CZ201745A3 - A light panel - Google Patents

Abstract

The present invention relates to a light panel comprising at least one top plate (19) under which load-bearing structural members (20) of polymer and / or modified polymer are laid in the form of a thermoplastic elastomer or vulcanizate having a hardness of 30 to 90 ShA. Between the structural members (20), LED diodes (21) are provided, which are equipped with a light control and a choice of color.

Description

Light panel

Field of technology

The solution concerns a light panel that has unique functional properties and is resistant to pressure or impact, as it uses a structural element according to CZ PV 2016-42.

Prior art

With the advancing technical development in lighting elements and technology, a significant expansion of their use can be observed for several decades, which is far from fulfilling its basic function - ie increasing the luminosity (increasing lux) value of dark environments (outdoor environments during the night and / or dark environment within the interior rooms), but finds its use in advertising, design, navigation and security elements, entertainment industry, etc. Especially with the advent of LED technology - whose main advantage lies in a very favorable size of the light source (small in size), but also has high performance and intense lighting effect, all with relatively low power consumption and long life of light sources - there has been an increase in demand and use of lighting elements as a design accessory in the form of so-called mood lighting (sometimes called "atmo-light"), which is characterized in particular by the possibility of regulating the light intensity of the light source is a color hue option, including other associated features - such as optional software that regulates to color tones depending on the current acoustic situation in the room, and LED strips, for example, respond to the currently playing rhythm and style of music. With the advent of LED technology, the possibilities of using light sources have certainly expanded, whether in the form of LED lamps, lamps, chandeliers, LED strips, or navigation and signaling devices.

In any case, these are always just new lighting functions, where LEDs have only replaced previous less efficient lighting machines, such as light bulbs, fluorescent lamps, halogen, etc. However, all these light media have one common denominator, namely low mechanical resistance. because they are breakable and fragile. The typical construction of the current LED light panel consists mainly of a base plate and a supporting frame (metal, plastic), under which (possibly directly into it around the perimeter) are placed LED light diodes, the intermediate layer is often different types of diffusion foils and / or color filters. , the final visible layer consists of a light-transmitting (translucent) composite or glass plate with a relatively small thickness (2 to 5 mm) and dimensions around a maximum of 600 x 600 mm, typical materials for this application are the following polymers: so-called "plexiglass" or polymethyl acrylate (PMMA), styrene-acrylonitrile copolymer (SAN) or polycarbonate (PC).

It follows from the above that the action of mechanical force in the form of impact or constant pressure will break the top cover of the light panel and subsequently mechanically damage the structure itself and irreversibly destroy the light medium, which is certainly limiting in terms of practical use and undesirable.

The essence of the invention

These disadvantages are eliminated by the light panel according to the invention, the essence of which consists in that it consists of at least 1 top transparent or translucent plate, under which load-bearing structural components made of transparent, translucent or colored polymer (incl. Black) and / or modified polymer in the form of a thermoplastic elastomer or vulcanizate with a hardness of 30 to 90 ° ShA, light sources being arranged below, in and / or between the supporting structural elements, which are equipped with light control and / or color selection.

The light panel according to the invention is characterized in that it is connected to a base plate consisting of at least 1 separate plate or a solid surface to which the light panel is directly attached, the base plate being provided with a reflective light-reflecting layer (e.g. silver).

The light panel according to the invention is characterized in that the light source is formed by LED diode strips.

The light panel according to the invention is further characterized in that the top plate is made of a composite / polymeric material based on polyethylene (PE), polypropylene (PP), polymethyl acrylate (PMMA), styrene-acrylonitrile copolymer (SAN), polycarbonate (PC), polyvinyl chloride (PVC) and transparent silicone, their thickness being from 5 mm to 20 mm depending on the chosen use of the light panel.

The light panel according to the invention is further characterized in that it is provided with a plurality of plates which are translucent and / or transparent and / or colored with a treated surface (incl. Black).

The light panel according to the invention is further characterized in that its top plate (s) are provided with a diffusion or other protective foil which is glued on the top plate to its lower and / or upper top panel, can be further interspersed with foil and the surface of at least the uppermost plate. it is provided with a top foil.

The light panel according to the invention is also characterized in that the base plate is made of a composite material based on polyvinyl chloride (PVC), polyethylene (PE), polypropylene (PP), polycarbonate (PC) or OSB boards with a thickness of 6 to 10 mm.

