TR201512878A2 - PHOTOLUMINESCENT DISINFECTING AND CHARGING BOX - Google Patents

Abstract

Describes the charging and disinfecting tray for a vehicle. The charging and disinfecting tray comprises a wireless charger of an electronic device and a lighting apparatus. The illumination apparatus comprises a disinfecting apparatus having at least one photoluminescent indicator. A controller communicates with a wireless charger and illumination apparatus and is functional for controlling the photoluminescent indicator by initiating a sterilization process with the disinfecting apparatus.

Description

specification, a device in a way that notifies the passenger of a situation, at least the disinfection state. ambient IglglEblusturmasElçin is an intelligently relevant charge that makes use of photoluminescent materials. we provide the box Invention KlEia Acililamaslîl According to one aspect of the present invention, a charging and disinfecting tray by means of a [to be opened] The charging and disinfecting tray, with an electronic device] and a light The apparatus II includes a wireless charger. Lighting apparatus at least one It contains a disinfecting apparatus with a photoluminescent indicator. A the controller is in communication with a wireless charger, the lighting apparatus, and disinfects. control of the photoluminescent indicator by initiating a sterilization process with the to be functional.

According to another aspect of the present invention, a vehicle charging apparatus is being supplied. apparatusAn electronic device housed in a compartment. a cordless charger for charging and a lighting apparatus comprising at least one photoluminescent indicator. A the controller is in communication with the charging apparatus/lighting apparatus and electronic device by controlling. to not emit lSlgIE color related to a charge level yapilândElBwaktadlB According to another aspect of the present invention, a vehicle consists of a charging and disinfecting tray. Clarified The charging and disinfecting tray is a device containing a disinfecting apparatus. electronic device. and a wireless charger with a lighting apparatus.

The disinfecting apparatus contains at least one photoluminescent indicator. A controller, for controlling a wireless charger and lighting apparatus By starting the sterilization process with the controller, disinfecting apparatus functional for activating the photoluminescent display.

These and other aspects of the present invention, its objectives, its characteristics, the following characteristics, by persons skilled in the art to the operation of the claims and accompanying drawings. will be better understood and appreciated.

How to Draw Shapes In the figures: FIG. 1 shows the passenger compartment of a vehicle using a wireless charge/e disinfectant system. is a perspective view; FIG. 2 is a block diagram of a wireless charging and disinfecting systemIIB FIG. 3 is a comprehensive perspective view of the wireless charging apparatus; FIG. 4A illustrates a photoluminescent structure expressed as a coating. is the view; FIGURE 4B is a top view of the photoluminescent structure expressed as an individual piece; FIGURE 4C shows a multitude of figures expressed as separate parts and included in a separate structure. side view of the photoluminescent structure II; FIG. 5 is a model for converting an stimulus emission into a dESI emission. Illumination apparatus is a schematic view of the front-illuminated Dliir configuration; FIGURE 6, warn! a greenhouse gas emission to be converted into a greenhouse gas emission is a schematic view of the lighting apparatus configuration; FIG. 7 is a perspective view of a wireless charging and disinfecting system; FIG. 8A is a front comprehensive overview of a wireless charging and disinfecting system in a first position. is the view; and FIG. 8B is a wireless charger and disinfectant in the first position in accordance with the specification. The front scope of the system is the IllJir view.

Separation of the Invention As required, the comprehensive Handicrafts of the present invention are disclosed here. However, the opened structures can be shaped in various and alternative forms. intended to be examples[gll:lanlas[lE1alIlEl Figures do not need to be to scale and some features can be enlarged or minimized to show the extents of certain components can be done. Therefore, certain structural and functional scopes described herein, as klîlflhyllîll experience in the technique of how to apply the concepts described instead construed as an exemplary basis to show the owner As used herein, in a list of two or more items any combination of two or more of the listed substances may be used. meaning. is coming. For example, if the composition containing components A, B and/or C is described, composition, A'yUpskirt; print 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.

Referring to FIG. 1, an automotive vehicle. (10) a passenger compartment (8) usually wireless It is shown to use a charging and disinfecting system (12). Vehicle (10) usually adapted for seating a person as a passenger in the passenger compartment (8). a seating arrangement comprising a front passenger seat (14). Vehicle (10) separately the storage compartment (18) and a center console (16) comprising a tray EKZO). Warehouse various enclosures or compartments within the compartment (18), the tray (20) and/or the vehicle (10), includes a wireless charging and sterilizing system (22). From here on, wireless sag and sterilizing system (22) may also be referred to as system (22).

The center console (16) includes a central cluster (24) extending to an instrument panel (25). contains. Tool (10) separates, such as device holders such as trays or storage compartments May be equipped with various other vehicle assemblies. From tables, storage compartments and various each of the other tool components, one or more devices as opened[glE] It can be made to charge and disinfect wirelessly. This type of tables and storage compartments can be placed at various locations throughout the vehicle. The description states that the system device. a warehouse where it is placed to indicate the minimum disinfection status compartment or table lit. presents a novel wireless charging sterilizing system (22) which may include A charging compartment 28 of the system 22 may be located on the tray of the center console 16 and The electronic device can be moved to E(26). The system (22) is within the electronic device. electrical power supply - one or more rechargeable batteries or multiple wireless chargers. includes a charging apparatus IEI(30). BaseHand When built, the wireless charging apparatus (30) may correspond to an inductive charging system.

Other forms of wireless transmission are magnetic resonance, loose connection to wireless charging apparatus such as resonance and electromagnetic radiation (30) usable.

In some constructions, one or more wireless charging apparatuses, Hand(30), medium on one or more storage trays or dedicated trays provided in the console (16) can be provided. The wireless charger(30) is an inductive charger according to someEj/apuandlunna. It includes a wireless charging device such as IE(32). Inductive chargers Generally, a charger at low frequencies (approx. for the generation of electrical signals in the form of an electromagnetic field (EMF) or contains more than one inductive coil. On the hands shown, the charging zone (28), the charging When placed within the zone (28) the device (26) can be connected via the inductive connection. to a lower wall and wall for mounting the device (28) on which it can be charged by means of an electromagnetic field. It can be defined by a table with side walls or by a storage compartment.

