RU2110491C1 - Decorative material - Google Patents

Abstract

FIELD: manufacture of building materials; different fields of design, decorative applied and monumental art, advertisement and optical systems. SUBSTANCE: decorative material has transparent base and at least one part of it is made in the form of at least one raster screen including lens members. In this case, reflecting coating is deposited on surface of raster relief made in the form of parts of lens members salient above back surface of raster screen, each raster screen for formation of image of lens members of respective raster screen, above its face surface opposite to raster relief. At least one part of reflecting layer corresponding to at least one image member of preset view, or at least one raster screen may be made with color of reflecting surface different from color of remaining surface of reflecting layer, or at least different from color of that raster screen whose color of part of reflecting surface is changed and at least one part of at least one raster screen may be made from color-carrying transparent material with color different from color of base material. EFFECT: higher efficiency. 38 cl, 6 dwg

Description

 The invention relates to the building materials industry, various design industries, decorative and applied and monumental art, as well as to advertising and optical systems, providing the creation of visually observable volumetric images, mainly to decoration, including decorative, material for decorative design and cladding of various surfaces , both external and internal, including basement, ceilings, floors and other surfaces of buildings and structures, monuments, sculptures, etc., using optical lens systems for creating three-dimensional images of artistic and decorative or (and) advertising nature, and can be used to obtain artistic and decorative, including mosaic, products, for example glass, polymer and mosaic plates, carpet-mosaic made of other similar materials coatings, carpet-mosaic, mosaic and decorative facing tiles, sheet and roll materials and coatings, decorative films, synthetic wallpapers, etc., as well as bulk products such as glass blocks s, double-glazed windows, etc., for decorating floors, walls, ceilings and other surfaces, drawing up ornaments, etc., using voluminous dynamically changing color decorative, artistic, mosaic and advertising images reproduced above the surface of such decorative and artistic products to increase the aesthetic attractiveness of trimmed rooms, buildings and other structures.

 To date, the problem of creating a variety of artistic and decorative, including mosaic, products such as mosaic tiles, carpet-mosaic tiles, sheet and roll materials and coatings, decorative films, synthetic wallpaper, etc., as well as bulk products such as glass blocks , double-glazed windows, etc., providing high aesthetic attractiveness of the finished surfaces, and, if necessary, including the distinctive characteristics of the manufacturer, its trademark and other information about advertising actor rose sharply enough.

 This is due to the fact that the existing artistic and decorative, including mosaic, products such as mosaic tiles, carpet-mosaic tiles, sheet and roll materials and coatings, decorative films, synthetic wallpaper, etc., as well as bulk products like glass blocks, double-glazed windows, etc., either with a relatively high aesthetic attractiveness they do not provide the required advertising images of the manufacturer, its trademark and products, or with sufficiently effective labeling, identification and the presence of the required required advertising images are not aesthetically attractive enough or to manifest the necessary advertising and aesthetic effect they require the creation of certain conditions that limit their scope and significantly increase the cost of the products themselves.

 Known decorative material containing a color-bearing surface, made textured and having sections of different colors, and at least one protective layer, made with located on relative to the color-bearing surface translucent and opaque sections forming a grating, or in the form of a glass plate with volumetric optical elements with the outer and inner sides, while the placement and orientation of the same color sections of the color-bearing surface is repeated for the same optical elements or transparent areas and they are all located periodically, with the same oriented sides of the invoice elements corresponding to one color (ed. certificate. USSR N 1770158, class B 44 C 5/08, E 04 F 13/08, 1992).

 However, the known decorative material is quite complex in technological design and is large due to the need to assign the color-bearing surface and the protective layer in space from each other, and the visual efficiency and aesthetic attractiveness of the artistic image are not high enough as a result of the impossibility of obtaining a multi-level volumetric color image, as it were " hovering "in the air above the front surface of the decorative material, observed in this case in a wider th angular range.

 The closest technical solution (prototype) is a decorative material containing a polymer film made of light-transmitting material, with a relief front surface in the form of parallel regularly arranged convex cylindrical lenses with a radius of about half the thickness of the polymer film, and a rear diffuse light-scattering surface while reflective coating is applied to the back surface of the polymer film (EPO Patent No. 0068608, class B 44 F 1/04, B 44 C 1/14, 1987).

 However, the visual efficiency and aesthetic attractiveness of the artistic image is not high enough as a result of the impossibility of obtaining a volumetric multilevel color dynamically changing image, as if “floating” in the air above the front surface of the decorative material, observed in this case in a wider range of angles.

 A new achievable technical result of the invention is to increase the visual efficiency and aesthetic appeal of the decorative and artistic image of the decorative material.

 A new technical result is achieved in that in a decorative material containing a substrate made of light-transmitting material and with a relief surface in the form of lens parts protruding above the surface of the substrate, and a reflective coating, in contrast to the prototype, at least a portion of the substrate with a relief surface in the form protruding above the surface of the substrate of the lens parts is made in the form of at least one raster screen including lens elements, while a reflective coating is applied to the surface of the raster a relief made in the form of parts of the lens elements protruding above the rear surface of the raster screen, each raster screen to create an image of the lens elements of the corresponding raster screen above its front surface, opposite to the raster relief.

 The substrate can be made in the form of a carpet-mosaic coating, while the raster screens are made in tiled form.

 The substrate can be made in the form of a facing or mosaic facing tile.

 Raster screens can be arranged so that their outer contour forms an image of a given type.

 Raster screens can be arranged in the form of carpet mosaic.

 The raster screen can be made of at least two sections in the form of image elements of a given type, and at least one section of the raster screen can be made with a step or (and) focus of its lens elements different from the step or (and) focus of the lens elements of the remaining sections of the raster screen.

 At least one lens element of at least one section or one raster screen may be made with a focus different from the focus of the remaining lens elements of the corresponding section or corresponding raster screen.

 At least a portion of at least one raster screen may be made of a color-bearing light-transmitting material with a color different from the color of the substrate material.

 At least part of the front surface of the substrate or at least part of the front surface of at least one raster screen can be applied with a light-transmitting light-transmitting coating in the form of a given image with a color different from the color of the material of the corresponding raster screen.

