Source: https://patents.google.com/patent/CN103423666B/en
Timestamp: 2020-02-19 20:26:27
Document Index: 741380227

Matched Legal Cases: ['Application No.61', 'Application No. 61', 'application No.13', 'application No.13', 'application No.13', 'art 208', 'art 216', 'art 326', 'art 408', 'application No.13', 'art 408', 'application No.13', 'application No.13', 'art 708', 'art 708', 'art 1202']

CN103423666B - Lamps and lanterns - Google Patents
CN103423666B
CN103423666B CN201310123657.2A CN201310123657A CN103423666B CN 103423666 B CN103423666 B CN 103423666B CN 201310123657 A CN201310123657 A CN 201310123657A CN 103423666 B CN103423666 B CN 103423666B
CN201310123657.2A
CN103423666A (en
迈克尔·莱
2012-04-10 Priority to US61/622,482 priority
2012-09-25 Priority to US61/705,585 priority
2013-03-15 Priority to US13/834,605 priority
2013-04-10 Application filed by 克利公司 filed Critical 克利公司
2013-12-04 Publication of CN103423666A publication Critical patent/CN103423666A/en
2018-10-30 Publication of CN103423666B publication Critical patent/CN103423666B/en
The invention discloses a kind of lamps and lanterns including chamber portion.In some embodiments, which includes being shaped as the chamber portion for accommodating the circuit needed for illumination component, and above-mentioned illumination component is such as mounted in the light emitting diode at the other positions in lamps and lanterns（LED）.In some embodiments, light emitting diode is installed into face of back reflector, back reflector and then light reflection is gone out troffer to form indirect lighting lamp.In some embodiments, emit light from a mixing chamber.In some embodiments, emit light from two or more mixing chamber.In some embodiments, light emitting diode is mounted on the radiator coordinated with chamber portion.
This application claims the U.S. Provisional Application No.61/622 submitted on April 10th, 2012,482 equity, and The equity of the U.S. Provisional Application No. 61/705,585 submitted for 25th in September in 2012, above-mentioned two application is also required to pass through It is cited and is hereby incorporated by their entire contents.
The present invention relates to illumination troffers（Troffer, troffer）, and more particularly, to be very suitable for Solid-state lighting light source（Such as light emitting diode（LED））The indirect lighting troffer being used together.
The lamps and lanterns of troffer type are generally used in global commercial office and industrial space.In many examples In, these troffers accommodate the elongated fluorescent illumination light bulb across the length of troffer.Troffer may be installed to day Card or from ceiling suspension.In general, troffer may be recessed in ceiling, the back side of wherein troffer projects into Enter in the aerated area above ceiling.Typically, the heat that the element of troffer being located on back side will be generated from light source It distributes to aerated area, air can recycle in order to cooling body in aerated area.Authorize the United States Patent (USP) of Bell et al. No.5,823,663 and the United States Patent (USP) 6,210,025 for authorizing Schmidt et al. are the lamps and lanterns of typical troffer type Example.
Recently, with the appearance of effective solid-state lighting light source, these troffers are together with such as light emitting diode It uses.Light emitting diode is such solid-state device：They can convert electrical energy into light and generally include between mixing on the contrary One or more active regions of semi-conducting material between miscellaneous semiconductor layer.When applying a bias on doped layer, Hole and electronics are injected in source region, they are in conjunction with to generate light in the active areas.Light is generated in the active areas And from the surface emitting light of light emitting diode.
Light emitting diode have some specific features, these features make they be ideally used to many be previously belonging to it is white In the application of vehement lamp or field of fluorescent lamps.Incandescent lamp is the low-down light source of efficiency, substantially the hundred of the electric power that wherein they are consumed / nine ten are released as heat, Er Feiguang.Fluorescent lamp bulb more effectively about 10 coefficients than incandescent lamp bulb energy, but still It is that relative efficiency is low.It compares, light emitting diode can be launched and incandescent lamp and fluorescent lamp using fraction energy Identical luminous flux.
In addition, light emitting diode can have considerably long working life.Incandescent lamp bulb has the relatively short service life, some Incandescent lamp bulb has the service life in about 750-1000 hours range.Fluorescent lamp bulb can also have the longevity longer than incandescent lamp bulb Life such as in the service life of substantially 10000-20000 hours range, but is to provide not satisfactory color reproduction.It compares, sends out Optical diode can have the service life between 50000 and 70000 hours.The increased efficiency of light emitting diode and extended Service life is attractive for some illuminations supplier, and their LED light lamp is caused to be applied and be substituted in difference Traditional lighting in application scenario.It can foretell, further improve will cause in more illuminations application scenario It is generally accepted.The increase of the use of substitution incandescent lighting and fluorescent illumination will cause to improve illumination efficiency and significantly save energy Source.
Other Light emitting diode components or lamp are developed, these Light emitting diode components or lamp include that installation is extremely printed Circuit board（PCB）, substrate or sub- pedestal multiple LED packages array.The array of LED package can wrap Include the LED package of transmitting different colours group and mirror or other reflector systems to reflect by light emitting diode The light of chip emission.Some in these Light emitting diode components are arranged to what generation was emitted by different light-emitting diode chip for backlight unit The white light of light combination.
In order to generate desired output color, some when need the light that will be easy tod produce using general semiconductor system Color is mixed.It is used it is of particular interest that generating white light for illuminating in application scenario daily.Two pole of Conventional luminescent Pipe cannot generate white light from their active layer, it must be combined to produce white light from other colors.For example, having passed through use Yellow phosphorus, polymer or dyestuff utilize blue LED to generate white light to surround blue LED, wherein typical Phosphorus be cerium dropped yttrium aluminum garnet (Ce:YAG).Circular phosphate material " converting downconverts downwards " some blue lights, will It changes into yellow light.Some blue lights pass through phosphorus without changing, and the major part of light is down-converted to yellow.Light emitting diode Emit blue light and yellow light, blue light and yellow light, which combine, generates white light.
It, will be from light-emitting diodes by making polychrome phosphorus or dyestuff around light emitting diode in another known method The purple or ultraviolet color emitted in pipe is converted to white light.In fact, some other color combinations are applied to generate white light.
Due to the physical arrangements of various source elements, polychrome source usually shade of the projection with color separation and providing have compared with The output of the color homogeneity of difference.For example, when being watched from head, the source and yellow source of blue characteristics appear likely to have indigo plant Color color, but when watching from side viewing, there are yellow colors.Therefore, it is entirely to see with the associated challenge of polychromatic source Examine good spatial color mixing in angular regions.A kind of known method for solving color mixing problem is to utilize diffusing globe By the light scattering from various sources.
Another is that light is emitted or ejected before lamp transmitting at it for improving colour-mixed known method Several surfaces.This has the function of the light that will emit from its original transmission angular separation.Homogenize the bullet typically with raising The amount of penetrating is improved, but each ejection has relevant optical loss.Intermediate diffusion mechanism is used in some applications（For example, shape At the lens of diffuser and veining）The different colours of light to be mixed.Some in these devices be it is lossy, therefore, The uniformity of color is improved in the case where sacrificing the optical efficiency of device.
Many present Design of Luminaires utilize the Light emitting diode component of face forward, wherein mirror emitter is placed on Behind light emitting diode.One design challenge associated with multi-source lamps and lanterns is self-luminous in the future diode source in lamps and lanterns Light mixes, to which each source is sightless for observer.Also mixed from each introduces a collection using the diffused component of weight Chromatic spectrum, to realize uniform output light profile.In order to mix source and help color mixing, the diffusion of weight has been used It exits window.However, the propagation of the diffusion material of weight in this way leads to significant optical loss.
