FR2894324A1 - Light, especially for navigation, has series of LED circuits fitted between upper and lower electrical assembly units - Google Patents

Abstract

The light, especially a marine navigation light, consists of one or more electrical lighting circuits (3, 4, 5, 6, 7) with LEDs (3a, 4a, 5a, 6a, 7a) fitted between upper (1) and lower (2) electrical circuits connected to an inner electrical feed circuit (11). The lighting circuit connections are preferably spaced evenly round the upper and lower circuits, and the LEDs are preferably in the form of miniature surface components. The assembled light is completed by a protective cover.

Description

LIGHTING DEVICE AND LIGHT DEVICE, IN PARTICULAR OF A FIRE TYPE OF

  NAVIGATION INCORPORATING THIS LIGHTING DEVICE.

  The present invention relates to a lighting device and a light device including navigation light type incorporating this lighting device. It finds particular application in the field of maritime navigation lights with light-emitting diodes, low consumption, especially when it comes to providing a replacement lighting device 1 o type replacement bulb 12 / 24V . In this field in particular, it is easy to understand that it is necessary to have navigation lights that illuminate sufficiently powerful, while consuming little energy. Navigation light-type lighting devices have traditionally used incandescent light bulbs, which are generally either standard-base or shuttle-type end-of-light bulbs. The major drawbacks of these lighting devices are the high current consumption and the short life (a few hundred hours). In addition, these incandescent bulbs are available on the market in either the 12V version or the 24V version, depending on the supply voltage used on board the ship, which forces the distributor to store a range of different voltage models. . Devices for replacing these conventional lighting devices are known. These include one or more electrical lighting circuits, themselves comprising several lighting elements, generally LEDs (commonly called LEDs). These lighting elements are in principle distributed at the periphery of the lighting circuit, for illumination up to 360 in the horizontal plane, depending on the regulation in particular. To provide sufficient illumination in the vertical plane, at 30 according to the regulations, several lighting circuits can be stacked as previously described. However, these lighting devices remain bulky and mechanically fragile, due in particular to their stacked structure, as well as their average efficiency which requires to increase the number of lighting elements. On the other hand, if they allow in practice to divide the consumption approximately by a factor of ten, these lighting devices however have a power consumption which may be too high relative to the reduced electric autonomy of a ship, in particular a small pleasure boat. Finally, these lighting devices use a regulation of the single-voltage linear power supply (ie 12V or 24V), which makes it possible to provide a constant lighting but a consumed power 15 increasing with the voltage, hence, here again, problems of high consumption, therefore average yield, and low life due to significant heating. The problem which then arises is to obtain a lighting device, in particular for the replacement of the conventional lighting devices which are found in luminous devices such as navigation lights, which comply with the regulations, which it is not bulky and less fragile, while having a very good performance, therefore a high lighting power and low power consumption, as well as a long life. The object of the invention is therefore to provide a solution to the aforementioned problems among other problems. The invention thus relates, in a first aspect, to a lighting device, in particular for navigation, which comprises at least one electric lighting circuit itself comprising at least one lighting element. Typically, the lighting device also comprises an upper assembly electrical circuit and a lower assembly electrical circuit between which are connected the electrical lighting circuit or circuits and an electrical supply circuit. Preferably, the device comprises a plurality of lighting electrical circuits connected between the upper and lower electrical connection circuits by distributed connections, preferably evenly distributed at the periphery of these upper and lower electrical connection circuits. Also preferably, at least one of the lighting electrical circuits comprises a plurality of distributed lighting elements, preferably uniformly distributed, in a direction extending between the respective connections of the lighting electrical circuit with the electrical circuits of the lighting circuit. upper and lower assembly. At least one of the lighting elements may be an electroluminescent element emitting a light signal by the action of an electric current, for example of the LED type, preferably a miniature surface-type LED. Thus, the device of the invention has a structure ensuring a very high mechanical strength, all in a small volume. It complies with the regulations, allowing lighting up to 360 in the horizontal plane and plus or minus 30, or even plus or minus 60, in the vertical plane. The type of lighting element used further enhances the volume gain, the efficiency, and contributes to compliance with the regulations.

  This device respects the dimensions of the conventional lighting device, incandescent bulb type, it may be intended to replace. Preferably, the electric supply circuit is positioned substantially parallel to, preferably at, the axis defined by the respective centers of the upper and lower assembly electrical circuits.