 At least a portion of the reflective layer corresponding to at least one section or at least one raster screen can be made in the form of an image of a given type or its element.

 At least a portion of the reflective layer corresponding to at least one section, one image element of a given type or at least one raster screen may be made with a color of the reflective surface different from the color of the rest of the surface of the reflective layer or at least the color of that raster screen, the color of part of the reflective surface of which is changed.

 The reflective coating may be in the form of a metal highly reflective layer or a powder layer with a highly reflective surface dispersed in a binder.

 In front of the reflective layer, at least part of the raster relief of at least one raster screen may be coated with an additional color-bearing light transmission coating in the form of a predetermined image with a color different from the material color of the corresponding raster screen and reflective layer.

 A new technical result is also achieved by the fact that in a decorative material containing a substrate of light-transmitting material, made in a single design with at least one lens and a relief surface, and a reflective coating, in contrast to the prototype, at least part of the substrate with at least at least one lens and with a relief surface is made in the form of at least one phase reflective zone plate with a reflective coating deposited on the rear profiled zone surface of each plate, for building images of the corresponding zone plate above its front surface, opposite the profiled zone surface.

 The substrate is made in the form of a carpet-mosaic coating, while the phase reflective zone plates are made in tile form.

 The substrate is made in the form of a facing or mosaic facing tile.

 The phase reflective zone plate can be made in the form of a Fresnel lens.

 Fresnel lenses can be positioned so that their outer contour forms an image of a given form.

 At least one Fresnel lens can be made of at least two sections in the form of image elements of a given type.

 At least one section or at least part of the Fresnel lens can be made of a color-bearing light-transmitting material with a color different from the color of the substrate material.

 At least part of the front surface of the substrate or at least part of the front surface of at least one section or at least one Fresnel lens can be coated with a light-transmitting light-transmitting coating in the form of a given image with a color different from the color of the material of the corresponding Fresnel lens.

 At least a portion of the reflective coating corresponding to at least part of one section or part of a Fresnel lens or at least one Fresnel lens can be made in the form of an image of a given form or its element.

 At least a portion of the reflective coating corresponding to at least one image element of a given type or at least one section or at least one Fresnel lens can be made with a color of the reflective surface different from the color of the rest of the surface of the reflective coating or at least the colors of that lens, the color of which part of the reflective surface is changed.

 The reflective coating may be in the form of a metal highly reflective layer or a powder layer with a highly reflective surface dispersed in a binder.

 In front of the reflective layer, at least on the profiled surface of at least one Fresnel lens, an additional color-bearing light-transmitting coating may be applied in the form of a predetermined image with a color different from the color of the material of the corresponding lens and reflective layer.

 The profiled surface of at least one zone plate or at least one Fresnel lens can be made with a geometric profile that provides the ability to create images of a given type.

 The profiled surface of at least one zone plate or at least one Fresnel lens can be made with work areas divided into groups in the form of image elements of a given type, having at least two zones each, with different foci created by the slopes of the edges of the work areas to groups.

 A new technical result is also achieved by the fact that in a decorative material containing a substrate made of light-transmitting material, with a relief surface made in the form of a part of the surface of at least one lens protruding above the surface of the substrate, and the reflective coating, in contrast to the prototype, is opposite to the relief the surface of the substrate is made in the form of a front flat surface, while the reflective layer is deposited at least on the back protruding above the surface of the substrate part of each lens for Creating images corresponding lens on its front surface.

 The substrate is made in the form of a carpet-mosaic coating, while the lenses are made in a tiled form.

 The substrate is made in the form of a facing or mosaic facing tile.

 Lenses can be positioned so that their outer contour forms an image of a given type.

 Lenses can be arranged in the form of a carpet-mosaic. At least one lens can be made with a focus different from the focus of the other lenses.

 At least one lens may be made of a color-bearing light-transmitting material with a color different from the color of the substrate material.

 At least part of the front surface of the substrate or at least part of the front surface of at least one lens can be coated with a light-transmitting light-transmitting coating in the form of a given image with a color different from the color of the material of the corresponding lens.

 The substrate can be made of a color-bearing material with a color different from the material of the corresponding lens, and in a single design with a color-bearing light-transmitting coating.

 At least a portion of the reflective coating corresponding to at least a portion of the lens or at least one lens can be made in the form of an image of a given form or its element.

 At least a portion of the reflective coating corresponding to at least one image element of a given type or at least one lens can be made with a color of the reflective surface different from the color of the rest of the surface of the reflective coating or at least the color of that lens, the color of the reflective part whose surface is changed.

 The reflective coating may be in the form of a metal highly reflective layer or a powder layer with a highly reflective surface dispersed in a binder.

 In front of the reflective layer, at least a part of the outer surface of the at least one lens can be coated with an additional color-bearing light transmission coating in the form of a predetermined image with a color different from the color of the material of the corresponding lens and reflective layer.

 In FIG. 1 (lens with a reflective layer deposited on the outer side facing the opposite side from the cavity of the ashtray case), 2 (with a Fresnel lens, including working areas divided into groups), 3 (with a Fresnel lens made in sections ), 4 (with lenses made as part of the surface of the base of the ashtray case), 5 (with Fresnel lenses, including working areas, divided into groups made as part of the surface of the base of the ashtray case), 6 (with Fresnel lens made as part of the ash base surface nts) are schematic diagrams of the proposed ashtray.

 The decorative material 1 contains a light-transmitting substrate 2, at least part of which is made in the form of at least one raster screen 3, including lens elements 7, while the reflective coating 4 is applied to the surface of the raster relief 5, made in the form of protruding above the back surface of the raster screen 3 parts of the lens elements 7, each raster screen 3 to create an image 6 of the lens elements 7 of the corresponding raster screen 3 above its front, opposite the raster relief 5, surface at least 8, and at least a portion of the reflective layer 4 corresponding to at least one image element of a given type 6 or at least one raster screen 3 may be made with a color of the reflective surface 9 different from the color of the rest of the surface of the reflective layer 4 or at least the color of that raster screen 3, the color of part of the reflective surface 4 of which is changed, and at least part of at least one raster screen 3 can be made of color-bearing light-transmitting material 10 with a color differs from the color of the material of the substrate 2 (Fig. 1).