Some existing designs have been incorporated into indirect lighting scheme, in this scenario, light emitting diode or other source mesh Be a direction except target emission direction.This may be by encouraging light and internal element（Such as diffuser）Mutually It acts on and completes.A reality of indirect lamps and lanterns can be found in the United States Patent (USP) No.7,722,220 for authorizing Van de Ven Example, the patent and the application are commonly assigned.Many different types and the indirect lamps and lanterns of design are possible.
Modern times illumination application usually requires that High Power LED to improve brightness.High Power LED can Cause big electric current, it is necessary to control the significant heat of generation.Some systems utilize radiator, radiator must be with generation heat Light source well thermally contact.The lamps and lanterns of troffer type usually distribute heat from the back side for extending into airspace of lamps and lanterns Amount.It in this way can be to avoid the challenge of the reduction airspace such as in modern structure.In addition, the temperature in aerated area usually compares In the indoor temperature high several years below ceiling, it is made to be more difficult to distribute heat into ventilated environment.
One embodiment of lamps and lanterns includes being shaped as the shell for limiting inner surface and the back of the body on inner surface is anti- Emitter.The lamps and lanterns have：Radiator, length of the radiator close to back reflector and across shell；And chamber portion, it should Chamber portion limits the inner space for being shaped as and accommodating electric component.Chamber portion coordinates with radiator.
The another embodiment of lamps and lanterns has the shell for being shaped as and limiting two or more inner surfaces, wherein every There is back reflector on a inner surface.The lamps and lanterns have radiator, length of the radiator close to back reflector and across shell Degree.Chamber portion limits the inner space for being shaped as and accommodating electric component.The chamber portion coordinates with radiator
The another embodiment of lamps and lanterns includes the shell for having certain length and limiting interior space, is had in interior space There is back reflector.Radiator from the first end of shell extends to the second end of shell and close to back reflector.Multiple light sources On radiator and towards back reflector.The lamps and lanterns have the chamber portion between the first end and second end of shell Point.
Figure 1A -1E are the face upwarding stereogram, vertical view exploded perspective view, vertical view according to the lamps and lanterns of one embodiment of the present of invention Figure, side view and end-view.
Fig. 2 is the vertical view according to the mounting bracket of one embodiment of the present of invention.
Fig. 3 A and Fig. 3 B are according to the section of the lamps and lanterns of one embodiment of the present of invention and one according to the present invention The enlarged section stereogram of a part for the lamps and lanterns of embodiment.
Fig. 4 A and Fig. 4 B are the enlarged section stereogram according to a part for the lamps and lanterns of one embodiment of the present of invention.
Fig. 5 is the stereogram for the lamps and lanterns according to an embodiment of the invention for being installed on ceiling.
Fig. 6 is the stereogram for being suspended on the lamps and lanterns according to an embodiment of the invention below ceiling.
Fig. 7 A-7E are the face upwarding stereogram, vertical view exploded perspective view, vertical view according to the lamps and lanterns of one embodiment of the present of invention Figure, side view and end-view.
Fig. 8 is the stereogram for the lamps and lanterns according to an embodiment of the invention for being installed on ceiling.
Fig. 9 A-9G be according to the face upwarding stereogram of the lamps and lanterns of one embodiment of the present of invention, top perspective view, upward view, Vertical view, side view, end-view and top perspective exploded view.
Figure 10 is the face upwarding stereogram according to the lamps and lanterns of one embodiment of the present of invention.
Figure 11 is the three-dimensional transverse sectional view and three-dimensional longitudinal sectional view according to the lamps and lanterns of one embodiment of the present of invention.
Figure 12 is the three-dimensional longitudinal sectional view according to the lamps and lanterns of one embodiment of the present of invention.
Figure 13 is the stereogram for the lamps and lanterns according to an embodiment of the invention for being installed on ceiling.Figure 14 A-14B are The stereogram of lamps and lanterns according to an embodiment of the invention.
Especially properly it is suitable for and solid state light source the embodiment provides a kind of（Such as LED）It is used together Troffer type lamps and lanterns.The troffer includes the light engine unit surrounded by reflecting disc on its circumference.Back reflector limits Determine the reflecting surface of light engine.It dissipates far from light source to be conducive to unwanted thermal energy, is arranged close to back reflector and radiates Device.In some embodiments, one or more lens boards are extended to from radiator outside back reflector.The part exposure of radiator In the ambient enviroment outside cavity.The part of radiator being located inside back reflector is used as the installation surface for light source, is formed Effective hot path from light source to ambient enviroment.The one or more light sources being arranged along heat sink mount surface emit light into In inside, in light as using up before troffer injection, luminous energy is mixed and/or is shaped in inside.In this way Luminous troffer is known as indirect troffer or lamps and lanterns（It is used interchangeably herein）.Some indirect lamps and lanterns are belonging to In entitled " the Troffer-Style Fixture of Edmond et al.（Troffer type lamps and lanterns）" U.S. Patent application No. It is described in 12/873,303, transfers the applicant in normal way, and it is fully incorporated in entirely through citation This.
Since LED light source is relatively strong compared with other light sources, so if not spreading suitably, they can be formed not Comfortable working environment.It is typically of approximately 21lm/in using the fluorescent lamp of T8 light bulbs2Surface brightness.Many height are defeated Go out LED lamp and is of approximately 21lm/in at present2Surface brightness.Some embodiments of the present invention, which are designed as providing, to be not more than About 32lm/in2Surface brightness.Other embodiment, which is designed as providing, is not more than about 21lm/in2Surface brightness.In addition Other embodiment, which is designed to provide, is not more than about 12lm/in2Surface brightness.
The embodiment of the present invention is designed as effectively generating the output of visually pleasant.Some embodiments be designed as with Efficiency not less than about 65lm/W shines.Other embodiment is designed as with the luminous efficacy not less than about 76lm/W.Separately Outer other embodiment is designed as with the luminous efficacy not less than about 90 lm/W.
One embodiment of lamps and lanterns is designed as to be not more than 5:1 maximum brightness gradient is to be not more than 32 lm/in2Most At least 88% total optical efficiency is realized in large surface brightness.Total optical efficiency be defined as the light sent out from light source actually from The percentage that lamps and lanterns are sent out.Other similar embodiments, which are designed as realizing, is not more than 24lm/in2Maximum surface brightness.In addition Other similar embodiments, which are designed as realizing, is not more than 3:1 maximum brightness gradient.
One embodiment of lamps and lanterns includes chamber portion, which can accommodate such as circuit and be connected with electric wire.The chamber Room part can be arranged in the centre of lamps and lanterns and be matched with radiator.By being arranged chamber portion in the centre of lamps and lanterns, can make With smaller lens to reduce cost.
One embodiment of lamps and lanterns includes thin-long casing and radiator.Chamber portion can be arranged in the center of lamps and lanterns or set It sets at one end.One or more light sources are arranged in the installation surface of radiator so that surface of light source is to back reflector.It is optional Ground, lamps and lanterns can include one or more lens, and it is anti-either to extend to the back of the body on radiator above light source or from radiator Emitter（So that light passes through lens after by back reflector reflection）.Lamps and lanterns can also include being located above light source and being located at radiator On lamp flame shielding part.In some embodiments, light source can have across the part that lamp flame shielding part stretches out to increase efficiency.
One embodiment of lamps and lanterns can be installed on ceiling using general mounting bracket.Mounting bracket can be used and for example be hung Hook and flanged system and matched with lamp casing.In some embodiments, lamps and lanterns can be suspended below ceiling.