The light panel according to the invention is also characterized in that LED strips are arranged at regular intervals under, in and / or between the structural support elements, the spacing of the LED strips being from 20 to 80 mm depending on the height of the light panel.

The light panel according to the invention shows a high resistance in terms of mechanical damage by impact or impact or constant pressure or load, especially due to the unique flexible and at the same time self-supporting construction, which absorbs and absorbs shocks. The essence of the invention lies in a specific design solution, which includes a structural building element according to the application CZ PV 2016-42, showing self-supporting, stability and at the same time ensures functional and effective damping and / or shock absorption. Furthermore, the light panel according to the invention is characterized by its specific composition (choice of individual components), which ultimately allows high variability and universal use in a number of areas. The light panel according to the invention thus enables a functional and effective combination of protective, decorative, lighting, navigation, damping, anti-slip, signal, orientation and design functions with the option of optional appearance within the installed floor or wall surface, which certainly significantly expands its application possibilities in practice.

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The light panel according to the invention can be folded differently for different uses. If the base substrate is uneven or unsuitable, base plates are used (composite - eg PVC, PE, PP, PC or OSB plate with a thickness of 6 to 10 mm), load-bearing building structural elements in the form of polymer with hardness are placed on this plate. in the range of 30 to 90 'ShA (the hardness of the selected polymer depends on the expected force and type of load - random or cyclic shocks, constant pressure ... etc., it also plays a role whether the panel will be installed horizontally or vertically) and / or modified polymer in the form of a thermoplastic elastomer or vulcanizate, which is a combination of a rubber compound and plastic. LED strips or other light source (spacing from 20 to 80 mm depending on the height of the entire system, type of LEDs and intended application) are placed at regular intervals between the load-bearing building elements, which are equipped with light control, with any choice color shade - RGB + White system with a number of at least 60 LEDs per 1 meter of strip. The light source can be controlled remotely. The construction of the light panel thus ensures high strength, stability, mechanical resistance and load capacity (according to the planned load the appropriate polymer (s) is selected - eg under the assumption of intensive planned mechanical stress polycarbonate (PC) is the most suitable type, especially due to its toughness, in terms of damping and / or shock absorption show the excellent properties of the "SILIKON + PC / PC + SILIKON" combination board.

The light panel according to the invention can also be used for installation in a still humid environment, or even below the surface of the water surface or in ice.

It is also possible to insert a heating device into the building element, which is especially suitable for floors in children's rooms, hospitals, crèches or kindergartens or in buildings as needed. In particular, the following materials and / or combinations thereof are used as top panels in the construction of the light panel according to the invention: polyethylene (PE), polymethacrylate (PMMA), styrene-acrylonitrile copolymer (SAN), polycarbonate (PC), polyvinyl chloride (PVC) and transparent silicone. Top plates are installed in thicknesses from 5 mm to 20 mm depending on the selected application - they are translucent (with different degrees of light transmission), transparent or colored (colored plastic or application of colored tinting foil), surface structure smooth, satin, soft- touch, non-slip or structural with optional decor in the form of floor wallpaper or decorative foil. 1 or 2 plastic plates are placed on these load-bearing building elements as a final surface with a system of fixing mechanical locks (or a protective, diffusion, decorative or other functional foil is inserted between these 2 plates), also the upper layer of the plate can be coated with functional top foil (anti-slip, reflective, diffuse, tactile ... etc.).

With this new design solution - the light panel according to the invention - it is possible to construct arbitrarily large illuminated areas - e.g. floor areas (by folding individual pieces of light panels), without the illuminated surface being optically disturbed by structural rails or aluminum profiles which form unsightly squares (by which cabling is routed). Thus, without the use of a light panel according to the invention, these squares optically deform the surface and impart high hardness to the floor surface, since in the vast majority of cases they do not contain any damping elements capable of effectively absorbing shocks caused by walking or dancing on such an undamped floor surface. This has a very adverse effect on the human body, especially in women (due to the use of heeled shoes) are often the cause of health problems in the form of back pain, lumbar and / or cervical spine and arch in the foot. However, said health problems do not occur when moving on the floor in the construction of which is a light panel according to the invention.