In the decorative material 1, the substrate 2 can be made in the form of a carpet-mosaic coating 11, while the raster screens 3 are made of tiled form 12 and can be made of at least two sections 13 in the form of image elements of a given type 6, while at least one section 13 of the raster screen 3 can be performed with a step l ⁱ or (and) focus f ^{i of} its lens elements 7 different from the step L or (i) of the focus F of the lens elements 7 of the remaining sections 13 of the raster screen 3, and at least one lens element 7 of at least one with ktsii 13 or a bitmap screen 3 may be configured to focus f ^k different from the focal points f ^i, F remaining lens elements 7 corresponding section 13 or the corresponding bitmap screen 3, and at least part of the front surface 8 of the substrate 2, or at least a part of the front surface 8 of at least one raster screen 3 may be coated with a color-bearing light transmission coating 14 in the form of a predetermined image with a color different from the material color of the corresponding raster screen 3 (FIG. 2).

 In the decorative material 1, the substrate 2 can be made in the form of a facing, including mosaic, tile 15, while at least part of the reflective layer 4 corresponding to at least one section 13 or at least one raster screen 3 can be made in the form of an image of a given type 6 or its element, and the reflective coating 4 itself can be made in the form of a highly reflective metal layer 4, and in front of the reflective layer 4 at least a part of the raster relief 5 of at least one raster screen 3 an additional color-bearing light-transmitting coating 16 may be applied in the form of a predetermined image with a color different from the material color of the respective raster screen 3 and the reflective layer 4 (Fig. 3).

In a decorative material 1, 11, 15 containing a light-transmitting substrate 2, at least part of which can be made in the form of at least one phase reflective zone plate 17 or a Fresnel lens 18 with a reflective coating 4 deposited on the rear profiled surface 19 of each plate 17 or each Fresnel lens 18, to create an image 6 of the corresponding zone plate 17 or Fresnel lens 18 above their front surfaces 8, opposite the profiled surfaces, while the profiled surfaces 19 along the edge It least one zone plate 17 or at least one Fresnel lens 18 may be provided with working areas 20 divided into groups 21 in the form of the picture elements given form 6 having two zones at least of 20 each, with different foci f ^l posed slopes edges 22 of the working areas 20 in groups 21 (Fig. 4).

 In a decorative material 1, 11, 15 containing a light-transmitting substrate 2, the front surface 8 of which is made flat, while the reflective layer 4 is deposited at least on the back protruding above the surface of the substrate 2 of the surface 23 of each lens 24 to create an image 6 of the corresponding lens 24 above its front surface 8, while at least a portion of the front surface 8 of the substrate 2 or at least a portion of the front surface 8 of at least one lens 24 and in front of the reflective layer 4 at least a portion of the outer the surfaces 23 of the lenses 24 may be coated with a color-bearing light-transmitting coating 14 in the form of a predetermined image with a color different from the color of the material of the corresponding substrate 2 or the lens 24, and an additional color-bearing light-transmitting coating 18 in the form of a predetermined image with a color different from the color of the material of the corresponding lens 24 and reflective layer 4 (Fig. 5).

 In the decorative material 1, 11, 15, the substrate 2 can be made of a color-bearing material 25 with a color different from the material of the corresponding lens 24, and in a single design with a color-bearing light-transmitting coating 14, while the reflective layer 4 can be made in the form of a powder layer 26 with a highly reflective surface dispersed in the binder 27, and the lenses 24 can be arranged so that their outer contour 28 forms an image of a given type 29 (Fig. 6).

 All structural elements of decorative material 1, carpet-mosaic coating 11, mosaic tiles 15 with lens raster screens 3, shown in Fig.1-3, are also performed with Fresnel lenses 20 or zone plates 19 (Fig. 4) and with lenses 26 (FIGS. 5 and 6) and vice versa.

 The proposed ashtray works as follows.

 In FIG. 1 shows a decorative material 1 containing a light-transmitting substrate 2, at least part of which is made in the form of at least one raster screen 3, including lens elements 7, while a reflective coating 4 is applied to the surface of the raster relief 5, made in the form of protruding above the back the surface of the raster screen 3 parts of the lens elements 7, each raster screen 3 to create an image 6 of the lens elements 7 of the corresponding raster screen 3 above its front opposite the raster screen a fief 5, surface 8, and at least a portion of the reflective layer 4 corresponding to at least one image element of a given type 6 or at least one raster screen 3, may be made with the color of the reflective surface 9 different from the color of the rest of the surface of the reflective layer 4 or at least the color of that raster screen 3, the color of a part of the reflecting surface 4 of which is changed, and at least a part of at least one raster screen 3 can be made of a color-bearing light-transmitting material 10 with a color different from the color of the substrate material 2 (FIG. 1).

Incident rays, for example from ambient directional or scattered light, are refracted on the front surface 8 of the corresponding, for example, lens elements 7 of the raster screens 3, and, correspondingly converted depending on the type of raster screen 3 used, light beams after passing through the lens elements 7 of the raster screen of the relief 5, are multiplied by each pupil of the corresponding lens elements 7 into a multitude of beams that interact with the reflective layer 4 deposited on the surface 5 of the lens raster of the relief, are reflected from it and, again passing through the lens elements 7 and refracting on the front surface 8 of the corresponding raster screen 3, create a three-dimensional mirror image 6 of each lens element 4 of the corresponding raster screen 3 above their respective front surfaces 8 from the side of the incident beam at a distance provided by the foci f ^{i, k} (F) of the corresponding lens elements 7 (Fig. 1).

 At the same time, the observer sees as a created image a three-dimensional image 6 of the composition of the lens elements 7 of the corresponding raster screens 3, for example, in the form of an image of a butterfly, a crocodile, flying Carlson, an image of fruit, the name of the country and manufacturer, its trademark, etc. , as if "soaring" in the air above the front surface 8 of the corresponding raster screen 3, and in a color corresponding to the color of the reflecting surface 4 (Fig. 1).

 Drawing on part of the front surface 8 of the raster screen 3 of a color-bearing transparent coating 14, for example, a color-bearing transparent lacquer of the “zapon” type, blue, etc., with a color different from the color of the material of the corresponding raster screen 3, or performing at least part of the raster a screen 3 of a color-bearing transparent material 10 with a color different from the color of the material of the substrate 2, allows you to select the individual elements of the volumetric image 6 in a given color (Fig. 1).