One embodiment of lamps and lanterns according to the present invention includes being longitudinally extended so that lamps and lanterns tool is there are two installation surface Chamber portion, each installation surface have inner cavity and the back reflector part of its own.
This hair is described herein with reference to transition material, wavelength conversion material, fluorophor, luminescent coating and relational language Bright embodiment.The use of these terms is not necessarily to be construed as restrictive.It should be understood that term fluorophor or luminescent coating Use be intended to and all wavelengths transition material can be equally applicable to.
It should be understood that when an element is referred to as " on another element ", can on another element, or Intermediary element also may be present in person.In addition, relative terms, such as " inside ", " outside ", " top ", " in ... top ", " lower part ", " ... under " and " in ... lower section " and similar terms can be used for describing the pass of an element and another element herein System.It should be understood that these terms are intended to cover other directions of the device in addition to the direction described in figure.
Although ordinal term first, second etc. can be used herein to describe various component, assembly units, region and/or portion Point, but these component, assembly units, region and/or part do not answer it is limited by these terms.These terms are only used to distinguish a member Part, component, region or part and another component, assembly unit, region or part.Therefore, unless expressly stated otherwise, without departing substantially from In the case of the teachings of the present invention, the first element of following discussion, component, region or part can be referred to as second element, component, Region or part.
As used herein, term " light source " can be used to refer to the single reflective optical system as single source or one Above reflective optical system.For example, the term can be used for describing single blue led or it can be used for describing being used as single source The red LED and green LED with neighbouring transmitting.Therefore, term " light source " is not necessarily to be construed as referring to discrete component or more A kind of limitation of members, unless otherwise clear explanation.
As being intended to light of the description with feature mean wavelength herein in reference to term used in light " color "；It is not anticipated Light is being limited to single wavelength.Therefore, particular color（For example, green, red, blue, yellow etc.）Light include specific flat A certain range of wavelength around equal wavelength.
The embodiment of the present invention is described herein with reference to the cross-sectional view as schematic diagram.In this way, the reality of element Thickness can be different, and due to manufacturing technology and/or tolerance, it is contemplated that the shape of diagram can be different.Therefore, show in figure The element gone out is substantially schematical, and its shape is not intended to show the accurate shape in the region of device, and not It is intended to limit the scope of the invention.
Figure 1A -1E are the troffer or lamps and lanterns according to one embodiment of the present of invention（It is used interchangeably herein）'s Face upwarding stereogram decomposes top perspective view, upward view, side view and end-view.Troffer 100 can be fitted to ceiling It is interior, be installed on ceiling or hang up.A region of Figure 1A views of troffer 100 below troffer, that is, The region that will be illuminated by the light source being contained in troffer.Troffer 100 can have various specifications.For example, 20 " long slots Shape holder can have 5.75 " width and 2.0 " height and the weight less than 2 pounds, and when in 120-227V/60Hz and The light that colour temperature is 2700K and CRI is 80 can be sent out when working under 40W.40 " troffers can have these identical specifications, but It is the weight for being of approximately 3 pounds.Troffer with other sizes（Such as two feet long and four feet long of flute profile branch Frame）It is also feasible.It is elongated and with elongated shell with these and similarly sized troffer.These specifications It is entirely exemplary, because many different change of lamps and lanterns according to the present invention are feasible.
Troffer 100 can include elongated shell 102.Elongated shell 102 can be by plastic material（Such as poly- carbonic acid Ester）It is extruded from or it can be by many other suitable material（Including but not limited to metal）It is made.Shell 102 has energy As the interior surface of back reflector 104, which can be high reflection materials and/or textured（For example, using Microring array optical device）To improve color mixing and reduce the imaging from light source.Elongated radiator 106 is from troffer It is longitudinally extended under mediad.In some embodiments, radiator 106 can provide mechanical support for lamps and lanterns.Radiator Ying Yougao Spend Heat Conduction Material（Such as, such as aluminium）It is made.Chamber portion 108 is designed to match with radiator 106.In one embodiment In, radiator 106 is continuous across chamber portion 108 so that length of the radiator 106 across shell 102.This offer is increased Heat dissipation from chamber portion 108 and easily fabricated and cost is relatively low.In other embodiments, radiator does not pass through chamber Room part and it is continuous.In the shown embodiment, chamber portion 108 is located at the center of lamps and lanterns 100, nevertheless, in other implementations In example, chamber portion can not be centrally located, and can be in Anywhere along lamps and lanterns 100.In the embodiment including lens, no It is same as being arranged on one end of lamps and lanterns 100, chamber portion 108, which is arranged, to be allowed in the center of lamps and lanterns 100 using two covering lamps The relatively lenslet of the half of tool, and different from big lens extending in the whole length of lamps and lanterns, this can reduce manufacture and Processing cost.Chamber portion 108 connects with driving circuit and/or wiring for setting power supply and provides inner space.Chamber portion 108 It protects these elements from outer member, and additionally aids the vibrations for preventing being generated during the installation process by user.End cap 110 It can be arranged on the end of shell 102.End cap 110 is individual workpiece, nevertheless, other embodiment includes integrated end Lid does not have end cap.
Shell 102 is configured to the interior surface that restriction includes back reflector 104, nevertheless, carrying on the back in other embodiments Reflector 104 and the interior surface of shell 102 separate.Radiator 106 is installed adjacent to back reflector 104.Radiator includes face Towards the installation surface of back reflector 104.Installation surface provides a region, in this region, light source（It is not shown）It can be mounted to face To back reflector 104.In one embodiment, installation surface is flat, and surface of light source is to the middle section of back reflector, most Pipe is in this way, angled installation surface is feasible, and the light source of the other parts towards back reflector is feasible.One In a little embodiments, light source is mountable to pedestal, such as metal core board, FR4 plates, PCB or metal strip（For example, aluminium）, the pedestal energy Again individual radiator is installed on using for example hot slurry, adhesive and/or screw.In other embodiments, it is not used independent Lamp bar or pedestal.Some embodiments include individual radiator or the integrated heatsink with fin, and some are implemented Example does not have fin.
A, Figure 1B and Fig. 1 E referring to Fig.1, back reflector 104 may be designed to have it is a variety of be differently formed, it is specific to execute Optical function, including but not limited to color mixing and beam-shaping.Back reflector 104 should have in the wave-length coverage of light source High reflectance.In some embodiments, back reflector 104 can reflect 93% or higher.In other embodiments, back reflection Device 104 can reflect at least 95%, reflection at least 97% or reflection at least 99%.
Reflector according to the present invention may include a variety of different materials.In an embodiment of the invention, the back of the body is anti- Emitter 104 includes diffusing reflection surface.In the other embodiment of the present invention, reflector may include being designed to reflection from striation On the reflector polymer or thin-film material of the light that send out.In some embodiments, reflector surface can be white. In some embodiments, reflector includes white plastic（Such as white plastic sheet）Or the poly- terephthaldehyde of one or more layers micropore Sour glycol ester（MCPET）, and in some embodiments, reflector includes blank sheet of paper.In some embodiments, reflector It may include white film, White97 obtained by the WhiteOptics companies such as newly filled in from GermanyTMFilm.In other implementations In mode, reflector may include metal, including but not limited to the WhiteOptics obtained by the WhiteOptics companiesTMMetal Deng.In some embodiments, reflector can be coated or spray with the plastics or metal device of reflecting material, either It is coated to other basis materials of reflecting material.Material may also include the angle that can help to directly control and change nyctitropic light The specular reflector of degree, the group of Lambertian reflectors and diffuse reflector, specular reflector and Lambertian reflectors It closes.
