FR3019269A1 - LAMINATED LAMINAIRE COATING BLADE, LIGHT DEVICE AND USE THEREOF. - Google Patents

Abstract

The invention relates to a lamellar coating lamellae (1) comprising a matrix (4) adapted to receive a sheath (6) equipped with a light strip (8). This light strip (3) thus allows the integration within the coating of a light sheath whose dimensions are not imposed by those of the blades of the targeted coating. The invention also relates to a light device implementing one or more light strips (3) electrically connected and controllable via a controller (11).

Description

Luminous lamellar coating blade, luminous device and corresponding use. FIELD OF THE DISCLOSURE The field of the invention is that of lighting systems intended in particular to be integrated within floor and / or wall coverings, in particular lamellar flooring type coatings. More specifically, the invention relates to a lamellar coating light blade comprising a matrix adapted to receive a sheath equipped with a light strip. This light strip thus allows the integration within the coating of a light sheath whose dimensions are not imposed by the structure of the targeted coating. The invention also relates to a light device implementing one or more light strips electrically connected and controllable by a controller.

The invention also relates to a lamellar coating comprising on a given surface a minimum number of light strips. The invention finally relates to the use of these light strips for lighting and / or for the display of visual signs and / or for aesthetic purposes. 2. Solutions of the Prior Art Since time immemorial, humans have sought to provide their environment with light conditions to satisfy their activity or enjoyment. In 1927, Oleg Vladimirovich Losey filed in the Soviet Union the first application for an inventor's certificate of what will be called, much later, a light-emitting diode (LED). See the SU12191 inventor's certificate. However, it was not until the 1990s, as a result of research conducted by Shuji Nakamura and Takashi Mukai in InGaN semiconductor technology, that LED technologies were developing, particularly in the field of lighting. .

It is in this perspective in particular that appear the first light devices using LEDs. In particular, LEDs are developed for use in floor coverings. Thus, it is known, for example, Plexiglas light strips for terrace can be embedded between composite wood blades by replacing one of them. The main disadvantage associated with this device lies in the obligation for the user and a fortiori, for the manufacturer of light strips, to adapt the dimensions and structure of a plexiglass strip to the space occupied by the blade of wood to which it replaces or the space that may be available at one end of the terrace. Each light strip is, therefore, specifically designed for a given type of flooring. This custom manufacturing is inflexible, expensive and unsuited to the variety of existing flooring. This constraint is at the source of many technical problems related to the machining of Plexiglas strips, the integration of the latter in the terrace or the replacement of the potentially defective LED strips. In addition, these structural constraints greatly limit the possibilities that can be offered to the user from an aesthetic point of view. 3. Objectives of the invention The object of the invention is to overcome these drawbacks of the prior art.

More specifically, the invention aims to provide a light strip comprising a sheath, equipped with a light strip, which can be easily manufactured, set up and replaced while offering the user a satisfactory aesthetic freedom. The invention also aims to provide, in at least one embodiment, a robust light strip and a corresponding light device which have good durability. The invention also aims to provide, in at least one embodiment, a light strip and a corresponding light device whose light bands can easily be mounted and dismounted.

The invention also aims to provide, in at least one embodiment, a light strip and a corresponding light device that can be used securely in a potentially wet environment. The invention also aims to provide, in at least one embodiment, a light device comprising control means light strips made easily accessible to the user. The invention also aims to provide, in at least one embodiment, a light device for the simultaneous control of a multitude of light plates.

The invention also aims to provide, in at least one embodiment, a light device comprising light strips that adapt to their sound environment. The invention also aims to provide, in at least one embodiment, a light device for the simultaneous implementation of different light effects. The invention also aims to provide, in at least one embodiment, a light device whose control means are provided with high mobility. 4. ESSENTIAL CHARACTERISTICS OF THE INVENTION These objectives, as well as others which will appear later, are achieved by the provision of a lamellar coating lamellae comprising: a matrix, at least partially transparent sheath comprising at least a groove, - At least one light strip adapted to be inserted in this groove, characterized in that this matrix comprises an embossment adapted to be closed by the sheath. The term "blade" as used in the present invention refers to a thin, flat strip. Said blade comprises two planar faces, commonly referred to as upper and lower faces, and at least one lateral face forming an edge connecting said planar faces. Said blade is preferably of elongate shape, in which case said blade comprises two flat faces and four lateral faces. Said blade is made of a hard material such as wood, metal, plastic, a composite material or any other material that can be used for a floor covering.

