TR201606052A2 - PHOTOLUMINESCENT STEP WILL HOLD - Google Patents

Abstract

A vehicle lighting apparatus is described. The lighting apparatus includes a retractable handle having a proximal end portion associated with a tailgate. The retractable holder forms an internal transition from the proximal end portion to a distal end portion of the retractable holder therethrough. A light source is located adjacent to the proximal end portion and configured to emit an initial emission through the internal transition. At least one light emitting section is placed along a length of the retractable holder and configured to emit light generated from the first emission to an outer environment.

Description

DESCRIPTION PHOTOLUMINANCES STEP WILL KEEP Attached to the Relevant Application This patent application is filed on January 23, 2015 and is titled “PHOTOLUMINESCENT”. "VEHICLE LIGHTING SYSTEM WITH PHOTOLUMINESCENT" filed in 2013 STRUCTURE," a pending U.S. Patent Application No. 14/086,442 is the section. Related references cited above are incorporated herein by reference.

Technical Field of the Invention The present invention generally deals with vehicle lighting systems and is more specifically In addition, it deals with vehicle lighting systems using photoluminescent structures.

State of the Art of the Invention (Prior Art) Illuminations originating from photoluminescent structures create a unique and attractive appearance. For this reason, the environment Egü/e for a simple hand-presentation, this style photoluminescent structures are recommended to be used in vehicle lighting systems.

Find out Kßa Açuillamaslîl According to one aspect of the present invention, a vehicle lighting apparatus is described.

Illumination apparatus with a tailgate connection Includes a pull-out handle. Retractable handle, near end section, back The retractable handle forms an internal passage along a remote end section here. It is placed adjacent to the lgIKlsourceJapproximate end section and is a first through the internal passage. At least one Fifty] spring-hand section, retractable The handle is placed along a length of the handle and a dEL formed from the initial emission to the environment According to another aspect of the present invention, a vehicle lighting apparatus is disclosed.

Illumination apparatus, which is connected to a tailgate It includes a retractable handle and tilts from the near end section to a distal end section. Adjacent to the end section of a welded lane, yapüândlîliüaktadlîl, for the transmission of being inserted and built to emit an initial emission over the handle. A lglKl spring hand section is placed along a length of its retractable handle and structured for transmitting the Egil generated from the first emission to a circuit from the handle to the environment According to another aspect of the present invention, a vehicle lighting apparatus is disclosed.

Backrest with an illuminated end section that connects to a tailgate with lighting fixture It features a pull-out handle. The retractable handle is a remote end from the near end section. Creates an internal transition through here to It is located adjacent to the section of the vehicle and does not emit an initial emission over the internal passage. YapliândlEllIhaktadlE A TIGHT spring section is placed in the handle section and the first In addition, a retractable step, stair stepII a vehicle tailgate containing a floor section Manually linkIdlE The retractable handle assembly attaches at least a portion of a floor section. corresponding to the first emission to illuminate the [SIgIIIEarmas These and other aspects of the present invention, its aims and properties, by persons skilled in the art upon examination of the claims and accompanying drawings. will be better understood and appreciated.

Explanation of Figures In the figures: FIG. 1 is a dlSl-side perspective view with an instrument showing a lighting system. is the view; FIG. 2A illustrates a photoluminescent structure expressed as a coating. shows its appearance; FIGURE ZB is a side-by-side image with a photoluminescent structure expressed as an individual piece. shows its appearance; FIGURE 2C illustrates a multitude of figures expressed as separate parts and included in a separate construction. the photoluminescent structure II shows a side view; FIG. 3 shows the first wavelength of the IglglEl to the minimum second wavelength. A lighting apparatus II pre-lighting configuration made to convert is a sematic view; FIGURE 4 shows the corresponding first wavelength to the minimum second wavelength. A lighting apparatus II is made to convert the backlight configuration. is a sematic view; FIG. 5 is a tool illustrating a lighting system. tailgate is the view; FIGURE 6 is a rear hatch placed on a tailgate showing a lighting system. side profile view with a retractable step; FIG. 7 is a vehicle incorporating a lighting system. a tailgateII perspective a is the view; FIG. 8 is a vehicle incorporating a lighting system. a tailgate II from the rear FIG. 9 is an illustration designed to illuminate at least one photoluminescent part. A block diagram of the lighting systemIB Distinguishing the Invention As required, the scope of the present invention is disclosed here. However, the opened structures made of them can be shaped in various and alternative forms. It is intended to be exemplifications[gll:lanlasl1B1alIEl Figures do not need to be scaled and someFeatures can be enlarged or minimized to show the extents of certain components. can be done. Therefore, certain structural and functional scopes described herein experience in technique how to apply the concepts described instead construed as an exemplary basis to show the owner As used herein, used in a list of two or more items any combination of two or more of the listed substances may be used. it comes with meaning. For example, if the composition containing components A, B and/or C is described, composition, A`ySkirt baslEb; C alone; A and B in combination; A and C in combination; B and C in combination; or A, B and C in combination may contain.

