An assembly for the sensorial display of a rigid cladding with a particular surface finish, the sensorial display assembly comprising a tile (1), corresponding to a sample of a minor portion of the cladding to be displayed, of the same material and with the same surface finish as the cited cladding to be displayed; and wherein the sensorial display assembly further comprises, associated with said tile (1), for its joint storage and/or display, a flexible sheet (2) printed with a graphic pattern that visually reproduces, at full scale, the color and surface appearance of the cladding to be displayed, the surface of the flexible sheet (2) being several times larger than the surface of the tile (1).
The invention relates to an assembly for sensory representation of a rigid coating with a given surface finish, wherein the sensory representation assembly comprises a tile (1), corresponding to a sample of a minority portion of the coating to be represented, of the same material and with the same surface finish as the cited coating it represents; and wherein the sensory representation assembly further comprises, associated with said tile (1) for combined storage and/or display, a flexible sheet (2) printed with a graphic pattern that visually reproduces, to actual scale, the colour and surface appearance of the coating it represents, the surface of the flexible sheet (2) being multiple times larger than the surface of the tile (1).
ABSTRACT The present invention relates to a cuttable cladding panel with a matching pattern, the use, and the design method thereof. The cladding panel comprises an irregular pattern (10) of elongated lines, veins, and/or strips; transverse cutting lines (20) all of them cutting through .. the pattern at identical transverse intersecting points symmetrical with respect to a longitudinal axis of symmetry (SL); pairs of longitudinal cutting lines (30) symmetrical with respect to the longitudinal axis of symmetry (SL), each pair of longitudinal cutting lines cutting through the pattern at identical longitudinal intersecting points; with said cutting lines crossing one another at corner points (P); wherein each transverse intersecting point (21) is at the same distance from a corner point (P) as a corresponding longitudinal intersecting point (31); with two parts obtained by cutting the cladding panel (1) along any cutting line having a matching and continuous irregular pattern (10). Date Recue/Date Received 2020-10-07
A method of manufacturing an artificial stone slab with veins comprises preparing a moldable hardenable fluid mixture of a first material (11); pouring the mixture into a mold (20) an upper face being exposed; engraving the exposed upper face with a predefined precise pattern of grooves (30) coinciding with a pattern of thin veins to be obtained; impregnating at least the inner faces (31) of the grooves (30) with a moldable hardenable fluid mixture of a second material (12), the color of both materials being different; causing the collapse and closure of the grooves, a visible pattern of thin veins of a second material with a natural look being left behind; curing the artificial stone slab by subjecting it to vibration, compression and vacuum until the fluid mixtures of the first material and of the second material are hardened.
A coating having a thickness between 0.1 and 2 mm is obtained from a mixture with the following composition: 10-25% by weight of micronized powder; 40-60% by weight of inorganic gravels of petrographic origin of sizes comprised between 0.063-2 mm; 10-40% by weight of a polymerisable base resin selected from polyurethane, polyester, epoxy or acrylic, with additives, and optionally pigments. The proportion of the mentioned gravel and micronized powder of the coating being up to 90% in an inner most area of interphase between coating and surface of the petrous substrate, covering one third of the thickness of the coating. The method comprises depositing the mentioned mixture on the substrate and vibrating the assembly, and subsequently proceeding to a step of curing and subsequent mechanical finishing of the surface.
C09D 167/00 - Compositions de revêtement à base de polyesters obtenus par des réactions créant une liaison ester carboxylique dans la chaîne principale; Compositions de revêtement à base de dérivés de tels polymères
The present invention relates to a method of manufacturing an artificial stone slab with veins comprises preparing a moldable hardenable fluid mixture of a first material (11); pouring said mixture into a mold (20) an upper face being exposed; engraving the exposed upper face with a predefined precise pattern of grooves (30) coinciding with a pattern of thin veins to be obtained; impregnating at least the inner faces (31) of said grooves (30) with a moldable hardenable fluid mixture of a second material (12), the color of both materials being different; causing the collapse and closure of the grooves, a visible pattern of thin veins of a second material with a natural look being left behind; curing the artificial stone slab by subjecting it to vibration, compression and vacuum until the fluid mixtures of the first material and of the second material are hardened.