The system (22) consists of a disinfecting apparatus (EQ40) located in a separate tray (20). lighting apparatus IIJ38). The tray is placed in a space created by the tray, doorII (42) an inlet container-[(42) that can be pivotally connected to the table (20) through which it can be accessed with the openingBiasE. may contain. The inlet port (42) and the tray (20) may consist of a material and/or a product made to absorb ultraviolet light or may contain more than one coating. In the bases, the entrance door EIZJ (42) and the table (20), Absorption and/or cutting of emitted ultraviolet light by the disinfecting apparatus (40) It can be formed from polymeric materials such as polycarbonate or acrylic.

As described herein, the table (20) and the inlet port (42) protect the device (26) and a sagging and disinfecting agent to prevent the passage of ultraviolet ISlElII into the passenger compartment (8) It may be in the form of the partition (43).

The lighting apparatus(38) is constructed for the spring of an initial emission of the Sigil, at least lightening a photoluminescent material that is minimized by utilizing an ISIEJ source name. can be done. Initial emission to a wavelength of less than 500 nm. may correspond to an Elgb having In some crafts, the lighting apparatus(38), very saylîla ISlKl source. At least one of the many sources of lglKl, disinfection The disinfecting apparatus (40) is an ultraviolet IglKl source which can offer disinfecting properties. may correspond. Separated from the lighting apparatus (38), the system (22) is in charge state or will not be able to identify at least one of the disinfecting conditions may contain at least one photoluminescent portion.

In some Zyapllândlîilnas, the lighting apparatus(38), a first Fifty] welded to a second TIGHT may contain source. The first TIGHT welding can be made to emit emissions and the second @El Welding can be made to emit a second emission. Initial emission, approximately 500 which may be less than nm and greater than one wavelength of the second emission. may be visible to @Earaligl which has wavelength. Second @Ekaynagüultraviolet FREQ] may correspond to the source and is approximately 10 nm to 400 nm ultraviolet Ellilarallglu Subbin can be made to emit the second emission in relation to the wavelength.

Illumination apparatus (38) is a first photoluminescent section containing a first absorption gap. and a second photoluminescent portion containing the second absorption range. Each The photoluminescent section can be placed in an inner cavity of the table (20) and can be arranged in multiples. @Hand First emission at various intensities to selectively emit one of its colors and/or it can be configured to warn the second emission parties. Count a lot. your colors for presenting the lighting apparatus (38) in such a way that it is selectively formed, The photoluminescent section may contain a first absorption range, and the second photoluminescent section may contain a The second absorption range may include. The first absorption interval depends on a first wavelength of the first emission. and the second absorption range corresponds to a second wavelength of the second emission. may correspond.

In this configuration, the corresponding photoluminescent range between the first absorption range and the second absorption range have little overlap with the activation wavelengths depending on the material structure. with or without any overlap may involve a great deal of difference. In this way, illuminating apparatus 38), independently of a status indicator of the system (22) Plate by stimulating a first photoluminescent section and a second photoluminescent section for fabrication (20) may illuminate. First photoluminescent section and second photoluminescent section, sßslıla first It can be expressed as a photoluminescent indicator and a second photoluminescent indicator. specification As it will be opened more extensively throughout, the system (22) in some The device is charged, disinfected with portable device and disinfected with the state of charge and/or disinfection. It can be done for a Sigilîyaymasli in relation to a compelling situation.

AçEllgamacMa, an emission from the first photoluminescent part, a third emission can be expressed as and an emission from the second photoluminescent section can be expressed as a fourth can be expressed as emissions. Each of the third emission and the fourth emission Emissions can be expressed as E. Such representations include exemplary embodiments and may be used to denote compilations and, unless stated otherwise, any part of the specification certain applicationII basic components or elementsII a certain number-designing eye Certain numerical values in the description should not be taken into account. may not correspond to similar numerical values found. For example, first, second, third, etc. terms, Elements in the requests that may vary in terms of specification. login ssllîexpression can.

Referring to FIG. 2, the block diagram of the system (22) contains a processor (52) and a light 54) having a control circuit shown in a configuration as a controller 50 containing will be shown in the figure. Controller (50), other or additional analog and/or digital may include circuitry. The controller 50 can process login information from the boot and charge apparatus (30) may form a conflict. One or more of the chargers provided in the device (26) In order to charge the rechargeable battery, electrical energy is wireless Ela is an inductive charger with inductive coils (46) made to transmit may correspond.

Controller (50), communication bus (56) from vehicle and charger II (30), The illuminating apparatus II (38) and the disinfecting apparatus (40) each contain various inputs. It can be done for allEinaslî. In some apilandunas, inputs may include: 1) device (26) A signal indicator of the charging status (e.g. fully charged, fully charged, or under-charged/full-charged, etc.) 2) vehicle connection-I Universal Serial Bus Current charging device (26) detected from (USB) port or wireless technology by means of a vehicle bus 56 associated with the determination of at least one of the information from vehicle connection, 3) disinfecting status and/or @Hand source It consists of the lighting apparatus (38) and the disinfecting system (40) that determine its functionality. feedback signal. The information sent from the vehicle connection system, the device (26), wireless charging Determining the charging status of the device, whether it is [g]II and yellow when it is in the apparatus (30) may make a request to the controller (50) for BazDyapllândlEnaları, controller (50), The device (26) displays the charging status periodically as a message sent to the vehicle connection system. It can be done without spreading. In this way, the controller monitors the device (26) of the state of charge. can control the lighting apparatus (EG38) to provide lighting as specified.