Said blade may be monobloc (also called solid parquet) or laminated (comprising at least two layers of identical or different materials). Said blade may potentially comprise on its lateral faces fixing means allowing it to be secured to adjacent blades, preferably of similar or identical size.

The term "lamellar coating" means a structure resulting from the assembly of blades, the flat surfaces of which are covered with a construction for the purpose of consolidation, protection or ornamentation. It should be noted that the terms "system / assembly / luminous kit for lamellar coating" and "lamellar lamellar lamina" are interchangeable.

The term "light band" denotes a band whose primary function is to emit light, selected from a non-limiting group comprising LED strips and optical fibers. Preferentially and as described in the following description, this light band is in the form of an LED strip. This LED strip designates a band on which are assembled a variable number of LED bulbs. There are many types: flexible or rigid, monochrome or multicolored (RGB), waterproof or not waterproof. LED strips have the advantage of being easy to install and adapt to many media. According to other embodiments, these light strips may be in the form of optical fibers, or any other equivalent means of illumination. The term "sheath" as used in the present invention means an element composed of at least partly transparent material, which may preferentially be plexiglass. This sheath has the function of ensuring the protection of the light strip housed in its groove while regulating the diffusion of the light emitted by this light strip. The expression "at least partly transparent" designates the ability of the sheath to pass light emitted by the light strip, according to a certain degree of opacity and orientation. According to particular embodiments, the sheath may comprise several grooves in which light strips are respectively inserted. The term "matrix" as used in the present invention refers to a structural element whose main function is to ensure the integration of the sheath within the lamellar coating. Thus, this matrix comprises on its periphery fastening means allowing it to be secured to the adjacent lamellar coating blades, while also comprising an embrasure in which the sheath can be positioned. Preferably, the length, the width and the thickness of the matrix have the same dimensions as a standard blade. The term "embrasure" means an opening made in the thickness of the matrix and allowing the sheath to be placed therein. This embrasure preferentially passes through the matrix from one side to the other, in the direction of the thickness. According to certain particular embodiments, this matrix may result from the machining of an undifferentiated blade of the coating in order to provide an embrasure therein according to determined dimensions. The matrix then has the same composition as the rest of the coating. According to other embodiments, the matrix can be directly machined to the desired dimensions in a material having advantageous technical and / or aesthetic properties. The main advantage of this invention is to allow integration within a lamellar coating, including a pre-existing lamellar coating, a sheath whose dimensions are not imposed by the structure of the lamellar coating. In contrast with the practices of the prior art, according to which the dimensions of the sheath are determined and imposed by the space provided in the coating for this purpose, this invention introduces an intermediate element, namely the matrix, which adapts to the dimensions of the sheath while allowing its integration into the coating. In other words, the manufacturer is free to choose the conformation and the dimensions of the sheath to be integrated in the coating, provided that this sheath is contained in the periphery defined by the light strip. By way of examples, the manufacturer can opt for a conformation of sheath of rectangular, circular or star type. These different conformations are, however, quoted only as an indication and do not in themselves constitute any form of limitation. The manufacturer thus has the freedom to adopt more or less complex geometric shapes, during the manufacture of ducts, in order to be able to meet the specific request of a customer, from a technical and / or aesthetic point of view. In the same perspective, the manufacturer can choose a standardized conformation, making it easier to manufacture the sleeve, its installation in the matrix, and / or its possible replacement.

According to a particular characteristic, the sheath is fixed in the recess. Such a fixation may be irreversible or removable. In the context of an irreversible fixation, the sheath can be secured to the matrix by means of an irreversible plastic deformation linked to a force embedding, by the addition of an acrylic seal on the periphery of the sheath or by any other irreversible fastening means known to those skilled in the art. The entire light strip is therefore reinforced, the joining of the various components of the blade between them giving greater strength to the latter, while limiting the risks associated with accidental or malicious disassembly of the sheath. In the context of a removable attachment, the sheath can be secured to the matrix by means of a reversible plastic deformation, a latching system, a screwing system, a studding system, a stapling system, or by any removable fastening means known to those skilled in the art. In comparison with the irreversible fixing means, the removable fixing means have the advantage of reinforcing the modular character of the light strip, in particular by allowing the replacement of a defective sheath or light strip without damaging the die or sheath. The durability of the entire light strip is therefore improved. The repair of the light strip is, where appropriate, possible and facilitated.

