FR3020117A1 - LUMINESCENT OBJECT EQUIPPED WITH A LIGHT SOURCE AND A SOLAR SENSOR WITH FORCING OF THE ORDER - Google Patents

Abstract

The invention relates to a luminescent object (1) comprising a luminescent structure (2) whose composition is configured to capture and restore light energy, a light source (7) arranged to illuminate the luminescent structure, a charge controller solar cell (8) provided with a solar cell (9), a charge control circuit (10) and an accumulator (11), the charge control circuit being configured to charge the accumulator by means of the solar cell during the day and then, above a threshold of darkness determined by the solar cell, to supply the light source by means of the charged accumulator. According to the invention, the object comprises a forcing system (12) of the charge control circuit for triggering the supply of the light source in daylight. The present invention aims to optimize the possibilities of use of the light source of the luminescent object.

Description

The present invention relates to a luminescent object that is equipped with an artificial light source and a solar charge controller for recharging an accumulator. which supplies said light source. The term luminescent in the sense of the invention covers in particular fluorescent objects, photoluminescent objects and phosphorescent objects, or even objects having a combination of these properties, which are able to restore the light energy from a light source is instantly , in the case of the fluorescent, either after being stored, in the case of photoluminescent or phosphorescent. Such an object may for example be a picture or picture frame, a garland, a sign, a support and / or decorative panel, a decorative object, a tile, a border, or even others, which will produce light effects in darkness or twilight simply for decorative purposes or for the purpose of visualization or signaling in the dark. It is known to design luminescent objects that comprise a luminescent structure consisting of a fluorescent material, photoluminescent or phosphorescent, or a combination of these materials. A photoluminescent or phosphorescent object captures light energy from a natural light source, such as the sun, or an artificial light source, such as a lamp or projector projecting light into the environment where the light is located. object, which stores this luminous energy. In darkness or darkness, the luminescent object restores the stored luminous energy. A fluorescent object also captures light energy from a natural or artificial light source, but restores it instantly. The amount of light energy restored by the luminescent object is directly proportional to the amount of light energy received from the light source and stored. Luminescent objects are known which also include an artificial light source which is positioned near the luminescent structure to enhance it. This light source is powered by a solar charge controller which comprises, a solar cell, a charge control circuit and an accumulator. The charge control circuit allows the solar cell to charge the battery during the day. Then, above a threshold of darkness, the solar cell, which acts as a twilight sensor, acts on said charge control circuit, which triggers the supply of the light source from this charged battery. When the light source directly projects light rays onto the luminescent structure, the latter instantly restores the light energy thanks to the fluorescent material that may be present in the luminescent structure. Concomitantly, the luminescent structure stores light energy by means of the phosphorescent or photoluminescent material present therein, and then restores this light energy in the dark once the battery is discharged and, therefore, that the light source s 'off. When the light source illuminates the outline of the luminescent structure to enhance it in the dark, the luminescent structure - through phosphorescence or photoluminescence - restores the stored light energy mainly from daylight. The present invention aims to optimize the possibilities of use of the light source of the luminescent object. To this end, the invention relates to a luminescent object which comprises a luminescent structure whose composition is configured to capture and restore light energy. The luminescent object also comprises a light source arranged to illuminate the luminescent structure. Different light sources are possible; for example, it may be a black light, a light emitting diode, a fluorescent lamp, a halogen lamp. The luminescent object also includes a solar charge controller which is provided with a solar cell, a charge control circuit and an accumulator. The solar charge controller will be sized according to the power of the light source. The charge control circuit is configured to charge the battery by means of the solar cell during the day and then, above a dark threshold measured by the solar cell which acts as a twilight sensor, to supply the source illuminated by means of the charged accumulator. Solar charge controllers are known to those skilled in the art.

Remarkably, the luminescent object according to the invention comprises a forcing system of the charge control card for triggering the supply of the light source in daylight, that is to say when the measured light intensity by the solar cell is below said threshold of darkness. This design has the advantage of being able to deport the luminescent structure with respect to the solar charge controller, for example so as to arrange said luminescent structure in a dark or dark room, or even dipped in the dark, and still trigger the ignition of the light source while the solar cell is exposed to daylight, either to simply illuminate said luminescent structure, or to allow the luminescent structure to store energy despite the darkness in the room. In a preferred embodiment of the luminescent object, the forcing system is offset relative to the solar collector, which makes it possible to position it close to the luminescent structure, in the same room as this one. In a preferred embodiment of the luminescent object, the forcing system is connected in parallel with the solar cell, on the charge control circuit. In one embodiment of the forcing system, it is a normally open switch. Thus, forcing the ignition control is achieved by manually operating the switch. In an alternative embodiment of the forcing system, it is a timer. Thus, the forcing of the ignition control is programmed at times and / or at defined days. In another embodiment of the forcing system, it is a presence sensor. This presence sensor makes it possible to trigger the lighting of the light source during a defined lapse of time - thanks to a time delay - after a presence is detected when a person passes in front of the luminescent structure, which makes it possible to value said luminescent structure only in the presence of a person in the room and, therefore, avoids unnecessarily discharging the accumulator. In another embodiment of the forcing system, it is a twilight sensor. This advantageously makes it possible to set this twilight sensor to a threshold of darkness different from that of the solar cell which also behaves like a twilight sensor, so as to trigger the lighting of the light source before the darkness is too great, especially when the luminescent structure and said twilight sensor are arranged in a different room from that where is placed the solar charge controller.

