EP2573461A1 - Ensemble d'éclairage acoustique - Google Patents

Ensemble d'éclairage acoustique Download PDF

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Publication number
EP2573461A1
EP2573461A1 EP11306199A EP11306199A EP2573461A1 EP 2573461 A1 EP2573461 A1 EP 2573461A1 EP 11306199 A EP11306199 A EP 11306199A EP 11306199 A EP11306199 A EP 11306199A EP 2573461 A1 EP2573461 A1 EP 2573461A1
Authority
EP
European Patent Office
Prior art keywords
open cavity
acoustic
cover
lighting assembly
assembly
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Ceased
Application number
EP11306199A
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German (de)
English (en)
Inventor
designation of the inventor has not yet been filed The
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Koninklijke Philips NV
Original Assignee
Koninklijke Philips Electronics NV
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Koninklijke Philips Electronics NV filed Critical Koninklijke Philips Electronics NV
Priority to EP11306199A priority Critical patent/EP2573461A1/fr
Priority to PCT/IB2012/054997 priority patent/WO2013042064A1/fr
Publication of EP2573461A1 publication Critical patent/EP2573461A1/fr
Ceased legal-status Critical Current

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Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21VFUNCTIONAL FEATURES OR DETAILS OF LIGHTING DEVICES OR SYSTEMS THEREOF; STRUCTURAL COMBINATIONS OF LIGHTING DEVICES WITH OTHER ARTICLES, NOT OTHERWISE PROVIDED FOR
    • F21V33/00Structural combinations of lighting devices with other articles, not otherwise provided for
    • F21V33/006General building constructions or finishing work for buildings, e.g. roofs, gutters, stairs or floors; Garden equipment; Sunshades or parasols
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21SNON-PORTABLE LIGHTING DEVICES; SYSTEMS THEREOF; VEHICLE LIGHTING DEVICES SPECIALLY ADAPTED FOR VEHICLE EXTERIORS
    • F21S4/00Lighting devices or systems using a string or strip of light sources
    • F21S4/10Lighting devices or systems using a string or strip of light sources with light sources attached to loose electric cables, e.g. Christmas tree lights
    • F21S4/15Lighting devices or systems using a string or strip of light sources with light sources attached to loose electric cables, e.g. Christmas tree lights the cables forming a grid, net or web structure
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04BGENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
    • E04B9/00Ceilings; Construction of ceilings, e.g. false ceilings; Ceiling construction with regard to insulation
    • E04B9/32Translucent ceilings, i.e. permitting both the transmission and diffusion of light
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21YINDEXING SCHEME ASSOCIATED WITH SUBCLASSES F21K, F21L, F21S and F21V, RELATING TO THE FORM OR THE KIND OF THE LIGHT SOURCES OR OF THE COLOUR OF THE LIGHT EMITTED
    • F21Y2105/00Planar light sources
    • F21Y2105/10Planar light sources comprising a two-dimensional array of point-like light-generating elements
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21YINDEXING SCHEME ASSOCIATED WITH SUBCLASSES F21K, F21L, F21S and F21V, RELATING TO THE FORM OR THE KIND OF THE LIGHT SOURCES OR OF THE COLOUR OF THE LIGHT EMITTED
    • F21Y2115/00Light-generating elements of semiconductor light sources
    • F21Y2115/10Light-emitting diodes [LED]