Diffusing reflection lamps and lanterns have and will have different spectrum from solid light source（That is, different colours）Light mixing intrinsic energy Power.These diffuse reflectors are especially well suited for multi-source design, and two of which or more difference spectral mixing is desired to generate Export color point（color point）.Have transmitting yellow for example, the LED of transmitting blue light can be used in（Or blue shift is yellow（blue- shifted yellow））In the combination of the LED of light, to generate white light output, or transmitting blue light and blue shift light can be used The LED of two kinds of light simultaneously generates white light output.Diffuse reflector can eliminate the needs for additional space color mixing scheme, This scheme can introduce losser in systems, nevertheless, in some embodiments, it may be desirable to unrestrained with other It penetrates and uses diffuse reflector in the combination of element.In some embodiments, back reflector 104 is coated to diffuse material.One In a little embodiments, back reflector 104 can be coated to fluorescent material, and the fluorescent material is by least some light from light source It is wavelength converting, to realize the light output of desired color point.
In some embodiments, back reflector 104 includes diffusion white reflecting material.By using this or similar Material and positioned light source are towards by reflector first, to realize multiple design objects.For example, back reflector 104 executes Color mixing function makes mixing distance effectively double and significantly increase the surface area in source.In addition, surface brightness is from bright Uncomfortable point light source is improved to much bigger comfortable diffusing reflection.Diffusion white material also provides the brightness having in output Appearance.Too many enthusiasm is not needed（And lower light loss diffusing globe）It can manage and usually require great trial and big Type diffusing globe and tradition look at straight in light do it is improved sharp（harsh）Surface brightness gradient（Maximum/minimum ratio is 10:1 or Bigger）, to realize maximum/minimum ratio for 5:1,3:1 or even 2:1.
In various functions, back reflector can also be textured, to improve color mixing and reduce the image from light source. In some embodiments, back reflector 104 includes microring array optical device.In some embodiments, by making reflector It is internal or external roughening, can assign reflector 104 this texture.In the case of coining, makrolon can be used.And And in the case of coining, roughened intensity can spatially become relative to the center of reflector and/or the position of light source Change.Roughening can realize no matter reflector makes initially through extruding or passes through certain its other party in a number of different manners Method makes.In entitled " the Light Fixture with Textured Reflector of Lu et al.（With veining reflector Lamps and lanterns）" U.S. Patent application No.13/345, the reflector of veining is described in 215, and on April 9th, 2012 The U.S. Patent application No.13/442 of submission describes micro-optical device and optical effects in 311, this two pieces patent application with The application is commonly assigned to applicant, and this two pieces patent application is whole incorporated herein by reference.It is this The texture of type may be also used on such as optical element, such as lens.
Reflector 104 can provide color mixing in the lamps and lanterns using multiple color reflectors in veining and reduce face Color hot spot and reflection.As an example, some lamps and lanterns include blue shift Huang add it is red（BSY+R）LED information display system, wherein LED light source packet Include at least two groups LED, one of which transmitting has the light of the dominant wavelength from 435nm to 490nm, and the main wave that another group of transmitting has The long light from 600nm to 640nm.In this case, fluorophor can be packaged to for one group, in excitation, fluorophor hair Penetrate the light with the dominant wavelength from 540nm to 585nm.In some embodiments, first group of transmitting has from 440nm to 480nm The light of dominant wavelength, second group of transmitting has the light of the dominant wavelength from 605nm to 630nm, and troffer transmitting has from 560nm To the light of 580nm dominant wavelengths.
Only as the example for texturing reflector according to embodiment of the present invention, the high reflectance PC of slim extrusion Plate can have the pattern imprinted as a part for expressing technique, and these plates can be pressed against the extrusion PC not textured On back reflector substrate.One example of imprinted pattern is prism pattern, which may include extending in all directions Repetition prism element.This pattern is also used in prism material.Another example of imprinted pattern is cutting capstone Pattern（cut keystone pattern）.Alternatively, extrudable entire reflector, wherein in the inside or bottom surface of reflector It is upper that there is imprinted pattern.The coining of any type can be realized by being used as the veining roller of a part for expressing technique.Also Coarse patterns can be applied by making reflector or plate be roughened, to be pressed into blasting treatment, sand or another roughening skill On the reflector substrate of art.The reflection of veining is described in detail in the U.S. Patent application No.13/345,215 of Lu et al. Device.
As best seen in Figure 1B and Fig. 1 E, back reflector 104 has substantially at parabolical cross section on side, One flat connects this two parts；But various other shapes are also feasible.Moreover, shown in Figure 1B and Fig. 1 E, slot Shape holder 100 may be designed to the height profile reduced, such as with about 2 " or smaller total height.Back reflector 104 Shape should be selected to be and generate reflectance profile appropriate, exported for target.
Typical solid state lamp will be combined with radiator, which is located on ceiling, and the LED heat that will be conducted expands It is scattered in environment.It is pressurized ceiling in on-inflatable（non-plenum ceiling）In, the temperature on office and industrial ceiling Degree commonly reaches 35 DEG C.As discussed herein, including fin structure（If any）Radiator 106 bottom in flute profile The air that can be exposed under holder in room.
The radiator 106 of exposing can advantageously for several reasons.For example, the air themperature in general office compares smallpox Air on plate is much cooler, it is clear that this is because room environment must be comfortable for occupant；However, on ceiling Space in, colder air themperature is not too important.In addition, what space air was generally circulated, or moved by occupant It is recycled across room or by air conditioning.Air passes through the movement in room to help to break boundary layer, helps from scattered Hot device carries out heat diffusion.Moreover, the heat radiator structure of room side avoid heat insulator at the top of the radiator on it is inappropriate Installation, because the common solid luminescence occasion in ceiling side is arranged for radiator, this is possible.It is this to prevent not The protection suitably installed can eliminate potential fire.
Troffer 100 is designed to installation to ceiling or in ceiling.As best seen in Figure 1B, chamber portion Divide 108 may be designed to and mounting bracket 112 coordinates.The mounting bracket may include that hook-like part feature, the hook-like part feature are caught in Position onto casing ledge bottom side, to be easily installed.Mounting bracket 112 can be directly mounted to the J-shaped case on ceiling（It connects Wire box）.After by the installation to ceiling of mounting bracket 112, chamber portion 108 can utilize hook-like part and flanged structure to be caught in In place.In some embodiments, shell 102 is right and can slide into the other end from one end, finely to be adjusted to position It is whole.Although there has been described hook-like parts to connect system with flange, various other connection systems are also feasible.Chamber portion 108 may include that hole 114, connection electric wire may pass through the hole.Mounting bracket 112 can also have corresponding hole.
Fig. 2 is the enlarged plan view for the mounting bracket 212 for being connected to lamps and lanterns 200.Lamps and lanterns 200 include shell 202 and chamber Part 208, and there is chamber portion 208 centre bore 204, the centre bore can be used to supply wiring or be connected to mounting bracket 212.Mounting bracket 212 includes hook-like part part 216, and the hook-like part part can be locked in convex on 208 bottom side of chamber portion In edge, or alternatively, it is locked in the other parts of shell 202.Various holes and slot 212a in mounting bracket 212 can be used Wiring is supplied to chamber portion 208, to provide electric power to internal drive circuits, reflector and other electric components.Installation Bracket 212 is general mounting bracket, and can assemble the J-shaped case of various different shape sizes, including but not limited to circle and eight Side shape and 2 " and 4 ".
