FR2987459A1 - Movable/immovable decoration device e.g. glass brick, for decorating wall in e.g. public mediums, has tactile panel connected to source panel to perform pressure interactivity by dynamic range of three-dimensional effect of virtual sphere - Google Patents

Abstract

The device has a modified Fresnel panel (1) placed to face a source panel (2). A tactile panel e.g. capacitive panel, is connected to the source panel to perform pressure interactivity by dynamic range of three-dimensional effect of a virtual sphere (4). The source panel is substituted or associated with a semi-reflective panel and optionally associated with a liquid crystal panel, where opacity of the liquid crystal panel is controlled by electric voltage, and the device responds to architectural constraints e.g. sealing constraints and non trivial mechanical constraints.

Description

FIELD OF THE INVENTION The present invention relates to a furniture or real estate device for wall decoration or for integration into the ground integrating a dynamic optical device whose function is to create a interaction. The invention can be used as architectural element as a real estate element (integration in the ground or in a wall), that is to say as a wall tile, glass brick or floor tile, or as a movable element (slab for attachment to a showcase or a temporary fixing on the ground) It will find an interest in particular in the architecture of the public environments: shops, stands, offices, restaurants etc. STATE OF THE ART There are systems using Fresnel lenses to produce 3-dimensional images. Most of these systems consist of a source (a screen, an OLED panel, a video projection system) and several Fresnel lenses assembled as a double condenser. This method corrects the distortion problems caused by simple positive lenses. These assemblies systematically impose a minimum distance between the sources and the lenses (at least equal to the focal length) so that an undistorted real image is formed. These assemblies do not fall within the scope of the present invention because they impose a specific size not applicable to the areas covered by the invention. In particular the integrations in the ground are standardized for elements whose thickness is 10 mn. The objective of the invention is to fit into this standard to cover a wider field of applications. There are also devices employing microstructured Fresnel lenses to diffuse light. These devices have the function of using the Fresnel lenses as a reflector or diffuser and not for the purpose of obtaining visual effects of an interactive nature. In addition, there is a class of Fresnel slab generating spherical distortions, but the effect produced is not optimal so that it does not fulfill the purpose of the invention, namely to create a spherical accent effect virtual in order to generate interaction 30 at the level of a movable or real estate support integrated in the ground or in a wall. The present invention proposes to remedy these difficulties by producing a decorative device of standard thickness that stimulates interaction by creating a dynamic three-dimensional visual effect. SUMMARY OF THE INVENTION The device according to the invention comprises a modified Fresnel slab on which a multilayer inhomogeneous diffusion beam treatment has been carried out by microroughness effect (scalar model and pseudo periodicity effect study), a slab source, a protective slab, a frame and components for interactivity such as a touch screen. The device has the advantage of being thin which allows easy integration in response to architectural constraints, particularly for an application for tiling or partitioning (glass brick) DETAILED DESCRIPTION OF THE FIELDS OF APPLICATION OF THE INVENTION The present invention is an element of furniture or real estate decoration for integration in the ground or in the walls. Its function is to generate interaction with observers by generating a dynamic three-dimensional optical effect. In its embodiment, the present invention consists of a complex formed of several slabs assembled together. The assembly is carried out so as to meet the final integration constraints within existing installations. The invention will be particularly close to the format of a standard tile whose thickness is defined by industrial and commercial standards. The invention must also meet mechanical constraints when it is installed in the ground to be trampled by passersby. The invention can be characterized according to the following objects: A first object of the present invention is that the means for the production of a virtual sphere are optical and are made from a modified Fresnel lens, A second object of the invention is that the optical tile is a silicone substrate formed on a supporting glass slab. A third object of the present invention is that it comprises a light source or reflective slab. A fourth