Definitions

  • the present invention relates to an acoustic lighting assembly, which comprises both sound-absorbing and lighting functionalities.
  • acoustic lighting assemblies may be used as a panel in a modular panel system such as a suspended ceilings.
  • acoustic lighting assemblies In construction, such acoustic lighting assemblies (or modular panel systems) are commonly used to reduce build cost and construction time. Modular panel systems typically allow for the rapid construction of floors, walls and ceilings, albeit often at the compromise of reduced aesthetic appearance.
  • a prime example of such a modular panel system is a suspended ceiling, which can be found in most professional environments, such as for example office spaces.
  • a suspended ceiling typically comprises a metal or plastic grid defining rectangular or square recesses, which are filled with tiles to form a continuous ceiling.
  • lighting may be integrated into the system, typically by replacing one or more tiles with a lighting unit such as a luminaire.
  • a lighting unit such as a luminaire.
  • Most suspended ceilings comprise luminaires in which a number of fluorescent light tubes are present. For a number of reasons, such luminaires are not ideal, need additional installation efforts and are considered aesthetically displeasing, i.e. obtrusive.
  • acoustic tiles consist in integrating lighting functionalities in acoustic tiles to solve these problems, such as the ceiling tile disclosed in US7766511 which comprises a frame having a honeycomb structure to absorb the sound and a hollow central portion provided with LED-based components. Top and bottom skin layers are further used on each side of the hollow central portion to support and cool the LED-based components on one hand and to define a light-exit window on the other hand.
  • These acoustic lighting tiles are usually made for a limited number of LEDs.
  • An object of the invention is to provide an acoustic lighting assembly capable of containing a large number of light sources, while being aesthetically pleasing.
  • Another object of the invention is to provide such an acoustic lighting assembly with a limited thickness, so as to be an acoustic lighting tile to be included in a ceiling, wall or floor system.
  • Another object of the invention is to manufacture cost-efficiently such an acoustic lighting assembly.
  • the invention proposes, according to a first aspect, to solve said problem and reach said objects by providing an acoustic lighting assembly according to claim 1.
  • Acoustically non-reflective means a property of the cover which is essentially acoustically non-reflective, meaning that 60%, 70% or 80% or greater of the sound is not-reflected by the cover - it is absorbed by and/or transmitted through the cover - for the sounds commonly found in buildings: i.e. sounds below 4 kHz, and especially speaking range typically extending between 1kHz and 2 kHz.
  • This assembly allows the full integration of the lighting components within the acoustic substrate, in a non-cumbersome manner.
  • this full integration permits to properly close the open cavity with a cover enhancing the pleasant aspect of the assembly by an external viewer, while not preventing sound-absorption and light emission.
  • (semi-)transparent and acoustic properties of the cover facilitate both the sound absorption and do not prevent light extraction.
  • rigidity of the cover allows the cover not being deformed by its own weight and/or by the weight of the solid state-based components and circuitry which may be borne by it.
  • This rigidity is particularly advantageous for large-size cover provided over or across a large open cavity (i.e. open cavity having a large opening surface area).
  • a large open cavity is especially needed if a significant number of solid state-based components have to be provided in the open cavity to improve or increase the illumination.
  • Rigidity of the cover further allows its use as a substrate for the solid state lighting-based components and circuitry, which might be advantageous for the manufacturing. Moreover, this construction creates an air gap between the solid state lighting-based components and circuitry on one hand and the inner surfaces of the open cavity on the other hand, which may facilitate a cooling of these solid state lighting-based components and circuitry.
  • Rigidity of the cover is also useful for installation of the assembly and for removal of the assemblies during lifetime for access to space above ceiling (handling and installation).
  • the open cavity is large, more sound can go through (and be absorbed thereafter at the back and/or side of the open cavity by acoustic elements), and the sound permeability of and/or sound absorption by the cover may have an impact on the sound isolation.
  • the assembly is according to claim 2.
  • This feature allows the cover to be fully integrated in the open cavity, and particularly to have the cover external surface (i.e. the surface opposite to the open cavity) extending in continuation with the surface of the substrate extending around the opening of the cavity, i.e. without any steps between these two surfaces.
  • Aesthetical aspect of the assembly by an external viewer is therefore improved.
  • the assembly is according to claim 3.