B28B 11/08 - Appareillages ou procédés pour le traitement ou le travail des objets façonnés pour façonner des surfaces, p.ex. replanissage, bouchardage, gaufrage, rainurage
A47B 96/20 - Panneaux de meubles ou éléments de meubles similaires
B28B 1/00 - Fabrication d'objets façonnés à partir du matériau
B28B 13/02 - Alimentation en matériau non façonné des moules ou des appareillages destinés à la fabrication d'objets façonnés
B44F 9/04 - Dessins imitant des modèles naturels la surface de la pierre, p.ex. le marbre
7.
ARTIFICIAL STONE SLAB COMPRISING VEINS AND METHOD OF MANUFACTURING SAME
The present invention relates to a method of manufacturing an artificial stone slab with veins comprises preparing a moldable hardenable fluid mixture of a first material (11); pouring said mixture into a mold (20) an upper face being exposed; engraving the exposed upper face with a predefined precise pattern of grooves (30) coinciding with a pattern of thin veins to be obtained; impregnating at least the inner faces (31) of said grooves (30) with a moldable hardenable fluid mixture of a second material (12), the color of both materials being different; causing the collapse and closure of the grooves, a visible pattern of thin veins of a second material with a natural look being left behind; curing the artificial stone slab by subjecting it to vibration, compression and vacuum until the fluid mixtures of the first material and of the second material are hardened.
(1) Non-metal composite building materials, namely, panels, blocks, slabs, tiles, veneers, bricks, flooring and fireplace surrounds made primarily of marble, quartz, rocks and stones, for use on countertops, vanity tops, walls, floors, staircases, and all kind of kitchen, bathroom or general furniture, none of the aforesaid being refractory products.
A coating having a thickness between 0.1 and 2 mm is obtained from a mixture with the following composition: 10-25% by weight of micronized powder; 40-60% by weight of inorganic gravels of petrographic origin of sizes comprised between 0.063 - 2 mm; 10-40% by weight of a polymerisable base resin selected from polyurethane, polyester, epoxy or acrylic, with additives; and optionally pigments. The proportion of the mentioned gravel and micronized powder of the coating is up to 90% in an inner most area of interphase between coating and surface of the petrous substrate, covering one third of the thickness of the coating. The method comprises depositing the mentioned mixture on the substrate and vibrating the assembly, and subsequently proceeding to a step of curing and subsequent mechanical finishing of the surface.
A coating having a thickness between 0.1 and 2 mm is obtained from a mixture with the following composition: 10-25% by weight of micronized powder; 40-60% by weight of inorganic gravels of petrographic origin of sizes comprised between 0.063 - 2 mm; 10-40% by weight of a polymerisable base resin selected from polyurethane, polyester, epoxy or acrylic, with additives; and optionally pigments. The proportion of the mentioned gravel and micronized powder of the coating is up to 90% in an inner most area of interphase between coating and surface of the petrous substrate, covering one third of the thickness of the coating. The method comprises depositing the mentioned mixture on the substrate and vibrating the assembly, and subsequently proceeding to a step of curing and subsequent mechanical finishing of the surface.
The method consists of the formation of a layer over a stone substrate to increase its hardness, chemical resistance, wear and scratch resistance, comprising applying on the substrate a coating matrix incorporating an organic material and fillers including inorganic nanoparticles and/or microparticles; chemically binding said matrix to the substrate, by a self-assembly process and/or a binding process by covalent bonding, electrostatic bonding, van der Waals bonding or hydrogen bonds; and finally drying said matrix. The mentioned organic material is selected from organosilanes, organophosphates, polycarboxylic compounds, compounds based on triazine heterocycles and said nanoparticles are nanoparticles of oxides, carbides, borides, nitrides of metals or of semimetals.
