FR2941347A1 - LIGHT EMITTING DEVICE LIGHTING DEVICE - Google Patents

Abstract

According to the invention, this device (1) LED (4) comprises: - at least one support part (2) of heat-conducting material, comprising a base portion (2a) intended to be connected to a support ( 18) and a free end portion (2b); the support piece (2) is pierced right through by a central duct (10); said base portion (2a) comprises a thread (11) and said free end portion (2b) comprises a plurality of grooves (12) forming radiating fins (13); and at least one plate (3) for supporting at least two power LEDs (4), placed on the free end of the part (2) and connected to means (15; 17) for supplying the LEDs. (4) electrical power, extending into said conduit (10).

Description

The present invention relates to a lighting device with light emitting diodes (hereinafter LED abbreviated), in particular for equipping a lighting lamp or other luminaire. There are currently many types of sockets on chandeliers or other lighting fixtures. Among these, there may be mentioned "conventional" sockets can receive in them as well incandescent bulbs as compact fluorescent bulbs better known as "energy saving bulbs"; halogen bushings; Neon holders, or for some years, specific sockets for LED lamps.

Incandescent bulbs and halogen bulbs have the major disadvantage of consuming a significant amount of energy in use. Compact fluorescent bulbs, while allowing significant energy savings, also have many disadvantages. They are also not available in all existing finishes for incandescent lamps. In addition, because of the electronic components they contain, their use is not recommended outdoors. They also have a much lower color rendering than incandescent bulbs and finally, the presence of fluorescent powders and a mercury vapor gas in their tubes makes them potentially dangerous for their disposal. LED lamps (hereinafter LED for short) appear to be the best compromise for equipping luminaires. Indeed, an LED has a very low electric power and therefore consumes very little energy. In addition, the materials used in its manufacture are not harmful to the environment and all the values of the light spectrum can be reached with the materials used for its design. However, LED lamps are generally marketed, for use in household lamps, encapsulated as a specific type of bulb and thus require a correspondingly shaped socket to be connected. More recently, bulbs adaptable to a conventional socket, for example type E27, have been placed on the market. The luminous fluxes obtained with this type of bulb are however lower than those of incandescent or compact fluorescent bulbs. New LEDs have also appeared: they are power diodes, for example marketed under the Luxeon brand. A bulb of this type has the disadvantage of generating a fairly large localized heating on its socket or its respective support. The present invention aims to overcome all the disadvantages of existing LED lamps. For this purpose, the light-emitting diode device according to the invention comprises: at least one support part made of heat-conducting material, comprising a base part intended to be connected to a support and an end part free; the support piece is pierced from one side by a central duct opening into its base portion on the one hand and in the end face of its free end portion, on the other hand; said base portion comprises an external thread and said free end portion comprises a plurality of stepped grooves arranged radially from its circumferential face, forming fins capable of radiating heat by radiation; and at least one support plate for at least two power LEDs, this plate comprising a printed circuit for powering the LEDs mounted on its surface; the wafer has at least one dimension greater than the cross section of said central duct, so that it can be placed on the free end of the support piece, and is connected to means for supplying the LEDs with electrical power adapted to extend into said central duct when the wafer is placed on the free end of the support piece.

This support piece structure comprising an inner duct and radiating fins and an LED support pad placed on the free end of the support piece proves to allow the use of several power LEDs as a source of lamp illumination. and other luminaires without excessive localized heating of the device. The wafer has indeed a substantial contact surface with the support piece and it allows, thanks to its radiating fins, efficient dissipation of the heat produced by the LEDs and possibly by the printed circuit tracks that includes the wafer.

The power LEDs used to obtain a luminous flux substantially similar to that of an incandescent bulb, at least in a lighting direction corresponding to the direct extension of these LEDs. The luminous flux obtained is a function of the number of LEDs, the power of the LEDs and the intensity of the current. The invention furthermore has the advantage of making it possible to produce luminaires having the same aesthetic appearance as luminaires comprising incandescent and halogen bulbs, that is to say, which are not too bulky, as is the case, for example fixtures using compact fluorescent light bulbs. Said LED supply means may be electrical son passing through said central conduit. It may also be rigid pins protruding perpendicular to the wafer, adapted to be inserted with friction in the connection holes that comprises a connection socket housed in said central conduit. In this second case, the wafer is held on the support piece simply by this insertion of these pins and can therefore be easily interchanged if necessary. Preferably, the device comprises at least one LED power supply unit including a transformer, rectifier and voltage smoothing unit, electrically connected to said LED power supply means. This power supply is used to transform, rectify and smooth the voltage from the power grid to power the LEDs received on the carrier board by a low voltage direct current.

