FR2990747A1 - Photophore electronic device for e.g. subdued lightings in aquatic bath-tubs, has electrolumiscent diodes connected together, where device is designed in form of module assembled in different shapes and guiding diffusing photophores - Google Patents

Abstract

The device has a processor (8), a lighting system, a battery (6) and a coupling reel (9), where the device is designed in form of module that is in communication with other modules of same type. The module is assembled in different shapes, and guides light diffusing photophores to form complex shapes. An accelerometer produces luminous effects according to a position of the accelerometer in a space when the accelerometer is shaken. The reel is used as an antenna to communicate with other modules or a battery charger. Electrolumiscent diodes (5) are connected together.

Description

The invention relates to an electronic phosphor device provided with a Radio Frequency communicating system in order to ensure interactivity and to reproduce a light selection for the other luminophores. They are also autonomous charging by induced current and have an accelerometer to trigger the ignition or change the programming of lighting modes.

STATE OF THE PRESENT TECHNIQUE Traditional phosphor devices are non-interactive with each other and do not allow synchronized light and ambience. They often consist of batteries that must be changed regularly, a button mode programming system to reproduce on each phosphor without the possibility of duplicating. The start is often done by a basic switch.

OBJECT OF THE INVENTION The invention (FIG. 1) relates to a phosphor device with led (s) or lamp (s), of monochrome or multi-color type, communicating with each other via a radio frequency link, ensuring interactivity. and to synchronize light effects between them, and especially to reproduce a mode of light configuration (color, flicker, brightness, etc.) to other phosphors by placing only the first programmed for example close to the others. Each phosphor 30 is equipped with an accelerometer sensor for switching on or changing the light effects, depending on whether it is turned over, changed position or shaken vertically, horizontally right or on the side (Figure.4,5 & 6). The other characteristic of this invention is to consist of a battery recharged on its support without contact by induced current via a coil coupled on its support (Figure.8 & 9). The advantage is to be able to manufacture a completely hermetic photophore usable in water.

This luminophore also has the particularity of being a module that allows to assemble to various forms guiding and diffusing the light to form more elaborate phosphors (FIG.10 & 11) BRIEF DESCRIPTION OF THE DRAWINGS Of course, other characteristics and advantages of the invention will appear more clearly on reading the following description of a preferred embodiment given by way of example for limiting and with reference to the accompanying drawings in which: - Figure 1 shows the assembled photophore module . FIG. 2 represents an exploded view according to the invention of the interior of the module with the main electronic elements constituting it: battery, accelerometer, light-emitting diode, coupling coil for charging and inter-module communication, electronic card piloting. - Figure 3 shows the sectional module - Figure 4 explains how to turn on and off the phosphor module by flipping it. - Figure 5 explains how to select a lighting mode (eg choice of color for a multi-color module) just by shaking the module held right on the horizontal plane. - Figure 6 explains how to select another lighting mode (eg flicker choice or cycle to change color) just by shaking the module held sideways on the horizontal plane. - Figure 7 explains how to duplicate a lighting mode has other modules, placing the newly programmed module, which switches to master mode, above the others in slave mode. - Figure 8 is an example of vertical support device for stacked photophores to recharge by coupling. FIG. 9 is an example of a horizontal support device enabling the photophores placed side by side to recharge by coupling. - Figure 10 is an example of additional form that can be assembled to the module. - Figure 11 shows a section of an example of additional form associated with the module. DETAILED DESCRIPTION OF THE INVENTION Referring to FIG. 1, there is shown an assembled phosphor module consisting of a plastic envelope (2) ensuring the sealing and protection of the electronics, of a translucent light guide (1). , and a device ensuring the assembly (3) with more complex phosphor forms, here represented by a thread, but which can also be constituted by another system for example clip, bayonet fastening, etc. FIG. 2 details the electronics constituting it, an electronic card (7) on which there is a processor (8) controlling the assembly, a lighting system consisting of one or more light-emitting diodes (5). , a three-axis accelerometer (4) for detecting the movements of the module, a battery (6), a coupling coil (9) for charging the battery (6) and the antenna function for programming of other modules. The section 3 illustrates the hermetic appearance of the module, the cover (10) provides access to the electronics if necessary to change the battery, it seals the module.

The accelerometer can detect the movements and thus detect a reversal of the module shown in Figure 4 to turn on the module or put in standby mode. Once switched on, shaking for example the module held straight (Figure 5) or side on a horizontal plane (Figure 6) can change the lighting modes, a type of color, flicker, modulation for example. Of course we can imagine also shake the module on a vertical plane to change the lighting modes.

Once programmed, the module switches to master mode for a sufficient time to be able to duplicate the lighting mode to the other modules. The coil (9) becomes during this time a transmitting antenna and a receiver. By placing the master module above or near a slave module as shown schematically in Figure 7 the coupling takes place. To recharge the battery (6) of the module simply couple the coil (9) near another coil through which a current to induce a sufficient current to the load. It is thus possible to imagine loaders of different shapes, vertical for stacking the modules as shown in Figure 8 or horizontal only by placing the modules above as shown in Figure 9. The charger can also be communicating with the outside Radio Frequency or current Carrier via for example a PC, tablet or Smartphone to make the programming of lighting modes more interactive. The module can be used alone to replace, for example, candles in a traditional candle holder, but this module is also intended to be assembled with various shapes guiding and diffusing the light as shown in the example of FIG. flame shape, of course all shapes are conceivable, it can for example have a hermetic spherical shape as Figure 11, 25 can be used in the water (bath, pool, etc.), or figurines for example INDUSTRIAL APPLICATIONS This device The innovative photophore module is intended for interior decoration applications or outdoor ambient lighting. Its original programming mode makes it possible to compose original lighting effects and especially to easily duplicate them to the other modules. Its waterproof design allows for use in aquatic environment bath, pool or outdoor With this modular device can be added extensions of different shapes guiding and diffusing the light module

Claims (5)

CLAIMS1) Electronic photophore device in the form of a module comprising a processor, a lighting system, a battery pack, a coil, the module being able to communicate with other modules of the same type. 2) Device according to claim 1 characterized in that the module can be assembled with various shapes guiding and diffusing the light to form photophores more complex shapes. 3) Device according to claim 1 or 2 characterized in that it has an accelerometer for programming in an original light effects depending on its position in space and how it is shaken. 4) Device according to any one of the preceding claims characterized in that the coil is used to charge the battery by induced current and also serving as an antenna for communicating with other modules or the battery charger. 5) Device according to claim 4 wherein the module comprises radiofrequency communication links to the outside to ensure interactivity with other module or charger, to change the light effects. 25 30 35