As a result, the invention should illuminate a tire section with a retractable step. Describes a lighting system with a medium to dollândlîllân. In base applications, EE] Originating from the death of tires, a vehicle cargo area. visible for secure access it can be used to illuminate the tire slîllE part as it is. source of heat a first photoluminescent structured adaptive It can be made for Egil emission at a wavelength or an adaptive emission. First The photoluminescent segment is a first wave to a second wavelength or to a first CLEE emission. It can be structured to convert its length. Initial wavelength, Egil to a first color and the second wavelength corresponds to a second color of Egil, which differs from the first color. can. There is a small automotive lighting system with various configurations. from the vehicle lighting system, various It will be appreciated that it can be used in applications.

Referring to FIG. 1, a lighting system (8), a vehicle (12) (10) is shown in a mirrored view. The cargo compartment (10) is a connected It may correspond to a base (eg, a truck trailer) with a tailgate (16). Luggage The cover(16) is made to help access the base (14) but it can be pulled though may contain digit(18). Retractable step (18), as shown in FIG. In an expanded position (20) and with reference to FIGS. 5 and 6, it will be opened to the EU after made to be positioned selectively in a retracted position In the extended position (20), retractable step (18), extending from the trunk lid (16) a forensic landing surface (22) supported by at least one support link (24) In this configuration, the retractable step (18) is attached to the cargo compartment (10). Enter the vehicle (12) into the cargo compartment by discovering the required step height for access. (10) can be reached safely.

The retractable rung 18 includes a tire sulfite. tire sllZl portion 26 may include a first photoluminescent portion 28. In the expanded position (20), the first The photoluminescent segment (28) is a stimulus at a first wavelength (32) originating from an ElZl. It can be done so that the emission (30) emits an illumination as allîilnas-profit. IsBZl sourceE(32), warn! the first photoluminescent part of the first wavelength of the emission (30) (28) does not emit adaptive emission (30) towards the first photoluminescent segment (28) as it affects It can be done for. As a result of the adaptive emission (30), the first photoluminescent section 28 is adaptable and may emit an initial CLEE emission 34. In this way, lighting system (8), selective for providing safe access to the floor (14) thanks to the tailgate EQIO As a result, it can illuminate the tire measurement (26) of the tire.

Initial tripleSl emission (34), stable environmental lighting conditions Tire Tire from siüsection (26) springHB1aktadlE IsllZlkaynagEQ32), warning source (30) essentialEl, back trunk, in such a way that it is largely invisible when utilizing the retractable step (18) It can be placed and hidden in kapagülö). For example, its retractable step (18) at least one support link (24), trunk lid (16) sides of body section (38) a created space (34) can be connected in a sliding manner. IslKJ weld (32) body section (38) can be placed against an inner wall (40) and row (20) in the extended position. sourceglîd32) and the tire lellEI section (26) over a volumetric area (42) created by the crevice It can be made to emit the warning emission (30). More with reference to FIGURES 5 and 6 Opened to the open, space (36) formed by the body section (38), retracted retractable step (18) in position at least one support link-E(24) and rubber band Yapllândlîllhaktadlü to place and hide the section (26) At least one boost linklgJ24), a first boost link (44) and a second boost link connection- (46) may correspond. Each first support link (EIJ44) and second support link (46) includes a yaki end section (48) and a distant end section (50). Yaki In the last section (48), support link44, 46, rotate a hinge support. (52) ties. Each hinge support (52), each support link (24), retracted by the duct sections (54) to contain at least one support link-1:(24) in position a channel portion (54) formed by the body portion (38) as depicted lElIüaktadE In some applications, a support rail 56 may be attached to the trunk lid 16. Support rail:(56), support rail 56, selectively in a first position or a second position a device (58) that can be rotated so that it can be placed it can be made. Initial position, the trunk lid (16) has a first surface (60) (inner surface) large may correspond to a closed position that is substantially parallel. As shown in FIG. 1, the second position 62 corresponds to an upright position that extends substantially vertically to the first surface 60 can. Support rail, as described herein. (56) support rail(56) to second position (62) The swivel assembly (58) is accessible from the initial position to rotate it. This configuration, the support rail156) is a hand grip can be provided.

The first photoluminescent portion (28) and, accordingly, the additional photoluminescent portion described herein sections (eg a second photoluminescent section), tailgate (16) @El sourceglEUan (32) It can be done to convert an adaptive source language. Adaptive emission (30), Sigil may include the first wavelength. The first triplel emission (34) and the tripletgl emission described herein Each of the emissions, Egil, may contain at least a second wavelength. Is[g]second wave at least one wavelength longer than the initial wavelength Iglgll may contain. As described herein, the first photoluminescent segment (28) and other photoluminescent chapters, Fifty] source-an (32) @El converts the first wavelength to the second wavelength It can be made so that it has photochemical properties that will transform it.

Second wavelength, wavelengths from the lighting system (8) may contain additional wavelengths in various combinations.