 It should be noted that all of the above and presented in FIG. 1, the manufacturing options for decorative material 1 can be performed both individually and in their various combinations or compositions.

 Moreover, as the constructed volumetric image 6, the observer can see both the image 6 of only one or several separately taken compositions of the lens elements 7 of the corresponding raster screens 3, and the image 6 of the composition of the raster screens 3 if they are placed accordingly in the form of an image of a given type 29, for example, as if "hovering" over the front surfaces of 8 groups of raster screens 3 butterflies, a crocodile, flying Carlson, an image of fruit, the name of the country and the manufacturer or its product ith mark, product name, etc., and see in a color corresponding to the color of the material 10 of the corresponding raster screen 3 or the color of the light-transmitting coating 14 (if any) (Fig. 1). It should also be noted that individual parts of the volumetric image 6, for example, butterflies, company names, trademarks, etc., may have different colors depending on the color of the material 10 used in the composition of the raster screens 3 or the color of the coatings 14. , butterfly wings can be in one or several shades, the head in a different color, the body in a third, etc.

 The raster screens 3 on the substrate 2 can be made in the form of a disk, a rectangle, a square, a regular triangle or hexagon or another geometric shape, if necessary, with a reflective layer 4 deposited on the surface 5 of their raster relief. Moreover, the shape attached to the raster screen 3 can correspond to the whole image 6, for example, a butterfly, a crocodile, Carlson, the name or trademark of a prestigious company, its products (tropical fruit image), etc., as well as individual elements of image 6 in case of using the group raster screens 3, creating a given image 29 in a complex or in the corresponding composition.

 It should be noted that raster screens 3 can be performed both in the form of various geometric shapes, images of a given type, and as separate elements when creating a three-dimensional image 7 using the composition of such raster screens 3.

Presented in FIG. 2, the substrate 2 of the decorative material 1 is made in the form of a carpet-mosaic coating 11, while the raster screens 3 have a tiled shape 12 and can be made of several sections 13 in the form of image elements of a given type 6, while one section 13 of the raster screen 3 is made with step l ⁱ or (and) focus f ^{i of} its lens elements 7 different from step L or (i) focus F of lens elements 7 of the remaining sections 13 of the raster screen 3, moreover, several lens elements 7 of one raster screen 3 are made with focus f ^k , different from the tricks f ⁱ , F else lens elements 7 of the corresponding section 13 or of the corresponding raster screen 3, and on a part of the front surface 8 of the raster screen 3, a color-bearing light-transmitting coating 14 is applied in the form of a predetermined image with a color different from the color of the material of the corresponding raster screen 3 (Fig. 2).

 The preparation of decorative material 1 in the form of a carpet-mosaic coating 11 is carried out by giving the raster screens 3 on the substrate 2 a predetermined geometric shape, for example, as an image 6, by, for example, molding, and making the raster screens 3 in shape in the form of identical or different-sized tiles 12, 16 of the breccia type on the common substrate 2 of the carpet-mosaic coating 11.

 As a raster screen 3, a raster with spherical lens elements having a period (step), for example 0.2 mm, and made by, for example, casting, pressing, etc., can be used mainly. from a transparent material such as glass, quartz, polymeric material - polystyrene, polymethylmethacrylate, etc., including a color-bearing transparent material, in accordance with the coloring of the created volumetric image 7. Raster screens with lens elements 7 and other types can be used, for example, cylindrical, elliptical, etc.

The size and distance from the front surfaces 8 of the corresponding raster screens 3 of the created volumetric image 6 depends on the focal length f ^{i, k of} their lens elements 7. Moreover, the individual sections 13 of one raster screen 3 can be made with different steps l (L) and (or ) focus f ^{i, k} (F) of their lens elements 7, while at least one lens element 7 of at least one section 13 can be made with focus f ^k different from the focus f ⁱ (F) of the remaining lens elements 7 of the corresponding section 13 (Fig. 2). Moreover, the steps of the lens elements 7, for example, two sections 13, are performed in a certain ratio, for example 2: 1, which ensures the formation of two different interference patterns, thereby creating a more complex and more aesthetically colorful structure of the formed image 6 above the front surface 8 of the corresponding raster screen 3. And the difference in the foci (f ^{i, k} and f) of the lens elements 7 of the various sections 13 of the raster screen 3 allows you to form an image 6 above its front surface 8 with multi-level individual элементами image elements of a given view 29.

 In other words, the individual elements of the image 6 may be at different heights above the front surface 8 of the corresponding raster screen 3.

In turn, the lens elements 7 at least within one section 13 can also be performed with different foci f ^k different from the foci (f ⁱ and F) of the remaining lens elements 7, which allows you to create a multi-level type of individual image elements 3 within one portion 13 over its outer surface 8. That is, the individual parts of a picture element 6 may be located at different heights in accordance with focuses f ^{i, k} individual or groups of lens elements 7, 8 on the front surface of the corresponding section 13 pa Trova screen 3.

So, for example, images of 6 separate elements, for example, butterflies (trunk, antennae, wings, etc.), the name of the country and the manufacturer, its trademark and products, etc., can be at different heights relative to the front surface 8 of the corresponding section 13 of the raster screen 3 depending on the foci f ^{i, k of the} lens elements 7.

The manufacture of sections 13 of the raster screens 3 on the substrate of the corresponding decorative material 1 with different foci f ^{i, k of the} lens elements 7 is carried out by manufacturing an appropriate matrix for one or a group of such lens elements 7 using several tools that form according to a given program in a matrix of the corresponding type, for example roller type, flat, etc. depending on the task, the corresponding corresponding lens elements 7 of the recess. After that, the substrate of the decorative material 1, carpet-mosaic coating 11, etc. obtained by rolling it under pressure, for example, between rollers with the corresponding embossed matrix surface at the required temperature, thereby ensuring the necessary embossed surface 5 on the used substrate 2 for decorative material 1, carpet mosaic 11, etc. The substrate 2 of decorative material 1, 11, 15 with raster screens 3, zone plates 17, Fresnel lenses 18 and conventional lenses 24 can be made of transparent materials such as glass, quartz, polymeric material - polystyrene, polyvinyl chloride, polycarbonate, polyethylene, polymethyl methacrylate and etc., including color-bearing transparent material, in accordance with the coloring of the created volumetric image 6.