  • This feature allows the cover to be fully integrated in the open cavity, and particularly to have the cover external surface (i.e. the surface opposite to the open cavity) extending over a plane parallel to the surface of the substrate extending around the opening of the cavity.
  • the cover external surface i.e. the surface opposite to the open cavity
  • at least a part of the cover may extend onto latter surface of the substrate, hiding accordingly this surface.
  • Aesthetical aspect of the assembly by an external viewer is therefore improved.
  • the assembly is according to claim 4.
  • this member allows its use as a substrate for the solid state lighting-based components and circuitry as aforementioned.
  • the assembly is according to claim 5.
  • This structure allows to provide a determined and constant pitch between the through holes, homogenizing the sound permeability of the cover.
  • the assembly is according to claim 6.
  • This corrugated structure has a "waves" design, which gives a good stiffness to mass ratio and can be used as a very cheap and light weight construction.
  • the assembly is according to claim 7.
  • This assembly is particularly advantageous since it is simple and does not necessarily involve use of tools. E.g. gluing may be sufficient. Moreover this assembly allows the cover to be fully integrated with the substrate, giving a nice and smooth design of the overall assembly which might be the design of a conventional acoustic tile. This might be particularly useful if the assembly has to be part of a system (e.g. a ceiling system) comprising a plurality of tiles having each one standardized dimensions.
  • a system e.g. a ceiling system
  • the assembly is according to claim 8.
  • the superficial smoothness of the cover improves the aesthetical pleasant aspect of the assembly and its integration in an environment (e.g. a ceiling system as aforementioned).
  • the assembly is according to claim 9.
  • the superficial smoothness of the sheet improves the aesthetical pleasant aspect of the assembly and its integration in an environment (e.g. a ceiling system as aforementioned). Moreover the sheet could more or less hide the rigid member (which may not have an aesthetical nice aspect due to its through holes) for an external viewer.
  • the small thickness of the sheet does not hamper sound absorption since its allows most of the sound to go through it.
  • the rigid member is used here as a substrate to the sheet, rigidifying the latter.
  • the sheet would have been deformed and would have brought some mechanical weaknesses to the assembly, especially if those sheet would have been extended over a large surface -this is typically the case if the open cavity is large.
  • the assembly is according to claim 10.
  • Said hiding function of the cover and cavity by the sheet is therefore improved by these optical properties.
  • the sheet may be arranged to become transparent only when the solid state lighting-based components emit light, e.g. by using phase-changing or state-changing materials whereby light transmission in the material is changing with the phase or with the internal or structural state of the material, and which phase or state is changing when the material is exposed to a temperature or a light above a determined temperature or light threshold.
  • phase-changing or state-changing materials whereby light transmission in the material is changing with the phase or with the internal or structural state of the material, and which phase or state is changing when the material is exposed to a temperature or a light above a determined temperature or light threshold.
  • the assembly is according to claim 11.
  • the assembly is according to claim 12.
  • the assembly is according to claim 13.
  • the assembly is according to claim 14.
  • the non-contact of the solid state lighting-based components with the surfaces of the cavity allows alternative heat dissipative mechanism of these components to the typical heat dissipation directly performed at the back part of such kind of assembly, the back part being thermally conductive in such a typical heat dissipation.
  • heat can be at least partially dissipated in the air of the cavity (i.e. the air gap separating the solid state lighting-based components from the surfaces of the open cavity), via the circuitry.
  • this alternative heat dissipation allows to provide the substrate not necessarily with thermally conductive materials and/or thermal configuration, giving more opportunities for other materials and configurations for the substrate.
  • the assembly is according to claim 15.
  • This feature allows to ease the manufacturing of the assembly and to separate the solid state lighting-based components and circuitry from the substrate (as aforementioned).
  • the cover is further used as a substrate of the lighting components, which may facilitate the final assembly.
  • the invention proposes to solve said problem and reach said objects by providing a method of manufacturing an acoustic lighting assembly, according to claim 16.
  • the cover and the solid state lighting-based components can be assembled separately from the substrate, which could be convenient in the manufacturing process and reduce costs.
  • the solid state lighting-based components and circuitry can be positioned accurately on the cover before the fixation with the substrate, which may increase the reliability and ease of the assembly.
  • the method is according to claim 17.