UyarlilEl initial wavelength may correspond to the color @[gllgl magenta or azure. First the wavelength may have a peak wavelength of less than approximately 500 nm.

The second wavelength of one or more freckle emissions is greater than the first wavelength. one or more relevant wavelengths containing at least one wavelength greater than may correspond to the wavelength. In some applications, the second wavelength is largely a large number of ciKlglemissions that are made to appear as white !gllî. wave lengths may correspond. In this configuration, from the SIK] source at the first wavelength (32) yayHân SIK) made for adaptation of photoluminescent parts, called lândlîllîhaktad. First wave As a result of the adaptation occurring in @gll allEtnasDile in length, photoluminescent sections, the trunk lid (16) shall illuminate at least a part of the vehicle (12) EI ad. to convert the first wavelength it can be done. may contain. The controller is multi-count against one or more vehicle conditions. bow-n (64) can be configured to selectively illuminate each of them. For example, controller, tool (12) to select a gear shift, one or more in communication with the controller. the vehicle (12) input, a keychain proximity detection, and the detection of controller-side received signals. @El sourceglEl(32) It can be made for lighting. In this way, the invention corresponds to the median (12) different locations. in addition to additional functions that increase safe access to the cargo compartment (10) Systems built to control the lighting system to provide lighting can provide.

Referring to FIGS. 2A-2C, a photoluminescent structure(72) is usually a tool with slBass. installation. an applicable coating (e.g. film), a vehicle installation particulate and a vehicle installation. many saylî'lh ayllö included in the applicable separate structure shown as particles. As described herein, a tool any surface of the vehicle (12), such as a tire section (26) or a may correspond to the section. Make photoluminescent EQ72), for example the first photoluminescent section (28) and Like the second photoluminescent section, it corresponds to the photoluminescent sections to open herellZlandlglE can. At the most basic level, dashed lines in photoluminescent EK72), FIGS. 2A and ZB an energy that can be presented by making a single layer or a multiple layer, represented by the scale transformation layer (IEa74).

Energy conversion layerEl(74), energy selected from phosphorescent or fluorescent material conversion elements. may contain one or more photoluminescent materials.

Photoluminescent materials absorb the input electromagnetic radiation into a longer wave Expresses a color that has a length and does not feature the entered electromagnetic radiation. It can be formulated to convert the WORK to electromagnetic radiation. Login Electromagnetic radiations that are in the wavelength range between The difference is called a stock shift and is often referred to as a down-conversion. adlandlîllân a principle working mechanism for the aforementioned energy conversion process acts as In the various applications outlined here, Egil can be used for each wavelength (eg. first wavelength, etc.) corresponds to electromagnetic radiation utilized in the conversion process. Each photoluminescent section is composed of an energy conversion layerIE (eg conversion layerE). (74)) containing at least one photoluminescent). Energy conversion layerE(74), Make a lot of mothers to create a homogeneous quark using various methods. (80) It can be prepared by separating the photoluminescent material found. Such methods, sIîEbir taslılîlîl a tool for preparing an energy conversion layer (74) from a formulation in the environment Desirable planar and/or non-planar sub-scale energy of the connection The transformation layer may cover the hand (74). Energy conversion layerE[74), dyeing, stencil printed glyph, slot coating, dredlîilnallî coating, rolled painting and bar coating] parties can be created in the selected tool connector. In addition, the energy conversion Layerslîa74), methods that do not use a verbal description can be prepared biased. For example, a solid solution of one or more photoluminescent materials (homogeneous heatsink in a dry state), energy conversion layer74) do it. (80) may be included. Most main structure(80), extrusion, injection, compression kalliilama, kalandlEllama, lâllIlsekilleme, etc. parties can be created. one or more energy conversion layers.. (74) when processed as particles, single or multiple layer energy conversion layerslîq74), a vehicle installation. or can be placed on the panel. Energy conversion layer (74) involves the multi-layer formulation, each layer is wetted can be coated. In addition, the layers can be prepared separately and then combined into a holistic It can be laminated or embossed together to form a sheet.

Layers, integrated multi-layers, remaining-bearing for energy conversion make-ready can be pulled together.

Referring to FIGS. 2A and ZB, photoluminescent (Eil72) optionally, photolytic and included in the energy conversion layer E1(74) from thermal degradation It may contain at least a stable insulating layer(76) to protect the photoluminescent material.

The Stable Layer (76) is optically coupled and superimposed with the energy conversion layers (74). It can be made as a separate layer. Stability layer (76), energy conversion layer 74) can be integrated with Photoluminescent structure(72), photoluminescent structure(72), environmental optional, to protect the ebrboard from physical and chemical damage due to conditions optically stable (thabakayEK76) or a layer that fuses and bonds to the other layer. protection layer (IEa78).

Stable layer (76) and/or protective layer (78), heat coating or each Print the layer with an integrated photoluminescent glass or emboss It can be combined with the energy conversion layer (EK74) to form the EK72). Alternative As a substrate, various layers are formed by forming a slurry coating, lamination or embossing. Can be combined with The substrate is laminated to form an integrated photoluminescent structure(72). can be embossed or embossed. Once created, it is photoluminescent. (72) may be applied to a selected vehicle-connected route.

