CN105459895A

CN105459895A - Photoluminescent device holder

Info

Publication number: CN105459895A
Application number: CN201510586927.2A
Authority: CN
Inventors: 斯图尔特·C·萨尔特; 斯科特·福尔摩斯·邓汉姆; 康奈尔·路易斯·加德纳; 安妮特·琳恩·许布纳
Original assignee: Ford Global Technologies LLC
Current assignee: Ford Global Technologies LLC
Priority date: 2014-09-30
Filing date: 2015-09-15
Publication date: 2016-04-06
Anticipated expiration: 2035-09-15
Also published as: BR102015025016A2; RU2015140130A; RU2015140130A3; MX2015013871A; MX351955B; RU2682419C2; CN105459895B; DE102015116412A1; TR201511945A2

Abstract

An illuminated device storage apparatus for a vehicle is disclosed. The storage apparatus comprises a console forming an elongated opening leading to a cavity. At least one support member extends along the elongated opening and is configured to engage a device. The storage apparatus further comprises a light source disposed proximate the cavity and configured to emit a first emission of light upward to illuminate the at least one support member.

Description

Photoluminescent devices holder

Technical field

The present invention relates generally to Vehicular illumination device, and relates more specifically to the Vehicular illumination device using photoluminescence structure.

Background technology

The illumination caused by embedded photoluminescent material provides uniqueness and attracting visual experience.Therefore, in multiple parts of vehicle, comprising this embedded photoluminescent material to provide environment and operating illumination is expect.

Summary of the invention

According to an aspect of the present invention, a kind of illuminated device storage device is disclosed.This memory storage comprises the control desk forming lengthwise opening, and lengthwise opening leads to chamber.At least one supporting member extends along lengthwise opening and is configured to and device engagement.This memory storage comprises light source further, and this light source is set to adjacent cavities and is configured for upwards radiative first transmitting to irradiate at least one supporting member.

According to a further aspect in the invention, a kind of photoluminescent devices memory storage is disclosed.This memory storage comprises the control desk with lengthwise opening, and opening defines chamber.A pair supporting member forming the first photoluminescence part extends along the opposite side of lengthwise opening and is configured to and device engagement.This memory storage comprises light source further, and this light source is set to adjacent cavities and is configured for upwards radiative first transmitting, to irradiate photoluminescence part, photoluminescence fractional transmission second is launched.

According to another aspect of the invention, disclose a kind of photoluminescence memory storage, this memory storage comprises the control desk with upper and lower.Top is operable as and turns to the second place from primary importance.Light source is set to adjacent lower and is configured for radiative first launch.Memory storage comprises the first photoluminescence part and the second photoluminescence part that are set to contiguous control desk further, wherein first is transmitted in primary importance and is directed to the first photoluminescence part and is directed to the second photoluminescence part in the second place.

Those skilled in the art is appreciated that once following specification sheets, claim and accompanying drawing after deliberation and understands these and other aspect, target and characteristic of the present invention.

Accompanying drawing explanation

In the drawings:

Fig. 1 is the transparent view of the passenger accommodation of power actuated vehicle, shows the control desk comprising illumination equipment;

Fig. 2 A describes the photoluminescence structure being rendered as coating;

Fig. 2 B describes the photoluminescence structure being rendered as discrete particle;

Fig. 2 C describes and is rendered as discrete particle and the multiple photoluminescence structures being incorporated to independent structure;

Fig. 3 is configured for the schematic diagram first wave length of light being converted to light formula configuration before the illumination equipment of at least second wave length;

Fig. 4 is the schematic diagram being configured for the backlight type configuration first wave length of light being converted to the illumination equipment of at least second wave length;

Fig. 5 A is the side-looking detailed view of the control desk comprising the illumination equipment being arranged on primary importance;

Fig. 5 B is the side-looking detailed view of the control desk comprising the illumination equipment being arranged on the second place;

Fig. 6 is the cutaway view of equipment holder, and this equipment holder is configured to by lighting device lighting according to the present invention.

Detailed description of the invention

As required, specific embodiment of the present invention is disclosed at this.But should be understood that, disclosed embodiment is only example of the present invention, it can be presented as form that is different and that substitute.Accompanying drawing is specific design not necessarily, and in order to present functional profile, some figure can be exaggerated or reduce.Therefore, specific 26S Proteasome Structure and Function details disclosed herein should not be interpreted as restriction, but as just for instructing, those skilled in the art are many-sided uses representative basis of the present invention.

As used in this, the term "and/or" used time in for a series of two or more project means the combination in any that can be used alone any one Listed Items, maybe can use two or more Listed Items.Such as, if compound is described to comprise component A, B and/or C, compound can comprise the combination of independent A, independent B, the combination of independent C, A and B, the combination of A and C, the combination of B and C or A, B and C.