The device may comprise a wrapping piece, made of glass or other transparent material, decorative or not, connected to said support piece. This wrapping piece may in particular be a glass bulb giving the device an appearance similar to that of an existing bulb. Preferably, in this case, said wrapping piece comprises a thread at its base and said base portion of the support piece comprises an external thread, these threads being adapted to cooperate to perform the assembly of the wrapping piece on the support piece, with the possibility of interchanging this piece of wrapping.

Expanded possibilities of use of the device are thus obtained. The LED support plate is preferably bonded to the free end of the support piece. The support member preferably comprises three fins. It may comprise two fins but then has reduced performance. The support piece, or, when the device comprises one, the wrapping piece, may comprise a reflector, peripheral or not. This reflector may in particular be arranged to laterally reflect a portion of the light produced by the LEDs.

The invention will be better understood, and other features and advantages thereof will appear, with reference to the accompanying diagrammatic drawings, showing, by way of nonlimiting examples, several possible embodiments of a lighting lamp that 'it relates to. Figure 1 is a side view, in longitudinal section, according to a first embodiment, the various elements of this device being assembled; Figure 2 is a view similar to Figure 1, exploded; Figure 3 is a side view, in longitudinal section, of a support part which it comprises, according to a second embodiment; FIG. 4 is a side view of an LED support plate which it comprises according to this second embodiment, and FIG. 5 shows temperature curves as a function of time. Figures 1 and 2 show a lighting device 1 with light emitting diodes (hereinafter LED abbreviated), in particular for providing a lighting lamp. The device 1 comprises a support part 2, a support plate 3 for supporting two power LEDs 4, a connection socket 5 and a bulb 6 made of glass. The device 1 also comprises a block (not shown) for supplying the LEDs 4, including a transformer, rectifier and voltage smoothing unit, electrically connected to the LEDs. This power supply is used to transform, rectify and smooth the voltage from the power grid to power the LEDs with low voltage direct current.

The support part 2 is made of heat conducting material, in particular aluminum. It comprises a base portion 2a intended to be connected to a support, in particular a lamp, and a free end portion 2b, and is pierced right through by a central conduit 10 opening into its base portion 2a of one side and in the end face of its free end portion 2b, on the other hand. The base portion 2a comprises an external thread 11. The free end portion 2b comprises a plurality of stepped grooves 12, arranged radially from its circumferential face, forming fins 13 capable of diffusing heat by radiation. .

The central duct 10 comprises, at its end opening into said free end face, an enlarged portion delimiting a shoulder. At its end opening into the lower face of the base portion, it comprises a tapped portion, also enlarged. The plate 3 has a square shape whose sides have lengths greater than the section of the upper portion of the conduit 10, so that it can be placed on the free end of the support part 2. The plate 3 comprises a printed circuit for supplying the LEDs 4, the ends of which are connected to rigid pins 15 projecting perpendicularly to the wafer 3. These pins 15 are adapted to be inserted with friction into connection holes 16 that comprise the bushing of connection 5, itself being intended to be engaged in a manner adjusted in the conduit 10. The pins 15 have different lengths, for the respect of polarities. This insertion with friction ensures the mounting of the plate 3 on the part 2 while allowing removability of this plate, for easy replacement in case of defective LED. The LEDs 4 are two in the example shown but they can be more than two, their number being chosen according to the luminous flux that is desired. These are LEDs called "power", that is to say having a power generally greater than 1w.

The connecting sleeve 5 comprises in the upper part a shoulder intended to be received against the shoulder of the part 2 during the insertion of this sleeve into the conduit 10. These respective shoulders are arranged so that, when they are resting against each other, the face of the sleeve 5 is flush with the free end face of the support part 2, as shown in Figure 2. The electrical son 17 to which the sleeve 5 is connected are engaged in a mounting tube of the device on the lamp, a threaded end 18 of which is screwed into the threaded lower portion of the duct 10.