object of the invention is that it comprises a sheet of material determined by the material of the optical tile and the protective slab and the function of which is to suppress the creation of Newton's rings. A fifth object of the present invention is characterized in that the source slab may be an OLED slab, TOLED (OLED transparent), LED, a mirror, a color slab type PMMA acrylic. A sixth object of the present invention consists in that it comprises sensors characterized by a touch screen or motion sensors integrated in the source slab and operating by exploiting the optical slab as a beam concentrator. the invention consists in that the assembly comprises electromechanical transduction systems by converting vibrations into electrical energy for supplying a source slab. An eighth object of the invention is that the source element is a mirror or a reflective plate and whose function is to simulate the effect of a double condenser. A ninth object of the present invention is that the The slabs are assembled by means of a laser-welded bowl on the periphery with the optical slab to guarantee a perfect seal and a clean visual. The material of the bowl being chosen to weld with the PMMA and to provide good optical qualities of light reflection, - A tenth object of the present invention is that the Fresnel slab receives the application of a thin-film treatment whose function is to modulate the optical scattering, - An eleventh object of the present invention consists in that a sheet of different material is inserted between the protective plate and the optical plate, it may be an example of a PVC sheet, - A douzi The object of the present invention is that a hybrid slab is used which combines a photovoltaic effect (conversion of light into electricity) with a photoemission effect (conversion of electricity into light emission). act of a slab having hybrid organic properties or a multiplexing of 2 slabs (complementary) on a single slab, A thirteenth object of the present invention is that the slab of protection is a "smart" glass whose property is to change the hue according to a physical parameter such as ambient lighting, temperature or an electric field. The protection slab may also be coupled with a liquid crystal slab for example (in the context of the application to a partition) to be opaque or transparent, - A fourteenth object of the present invention is that the device according to the invention is used as a translucent element, for integration into the ground or wall as part of partition or as glass brick. The device lets the light pass on both sides. A fifteenth object of the present invention is that in the case of a translucent application it may further comprise a liquid crystal slab to block or let the light pass under the action of a voltage, A sixteenth object of the present invention is that in the case of a translucent application it may further comprise a mirror without a tain, - A seventh seventh object of the present invention is that in the case of a translucent application it can furthermore comprising a two-way mirror coupled with a liquid crystal slab so that the device according to the invention behaves either as a mirror (slab liquid crystal blocking) or sometimes as a translucent partition element (liquid crystal slab passing ) Referring to the figures, the device according to the invention comprises: - A modified Fresnel slab 1 - A source slab 2, - A protection slab 11 - An armature 12 The incident beams 3 illuminate the slab 2 which reflects the beams 3a and 3b. The latter are refracted by the slab 1 (beams 8a and 8b) of optical axis of revolution 6 so as to form a virtual sphere 4 delimited by a peak diffusion cone 10. The slab 1 is coated with a treatment thin layer 13 whose function is to modify the beam scattering. The microrugosities induced are pseudo-periodic in nature and their role is to increase the diffusion contrast ("Glow" effect) of the cone 10. Notably by conjugation with the periodic structure 10 of the slab. One method of studying diff ision is the scalar method. However, this method is not totally applicable for a projection of silicone on glass (polymerization on glass by molding and mask) The microstructures form prisms organized in concentric circles (Fresnel optics) A typical gap of the circles of prismatic section (Facet spacing) is of the order of 0.5 mm. The slab 1 is placed so that its microstructures 5 are opposed to the observer 7. Only the 15 emerging beams internal to the crown cone 10 are visible to the observer 7. The other beams are diffused in a Gaussian manner (ie indicator of diffusion) by the slab 1 so as to form a whitish color diffusion. According to various embodiments, the source slab 2 will consist of: A source slab 2 which may be a reflection slab of the light (cast PMMA slab), a steel slab, for example EZ steel or stainless steel (or any other metal protected from