Following openly describe to be configured for irradiate the Vehicular illumination device at least partially of control desk.In some embodiments, light source can be used to irradiation apparatus holder, and this equipment holder is palp in vehicle's passenger compartment.Light source also can be used to the inner chamber irradiating storage silo in the second place.Inner chamber can corresponding to the storage silo be arranged in control desk.Light source can be configured for launches the light of first wave length or excitation-emission with exciting light photoluminescence structure.

Photoluminescence structure can be configured for and the first wave length of light or excitation-emission are converted to second wave length or the second transmitting.The first wave length of light can correspond to the first color of light, and second wave length can correspond to the second color of the light different from the first color.Although the various embodiments of illumination equipment described here are with reference to about the concrete structure shown at least one power actuated vehicle, it is to be appreciated that disclosed control desk and illumination equipment can be used in various application.

With reference to figure 1, this figure shows the transparent view of the center console 10 of the primary importance 11 being positioned at vehicle's passenger compartment 12.Control desk 10 can comprise and can be used to as equipment holder 16 provides the illumination equipment 14 of illumination.Illumination equipment 14 can be arranged in center console 10 and can be configured at least one supporting member 18 of irradiation apparatus holder 16.At least one supporting member 18 of equipment holder 16 can be configured to the one or more equipment 19 be stored in equipment holder 16 provides force fit.

In some embodiments, illumination equipment 14 also can be configured for the surface 20 irradiating adjacent central control desk 10, and this surface can correspond to the bottom 22 of center console 10.Bottom 22 can correspond to center panel, and this center panel comprises at least one saucer 24, gear level 26 and multiple other vehicle fitting and/or annex.In this configuration, illumination equipment can be configured for the surface 20 of irradiation apparatus holder 16 and adjacent central control desk 10.

As shown in Figure 5 B, in the second place 21, control desk 10 can be configured for further and irradiate the inner chamber 28 that formed by control desk 10 at least partially.Inner chamber 28 can provide the storage silo 30 of storage space corresponding with being configured to various article.As described herein, illumination equipment 14 can provide cost-benefit device, and this device is configured for and provides surround lighting in vehicle.Ambient lighting device can be configured for the wavelength launching one or more the light corresponded in shades of colour.By this way, center console 10 can be configured for and beautify and improve the functional of passenger accommodation 12.

Illumination equipment 14 can comprise the light source being set to contiguous control desk 10.Light source is configured for first of the light launching first wave length and launches or excitation-emission.In primary importance 11, light source can be configured for the first transmit steering to the first photoluminescence part 32 of light.First photoluminescence part 32 can be configured in response to receiving the first transmitting and irradiate at least one supporting member 18 by exporting the second transmitting 33.

In some embodiments, when control desk 10 is oriented in primary importance, illumination equipment 14 can irradiate the second photoluminescence part 34 further.Second photoluminescence part 34 can be set to the front area of contiguous control desk 10.Illumination equipment 14 can be configured for and the first transmitting is delivered to the second photoluminescence part 34.Second photoluminescence part 34 can be excited in response to receiving the first transmitting and launch the 3rd and launch 35.3rd launches 35 can be configured for the surface 20 irradiating bottom 22.

In the second place 21, illumination equipment 14 can be used to and irradiates storage silo 30 at least partially.3rd photoluminescence part 38 can be set to the inside face on the top 36 of contiguous storage silo 30.As with further reference to Fig. 5 B describe in detail, when control desk 10 is oriented in the second place 21, illumination equipment 14 and control desk 10 can be configured for the first transmit steering to the 3rd photoluminescence part 38.In this configuration, the first transmitting can be launched towards the 3rd photoluminescence part 38 and launch 37 to launch the 4th, thus irradiate storage silo 30 at least partially.

Such as each photoluminescence part of the first photoluminescence part 32, second photoluminescence part 34 and the 3rd photoluminescence part 38 can be configured for first of first wave length by having light and to launch or excitation-emission is converted to and exports transmitting 40.Export transmitting 40 can refer to the transmitting that exports from photoluminescence part and second can be corresponded to and launch the 33, the 3rd and launch 35 and the 4th to launch 37 one or more.Export the second wave length that transmitting 40 can comprise at least light, the second wave length of light has the wavelength longer than first wave length.As described herein, each in photoluminescence part 32,34 and 36 can be configured to have multiple photochemical properties, and photoluminescence is partially configured to and first of first wave length the transmitting is converted to output transmitting or the second transmitting 33.Output as described herein is launched can comprise second wave length and other wavelength (such as the 3rd wavelength), and other wavelength can comprise the combination of multi-wavelength, with the light from each photoluminescence fractional transmission multiple color.