Fig. 3 A are the sectional block diagrams of lamps and lanterns 300 according to the present invention, and cutting plane is located in chamber portion 308.Fig. 3 B are The view of section view end along same cutting plane of lamps and lanterns 300.Section exposes 308 shape of chamber portion by shell 302 At inner space 320.Radiator 306 passes through in space, optical transmitting set（Such as LED）324 are mounted on Luminescent bands 322, Luminescent bands are itself mounted on the mounting surface of radiator 306.In other embodiments, transmitter 324 is directly installed on scattered On hot device 306.
Electric component can also be arranged in inner space 320, such as be connected to circuit mounting plate 330, circuit installation Plate is mounted in space 320.It may include that some examples of electric component in embodiments of the present invention include power circuit And driving circuit（It names a few, including such as AC/DC drive circuits and DC/AC drive circuits）.To basic Level, drive circuit may include AC to DC converters, DC to DC converters or the two.In one embodiment, Drive circuit includes AC to DC converters and DC to DC converters, in the internally positioned space of both of which 320.In another reality It applies in mode, AC is remotely located to DC converters（That is, outside optical cell）, and DC is located at optics cavity to DC converters At the control circuit of chamber interior.In yet another embodiment, the control electricity in only AC to the internally positioned space of DC converters 320 At road.
In the embodiment shown, mounting bracket 312 is connected to chamber portion 308 using hook-like part and flanged structure. As seen in Fig. 3 A and Fig. 3 B, bracket 312 includes bracket hook-like part 326, and chamber portion 308 includes flange 328.Shown in In embodiment, radiator 306 is installed using flange and slot structure with flange 332 and slot 334 to chamber portion 308.? In some embodiments of lamps and lanterns according to the present invention, flange 332 and slot 334 are arranged along the whole length of chamber portion 308. Between bracket 312 and chamber portion 308 and between radiator 306 and chamber portion 308 and/or shell 302 Various other connection systems are also feasible, such as screw and/or bonding agent.These replace some possible ratios in connection system Hook-like part and flanged structure are more longlasting.
Many industry, business and civil applications occasion call white light source.Troffer may include generating same color One or more transmitters of light or different colours light.In one embodiment, white light is generated using polychrome source.Several coloured silks Coloured light combination will generate white light.For example, it is known in the art that by light and wavelength convert Huang from blue led（Blue shift is yellow Or BSY）Light is in conjunction with generating white light, relevant colour temperature（CCT）In the range of 5000K to 7000K（It is generally designated as " cool white Color "）.By the way that with optically in response to the fluorophor of blue light around transmitter, blue light and BSY light can be by blue emitters It generates.When energized, then phosphor emission yellow light, yellow light can be combined to generate white light with blue light.In this scheme, by In emitting blue light in relatively narrow spectral region, so referred to as saturated light.Emit BSY light in much bigger spectral region, because This is referred to as unsaturated light.
Another example that white light is generated with polychrome source is will to be combined from the light of green LED and red LED.RGB schemes are also The light of a variety of colors can be used for generating.In some applications, it is added with amber emission device, is combined for RGBA.Before The combination in face is exemplary；It is appreciated that a variety of different color combinations can be used in embodiments of the present invention.? The United States Patent (USP) No.7 of Van de Ven et al. discusses several, patent in these possible colors combinations in 213,940 It is all commonly assigned with the application and whole incorporated herein by reference.
In addition to those described above, many different types of transmitters can also be used in an embodiment of the present invention.? In some embodiments, transmitter is soild state transmitter, such as LED or LED encapsulation piece.Many difference LED, such as quotient can be used It is obtainable in industry to come from kerry Corp.（Cree Inc.）Its DA, EZ, GaN, MB, RT, TR, UT and XT series LED core Piece.In addition, many different types of LED encapsulation pieces can be used in an embodiment of the present invention.Substantially retouched in following file Some type of chip and packaging part are stated：Entitled " the Semiconductor Light Emitting of Donofrio et al. Diodes Having Reflective Structures and Methods of Fabricating Same（With reflection The semiconductor light-emitting-diode and its manufacturing method of structure）" U.S. Patent Application Serial No.12/463,709；Lowes etc. Entitled " the LED Package with Encapsulant Having Planar Surfaces of people（With with flat surfaces The LED encapsulation piece of sealing element）" U.S. Patent Application Serial No.13/649,052 and Lowes et al. entitled " LED Package with Multiple Element Light Source and Encapsulant Having Planar Surfaces（The LED encapsulation piece of sealing element with multi-element light source and with flat surfaces）" US Pat Appl Ser Number No.13/649,067, these three patent applications are commonly assigned to the applicant and all these three patent application expansions All to be incorporated into the application for reference by quoting for body.Transmitter can emit the light of many different colours, it is therefore preferred to have Emit the transmitter of white light（Or the chip of transmitting blue light, yellow light is partly converted into form white light combination）.It can be used in One preferred embodiment of the packaging part in lamps and lanterns according to the present invention includes essentially box-like sealing element, causes to compare Packaging part transmitting broader Lambertian.It is shown simultaneously in Lowes et al. U.S. Patent Application No.s No.13/649,067 These many packaging parts are described, which transfers the applicant and be all incorporated into this Shen entirely through reference Please.It should be understood that in some embodiments, growth substrate can be provided LED（Growth substrate, growth lining Bottom）Subsequent removal.In other embodiments, the growth substrate of LED can be retained on LED, wherein in these embodiments Some have forming or veining growth substrate.In some embodiments, when the growth substrate of LED is retained on LED, LED is mounted on flip-chip on light belt or in installation surface.
In some embodiments, LED can include transparent growth substrate, silicon carbide, sapphire, GaN, GaP etc.. LED chip may also include three-dimensional structure, and in some embodiments, and LED can have the following structure, at one of chip Or including inclined facet in whole or in part on multiple surfaces（facet）.
In one embodiment, at least some transmitters are LED chip and/or packaging part, the LED chip and/or envelope Piece installing has the transmitting pattern more broader than Lambertian in some embodiments, for example, Serial No. No.13/649,052 Those of described in U.S. Patent application with No.13/649,067.In another preferred embodiment, these LED chips and/or Packaging part is used in combination with standard Lambertian emission device.In another embodiment, transmitter is the LED of phosphorus coating, such as Entitled " the Wafer Level Phosphor Coating Method and Devices of Chitnis et al. Fabricated Utilizing Method（Wafer scale phosphorus painting method and the device manufactured using the method）" in institute The transmitter stated, the two patent applications are dispatched to the application jointly and the two patent applications are integrally fully incorporated this Apply for reference.In one embodiment, with these aspects and for the transmitting figure more broader than Lambertian The coating LED chip of case phosphorus.In another preferred embodiment, these LED with Blue spectral emission and are covered with yellow phosphorus, shape At white light emission.In another embodiment, emission lamp has Lambertian emission profile.
Fig. 4 A are the three-dimensional cutaway views of the lamps and lanterns 400 looked over from bottom side angle, and cutting plane is located at chamber along shell 402 A part outside room part 408.Lamps and lanterns 400 further include chamber portion wall 409, and the chamber portion wall crosses and Fig. 3 A and 3B Shown in similar inner space（It is not shown）.In the shown embodiment, using with it is similar convex shown in Fig. 3 A and 3B Radiator 406 is connected to chamber portion 408 by edge and slot system.
Lamps and lanterns 400 further include lens 440.Lens 440 may include diffusive material to help color mixing.Lens also can be used In protecting the consumer from and high voltage devices（Such as LED）Contact.In the shown embodiment, lens 440 have semicircle cut Face and in transmitter（It is not shown）It installs to radiator 406 top.Although lens 440 are shown as being mounted on radiator 406 On, but many other arrangements are also feasible.For example, can be used slit 434 by lens board（In more detail below with reference to Fig. 6 Description）Between shell 402 and radiator 406 so that slit 434 is connected to chamber portion 408 and is connected to chamber Lens in 408 perimeter of part.As being described in further detail, lens can be veining and/or including for example micro- Mirror structure.Lens and tool with texture structure are described in detail in the U.S. Patent application No.13/442,311 of Lu et al. There are the lens of microlens structure.