The glass bulb 6 comprises a threaded tubular lower portion 20, allowing it to be screwed onto the thread 11 of the base portion 2a of the piece 2. This bulb 6 makes it possible to protect the other members of the device 1 and confers on the latter one aspect similar to that of an existing bulb. Thanks to its screwing on the part 2, it can be interchanged, which allows to easily adapt the device 1 to different types of lighting to achieve. Figures 3 and 4 respectively show a part 2 and a wafer 3 LED 4 according to another embodiment, very similar to that described above. For simplicity, parts or elements of an embodiment that are identical or similar in another embodiment will be identified by the same reference numerals and will not be described again. In this case, the wafer 3 is directly connected to the power supply wires 17 of the LEDs 4, which pass through the conduit 10. The latter does not receive a connection socket 5 and therefore does not comprise an enlarged upper portion. The wafer 3 is connected to the part 2 in particular by gluing. Figure 5 is a graph of different temperature curves of a device according to the invention, measured over time. The illumination time is on the abscissa, in seconds, and the measured temperature is on the ordinate, in degrees Celsius. The measurements are initially made for an intensity of 0.35A, then, after 1620 seconds (27 minutes) for an intensity of 0.5A, then, after 4500 seconds (75 minutes) for an intensity of 0, 7A. Curve A is that of the ambient temperature; the curve B is that of a device according to the invention comprising three fins 13, the curve C is that of a device according to the invention comprising only two fins 13, and the curve D is that of a conventional device two Power LED. It appears that the device 1 according to the invention allows a significant lowering of the temperature emitted by the LEDs 4, making the use of the latter possible on a lamp-type lighting device or other luminaire.

As a comparative test of the emitted lighting, the following test was carried out: 1) Conventional incandescent bulb of 230V DC 25W: lighting measured at one meter from the source: - in "direct", it is that is, in the coaxial direction of the bulb: 27 lux - at 90 °, that is, perpendicular to that direction: 35 lux. 2) Device according to the invention with two LEDs 4: - for an intensity of 0.35A - in "direct": 20 lux - at 90 °: 12 lux - for an intensity of 0.5A - in "direct": 26 lux - at 90 °: 15 lux - for an intensity of 0.7A - in "direct": 32 lux - at 90 °: 18 lux Thus, in the direct extension of the LEDs, we obtain substantially the same luminous flux as conventional incandescent bulb (26 lux in 0.5 A, compared to 27 lux for the classic bulb).

The invention thus provides a lighting lamp with light emitting diodes making it possible to remedy, under the best conditions, the drawbacks of the homologous lamps of the prior art. It goes without saying that the invention is not limited to the embodiment described above by way of example but that it extends to all embodiments covered by the appended claims.

Claims (1)

CLAIMS1 - Light-emitting diode (1) lighting device (1), hereinafter abbreviated to LED, in particular intended to equip a lighting lamp, characterized in that it comprises: - at least one support piece ( 2) of heat conducting material, comprising a base portion (2a) for connection to a support (18) and a free end portion (2b); the support piece (2) is pierced right through by a central duct (10) opening in its base portion (2a) on the one hand and in the end face of its free end portion (2b). , on the other hand ; said base portion (2a) comprises an external thread (11) and said free end portion (2b) comprises a plurality of stepped grooves (12) arranged radially from its circumferential face, forming clean fins (13) to radiate heat by radiation; and at least one wafer (3) for supporting at least two power LEDs (4), that is to say LEDs having a power generally greater than 1 W, this wafer (3) comprising a printed circuit board supplying LEDs (4) mounted on its surface; the wafer (3) has at least one dimension greater than the section of said central duct (10), so that it can be placed on the free end of the support piece (2), and is connected to means (15; 17) for supplying the LEDs (4) with electrical power capable of extending into said central duct (10) when the plate (3) is placed on the free end of the support piece (2). 2 - Device (1) according to claim 1, characterized in that said LED supply means (4) are electrical son (17) passing through said central conduit (10). 3 - Device (1) according to claim 1, characterized in that said LED supply means (4) are rigid pins (15) projecting perpendicular to the plate (3), adapted to be inserted with friction in connection holes (16) which comprises a connection socket (15) housed in the central duct (10). 4 û Device (1) according to one of claims 1 to 3, characterized in that it comprises at least one LED power supply unit (4) including a unit deformation, rectification and smoothing voltage, electrically connected said LED power supply means (4) in electrical power. Device (1) according to one of claims 1 to 4, characterized in that it comprises a wrapping piece (6), glass or other transparent material, decorative or not, connected to said support piece (2 ). 6 - Device (1) according to claim 5, characterized in that the wrapping piece (6) comprises a thread at its base and in that said base portion (2a) of the support piece (2) comprises a external thread, these threads being adapted to cooperate to carry out the assembly of the wrapping piece (6) on the support piece (2), with the possibility of interchanging this wrapping piece (6). 7 ù Device (1) according to one of claims 1 to 6, characterized in that the plate (3) forming LED support (4) is fixed by gluing on the free end of the support member (2). 8 ù Device (1) according to one of claims 1 to 7, characterized in that the support member (2) comprises three fins (13). 9 ù Device (1) according to one of claims 1 to 8, characterized in that it comprises a reflector, peripheral or not. Device (1) according to claim 9, characterized in that the reflector is arranged to laterally reflect a portion of the light produced by the LEDs (4).