Patent application number | Description | Published |
20130051022 | METHOD OF PRODUCING A LIGHTING DEVICE, AND A CORRESPONDING LIGHTING DEVICE - Provide a plurality of lighting modules. Connect together a plurality of the lighting modules for forming a series of lighting modules. Cut the series of lighting modules into lighting devices having a lighting module. Interconnection elements of the last lighting module of each lighting device are cut along their transverse axes. Each lighting module includes a first set of contacts placed at a first end of said lighting module and a second set of contacts placed in corresponding positions at a second end of said lighting module. Each lighting module is connected to the next lighting module by means of interconnection elements which connect the first set of contacts of each lighting module to the second set of contacts of the next lighting module. Interconnection elements include a base plate and a hollow portion in order to form female connectors when said interconnection elements are cut along their transverse axis. | 02-28-2013 |
20130058091 | Lighting Module - Lighting module mounted onto a C-shaped rail having a bottom wall and electrical lines extending along the rail includes a light source board having a first face carrying one or more light radiation sources and a second face carrying electrical contacts. A channel-shaped housing envelops the board and has a web wall for emitting the light radiation and two opposed side walls each facing one of the longitudinal edges of the board. Each of a pair of opposed guide members extends along one of the longitudinal edges of the board facing a corresponding side wall of the housing. Each of the guide members and the corresponding side wall of the housing have complementary, mutually cooperating, ramp-like surfaces to retain the light source board within the housing. Elastic members urge the board away from the web wall of the housing, whereby the complementary ramp-like surfaces are elastically urged against each other. | 03-07-2013 |
20130265779 | Lighting Assembly - A lighting assembly, comprising: a casing having a bowl-like structure with a bottom wall defining a window opening; a radiation source board with a light radiation source situated opposite said opening so as direct said light radiation outside of the casing; and a driving circuit board for said radiation source, said boards being stacked together without air gaps in between, with said circuit board directed towards said casing. | 10-10-2013 |
20140085887 | Lighting Device - Lighting device, usable for example with LED light sources, comprises a bowl-shaped body having a base surface with a plurality of mounting studs projecting from the base surface, together with one or more boards for the mounting of light radiation sources, provided with holes for the passage of respective mounting studs. The board has pairs of mounting locations for light radiation sources, each pair being arranged on opposite sides of a respective hole so as to be located on opposite sides of the stud which extends through said respective hole. A plurality of reflectors is provided in order to project the light radiation from the device. The reflectors each have an inlet opening for the light radiation and are capable of being mounted on the mounting studs selectively in one of at least two opposite mounting positions in which the inlet opening is placed at one of said mounting locations. | 03-27-2014 |
20140085892 | MEHTOD FOR MOUNTING LIGHTING MODULES AND EQUIPMENT THEREFOR - A method for mounting planar lighting modules on a mounting surface may include: providing on opposite sides of the lighting module fixing indentations opening toward the aforesaid sides, superimposing on said opposite sides of the lighting module stiffening bars having lateral lobes extending into said indentations, and fixing to the mounting surface the stiffening bars superimposed on the opposite sides of the lighting module with the opposite sides of the lighting module sandwiched between the stiffening bars and the mounting surface, whereby the stiffening bars urge the lighting module toward the mounting surface. | 03-27-2014 |
20140133163 | LIGHTING DEVICE, CORRESPONDING SUPPORT AND CORRESPONDING METHOD - In various embodiments, a lighting device for mounting on a mounting surface is provided. The device may include: a planar solid state lighting module having a light emitting region; a housing which frames the lighting module, the housing having a window therein to expose the light emitting region of the lighting module; wherein the housing is magnetically attractable towards the mounting surface to retain the lighting module applied onto the mounting surface by the lighting module being sandwiched between the mounting surface and the housing magnetically attracted towards the mounting surface. | 05-15-2014 |
20140140078 | LIGHTING ASSEMBLY AND ASSOCIATED METHOD - A lighting assembly includes: a heat sink having a mounting surface for a light source; a light source board having said light source thereon, said light source board being arranged against said mounting surface and having an outer perimeter edge, and a drive board carrying drive circuitry for said light source, said drive board being fixed onto said heat sink with said light source board sandwiched therebetween, said drive board having an aperture with an inner edge complementary to said outer edge of said light source board, whereby said light source is left uncovered by said drive board, and wherein: said inner edge of said drive board has an inwardly protruding frame formation with said outer perimeter edge of said light source board abutting against said frame formation, and said light source board has a thickness whereby said drive board and said mounting surface have a clearance therebetween. | 05-22-2014 |