 In the case of obtaining, for example, facing tiles, for example mosaic, the technology for their production consists in pouring, for example, a flat matrix of the appropriate format with a polymerizing transparent varnish, for example, Metafont varnish manufactured by the LIT enterprise in Pereyaslavl-Zalessky, and their subsequent removal after polymerization of varnish.

 It should be noted that the creation of a three-dimensional, color, dynamically changing image 6 can be provided, including if there is only one raster screen 4.

 Presented in FIG. 3, the substrate 2 of the decorative material 1 is made in the form of mosaic tiles 15, while a part of the reflection layer 4 corresponding to at least part of the raster screen 3 is made in the form of an image of a given type 6 or its element, and the reflection coating 4 itself is made in the form of a metal highly reflective layer 4, and in front of the reflective layer 4, an additional color-bearing light-transmitting coating 18 is applied to a part of the raster relief 5 of the raster screen 3 in the form of a predetermined image with a color different from the material and the corresponding raster screen 3 and the reflective layer 4.

 The implementation of the reflective layer 4 with the color of the reflective surface 9 corresponding to the individual sections 13, the individual image elements 6 or the individual raster screens 3, different from the color of the rest of the surface of the reflective layer 4 of the same and the rest of the raster screens 3, allows you to create an image 6 above the corresponding front surfaces 8 of these raster screens 3, painted in colors corresponding to the painted parts of the corresponding part of the reflective surface 9 (Fig. 1-3). For example, aluminum is silver, copper is golden, brass is yellow, bronze is reddish, steel and molybdenum are steel-gray, etc. In this case, the reflective layer 4, 9 can be applied directly to the surface 5 of the raster relief, for example, by thermal vacuum spraying on the BA-510Q installation of the corresponding material with highly reflective properties.

In FIG. 4 shows a decorative material 1, 11, 15 containing a light-transmitting substrate 2, at least part of which can be made in the form of at least one phase reflective zone plate 17 or Fresnel lens 18 with a reflective coating 4 deposited on the rear profiled surface 19 of each plate 17 or each Fresnel lens 18, to create an image 6 of the corresponding zone plate 17 or Fresnel lens 18 above their front surfaces 8, opposite the profiled surfaces, while profiled surface ti 19, at least one zone plate 17 or at least one Fresnel lens 18 may be provided with working areas 20 divided into groups 21 in the form of image elements of a given type 6, having at least two zones 20, each with different focal points f ^l created by the slopes of the edges 22 of the working areas 20 in groups 21 (Fig. 4).

Incident rays, for example, from ambient directional or scattered light, are refracted on the front surface 8 of the corresponding zone plate 17 or Fresnel lens 18, and, converted accordingly depending on the type of zone plate 17 or Fresnel lens 18 used, light beams interact with the reflective layer 4 of each zone plate 17 or Fresnel lens 18, are reflected from it and, again passing through the front surface 8 of the corresponding zone plate 17 or Fresnel lens 18, create a three-dimensional mirror image 6 each zone plate 17 or Fresnel lens 18 in front of their respective front surfaces 8 from the side of the incident beam at a distance provided by the foci f ^l created by the slopes of the edges 22 of the working zones 20 of the corresponding zone plate 17 or Fresnel lens 18. As a result, the incident on the zone plate 17 or the Fresnel lens 18 of the incident wave front to another front, providing the required focusing process in accordance with the specified shape of the volumetric image 6 obtained above their front 8 surfaces.

 The use of 3 Fresnel lenses 18 or zone plates 17 instead of raster screens makes it possible to make decorative material 1, 11, 15 more compact, and its manufacturing process is more technologically advanced by using flat Fresnel lenses 18 with small thickness or zone plates 17. It should be noted that Fresnel lenses 18 or zone plates 17 can be made in the form of a disk, rectangle, square, regular triangle or hexagon or other geometric shape, specified if necessary in accordance with the design of the decor active material 1, 11 or facing, including mosaic, tiles 15, with a reflective layer 4 deposited on their profiled surface 19. Moreover, the shape attached to the Fresnel lens 18 or zone plate 17 may correspond as an entire image 6, for example, a butterfly, a crocodile , Carlson, the image of the fruit, the name or trademark of a prestigious company, etc., as well as individual image elements, in the case of using a group of Fresnel lenses 18 or zone plates 17, creating a given image 6, 29 in a complex or corresponding composition (Fig. 4).

 At the same time, the observer sees as a created image a three-dimensional image of 6 zone plate 17 or Fresnel lens 18, for example, in the form of an image of a butterfly, crocodile, flying Carlson, image of fruit, name of the country and manufacturer, its trademark, etc., as if “soaring” in air above the front surface 8 of the corresponding zone plate 17 or Fresnel lens 18, and in a color corresponding to the color of the reflecting surface 5 (Fig. 4).

 Zone plates 17 are used in the form of, for example, phase optical zone reflection elements using reflective kinoforms with a stepped profile of zones 20, which are described mathematically in accordance with the shape of the volumetric image 6 specified above the front surface 8 of the zone plates 8.

Use, for example, phase reflective zone plates 17 or Fresnel lenses 18, consisting of an internal carrier layer with a profiled surface 16, made in the form of, for example, concentric refractive elements of the working areas 20. In this case, the profiled surface 19 of the zone plate 17 or Fresnel lens 18 can be made with a geometric profile that provides the ability to create an image of a given type 6, in the form of working areas 20, divided into groups 21 in the form of image elements of a given type 6, having at least Leray two zones 20 each with different foci f ^l, created by tilting edges 22 of working zones 20 in groups 21 (FIG. 4).