  More preferably, at least one of the lighting electrical circuits is arranged parallel to the electric supply circuit. The device may also include a power supply control circuit, connected at one end of the power supply circuit. This regulation circuit is preferably a switching regulation circuit. The use of switching regulation makes it possible to supply the device over a relatively large range of voltages, while producing a constant illumination. Thus, the device operates 1 o indifferently under 12 volts or 24 volts, which can cover the needs of the market with a single model. Such switching regulation maintains the power consumed constant, regardless of the supply voltage, with a very high efficiency and negligible heating. Furthermore, by using ultra-high-efficiency miniature surface-component-type LEDs, thus producing a very high brightness from a low current, the power consumption can be reduced by a factor of approximately 20 compared to conventional devices with incandescent bulbs. Also, in view of this high efficiency, it is possible to supply the LEDS via the control circuit only at a constant current equal to 75% of their nominal current, thus reducing the operating temperature. , therefore the aging of the device. Preferably, the device of the invention comprises at least one electrical contact element connected, directly or through the regulation circuit, to at least one end of the electric supply circuit. For example, it would be possible to have a single electrical contact element connected via the regulation circuit to the lower end of the supply circuit, in the case of a configuration of the so-called 360 device. It will also be possible to have an electrical contact element connected to each end of the supply circuit, in the case of a configuration of the so-called shuttle device >>. More preferably, regardless of the variant embodiment, the device comprises a protective cover intended to protect, in particular, the electrical circuits and the lighting elements. According to a second aspect, the invention also relates to a light device, particularly of the navigation light type, which typically comprises at least one lighting device as presented above. According to a third aspect, the lighting device of the invention may be in the form of an assembly kit. The invention therefore also relates to an assembly kit of a lighting device as presented above, which typically comprises at least one upper electrical connection circuit, at least one electrical circuit of lower assembly, at least one lighting electrical circuit including itself at least one lighting element, and at least one electrical supply circuit. Other features and advantages of the invention will appear more clearly and completely on reading the following description of the preferred embodiments of the device of the invention, which are given by way of non-limiting examples and with reference to the following accompanying drawings. FIG. 1a shows schematically the lighting device of the invention as a whole, in a first embodiment, FIG. 1b shows schematically the lighting device of the invention in an exploded view, in a first embodiment. Embodiment 2a: schematically illustrates the illumination device of the invention as a whole, in a second embodiment, FIG. 21): schematically represents the illumination device of the invention in exploded view, in FIG. a second embodiment. FIGS. 1a and 1b therefore diagrammatically represent the lighting device of the invention in a first embodiment, respectively seen in overall perspective and in exploded views. The device comprises in this embodiment eight electrical lighting circuits marked 3 to 10, assembled vertically by embedding between the upper electrical assembly circuit 1 and the electric circuit 1 o lower assembly 2, the latter being substantially circular. Each lighting electrical circuit 3 to 10 comprises one or more lighting elements 3a to 10a. By assembling, in this example, the eight electrical lighting circuits 3 to 10 distributed regularly around the vertical axis of the device, each of these lighting electrical circuits comprising three lighting elements, for example 3a, 3d and 3e for the electric lighting circuit 3, we obtain a device that complies with the regulations in force. Indeed, with LED lighting elements 3a to 10a of the LED type, preferably miniature surface-type LEDs, which has an illumination angle of plus or minus 60, a lighting coverage of 360 is obtained. in the horizontal plane and plus or minus 60 in the vertical plane. Furthermore, the device comprises an electrical supply circuit 11 which is itself embedded between the upper and lower electrical assembly circuits 1 and 2. Thus, each electrical circuit 3 to 10 is connected by one of its ends (3b in the case of the electric lighting circuit 3) to the upper electrical assembly circuit 1 in a connection zone provided for this purpose (1b for the connection between the upper electrical assembly circuit 1 and the electrical circuit of lighting 3).

  Similarly, each lighting electrical circuit 3 to 10 is connected by its other end (3c in the case of the lighting electrical circuit 3) to the lower electrical connection circuit 2 (in the connection zone 2c in the case of the connection with the electric lighting circuit 3).

  These connections are distributed, preferably evenly distributed, at the periphery of the electrical assembly circuits 1 and 2. The lighting elements 3a, 3d and 3e, in the case of the lighting electrical circuit 3, are distributed, preferably evenly distributed, in a direction extending between the respective connections of the electrical lighting circuit 1 o 3 with the upper 1 and lower assembly electrical circuits 2. It is possibly the same with the other lighting electrical circuits 4 to 10. The electrical supply circuit 11 is, for its part, positioned substantially parallel to the axis defined by the respective centers of the upper and lower assembly electrical circuits 1 and 2. Preferably, it is located substantially at this axis. . This electrical supply circuit 11 and the lighting electrical circuits 3 to 10 are, in this example, parallel to each other. The electrical supply circuit 11 makes the connection, directly or indirectly, with an external power source not shown, by its lower end 11c. It also passes through the lower assembly electrical circuit 2 at a connection area 2d, and the upper assembly electrical circuit 1 at a connection area 1d. Thus, the electrical power supply of the lighting electrical circuits 3 to 10, and therefore lighting elements 3a to 10a (for example LEDs), is provided by this electric supply circuit 11, which is at least partially embedded between the 1 and lower assembly electrical circuits 2. Given its structure, this electric supply circuit 11 reinforces the mechanical strength of the assembly, particularly when it is positioned at the axis defined by the respective centers of these electrical circuits 1 upper and lower assembly 2. Preferably, the device also comprises an electrical control circuit 12 of the power supply, which is connected to the end 11c of the electric supply circuit. The assembly receives at its lower part an electrical contact element, for example of standardized metal base type 13. Preferably, the regulation circuit 12 is of the switching control circuit type, to enable a voltage 1 o to be delivered. power supply for example between 9 and 30 volts, with a constant power consumption. As explained above, the electric regulation circuit 12 can also be used to electrically power the device, so as to increase its life. Thus, with high-efficiency LEDs such as miniature surface-type LEDs, provision can be made to supply these LEDs only with a constant current equal to 75% of the nominal current of these LEDs, while guaranteeing that lighting required, but with a decrease in operating temperature, thus an effective increase in service life. One can of course provide a protective cover, not shown in the figures, to protect all components of the device. All or part of the abovementioned electrical connections between the various aforementioned components of the device can be obtained conventionally by welding. Figures 2a and 2b show schematically the device of the invention in a second embodiment, respectively in overall perspective view and exploded view. This embodiment, corresponding to a so-called shuttle configuration, differs from the previous one, described with reference to FIGS. 1a and 1b, in that illumination is not provided at 360 in the horizontal plane.