20140254159 | LIGHTING DEVICE - A lighting device includes a tray-like housing with a base wall, at least one light radiation source on the base wall of the housing, having electrical contact pads in an opposite position from the base wall of the housing, and a circuit board on the base wall of the housing with electrically conductive lines extending on the face of the board opposite from the base wall of the housing, with respective electrical contact pads placed in positions facing the electrical contact pads of the light radiation source. At least one optical element is provided, with a light input to collect light radiation at the light radiation source and one or more light outputs to project light radiation from the lighting device. The optical element has an electrically non-conductive base wall which urges the light radiation source or sources and the circuit board toward the base wall of the housing. | 09-11-2014 |
20140268834 | MOUNTING DEVICE FOR LIGHTING SOURCES - A device for mounting lighting sources on a substrate includes a channel-like mounting frame provided with fixing formations for fixing on said substrate, said mounting frame defining a cavity for receiving said lighting source with said lighting source resting on said substrate, a slider member which can be positioned in said cavity of said mounting frame to urge said lighting source toward said substrate; said slider member being slidable with respect to said mounting frame between an insertion position and a locking position, wherein said mounting frame and said slider member bear complementary engagement formations cooperating in a ramp-like manner to force said slider member and the lighting source urged thereby toward said substrate when said slider member is advanced from said insertion position toward said locking position. | 09-18-2014 |
20140339994 | LIGHTING MODULE - A lighting module includes a power line for receiving a power supply current and a ground line, a segmentation point for cutting the lighting module into two parts, a first set of light sources upstream of the segmentation point, a second set of light sources downstream of the segmentation point, wherein the first and second sets of light sources are connected in series, and a resistive element connected to the intermediate point between the first and the second set of light sources, and the ground line, which is configured in such a way that: when the lighting module has not been cut, the resistive element has a resistance which is greater than the resistance of the portion of the lighting module downstream of the segmentation point, and when the lighting module has been cut, the resistive element has a resistance which is less than the resistance thereof. | 11-20-2014 |
20140342615 | METHOD OF PRODUCING FLEXIBLE ELECTRICAL CORDS AND CONNECTOR THEREFOR - A method of producing cut-to-length flexible electrical cords includes providing a flexible strip having a plurality of electrically conductive lines extending along the strip, arranging along said strip a plurality of electrical connectors including a plurality of tubular electrical conductors extending in a bridge-like manner between two subsequent portions of one of the conductive lines of said plurality, separating a portion of a given length from said flexible strip by cutting at least one said connector in a transverse plane, thus cutting the plurality of tubular electrical conductors in the cut connector, whereby said portion separated from said flexible strip forms a flexible electrical cord having, at one end at least, a plurality of electrical connection holes or sockets exposed as a result of the cutting of said tubular conductors. | 11-20-2014 |
20150117005 | LIGHT FIXTURE - A light fixture may include a plurality of elongate members, each extending between opposed ends and carrying one or more light radiation sources, such as LEDs, and at least one hinge member which mechanically couples one end of one of the elongate members to one end of another of the elongate members. Thus the hinge member allows the orientation of the elongate members between: an open position, wherein the elongate members extend in sequence with each other in a common direction, and a closed position, wherein the elongate members extend side by side. | 04-30-2015 |
20150124451 | MOUNTING SUPPORT FOR SOLID-STATE LIGHT RADIATION SOURCES AND LIGHT SOURCE THEREFOR - A mounting support for solid-state light radiation sources and for drive circuitry associated therewith may include a printed circuit board having a mounting surface for the light radiation sources, the printed circuit board having at least one through hole extending through it, and at least one electrical component of the drive circuitry inserted in the at least one hole. | 05-07-2015 |