C09D 5/00 - Compositions de revêtement, p.ex. peintures, vernis ou vernis-laques, caractérisées par leur nature physique ou par les effets produits; Apprêts en pâte
C09D 183/08 - Polysiloxanes contenant du silicium lié à des groupes organiques contenant des atomes autres que le carbone, l'hydrogène et l'oxygène
B82Y 30/00 - Nanotechnologie pour matériaux ou science des surfaces, p.ex. nanocomposites
The invention relates to a system for a floor covering, comprising covering panels (10A, 10B) made of a hard material, having relatively little thickness (e), with upper and lower surfaces (la, 2a; lb, 2b), perimetral edges (3a, 3b) and recesses (4a, 4b), and attachment parts (20) made of a relatively flexible material and having projecting members (21a, 21b) and spacing members (22a, 22b). In practice, the projecting members (21a, 21b) of the attachment parts are introduced in the recesses (4a, 4b) of the covering panels (10A, 10B) assuring the link between covering panels (10A, 10B), and the spacing members (22a, 22b) of the attachment parts (20) remain between the facing edges (3a, 3b) of the covering panels (10A, 10B) filling a gap (G) between them in the form of a joint.
Reinforced natural or conglomerate stone plate-like element and multilayered protective coating that includes a substrate of natural or conglomerated stone material and a multi-layered coating providing protection of the substrate against chemical and wearing mechanical agents acting on the element. The multi-layered coating includes three single or multiple film forming composition layers.
B32B 3/10 - Produits stratifiés caractérisés essentiellement par le fait qu'une des couches comporte des discontinuités ou des rugosités externes ou internes, ou bien qu'une des couches est de forme générale non plane; Produits stratifiés caractérisés essentiellement par des particularismes de forme caractérisés par une couche discontinue, c. à d. soit continue et percée de trous, soit réellement constituée d'éléments individuels
The method consists of the formation of a layer over a stone substrate to increase its hardness, chemical resistance, wear and scratch resistance, comprising applying on the substrate a coating matrix incorporating an organic material and fillers including inorganic nanoparticles and/or microparticles; chemically binding said matrix to the substrate,by a self-assembly process and/or a binding process by covalent bonding, electrostatic bonding, van der Waals bonding or hydrogen bonds; and finally drying said matrix. The mentioned organic material is selected from organosilanes, organophosphates, polycarboxylic compounds, compounds based on triazine heterocycles and said nanoparticles are nanoparticles of oxides, carbides, borides, nitrides of metals or of semimetals.
C09D 5/00 - Compositions de revêtement, p.ex. peintures, vernis ou vernis-laques, caractérisées par leur nature physique ou par les effets produits; Apprêts en pâte
The method consists of the formation of a layer over a stone substrate to increase its hardness, chemical resistance, wear and scratch resistance, comprising applying on the substrate a coating matrix incorporating an organic material and fillers including inorganic nanoparticles and/or microparticles; chemically binding said matrix to the substrate,by a self-assembly process and/or a binding process by covalent bonding, electrostatic bonding, van der Waals bonding or hydrogen bonds; and finally drying said matrix. The mentioned organic material is selected from organosilanes, organophosphates, polycarboxylic compounds, compounds based on triazine heterocycles and said nanoparticles are nanoparticles of oxides, carbides, borides, nitrides of metals or of semimetals.
C09D 5/00 - Compositions de revêtement, p.ex. peintures, vernis ou vernis-laques, caractérisées par leur nature physique ou par les effets produits; Apprêts en pâte
17.
REINFORCED NATURAL OR CONGLOMERATED STONE PLATE-LIKE ELEMENT AND MULTILAYERED PROTECTIVE COATING THEREOF
Reinforced natural or conglomerated stone plate-like element and multilayered protective coating thereof Reinforced natural or conglomerate stone plate-like element comprising: - a substrate (1) of natural or conglomerate stone material; - a multi-layered coating providing protection of said substrate (1) against chemical and wearing mechanical agents acting on the element, said multi-layered coating comprising three single or multiple film forming composition layer.
Reinforced natural or con-glomerated stone plate-like element and multilayered protective coating thereof Reinforced natural or conglomerate stone plate-like element comprising: - a sub-strate (1) of natural or conglomerate stone material; - a multi-layered coating provid-ing protection of said substrate (1) against chemical and wearing mechanical agents acting on the element, said multi-layered coating comprising three single or multi-ple film forming composition layer.