  The shape of the lower and upper assembly electrical circuits 1 is in this case semi-circular or partially circular. Furthermore, the device comprises in this case two electrical contact elements 13 and 14, respectively at the upper and lower ends. This device does not necessarily have an electric control circuit. The rest of the elements are similar to those described with reference to Figures 1a and 1b. As is more particularly shown in FIGS. 1b and 2b, the device can be provided in the form of an assembly kit in which the various elements necessary for assembling the device are partially or totally unconnected and / or unassembled. The user then only has to make the connections by conventional welding and / or assembly. Thus, the device according to the invention is intended in particular to replace the incandescent bulbs used in the navigation lights of boats, in particular sailboats where the energy consumption of the edge is of paramount importance. The whole of the description above is given by way of example and is not limiting of the invention. In particular, the exact number of electrical lighting circuits, as well as the exact number of lighting elements by lighting electrical circuit, are not limiting of the invention. It has been found that 3 LEDs with an illumination angle of plus or minus 60 equidistributed over each electrical lighting circuit, and 8 equal lighting electrical circuits around the axis of the device, correspond to a configuration giving good results in particular in terms of compliance with the regulations. But another configuration can of course be considered. Likewise, the exact form of the various components, as well as their precise size, are not limiting of the invention, provided that the necessary connections and assembly can be made. Finally, the figures presented in this description are of course not limited to the invention, whether for example supply voltages or vertical or horizontal illumination angles.

Claims (13)

  1. Lighting device, especially for navigation, comprising at least one lighting electrical circuit (3 to 10) comprising at least one lighting element (3a to 10a), characterized in that it comprises a circuit an upper electrical assembly (1) and a lower electrical connection circuit (2) between which said lighting electrical circuit (3 to 10) is connected and an electric supply circuit (11). 10   2. Device according to claim 1, characterized in that it comprises a plurality of electrical lighting circuits (3 to 10) connected between said upper (1) and lower (2) electrical connection circuits by connections ( 3b, 1b); (3c; 2c)) distributed, preferably evenly distributed, to the respective peripheries of said so-called upper (1) and lower (2) assembly electrical circuits.   3. Device according to any one of claims 1 and 2, characterized in that at least one of said lighting electrical circuits (3 to 10) comprises a plurality of lighting elements (3a, 3d, 3e) distributed , preferably equidistributed, in a direction 20 extending between the respective connections (3b, 1b); (3c; 2c)) of said lighting electrical circuit (3 to 10) with said upper assembly electrical circuits ( 1) and lower (2).   4. Device according to any one of claims 1 to 3, characterized in that at least one of said lighting elements (3a 25 to 10a) and an electroluminescent element emitting a light signal by action of an electric current.   5. Device according to claim 4, characterized in that said lighting element (3a to 10a) is of the LED type, preferably LED type miniature surface component. 30   6. Device according to any one of claims 1 to 5, characterized in that said electrical supply circuit (11) is positioned substantially parallel to, preferably at the axis defined by the respective centers of said electrical circuits d upper (1) and lower (2) assembly.   7. Device according to any one of claims 1 to 6, characterized in that at least one of said lighting electrical circuits (3 to 10) is disposed parallel to said power supply circuit (11).   8. Device according to any one of claims 1 to 7, characterized in that it comprises a control circuit (12) of the power supply connected to one end of said power supply circuit (11).   9. Device according to claim 8, characterized in that said control circuit (12) is a switching control circuit.   10. Device according to any one of claims 1 to 9, characterized in that it comprises at least one electrical contact element (13, 14) connected directly or via said control circuit (12) to at least one end of said power supply circuit (11).   11. Device according to any one of claims 1 to 10, characterized in that it comprises a protective cover.   12. Luminous device, including navigation light type, characterized in that it comprises at least one lighting device according to any one of claims 1 to 11.   13. A kit for assembling a lighting device according to any one of claims 1 to 11, characterized in that it comprises at least one electrical circuit upper assembly (1), at least one electrical circuit d lower assembly (2), at least one electric lighting circuit (3 to 10) itself comprising at least one lighting element (3a to 10a), and at least one electric supply circuit (11).