In some applications, photoluminescent ZQ72), as shown in FIG. included in a vehicle connector, selected as multiple separate multilayer particles can be done. Photoluminescent Build(72), vehicle connection selected as an ongoing build make a lot of masters applied to the mechanism. (80) dispersed one or more may also be presented as layered barticulae. Additional information on the formation of photoluminescent structures, “HIGH EFFICIENCY” filed November 8, 2011, fully included herein. PHOTOLIC AND FOR ELECTROMAGNETIC CONVERSION AND SUSTAINABLE SECONDARY EMISSION ENVIRONMENTALLY STABLE MULTI-LAYER CONSTRUCTION,” basIIKIEUS Patent No. at 8,232,533 being opened Referring to FIG. 3, the lighting system (8) is usually a pre-illumination according to its configuration (32). In this configuration, Ella or an alert emission (30) sourced from Ella (32) spring language and energy conversion layer(74) The biased ELs are converted to an initial freze emission 34. First liKE emission (34), back the first fitted with the retractable step (18) close to the tire sllZl section (26) The photoluminescent portion 28 may correspond to a side-generated greenhouse emission. First The photoluminescent portion (28) is described with reference to FIG.

The stimulus emission (30) may include the first wavelength (A1) and the freze emission (30) may include decreasing second wavelength. The lighting system (8), at least one It contains a photoluminescent structure (28), placed in the photoluminescent section (28).

Photoluminescent makeEll72), can be expressed as a coating and retractable step (18) A substrate 82 of a joint assembly such as a tire le-section 26 may be applied.

Photoluminescent material separated Ela, which can be used to form rubber slurry (26) most of which are related to the energy conversion layer (74) can be distributed as a main structure80).

In some applications, an energy conversion layerEK74, a stable layer(76) and/or a protective layer E(78). Activated EE] resource (32) corresponds As a result, adaptive emission (30), energy conversion layerEQ74) can be applied and, for example, a country with at least the second wavelength, such as the first CLEE emission (34) converted from the first wavelength (A1) to the emission CIKEemissionsllEl each, here Egil from each of the described photoluminescent segments to emit any color. YapliândlEllân may contain a large number of wavelengths. In some applications, çllZE each of the emissions may correspond to its EgIeldifferent equivalents. çKEemissionsEll Egill their colors may correspond to the photochemical structure of each photoluminescent segment. In this way, Each of the three EmissionsEIlEs Egil difference as a corresponding] It can be made to spread its colors. In various structures, the lighting system (8), mostly main structure. (80) and/or at least one photoluminescent material incorporated in the energy conversion layer 74 and fits at the first wavelength (A1)! emissions, at least the second wave çlKEemissions- which has the length of To create the wavelength, the energy conversion layerE(74) is made with LKE emissions. It is made to emit wavelengths with green and/or blue color spectra. may contain one or more photoluminescent materials. Such photoluminescent materials, EglEl can be combined to create a wide range of EglEl colors for tripleze emissionsEladlEb. For example, bright green and blue ADDITIONAL photoluminescent material, flake emissions It can be used in various sections and combinations to control its color.

Each photoluminescent material utilizes certain energy conversion layers (74). a photochemical structure/e photochemical structure combinationsEbsaleUa çllZE density, It may vary with the frequency wavelength and peak absorption wavelengths. An example Finally, the first freckle emission 34 is different for the first freckle emission 34 to change color. wave induced emission to activate photoluminescent materials at high intensities. can be changed by adjusting the length. Klîilnlîü green and blue islKl springylîlphotoluminescent In addition to or as an alternative to materials, multi-colored lKlgemissionsII (26) to form subin, from other photoluminescent materials alone and in various combinations can be used. In this way, the lighting system (8), a desired lighting color and vehicle (12) can be made in various applications to ensure its effect.

