Sample In a typical application, the first wavelength (A1) may be approximately equal to 470 nm.

Generally the first wavelength (A1) fits the light! emission (64) to çlthEmission (30) It may be less than approx.EISOO nm, so that it will not be seriously visible.

Each emission color, wavelength or wavelength of each emission combination may correspond to spectral color ranges that show significantly different. BaslZl wavelengths Photoluminescent material can contain multiple wavelengths from excitation. BaseHand wavelengths: 1 is a green emitting wavelength with a wavelength of 526-606 nm in approximation. The warning of the photoluminescent material may be counterproductive. Some wavelengths first wave longer than (A1) and having a wavelength of approximately 430-525nm, may correspond to a photoluminescent material that emits blue or blue green. wavelengthsCI photoluminescent k-idan (24), second photoluminescent k-idan (32) and other springs from any photoluminescent hair, to create a wide variety of SIK] colors usable.

Referring to Figure 4, an application with the lighting apparatus (12) Generally, from the front An illuminating arrangement 72 is illustrated. Photoluminescent in this arrangement k. (24) @El sourceglEhan (66) the incoming first wavelength (A1) three[Etl:tamisy0nun (30) can be adjusted to convert. of the warning emission in the front-illuminated trim (64), first wavelength (A1) after passing through and emitted from unmasked k-i (22) at least one unmasked chidan (22) to be converted to a second wavelength point IEUa, frontlitHandregulation (72)backlitIEKGZ) without regulation may differ. In this arrangement, photoluminescent k-i (24), chithEmission (30) step It can be placed on the step surface (14) so that it spreads from the surface (14).

Referring to Figure 5, the step of the marspie (28) showing the lighting apparatus(12) kEinIlB] (10) shows a perspective cross-section view. step klglnEUO), with the first coating layer E(18) and the second coating layer E (20) on it. is shown. Photoluminescent k-i (24), unmasked klgnl (22) located on a dlgly surface (82) area and/or the first coating layer II (19) to the least used material that can be used. Against a photoluminescent structure that is dispersed[[[] As shown in Figure 5 photoluminescent chi (24) illuminated by a backlit arrangement (62) Unmasked k! The step surface (14) of the step (22) can be selectively selected with a controller. may come against illuminable areas. Controller in more detail in Fig. 6 k-i (22) without hand mask, step surface (14) will be seriously illuminated In this way, the tool 8 can be substantially extended along the longitudinal direction 26 . thermal weld (66) in the longitudinal direction to illuminate the step surface (14) substantially evenly. (26) may have more than one spring (84) spaced with equal spacing. In this arrangement lighting apparatus(12); attractive lighting to improve the visual appearance of the tool (8) illuminated to ensure safe entry into the vehicle (8) it may make it possible to obtain an illuminated hood (28) for the vehicle.

In the structures containing photoluminescent hairy(24), the photoluminescent hairy material At least one ISIEJ source(66) can be used to alert. Work[lZl resource66) warn! emissions (64) photoluminescent air conditioner (24) can emit correctly. Despite receiving its warning emission (64)HJE as photoluminescent k. (24) adaptable and different from the first wavelength, a second wave It can emit a CELEMISSION (30) or a second emission. In this way, The lighting apparatus (12) uses one or more photoluminescent materials. A continuous medium along the longitudinal-direction 26 of the louver 28 can form a glow.

Referring to Figure 6, the step of the marspie (28) showing the lighting apparatus(12) A perspective cross-section view of klgnII (10) is shown. step klglnEUO), with the first coating layerE(18) and the second coating layerEXO) on it. is shown. photoluminescent k. (24) air conditioner without mask (22) step in close position may correspond to a photoluminescent structure placed on the surface (14). Notice in this regulation emission (64), unmasked klgnl (22) from the surface (82) on the step surface (14) photoluminescent air conditioner can be right dürü'ayllabil. stimulus emission (64) or primary emission In response to receiving[t], the energy conversion layer E(44) can be adapted and its doubled mission (30) or may also compensate for the second emission. Photoluminescent k- (24) as shown in Figure 6 frontlighted by regulation (72) Unmasked km (22) light to an enable or control signal received from the controller[El It may come into contact with areas of the step surface (14) which emit stimulus emission (64) as a stimulus.

Unmasked k-i (22) and photoluminescent k-ilar (24), step surface (14) elongate the tool (8) so that it is clear. It can be substantially extended along the direction (26). (26) may have more than one spring (84) evenly spaced. In this arrangement lighting apparatus EK12); attractive lighting to improve the visual appearance of the tool (8) to help ensure safe entry to the vehicle (8) In order to provide safety lighting, a bright escutcheon (28) is obtained for the vehicle. can be made possible.

Referring to Figure 7, @KI source (66) to illuminate the photoluminescent klglnE{24) A light indicating a controller 92 set to control the light Apparatus(12) block diagramHand presenteddlEl Controller (92), via intermediary communication bus (94) may be in contact. Communication bus (94) to controller (92) various vehicle states It can be set to send identifying signals. For example communication bus (94) to the controller (92), the vehicle drive selection, the power-on cover, the ambient illumination Level, which can be used to adjust the light level of the approximate level or the illumination apparatus II (12) It can be set to transmit other information or control signals. Thus, the controller 92 the agent (8) selectively selects one or more of its states than the STRONG source (66) by mistake. can activate.