In bazulapilândluinas, the presence of the charging apparatus130), the device (26) allEllarII, or It may include a sensor (58), which is made to detect its absence. Sensor (58), wireless for the charging apparatus II (30) to detect the presence of a handheld device (26) in the transmitting area. can be made. The sensor (58) displays the charge status of the battery stored in the device (26). can measure. Device 26 may be configured to transmit information indicating stored charge status. and the system (30) sends a signal from the device (26) with the device (26) indicative of the state of charge. AllEinasE of the signal can be doneHandlEll. The transmitted information indicates that the device (26) is fully charged, It may indicate that it is fully charged or in a low charge/fully discharged state. some When built, the connection system for a vehicle is activated with the wireless communication protocol. and synchronized with the same Ebrotokol-activated device (26). Charge wireless device that can be used with any device and compatible with a vehicle-connected system examples of communication protocols, Bluetooth, k-tether, 2-way UHF switchesEl/e IEEE It includes 802.11 technologies. In such cases, the charging state of the device (26) will be directly and device (26), system side (30). the need to detect the charging status be heard - can be transferred to a vehicle connection system.

In addition, the controller 50, the device 26 due to misalignment or incompatibility, It can utilize the sensor 58 to measure 0Imad[gII, which is capable of charging. wrong If your alignment or mismatch is detected, the system (30) transmitted to the device (26) The sensor (58) can be constructed to measure the power amount. This type of measured power The information can then be sent to the controller 50 where the information can be processed.

Incorrect alignment and/or mismatch with the controller (50), device, charger (30) a predetermined number stored in the memory 44 to determine whether value or range values[g]. The amount of deviation that arises in the power measured according to

In bain/apilândunas, the controller (50) informed a passenger that his device (26) was incorrectly aligned. çiEISEII yapilîhaslîladlüla of a is-ilKl color that can spread as a model that sends a statement. Lighting apparatus (38) can be made to control.

If the calculated deviation is below one or more of the predetermined threshold values, or if the value is beyond the range, the device (26) is greatly mistaken with the charger EKBO). may think that it is aligned/or mismatched. Detected by the Controller (50) parties device batteryII charging apparatus and device. (26) related to detected side-IE alignment In addition to the information, other information about the device (26) such as a malfunction of the charger II (30), detectable by the controller (50) and thanks to the vehicle bus (56), the bus It can be transferred via (56) vehicle connection. Controller (50), device (26) or system (22) for the determination of compatibility issuesII and/or dysfunction Egil springing from the source can control the lighting apparatus.

The system (22) receives at least one user input (59) in communication with the controller (50). may contain. User inlet (59), disinfecting apparatus. (40) of a disinfecting function baslatl]B1asl:leach can be done. The response of a signal from the UserInput (59) As an alternative, the controller 50 is used to sterilize and clean the device 26 of a dEI surface. disinfecting apparatus. (40) can make the second Sila weldable. Controller (50), a with a predetermined time frame corresponding to the disinfection process. to maintain the activation of the second power source II to spread the emission. can be made. Second emission separation, illumination of the second photoluminescent segment can provide. In this way, the system 22 ensures that the disinfection function is introduced in the tray 20. It can be done in order to warn a vehicle passenger (10) about this.

In some indoor lounges, the system (22) has a door in communication with the controller (50). sensor (60) and device presence sensor (61). KapEisensor (60), input grabbing positioned adjacent to a closed surface with respect to (42) and the table (20) It may contain a key, such as a magnetically attached key. coupler sensor (60), inlet cap-a (42) a closed hand, as placed adjacent to a near hand switchII, A signal output to the controller (50) as input coupling (42) arranged in position it can be done to do. In this way, the controller 50 is connected to the second emission-related The ultraviolet Wart is drawn only when the inlet capEE(42) is arranged in a closure position. In the second way you can control the lSlElsource.

The VarIIJZl sensor (61) can be placed on the tray (20) and the device. (26) wealthyhand detection may be functional. VarliElsensor (61), gap (120) device (26) varllgill detection a capacitive sensor, reflective ELE sensor, LIGHT] sensor or may include sensors of any shape. Against the device (26) placed in the cavity (120)[[lE Additionally, the presence sensor 61 may signal the controller 50 . From the Hand sensor (61) In response to the received signal, the controller 50 indicates that a disinfecting action is activated. In this way, the device can determine whether it is placed in the tray (20). For example, some In the structures, the controller (50) detects the presence of the presence sensor (61) on the device (26) in the tray (20). as aIlEl'naskarsil]Cl, only the disinfecting apparatus (40) disinfects It can be done to activate a deactivating transaction.

Referring to FIG. 3, a comprehensive perspective view of the charging apparatus II (30) The device (26) is shown, with the charging region 28 relative to the allEEcoil (62).

A transmission portion 64 may be retained by the charging apparatus 30. TransferleElchapter (64), vehicle. (10) one or more transmitters connected to a connector with a combined external power supply the coil (66). An allEl68) can be housed in the device 26. Transmission Section (64), The AI-I (68) is functional to power the device (26) from a rechargeable battery. it can supply power to the alloy (68) as it is. Transferred section (64), various from device (26) It can be made for the use of signals. Signals from the device, transmitted section (64) all parties and device. (26) to the controller (50) to determine the charge level. transferable and device. (26) use a particular power transmission method, such as charging. may contain additional control information that may be adopted.

Referring to FIGS. 4A, 4B and 4C, lighting apparatus II (38) and disinfectant One or more photoluminescent parts of the apparatus (22) of the system FIGURE 4A-4C is essentially a vehicle bond - a coating that can be applied (e.g. a film), a vehicle joint - a depositionable The distinction is a part and a vehicle connection - a number of which are included in a separate applicable structure. Photoluminescent structures as separate parts. (72) show various constructions.