  • the open cavity can be made from panels (e.g. five panels: one for the back side and four for the sides, to have an open cavity having a rectangular cross-section area) which can be cost-effective.
  • the open cavity may be made in a thick acoustic panel, by material removal (e.g. mechanical machining or milling), and/or by shaping methods (e.g. pressing locally at the open cavity position to form letter, moulding, forming).
  • material removal e.g. mechanical machining or milling
  • shaping methods e.g. pressing locally at the open cavity position to form letter, moulding, forming.
  • the method is according to claim 18.
  • This step of fixing the sheet may be implemented before or after step (d). It might be advantageous to implement this step after step (d) - i.e. to finish the assembly by the fixation of this sheet - in order to prevent the sheet from damages during previous steps and manipulations of the assembly.
  • the method is according to claim 19.
  • the invention proposes to solve said problem and reach said objects by providing another acoustic lighting assembly comprising:
  • This improved acoustic property is all the more important than the open cavity is large - indeed, in such a case, a large part of the substrate is provided with a hole (i.e. the open cavity) which would decrease the acoustic properties of the assembly if the other parts of the substrate would not have been acoustically improved according to this third embodiment of the invention.
  • the back side of the open cavity optimizes sound absorption, in particular the absorption of the sound going through the open cavity to this back side.
  • This improved acoustic property is all the more important than the open cavity is large - indeed the back side is larger accordingly and the rate of sound absorption by the back side over the overall sound absorbed by the substrate is accordingly greater.
  • said sides are acoustically absorbing, which improves acoustic properties of the" assembly.
  • the cover is a rigid cover, arranged to be acoustically non-reflective, and especially may be arranged to leave at least a part of the sound passing there through.
  • the cover is a sheet or exit window extending over the opening of the open cavity.
  • Claims 1-12 and claims 13-15 are applicable to this other acoustic lighting assembly, as options, and the aforementioned corresponding advantages can also be found for this other acoustic lighting assembly.
  • the invention proposes to solve said problem and reach said objects by proposing another method of manufacturing another acoustic lighting assembly comprising:
  • the cover is a rigid member arranged to leave the sound going there through.
  • the invention proposes to solve said problem and reach said objects by providing a third acoustic lighting assembly comprising:
  • Claims 1-15 are applicable to this third acoustic lighting assembly, as options, and the aforementioned corresponding advantages can also be found for this third acoustic lighting assembly.
  • the invention proposes to solve said problem and reach said objects by providing a fourth acoustic lighting assembly comprising:
  • Claims 1-15 are applicable to this fourth acoustic lighting assembly, as options, and the aforementioned corresponding advantages can also be found for this fourth acoustic lighting assembly.
  • FIG. 1, FIG. 2 and FIG. 3 depict an example of a lighting acoustic assembly 1 according to the invention.
  • This assembly 1 comprises:
  • the light emitted by the LED-based components 11 is extracted from the assembly 1 through the cover 50 and the sound (generated in the environment of the assembly) can go through the cover 50 and the cavity 14 and be absorbed by the substrate 10.
  • the substrate 10 comprises, in this example, a back element 11 and side elements 12.
  • a back element 11 and side elements 12.
  • One, several or all of these elements 11, 12 have acoustic properties, i.e. are made of a material and/or are configured to absorb sounds.
  • the back element 11 may be made from an acoustic tile, commonly known in the market, e.g. made of mineral filbers or glass wool.
  • the side elements 12 may be made from an acoustic material, such as mineral filbers, glass wool,
  • each one of some of the side elements 12 may be made of strips of metal sheet (which gives better stiffness and small width to the assembly 1) and/or may comprise honeycomb structure.
  • Side elements 12 can be fixed to the back element 11 by any means of fixation, e.g. screwing, gluing, clamping, or a combination thereof.
  • the cavity 14 is then defined by the inner surfaces 15, 16 and 17 of these elements 11, 12.
  • this cavity 14 may be integrally made from a block of acoustically absorbing material by techniques and methods of material removal (e.g. mechanical machining or milling) and/or shaping methods (e.g. pressing locally at the open cavity position to form letter, moulding, forming). The resulting part of the block being the substrate 10.
  • material removal e.g. mechanical machining or milling
  • shaping methods e.g. pressing locally at the open cavity position to form letter, moulding, forming
  • the substrate 10 further comprises optically reflective properties provided within or on faces of the cavity 14, so as to reflect some light resulting from the emission of the LED-based components 21.