According to a particular characteristic, the light strip comprises at least one connection plug adapted to be fastened to at least one end of the light strip. The term "connector plug" as used in the present invention refers to an electrical component removably attached to one end of a light strip and for connecting it to the rest of the electrical network. Thus, for example, a connection plug can connect two light strips together or a light strip to a conducting wire. In a preferred manner, the connection plugs have two distinct shapes: a "U" shape and an "L" shape. The advantages conferred by this technical effect are to allow easy assembly and disassembly of the light strips from the rest of the electrical network. According to a particular characteristic, the light strip is impermeable. This technical feature allows secure use of the light strip in a potentially wet environment such as outdoors, in a bathroom or pool. The invention also relates to a luminous device comprising at least one lamellar coating light plate comprising a matrix, a sheath comprising at least one groove, and at least one luminous strip capable of being inserted into said groove, characterized in that it comprises at least one controller, at least one transformer and respective connection means of said light band to said controller and said controller to said transformer. A light strip such as that used in this device corresponds to the first object claimed by the invention. This luminous device thus shares the technical effects related to the use of this luminous plate, technical effects to which are added the technical advantages related to the introduction of the controller and the transformer. The term "controller" means a means of controlling the different photometric characteristics of the light strip or blades to which it is connected. For example, such a controller can be used to regulate the power supply of a blade, to vary its light intensity, to change the color, to introduce a flickering effect. It has the particular advantage of making the control means of the light strips more accessible to the user, while relocating these geographically. The term "transformer" designates a means for regulating the electrical voltage of the current flowing in the device. This transformer is connected as input to a source of electrical energy and outputs the controller with electrical power. Finally, thanks to the low energy consumption of the transformer and the light strips, buildings under construction can adapt this system for the name * EFFinergy, which refers to buildings with very low energy requirements. According to one particular characteristic, the luminous device comprises at least two light plates mounted in series with the controller. The term "series-up" as used in the invention denotes a circuit diagram in which the active or passive elements of an electric circuit are mounted one after the other and are traversed by a current of the same intensity. This technical characteristic offers many advantages. Firstly, it makes it possible to adapt the number of light bands to the needs and expectations of the user. These needs can result from considerations in terms of lighting, or aesthetic order. It also allows the simultaneous control of a multitude of light strips by simple action on a single controller. The controller thus centralizes all blade control functions, allows them to work together, and makes the entire light device easier to use. According to a particular characteristic, the controller comprises at least one acoustic sensor. This technical feature allows the controller to adapt to its sound environment. Such a controller can thus act on the light strips to which it is connected according to the music broadcast or the geographical location of a person in his field of detection. According to a particular characteristic, the luminous device comprises at least two controllers. This technical characteristic allows the creation of a network comprising several groups of light strips independent of each other because they are affiliated with different controllers. In addition to the obvious aesthetic advantages related to this technical characteristic, it allows the simultaneous implementation of different light effects. According to a particular characteristic, the luminous device comprises means for remote control of at least one controller. This remote control means may be in the form of an infrared remote control, allowing the control of one or more controllers. In the same vein, a controller can also be equipped with Wifi® or Bluetooth® technology, allowing a user to control this controller from their phone. This characteristic has the advantage of allowing a great mobility of the control means of the light blades of the device. The invention also relates to a method of laying a lamellar coating, preferably parquet type, and installation of the light device in a substantially rectangular room, which comprises the following steps: - Preferably, the recovery of the surface to to coat with a plastic underlayer, - The end-to-end laying of a certain number of standard blades, - The installation of a first luminous blade after connection of one end of a luminous strip to a conducting wire, by means of a connection plug, - The end-to-end laying of a certain number of additional standard blades, by letting the conductive wire run between the lamellar coating and the surface to be coated or, preferably, the -layer, - Preferably, the laying of a second light strip according to a substantially identical procedure to that governing the laying of the first light strip, - The reiterated the previous steps until total recovery of the surface to be coated, - The connection of the last conductor wire, current between the surface to be coated and the lamellar coating, to a light strip controller, preferably being itself connected to a suitable transformer, supplied with electric current. The invention also relates to a method for replacing a defective sheath of a lamellar coating, preferably parquet type, which comprises the following steps: - Disassembly of the sheath of the matrix, - Disconnection of the light strips from the rest of the luminous device, - Replacement of defective light strips, - Reconnection of the light strips to the rest of the luminous device, - Installation of the sheath in the matrix. 5. List of Figures Other features and advantages of the invention will appear more clearly on reading the following description of a preferred embodiment, given as a simple illustrative and non-limiting example, and the accompanying drawings, in which: Figure 1 is a schematic top view of an embodiment of the invention, Figure 2 is a schematic perspective view of a light strip according to an embodiment of the invention, and Figure 3 is a diagrammatic representation of the invention. A luminous device according to an embodiment of the invention, Figure 4 - Schematic top view of light strips and plugs according to one embodiment of the invention. 6. DESCRIPTION OF AN EMBODIMENT OF THE INVENTION In the figures, the scales and proportions are not strictly adhered to for purposes of illustration and clarity. According to a first embodiment and as illustrated in FIG. 1, the targeted lamellar coating is a wooden floor 1. This wooden floor 1 can be solid, laminated or laminated, for laying nailed in the first case and floating in the other two. The invention is achievable regardless of the type of parquet selected. This floor is made of wood strips 2 of the same size, placed on a plastic underlayer covering the floor and arranged between them in a regular pattern. Each of these blades comprises two flat faces and four lateral faces. In order to make the understanding of the invention easier, the description of the invention is largely based on this particular embodiment. However, this choice must in no way be considered as a limitation on the scope claimed for the invention. Thus, all the technical effects explained in this invention can at any time be transposed to the case of a coating of different nature and conformation, hence an interpretation of the technical characteristics claimed for this invention according to their most general meaning. Thus and by way of example, the object of the invention also includes plastic coatings, such as skirting boards, covering part or all of the wall surfaces.