The implementation of at least one profiled surface 16 of the Fresnel lens 17 with the working areas 18, divided into groups 19, having at least two zones 18 each, with different foci f ^l created by the slopes of the edges 20 of the elements of the working areas 18 in groups 19, also allows you to vary the chromaticity of 8 rays incident on the front surface, breaking them in accordance with the wavelength (green, blue, yellow, etc.) and in accordance with the focus f ^{l of the} corresponding group 19 of the Fresnel lens 17. This is due to the fact that when white one light of the zones 20, a light beam is split at coupler components at the edges 22 of working zones 20 with an appropriate slope in accordance with their focal lengths f ^1, f ^2, f ^3, ..., f ^l in groups 21 on the axis O - O 'of the lens Fresnel 18, that is, chromatism takes place. In other words, when using such Fresnel lenses 18, it is possible to obtain volumetric multilevel images 6 of iridescent color (for example, each color has its own image level 6).

Если 1 - средняя высота создаваемого над лицевой поверхностью 8 линзы Френеля 18 зеркального изображения 6, h - средняя высота зеркального изображения 6 над лицевой поверхностью 8 линзы Френеля 18, а r^м максимальный радиус внешнего кольца линзы Френеля 18, то при построении зеркального изображения 6 наиболее оптимальными являются следующие соотношения
l ≈ 0,9 h; l ≈ 0,14 F и r^М < 1 + 1 - 3 мм.And, on the contrary, to eliminate chromatism, the edges 22 of the elements of the working zones 20 are given an appropriate slope in groups 21, which ensures that when they receive beams of different colors, they combine the latter at a certain point F ^nx with the creation of a polychrome image 6. Given the radius r ^{i of the} corresponding Fresnel ring on the lens 15.17 around the axis O - O ', the distance F ^nx from the Fresnel lens 18 and the achieved deviation δ _i can be determined α _i - the angle of inclination of the edges 22 of the working areas 20 from the following equation

If 1 is the average height of the mirror image 6 created above the front surface 8 of the Fresnel lens 18, h is the average height of the mirror image 6 above the front surface 8 of the Fresnel lens 18, and r ^{m is the} maximum radius of the outer ring of the Fresnel lens 18, then when constructing the mirror image 6 the most the following relations are optimal
l ≈ 0.9 h; l ≈ 0.14 F and r ^M <1 + 1 - 3 mm.

 The Fresnel lens 18 can also be made of at least two sections 13 in the form of image elements of a given type 6, while at least part of the reflective layer 4 corresponding to at least one section 13 or at least one Fresnel lens 18 can be made in the form of an image of a given type or its element and / or with the color of the reflecting surface 9 different from the color of the rest of the surface of the reflecting layer 4 or at least the color of that Fresnel lens 18, the color of which part of the reflecting surface 4 is changed.

 The implementation of the Fresnel lens 18 of sections 13, including in the form of image elements 6, allows you to receive images 6 with a multi-level arrangement above their front surface 8 of the individual image elements 6.

 The implementation of the reflective layer 4 with a color corresponding to the individual sections 13, the individual image elements 6 or the individual Fresnel lenses 18, different from the color of the rest of the surface of the reflective layer 4 of the same Fresnel lens 18, and other Fresnel lenses 18, allows you to create an image 6 above their respective front surfaces 8 painted in colors corresponding to the painted parts of the corresponding part of the reflective layer 4.

 The preparation of decorative material 1, 11, 15 with Fresnel lenses 18 is carried out by giving the latter a predetermined geometric shape, for example, in the form of an image 6.29 by molding on the surface of the substrate 2 decorative material 1, 11, 15 of the corresponding type, as described above, for the process forming raster screens 3 on a substrate 2 of decorative material 1, 11, 15.

 All the types of design options discussed above for Fresnel lens 18 are acceptable for zone plates 17. It should also be noted that the creation of a three-dimensional, color, dynamically changing image 6 can be achieved, including if there is only one zone plate 17 or Fresnel lens 18 .

 In FIG. 5 shows a decorative material 1, 11, 15 containing a light-transmitting substrate 2, the front surface 8 of which is made flat, while the reflective layer 4 is deposited at least on the rear portion of the surface 23 of each lens 24 protruding above the surface of the substrate 2 to create an image 6 of the corresponding lens 24 above its front surface 8, with at least a portion of the front surface 8 of the substrate 2 or at least a portion of the front surface 8 of at least one lens 24 and in front of the reflective layer 4 at least frequently the outer surface 23 of the lenses 24 may be coated with a color-bearing light-transmitting coating 14 in the form of a predetermined image with a color different from the color of the material of the corresponding substrate 2 or the lens 24 and an additional color-bearing light-transmitting coating 18 in the form of a predetermined image with a color different from the color of the material of the corresponding lens 24 and reflective layer 4.

In FIG. 6 shows a decorative material 1, 11, 15, in which the substrate 2 is made of a color-bearing material 25 with a color different from the material of the corresponding lens 24, and in a single design with a color-bearing light-transmitting coating 14, while the reflective layer 4 is made in the form of a powder layer 26 with a highly reflective surface dispersed in the binder 27, and the lenses 24 can be arranged so that their outer contour 28 forms an image of a given type 29. Incident rays, for example, from ambient directional or scattered light, refract on the front surface 8 of the corresponding lens 24, and, converted accordingly depending on the type of lens 24, the light beams interact with the reflective layer 4 deposited on the outer convex surface 23 of each lens 24, are reflected from it and, again passing through the front surface 8 of the corresponding lens 24, create a three-dimensional mirror image 6 of each lens 24 above their respective front surfaces 8 from the side of the incident beam at a distance provided by the foci F ^{m of the} respective lenses 24.

 Moreover, as the constructed volumetric image 6, the observer can see both the image 6 of only one or several separately taken lenses 24, and the image 29 of their composition if these lenses 24 are positioned accordingly in the form of an image of a given type 29 (Fig. 5, 6) , for example, as if “flying” over the front surfaces of the 8th group of lenses 24 of a butterfly, crocodile, flying Carlson, image of fruit, etc., the name of the company or its trademark, the name of the product, etc., and see in color, matching mate 10 iala respective lenses 24, or light transmitting color coatings 11, 14 (if present). It should also be noted that the individual parts of the volumetric image 6, for example, butterflies, company names, trademarks, etc., may have different colors depending on the color of the material 10 and the color of the reflective surfaces 4, 9 involved in the composition of the lenses 24 or color coatings 11, 14 applied to them. So, the wings of a butterfly can be of one or several shades, the head of a different color, the body of a third, etc.