The first wave length of the first transmitting or excitation-emission can corresponding to the transmitting with bluish violet or navy blue light.First wave length can have the peak wavelength being about less than 500 nanometers.Can comprise one or more wavelength of light corresponding to the second wave length and other wavelength that export transmitting 40, the wavelength of this light has at least one wavelength longer than first wave length.In some embodiments, export transmitting 40 and can correspond to multi-wavelength, multi-wavelength can be rendered as obvious white light.In such an arrangement, the light of first wave length launched from light source is configured for and excites photoluminescence part as described herein.Such as, the second photoluminescence part 34 can launch the combination of the wavelength corresponding to white light in response to receiving the first transmitting, to irradiate the surface 20 of the bottom 22 of center console 10 at least partially.

Can correspond to compared with exporting the wavelength of transmitting 40 more difficult by the color of the light of Human Perception from the light of the first wave length of light source transmitting.This configuration can provide the second transmitting the 33, the 3rd transmitting 35 and the 4th activated by light source to launch 37, and this light source can project from single position.By this way, illumination equipment 14 can be configured for provides floodlighting to irradiate control desk 10 at least partially.The present invention provides the quantity of light source needed for illumination by restriction described here and provides to have cost-benefitly provides the device of ambient lighting for vehicle.

With reference to figure 2A-2C, demonstrate photoluminescence structure 42 generally, its be rendered as respectively can be applied to surface of vehicle coating (as film), can the discrete particle in implanted surface and the multiple discrete particles in being contained in the independent structure that can be applied to surface.As described herein, the surface of vehicle can correspond at least part of transmission transmitted light, operationally at least in part through fabric, panel and/or anchor fitting that its transmission first is launched.Photoluminescence structure 42 can correspond to photoluminescence part described here, such as the first photoluminescence part 32, second photoluminescence part 34 and the 3rd photoluminescence part 38.

In most basic horizontal, photoluminescence structure 42 comprises energy conversion layer 44, and energy conversion layer 44 can be provided as single or multiple lift structure, as in Figures 2 A and 2 B by a dotted line shown in.Energy conversion layer 44 can comprise the embedded photoluminescent material that one or more have the energy conversion component selected from phosphorescence or fluorescent material.This embedded photoluminescent material can construct in order to input electromagnetic radiation to be converted to that totally to have longer wavelength and represent be not the output electromagnetic radiation of input electromagnetic radiation distinctive color.The difference of the wavelength between input and output electromagnetic radiation is called as Stokes shift (Stokesshift) and is used as the main driving mechanism of the conversion process of energy (being usually called as down coversion (downconversion)) of the wavelength change corresponding to light.In various embodiments described here, each wavelength (such as first wave length etc.) of light is corresponding with the electromagnetic radiation utilized in switching process.

Each photoluminescence part can comprise at least one photoluminescence structure 42 comprising energy conversion layer (such as conversion layer 44).Embedded photoluminescent material can be dispersed in polymeric matrix 50 to form homogeneous mixture to prepare by using multiple method by energy conversion layer 44.Such method can comprise prepares energy conversion layer 44 and in plane energy conversion layer 44 being coated onto the expectation of surface of vehicle and/or non-planar substrate from the preparation liquid carrier medium.Energy conversion layer 44 coating can be passed through application (painting), screen printing, spraying, slit coating (slotcoating), dip coating (dipcoating), cylinder coating (rollercoating) and bar type coating (barcoating) and be deposited on the surface of vehicle.In addition, energy conversion layer 44 can by not using the method for liquid carrier medium to prepare.

Such as, the solid solution (homogeneous mixture in drying regime) of one or more embedded photoluminescent materials can be incorporated in polymeric matrix 50 to provide energy conversion layer 44.Polymeric matrix 50 can by extruding, injection mo(u)lding, compression forming, calendering formation, Heat forming etc. and being formed.Be rendered as in the example of particle at one or more energy conversion layer 44, the energy conversion layer 44 of single or multiple lift can be implanted in vehicle fabric, anchor fitting and/or panel.When energy conversion layer 44 comprises multi-layer preparation, every layer can be applied sequentially.In addition, each layer can be prepared respectively and lamination or be stamped in together to form overall layer afterwards.Also can each layer of co-extrusion to make overall multilayer energy converting structure.

Referring back to Fig. 2 A and 2B, photoluminescence structure 42 can comprise at least one persistent horizon 46 alternatively and be contained in embedded photoluminescent material in energy conversion layer 44 not by photodissociation and heat degradation with protection package.Persistent horizon 46 can be configured to the independent layer being optically coupled to and adhering to energy conversion layer 44.Persistent horizon 46 also can be integrated with energy conversion layer 44.Photoluminescence structure 42 also can comprise optical coupled alternatively and adhere to the protective cover 48 of persistent horizon 46 or any layer or coating and not damaged by the physics and chemistry caused by environmental exposure protect photoluminescence structure 42.

