This application claims priority to Italian Patent Application Serial No. 102016000005130, which was filed Jan. 20, 2016, and is incorporated herein by reference in its entirety.
Various embodiments relate generally to lighting devices.
One or more embodiments may refer to lighting devices employing electrically-powered light radiation sources such as solid-state light radiation sources, e.g. LED sources.
Lighting devices are currently available which are comprised of flexible linear modules employing LED light radiation sources. Such modules, which may be exhibit e.g. with a ribbon-like shape, may be available in two versions, either as protected or as unprotected modules. Unprotected modules may be used indoors, e.g. for the lighting of rooms, in conditions which do not require a protection against foreign matter penetration. On the contrary, protected modules may provide such a protection, e.g. an IP protection degree, and therefore they may be used both for indoor and outdoor applications.
In order to produce such modules, especially in the protected version, various different solutions may be resorted to, such as extrusion, co-extrusion, deposition of sealing mass (potting) etc. Such modules, especially protected modules, may be produced with different shapes and features, so that they may fit to a wide range of possible applications. This may be true e.g. for the light emitting areas/surfaces and the possible light radiation distribution arrangements, the possibility being given of improving optical performances and mechanical and electrical reliability, while supporting the achievement of a given protection degree (e.g. IP protection degree).
This may involve an increase of production complexity at different levels. For example, in order to change the optical properties of protected modules, light engines may be employed having different LEDs and/or optical accessories, therefore requiring different designs and production steps which may require a change of the manufacturing parameters.
One or more embodiments aim at providing improved solutions, e.g. as regards the possibility of changing the external shape and/or the emitting area of a protected module, while preserving the same design of the e.g. LED light engine.
One or more embodiments may also concern a corresponding lighting device.
One or more embodiments enable to achieve one or more of the following advantages:
possibility of changing the shape and/or the optical properties of a protected module, so as to simplify the fitting to the final application, specifically by modifying a component used as cover, while the basic module remains unchanged; this leads to advantages consisting e.g. in the reduction of changes in manufacturing;
possibility of implementing such cover in a wide range of different shapes and using different materials, the possibility being given of increasing the product portfolio;
achievement of the desired protection degree (e.g. IP degree) independently of the cover, because it is already contained in the basic module;
mechanical robustness and reliability of the protected module, guaranteed by the shape of the cover, adapted to include arms embracing the basic module with sufficient firmness;
possibility of further increasing the mechanical robustness and the reliability of the protected module, e.g. via laminating operations for the coupling between the basic module and the covering embracing it: e.g. a glue may be used as an interface material, which absorbs mechanical stresses which may arise between the two components if the module is bent.
In the drawings, like reference characters generally refer to the same parts throughout the different views. The drawings are not necessarily to scale, emphasis instead generally being placed upon illustrating the principles of the invention. In the following description, various embodiments of the invention are described with reference to the following drawings, in which:
In the following description, numerous specific details are given in order to provide a thorough understanding of various exemplary embodiments. The embodiments may be practiced without one or several of the specific details, or with other methods, components, materials, etc. In other instances, well-known structures, materials, or operations are not shown or described in detail to avoid obscuring the various aspects of the embodiments.
Reference throughout this specification to “one embodiment” or “an embodiment” means that a particular feature, structure, or characteristic described in connection with the embodiment is included in at least one embodiment. Thus, the possible appearances of the phrases “in one embodiment” or “in an embodiment” in various places throughout this specification are not necessarily all referring exactly to the same embodiment. Furthermore, particular features, structures, or characteristics may be combined in any suitable manner in one or more embodiments.
The headings provided herein are given for convenience only, and therefore do not interpret the extent of protection or the scope of the embodiments.
The Figures show a lighting device adapted to include, in one or more embodiments:
a basic module (or light engine), denoted as 10, and
a member 110, adapted to be coupled as a cover to basic component 10.
In one or more embodiments, both component 10 and cover member 110 (which in the following will simply be named “cover” for the sake of brevity) may have an overall elongate, e.g. ribbon-like, shape, with optional flexibility features.
Components 10 and 110 may therefore be considered as being of indefinite length, so that they may be optionally cut to measure to achieve the length suitable to the application needs.
In one or more embodiments, module 10 may be obtained from an elongate, e.g. channel-shaped, support 12, including e.g. at least one material as silicone. In one or more embodiments, support 12 may be produced e.g. by extrusion.
In one or more embodiments, support 10 may contain a light radiation emitting assembly, e.g. of the kind named Flexible Printed Circuit Assembly, i.e. FPCA.
Such an assembly, denoted on the whole as 14 in
In one or more embodiments, such sources may be solid-state light radiation sources, e.g. LED sources, 14b, optionally associated with corresponding supply and/or driving electronic circuits.
The structure exemplified in
Thereafter, a material including e.g. one or more layers of silicone material may be applied (e.g. by potting) onto support 12.
Over layer 18a, a further layer 18b may be applied of a light-permeable (e.g. transparent) material, adapted to be traversed by the light radiation emitted by the emitting surfaces of sources 14b.
In one or more embodiments, the material of layer 18b may be light-reflective (e.g. including a white material), so as to perform said masking action while simultaneously exerting a reflective action on the light radiation, so as to enhance the light radiation “recycling” effect and to increase the efficiency of the light radiation emission.