  • optical properties may be provided at the inner surfaces 15, 16, 17 of the cavity 14, as depicted in FIG. 4 .
  • These reflective properties may be obtained by using a reflective bulk material for the back element 11 and/or side elements 12.
  • these optically reflective properties may be obtained by providing optically reflective material on inner surfaces 15, 16 and/or 17 of the cavity 14, e.g. by coating with a reflective paint and/or by providing a reflective element 13 (e.g. a reflective foil or a more rigid reflective element).
  • This reflective element 13 may be flat or corrugated (like the reflective element shown in FIG. 5 and 6 ) or have any other shape.
  • the reflective element 13 may be shaped in order to influence, together with the optical properties of the cover 50, the shape and homogeneity of the light output and therefore to lead to a specific illumination effect after light reflection.
  • the reflective element 13 is tapered so as illuminate homogeneously a large area.
  • the material used for the optically reflective surface may be a diffusing reflective white material in order to have a better light homogeneity, or any other reflective material.
  • Each LED-based component 21 comprises at least one LED and optionally a primary optics and optionally a secondary optics.
  • each LED-based component 21 may further comprise a own circuitry and/or own electronic components.
  • the LED-based components 21 emit light to a preferred direction
  • the LED-based components 21 can be positioned in the cavity 14 such that this direction points either towards the cavity 14 or outwards the cavity 14.
  • this direction points either towards the cavity 14 or outwards the cavity 14.
  • it is an indirect lighting and the optical reflective surface 13 is essential.
  • this is a direct lighting.
  • LED-based components 21 are supplied and optionally driven via a circuitry 22 which comprises electrical paths for power supplying the LEDs and optionally for transporting control signals to the LED-based components 21.
  • the circuitry 22 may also comprise electronic component(s) to process the power and/or control signals, driver(s) to control the power and/or other components.
  • Circuitry 22 and LED-based components 21 may be fixed to a transparent or semitransparent board (especially needed in case of indirect lighting) which does not reflect the sound.
  • the board may be made of an acoustic absorbing material and/or be provided with through hole to leave the sound going therethrough (and therefore to transmit the sound to the cavity 14).
  • circuitry 22 and LED-based components 21 may be fixed directly to the side of the cover 50 facing the cavity 14.
  • circuitry 22 is configured to limit the disturbing or absorption of the light emitted or shined by the LED-based components 21 and/or the light reflected by the reflective surface 13.
  • circuitry 22 may comprise transparent electrical paths (e.g. made of ITO).
  • the circuitry 22 may consist essentially in wires linking the LED-based components 21 one to the other according to a grid configuration, as depicted in FIG. 1 and as disclosed in US2009/0091932 .
  • this wire-grid configuration of the circuitry 22 improves the dissipation of the heat generated by the LED-based components 21, due to its good thermal conductivity (especially if those wires comprise copper) and its great surface in contact with the air of the cavity 14.
  • Connection of the circuitry 22 to the electrical supports 60 may be performed via wires extending through or adjacent to the side elements 12, as depicted by FIG. 2 .
  • At least a part of the LED-based components may be provided on the side elements 12 of the assembly 1.
  • the rigid cover 50 is configured such that acoustic waves, generated outside the assembly 1 and directed towards the cover 50, are not reflected onto the cover 50 or, at least, have limited reflection onto the cover 50.
  • the cover 50 may be configured to transmit therethrough a major part of the received acoustic waves and/or to absorb some acoustic waves.
  • the cover 50 comprises a rigid panel 30 provided with an array of through holes 31, such as a honeycomb structure, to leave the sound going therethrough.
  • This rigid panel 30 is made of a material transparent to at least a range of wavelengths emitted by the LED-based components 21, such as e.g. polycarbonate, PMMA, PET, transparent plastic, and a material sufficiently rigid to prevent from deformation due to its own weight and the weight of the LED-based components 21 and circuitry 22 once the rigid panel 30 is fixed at its edge to the side elements 12.
  • the rigid panel 30 bears the LED-based components 21 and circuitry 22 on the side facing the cavity 14.
  • LED-based components 21 and circuitry 22 may be fixed by known techniques such as e.g. clamping, gluing, riveting.
  • the rigid panel 30 may be fixed to the side elements 12 by different techniques, which may comprise gluing, screwing, riveting.
  • the cover 50 further comprises a sheet 40 extending over the side of the rigid panel 30 opposite to the cavity 14.
  • the sheet 40 is made of at least one material transparent to at least a range of wavelengths emitted by the LED-based components 21, e.g. glass fiber.