The handling of the light panel according to the invention during its installation is very fast, safe and easy, its operation, maintenance, cleaning and repairability is problem-free and the panel itself is very stable in a wide temperature range from -40 to +120 ° C. In the event of accidental intense mechanical loading and consequent damage, this panel is very easy and quick to repair with an eccentric grinder and / or polisher, which removes abrasion caused by top plate defects. Subsequent application of a new protective decorative top foil will restore the required properties and homogeneity of the top surface, all at minimal cost. By replacing the top foil, it is possible to easily, quickly and cheaply significantly change the optical properties and the surface design of the light panel according to the invention. Even if the light source needs to be replaced, the design of this panel allows quick and easy replacement of only the required part of the light source. The entire light panel is completely ecologically recyclable, which is a great benefit for the future.

Overview of figures in the drawings

In the accompanying drawings, FIG. 23 shows a light panel according to the invention in a top view and in several shades.

In FIG. 24 is a 3D section of a light panel according to the invention, in which the entire construction is clearly visible.

In FIG. 25 shows an example of the appearance of the top plate of a light panel according to the invention, which is a polycarbonate with a thickness of 10 mm in a clear and milky shade.

In FIG. 26 shows the internal structure of the light panel structure according to the invention - in this particular case it is a structural building element in the shape of "X" according to CZ PV 2016-42, made of transparent material "2KSilicon", binder + catalyst system, hardness 45 to 50'Sha, dimensions of the structural building element according to CZ PV 2016-42 are 40x40x40 mm, mutual spacings 160 to 180 mm.

In FIG. 27 shows various types of structural building elements according to CZ PV 2016-42, which are a basic element in the installation of a floor system consisting of several pieces of light panel according to the invention:

A) structural building element according to CZ PV 2016-42 in the shape of "X", made of material "2K-Silicone" TRANSPARENT, system binder + catalyst, hardness 45 to 50'Sha, dimensions 40x40x40 mm and layout diagram within the light panel according to the invention,

B) structural building element according to CZ PV 2016-42 in the shape of "WOW" or "MOM" based on PVC, in TRANSPARENT color - the shape of the element + the composition of damping lamellas in it can have any shape - depending on the required properties, the elements can be adapted, eg by increasing / decreasing the number of slats, chambers or the thickness of the wall and the slats themselves, the height of the structural building element being variable in the range of 7 to 70 mm,

C) structural building element according to CZ PV 2016-42 in the shape of "WOW" or "MOM" based on EPDM in white and black with different hardnesses (black 65 'Shore, white 80'Shore),

D) structural building element according to CZ PV 2016-42 in the form of “WOW” or “MOM” made of a rubber mixture based on NR / SBR (natural rubber + synthetic rubber • · · ···· ·· · • · · · · · · · ·. * Í; * 5 ί; · ii • · · · · · · · · · · · · · Styrene-Butadiene-Rubber) in black with lamellas folded into a five-fold X shape.

In FIG. 28A shows a groove / template in an installation rail for correct and easy installation and placement of LED strips on the lower base plate of a light panel according to the invention, the recommended regular spacing of the LED strips being in the range of 20 to 80 mm.

Note: The strip allows the use of the strip cover as an additional diffuser. The application is not necessary in all cases - it depends on the individual needs of the consumer, the technical requirements and the purpose for which the light panel according to the invention will serve.

In FIG. 28B shows an alternative solution for placing an LED strip in a structural building element according to CZ PV 2016-42 in the case of a floating floor or in a heated floor.

In FIG. 29 shows a connecting mechanism - a mechanical fixing lock - of the top plates of a light panel according to the invention, which forms a "jointless connection"; the surface is thus not, as before, optically disturbed by unsightly squares, but represents a continuous, seamless and uniform surface.

In FIG. 30 shows a structural building element according to CZ PV 2016-42, provided with integrated heating (floor heating system) with temperature control and the possibility of time switching.

In FIG. 31 shows a light panel in the form of squares and a circle, forming a pattern and at the same time a children's play field in the shape of a doll, for the purpose of physical activities for children.

The following exemplary embodiments only illustrate but do not limit the light panel according to the invention. This panel was successfully tried and tested by the inventor on appropriate laboratory equipment, was used in a number of applications - such as laying new floors, renovation of old floors in households, use as a medium to dampen vibrations, noise and shock absorption in households and public facilities, sports grounds and sports buildings, production and concert halls, exhibitions and others.