The various colors and colors of the photoluminescent materials described herein To achieve combinationsB, the lighting system (8), eg photoluminescent materials, organic and non-organic dyes, etc. any photoluminescent materials such as can take advantage of. It is difficult to reach various emissions. Related to photoluminescent materials additional fabrication and use! information here, each by reference in its entirety. "PHOTOLUMINANCES FIBERS, COMPOSITIONS AND COMPOSITIONS" filed June 5, 2009 FABRICS MANUFACTURED FROM THEM, entitled "ElEBortz et al., Fifty US Patent No. 8,207,511; 19 "PHOTOLUMINESAN WITH FUNCTIONAL TOP LAYERS" filed October 2011 “HIGH EFFICIENCY ELECTROMAGNETIC CONVERSION AND SUSTAINABLE SECONDARY PHOTOLIC AND ENVIRONMENTALLY STABLE MULTI-LAYER CONSTRUCTION FOR EMISSION,” based on "PHOTOLUMINANCES COMPOSITIONS, MANUFACTURING METHODS AND INNOVATIVE Elü Kingsley et al., titled "PHOTOLUMINOUS OBJECTS," filed in 2012 numberIIJJUS patent spring.. bakilîl Name source32) separately, it can be expressed by quoting the warning source and the least warning warning emission (30) or any of the warning emissions described herein. may be functional. Each of the thermal sources (32) or the springs (64), halogen lighting, fluorescent lighting, @Elyaylîüljiyots (LEDs), organic LEDs (OLEDs), polymer LEDs (PLEDs) are made for the circumvention of the lighting or warning emission in the case of murder. Like any other form of illumination, it can contain any @El resource. First wavelength (A1), energy conversion layer II (74) and/or multiple principal structures (80) or multiple photoluminescent materials corresponding to at least one absorption gap In this way, stimulated emission from @Ekaynagl (32) can be done. At the first wavelength (A1), @[gll allEmaskars[[[IZ1 as the energy conversion layerE(74) can be adapted and for example one or more cllZlg waves, such as the second emission having a second wavelength (A2) lengthsII çllîlglrîllîl. The stimulus emission (30) is used in various absorption wavelengths of photoluminescent materialsIelor their combination By targeting it, it provides a warning source for the energy conversion layer EI(74). In this way, The lighting system (8), at a desired density and color! It can be made in a way that will work. In an exemplary application, the first @El source{32), a blue spectral, purplish and/or ultraviolet color range - it did not emit the corresponding first wavelength (A1) The yapllândlEllân contains a small LED. Blue spectral color range, usually blue SIK] Wavelengths expressed as (~440-500nm) contain a range of BJI. BaseHand In applications, the first wavelength (A1) is used as ultraviolet or ultraviolet color intermediate. (~100-450 nm) may contain a wavelength of approx. An exemplary in practice, the initial wavelength (A1) may be approximately equal to 470nm. specific wave wavelengths to lengthsII range are opened with reference to the first wavelength (A1) However, the first wavelength (A1) is generally not adapted to any photoluminescent material. can be made for In an exemplary application, the initial wavelength (A1) is approximately 500 It may be less than nm. More than the blue spectral color range and more light wavelengths, human These wavelengths, which have absolute sharpness in the visible spectrum of the eye, It can be exploited by using the indirectIllumination system (8) by çllZlglsource. First wavelength (A1) For the first time, with the energy conversion layer(74), utilizing more kîla wavelengths and Etlan by converting the wavelength to at least one longer wavelength, the lighting system (8) can produce a visual effect of IgglllEl caused by the photoluminescent structure (72). This In the configuration, the lighting system (8) is configured to provide lighting in various locations. can offer a cost-effective system.

As explained here, the multiple Hb wavelengths II associated with çlKlglemissionsII one can correspond to a drastically different spectral color range. second wavelength, Count a lot of things done to make it appear as a largely white Igllgo. wavelengths- may correspond. Multiple wavelengths, approximately 620-750 nm wavelength KlElnlZJElKlyspring, which has the length of a photoluminescent material, is approximately 526- It is made of a green !Siliyaymotoluminescent material with a wavelength of 606 nm and is the first 430-525 nm, which is longer than the wavelength (A1) and is approximately 430-525 nm. a blue or blue green lglEar spring with a wavelength that is a photoluminescent can be made of material. Count a lot. wavelengths, from the first wavelength (A1) a wide range of Ella color from each of the converted photoluminescent segments. can be used to create

Referring to FIG. 4, the lighting system (8) is usually a backlight configuration ( (30) can be made to be converted to the second chiZlSI emission (104). backlight configuration (102) includes an ISIK] spool (120) and a second photoluminescent section (106). may correspond to a configuration described with reference to FIG. Back Lighting configuration (102) do most of the main. (80) an energy conversion placed layer IIZI (74) and/or photoluminescent material. prelighting A similar energy conversion layer (74) is shown with reference to its configuration (92). In the figure, the energy conversion layer (74) adaptive washer and the coherent emission (30) against one or more wavelengths related to the second wavelength as k`l It can be done for. In the backlight configuration, most main the second photoluminescent section for the emission to emit the second emission of the CZISI (104). It can be formed from a transparent material that minimizes the shrinkage as it can be converted by the side.

Count the second output emission (104). wavelength, energy conversion layer II (74) stimulated by the second photoluminescent portion (106) ISgIE as karsHJK1 it can be done for any color to spread. Corresponds to the second ciClS emission (104) Sigil color is derived from certain types of photoluminescent materials described herein and/or It can be audited by benefiting from the ratios. Second ciEIg emission (104), trunk lid- (16) may correspond to an EQUIPMENT that can illuminate at least a part of the vehicle (12) that is near. This in the configuration, the lighting system (8), the agent (12) to illuminate a dlgl partition may be functional.