Fig. 4 B are the three-dimensional cutaway views of the lamps and lanterns 401 looked over from bottom side angle.Lamps and lanterns 401 include many and lamps and lanterns 400 Identical component, and corresponding reference numeral is for indicating corresponding element.Lens 440, lamps and lanterns 401 are replaced to be carried including flare Body 441 needs the flare carrier to cover high pressure transmitter.Flare carrier can be by such as glass or UL945VA grades（rated） Transparent plastic is made.In some embodiments, flare carrier includes notch, the part of transmitter（Such as LED dome）It can lead to It crosses the notch to stretch out, while flare carrier still covers the high-pressure section of LED to meet engineering design requirements.The embodiment It can help to so that with the relevant minimum optical losses of flare carrier or the light loss even is eliminated.Some embodiments may include Both lens 440 and flare carrier 441, and in some embodiments, discrete component can combine the two feature and/or Execute two kinds of functions.
As elucidated before, lamps and lanterns according to the present invention can mount to ceiling.Such implementation is shown in FIG. 5 Example.Mounting bracket can be used（It is not shown）By the installation of lamps and lanterns 500 to ceiling.Lamps and lanterns according to the present invention can also pass through various sides Method（Including using mounting bracket）In installation to the cavity in ceiling.Lamps and lanterns according to the present invention can also hang from ceiling, Lamps and lanterns 600 as shown in Figure 6.Lamps and lanterns 600 include two suspension arrangements 642, nevertheless, any amount of suspension arrangement All it is feasible.It is not connected directly to the embodiment of chamber portion 408 in wiring（That is, entering chamber with wherein wiring through hole 114 The different embodiment of 100 embodiment of troffer of room part 408）In, wiring can be connected in a manner of less direct Cavity portion.For example, by making wiring extend through one or more suspension arrangements, extending through shell 602 and extend to Chamber portion 608 so that wiring can be connected to troffer 600 and chamber portion 608.Alternatively, suspension arrangement can be direct It is connected to chamber portion 608, no matter chamber portion 608 is on the center or one end of lamps and lanterns 600.In other embodiment In, for example, simple chain or rope suspended lamp can be used.
Lamps and lanterns 600 further include the back reflector 640 of veining.Back reflector 640 can be made of many different materials.The back of the body is anti- Veining in emitter 640 may include the U.S. Patent application No.13/345,215 using Lu et al. and/or United States Patent (USP) Shen The material of method manufacture that please be described in No.13/442,311.
Optionally, lamps and lanterns 600 may include lens board（It is not shown）.Lens board can be mounted on shell 602, radiator 606, And/or between chamber portion 608.Lens board can with one in shell 602, radiator 606, and/or chamber portion 608 or Multiple cooperations.Radiator slit for example similar with slit shown in Fig. 4 434 can be used（It is not shown）By lens board install to Radiator 606.In one embodiment, lens board is also mounted to chamber portion 608 and/or one of end cap 610, although In this way, this is not always necessary.
Troffer according to the present invention may include many different types of lens boards.Lens board can be used for troffer Interior component（Such as LED）Physical protection is provided.Lens board can be for example, by preventing physical damage or dirt accumulation（It can be unfavorable Ground influences emission effciency, intensity and/or the profile of troffer）And realize above-mentioned purpose.Lens board is additionally operable to improve flute profile branch The uniformity of frame transmitting.Depending on the type of reflector used in transmitter and troffer, sometimes above emission source It is seen on reflector bright " hot spot ".These hot spots are sometimes undesirable appearance and can negatively affect transmitting Even property.Lens board can contribute to reduce these heat by the light reflected from these hot spots is dispersed on wider array of viewing area Appearance of the point for observer.In some cases, the light reflected from these hot spots may be interspersed on entire lighting apparatus.Even It is not forming hot spot or is being emerged in the troffer of not notable hot spot, lens board also contributes to diffusing light, widens flute profile branch The transmitting profile of frame focuses the transmitting profile of troffer, and/or generates appearance evenly.
Lens board can be textured to realize one or more object above.For example, lens board may include facet, or can wrap One or more films are included, the film has linear or discrete facet or other texture structures.Other examples of lens board have Have and dazzles（deglaring）Prism.According to the present invention, one embodiment of the lens board used in troffer includes squeezing third Olefin(e) acid, with diffuser film coating or one of the diffuser being formed in acrylic acid.It can lens board used in this invention Other embodiment includes diverging lens, and the diverging lens is for spreading all incident lights.Other embodiment may include acrylic acid, PMMA, and/or diffusion additive.Some embodiments may include clear acrylic.The lens board of type described in text is only that can make Some in lens type, and it is not intended to be limited to this.In the U.S. Patent application No.13/442,311 of Lu et al. Describe the lens type that can be used in lamps and lanterns according to the present invention.
Fig. 7 A-7E be according to the bottom perspective view of another lamps and lanterns of the present invention 700, top perspective view, bottom diagram, side figure with And end view.Lamps and lanterns 700 include shell 702, back reflector 704, radiator 706 and two end caps 710.Lamps and lanterns 700 also wrap Include chamber portion 708, referring to Fig.1 radiator 106 and chamber portion 108 as described in, in one embodiment, radiator 706 is continuous by chamber portion 708.It is different from the chamber portion 108 of Fig. 1, chamber portion 708 not in the center of lamps and lanterns 700, But at a longitudinal end of lamps and lanterns 700.In the shown embodiment, chamber portion 708 is against end cap 710, nevertheless, Some embodiments do not include end cap 710.Various holes and slit 708a on the back side of chamber portion 708 are for supplying wiring To in chamber portion 708 to give internal drive circuits, transmitter and other electric components to power.Centre bore 714 can be used for supplying Wiring, or can be used for lamps and lanterns 700 being connected to mounting bracket similar with mounting bracket 212 shown in Fig. 2.Although in addition, chamber Room part 708 is located on the end of lamps and lanterns 700, but chamber portion can be located at any position along lamps and lanterns in other embodiments Place.In addition, although lamps and lanterns 700 include single chamber portion 708, other embodiment may include two or more chamber portions Point, such as in the end longitudinally in each of lamps and lanterns tool, there are one chamber portions.
Embodiment similar with lamps and lanterns 700 may also comprise one or more lens.For example, as shown in Fig. 7 C, lens Two regions 707 limited by shell 702, radiator 706 and chamber portion 708 can be occupied.In another embodiment, lens position In on radiator and above any transmitter mounted thereto.In another embodiment, a lens are only needed.It is described Lens can be in the lower section of radiator 706 by cross lamps and lanterns while to also take up the two regions 707.In similar implementation In example, radiator 706 is located on lens.
Similar to chamber portion shown in Fig. 3 308, chamber portion 708 is provided for power supply and drive circuit to be arranged And the inner space of wiring connection.Space protection connection, which is protected from outer member, to be influenced and additionally aids to prevent from installing The vibrations of user in the process.It is similar to chamber portion 308 shown in chamber portion shown in Fig. 1 108 and Fig. 3, chamber Room part 708 is designed to and mounting bracket（Mounting bracket 112 as shown in Figure 1）Cooperation.The mounting bracket can be straight Installation is connect to J-shaped box or ceiling.It is installed to ceiling in bracket, can be used hook-like part and flanged structure by chamber portion 708 are caught in place.In the shown embodiment, it can be used screw, hook, line, rope or many other attachment mechanisms will be with chamber portion End cap opposite 710b is attached to ceiling.In fig. 8 it is shown that installing to ceiling slot similar with troffer 700 Shape holder 800.In other embodiments, entire lamps and lanterns 700 can be dangled by line or rope from ceiling.