  • the sheet 40 may be provided with optical properties such that said transparency is not the same for the light coming from the cavity 14 (i.e. light issued from the LED-based components 21) as to the light generated outside the assembly 1: accordingly, the light transmittance may be higher for light beams coming from the cavity 14 than for light beams pointing to an opposite direction, and light reflectance may be lower for light beams coming from the cavity 14 than for light beams pointing to an opposite direction.
  • the sheet 40 may be painted by a thin white paint so as to reflect a part of the light (e.g. 30%) and to transmit another part of the light (e.g. 70%). Therefore the reflection found can be sufficiently reflective for the light incident from outside the assembly 1 to hide the rigid panel and sufficiently optically transmissive to transmit a significant portion of the light emitted by the LED-based components 21 out of the assembly 1.
  • the non-transmitted portion of said emitted light is reflected by the paint back to the cavity 14 and is mainly reflected onto the reflective element 13 back to the sheet 40. This portion of the emitted light is therefore "recycled” and reaches the sheet 40 again and again.
  • the sheet 40 may also be transparent only when the LED-based components 21 emits light. This property may be found with materials having wavelength specific reflection properties, e.g. phase-changing or state-changing materials whereby light transmission in the material is changing with the phase or with the internal or structural state of the material, and which phase or state is changing when the material is exposed to a temperature or a light above a determined temperature or light threshold
  • the sheet 40 may be sufficiently thin for a sufficiently small surface density (typically around 0.05 to 0.2 mm of thickness, preferably lower than 0.15 mm or around 0.10 mm, for a surface density lower than 200 g/m ⁇ 2, but preferably lower than 150 g/m ⁇ 2 or than 100 g/m ⁇ 2) to prevent a significant reflectivity of the sound thereon.
  • a sufficiently small surface density typically around 0.05 to 0.2 mm of thickness, preferably lower than 0.15 mm or around 0.10 mm, for a surface density lower than 200 g/m ⁇ 2, but preferably lower than 150 g/m ⁇ 2 or than 100 g/m ⁇ 2 to prevent a significant reflectivity of the sound thereon.
  • the sheet 40 may be provided with acoustically absorbing properties.
  • the sheet 40 may be made of one layer or several layers stacked one to the other.
  • the sheet 40 may be further provided with small through micro holes (e.g. micro perforations) which acoustically absorb by viscous losses, whose sub-millimeter diameter (e.g. between 0.05 and 0.3 mm) is similar to the thickness of a boundary layer of air. Spacing between holes (e.g. a few mm) can also be adapted to tune the rate of sound absorption. Clearsorber® foils may be used for the sheet 40.
  • the sheet 40 may further extend onto the side elements 12 of the substrate 10, as shown in FIG. 2 and FIG. 3 .
  • the sheet 40 may be fixed to the rigid panel 30 by different techniques, which may comprise gluing, riveting, screwing, stitching.
  • the assembly 1 may be used as a tile in a ceiling, wall or floor system.
  • FIG 5 and 6 show a lighting assembly 1' with a cover 50' comprising a corrugated rigid panel 30' made of a material optically transparent to at least one range of wavelengths emitted by the LED-based components 21. Accordingly, this rigid panel 30' comprises successively top waves 35' and bottom waves 36'.
  • This rigid panel 30' may be made of polycarbonate, PMMA, PET, transparent plastic.
  • the corrugated shape may be found by either thermoforming, or by forcing the rigid panel 30' to be corrugated by applying compression forces at opposite edges of the rigid panel 30' and thereafter fixing this constrained rigid panel 30' at its edges to the sheet 40 and/or the side elements 12 in order to maintain this constraint.
  • the sheet 40 e.g. of glass fiber, may be glued or stitched to the portions of the rigid panel 30' located close to the apexes 38' of the bottom waves 36' and/or to bottom edges of the side elements 12.
  • the LED-based components 21 may be embedded in and/or supported by the rigid panel 30', via the circuitry 22 which may be made rigid.
  • LED-based components 21 may be positioned within the cavities formed by the waves 35' and 36' of the rigid panel 30', and the circuitry 22 (electrically connecting the LED-based components 21 one to the other) is arranged to come through the sections of the rigid panel 30' located between apexes 37' and 38' of the waves 35' and 36'. Accordingly the electrical assembly (i.e. LED-based components 21 and the circuitry 22) is held by these sections, and thanks to the rigidity of the circuitry 22 and of the rigid panel 30'.
  • waves 35', 36' of the corrugated rigid panel 30' may be periodic and/or the pitch between the waves may be chosen to be roughly n times (n being an integer equal or greater than 1) the distances separating LED-based components 21.
  • Reflective element 13' may be any reflective element aforementioned.
  • a corrugated reflective element 13' e.g. made of an optically reflective foil or solid material.
  • this corrugated shape of the reflective element may also be advantageous to have a higher stiffness along one direction (the direction of the waves), to prevent that the shape of the reflective element 13' changes significantly over lifetime.
  • this reflective element 13' can be flat.