Persistent horizon 46 and/or protective cover 48 can be combined with energy conversion layer 44 and apply with suitable the continuing by every layer or print, or by pressing along subsequent layers or impressing the overall photoluminescence structure 42 of formation.Alternatively, some layers can by combining along continuous coating, lamination or impression to form substructure.Substructure then lamination or impression to form overall photoluminescence structure 42.Once formation, photoluminescence structure 42 just can be applied to the surface of vehicle of expectation.

In some embodiments, photoluminescence structure 42 can be attached in the fabric of vehicle, anchor fitting and/or panel as one or more discrete multilayer particle, as shown in Figure 2 C.Photoluminescence structure 42 also can be set to the one or more discrete multilayer particle be dispersed in polymeric matrix 50, and matrix 50 is applied in surface of vehicle as adjacent structure subsequently.Relevant utilize the additional information of the structure of photoluminescence structure at least one photoluminescence part of vehicle on July 31st, 2012 submits, by people's inventions such as Jin Sili (Kingsley), U.S. Patent number is 8,232,533, autograph is disclose in the application of " multiple-structure with ambient stable is stablized in the photodissociation for high-efficiency electromagnetic transformation of energy and lasting secondary emission ", comprises its whole disclosure by reference at this.

With reference to figure 3, illumination equipment 14 is generally according to front smooth formula configuration 62 display.Front smooth formula configuration 62 can especially corresponding to can be used to the configuration of irradiating the chamber 28 of control desk 10 or a part for storage silo 30.In this configuration, light source 64 is configured for transmitting first and launches 66, and first launches 66 is converted to output transmitting 40 by energy conversion layer 44.First launches 66 comprises first wave length λ ₁and export transmitting 40 and comprise at least second wave length λ ₂.Illumination equipment 14 comprises the photoluminescence structure 42 be arranged at least one photoluminescence part (such as the 3rd photoluminescence part 38) or in it.Photoluminescence structure 42 can be rendered as coating and/or be dispersed in the material on the surface 68 forming vehicle, the inner panel of such as control desk 10 or part.Embedded photoluminescent material also can be separated into the polymeric matrix 50 corresponding with energy conversion layer 44.

In some embodiments, energy conversion layer 44 can comprise persistent horizon 46 and/or protective cover 48 further.First launches 66 to be received by energy conversion layer 44 in response to light source 64 is activated and from first wave length λ ₁be converted to and there is at least second wave length λ ₂output launch 40.Export transmitting 40 and can comprise multiple wavelength, multiple wavelength configuration is used for any color from photoluminescence fractional transmission light as described herein.In this specific example, export transmitting 40 and can correspond to the 4th transmitting 37.

In various embodiments, illumination equipment 14 comprises at least one and is combined in embedded photoluminescent material in polymeric matrix 50 and/or energy conversion layer 44, and illumination equipment 14 is configured for first wave length λ ₁first launch 66 and be converted to there is at least second wave length λ ₂output launch 40.In order to produce multiple wavelength, energy conversion layer 44 can comprise one or more embedded photoluminescent materials, and this embedded photoluminescent material is configured for the output of launching as the wavelength of the light in redness, green and/or blue color spectrum and launches 40.Such embedded photoluminescent material can combine to make output launch the multiple color of 40 generation light further.Such as, red, green and blue-light-emitting embedded photoluminescent material with various ratio and can combinationally use the output color controlling output transmitting 40.

Each embedded photoluminescent material can change output intensity, output wavelength and peak absorbtivity wavelength based on the combination of the specific photochemistry structure utilized in energy conversion layer 44 and photochemistry structure.Such as, the wavelength X can launched by adjustment first ₁, to change the color exporting transmitting 40 at varying strength exciting light electroluminescent material, thus change output transmitting 40.Except red, green and blue-light-emitting embedded photoluminescent material or alternatively, can individually or with various other embedded photoluminescent materials that combinationally use to produce the output transmitting 40 of shades of colour.By this way, for various application configuration, illumination equipment 14 can think that vehicle provides illuminating color and the effect of expectation.