In one or more embodiments, the component which herein is named “cover” 110 for brevity may have the shape of an elongate profiled body, e.g. with a channel-shaped cross-section profile.
For example, in embodiments as exemplified in
In one or more embodiments, cover 110 may be comprised of one single material, adapted to exhibit features such as a particular colour (including e.g. coloured silicone) and/or diffusivity (including e.g. diffusive silicone filled with alumina—Al2O3—particles) and/or transparency (including e.g. a transparent silicone), such features being adapted to be optionally combined e.g. in different parts of cover 110.
In one or more embodiments, the features of cover 110 may therefore be chosen at will, as regards e.g. materials, shapes, optical properties, etc., depending on the application needs.
In one or more embodiments, cover 110 may be coupled to module 10 (which, as previously stated, may be implemented as a “protected” module according to the abovementioned criteria) e.g. by lamination.
In one or more embodiments, between module 10 and cover 110 it is possible to interpose a glue and/or silicone layer acting as an interface (e.g. being adapted to absorb mechanical stresses which may arise between both components 10, 110 if they are bent).
As previously stated, in one or more embodiments, both basic module 10 and cover 110 may therefore be implemented as components exhibiting flexibility, e.g. in the up/down or in the right/left direction from the viewpoint of
In one or more embodiments, the production process may be further simplified by using, as an interface material (not visible in the Figures), a material similar to the sealing mass for layers 18a, 18b, in order to impart the features of a protected module to basic module 10.
Said Figure (as well as
In one or more embodiments, basic module 10 may be coupled to cover 110 with the light radiation source(s) 14b (e.g. carried by FPCA 14) facing towards body portion 112 of cover 110.
In this way, in use, the light radiation emitted by source(s) 14b may be directed towards said central portion 112. If it is made of a light-permeable material (optionally having coloured or diffusive features, depending on the application needs), central portion 112 of cover 110 may allow said light radiation to be emitted from lighting device 10, 110 at the face of cover 110 opposed to mouth portion 12a (i.e. upwards, from the viewpoint of
In one or more embodiments, as exemplified in
a portion 1120 of a material permeable to light radiation (i.e. transparent, and optionally coloured or diffusive on the basis of the application needs), and
a portion 1122 of a material impermeable to light radiation (e.g. opaque, white).
In one or more embodiments, portions 1120 and 1122 may include materials equal or similar to those previously mentioned. These may therefore include polymer materials, such as silicone, the possibility being given of determining and adjusting the light permeability/impermeability value (transparency/opacity) by adjusting the quantity of a filler material, e.g. alumina.
In one or more embodiments, the light-impermeable (opaque) portion 1122 may be used to direct the light radiation of source(s) 14b towards the light-permeable (transparent) portion 1120.
In one or more embodiments, both portions 1120 and 1122 may have an interface surface (exemplified in
As exemplified in
On the other hand, portion 1122 may embrace the opposite side wall, denoted as 1122a, as well as the bottom or core wall 1122b of cover 110.
The relative position of both portions 1120, 1122 may anyway be different, e.g. the position shown in
In one or more embodiments, cover 110 may therefore have a side (exemplified herein by mouth portion 112a) which is free and hosts basic module 10, where therefore the light radiation is generated. Moreover, portion 1122 (interface surface 1124), thanks to the at least partially reflective (e.g. white) material thereof, is adapted to cooperate in sending the light radiation generated by source(s) 14b back to side surface 1120a, which acts as light radiation emitting surface.
In one or more embodiments, the fitting and/or the coupling of cover 110 to basic module 10 may be made easier by the side portions 120 of cover 110, which “embrace” basic module 10 and lock it therebetween, therefore contributing to retain cover 110 on basic module 10. For example, as side portions 120 of cover 110 lock basic module 10 therebetween, the position of the latter may be securely held during the coupling operation (e.g. by lamination), such a retention function being adapted to be performed also in a subsequent step.
In one or more embodiments, as exemplified in
For example, as exemplified in
In one or more embodiments, as exemplified in
For example, in one or more embodiments said distal hook formations 1202 may have a length (denoted as L′ in
In one or more embodiments, as exemplified in
As exemplified in the schematic representations of
Therefore, one or more embodiments lead to the production of a lighting device:
by providing an elongate light emitting module which is in itself protected, i.e. includes a substrate with at least one electrically-powered light radiation source, e.g. a LED source, and at least a sealing mass which protects the light radiation source(s), and
by coupling said light emitting module with a channel-shaped cover member, having a body portion including a light-permeable material and side portions, the side portion of the cover embracing the light radiation module and locking it therebetween, with the light radiation source(s) facing towards the body portion of the cover member, so that the light-permeable material provides a propagation path for the light radiation from the light radiation source(s).
While the invention has been particularly shown and described with reference to specific embodiments, it should be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is thus indicated by the appended claims and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced.
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European Search Report based on application No. 16 20 7222.7 (9 pages) dated May 4, 2017 (Reference Purpose Only). |
Italian Search Report based on application No. 102016000005130 (5 pages and 2 pages of English translation) dated Aug. 11, 2016 (Reference Purpose Only). |
Number | Date | Country | |
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20170205065 A1 | Jul 2017 | US |