RU2329877C2 - Structural panel and method of its producing - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention refers to the structural panel. The structural panel (1) at the front surface of the base plate (2) has a relief design (211). Onto the relief design (211) the first (3) and the second (4) prime coats, the radiant transparent layer (5) and the top transparent layer (6) are applied consequently. The layer (4) is obtained by application of the second prime material (41) on to the front layer surface (3) and has a relief surface repeating the relief design (211). The layer (5) is obtained by application of the first paint and varnish material (51) to the protrusions of the relief surface (4) containing a lot of radiant particles (52) in the form of thin flakes. The particles (52) in the layer (5) do not sediment and are basically situated in parallel to the plate (2). The layer (6) is formed all over the surface of the layer (4) including the layer surface (5). Additionally the viscosity of the first paint and varnish material (51) is 95~120 KU.

EFFECT: decision is about development of the structural panel with the radiant effect seen practically at any sight angle.

3 cl, 8 dwg

Description

Technical field

The invention relates to a building panel, on the embossed front surface of a base plate of which a transparent layer is formed containing shiny particles in the form of thin flakes, and also to a method for manufacturing such a panel.

State of the art

In building panels manufactured as external wall panels of buildings and structures, a primer paint layer is formed on the front surface of the base plate using a colored paint material, after which a layer of transparent paint material is applied to the surface of the paint layer, thereby protecting the paint layer and increasing the durability of the building panel .

In order to decorate the building panel, brilliant particles, such as small mica plates or metal powder, are introduced inside the transparent layer or on the front surface of the paint layer, so that the front surface of the construction panel becomes shiny.

For example, according to Patent Reference 1, a relief pattern is formed on the front surface of the fibrous base plate, on the surface of which the first and second primer layers are successively formed, and then only a transparent paint material containing a glossy substance is applied to the surface of the protrusions of the relief pattern, thereby forming a transparent layer. Due to this, even in the presence of a relief pattern on the front surface of the base plate, they provide a good visual gloss effect of the panel using a small amount of brilliant substance.

According to Patent Reference 2, a mineral or metal powder is applied by spraying the front surface of the enamel primer coating applied to the base plate, after which a transparent coating is applied, whereby a cement slab with a metallic sheen effect that lasts for a long time is obtained.

However, reference 1 does not suggest any means to ensure the stability of the spatial position of the glossy substance in the transparent layer.

The same applies to reference 2: a mineral or metal powder embedded in the surface of the enamel layer inevitably settles down under the influence of gravity, however, nothing is proposed in this application to solve this problem.

Because of this, obtaining a panel with a sufficiently good gloss using the glossy substance or mineral powder indicated in references 1, 2 is problematic.

Bibliographic link 1:

Tokkai Koho 1998-305546

Bibliographic link 2:

Tokkai Koho 1983-20786

Description of the invention

Problems to be Solved in the Invention

The present invention is directed to solving a number of the above problems. The aim of the invention is to develop a building panel and a method for its manufacture, allowing to provide a good visual effect of the gloss of the front surface of the panel even when observed from oblique directions and to color the panel in interference colors due to the complex reflection of light.

Ways to solve problems

The first part of the invention relates to a building panel, which is characterized in that it comprises a base plate with a relief pattern on the front surface; a first primer layer applied to the front surface of the base plate; a second primer layer deposited on the surface of the first primer layer and forming a relief front surface, repeating the relief of the pattern of the front surface of the base plate; a shiny transparent layer obtained by applying the first transparent paint material containing a lot of shiny particles in the form of thin flakes on the protrusions of the relief front surface of the second primer layer; and an upper transparent layer obtained by applying a second transparent paint material on the entire front surface of the second primer layer, including the surface of the shiny transparent layer; while these shiny particles located in a shiny transparent layer are not prone to sedimentation and are mainly located parallel to the plane of the base plate (claim 1 of the formula).

In the building panel made according to the invention, this effect is achieved through the use of a shiny transparent layer containing many shiny particles in the form of small thin flakes. Namely: on the protrusions of the embossed front surface of the second primer layer formed on the front surface of the base plate, a first transparent coating material is applied containing a plurality of brilliant particles in the form of small thin flakes, and thus a brilliant transparent layer is formed in which almost all brilliant particles have stable spatial position and do not settle into the lower part of the layer. Moreover, almost all shiny particles are parallel to the plane of the base plate.

The light incident on the front surface of the building panel passes through the upper transparent layer and is reflected by the shiny particles contained in the shiny transparent layer, which creates a visual effect of the panel shine. Moreover, even those rays that pass through the upper and shiny transparent layers without reflection by shiny particles are reflected by the second primer layer, which also creates a gloss effect.