The connection to the ones described here, for example, the table (20) to an internal wall-like system (22) adjacent may correspond to one or more surfaces or portions of the vehicle 10.

photoluminescent structure72), such as the first photoluminescent section and the second photoluminescent section where the angle may correspond to the photoluminescent segments. At the most basic level, photoluminescent structure: 1(72) is a single image shown with dashed lines in FIGS. 4A and 4B. an energy conversion layer that can be presented by making a layer or a multiple layerIE(74) contains.

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

Some examples of photoluminescent materials are rylene, such as zinc sulfide and strontium aluminate. Dyes may include chlorethylene, quaternary terylene and phosphorescent pigments. Photoluminescent materials, the entered electromagnetic radiation, which has a longer wavelength and A color that expresses a color that does not have electromagnetic radiation properties. can be formulated to convert it into electromagnetic radiation. Log in and check out Differential stock shift in wavelength between electromagnetic radiations calledlandlîllîhaktadlîl and often called asagEldösümIEllân up bet It acts as a principle perturbing mechanism for the energy conversion process that goes through.

In the various applications described here, ml is used for each wavelength (e.g. initial wavelength, etc.) corresponds to the electromagnetic radiation utilized in the conversion process.

Each photoluminescent section is composed of an energy conversion layer (eg, conversion layerE). (74)) containing at least one photoluminescent). Energy conversion layerE(74), Many main structures to create a homogeneous mixture using various methods (80) It can be prepared by separating the photoluminescent material found. Such methods, slîE a leash] a tool for the preparation of an energy conversion layer74) from a formulation in the environment energy with the desired planar and/or non-planar sub-assembly of the coupler The transformation layer II (74) may include coating. Energy conversion layer (74) coating painting, stencil printing, spray, slot coating, yellow, hand coating, rolled painting and bar From the side of the coating, the selected vehicle can be placed in the mount. In addition, the energy conversion Layerslîü74), slîE can be prepared by methods that do not use a full IE. For example, a solid solution of one or more photoluminescent materials (in a dry state homogeneous karlglEh), energy conversion layerlîq74) do it. (80) may be included. Most of the main structures are hand(80), extrusion, injection, compression. molding, calendling, eluforming, etc. fans can be created. one or more The energy conversion layers II (74) are, when processed as particles, single or multiple layer energy conversion layerslîq74), a vehicle installation. or can be placed on the panel. Energy When the transformation includes the multi-layer formulation, each layer is slBaIIJJI 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.

The layers are made of the heart for integrated multi-layer Energy conversion can be pulled together.

Referring to FIGS. 4A and 4B, photoluminescent yaqu72) optionally, photolytic and included in the energy conversion layer (74) from thermal degradation Minimum stability to protect the photoluminescent material may contain a layer (76).

The Stable Layer (76), the energy conversion layer, is a separate optically bonded and superimposed layer. It can be made as a layer. Stability layer (76), with energy conversion layer (74) can be integrated. make photoluminescentEQ72), make photoluminescentEEUZ), from environmental conditions Optical, optionally, for protection from physical and chemical damage caused to the light as stable EliabakayEq76) or a protection layer that joins and connects to the other layer. (78).

Stable Sheet (76) and/or protective layer (78), leil Coating or each a photoluminescent integrated with a printed sheet or an embossed sheet It can be combined with the energy conversion layer EK74 to form a structure(72). Alternative As a substrate, various layers can be bonded to a substrate, such as coating, lamination or embossing. Can be combined with Creating an integrated photoluminescent structure(72) with infrastructureElçin laminate It can be embossed or embossed. Once created, photoluminescent (72) may be applied to a selected vehicle-connected device.

In based applications, the photoluminescent structureE(72) is one or more included in a vehicle connector, selected as multiple separate multilayer particles can be done. Photoluminescent Build(72), vehicle connection selected as an ongoing build In a polymer formulation applied to the device, dagEÜIBn has one or more distinct can be presented as layered particles. Additional information on the formation of photoluminescent structures, "PHOTOLYTICALLY" filed July 31, 2012, fully included herein AND ENVIRONMENTALLY STABLE MULTILAYER STRUCTURE FOR HIGH EFFICIENCY ELECTROMAGNETIC ENERGY CONVERSION AND SUSTAINED SECONDARY EMISSION,” (HIGH EFFICIENCY ELECTROMAGNETIC ENERGY CONVERSION AND SUSTAINABLE SECONDARY PHOTOLIC AND ENVIRONMENTALLY STABLE MULTILAYER STRUCTURE FOR EMISSION) basllKllJBD Patent No. Opening at 8,232,533IE Referring to FIG. 5, the lighting apparatus II (38) has a sematic diagram, usually a The front-illuminated Hand is shown according to the configuration 92. In this configuration, TIGHT springs originating (96) [SIEJ or by first emission (94), first transformation layerE(74) converted to the third emission 98. The first emission (94) represents an initial wavelength (A1). and the third emission 98 includes the third wavelength. illumination aparatlîa38), a photoluminescent structure placed in at least one photoluminescent section EG72) contains. In the present particular example, at least one photoluminescent segment is the first photoluminescent with reference to section 102. make photoluminescent EQ72), expressed as a coating and an interior wall, panel, joint/or a tool attachment such as a tray (20) wall. a substrate (104) may be applied. Separate photoluminescent material, energy conversion Regarding the layer (74), most of the main structure (80) can be distributed.

Example of FIG. 5, with reference to the first ISIElsource (96) and the first photoluminescent segment (102) hunger. Although they are similarly constructed, the disinfecting apparatus (40) is attached to the second usable. First Ella source and second photoluminescent section, with reference to FIG. In addition, the first @El sourceII (96) and the second Ellilsource (116) have a specific An example illustrating the application is explained with reference to FIGS. 7, 8A and 8B. First Ella sourceglîq96) can be made for the spread of the first emission that is usually visible to the fifties and the second STRONG source(116), the second emission (114) in the ultraviolet @El range. It can be made for yallIhasEl. In this configuration, first @lk-l sourceEl(96), second LIGHT] The second emission (114) from (116) is largely visible to the human eye. a @Erengi çlElglEa radiating from the tray (20) can be contributed.