In an alternative embodiment of the forcing system, it may consist of a combination of some or all of said aforementioned elements, namely a switch, a timer, a presence sensor and / or a twilight sensor. These elements are mounted in parallel with the solar cell. In a preferred embodiment of the luminescent object according to the invention, the luminescent structure consists of a monolayer or multilayer composition based on: microbeads or glass chips; fluorescent, photoluminescent and / or phosphorescent pigments; binder of silicone or resin type optionally, in addition, flakes, magnetic chips, and / or clear varnish. Various positions of the light source are possible on the phosphor object according to the invention, depending on the design of the luminescent structure. This light source can be positioned above, below or at the periphery of the luminescent structure. This light source can also be arranged in the luminescent structure. In a preferred embodiment of the solar charge controller, it comprises a normally closed general switch that completely cuts the ignition of the light source. This makes it possible to neutralize the lighting of the light source, for example during the unoccupied period of the premises, so as to avoid unnecessary discharge of the battery. The luminescent object according to the invention can be implemented in various forms. For example, it may be a luminescent strip, a luminescent tile, a luminescent decorative object, a luminescent table, a luminescent frame, a luminescent panel, a a luminescent signboard or a luminescent fresco. According to the invention, the luminescent structure may further comprise a transparent sheet or a transparent film comprising luminescent ink prints, for example a photograph.

The characteristics and advantages of the light-emitting object according to the invention will become apparent on reading the following description of a nonlimiting embodiment, which is based on figures, among which: FIG. 1 schematizes the light-emitting object according to the invention; Figures 2 and 3 show two electrical diagrams of two modes of implementation of the solar charge controller and forcing system; Figures 4 and 5 schematize two compositions of the luminescent structure; Figures 6 to 9 schematically four positions of the light source relative to the luminescent structure. In the rest of the description, the same references will be used to define the same elements or their variants. As illustrated in FIG. 1, the luminescent object 1 comprises a luminescent structure 2. This luminescent structure 2 may have a multilayer composition as shown diagrammatically in FIG. 4 or a monolayer composition as shown diagrammatically in FIG. 5.

In FIG. 4, the luminescent structure 2 comprises, for example, a layer 3 based on a mixture of silicone and fluorescent pigments, a layer 4 based on a mixture of silicone and phosphorescent pigments and / or photoluminescent pigments, and layer 5 based on a mixture of silicone and microbeads of glass or glass chips.

In FIG. 5, the luminescent structure 2 comprises a single layer 6, for example based on a mixture of silicone, fluorescent pigments, photoluminescent and / or phosphorescent pigments, and glass microbeads or glass shards. It is also possible to add flakes in one of the layers of the luminescent structure 2, which will make it possible to improve the brightness of the luminescent structure. It is also possible to add magnetic chips in a layer of the luminescent structure 2, in particular that in contact with the outer face of said luminescent structure 2, so as to allow the assembly on this external face, by magnetization, of one or more magnetic complementary parts that can be luminescent or not, for example alphabetic letters or numbers. It is also possible to add a glossy clear lacquer to the material composition of the luminescent structure 2, which will improve its luminous brightness. The silicone material can also be replaced by resin to harden the luminescent structure 2.

Other implementations of composition are possible for the luminescent structure 2. The luminescent object 1 comprises an artificial light source 7. This artificial light source 7 is for example constituted by an incandescent lamp, a fluorescent lamp, a halogen lamp, a light-emitting diode, a black lamp or even other types of lamps. The luminescent object 1 comprises a solar charge controller 8 whose principles of design and operation are known to those skilled in the art. This solar charge controller 8 comprises a solar cell 9, a charge control circuit 10 and an accumulator 11, which are connected to each other and to the light source 7, as shown diagrammatically in FIG. 1. When the solar cell 9 captures the light rays of the sun, the charge control board 10 allows said solar cell 9 to charge the accumulator 11. When the darkness increases at the end of the day and reaches a certain threshold, the solar cell 9 behaves like a solar collector and acts on the charge control board 10, which then allows the supply of the light source 7 from the accumulator 11.