Thus, in the proposed building panel, the gloss effect of the front surface is practically independent of the angle of incidence of the light, and when viewed from almost any angle, the panel looks shiny.

Due to the fact that the shiny particles in the shiny transparent layer do not settle and are stably located almost parallel to the plane of the base plate, the reflected light from the second primer layer passes through the shiny particles and exits through the upper transparent layer.

Thus, the reflected light from the brilliant particles and the reflected light from the second primer layer interfere with each other, and as a result, interference colors are created due to the complex reflection of the incident light.

All of the above provides a visual gloss effect of the panel when viewed from almost any angle, and also paints the panel in interference colors, due to the complex reflection of the incident rays.

The second part of the invention relates to a method for manufacturing a building panel, characterized in that they form a base plate with a pattern on the front surface; by applying the first primer material to the front surface of the base plate, the first primer layer is formed; by applying a second primer material to the surface of the first primer layer, a second primer layer with a surface relief repeating the relief of the front surface of the base plate is formed; on the protrusions of the relief surface of the second primer layer, a first transparent coating material is applied, which contains many shiny particles in the form of thin flakes and has a viscosity of 95 ~ 120 KU, and thus forms a shiny transparent layer; a second transparent coating material is applied to the entire surface of the second primer layer, including the surface of the shiny transparent layer, and thereby an upper transparent layer is formed; at the same time, at the stage of forming a shiny transparent layer, the first transparent paint material is applied using a roller and thus ensures that shiny particles in the shiny transparent layer do not settle and are located mainly parallel to the plane of the base plate (claim 4).

In the manufacture of the building panel according to the invention, the base plate is first formed, and then the first and second primer layers are successively formed on its front surface. In this case, a relief front surface is formed in the second primer layer, repeating the relief pattern of the front surface of the base plate.

Next, on the protrusions of the embossed surface of the second primer layer, a shiny transparent layer is formed. During the formation of this layer, the first transparent paint material is applied with a roller on the protrusions of the relief surface of the second primer layer, which has a viscosity of 95 ~ 120 KU and contains shiny particles in the form of thin flat flakes.

Due to this, in a brilliant transparent layer there is practically no settling of brilliant particles on the lower boundary of the layer, the bulk of the particles retains its original position inside the layer and is almost parallel to the plane of the base plate.

After that, an upper transparent layer is formed on the entire surface of the second primer layer, including the surface of the shiny transparent layer.

Thus, the front surface of the building panel acquires improved decorative properties: firstly, the luster of the panel becomes visible when viewed from almost any angle, and secondly, the panel is painted in interference colors due to the complex internal reflection of light in a multilayer coating.

A building panel with the described properties can be manufactured in a simple manner according to the invention.

The best option for the practical implementation of the invention

The following describes the most preferred embodiment of the practical implementation of the first and second parts of the invention.

In the first part of the invention, the viscosity value (KU) of the first transparent paint material can be measured as the value of the resistance to mixing using a Stormer viscometer (blade viscometer) during mixing of the specified material. Viscosity can be expressed both in Krebs viscosity units (KU) and in other units. All of the above applies equally to the second part of the invention.

As the building panels referred to in the first and second parts of the invention, standard mass production panels of inorganic material, in particular ceramic, can be used.

As shiny particles, for example, pearlescent particles can be used, on the surface of the mica base of which a layer of titanium dioxide is formed. Titanium dioxide has a high refractive index and strong scattering properties with respect to visible light. In addition, titanium dioxide is translucent. Due to this, multiple plane-parallel light beams are easily formed in the films.

In addition, thin glass flakes with aluminum coating, simple mica, titanium mica (silver color), white mica, mixed mica, interference mica, titanium oxide mica, etc. can also be used as shiny particles. However, in the latter cases, the shiny particles have an excessively large specific gravity of 4 ~ 5, and therefore easily settle.

Glossy particles with a diameter of 30 ~ 50 μm and a thickness of 1 ~ 2 μm should be used.

The content of brilliant particles in the first transparent paint material should be 3 ~ 7 wt.%.

In the first part of the invention, the embossed pattern on the original plate has many small protrusions. A shiny transparent layer is preferably applied to the tops of the protrusions of the embossed surface of the second primer layer (claim 2 of the formula).

In this case, due to the fixation of shiny particles on the tops of the protrusions of the embossed surface, the particle consumption is reduced, the visual gloss effect is enhanced, and the panel is painted in interference colors due to complex reflection. Reducing the consumption of brilliant particles obtained from expensive materials, reduces the cost of the entire construction panel as a whole.