In some structures, there is an energy conversion layer(74), a stable layer(76) and/or a protective layer (78). To activate the first Snakaynagll (96) In turn, the first emission (94) is received by the energy conversion layer (74), and the first wave with the third least wavelength (94) than the first emission with a wavelength (A1) converted to the third emission (98), which is Third emission (98), from the first photoluminescent segment (102) made to emit any @KI colorIllân too manyIElia wavelengths may contain. In various constructions, the lighting apparatus(38), most of the mains(80) and/or at least one photoluminescent material incorporated in the energy conversion layer 74 and the first emission (94) at the first wavelength (A1) is at least the third wavelength. made to convert it to the second emission (98) that has wave to create the length, the energy conversion layerd74), the third emission (98), the clanmember and/or blue color spectra IEUa wavelengths to emit or more than one photoluminescent materials. Such photoluminescent materials, Sigil for the third emission 98 can be combined to create a wide range of colors. For example, from the kEinlîDyesil and blue @ElyayIEEliotoluminescent material, the third emission (98) It can be used in various sections and combinations to control its color.

Each photoluminescent material has a specific energy conversion layer (74) utilized. a photochemical structure/combinations with photochemical structures, mainly freckle density, The freckle wavelength and peak absorption wavelengths may vary. An example Finally, the third emission 98 is different for the third emission 98 to change color. waveform of the first emission (A1) to activate photoluminescent materials at high intensities. can be changed by adjusting the length. KlElnlZD green and blue @Ki yaylEDphotoluminescent In addition to or alternatively to materials, the third emission (98) in a wide variety of colors Creating subin, single-handedly from other photoluminescent materials. and in various combinations can be used. In this way, the lighting apparatus (38) is supplied with a desired lighting color and tool. It can be done in various applications to provide the effect.

The various colors and colors of the photoluminescent materials described herein To achieve combinations, the lighting system (38), eg photoluminescent materials, organic and non-organic dyes, etc. any photoluminescent materials such as can take advantage of. Reaching various emissions ad. Related to photoluminescent materials additional fabrication and use! information here, each by reference in its entirety. “PHOTOLUMINESCENT FILERS, filed on June 26, 2012, including COMPOSITIONS AND FABRICS MADE THEREFROM," titled KlEEBortz et al., 8,207,511 issuesÜJJSABD patent; “PHOTOLUMINESCENT MARKINGS WITH” filed August 21, 2012 FUNCTIONAL OVERLAYERS," to EIDAgrawal et al., US Patent 8,247,761;27 “PHOTOLYTICALLY AND ENVIRONMENTALLY STABLE” filed August 2013 MULTILAYER STRUCTURE FOR HIGH EFFICIENCY ELECTROMAGNETIC ENERGY CONVERSION AND SUSTAINED SECONDARY EMISSION FOR ELECTROMAGNETIC ENERGY CONVERSION AND SUSTAINABLE SECONDARY EMISSION PHOTOLIC AND ENVIRONMENTALLY STABLE MULTILAYER STRUCTURE),” titled[lZll:Kingsley et al., DELIVERY SYSTEM FOR GENERATING SUSTAINED SECONDARY EMISSION, (LIGHTING TRANSMISSION SYSTEM TO GENERATE SUSTAINABLE SECONDARY EMISSIONS)"10 filed "PHOTOLUMINESCENT COMPOSITIONS, METHODS OF MANUFACTURE AND NOVEL USES, (PHOTOLUMINESANC COMPOSITIONS, MANUFACTURING METHODS AND INNOVATIVE “CHROMIC LUMINESCENT COMPOSITIONS AND TEXTILES, (KROMIK patent spring.. baklElllîl At least one SOLID reference (EQ96) also is expressed by Ebb and the least of the first Emissions (94)Electric First [SIK] source(96), halogen lighting, fluorescent lighting, Fifty] springEdidiodes (LEDs), organic LEDs (OLEDs), polymer LEDs (PLEDs), made for indoor lighting or first emission (94) It can contain any lSlKl source of any shape, such as other types of lighting. First wavelength (A1), energy conversion layer II (80) and/or many main structures.. (80) a or multiple photoluminescent materials corresponding to at least one initial absorption range In this way, the first emission 94 from the first beam source 96 can be made. first wave in length (A1), in opposition to the related all Etnalela, the energy conversion layerE(74), one or it can excite and resolve multiple freckling wavelengths. First emission (94), here absorption wavelengths of various photoluminescent materials IEi/or theseI It provides a warning source for the energy conversion layer (74), targeting the combination.

In this way, the lighting apparatus (38) can be used to create a desired [SIK] density and color. it can be configured to control the third emission 98. In an exemplary embodiment, the first @Ki source(96) is a blue spectral, purplish and/or emit the first wavelength (A1) corresponding to the ultraviolet color range yapllândlîllân contains at least one LED. Blue spectral color range[g"ll:lusually blue LIGHT] Wavelengths expressed as (~440-500 nm) contain an interval. BaslZl In yapllândlîilnas, the first wavelength (A1) is a color close to ultraviolet and ultraviolet. range[g]EbIa (~100-450 nm) may contain a wavelength and may be longer than the second wavelength. may correspond to a long wavelength. In an exemplary application, the first wave its length (A1) may be equal to 470 nm in approx. Specific wavelengthsElve wave Although the lengths are opened with reference to the first wavelength (A1), the first wave length (A1) is generally used to adapt any photoluminescent material. can be done.10 In an exemplary embodiment, the initial wavelength (A1) is] less than 500 nm. may be less. With blue spectral color ranges and shorter wavelengths, human These wavelengths, which have absolute sharpness in the visible spectrum of the eye, It can be used indirectly by connecting the Çilîlgl source to the Çilîlgl source. First wavelength (A1) For the first time, with the energy conversion layer Z(74), utilizing the k& wavelengths by converting the wavelength to at least one longer wavelength, (38) may create a visual effect of lgEglE caused by the photoluminescent structure (72).