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Exemplary embodiments

Example 1

The light panel according to the invention was used on a floor with light effects, which was installed in a dance club: A block of light panels according to the invention with a total area of 25 m ² (square-shaped dance floor) was installed on the prepared base base, which was leveled with trowel material. with an area of 5 x 5 m composed of 5 pieces of polymer board with the size of a single piece 5x1 m). The structural base and beams in this case represent the structural building element 20 according to the invention CZ PV 2016-42 in a total of 400 pieces (16 pieces of element 20 per 1 m ² used during installation), made of translucent PVC-based polymer with a hardness of 70'Sha , the 20 PVC construction elements were installed at regular intervals of 280 mm.

Example 2

The light panel according to the invention was used for a signaling and navigation light strip and panel for public buildings (hospitals, courts, etc.) and / or large public events (concerts, festivals) with high attendance, delimiting individual sections of the respective building / event venue. , which helps to orient visitors and navigates them to the appropriate places. The principle of navigation in this case is similar to "tourist markings on trees", namely illuminated panels in the shape of arrows measuring 300 x 700 mm, spaced at a distance of 20, 50 and 100 m, installed at a height of 1.80 m. where the individual marked routes / paths cross, the panels are also located on the walking area, where the participant / visitor must cross them and these light panels show on the signpost in which direction the respective destination is reached. The light panel according to the invention on the signpost consists of 5 strips of structural building element 20 according to CZ PV 2016-42 with dimensions: h = 20 mm, w = 80 mm, the length is variable and is always adjusted according to the needs of the marking at the appropriate place. The light panel according to the invention in this case consists of the following components:

A. Base plate 22 with a thickness of 10 mm made of white - light-impermeable PVC, on the underside (contact surface with the ground) applied anti-slip silicone or rubber foil with a thickness of 3 mm,

B. Structural building elements 20 in the number of 5 pieces of profile strips with a width of 80 mm, spaced 150 mm apart at regular intervals on 1 m ^{2 of} light panel,

C. Self-adhesive bottom diffusion foil with a thickness of 0.3 to 3 mm made of transparent PVC,

D. The top plate 19 of the light panel, which is also a walkable surface; due to the expected high mechanical stress of the application exclusively from either PA or PC with a minimum board thickness of 15 mm or 20 mm, or even more,

E. Top protective foil 25 - decorative, diffusion and anti-slip functions.

Note: Thanks to the high mechanical resistance, damage is excluded in the event of the participant's aggressive behavior, vandalism or rioting

Example 3

The light panel according to the invention was used for the production of a segmental, detachable dance floor with a segment size of 1x1 m, with optional variable surface decor (gloss, semi-matt, matt, satin, fine structure, coarse structure, stripes, rasters, 3D foils). effects on currently playing music. The system of side interlocking locks ensures connectivity and the creation of an integral surface without optical dividing joints. After creating the required shape from 1x1 m polygons, coat the unit with protection and decorative foil 25.

Example 4

The light panel according to the invention was used on sports and design floors for fitness centers for the purposes of team sports with the use of music to increase people's motivation, eg aerobics, spinning ... etc.

Example 5

The light panel according to the invention was used to prepare a security floor for security systems which were equipped with optical motion sensors located below the surface, which has not been possible with any other floor system so far (except glass flooring, which has a number of other negative mechanical properties).

Example 6

The light panel according to the invention has been used on a children's play area for interiors with an entertaining and decorative function supporting movement activities, e.g. the programmable light of the individual installed LED diode panels 21 in the form of movement games and light effects. During the night, "mood lighting" with significantly low power consumption, ensuring undisturbed sleep without the need for lighting in the hallway and / or open doors in case the child is afraid of dark / unlit areas.

Example 7

The light panel according to the invention was used for the construction of a variable segment podium for marketing promotional events and trade fairs, serving as a presentation aid in the promotion of goods or services.

Example 8

The light panel according to the invention was used for a delimiting light strip, recessed into the ground or above ground level, indicating, for example, a VIP zone, an entry ban, an area for entry with a special permit ... etc.

Example 9

The light panel according to the invention was used as a distributor for mass actions with a high concentration of people - natural disasters, accidents - rescue and evacuation actions. For disoriented participants, it serves as an aid that greatly facilitates navigation without the need for repeated queries, which allows more efficient operation and use of time for intervening components (they are not so busy explaining), without the risk of mechanical damage, 100% resistance to impact, moisture, contact with H ₂ O and other liquids.