In the remainder of the present description, we describe the various steps leading to the implementation of the light device in the case where the lamellar coating is a wooden floor. As a first step, a parquet supplier is given an order for the delivery and laying of a parquet 1 comprising standard blades 2 as well as light strips 3. As represented by FIG. 2, each light strip 3 comprises a matrix 4 whose length, width and thickness have the same dimensions as a standard blade 2. This matrix 4 comprises in its center an embrasure 5 of rectangular shape along the length of the light strip 3 and defined by its width, length and thickness. This embrasure 5 through the die 4 from one side to the other, in the direction of the thickness of the latter. Each light strip 3 comprises a sheath 6 made of plexiglass which comprises two opposite flat faces and four lateral faces. The length, width and thickness of the sheath 6 substantially correspond to those of the embrasure 5. Thus, the sheath 6 can be inserted into the recess 5 to close off the latter. The sheath 6 comprises on one of its lateral faces defined according to the width of the sheath 6 a protrusion 6a forming a projection. When the sheath 6 is inserted by the user into the embrasure 5, this protuberance 6a fits into a cavity 4a of complementary shape formed in the corresponding lateral face of the embrasure 5. The sheath 6 is then embedded in the matrix 4. According to other embodiments, the sheath 6 does not comprise protuberance 6a and is simply inserted into the embrasure 5. A stable fixation may then be made between the matrix 4 and the sheath 6 by affixing an acrylic seal. According to other embodiments, the sheath 6 has a substantially wider periphery than the perimeter of the embrasure 5. The sheath 6 is then embedded in force in the recess 5, by plastic deformation of the material. In order to obtain such an arrangement of the sheath 6 in the die 4, the manufacturer proceeds during the manufacturing step to the machining of the die 4. To do this, the manufacturer begins by raising the dimensions of the periphery of the die. the sheath 6 desired. These dimensions are then reported on the upper face of the standard blade 2 of parquet, using a truscan. The standard blade 2 listed is subsequently placed in a guide to be machined. During the machining step, the manufacturer realizes the embrasure 5 by sawing the die 4 according to the dimensions, using a table saw. The sheath 6 also comprises on its underside two grooves 7 parallel to one another and extending in the length of this sheath 6. This sheath 6 is produced according to a machining process similar to that for machining the die. 4. As shown in FIGS. 3 and 4, each groove serves as a housing for an LED strip 8. This strip 8 has the characteristics of being flexible, multicolored (RGB) and waterproof. It comprises at each of its ends a female connection element 8a having cells. Connection plugs 9 are removably attached to the ends of each LED strip 8. These connection plugs 9 consist of an insulating plastic coating, inside which a conductive wire passes, and which comprises at least one of its ends a male connection element 9a comprising brass rods or pins which penetrate into the cells of the female connection element 8a of the LED strip 8. A clasp located at the male connection element 9a allows when the brass rods of the male connection element 9a sink into the cells of the female connection member 8a, to strengthen by a removable clip system attachment. The connection plugs 9 have two distinct forms: the "U" shape and the "L" shape. In the first case, the connection plug 9 has a U-shaped conformation and comprises at each of its ends a male connection element 9a. The connection plugs 9 in "U" are thus particularly suitable for connecting together two LED strips 8 embedded in the same sheath 6. In the second case, the connection plug 9 has an "L" shaped conformation, in angle right, and comprises at one of its ends a male connection element 9a and at the opposite end an electric cable 10. The connection plugs 9 in "L" are thus particularly suitable for connecting together two LED strips 8 belonging to different sheaths, and / or to connect an LED strip 8 to another electronic component. It should be noted that the connection plugs 9 and the electrical cables 10 are placed between the underlayer and the parquet 1. In order to make them waterproof and