In order to realize shades of colour and the combination of embedded photoluminescent material described here, illumination equipment 14 can utilize any type of embedded photoluminescent material, such as fluorescence luminescent material, organic and inorganic dyestuff etc.About the additional information of the manufacture of embedded photoluminescent material and utilization that realize various transmitting with reference to submit on June 26th, 2012, the U.S. Patent number invented by people such as rich thatches (Bortz) is 8, 207, 511, autograph is " photoluminescence fiber, composite and the fabric manufactured by photoluminescence fiber and composite " application and submit on August 21st, 2012, the U.S. Patent number invented by people such as Agrawals (Agrawal) is 8, 247, 761, autograph is the application of " the photoluminescence mark with functional coverage layer " and submits on August 27th, 2013, the U.S. Patent number invented by people such as Jin Sili (Kingsley) is 8, 519, 359B2, application that autograph is " for high-efficiency electromagnetic transformation of energy and the photodissociation of lasting secondary emission and the multiple-structure of ambient stable " and submitting on March 4th, 2014, the U.S. Patent number invented by people such as Jin Sili (Kingsley) is 8, 664, 624B2, autograph is the application of " the illumination delivery system for generation of lasting secondary emission " and submits on July 19th, 2012, the U.S. Patent Publication No. of being invented by people such as Agrawals (Agrawal) is 2012/0183677, autograph is " photoluminescent composition, the manufacture method of photoluminescent composition and novelty teabag thereof " application and on March 6th, 2014 submit to, the U.S. Patent Publication No. of being invented by people such as Jin Sili (Kingsley) is 2014/0065442A1, autograph is the application of " photoluminescence object " and submits on April 17th, 2014, the U.S. Patent Publication No. of being invented by people such as Agrawals (Agrawal) is 2014/0103258A1, autograph is the application of " chromium light emitting composition and textiles ", by reference their full content is incorporated into this.

Light source 64 may also be referred to as driving source and can be used at least launches the first transmitting 66.Light source 64 can comprise any type of light source, such as halogen illumination equipment, fluorescent lighting device, light-emitting diode (LED), Organic Light Emitting Diode (OLED), polymer LED (PLED), solid-state lighting device or be configured for the illumination equipment that any other form of 66 is launched in output first.Launch 66 from first of light source 64 can be configured to make first wave length correspond at least one absorbing wavelength of one or more embedded photoluminescent materials of energy conversion layer 44 and/or polymeric matrix 50.Energy conversion layer 44 is in response to receiving first wave length λ ₁light can be excited and export one or more output wavelength, such as, there is second wave length λ ₂second launch.First launch 66 by with the absorbing wavelength of the combination of specific embedded photoluminescent material or embedded photoluminescent material for target and provide driving source for energy conversion layer 44.By this way, illumination equipment 14 can be configured for and export transmitting 40 to produce required light intensity and color.

In the exemplary embodiment, light source 64 comprise be configured for launch first wave length λ ₁lED, first wave length λ ₁can be corresponding with blue color spectrum, bluish violet and/or ultra-violet colors scope.Blue color spectrum color gamut comprises the range of wavelength generally showing as blue light (~ 440-500 nanometer).In some embodiments, first wave length λ ₁the wavelength of ultraviolet or near ultraviolet color gamut (~ 100-450 nanometer) can be included in.In the exemplary embodiment, λ ₁470 nanometers can be approximated.Although about first wave length λ ₁discuss specific wavelength and range of wavelength, but first wave length λ ₁generally can be configured for and excite any embedded photoluminescent material.

In the exemplary embodiment, first wave length λ ₁can about be less than 500 nanometers.Because blue color spectrum color gamut and shorter wavelength have limited perception acuity in the spectrum of human viewable, therefore these wavelength can be used as the driving source of illumination equipment 14.By utilizing the first wave length λ of more short wavelength ₁with by energy conversion layer 44, first wave length is converted at least one longer wavelength, illumination equipment 14 can be configured for and produce the visual effect of light, and this light source is from photoluminescence structure 42 and non-light source 64.

As described herein, each corresponding in the multiple wavelength exporting transmitting 40 can correspond to visibly different spectral color scope.Second wave length λ ₂can corresponding to the multiple wavelength being configured to present white light in fact.In one embodiment, multiple wavelength can by have about 620-750 nanometer wavelength emitting red light embedded photoluminescent material, have the wavelength of about 526-606 nanometer green emitting embedded photoluminescent material and have than first wave length λ ₁long and the blueness of the wavelength of about 430-525 nanometer or bluish-green light emitting photo-luminescent material produce.Multiple wavelength may be used for producing the multiple color from the light of each photoluminescence part (such as the first photoluminescence part 32, second photoluminescence part 34 and the 3rd photoluminescence part 38).Each exports transmitting 40 and embedded photoluminescent material can be used to export and the first color of launching 66 different light, and in some embodiments, one or more output is transmitted in can be different from each other in color.

With reference to figure 4, illumination equipment 14 illustrates according to backlight type configuration 72 generally, and backlight type configuration 72 is converted to output transmitting 40 by launching 66 from first of light source 64.Backlight type configuration can be corresponding with the configuration of the first photoluminescence part 32 and/or the second photoluminescence part 34.So, backlight type configuration 72 is described with reference to the first photoluminescence part 32, and the first photoluminescence part 32 is configured in response to receiving the first transmitting 66 and launches the second transmitting 33.