The viscosity of the first transparent paint material should be 95 ~ 120 KU, and a shiny transparent layer should be formed by applying the first transparent paint material using a roller (claim 3 of the formula).

In this case, the building panel will have an improved visual gloss effect and coloring in interference colors due to the complex reflection of the light incident on it.

If in the first and second parts of the invention the viscosity of the first transparent coating material is less than 95 KU, this will lead to increased sedimentation of the shiny particles by gravity and therefore it will be difficult to ensure spatial stability of the particles inside the shiny transparent layer. If the viscosity of the first transparent paint material is more than 120 KU, it will be difficult to apply the first transparent layer to the relief surface of the second primer layer.

Brief Description of the Drawings

Figure 1 depicts on an enlarged scale a cross section of part of the front surface of the panel according to the invention.

Figure 2 depicts in axonometric projection a base plate according to the invention.

Figure 3 depicts on an enlarged scale a cross section of part of the front surface of the base plate according to the invention.

Figure 4 depicts a cross section of a portion of the front surface of a base plate according to the invention with a first coating layer applied.

Figure 5 depicts on an enlarged scale a cross section of a portion of the front surface of a base plate according to the invention after applying a second primer layer to the first layer.

Fig.6 depicts on an enlarged scale a cross section of part of the coating structure of the base plate according to the invention after the formation of a shiny transparent layer on the protrusions of the relief surface of the second primer layer.

FIG. 7 is an enlarged plan view of a portion of the front surface of a building board according to the invention.

Fig. 8 shows, on an enlarged scale, a cross section of a portion of the front surface of a building panel according to the invention.

Examples

Examples of a building panel 1 and a method for manufacturing it according to the invention are described below.

On the front surface of the base plate 2 with a relief pattern 211, first 3 and second 4 primer layers, a shiny transparent layer 5 and an upper transparent layer 6 are successively formed (Fig. 1).

Layer 3 is formed on the front surface of the plate 2 by applying the first primer material 31 (figure 4). Layer 4 is formed on the surface of layer 3 by applying a second primer material 41, with a relief formed on the surface of layer 4 repeating the relief pattern 211 on the surface of the building panel (FIG. 5).

Shiny transparent layer 5 is formed by applying the first transparent paint material 51, containing many shiny particles 52 in the form of thin flakes, on the protrusions 411 of the embossed surface of layer 4 (FIG. 6). While the particles 411 inside the layer 5 do not settle and are located mainly parallel to the plane of the base plate 2.

The upper transparent layer 6 (not shown in FIG. 1) is formed by applying a second transparent paint material on the entire surface of layer 4, including the surface of layer 5.

Below using FIGS. 1 ~ 8, a building panel and a method for its manufacture according to the invention are described in detail.

The base building board 2 shown in FIG. 2 is a ceramic panel made as follows: wood filler (wood fibers, sawdust, etc.) is added to the starting material (cement, silicate or other raw materials), and a working one is obtained mixture; the resulting mixture is applied to the mold and allowed to dry and harden.

The front surface of the plate 2 has large decorative protrusions 21 on which a relief pattern 211 is formed by means of small protrusions 212, and large recesses 22 located between the decorative protrusions 21.

The relief pattern 211, in turn, consists of these small protrusions 212 and small recesses 213. The height of the protrusions 212 relative to the lower surface of the recesses 213 is 0.1 ~ 1 mm.

The first primer material 31 has a viscosity of 70 ~ 75 KU. The first primer layer 3 is formed by spraying a material 31 with a spray density of 109 ~ 131 g / m ² and determines the color of the recesses 22 of the panel 1.

The second primer material 41 has a viscosity of 80 ~ 85 KU. The second primer layer 4 is formed by applying the material 41 with a roller with a coating density of 43 ~ 65 g / m ² . Layer 4 is formed on the entire relief 211 of the decorative protrusions 21.

The first transparent paint material 51 has a viscosity of 95 ~ 120 KU, and the content of gloss particles 52 therein is 5% by weight. A brilliant transparent layer 5 is formed by applying a material 51 with a deposition density of 43 ~ 65 g / m ^{2 by a} roller on the protrusions 212 of the relief pattern 211.

The second transparent coating material 61 has a viscosity of 20 ~ 25 s (Iwata Cup NK2 viscometer, 25 ° C). The upper transparent layer 6 is formed by applying the material 61 by air spraying with a spray density of 43 ~ 87 g / m ² on the entire front surface of the base plate 2 (protrusions 21 and recesses 22).

As the brilliant particles 52, pearlescent dye particles consisting of a mica base coated with a titanium dioxide film were used. This dye has the property of staining in various colors when changing the film thickness. Since in this example the film thickness is not the same, particles 52 are colored in several different colors when illuminated.