Here angledEIandigJE, the second emission, which can correspond to the ultraviolet @Ki source the second Ella source can spread. The second ISIE source is about 10 nm to 400 nm ultraviolet To emit the second emission with respect to a wavelength that is the lSIEI range can be done. Second FREQUENCY] any source of one or more ultraviolet rays may contain a combination. For example, ultraviolet @Hand welding is a high-density ultraviolet lamp. a high-density clîla steam impulsive), an ultraviolet Elglül'aylE] diode (LED), super Luminescent LEDs, laser diodesEI/e/or the like. some in constructions, from the second TIGHT WELDED group-III nitride material system (eg.

AlxInyGai_x_YN, where 0 < x, y < 1, and x + y < 1 and/or theseI alasD] selected may include the @Eyaylîlîdiot set manufactured with one or more layers of materials. In an exemplary structure, the second LglKl source is approximated from 10 nm to 400 nm. It can be made for ultraviolet Light Fiberglass Hand and in some Fiber Handles, approx. It can extend from 200 nm to 300 nm.

As explained here, the third emission (98) and the fourth emission (e.g. SUZlSl) each of the multi-surface branch lengths related to emissions, may correspond to spectral color ranges. Count a lot. wavelength, approximately 620- KLîrlnlîElgiElyaylEDJIr photoluminescent material with a wavelength of 750 nm, a green &[lîlyayylîilotoluminescent] with a wavelength of approximately 526-606 nm material that is longer than the first wavelength (A1) and cannot be approached in a construction blue or blue green with a wavelength of 430-525 nm as @El yaylEEbir can be formed from photoluminescent material. Count a lot. wavelengths, first wave from each of the photoluminescent segments converted from its length (A1) (e.g. the first photoluminescent section and second photoluminescent section) It can be used for creation. The fourth emission is similarly to the first emission (94). and the third emission (98) different from the @IKI color can be made of çlKlgEI was Elçin photoluminescent can use materials.

Referring to FIG. 6, the lighting apparatus (38) is generally used for backlighting. shown according to its configuration (110). Similar to prelight configuration (92) Alternatively, the backlighting configuration (110), an energy conversion layer (74) and/or make a lot of mothers. (80) dagüîllân contains photoluminescent material. in FIG. 6 as shown, the lighting apparatus EK38), the second emission (114) from the second @Ki source (116) can be made to convert to fourth emission (118). In this configuration, The illuminated throwing apparatus(38), the second emission (114), enters a cavity formed by the plate (20). (120) can be made for dissemination. Second emission 114 over a volume of space 120 It can pass through and can be carried by the tray (20) and the inlet container (42) material.

Here, the angle ElandfgEilizere is less than 400 nm, with the inlet line (42) and the plate (20) approximately for ultraviolet @ED absorption and/or reflective radiation with wavelengths IEL may be made of material. In this way, one or more in the passenger compartment (8) more than one passenger can be protected from possible harmful and ultraviolet rays.

Lighting apparatus II (38) with first SIK] source(96) and/or second SIK] source(116) In order to provide a visible indication of the situation exit, the input coating(42), ultraviolet Lighting It can be made to pass through the visible gap while blocking. Third emission (98) and/or a visible state of the @El system associated with the fourth emission (188) From the first photoluminescent section, via the input lined (42) (102) emit from the third emission (98) and/or the second photoluminescent section (112). the fourth emission (118), the color of the bowEIAN lglgll, becomes visible to the passenger of the vehicle (10). In this way, it can be çîlgßrapü through the entrance kaplglîll42).

In a particular example, the second photoluminescent section 112 is an internal on the surface ( yayhan the second emission (114) containing ultraviolet Efficiency, the second for the arc BiasE of the fourth emission (118) can be transformed with the photoluminescent section 112. Second photoluminescent section biased any unconverted ultraviolet @K1 can be reabsorbed into space (120) and/or can be reflected. The fourth emission (118) is the one or more emission of approximately greater than 400 nm. may correspond to visible range[tha @gla] containing more than one wavelength. In this section, the entry materials or coatings applied and/or placed in container-I (42) material. filtering properties, capili-Ji, glowurea a function related to the fourth emission (118) In a yaydlg1l3 way, it passes the fourth emission (118) through the input kaplQIQ42 to the dlgla.

Although the second photoluminescent section 112 is explained with reference to FIG. The system (22) is the first one placed on any inner surface of the charging and disinfecting chamber (43). comprising the photoluminescent section (102) and/or the second photoluminescent section (112). It can provide similar lighting effects on fabrics. For example, each photoluminescent on one or more inner surfaces of the container-I (42), the tray (20), the charging zone (28), or Can be placed on any other surface. In the various configurations opened here, the system (22) a visual indication of the device (26) charging status and/or disinfection status. Your submission may be functional.

Referring to FIG. 7, system 22 is shown in a disinfecting mode. This In one configuration, the controller 50, receives from its useful input 59, as a response to a signal. To control the lighting apparatus (38) and the disinfecting apparatus (40) can be done. Inlet cover 142 to cover the charging and disinfecting compartment (43). is shown. When the device 26 is standing on a surface associated with the charging area 28 is shown. Klîtnen charged device (26) and done in a disinfecting mode Relative to the disinfecting apparatus (40), the system (22) ensures that the fourth least emission (118) It can be made for working.