The light source 7 thus illuminates the luminescent structure 2 to enhance it and act on the fluorescent, photoluminescent and / or phosphorescent pigments present in the composition of the luminescent structure 2. According to the invention, the luminescent object 1 further comprises a forcing system 12 which is connected to the load control circuit 10 to trigger the supply of the light source 7 from the battery 11, before the darkness threshold is reached. This forcing system 12 will preferably be remote from the solar charge controller 8, so as to arrange it near the luminescent structure 2, for example in a dark area, while said solar charge controller 8, or even the load cell. solar 9 only, will be deported in the light of day, for example near a window. In FIG. 2, it can be seen that the charge control circuit 10 comprises a charge controller 13, the design of which is known to those skilled in the art, to which the solar cell 9, the accumulator 11 and the light source are connected. 7 which consists of a light emitting diode. However, there is the presence of the forcing system 12 which consists of a normally open switch mounted in parallel with the solar cell 9. The engagement of this switch allows to bypass the solar cell 9, that is to say say allows to simulate the achievement of the dark threshold on the solar cell 9, so that the charge controller 13 switches the accumulator 11 on the light source 7 through the resistor 14. There is also the presence of a second normally closed switch 15, in FIG. 2, arranged in series with the resistor 14 and the light source 7. This second switch 15 allows a general cut-off of the power supply of this light source 7. It is possible to implement other forcing systems 12 than a switch, for example a timer, a presence sensor or a twilight sensor.

Figure 3 shows a diagram equivalent to that of Figure 2 with some modifications. The general switch, which is optional, has been removed. The light source 7 consists of two light-emitting diodes connected in parallel. In addition, two forcing systems 12a, 12b are connected in parallel with the solar cell 9. These two forcing systems 12a, 12b are for example chosen from a normally open switch, a timer, a presence sensor and a twilight sensor. We could also put more than two forcing systems in parallel with the solar cell 9, without departing from the scope of the invention. The light source 7 may be different from electroluminescent diodes, for example a halogen lamp, a fluorescent lamp, a black lamp. It will simply be necessary to suitably size the elements of the solar charge controller 8. In FIGS. 6 to 9, it can be seen that the light source 7 can be positioned at different points with respect to the light-emitting structure 2. In FIG. the light source 7 is above the luminescent structure 2. In Fig. 7, the light source 7 is below the luminescent structure 2. In Fig. 8, the light source 7 is disposed on the sides of the light source. 2. In FIG. 9, the light source 7 is in the luminescent structure 2. Other characteristics remain possible without departing from the scope of the invention. The luminescent object 1 may constitute for example a headband, a tile, a decorative object, a painting, a frame, a panel, a sign or a fresco.

The luminescent structure 2 may further comprise a transparent film or a transparent sheet comprising a fluorescent and / or phosphorescent or photoluminescent ink-based printing. For example, this sheet or film will constitute the exposed surface of the material composition of said luminescent structure 2.

Claims (10)

REVENDICATIONS1. A luminescent object (1) which comprises a luminescent structure (2) whose composition is configured to capture and reproduce light energy, a light source (7) arranged to illuminate the luminescent structure, a solar charge controller (8) provided with a solar cell (9), a charge control circuit (10) and an accumulator (11), the charge control circuit being configured to charge the accumulator by means of the solar cell during the day then, above a threshold of darkness determined by the solar cell, for supplying the light source by means of the charged accumulator, characterized in that said object comprises a forcing system (12, 12a, 12b) of the charge control circuit to trigger the supply of the light source in daylight. 2. Luminescent object (1) according to claim 1, wherein the forcing system (12, 12a, 12b) is offset relative to the solar charge controller (8). 3. Luminescent object (1) according to one of claims 1 or 2, wherein the forcing system (12, 12a, 12b) is connected in parallel with the solar cell (9). 4. luminous object (1) according to claim 3, wherein the forcing system (12, 12a, 12b) is selected from a normally open switch, a timer, a presence sensor, a twilight sensor or a combination of between them arranged in parallel with the solar cell. 5. Luminescent object (1) according to one of claims 1 to 4, wherein the light source (7) is positioned above, below or at the periphery of the luminescent structure (2), or in said structure luminescent. 6. Luminescent object (1) according to one of claims 1 to 5, wherein the light source (7) is a black light, a light emitting diode, a fluorescent lamp or a halogen lamp. Luminous object (1) according to one of claims 1 to 6, wherein the solar charge controller (8) comprises a switch (15) normally closed normally configured to completely cut the ignition of the light source (7). . 8. Luminescent object (1) according to one of claims 1 to 7, wherein the phosphor structure (2) consists of a monolayer composition (6) or multilayer (3, 4, 5) based on: - microbeads or splinters of glass; fluorescent, photoluminescent and / or phosphorescent pigments; binder of the silicone or resin type. 9. Luminescent object (1) according to claim 8, wherein the composition further comprises flakes, magnetic chips and / or clear varnish. 10. Luminescent object (1) according to one of claims 1 to 10, which is a strip, a tile, a decorative object, a table, a frame, a panel, a sign or a fresco.