oxidation) with a coating such as a liquid, epoxy or polyester paint, an information emission slab such as an OLED (Organic Light-Emitting Diode) slab, TOLED (Transparent OLED), a colored slab, a reflective slab such as a mirror, a solar hybrid slab and light emission. The use of a reflecting slab 25 significantly increases the sphere effect 4 since it simulates optically a double condenser. In addition, the function of an OLED display is to display luminous information accentuating the sphere effect. The slab 2 may be connected to other supports of the invention to create an interactivity of varying complexity in connection with the three-dimensional optical phenomenon serving as the main visual interface of attachment. According to a first embodiment, the slab 1 is made of PMMA (polymethacrylate) whose interest is to offer excellent transmission in the visible optical domain. According to a second embodiment, the optical slab 1 is produced by means of a projection of a silicone mask 35 on a tempered glass slab. The glass slab acts as a laying matrix. The advantage of this embodiment is to eliminate the secondary interference effects (iridescence, condensation spots) created by the stress of the materials (under the action of pressure) The trampling of the passer-by has the effect of creating pressure which make the constraints at the interface between the PMMA slab 1 and the protection slab 11 inhomogeneous. 40 A protective slab 11 may consist of a mineral glass slab (more resistant to abrasion than an organic glass) The armature 12 may consist, by way of non-limiting example, of a steel shell (EZ or galvanized steel) or a resin shell whose function is to maintain the elements of the invention integral and tight. In the case of a PMMA or PVC shell, a laser weld (or an ultra-less expensive weld) can be made with the slab 1 in order to achieve a seal. The sealing stress is essential to satisfy an integration in the ground or in walls exposed to splashing water. Indeed, the water spray is not volatile from a contact with the microstructures: there is an alteration of the surface treatment to improve the sphere effect 4. Moreover, the microstructures have the disadvantage to capture more easily condensation phenomena and dust (peak effect) In the case of a glass slab 11 on which is projected a silicone structure (Fresnel type 1) sealing is provided by a glue wire UV or bicomponent glue at the metal junction (of the frame 12) and the glass 11. The disadvantage of this method is its reliability is less good. In addition, the use of the combined glass slab of a silicone substrate makes it possible to eliminate the effects of remanence of Newton rings (which can be maintained over time in the context of the invention) is also an important condition because the integration of the process as a movable or real estate element imposes a resistance in time to the phenomena of condensation. These constraints impose a precise assembly mode described by the present invention. The device according to the invention may furthermore comprise the following elements: a touch screen, for example a projected capacitive slab, an electromechanical vibration transducer for feeding, for example, an OLED-type slab, a mirror, a liquid crystal slab, - A translucent source slab - A semi reflective source slab - A source slab of the OLED or TOLED type 30 - A photovoltaic hybrid source slab coupled with a property of light emission by action of an electric field According to a particular embodiment, the invention comprises a source slab 2 connected to a touch screen (or incorporating a touch screen if it is a hybrid system) The role of the touch screen is to coordinate the pressure of the user (trampling) by sending information on the source slab 2. The touchscreen serves as 35 relays in the interaction between the passer and the virtual sphere 4 when the passerby exerts pressure The invention may according to a particular embodiment be applied to produce a translucent wall element. This partition element may consist of a glass block comprising the following elements (FIG. 4): two set previously described but facing each other and constituting a translucent whole (visibility of each face by the viewers 7 and passage of the light through In this assembly, the optical slabs 1a and 1b are assembled with the turns (microstructured faces) facing each other, 2 glasses 11a and 1b are integral with the optical slabs on both sides. Optical slabs 1a and 1b sandwich in several variants: - A transparent source slab - An OLED, TOEL or hybrid source slab - A previously described source slab associated with a liquid crystal slab controlled by a voltage to modulate the opacity of the assembly, a semi-reflective slab (of mirror-like type) associated with the liquid crystal slab enables switching from the mirror state to the t-state ransparent by means of the liquid crystal slab.