Here, to the switched on, the controller (50) is set to emit the second emission (114). It might be functional to check the lgllg resourceIE(116). Second emission (114) alEmaleb KarsllîlKI, the second photoluminescent section 112 can be activated and the fourth your emission (118) may be working. The fourth emission (118) is an lgllZl in the visible color range. may correspond to its color. In this configuration, the fourth emission (118) is the vehicle. (10) passengers fourth emission (118), inlet vessel-IE] (42) can be transmitted over the material. In this way, the system (22) will activate the disinfecting apparatus (40). it should somehow provide a visual warning to the vehicle (10) occupant in an ultraviolet light can be made for

In base applications, each photoluminescent section (102 and 112) can be placed on the surface. In this configuration, each photoluminescent segment 102 and 112 of the emission (94) and the second emission (114) as slßslîla allErnaskarslDKl, (42) can be selectively illuminated to create ambient glare. entrance door a shield that prevents electromagnetic interference (EMI) from entering the passenger compartment (8). system may be included. The shield system can be attached to a clear EMI shield system film, foil or pine. may correspond. For example, the shield system bypasses the EMI pass through the input gate(42). Handle Ellan is a polymeric material with an electrically conductive coating. may correspond.

Referring to FIGS. 8A and 8B, the charging and disinfecting compartment (43) of the system (22) Various charging situations Reference to hand disinfecting modes will be made in FIG. 8A With reference to this, the lighting apparatus(38) has the first @Handsource(96) active. is shown. The first photoluminescent section 102 is connected to the disinfecting chamber 43 and/or the inlet. The container-I (42) can be placed on an inner surface. The first lglKl source to emit the first emission (94) (96) In contrast, the first photoluminescent segment 102 can be activated and the third emission 98 can spread. Starting here, the third emission (98), energy conversion layer (74) large scale controllable using one or more photoluminescent materials may correspond to the color spectrum. In this configuration, the system 22 ensures that the third emission 98 For EgLighting (132) in a first color that relates to one or more wavelengths it can be done. Heated first color (132), dlgh (43) from the pod (43) via the inlet caplgEK42 it can spread right.

The second photoluminescent section 112 is formed by the disinfecting chamber 43 and/or the inlet. The container-I 42 may be disposed on an inner surface in a similar manner. Emitting second emission (114) as the second SIK] source (116) karsl11k`], The second photoluminescent part (112) is activated It can be passed through and can double the fourth emission (118). Open here onllZlandEglü, fourth emission (118), one or more of them in the energy conversion layer (74) wide range of colors that can be controlled using photoluminescent material may correspond. In this configuration, system 22 provides one or more of the fourth emission 118 It can be made in a second color (134) related to the longer wavelengths, for the color/discoloration.

In some constructions, the system (22) is used to charge and/or disinfect the system (22). Depending on its condition, its first color (132) and second color (134) may be functional. For example, in some apllândlülnas, the first photoluminescent segment (12) is approximately 520 nm to 560 nm. Third in the first color (132) that can correspond to a green color with a wavelength of nm It can be made to emit (98) emissions. In this configuration, the inlet trap (42) is drawn. The color can be green from there, corresponding to the system that introduces the charging function.

The second photoluminescent segment (112) has a wavelength of approximately [lg 620 nm to 750 nm. who owns KIenlîEbir ISIK! the fourth emission (118), which has the second color (134) associated with Yaymasulcin donellândlAllable. In this configuration, the inlet trap (42) color is[lZlan 5112], charging It can be green as [[1E] as opposed to the system that puts the function into the process. In addition, The system does not enable the charging function and disinfecting function in the same time. may be functional. In this configuration, the third emission (98) and fourth emission (118) First color (132) and second color for triple ZEEL of yellowEEE color via KapEE(42) In the combination (134), an Egil çiEEEllEi structure is activated together. business specific colors, with reference to exemplary builds disclosed here However, the first photoluminescent section (102) and the second photoluminescent section (112) It can be made to spread its colors.

Controller (50), second EE source:[116] active, first EE source (96) springs By adjusting the EE energy and intensity, the input capEJ(42) will change the color of the EE treEEEL. It can be made for adjustment. For example, with the disinfection function, second source of IE (116), second emission (114), second photoluminescence for fourth emission (118) section (112) may be active as it activates. Additionally, the controller 50 intensity range, which may activate the first EE source96). In this way, the system (22) It may be functional for tripartite variation of the EE color emitted through the kapEEK42). This in one configuration, the controller 50 is substantially surrounded by one color. the first color of the EE color emitted via the inlet port(42) 132 and second color 134 can be selectively matched to be functional. Input coupling(42) The Egil color emitted over the electronic device 26 may correspond to a charge level.

CliZE color emanating from the tray (20) associated with the charging and disinfecting chamber (43) here, despite the fact that it is opened via the entrance door (42) like a spring, the system (22), from the space (120) medium EgilEll illuminates and displays a color related to the charging status of the device (26) It can be understood that it can be drawn in a similar way. As explained here, the first photoluminescent the section 102 may be located on any of the interior surfaces defining a gap 120 and/or disperse. In this way, the system 22 enters the table 20 through the space 120. container_(42) controls the EE color in a similar way to the process opened with reference may be functional. In this way, open the inlet port (Eia42)[E it can be functional to control the color or in someEyapilândlEinas the inlet container-l (42) may not need ultraviolet absorbing properties.

Referring to FIG. 8B, disinfecting apparatus(40) inside clearing apparatus(38), active first source of EE (96) and second source of EE. (116) as to have is shown. As explained with reference to FIGS. 7 and 8A, the controller 50 is the first the first emission (94) to the third emission (98), as a color space [gill] is created. EE source 96) may be functional to control. From the first photoluminescent section (102) and each of the second photoluminescent section (112), inlet vessel-l (42), trays (20), charging inside the space (120) formed by the region (28) or the tray (20) and the inlet port (42). may be placed adjacent to one or more inner surfaces of any other surface. This In this configuration, the controller 50 has at least one color from the second photoluminescent portion 112. çlEglEllE] can be functional to control the second ElElsourceglEllEl (116) as it is created.

Further, the system (22), the first two sources (96), the first photoluminescent section (102) and the second The first LIGHT to selectively combine the stem colors of the photoluminescent section (112)] source:[96] and/or to selectively activate the second [SIK] sourceIE(116) may be functional. The second @El source (116) from the second emission (114), ultraviolet Iglgl, The color of spring Eilîl from Ellabla (20) is an important it may not change accordingly.