In backlight type configuration 72, illumination equipment 14 can comprise photoconduction 74.Photoconduction 74 can be configured for first wave length λ ₁light guide along the first photoluminescence part 32 in fact.Photoconduction 74 can be configured for first wave length λ ₁light in fact along any material of the range transmission of the first photoluminescence part 32.In this illustration, the first photoluminescence part 32 can correspond to supporting member 18 at least partially, and supporting member 18 has the first photoluminescence part 32 be arranged in supporting member 18.In some embodiments, photoconduction 74 can comprise the polymeric material being configured for and providing ratio of refraction, to make first wave length λ ₁light as one man transmit along the first photoluminescence part 32.

Backlight type configuration can comprise and is dispersed in energy conversion layer 44 in polymeric matrix 50 and/or embedded photoluminescent material, in any other part that polymeric matrix 50 is arranged at supporting member 18 or vehicle and/or dispersion within it.Be similar to reference to the energy conversion layer 44 shown by front smooth formula configuration 62, this energy conversion layer 44 can be configured in response to receiving the first transmitting 66 and is excited and exports one or more wavelength.One or more wavelength of the second transmitting 33 can be configured in response to exciting of energy conversion layer 44 from the radiative any color of the first photoluminescence part 32.The color corresponding to the light exporting transmitting 40 (such as second launches 33) can by using the embedded photoluminescent material of particular type as described herein and/or ratio to control.Although discuss backlight type configuration the 72, second photoluminescence part 34 about the first photoluminescence part 32 can be similarly configured.

With reference now to Fig. 5 A and Fig. 5 B, which show the detailed cutaway view of the center console 10 being arranged on primary importance 11 and the second place 21.Center console 10 can comprise top 36 and bottom 22.In primary importance 11, the lower surface 78 on top 36 is configured to extend substantially parallel to the upper surface 80 of bottom 22.In this set, light source 64 can be aimed at photoconduction 74 in fact, receives the first transmitting 66 to make the close end 82 of photoconduction 74.In this configuration, illumination equipment 14 can be configured for and irradiate at least the first photoluminescence part 32 corresponding with at least one supporting member 18.

First photoluminescence part 32 can be arranged at least one supporting member 18 and/or as applying the coating at least one supporting member 18.Supporting member 18 can be made up of the material of at least part of printing opacity.Supporting member 18 also can have to be configured to be out of shape and is stored in the coating of equipment moving in equipment holder 16 or material structure (such as any printing opacity, through the material of rubberized) with restriction.By this way, supporting member 18 can allow the first material being emitted through at least part of printing opacity, receives the first transmitting 66 to make the first photoluminescence part 32.

With reference to figure 5A, in primary importance 11, first launches 66 can export from light source 64 and be conveyed through photoconduction 74.Photoconduction 74 can be configured for transmission first launch 66 and along supporting member 18 length release Part I 84.First launches 66 can be received by supporting member 18 and excite the first photoluminescence part 32.First photoluminescence part 32 can be applied as coating and/or be dispersed in the material of supporting member 18.In this configuration, the first photoluminescence part can receive the first transmitting 66, and this first transmitting enters and passes the material of at least part of printing opacity of supporting member 18.First photoluminescence part 32 is excited in response to receiving the first transmitting 66 and launches the second transmitting 33 with at least one supporting member 18 of irradiation apparatus holder 16.

The top 36 of photoconduction 74 can be configured for launches along the length of supporting member 18 Part I 84 that first launches 66 in fact equably.Top 36 can comprise at least one steering component, and this steering component is configured for the amount controlling the first transmitting 66 can overflowed by top 36.In this configuration, the Part I 84 of the first transmitting 66 can disperse in fact equably along the length of supporting member 18.Steering component can comprise be etched, roughening and/or surface jaggy and/or the Part I 84 of the first transmitting 66 can be made to turn to as upwards towards the multiple other element of supporting member 18 from photoconduction 74.

Photoconduction 74 can also be configured to pass photoconduction 74 and the Part II 88 of the first transmitting 66 is guided to distal portion 90.First launches 66 can be passed to the second photoluminescence part 34 to irradiate the surface 20 of adjacent central control desk 10 at place of adjacent distal end portion 90.In this configuration, illumination equipment 14 can provide the ambient lighting on the surface 20 of equipment holder 16 and contiguous control desk 10.

The Part II 88 of the first transmitting 66 can correspond to the part that first launches 66, and this part exports not by top 36 but is transferred to distal portion 90 by photoconduction 74.Part II 88 can be transferred to opticator 92 by photoconduction 74, and opticator 92 is configured for and is disperseed along the second photoluminescence part 34 by the Part II 88 of the first transmitting 66.Second photoluminescence part 34 is excited in response to receiving the first transmitting 66 and launches the 3rd and launches 35.By this way, the second photoluminescence part 34 can be launched the 3rd transmitting 35 thus be irradiated the surface 20 of contiguous control deskes 10 with backlight type configuration 72.