In some applications, where each photoluminescent segment (28, 106) emission Organic or May contain an inorganic fluorescent dye. For example, photoluminescent sections (28, 106), rylens, Xanthans, porphyrins, phthalocyanines, and initial absorption range, and emission fluorescence of other materials suitable for a particular Stoke shift determined by the parties. may contain a photoluminescent structure. In bazlîyapilândlilnas, photoluminescent sections (28, 106), at least one inorganic luminescent material selected from the group of phosphorus.

The non-organic luminescent material may come from the group of Ce-doped ilgarnets such as YAG:Ce.

In this way, each photoluminescent section (28, 106) is a specific photoluminescent material. DoHandlEllan A wide range of wavelengths from the stimulus emission (30) can be selected selectively. can be activated.

Referring to FIGS. 5 and 6, a picture showing the lighting system (8) reflects the tool (12). view and a side view are shown in slûslßa. FIG. 5, in a retracted position (114) trunk section with a retractable step (18) and tailgate II (16) (38) shows the second surface (112) of the tool (12) hidden inside it or a dlgly surface.

As shown, at least one support link24) is located within the space 36 and are retracted within the channel segments 54 as hidelines. in the retracted position (114), illumination system (8), second photoluminescent section (106) selectively made to illuminate at least a portion of the second surface (112) by illuminating For example, the lighting system 8 includes a handpiece 116 placed on the second surface 112 or It can be made to illuminate the emblem (118).

In retracted position (, retractable The digit (18) can be aligned with the gaps placed in the tire siel section (26). This In this configuration, the stimulus emission (30) is transmitted through the gaps to an ISIKI guide (120). can be directed. The thermal guide 120 may be formed from an ElglEyansllilee material and the body Egil along a length (119) of a space (36) created by section (38): It can be done for guidance. BainJapplications, @na guide (120), here polymeric material functional to effectively transmit the initial wavelength of the emission 30 can be made of material. Manual guide (120) along the length (119) of the gap (36) It can also be done by distributing the warning emission (30) to a large extent.

In the retracted position (114), Ella guide (120) induced emission (30) to an optige. (122) can be directed. Optics (122) can be configured in backlight configuration (102) and a second photoluminescent portion (106). Warning emission (30) allEmaskarsuilî] Secondly, the second photoluminescent portion 106 is adaptable and can emit the second ternary emission 104.

In this way, it is possible for the optical 122 to convert the stimulus emission (30) into the second flower ISI emission (104). can be done for. In this configuration, the second processing 104 is at the farthest point of the second surface 112. the light of a small portion of it can be oriented by optics (122).

As explained herein, the invention is formulated in a first position and back in a second position. its retractable step illuminates a rubber seat and a trunk lid It provides a flexible lighting system functional for the first position, an extended corresponds to the retractable step arranged in position. second position, back corresponds to the retractable step arranged in a retracted position. Unique the system is based on a retractable step position without the tailgate selectively illuminating the tire SIE section, a single source of illumination to be used providing Referring to FIG. 7, a lighting system 152 is a vehicle. (12) a trunk shown in a yanlellBiEl view of the chamber (10). lighting system (152), lighting system (8) which has similar and/or identical features as common numbered may be similar. The trunk lid is made to help access the bottom (14) may contain a real drawable digit EI(18). In extended position (20), retractable step (18) by at least one support link24 that extends to the tailgate (16) provides a supported common throwing surface (22) In this configuration, the retractable step (18) represents a step height necessary to access the cargo compartment (10). By locking it, the vehicle (12) can safely reach the cargo compartment (10).

The retractable step 18 includes a floor portion. Tire testing 26 may include a first photoluminescent portion 28. In the expanded position (20), the first The photoluminescent section (28) is an stimulus at a first wavelength (154) from a !515 source. It can be done so that the emission (30) of all Ehialeb will make an enlightenment as a reciprocal JEI. ISLE sourceZ(154), the first photoluminescent portion of the first wavelength of the stimulated emission (30) It does not emit stimulus emission (30) towards the first photoluminescent part (28) as it affects (28) can be made for As a mixture of stimulatory emission (30), the first photoluminescent section 28 is adaptable and may emit an initial CLELS emission 34. In this way, illumination system (8) can be selectively selected to provide access to the floor (14) thanks to the trunk lid. it can illuminate the floor section (26).

Initial CREA emission (34), dark environmental lighting conditionsElesnaleUa flooring so that the part (26) becomes clearly visible from the section (26) springHÜiktadlE Welding of the isllZl(154), adjacent to a support railII (156) can be placed. Support rail E(156), trunk lid (16) can be attached and support rail II (156), can be placed selectively in a first location or a second location (160) a rotatable assembly (158) may be constructed to narrow in circumference. First location, support railII longitudinal body with a first surface (inner surface) of the tailgate II (16) may correspond to a closed position where it is substantially parallel. As shown in FIG. 7, the second position 160 corresponds to an upright position that extends substantially vertically to the first surface 60 can. Support rail 156, support railIlJlSö) to the second position as described herein. The rotatable assembly 160 (160) can be accessed from the initial position for swivel (158). This configuration, the support railEQ156 is a hand grip can be provided.