 Drawing on part of the front and outer surfaces 8, 23 of the lens 24 of color-bearing transparent coatings 11, 14, for example, a blue-colored color-bearing transparent lacquer, etc., with a color different from the material color of the corresponding lens 24 allows you to highlight individual elements volumetric image 6 in a given color (Fig. 5, 6).

The size and distance from the front surfaces 8 of the lenses 24 of the three-dimensional image 6 depends on the focal length f ⁿ , F ^{m of the} specified lenses 24. Moreover, part of the lenses 24 can have different focal lengths f ¹ , f ² , ..., f ⁿ , which allows to form a volumetric image 6 above the front surfaces 8 of the corresponding lenses 24 with multi-level individual image elements 6.

 In other words, individual elements of image 6 (trunk, wings, head, antennae, etc. of a butterfly or other predetermined image 6) may be at different heights above the front surface 8 of the corresponding lenses 24 (Figs. 5, 6).

 The implementation of the reflective layer 4 in the form of a layer of metal powder 26 with a highly reflective surface dispersed in the binder 27, allows you to widely vary the color of the reflective layer due to the use as such particles of a variety of materials such as "eye gloss" white, pearlescent, lilac and other exotic colors, moreover, these materials can be made of both metals and non-metals or non-metals with a metal reflective coating. It can be aluminum, bronze, silver, brass, etc. powder, particles of mica, particles of a polymer, for example, lavsan film with a reflective layer such as “eye gloss”, titanium oxide, etc. with a particle size of 0.2 - 0.3 microns. As a binder, for example, Metafont varnish manufactured by the LIT enterprise in Pereyaslavl-Zalessky or other suitable binder of the type of optical glue can also be used.

 As the lenses 24, for example, convex-concave or plane-convex type lenses are used.

If 1 is the average height of the mirror image 6 created above the front surface of the lens 8 of the lens 24, h is the average height of the mirror image 6 above the front surface of the lens 24, r is the radius of the lens 24, and F is the focus of the lens 24, then when constructing the mirror image 6 The following relations are optimal:
l≈h; l≈0.74 F and r <1 + 1 - 3 mm.

 It should also be noted that with the lenses 24 all execution elements and all the optical effects presented above in accordance with FIG. 1 to 4, in the same manner as described above.

 It should also be noted that all of the above and shown in FIG. 1-6, manufacturing options for decorative material 1, 11, 15 can be performed for all the above types of optical elements (conventional lenses 24 and Fresnel lenses 18, zone plates 17 and raster screens 3) and can be performed as exclusively in a single version of such optical elements, for example , for facing, including mosaic, tiles 15, and in their various combinations or compositions.

In addition to the above-described images of a given type, in the observed volumetric image 6 formed above the front surface 8 of the corresponding raster screens 3, zone plates 17, conventional lenses 24 and Fresnel lenses 18, an image of objects other than the above described, such as a light source (light bulb), can also be observed. , the environment of the interior of the room, the image of the observer himself, for example, his face, which may be one of the elements in the multi-level composition of the created volumetric color imaginary image 6 given type, while being at the appropriate given level in it, or may not be associated with the composition of the image 6, as well as other similar object,
Based on the foregoing, the new achieved positive technical result of the invention is:
Achievable technical result of the invention is to increase the visual efficiency and aesthetic appeal of the decorative and artistic image of the decorative material.

 1. Improving the visual effectiveness of the decorative material through the use of optical elements, ensuring the creation above its surface of a volumetric colorful mirror like a “soaring” multi-level color image of a given type, providing an original decorative and attractive decorative and artistic image from an aesthetic point of view, visible in the range of angles 360 due to the fact that it "soars" above the surface of the decorative material.

 2. Increasing the aesthetic attractiveness of the decorative material through the use of optical elements, ensuring the creation of above the surface aesthetically attractive original optical effects observed in a three-dimensional mirror “floating” multi-level colorful image of a given type, providing increased commercial attractiveness as the most decorative material , and the companies that issue them themselves.

 3. Providing the ability to vary the color scheme of the created image composition of a given type.

 4. Providing the ability to view the resulting three-dimensional image in a wide range of angles in scattered light.

 Currently, the state-owned enterprise NPO ASTROPHYSICS has issued design documentation for the proposed options for decorative material, on the basis of which prototypes of decorative materials of various shapes and artistic and decorative designs, carpet and mosaic coatings, tiles, including mosaic tiles, providing volumetric multi-level color images of a given type above their surface.

Claims (38)