Open hereZIandlgE, system (22), first @Hand source:{96), first photoluminescent section It can be functional for creating various colors by combining them. This style is selective color karlglîn). and to allow activation, the first photoluminescent section (102), approx. an initial absorption range associated with the initial emission, which may be between 420 nm and 500 nm as IgJEUa. may contain. In addition, the second photoluminescent section 112 is approximately 200 nm to 400 nm. It may include a second absorption range [gII:I] associated with the second emission 114 which may be intermittent. This In this configuration, the controller (50) selectively emits the third emission (98) and the fourth it can be configured to activate the emission 118 independently. In this way, the system by selectively activating the first @Ekaynaglü96) and the second LIGHT] source IEa116). it can be functional for the working of a color variant.

The specification is used to control a charging and disinfection process in the vehicle. It offers a system that is functional. The system can be built from a table, console or any open alkIlEtan or a @Erengi çmm yapüândlîllân disinfectant from an intermediary space a lighting apparatus containing an apparatus. Heat color, charge status and the vehicle occupant regarding the one that minimizes the disinfection process situation. It can be controlled by a controller of the system to be informed. In this way, specification, electronic device. Wireless charging, electronic device. a safe means of disinfection and the charging and/or disinfection process. A versatile and cost-effective tool that can be functional to provide a visible notice to the passenger. system offers Here, openllZIandlgUizere, first, second, third, etc. terms, shapes for explanatory purposes may provide description by reference. For example, an initial wavelength is a warning! to emissions and a third wavelength, a corresponding resolution from a photoluminescent section can correspond to emissions. Such representations include exemplary embodiments and may be used to denote compilations and, unless stated otherwise, any part of the specification with its specific application] basic components or elementsII a certain number-designing eye Certain numerical values in the description should not be taken into account. may not correspond to similar numerical values found. For example, first, second, third, etc. terms, may express a column of claim elements II entry and specify a specific numerical value should not be lellElls Variations and changes are separate from the concept of the present invention. It is understood that the mentioned structure can be created inBaaktadElve their own language below. Unless otherwise claimed in its own language, such concepts shall be governed by the following claims. as it is intended to be covered

Claims (1)

REQUESTS A charging and disinfecting tray for a vehicle and includes the following: Electronic Device. A wireless charger for charging To a lighting apparatus containing at least a disinfecting apparatus with a photoluminescent indicator Constructed to control a wireless charger and lighting apparatus and to activate a sterilization process with the disinfecting apparatus to activate a sterilization process at least a functional controller. The charging and disinfecting tray according to claim 1, wherein the disinfecting apparatus comprises an ultraviolet light source constructed to illuminate a first photoluminescent portion of at least one photoluminescent indicator in a first color. The charging and disinfecting tray according to claim 2, wherein it contains a visible light source, the lighting apparatus, which is constructed in such a way that the media for the tray is hand-held. With the visible Igliil source, it illuminates a second photoluminescent portion of a photoluminescent indicator that is at least in the second color differing from the first color, made of sullând-[charging and disinfecting tray according to glulam 3]. The charging and disinfecting tray according to claim 4, wherein the first photoluminescent segment contains a first absorption range for the visible source and the second photoluminescent segment contains a second absorption range for ultraviolet welding. Charge and disinfecting tray according to system 4, made to emit an emission of visible @na sourceglEllEl, having a third color that differs from the first color and the second color. Charge and disinfecting tray according to system 6, made to control an emission intensity from visible @El so that the controller controls the color of a LIGHT emitted from the tray. It is made to set the relevant input color emitted from the tray by the controller selectively activating the visible SIK] source during the sterilization process-[charging and disinfecting according to order 7]. a wireless charger for charging the embedded electronic device A wireless charger with a lighting apparatus comprising at least one photoluminescent indicator and an electronic device configured to control the lighting apparatus. A controller functional for controlling the lighting apparatus so that an Ella color will be output in relation to a charge level. The charging plate according to claim 9, where the AydiElama apparatus contains a visible source constructed to activate a first photoluminescent portion of the photoluminescent display The charge plate according to claim 10, which is built to emit a second emission related to the Controller, selectively mixes the first color of the Controller with the second color to create a radiant color from the chamber with the visible LIGHT source. Electronic device of the color of the chocolate emitted from the compartment, according to the charge plate 11, to adjust the intensity of a made-[glul]. The charging and disinfecting tray according to claim 12, where it corresponds to the charge level. The charging and disinfecting tray according to claim 9, wherein the lighting apparatus comprises a disinfecting apparatus comprising an ultraviolet TIGHT source. The charging and disinfecting tray according to claim 9, wherein the at least one photoluminescent indicator comprises a second photoluminescent section, made by hand, for selectively activating an emission originating from ultraviolet STRONG. A charging and disinfecting tray for a vehicle, comprising: A wireless charger for charging electronic equipment A lighting apparatus with a disinfecting apparatus having at least one photoluminescent display A lighting apparatus made to control a wireless charger and lighting apparatus A controller functional for activating the strongest photoluminescent indicator by initiating a sterilization process with The charging and disinfecting tray according to claim 16, wherein the lighting apparatus comprises a visible working source functional for emitting an initial emission associated with a first colour. Charge and disinfecting tray according to System 17, made so that the first emission activates a first photoluminescent portion of the photoluminescent indicator to form a second @IKI color. The lighting apparatus is made according to claim 18 to emit a lglg1l ultraviolet emission, so that a third IglEI color activates a second photoluminescent portion of the photoluminescent indicator, called çlKlSlEII. The charging and disinfecting tray according to claim 18, wherein the controller is functional for selectively combining the second color and the third color such that a garnet color is generated in relation to the state of at least one of the wireless chargers, the disinfecting apparatus, and the electronic device.