The controller 92 will receive signals from the communication bus 94 and output the warning emission 64 a or a processor 96 consisting of multiple circuits. Processor (96), ISJEI source(66) with a memory (98) set to store with instructions to control its activation. may be in communication. Controller 92 separately, in communication with an ambient lglusensor 100 it could be. The Ambient Eiglusensor (100) is an ambient light level or brightness level close to the vehicle. It can be operated to convey a lighting condition such as the intensity of Ambient HandleLevel Incorrectly the controller (92) will double-adjust the incoming LIGHT intensity (66) from the IglKl source (66). can be adjusted in sequence. STRAIGHT CELTH-I density from heat welded (66), LIS welded The duty cycle (66) can be adjusted by controlling the current or voltage.

The controller (92) handles various vehicle situations. mistakenly !5112] sourceIE(66) selectively can be set to enable and/or disable. Vehicle statuses includes, but is associated with: vehicle (8) drive selection, open-door exposure, environment Lighting Level, approximate level, or any type of turn signal or blind spot warning another information or control signal. In this embodiment, the controller 92 is connected to the environmental lighting, the state of motion or parking, and various additional information regarding the vehicle operation (8) and its environment. Depending on the conditions, the light source Iel(66) can be selectively selected to illuminate the louver (28) can activate. Apart from the controller 92, a change in the conditions leading to activation Ella source(66) the circuit can be adjusted to dSJ.

Illuminated Lighting Apparatus12), described here, is a tool. use a step It can provide an effective and low-cost lighting for The delivery apparatus(12), requested any of the many photoluminescent lights to achieve the lighting effect It can be adjusted to emanate easily by hand/or decorative EJK. described here apparatus is a tool. by separating by referring to the marspit or step kiglnlüb Although it is hungry, those skilled in this field will enjoy the spirit of the specification, the invention. deviation will confirm that it can be used in various applications.

It is difficult to explain and describe these teachings, "seriously" and "approximately". statements must not be separated from them in relation to any quantitative classification, value, measurement, or other statements. used to represent the level of uncertainty, consider allEmaIIE "Seriously" and to cause change, to represent the measure of deviation from the stated reference used One of the concepts of this invention is dlgrlîlçilîmakslîlül, above mentioned structure It is understood that changes and modifications may be made. the following claims, unless the concepts are expressly stated in the claims otherwise scope. It is understood that allül is wanted

Claims (1)

REQUIREMENTS A lighting apparatus for a vehicle, including a step clad a photoluminescent k-i. Illumination apparatus according to claim 1, where the first coating corresponds to the first molded layer consisting of the first polymeric material, where the polymeric material corresponds to a substantially transparent material, which is operated in such a way that the first emission passes through, Illumination apparatus according to claim 3, where the second polymeric material corresponds to a substantially opaque material which works in such a way as to substantially block the passage of the first emission. a corresponding @IKI energy is set to mask at least one affinity of the perforated surface of the first polymeric material so that it is transferred to an unmasked air of the first polymeric material [powerful according to claim 5 A luminous layered interlayer with lighting apparatus, with lighting apparatus according to claim 1, with a luminous layered interlayered tread-marbled monolithic cladding @KI energy corresponding to the first emission is applied on the first coating, so that the @KI energy passes through at least one unmasked clay of the second coating and illuminates the surface of the second coating. A second coating is applied on the first coating. illuminatedBilglmarspiye. The illuminated EnlSmarspiye according to claim 10, containing a photoluminescent k-i located at a position close to the Slîll section. The illuminated lElatllE illuminated according to claim 11, wherein at least one cladding layer with a photoluminescent core is placed so that the photoluminescent material is illuminated in a backlit arrangement. The photoluminescent lamp is adjusted to receive the first emission and emit a second emission. Illuminated ÜBHSlmarspiye according to claim 13, where the second emission comes in a different color from the first emission. An illuminated louver containing the following: a kiln welded step kiln set to produce the primary emission and located in a step blade, a primary coating layer applied over the dlSl surface; and a photoluminescent k-i placed in close proximity to a first-coated unmasked k-llib where the first emission passes through the unmasked k-i to illuminate a second-coated pendulum surface. Illuminated Emarspiye according to claim 15, where the photoluminescent cladding is placed on the g surface of the second cladding, so that the corresponding dlgl surface cladding will be illuminated by a front-illuminated arrangement that is mistakenly illuminated to receive the first emission. Photoluminescent cloaked incorrectly to receive the first emission. Illuminated Bilgmarspiye according to claim 17, where the second emission corresponds to a longer @KI wavelength than the first emission. Illuminated according to claim 15, where the second coating corresponds to a substantially opaque material calibrated to prevent the first emission from passing through it.20. Illuminated according to claim 15, where the second overlay is against a 5th section of the marspie.