 1. A decorative material comprising a substrate made of light-transmitting material and with a relief surface in the form of lens parts protruding above the surface of the substrate, and a reflective coating, characterized in that at least a portion of the substrate with a relief surface in the form of lens parts protruding above the surface of the substrate in the form of at least one raster screen including lens elements, while the reflective coating is applied to the surface of the raster relief made in the form of protruding above the back raster screen surface parts of lens elements, each raster screen to create an image of the corresponding lens elements of the raster display on its face opposite the relief raster, surface.  2. The material according to claim 1, characterized in that the substrate is made in the form of a carpet-mosaic coating, while the raster screens are made in tile form.  3. The material according to claim 1, characterized in that the substrate is made in the form of a facing or mosaic facing tile.  4. The material according to any one of claims 1 to 3, characterized in that the raster screens are arranged so that their outer contour forms an image of a given type.  5. Material according to any one of claims 1 to 4, characterized in that the raster screen is made of at least two sections in the form of image elements of a given type, while at least one section of the raster screen is made with a step or (and) its focus lens elements other than the step or (and) focus of the lens elements of the remaining sections of the raster screen.  6. Material according to any one of claims 1 to 5, characterized in that at least one lens element of at least one section or one raster screen is made with a focus different from the focus of the remaining lens elements of the corresponding section or corresponding raster screen.  7. Material according to any one of claims 1 to 4, characterized in that at least one section or at least a portion of at least one raster screen is made of a color-bearing light-transmitting material with a color different from the color of the substrate material.  8. Material according to any one of claims 1 to 4, characterized in that at least part of the front surface of the substrate or at least part of the front surface of at least one raster screen is coated with a light-transmitting light-transmitting coating in the form of a predetermined image with a color different from the color of the material of the corresponding raster screen.  9. Material according to any one of claims 1 and 5 to 7, characterized in that at least a portion of the reflective layer corresponding to at least one section or at least one raster screen is made in the form of an image of a given form or its element.  10. Material according to any one of claims 1 and 5 to 9, characterized in that at least a portion of the reflective layer corresponding to at least one section, one image element of a given type or at least one raster screen is made with the color of the reflective surface different from the color of the rest of the surface of the reflective layer, or at least from the color of that raster screen, the color of which part of the reflective surface is changed.  11. The material according to any one of claims 1, 9 or 10, characterized in that the reflective coating is made in the form of a metal highly reflective layer or a layer of powder with a highly reflective surface dispersed in a binder.  12. Material according to any one of paragraphs. 1 and 9 to 11, characterized in that in front of the reflective layer at least part of the raster relief of at least one raster screen has an additional color-bearing light transmission coating in the form of a predetermined image with a color different from the material color of the corresponding raster screen and reflective layer.  13. A decorative material comprising a substrate of light-transmitting material, made in a single design with at least one lens and a relief surface, and a reflective coating, characterized in that at least part of the substrate with at least one lens and a relief surface is made in the form of at least one phase reflective zone plate with a reflective coating deposited on the rear profiled zone surface of each plate to create an image of the corresponding zone plate above its front surface opposite the profiled zone surface.  14. The material according to item 13, wherein the substrate is made in the form of a carpet-mosaic coating, while the phase reflective zone plates are made in tile form.  15. The material according to item 13, wherein the substrate is made in the form of a facing or mosaic facing tiles.  16. The material according to item 13, wherein the phase reflective zone plate is made in the form of a Fresnel lens.  17. The material according to item 13 or 14, characterized in that the Fresnel lenses are arranged so that their outer contour forms an image of a given type.  18. The material according to clause 16, wherein the at least one Fresnel lens is made of at least two sections in the form of image elements of a given type.  19. The material according to any one of paragraphs.16 to 18, characterized in that at least one section or at least part of the Fresnel lens is made of a color-bearing light-transmitting material with a color different from the color of the substrate material.  20. The material according to any one of paragraphs.16 to 19, characterized in that at least part of the front surface of the substrate or at least part of the front surface of at least one section or at least one Fresnel lens is coated with a light-transmitting light-transmitting coating in the form a given image with a color different from the color of the material of the corresponding lens.  21. The material according to any one of paragraphs.16 and 18 to 20, characterized in that at least a portion of the reflective coating corresponding to at least one section, or part of a Fresnel lens, or at least one Fresnel lens, is made in the form of an image specified view or its element.  22. Material according to any one of paragraphs.16 and 18 to 20, characterized in that at least a portion of the reflective coating corresponding to at least one image element of a given type, or at least one section, or at least one Fresnel lens, made with a color of the reflective surface different from the color of the rest of the surface of the reflective coating or at least the color of the lens whose color of the part of the reflective surface is changed.  23. The material according to any one of paragraphs.16 and 18 to 22, characterized in that the reflective coating is made in the form of a metal highly reflective layer or a layer of powder with a highly reflective surface dispersed in a binder.  24. Material according to any one of paragraphs 16 and 18 to 22, characterized in that in front of the reflective layer at least part of the profiled surface of at least one Fresnel lens, an additional color-bearing light-transmitting coating is applied in the form of a given image with a color different from the color of the material appropriate lens and reflective layer.  25. The material according to item 13 or 16, characterized in that the profiled surface of at least one zone plate or at least one Fresnel lens is made with a geometric profile that allows the image to be set.  26. The material according to claims 13, 16 or 25, characterized in that the profiled surface of at least the zone plate or at least one Fresnel lens is made with work areas divided into groups in the form of image elements of a given type, having at least two each zone, with different tricks created by the slopes of the edges of the working zones in groups.  27. A decorative material comprising a substrate made of light-transmitting material, with a relief surface made in the form of a portion of at least one lens protruding above the surface of the substrate, and a reflective coating, characterized in that the opposite relief surface of the substrate is made in the form of a front flat surface, wherein a reflective layer is deposited at least on the rear portion of the surface of each lens protruding above the surface of the substrate to create an image of the corresponding lens above its face surface.  28. The material according to item 27, wherein the substrate is made in the form of a carpet-mosaic coating, while the lenses are made in tiled form.  29. The material according to item 27, wherein the substrate is made in the form of a facing or mosaic facing tiles.  30. Material according to any one of paragraphs.27-29, characterized in that the lenses are arranged in such a way that their external contour forms an image of a given type.  31. Material according to any one of paragraphs.27-30, characterized in that at least one lens can be made with a focus different from the focus of the other lenses.  32. The material according to any one of paragraphs.27-30, characterized in that at least one lens is made of a color-bearing light-transmitting material with a color different from the color of the substrate material.  33. Material according to any one of paragraphs.27 to 32, characterized in that at least part of the front surface of the substrate or at least part of the front surface of at least one lens is coated with a light-transmitting light-transmitting coating in the form of a given image with a color different from the color of the material of the corresponding lens.  34. Material according to any one of paragraphs.27-30 or 32, characterized in that the substrate is made of a color-bearing material with a color different from the material of the corresponding lens, and in a single design with a color-bearing light-transmitting coating.  35. The material according to item 27, wherein at least a portion of the reflective coating corresponding to at least part of the lens or at least one lens is made in the form of an image of a given type or its element.  36. The material according to item 27, wherein at least a portion of the reflective coating corresponding to at least one image element of a given type or at least one lens is made with a color of the reflective surface different from the color of the rest of the surface of the reflective coating or at least from the color of that lens, the color of which part of the reflective surface is changed.  37. The material according to item 27, 35 or 36, characterized in that the reflective coating is made in the form of a metal highly reflective layer or a layer of powder with a highly reflective surface dispersed in a binder.  38. Material according to any one of paragraphs.27, 35 - 37, characterized in that in front of the reflective layer at least part of the outer surface of at least one lens is applied additional color-bearing light-transmitting coating in the form of a given image with a color different from the color of the material lenses and reflective layer.

Images