to better protect them, the electric cables 10 are molded with hot glue. The process of laying the wooden floor 1 and installation of the light device in a substantially rectangular room is articulated in a succession of steps: - The floorer covers the floor with a plastic underlay, - After choosing one corner of the room, the floorer starts laying standard 2 blades starting from the chosen corner and laying the standard blades 2 end to end, in a direction parallel to the width of the room, and moving towards the opposite wall . Once the first row of blades laid, the floorer shifts in a direction parallel to the length of the room and begins the laying of a second row of standard blades 2, brought into contact by their lateral parts with the lateral parts of the room. first row of standard blades, - The floorer repeats the operation until the laying of the first light strip 3. At this stage, the floorer captures a light strip comprising a matrix 4 and a sheath 6 embedded in the die 4 and in the grooves of which are housed two LED strips 8. The floorer then connects these two LED strips with a connection plug 9 shaped "U". The floorer then connects an opposite end of one of the two LED strips 8 to a lead wire 10, using a connection plug 9 in the shape of "L". The floorer can then proceed to the laying of the luminous blade in question, then to the continuous laying of standard blades 2, letting the conductive wire 9 run between the parquet 1 and the underlayer, - At the stage of laying the second light strip 3, the floorer captures a light strip comprising a die 4 and a sheath 6 embedded in the die 4 and in the grooves of which are housed two LED strips 8. It connects these two LED strips using of a connection plug 9 in the shape of a "U". The floorer then connects a first opposite end of one of the two LED strips 8 to the conductor wire 10 which is already running under the floor 1, using a connection plug 9 in the shape of "L". The LED strips 8 of the first light strip 3 are then connected via this cable to the LED strips 8 of the second light strip 3. The floorer then connects the unconnected end of the two LED strips 8 to a second conductive wire 10, using a connection plug 9 in the shape of "L". The floorer can proceed with the laying of the second light strip, then the continuous laying of standard blades 2, by running the second conductive wire 9 between the floor 1 and the underlayer, - By reiteration of the step preceding for the installation of the following light strips 3, the floorer can proceed to the laying of the entire floor 1, taking care to always let a conductive wire run between the floor 1 and the underlayment, - Once the 1 parquet floor, the floorer captures the last conductor wire 10 running between the floor 1 and the underlayment and connects the latter on a controller 11 LED strip, - The floorer then connects the controller 11 to a transformer 12, to the With the aid of a conducting wire 13. Preferably, this transformer is of the CL6-150-12 type and is characterized by an input voltage of 265V and an output voltage of 12V. The parqueter then connects the transformer 12 to a transformer. taken The light device is then supplied with electric current. The process of laying the floor is finished. According to some embodiments, the light device comprises a multitude of controllers respectively connected to groups of light strips 3 connected in series. The flooring installation process differs from that described above in that the floorer performs parallel laying of several groups of light strips, allowing each of them to run a connected wire 10 at the end of the process. pose to their respective controller 11. In the event of an LED strip 8 and / or a sheath 6 made defective during the cycle of use of the light device, the latter can easily be replaced. The process of disassembly and reassembly of an LED strip 8 comprises the following steps: Disassembly of the sheath 6 of the matrix 4, by using a device for extracting this sheath 6 without damaging the lateral parts of the embrasure 5, - Disconnection of the female connection elements 8a from the LED strips 8 of the connection plugs 9, - Extraction of the defective LED strips 8 from the sleeve 6 and reintroduction of LED strips in working order instead, - Fastening to the female ends connection 8a LED strips 8 of the appropriate connection plugs 9, - Embedding of the sheath 6 in the matrix 4.