The support rail (156) is a retractable device comprising a telescoping assembly (164). may correspond to the handle. The telescoping assembly 164 is in a telescoping configuration. Made for reaching out, Ellan has a close handle section (166) and a remote handle section (168) may contain. Handle section (166) of telescoping assembly (164) and remote handle (166) section 168 may form an internal transition (170). In an exemplary yapllândlîilnada, Ella the weld (154), the burner portion (166) at an approximate end portion (172) is placed. In this configuration, the stimulus emission from the LIGHT] source (154) 30, a first portion of the stimulus emission 30 when oriented in the second position 160 it may be functional for guiding it towards the photoluminescent portion 28 . Additionally, warn a second part of the emission (30) to the internal transition (170) from @El source (154) can be directed. The configurations of the internal transition (170) and the telescopic assembly (164) are available. It is explained with reference to FIG. 8 FIG. 8, vehicle incorporating the dynamite system (152). (12) tailgate II (16) rear It is a perspective view. Referring to FIGURES 7 and 8, warn! emission (30) second section (176) from the near end section (172) of the handle section (166) portion 168 may traverse the internal transition to a distal end portion 178. a first The spring section 180 may be located in the telescoping assembly 168. In base applications, at least an additional ISlEspread section or a second Illgspread section (182), in Nesting arrangement (164) can be placed. Each of the sections (180, 182) isllZlyaylEJ, at least for an individual @Egeçirimli may be a material and at least one of the second portion (176) of the warning emission (30) of the IglKlyaylEZ sections (180, 182) from the internal transition to the air-permeable material. it may be in connection with the nested mechanism as it passes. Functionally, and more specifically mediator (12) Corresponding to any material that is resistant to environmental conditions associated with the operating environment. can. In some DIGITAL constructions, the first wave of stimulated emission (30) from a polymeric material that is functional to effectively transmit its length, @Eyaylîü It can be used to create each of the sections (180, 182). In this configuration, @El each of the springs (180, 182), support rail II (156), karanlllZl environment @im conditions The warning emission (30) party can be illuminated as it is visible during the operation.

In some applications, the first Light] arcEsection (180) and the second [necessarily springEsection (182), sßsMa has a second photoluminescent section (184) and a third photoluminescent section (186). may correspond. For example, at least one photoluminescent material may be found in sections (180, 182) with related fibers. material and/or applied therein as a coating. This In the configuration, each of the lllospring segments (180, 182) is the second of the warning emission (30). of the drafted emission (34) of at least a part of the section (176), the first From the photoluminescent part (28) there is a similar emission of ÇLLİlgl to the spring ÇLLİlgl emission (34). can be made to be converted.

In some models, each of the photoluminescent parts (28, 184 and 186) is color-coded. It can be built to propagate a çlKlSlemission (34) which is similar to the çlKlSlemission (34)

In such structures, each of the photoluminescent sections (28, 184 and 186) has a similar May contain photoluminescent materials. In an exemplary construction, photoluminescent emission Each of the emissions (34, 194 and 196) is a large number. Igilîlemissions in color. corresponding can. For example, the first photoluminescent section 28 is the first color of the first color corresponding to 202. can emit its emission (34). The second photoluminescent part (184) corresponds to a second color (204) It can spread the second çlKIship (194), which is Third photoluminescent section (196), Third one 206) can be similar or have the desired lighting effect, decorative appearance and various designs. may vary depending on the criteria. Each color (202, 204 and 206), @El yaylaEEl It may correspond to one or more photoluminescent materials used to create it. An exemplary construction is built, with the handle part (166) and the remote from the handle part ( may correspond to a space created and the alert to be transmitted in the internal passage (170) may provide a substantially closed plane for the second portion 176 of the emission 30 .

In addition, the internal passage 170 backs to the interior passage 170 in the proximal handle portion 166. It may provide the retractable portion (168) to be pullably sliding. For example, of the part that will keep it away ( dlglwall (208b) to be retractably slid into the internal passage (170) created by the sides it can be done.

Referring to FIG. 9, a exemplary block of lighting systems (8 and 152) diagramH is shown. Illumination systems, photoluminescent sections (28, 106) YapHandlEllân for controlling the illumination of the EKI sourceII (32) in an illuminated way a lighting controller 222. Lighting controller (222), intermediary It may be in communication with the communication bus (224). Communication bus, miscellaneous vehicle For the transmission of signals to the lighting controller (222), which identifies the conditions can be done. For example, communication bus (224), lighting controller (222), agent driver selection, operating status, remote activation of SOLID source(32), or Any other that may be used for manual adjustment of the lighting system (8) It can be done to communicate about information or control signal. In this way, The lighting controller 222 selects the vehicle against one or more of its conditions. can be activated in the The Illumination controller (222) is opened here. despite, On the bases, 51121 welds(32), retractable step (18) and/or luggage against an electrical or electromechanical switch against a position of the kapaglßllßl (16) can be activated mutually.

The lighting controller 222 does not receive signals from the communication bus 224. Efficient to control Fifty] source(32) to emit warning emission (30) It may include a processor 226 comprising one or more circuits for signaling.