Fig. 9 A to Fig. 9 G are the face upwarding stereograms of another lamps and lanterns 900 according to the present invention, top perspective view, upward view, bow View, side view, end-view and decomposition view.Lamps and lanterns 900 include shell 902, back reflector 904, radiator 906 and Two end caps 910.Lamps and lanterns 900 further include chamber portion 908.As shown in the figure, radiator 906 be across chamber portion 908 and Continuously.Different from the chamber portion 708 in Fig. 7, chamber portion 908 is in the center of lamps and lanterns 900.
The embodiment similar with lamps and lanterns 900 may also include lens.By the way that chamber portion 908 is placed on lamps and lanterns 900 Center, four lens can occupy four regions 907 limited by shell 902, radiator 906 and chamber portion 908, such as scheme Shown in 9C.Compared with larger lens, smaller lens can manufacture more cost effectively.Therefore, with adopting in Fig. 7 C It is compared with the case where larger lens for occupying two regions 707, can be had more into using the relatively lenslet for occupying four regions 907 This benefit.
Fig. 9 G are the vertical view exploded perspective views of lamps and lanterns 900.As shown, chamber portion 908 includes main casing 952, dorsal shield Body 954 and the electric component 956 being contained in chamber portion 908.For example, the electric component may include the electricity on PCB Road.The component of lamps and lanterns 900 can be attached to each other using a variety of attached devices.As shown in Fig. 9 G, an embodiment uses Screw 958 is used as attached device.End cap 910（If present）The attached device that such as screw 958 can also be used is attached to Main casing 902.
According to the present invention, smaller lamps and lanterns are also possible.Figure 10 is the face upwarding stereogram of lamps and lanterns according to the present invention.Lamp Tool 1000 may have about 10 " length, about 17 " width and about 2.5 " or following or about 2.0 " or following Height, but these sizes are only exemplary.Lamps and lanterns 1000 include shell 1002, one or more back reflector 904, One or more radiators 1006 and one or more end caps 1010.It is opposite with the chamber portion 108 in Fig. 1（The chamber Part extends to end cap 110 perpendicular to the length of lamps and lanterns 100 and radiator 106 from end cap 110）, chamber portion 1008 can be from end Lid longitudinally and is parallel to the extension of radiator 1006 to end cap.Chamber portion 1008 can coordinate or be located at radiator 1006 On the radiator, and in some embodiments, component of the dissipation of radiator 1006 out of chamber portion 1008 generates Heat.
Figure 11 is the sectional block diagram of lamps and lanterns 1100, and wherein cutting plane is transverse to chamber portion 1108.Chamber portion 1108 Accommodate electric component 1108a.There are two interior surfaces for the tool of lamps and lanterns 1100, are in the case back reflector 1104.As shown, Lamps and lanterns 1100 include that there are two the radiators 1106 of installation surface 1106a and 1106b for tool.In some embodiments, radiator And one or more installation surfaces are all integral with one another.Certain other embodiments may include that two or more are dissipated Hot device, each radiator all have one or more installation surfaces of the integral type of its own.
Lamps and lanterns 1100 further include chamber portion 1108.The chamber portion along radiator 1106 top length.Shown Embodiment in, radiator 1106 can be provided for the transmitter and chamber portion from installation surface 1106a and 1106b The path of 1108 heat dissipation.
Optical transmitting set 1124 is mounted on installation surface 1106a and 1106b.These optical transmitting sets 1124 are carried on the back towards two Reflector 1104 emits light.The shape of back reflector 1104 is designed such as generating desired lamps and lanterns halo exterior feature.It is real shown in Apply in mode, transmitter 1124 have uprightly towards main emitting surface.Therefore, the shape of back reflector 1124 is designed as making light It is turned to far from chamber portion 1108 and towards lens board 1140, light will pass through the lens board.In other embodiments, it installs 1106a and 1106b can be at an angle of on surface, and the shape of back reflector 1104 can be adjusted correspondingly.Implement shown in although Mode includes two back reflectors 1104, but other embodiment may include that there are two the single back reflections of interior surface for tool Device.For example, back reflector can cross chamber portion 1108 and therefore form internal table on the either side of chamber portion 1108 Face.
Lamps and lanterns 1100 further include one or more lens boards 1140.Lens board can be used for the component in troffer（Than Such as LED）Physical protection is provided.Lens board for example can realize this point by preventing physical damage or dust accumulation, this meeting pair Emission effciency, intensity, and/or the curve of troffer have negative effect.Lens board, which also serves as, improves the equal of troffer transmitting Even property.Transmitter used in type and troffer depending on transmitter, the sometimes reflection above emitter source Bright " hot spot " light is seen on device.These hot spots are sometimes undesirable and can have negative effect to uniformity occurs.Thoroughly Runner plate can see these heat by the way that the light reflected from these hot spots is expanded to broader viewing area to help to reduce viewer The case where point.In some cases, the expansible excessively entire light source of light reflected from these hot spots.Even if emerged in no hot spot or Formed in the troffer of not notable hot spot, lens board may also contribute to diffusion light, extend troffer launching curve and/ Or the appearance of generation evenly.
In one embodiment, lens board 1140 includes diffuser.Diffusion effusion lens work in several ways. For example, the diffusion effusion lens can prevent the direct visuality of light source, and the outer additional mixing to shine is provided and is regarded with realizing The uniform source of light of pleasant in feel.However, additional optical loss can be introduced into system by diverging lens plate.Therefore, exist Light is by back reflector or by the way that in the well-mixed embodiment of other elements, diffusion effusion lens may not be required. In this embodiment, transparent glass lens plate can be used, or can entirely remove the lens board.In other implementations Can include scattering particles in lens board 1140 in mode.Certain embodiments may include specular back reflector or part Specular back reflector.In this embodiment, it would be desirable to use diverging lens plate.
Several different structures can be utilized to realize the diffused component in lens board 1140.Diffusion barrier lining（inlay）It can apply Add to the top surface or bottom side surface of lens board 1140.It is also possible to manufacture includes the lens board 1140 of whole diffusion layer, than Such as by squeezing out two kinds of materials jointly or by molding diffuser with insertion piece（insert molding）Mode is molded into outer In portion or interior surface.Transparent lens may include the diffusion for being rolled into extrusion pin or being molded into during fabrication in the surface Property or repeat geometrical pattern.In another embodiment, lens plate material itself may include bulk diffusion body, for example add The colorant added or the particle with different refraction coefficients.
One embodiment of lens board according to the present invention is with facet.Protuberance or tip can be used in facet lens, To scatter light in a predefined manner.Facet lens may include prism, such as go to dazzle prism and/or linear prism.Lens board may be used also It include the film with linear or discrete facet.If multiple film layers folded, the characteristic of this film can enhance.This film can be saturating In the groove bracket side of runner plate, in the emitting side of lens board or on this both sides.In some embodiments, lens are available In for example optically shaping outgoing light beam using microlens structure.In U.S. Patent Application Serial Number No.13/442,311 Microlens structure is described in detail.