In some embodiments, the second photoluminescence part 34 light formula can configure surface 20 place that 62 are set to the bottom 22 of contiguous control desk 10 in the past.Such as, the Part II 88 of the first transmitting 66 can export from the distal portion 90 of photoconduction 74.Second photoluminescence part 34 can be applied to and/or be dispersed in the material on saucer 24 or surface 20.In this configuration, the Part II 88 of the first transmitting 66 can be received by the second photoluminescence part 34.Second photoluminescence part 34 is excited in response to receiving Part II 88 and launches the 3rd and launches 35.So, illumination equipment 14 can be configured to before the configuration of light formula from saucer 24 or surface emitting to irradiate the second photoluminescence part.

With reference to figure 5B, in the second place 21, the top 36 of control desk 10 can be configured such that chamber 28 or storage silo 30 are palp for Vehicular occupant.In the second place 21, the top 36 of control desk 10 can be rotated around articulated section 94, distally extends with angle 96 to make top 36 around articulated section 94 from bottom 22.In this configuration, the first transmitting 66 can export the volume space 98 by being formed between top 36 and bottom 22 from light source 64 and be guided to the 3rd photoluminescence part 38.3rd photoluminescence part 38 just can be excited and launch the 4th launch 37 with exposure cavity 28 or storage silo 30 at least partially once receiving the first transmitting 66.

3rd photoluminescence part 38 is set to the lower surface 78 on the top 36 of adjacent central control desk 10.In this favourable configuration, when control desk is arranged on the second place 21, the angle 96 be formed between top 36 and bottom 22 can correspond to the complementary angle of first transmitting 66 of launching from light source 64.Such as, when entering storage silo 30, if the angle 96 be formed between top 36 and bottom 22 is about 70 to 100 degree, so light source 64 can be configured for and launch 66 guiding for about position corresponding towards the 3rd photoluminescence part 38 by first.In addition, the 3rd photoluminescence part 38 can be arranged with angle configurations 100 relative to top 36, is directed towards in fact chamber 28 or storage silo 30 to make the direction of the 4th transmitting 37.In this configuration, illumination equipment 14 can be used to the chamber 28 irradiated and formed by center console 10 further.

With reference now to Fig. 6, this figure demonstrates the detailed front sectional view of the equipment holder 16 be arranged in the top 36 of control desk 10.As described herein, equipment holder 16 can comprise at least one supporting member 18.In the exemplary embodiment, equipment holder 16 can comprise the first supporting member 112 and the second supporting member 114.At least one in first supporting member 112 and the second supporting member 114 can be configured to pass spring load assembly 116 and engage with equipment (such as smart mobile phone).Spring load assembly 116 can comprise the spring be connected with the second supporting member 114.Spring load assembly 116 can be arranged in depression 118, and depression 118 is arranged in top 36.In this configuration, the second supporting member 114 can arrange the device for Compress Spring carrying assembly 116, enters the chamber 120 formed by top 36 to make this equipment.By this way, equipment holder 16 can operate for engaging with the equipment (such as equipment 19) between the first supporting member 112 and the second supporting member 114 with fixing and storage equipment.

Fig. 6 can be corresponding with the view on the top 36 of the control desk corresponding to primary importance 11.In this configuration, first wave length λ is comprised ₁first launch 66 Part I 84 can be launched from top 36 by least one light steering component 122.The Part I 84 of the first transmitting 66 can be directed to the first supporting member 112 and the second supporting member 114 from top 36.First photoluminescence part 32 is excited in response to receiving the first transmitting 66 and launches the second transmitting 33.In this configuration, illumination equipment 14 can provide the ambient lighting of decoration, and this ambient lighting can be rendered as the equipment that is compassingly set between supporting member 112 and 114 and demonstrate the position of equipment holder 16.

As described herein, the first photoluminescence part 32 can be applied as coating and/or be arranged in the material of at least one supporting member 18.At least one supporting member 18 can be made of a variety of materials, and this material configuration is used for the equipment 19 in fixed equipment holder 16.Such as, at least one supporting member 18 can correspond to the material of the effective surface area that can deflect the contact increased between at least one supporting member 18 and equipment 19 slightly.Such material can comprise can be applied to the various polymeric material of various structures material and the coating of polymeric material.Supporting member 18 and/or at least one being applied in the coating of at least one supporting member 18 can correspond to the material of at least part of printing opacity, the material of at least part of printing opacity can have embedded photoluminescent material, this embedded photoluminescent material and be arranged at least part of printing opacity material in and/or corresponding as the first photoluminescence part 32 of coatings applications on the material of at least part of printing opacity.In this configuration, the first photoluminescence part can receive the first transmitting 66, first and launches and 66 enter and pass the material of at least part of printing opacity of supporting member 18, with at least one supporting member 18 of irradiation apparatus holder 16.