20150124463 | MOUNTING DEVICE FOR LIGHTING SOURCES AND ASSOCIATED METHOD - A mounting device for mounting on a substrate a plate or board-like lighting source may include a frame member for surrounding the plate or board-like lighting source, anchoring formations for anchoring the frame member onto the substrate while permitting movement of the frame member towards and away from the substrate, elastic means for elastically urging the frame member towards the substrate, and one or more locking members mounted on the frame member and radially displaceable with respect to the frame member between: a radially outward position, in which the plate or board-like lighting source can be inserted into the frame member and positioned between the frame member and the substrate, and a radially inward position, in which the locking member(s) abuts/abut against the plate or board-like lighting source located between the frame member and the substrate, elastically urging the plate or board-like lighting source towards the substrate. | 05-07-2015 |
20150292724 | LENS FOR LIGHTING DEVICES, CORRESPONDING LIGHTING DEVICE AND METHOD - Various embodiments may relate to a lens couplable to a light radiation source, e.g. a LED source, so as to be traversed by the light radiation produced by the latter. The lens includes, embedded in the lens itself, at least one electrically conductive line adapted to enable the electrical supply of the light radiation source. | 10-15-2015 |
Patent application number | Description | Published |
20130015341 | MULTIPOLE ASSEMBLY AND METHOD FOR ITS FABRICATION - A multipole rod assembly, such as used as mass analyzer, is fabricated using rods adhesively attached to shoes, which are then attached to isolation rings. A fixture is used in conjunction with precision-made spacers to precisely assemble the ion mass analyzer. The rods and shoes can be made of metal, while the isolation rings are preferably made of insulator, such as ceramic. The shoes and isolation rings need not be made to high precision, as the spacer ensures high accuracy in alignment and symmetry of the rods. Consequently, the rods are the only precision machined parts in the ion mass analyzer assembly. | 01-17-2013 |
20130015348 | CURVED HEATED ION TRANSFER OPTICS - An ion optics assembly is formed by four quarter-circular profile elements, all of which are attach to the same reference plate. Consequently, all four elements remain aligned to the same reference plate. The four elements form a quarter-circular channel with quarter-circular quad electrodes. The quad electrodes receive electrical potential to form the field required to focus and maintain the ions at the center of the channel. Quarter-circular insulators are provided on all sides of the channel so as to seal the channel over its length from the interior of the mass spectrometer. A heater is provided at the entrance to the ion transfer optics, to prevent accumulation of ions on the poles. A thermal break is provided in the quad, so as to enable maintaining the front of the quad heated and the rest of the quad cooler. | 01-17-2013 |
20130175441 | ION GUIDE AND ELECTRODE FOR ITS ASSEMBLY - An ion guide that transports ions from an ion source at generally a high-pressure level to a mass analyzer at generally a low-pressure level has a plurality of identical electrodes fabricated with protruding elements that forming an ion tunnel or an ion funnel, when the electrodes are assembled around a common longitudinal axis. The protruding elements allow the generation of the radio frequency field necessary to radially confine ions. Each electrode may be machined from a solid block of conductive material, such as metal. The disclosed arrangement greatly simplifies the manufacturing process, reducing cost, and improving robustness and reliability of the ion guide itself. | 07-11-2013 |
20140014747 | ASSEMBLY FOR AN ELECTROSPRAY ION SOURCE - An assembly for use in an electrospray ion source includes a capillary for guiding a flow of liquid generally containing analyte(s) of interest, which is to be electrosprayed into an ionization chamber, a first tube at least partially encasing the capillary such that a first conduit for guiding a first heatable gas is created proximate the capillary and a hollow member that has an internal evacuated space and is located at the outer circumference of the capillary such that heat transfer from the first heatable gas flowing proximate the capillary to the liquid in the capillary is impeded. The assembly provides a simple and lean/compact way of preventing excessive heat transfer to the liquid in the capillary of an electrospray ion source. | 01-16-2014 |
20140061500 | ATMOSPHERIC PRESSURE ION SOURCE WITH EXHAUST SYSTEM - An atmospheric pressure ion source, employing the principle of electrospray ionization, chemical ionization, or photo-ionization, comprises a spray probe for spraying a liquid into an ionization chamber and has an exhaust port through which residual spray mist and waste gas, such as evaporated solvent, are extracted. The ion source further comprises an exhaust system comprising a conduit which is connected to the exhaust port. The conduit has a transition from a first cross-section to a second cross section at a point downstream of the exhaust port wherein the second cross section is reduced in relation to the first cross section. Gas is injected via a gas injector into the conduit in a region of the transition to create a low pressure region that removes unwanted material from the chamber. | 03-06-2014 |