The processor (226) memorizes the instructions for it to check the activation of the Fifty] source II (32) It can be in communication with a memory (228). illumination Apart from the controller 222, it may be communicating with a media @Esensor 230. heat the environment sensor (230), eg ambient @gII density near the vehicle (12) or a brightness It may be functional to convey a [Fifty] condition, such as level. Against the ambient IglglII level As an example, the lighting controller (222) is a @Eyogun it can be made to be adjusted. IsllZlkaynaglEUan (32) çllZlan ElEyogunlugu, EKIsourceEla (32) can be adjusted by controlling a supplied duty cycle, the voltage to the electrical element.

For the purposes of describing and identifying existing teachings, any numerical uncertainty that can contribute to stereotypes, measurement, or other representations of value. Here "substantially" and "approximately" to represent the natural degree It should be remembered that the terms "largely" and "approximately" terms here with a change in the basic function related to the subject in question. where a respectful representation varies from a reference that is stated in a way that does not result in usellBilStlEl to represent the degree Variations and changes above the concept of the present invention do mentioned. It is understood that the following prompts can be created in their respective languages Unless expressly stated otherwise in the kencli language, such concepts shall be governed by the following claims. It is intended to be covered II [glünlasllüaktadlîl

Claims (20)

REQUESTS 1. A vehicle lighting apparatus, comprising: A retractable handle having a near end portion with a tailgate connector and formed to transmit Sigil from the near end portion to a distal end portion; A related source placed adjacent to the burner end section and constructed to emit an initial emission over the internal passage, and a related LED consisting of the initial emission to a peripheral environment made of lEilç at least one @ElyayEEl 2. Apparatus according to clause 1, in which the internal passage is the least permeable of the keel IgllZJ and is made to transmit the @[ElyaylEÜJ section to the environment consisting of the first emission via the internal passage. 3. Apparatus according to claim 1, wherein the at least one associated spring section comprises a first TWO spring section positioned near the distal end section to illuminate at least a portion of the retractable handle. 4. Apparatus according to claim 1, with a retractable handle, made to extend in a telescoping configuration, comprising a proximal handle section and a remote handle section. 5. Apparatus according to claim 4, wherein an interlocking interface connecting the detachment, the burner portion and the distancing portion of the at least one hand spring section comprises a second adjacently positioned arm spring section. 6. Apparatus according to claim 1, wherein the at least one arc-arc part includes a photoluminescent part made to convert the first emission into a second emission. 7. Apparatus according to claim 1, comprising a retractable step/floor section connecting the vehicle to a tailgate. 8. Apparatus in accordance with system 7, constructed for illuminating at least one part of at least one archetype, with a retractable handle to the handpieces consisting of the first emission. 9. A vehicle lighting apparatus, comprising: a handle made of hand containing a near end portion connected to a tailgate and for biasing it from the near end portion to a far end portion; At least one Egil built to transmit an Egil formed from the first emission to the environment, placed adjacent to the burner end section and built to emit an initial emission over the handle 10. Apparatus according to claim 9, wherein the handle constitutes a longitudinal rod with a minimally permeable internal passage constructed to transmit the first emission from the near end section to a distal end section. 11. Apparatus according to claim 9, comprising a retractable step/floor section connecting the vehicle to a tailgate. 12. At least one ElElyaylan death, at least a part of [glgiililîbrmasü/e retractable handle, which is formed from the first emission is enlightened.[g]|: Apparatus according to ilstem 11. 13. Apparatus according to claim 12, made for the cutting of a portion of the first emission originating from the combustion end section with a retractable handle. 14. Apparatus according to claim 13, constructed for directing the portion of the initial emission of the illuminated source towards the retractable ladder when the near end portion of the retractable handle portion is arranged in an upright position. Apparatus according to claim 11, wherein the floor section includes a photoluminescent section made to convert the first emission into a second emission. 16. Apparatus according to claim 15, wherein the second emission corresponds to a Kirengine different from the first emission. 17. A vehicle mounting apparatus consists of the following: A retractable handle assembly having a proximal end section that connects to a tailgate and forming an internal transition from the near end section to a far end section through this section, and which is located adjacent to the fuel end section and the internal transition a Lightning Spring made of Egil Çlllar and Crops, which consists of the first emission and placed in a HandHandsource Holder section constructed to emit an initial emission over it; and a retractable step comprising a floor section made so that the retractable handle assembly connected to the vehicle by a trunk lid illuminates at least a portion of the floor section of the Ig[g]El;[lAxialEl/e] corresponding to the initial emission. Apparatus according to claim 17, wherein the at least one [5112] arc section comprises a first photoluminescent section constructed to convert the first emission into a second emission. 19. Apparatus according to [Guulstem 18] in which the thermal spring die is placed approximately to the distal end portion and illuminates at least a portion of the retractable handle. 20. Apparatus according to claim 17, wherein the floor section includes a second photoluminescent section made to convert the first emission into a third emission.