Illumination equipment described here can provide multiple beneficial part, comprises and operationally has cost-benefit system for what provide attracting ambient lighting for vehicle.When not departing from spirit of the present invention, the described here ad-hoc location comprising each photoluminescence part and the various embodiments of configuration can be changed.Instant disclosed theme provides illumination equipment, and this device can provide the vehicle environmental of shades of colour to throw light on, and this color can regulate the vehicle scheme of colour being suitable for expecting.

In order to illustrate and define the object of instruction of the present invention, it should be noted, utilize term " in fact " and " about " to represent here and be attributable to any quantitative comparison, numerical value, measurement or other intrinsic degrees of uncertainty represented.Here also utilize term " in fact " and " about " representative when the change of basic function not causing described theme, quantificational expression can from the described degree with reference to changing.

Should be understood that, when not departing from the present invention's design, can make changes and modifications said structure, and should be understood that further, these designs are intended to be covered by following claim, clearly state unless these claims are separately had by its word.

Claims

1. an illuminated device storage device, comprises:

Control desk, it comprises the lengthwise opening forming chamber;

At least one supporting member, it extends along described lengthwise opening and is configured to and device engagement; And

Light source, it is set to contiguous described chamber and is configured for upwards radiative first transmitting to irradiate at least one supporting member described.

2. memory storage according to claim 1, comprises the first photoluminescence part further, and described first photoluminescence part is set to contiguous described opening.

3. memory storage according to claim 2, wherein said first transmitting comprises first wave length, and described first wave length is configured for and excites described first photoluminescence part to launch the second transmitting, thus irradiates at least one supporting member described.

4. memory storage according to claim 3, at least one supporting member wherein said is launched described second and is launched, and described second transmitting is different from the color of the light that described first launches.

5. memory storage according to claim 2, wherein said first photoluminescence certain applications are at least one supporting member described.

6. memory storage according to claim 1, wherein said supporting member comprises the material being configured for and receiving at least part of printing opacity that described first launches.

7. memory storage according to claim 6, wherein said first photoluminescence part comprises embedded photoluminescent material, and described embedded photoluminescent material is molded in the material of described partial light permeability of described supporting member.

8. a photoluminescent devices memory storage, comprises:

Control desk, it comprises the opening of the lengthwise forming chamber;

A pair supporting member, it forms the first photoluminescence part of extending along the opposite side of described lengthwise opening and is configured to and device engagement; And

Light source, it is set to contiguous described chamber and is configured for upwards radiative first transmitting, to irradiate described photoluminescence part, described photoluminescence fractional transmission second is launched.

9. memory storage according to claim 8, comprises photoconduction further, and described photoconduction extends through described chamber from described light source.

10. memory storage according to claim 9, wherein said light guide configurations for transmit from described light source described first launch and make described first launch be dispersed in described chamber.

11. memory storages according to claim 10, the wherein said first volume space being emitted through described chamber arrives described first photoluminescence part, thus launches described a pair supporting member of irradiation with second.

12. memory storages according to claim 10, wherein said first transmitting is evenly dispersed in fact whole described chamber.

13. memory storages according to claim 9, comprise the second photoluminescence part further, and described second photoluminescence part is set to the front area of contiguous described control desk.

14. memory storages according to claim 13, wherein said photoconduction comprises close end, described close end is configured for reception and launches from described first of described light source and the part that described first launches transferred to the distal portion of described photoconduction, the contiguous described second photoluminescence part of described distal portion.

15. memory storages according to claim 14, the wherein said first described part of launching is converted into the 3rd transmitting, and the described 3rd launches the fixed part be launched to described control desk.

16. 1 kinds of photoluminescence memory storages, comprise:

Control desk, it comprises:

Bottom; And

Top, it is operable as and turns to the second place from primary importance;

Be set to the light source of contiguous described bottom, it is configured for radiative first and launches;

First photoluminescence part and the second photoluminescence part, wherein said first is transmitted in described primary importance is directed to described first photoluminescence part and is directed to described second photoluminescence part in the described second place.

17. memory storages according to claim 16, wherein said top is operable as and turns to the described second place relative to described bottom from described primary importance.

18. memory storages according to claim 16, opening and the chamber of lengthwise are formed at wherein said top, the contiguous described opening of described first photoluminescence part.

19. memory storages according to claim 18, wherein said first is transmitted in described primary importance is transmitted through photoconduction, described photoconduction to be arranged in described top and to be configured for be launched described first and launches in described chamber, to irradiate described first photoluminescence part, described first photoluminescence fractional transmission second is launched.

20. memory storages according to claim 19, wherein said first is transmitted in the depression that the described second place is guided to the described top comprising described second photoluminescence part, and wherein said second photoluminescence partial response is launched the 3rd in receiving described first transmitting and launched to irradiate described bottom.