Figure 12 is the sectional block diagram of lamps and lanterns 1200, and wherein cutting plane is lengthwise along chamber portion 1208.As shown , in this embodiment, chamber portion 1208 will not extending flute holder 1200 whole length.In other embodiment party In formula, the whole length of the chamber portion extending flute holder.In the embodiment party shown in, shell 1202 includes being located at reflection The part 1202a of 1204 top of device.In other embodiments, reflector 1204 can be used as the back surface of groove holder 1200.
It is vertical to the groove holder 1100 of ceiling and 1200 similar groove holders 1300 that Figure 13 is the installation with shown in Body figure.In other embodiments, entire lamps and lanterns 1300 can be from ceiling suspension, for example utilizes line or rope.
In an embodiment of the invention, multiple lamps and lanterns（For example, in lamps and lanterns 100, lamps and lanterns 700, and/or lamps and lanterns 900 One or more）It can be linked together to form longer lamps and lanterns, which for example can be used for providing in corridor Continuous illumination.In one embodiment, the end cap of connected lamps and lanterns end（If present）It is removed, and makes Two lamps and lanterns are connected with two attached devices.The example of attached device includes, but are not limited to connector plate, is combined with attachment The end cap and bilateral end cap of mechanism.In another embodiment, lamps and lanterns can be with the attached device of integral type.For example, lamps and lanterns It can be upper with male attached device and on an opposite end with female attached device at one end.Above-mentioned attached device and method be only Illustratively, a variety of different devices and mode for connecting multiple lamps and lanterns are possible.
Figure 14 A show two lamps and lanterns 1400,1410 similar with the lamps and lanterns 900 in Fig. 9 in many aspects, and show The adapter structure for including sleeve 1420 and mounting plate 1430 is gone out.Each in lamps and lanterns 1400,1410 is there are one end cap It is removed.Mounting plate 1430 is for example attached to lamps and lanterns 1400,1410 using screw, and sleeve 1420 wraps around to cover Lid joint interface.Profile is designed to the matched sleeve in the back side of lamps and lanterns be also possible, for example is not have sleeved engagement Device structure.Elongation lamps and lanterns 1450 including two compared with small lamp 1400,1410 are shown in Figure 14 B and including 1420 and of sleeve The adapter structure of mounting plate 1430.Additional lamps and lanterns can be attached to the end of elongation lamps and lanterns 1450 in either direction, To generate the elongation lamps and lanterns with certain desired length.For using the lamps and lanterns of any types installation system, lamps and lanterns are extended All it is possible, the lamps and lanterns using any types installation system include but not limited to the lamps and lanterns of ceiling installation, surface peace The lamps and lanterns of dress, the lamps and lanterns of wall installation, the lamps and lanterns of hanging installation and the lamps and lanterns of suspension.
It is to be understood that the embodiment that this specification proposes is intended to schematically.Embodiments of the present invention can wrap Include any combinations of any compatible features shown in multiple attached drawings, and these embodiments should not necessarily be limited by those be explicitly illustrated and The embodiment of explanation.Although the present invention is described in detail with reference to certain preferred dispositions of the present invention, other modifications It is also possible.Therefore, the spirit and scope of the present invention should not meet above-mentioned example.
1. a kind of lamps and lanterns, including：
Shell, the shell are shaped as restriction inner surface；
Back reflector, the back reflector are located on the inner surface；
Radiator, the radiator cross over the length of the shell；
At least one light source is located in the installation surface of the radiator；And
Chamber portion, the chamber portion limit the inner space for being shaped as and accommodating electric component, wherein the chamber portion Coordinate with the radiator, and at least part of the installation surface of the radiator passes through the chamber portion.
2. lamps and lanterns according to claim 1 further comprise at least one end cap on one end of the shell, institute It states shell and the radiator is bound to the end cap.
3. lamps and lanterns according to claim 1 further comprise at least one in the installation surface of the radiator Light source so that the light of at least one light source transmitting is incident on the back reflector.
4. lamps and lanterns according to claim 3 further comprise being located on the radiator and are located at least one light Lens above source.
5. lamps and lanterns according to claim 3 further comprise being located on the radiator and are located at least one light Flare barrier above source.
6. lamps and lanterns according to claim 3 further comprise being positioned partially at the flare above at least one light source Barrier；
Wherein, a part at least one light source is protruded across the flare barrier.
7. lamps and lanterns according to claim 1 further comprise dismountable general mounting bracket, the general mounting bracket It is attached to the external back surface of the chamber portion.
8. lamps and lanterns according to claim 1, wherein the back reflector is veining.
9. lamps and lanterns according to claim 1, wherein the back reflector includes microring array optical device.
10. lamps and lanterns according to claim 1, wherein middle section of the chamber portion in the shell.
11. lamps and lanterns according to claim 1, wherein the shell includes the interior table on the either side of the chamber At least part in face.
12. lamps and lanterns according to claim 1, wherein at one end of the chamber portion in the shell.
13. lamps and lanterns according to claim 1, wherein the shell is the elongated and described chamber portion transverse to institute State elongated shell.
14. lamps and lanterns according to claim 1, further comprise first end cover and second end cover, wherein the chamber portion It is longitudinally extended from the first end cover towards the second end cover.
15. lamps and lanterns according to claim 1, further comprise first end cover and second end cover；
Wherein, the chamber portion is longitudinally extended between the first end cover and the second end cover.
16. lamps and lanterns according to claim 1 further comprise the both sides far from the radiator towards the back reflector The multiple lens boards extended.
17. lamps and lanterns according to claim 1, wherein the shell includes squeezing plastics.
18. lamps and lanterns according to claim 1, wherein the lamps and lanterns are configured to be installed to ceiling.
19. lamps and lanterns according to claim 1, wherein the lamps and lanterns are mounted so that the lamps and lanterns are recessed in ceiling It is interior.
20. lamps and lanterns according to claim 1, wherein the lamps and lanterns are by one or more suspension arrangement from day Card is hung.
21. lamps and lanterns according to claim 1, wherein the inner space accommodates electric component；
Wherein, the electric component includes AC to DC converters.
22. lamps and lanterns according to claim 1, wherein the inner space accommodates electric component；
Wherein, the electric component includes AC to DC converters and DC to AC converters.
23. a kind of lamps and lanterns, including：
Shell, the shell, which is shaped as, limits two or more inner surfaces；
Back reflector, the back reflector are located on each inner surface；
Radiator, length of the radiator close to the back reflector and across the shell, the radiator include one Installation surface；
Chamber portion, the chamber portion limit the inner space for being shaped as and accommodating electric component, wherein the chamber portion Coordinate with the radiator, and at least part of the installation surface of the radiator passes through the chamber portion；With And
At least one light source in the installation surface of the radiator so that at least one light source is intended to direction At least one of back reflector back reflector emits light.
24. lamps and lanterns according to claim 23, further comprise first end cover and second end cover；
Wherein, the chamber portion extends from the first end cover towards the second end cover.
25. lamps and lanterns according to claim 24, wherein the chamber portion extends to described second from the first end cover End cap.
26. a kind of lamps and lanterns, including：
Shell, the shell include a length and limit an inner space；
Back reflector, the back reflector are located in the inner space；
Radiator, the radiator from the first end of the shell extend to the second end of the shell and close to the back ofs the body Reflector；
Multiple light sources, the multiple light source are located in the installation surface of the radiator and towards the back reflector；And
Chamber portion, the chamber portion are located between the first end and the second end of the shell, the chamber portion Divide between at least two light sources being located in the multiple light source, wherein the installation surface of the radiator is at least A part passes through the chamber portion.
CN201310123657.2A 2012-04-10 2013-04-10 Lamps and lanterns CN103423666B (en)
US61/622,482 2012-04-10
US61/705,585 2012-09-25
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CN103423666A CN103423666A (en) 2013-12-04
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