Example 10

The light panel according to the invention was used as an alternative solution for placing an LED strip in a structural building element according to CZ PV 2016-42, which is also hollow and has ribbing in the form of perpendicular lamellae, which allows shock absorption and damping. In this case, it is a reduced variant of the product, whose thickness (height) is 7 mm, width = 80 mm, any length, because it is produced by extrusion and deliveries are possible in rolls or coils. This solution enables the integration of LED strip and, thanks to the sufficient number of chambers, also the possible installation of an integrated floor heating based on a resistance wire. The product is made of EPDM-based components and was developed especially for the area of floating floors.

Example 11

The light panel according to the invention was used to assemble a children's amusement game, a children's jumping doll, consisting of LED light panels with a segment size of 400x400 mm, a total of 10 square panels 400x400 mm and 1 round panel in the shape of a circle with radius r = 300 mm. This use case is shown in FIG. 31.

Industrial applicability

The new light panel is a new resistant light panel that has unique functional properties, thanks to which it has a wide range of uses in many areas - eg in floor systems and cladding materials for interior and exterior as a protective, decorative and functional-design element and / or comprehensive system with integrated heating, high load capacity and mechanical resistance, enabling a wide range of optional elements - areas of destination are mainly sports floors, illuminated design and orientation light panels for public buildings and households (apartments and houses), advertising and promotion, entertainment industry , arts and culture, security systems, and a host of other areas. This unique design solution has a high versatility, especially due to its variability depending on the final area of installation and is very stable.

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List of abbreviations used in the text

LED - Light Emitting Diode - light emitting diode

RGB + White - technology that allows you to change the color of light by mixing three basic colors + the possibility of direct white light

OSB - oriented strand board = glued board made of thin large-area chips, joined by synthetic resin

NR / SBR - natural rubber + synthetic rubber or Styrene-butadiene-Rubber EPDM - ethylene-propylene-diene monomer

NR - Natural Rubber

SBR - natural styrene-butadiene rubber / rubber

TPE - thermoplastic elastomers

TPV - thermoplastic vulcanizates

PP - polypropylene

PE - polyethylene

PVC - polyvinyl chloride

Note 1: EPDM is sometimes referred to as Ethylene Propylene Dien terpolyMer instead of Monomer or unconjugated (Monomer)

Note 2: Rubber = taken from English - means rubber or rubber

Note 3 .: In rubber / rubber compounds, the concentration / content of the individual ingredients is indicated by the abbreviation "dsk" = parts per hundred parts of rubber or also phr (from the English parts per hundred rubber). The basis of the rubber compound always consists of 100 parts of rubber (one or more types together). If the rubber used is adjusted with oil or carbon black, its dosage must be increased so that even in such a mixture there are 100 parts of rubber. The use of 100 parts of rubber as the base of the mixture facilitates the dosing of non-rubber additives, because expressing their concentration by the same dsk value ensures the same rubber / additive ratio for different rubber mixtures.

Claims (8)

PATENT CLAIMS Light panel, characterized in that it consists of at least 1 top plate (19), under which load-bearing structural components (20) made of polymer and / or modified polymer in the form of a thermoplastic elastomer or vulcanizate with a hardness of 30 to 90 are laid. ShA, wherein light sources are arranged in, under and / or between the supporting building components (20), which are equipped with light control and color shade selection. Light panel according to claim 1, characterized in that it is connected to a base plate (22) consisting of at least 1 separate plate or a solid surface to which the light panel is directly attached, the base plate (22) being provided with a reflective layer (23). Light panel according to claims 1 and 2, characterized in that the light source is formed by LED diode strips (21). Light panel according to claims 1 and 3, characterized in that the top plate (19) is made of a composite material based on polyethylene, polypropylene, polymethyl acrylate, styrene-acrylonitrile copolymer, polycarbonate, polyvinyl chloride and transparent silicone, their thickness being from 5 mm to 20 mm depending on the selected use of the light panel. Light panel according to claims 1 to 4, characterized in that it is provided with a plurality of top plates (19) which are translucent and / or transparent and / or colored with a treated surface. Light panel according to claims 1 to 5, characterized in that its top plates (19) are interspersed with foil (24) and the surface of at least the uppermost plate is provided with a top foil (25). Light panel according to Claims 1 to 6, characterized in that the base plate (22) is made of a composite material based on polyvinyl chloride, polyethylene, polypropylene, polycarbonate or an OSB board with a thickness of 6 to 10 mm. Light panel according to Claims 1 to 7, characterized in that LED strips (21) are arranged at regular intervals in, below and / or between the structural support elements (20), the size of the spacings of the LED strips (21) being from 20 to 80 mm depending on the height of the light panel.