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  • Engineering & Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Architecture (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Arrangement Of Elements, Cooling, Sealing, Or The Like Of Lighting Devices (AREA)
EP11306199A 2011-09-22 2011-09-22 Ensemble d'éclairage acoustique Ceased EP2573461A1 (fr)

Priority Applications (2)

Application Number Priority Date Filing Date Title
EP11306199A EP2573461A1 (fr) 2011-09-22 2011-09-22 Ensemble d'éclairage acoustique
PCT/IB2012/054997 WO2013042064A1 (fr) 2011-09-22 2012-09-20 Ensemble d'éclairage acoustique

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
EP11306199A EP2573461A1 (fr) 2011-09-22 2011-09-22 Ensemble d'éclairage acoustique

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EP2573461A1 true EP2573461A1 (fr) 2013-03-27

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EP11306199A Ceased EP2573461A1 (fr) 2011-09-22 2011-09-22 Ensemble d'éclairage acoustique

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WO (1) WO2013042064A1 (fr)

Cited By (14)

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CN103993695A (zh) * 2014-04-28 2014-08-20 上海市建筑装饰工程集团有限公司 镂空透光饰面结构及其安装方法
WO2014187788A1 (fr) * 2013-05-23 2014-11-27 Koninklijke Philips N.V. Panneau insonorisant électroluminescent doté d'un conduit
WO2015000864A1 (fr) * 2013-07-04 2015-01-08 Koninklijke Philips N.V. Dispositif électroluminescent
WO2015071130A1 (fr) 2013-11-18 2015-05-21 Koninklijke Philips N.V. Dalle d'éclairage acoustique
WO2017029147A1 (fr) * 2015-08-20 2017-02-23 Philips Lighting Holding B.V. Luminaire et procédé de fabrication de luminaire
WO2018104525A1 (fr) * 2016-12-08 2018-06-14 Saint-Gobain Ecophon Ab Panneau de plafond acoustique et eclairant
WO2019214853A1 (fr) * 2018-05-07 2019-11-14 Eaton Intelligent Power Limited Luminaire à guide de lumière suspendu à atténuation du bruit
WO2019234155A1 (fr) * 2018-06-08 2019-12-12 Signify Holding B.V. Unité d'éclairage rigide
USD880754S1 (en) 2018-05-07 2020-04-07 Eaton Intelligent Power Limited Suspended pendant lightguide luminaire with sound dampening
USD899668S1 (en) 2019-05-17 2020-10-20 Signify Holding B.V. Suspended pyramidal luminaire with sound dampening
USD899667S1 (en) 2019-05-17 2020-10-20 Signify Holding B.V. Suspended cylindrical luminaire with sound dampening
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FR3060042A1 (fr) * 2016-12-08 2018-06-15 Saint-Gobain Ecophon Ab Panneau de plafond acoustique et eclairant
US11060675B2 (en) 2016-12-08 2021-07-13 Saint-Gobain Ecophon Ab Acoustic and illuminating ceiling panel
US11320139B2 (en) 2018-01-02 2022-05-03 Signify Holding B.V. Lighting module, kit and panel
USD880754S1 (en) 2018-05-07 2020-04-07 Eaton Intelligent Power Limited Suspended pendant lightguide luminaire with sound dampening
US10725231B2 (en) 2018-05-07 2020-07-28 Signify Holding B.V. Suspended pendant lightguide luminaire with sound dampening
US10746917B2 (en) 2018-05-07 2020-08-18 Signify Holding B.V. Suspended pendant lightguide luminaire with sound dampening
WO2019214853A1 (fr) * 2018-05-07 2019-11-14 Eaton Intelligent Power Limited Luminaire à guide de lumière suspendu à atténuation du bruit
WO2019234155A1 (fr) * 2018-06-08 2019-12-12 Signify Holding B.V. Unité d'éclairage rigide
US11175018B2 (en) 2018-06-08 2021-11-16 Signify Holding B.V. Rigid lighting unit
USD899668S1 (en) 2019-05-17 2020-10-20 Signify Holding B.V. Suspended pyramidal luminaire with sound dampening
USD899667S1 (en) 2019-05-17 2020-10-20 Signify Holding B.V. Suspended cylindrical luminaire with sound dampening
WO2022096077A1 (fr) * 2020-11-06 2022-05-12 Knauf Gips Kg Panneau acoustique perforé, son procédé de production et son utilisation
EP4198387A1 (fr) * 2021-12-15 2023-06-21 Claudio Lamberini Appareil pour le traitement de paramètres environnementaux

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