During the use phase of the light device, the user controls the controller or controllers simultaneously using a touch-screen mobile phone. The information is transmitted from the phone to the controllers via a Wifi system. An application installed on the phone allows the user to control the start and stop of the light device. It also allows control of brightness variations of LED strips 8, color changes and / or flicker effects. Different lighting modes and lighting effects can also be stored in the phone and / or in the controller 11 for future use.

According to particular embodiments, the parquet 1 is a lamellar coating which comprises, for any surface of eleven blades in width over five blades in length, a minimum quantity of two light strips 3. This arrangement of the light strips 3 within the covered by the floor 1 provides satisfactory lighting conditions while optimizing the ratio between the number of standard blades 2 and the number of light strips 3. A light device according to the invention can be used for: - the lighting of residential areas and confined spaces in a process of reducing energy consumption, - lighting in an aesthetic approach of introducing soft lights or visual effects possibly generated according to the music broadcast or the geographical location of a person in the field of detection of the controller 11, - the lighting with preventive value in a process of signaling the user of the location of a potential hazard, - displaying visual signs such as letters, geometrical figures and / or drawings.

Claims (1)

REVENDICATIONS1. Luminous blade (3) of lamellar coating (1) comprising: - A matrix (4), - A sheath (6) at least partially transparent comprising at least one groove (7), - At least one light strip (8) fit to be inserted into said groove (7), characterized in that said matrix (4) comprises an embrasure (5) adapted to be closed by said sheath (6). Light blade (3) according to claim 1 characterized in that said sheath (6) is fixed in said recess (5). Light blade (3) according to one of the preceding claims characterized in that it comprises at least one connection plug (9) adapted to be attached to at least one end of said light strip (8). Light blade (3) according to one of the preceding claims characterized in that said light strip (8) is impermeable. Light device comprising at least one lamellar coating light-plate (3) comprising a matrix (4), a sheath (6) comprising at least one groove (7), and at least one light strip (8) capable of being inserted in said groove (7), characterized in that said matrix (4) comprises an embrasure (5) capable of being closed by said sheath (6), and in that it comprises at least one controller (11), at at least one transformer (12) and respective connection means of said light strip (8) to said controller (11) and said controller (11) to said transformer (12). Light device according to claim 5 characterized in that it comprises at least two light plates (3) connected in series with said controller (11). Light device according to one of claims 5 to 6 characterized in that said controller (11) comprises at least one acoustic sensor.2. 3. 4. 5. 25 6. 7. 308. Lighting device according to one of claims 5 to 7 characterized in that it comprises at least two controllers (11). 9. Light device according to one of claims 5 to 8 characterized in that it comprises a remote control means of at least one controller (11). 10. Lamellar coating (1) comprising x blades arranged continuously along their width and y blades arranged continuously along their length, characterized in that a surface defined by a torque (x; y) equal to (11; minus two light strips (3) according to one of claims 1 to 4. 11. Use of a light device according to any one of claims 5 to 9 for lighting and / or for the display of visual signs and / or for aesthetic purposes.15