Claims (10)

REVENDICATIONS1. Tile, glass and slab type device CLAIMS1. Tile, glass brick and slab type device for decoration and communication of furniture or real estate type for a wall or floor integration, characterized in that it makes it possible to create the dynamic visual effect of a virtual sphere to create a interaction with users comprising: A modified Fresnel slab 1 on which a multilayered beam distribution treatment 13 has been carried out by inhomogeneous diffusion of the beams by the effect of microroughness, the slab 1 can be made according to different materials such as, for example, polymethacrylate for the layer treatment thin or silicone for an embodiment on a glass matrix; A source slab 2 that could be a slab of reflection of the light, a slab of emission of information such as an OLED (Organic Light-Emitting Diode) slab, TOLED (Transparent OLED), a slab of color, a reflecting slab such as a mirror, a hybrid slab that combines a photovoltaic effect with a light emission capacity A protective slab 11, a frame 12 A touch screen, for example a projected capacitive slab An electromechanical transducer of vibrations to feed for example a slab of OLED type An LCD slab for closing the light under the action of an electric field A semi-reflective mirror one-way mirror slab A modified Fresnel slab 1 is placed facing the source slab 2, the turns opposite to the 7, the slab 1 is designed to produce by exploiting the phenomenon of refraction limits a cone of vision 10 producing the visual effect of a virtual sphere 4, a coating in mid-layer inhomogeneous scattering of light is deposited on the microstructured face 5 of the modified Fresnel slab 1 to accentuate the visual effect of virtual sphere 4, To avoid the production of newton rings during the pressure of slab 11 to the interface with the slab 1, a sheet or a transparent slab of material different from the protection slab 11 and the slab 1 is inserted at the interface, or a small gap is kept between the 2 materials, the system can- be associated with an OLED light emitting slab to deliver light signals as well as a touch screen connected to the source slab 2, for example a capacitive slab projected to achieve interactivity by pressure by the dynamics of the three-dimensional effect of the sphere 4, the assembly may be sealed by means of an armature 12, 16 stiffening the slab complex 4 supplemented with the slab 11 and the source plate 2; as part of a design for producing a translucent partition element (glass brick), the device according to the invention comprises a transparent or translucent source slab 2, which may be substituted or associated with a semi-reflecting slab 15 , optionally associated with a liquid crystal panel 14 whose opacity is controlled by an electrical voltage, the device according to the invention has the advantage of being thin and thus to meet the architectural constraints including constraints of sealing and non-trivial mechanical stresses. 2. Device according to claim 1 characterized in that the source slab 2 is of reflective nature, and is characterized for example by a reflecting mirror or will be reflective or a plate provided with a mirror-polished coating, the objective of this source slab then being to accentuate the virtual sphere effect 4. 3. Device according to claim 1 characterized in that the source slab 2 is an electroluminescent slab for the production of light characterized by an OLED type slab, TOEL or a hybrid slab. 4. Device according to claim 1 characterized in that it comprises a modified Fresnel 15 slab associated with a source slab 2, a sheet of different material interposed between the source slab 2 and the modified slabs 1 to eliminate the Newton rings effect during mechanical stresses applied to the slab 1, the sheet of different material may for example be PVC. 5. Device according to claim 1 characterized in that it comprises a source slab 2, a modified Fresnel slab 1, a touch screen, for example a projected capacitive slab connected to the source slab 2 in order to achieve an interaction initially aroused by the three-dimensional effect of sphere 4. 25 6. Device according to claim 1 characterized in that the source slab 2 is a hybrid slab comprising a photovoltaic cell array combined or identified with a network of light emitting cells in order to produce an interactive element for a floor installation or on the wall and whose interactivity is stimulated by a three-dimensional effect 4. 7. Device according to claim 1 characterized in that the slab 1 is a silicone material coating integral with the protective slab 11, for example a tempered glass slab 35 to eliminate the problem of rings Newton. 8. Device according to claim 1 characterized in that the system comprises two Fresnel slabs 1 arranged in opposition and lb the turns facing each other, sandwiching a translucent source slab 2, the assembly being taken in a frame 16 to make a glass brick or a translucent wall element. 9. Device according to claim 1 characterized in that the system comprises two Fresnel slabs 1 arranged one on the other to accentuate the sphere effect 4 and create a double envelope effect, the microstructured faces 5 being oriented in the same way. 10. Device according to claim 1 characterized in that the system comprises two Fresnel slabs 1 disposed in opposition la and lb the turns facing each other, sandwiching a source slab 2 translucent, the assembly being taken in a frame 16 to achieve a glass block or a translucent wall element and comprising in its center a liquid crystal panel whose opacity is controlled by an electrical voltage, the liquid crystal panel is associated with a semi-reflective slab.