The second primer material 41, from which the second primer layer 4 is formed, is obtained by mixing varnish and dye and is an opaque colored material. The first transparent material 51 contains an acrylic resin that acquires transparency after hardening, shiny particles 52 and various additives. The second transparent material 61 contains acrylic resin, which becomes transparent after hardening, and various additives.

Materials 41 and 51, 61 practically do not contain matting additives, and they can be used to form glossy films.

Below is described in detail a method of manufacturing a building panel 1 according to the invention.

In the manufacture of the panel 1 (FIGS. 2, 3), the base plate 2 is first formed. Then, decorative protrusions 21 and recesses 22 are formed in the plate 2, and a relief pattern 211 having many small protrusions 212 and recesses 213 is formed on the upper surface of the protrusions 21.

Further, in order to ensure adhesion between the plate 2 and the material 31 of the future first primer layer, before starting the formation of this layer, the entire front surface of the plate 2 is treated with a pore filler (not shown in FIGS. 2, 3).

Further, at the stage of formation of the first primer layer (Fig. 4), the first primer material 31 is sprayed onto the entire face surface of the plate 2 (the surface of the protrusions 21 and recesses 22), forming the first primer layer 3. The viscosity of the material 31 should be 70 ~ 75 KU and the spraying density is 109 ~ 131 g / m ² .

After that, drying is carried out with the simultaneous curing of layer 3 in a stream of hot air. The drying time should be approximately 3 minutes, and the air flow temperature 80 ~ 110 ° C.

Then, at the stage of forming the second primer layer (Fig. 5), a second primer material 41 is applied to the protrusions 21 on the front surface of the first primer layer 3 with a roller, forming a second primer layer 4 having a relief surface repeating the shape of the relief pattern 211 on the front surface of the plate 2. The viscosity of the material 41 should be 80 ~ 85 KU, and the application density 43 ~ 65 g / m ² .

After that, drying is carried out with the simultaneous curing of layer 4 in a stream of hot air. The drying time should be approximately 3 minutes, and the air flow temperature 80 ~ 110 ° C.

Further, in the step of forming the shiny transparent layer (FIG. 6), the first transparent paint material 51 is applied to the protrusions 411 of the embossed surface of the layer 4 using a roller, forming a shiny transparent layer 5. The material 51 contains many shiny particles 52 in the form of thin flat flakes. The content of particles 52 in the material 51 should be 5 wt.%, The viscosity of the material 51 95 ~ 120 KU, and the density of the deposition of the material 51 on the protrusions 411 43 ~ 65 g / cm ² .

The hardness of the rubber on the surface of the roller for applying material 51 should be high and be 35 ~ 45 °. The surface of the roller should be in contact only with the protrusions 411 of the embossed surface of the layer 4.

Due to the high viscosity of the material 51, comprising 95 ~ 120 KU, the shiny particles 52 contained in the layer 5 practically do not settle into the lower part of the layer and maintain a stable spatial position. Moreover, almost all particles 52 are located parallel to the plane of the plate 2.

The reason that the bulk of the particles 52 is parallel to the plane of the plate 2 may be because they are concentrated in a free state in the depth of the material 51 due to its high viscosity. Moreover, due to the high hardness of the rubber on the surface of the coating roller, particles 52 under pressure of this roller are parallel to each other and almost parallel to the plane of the plate 2.

Then, at the stage of forming the upper transparent layer (Fig. 1), a second transparent paint material 61 is applied by air spraying to the entire surface of layer 4 (protrusions 21 and recesses 22), including the surface of layer 5, and thus the upper transparent layer 6 is formed. material 61 should be 20 ~ 25 s (Iwata Cup NK2 viscometer, 25 ° С), and the deposition density of 43 ~ 87 g / m ² .

Finally, blast drying of layers 5, 6 is carried out with their simultaneous curing in a stream of hot air heated to 80 ~ 110 ° C for about 3 minutes. The result is a finished building panel 1, which is a base plate 2 with a multilayer coating on the front surface.

In the panel 1 manufactured in this way, almost all the shiny particles 52 do not settle inside the layer 5 and are located essentially parallel to the plane of the plate 2.

7 shows an enlarged fragment of the front surface of the panel 1. The areas on which the particles 52 correspond to the protrusions 112 of the relief pattern of the front surface of the panel 1. The areas on which the particles 52 are practically absent correspond to the recesses 113 of the relief pattern 111.

As shown in FIG. 8, the light beam L1 directed to the front surface of the panel 1 passes through the layer 6 and is reflected by the particles 52 contained in the layer 5, thereby creating a visual gloss effect. Another light beam L2 directed to the front surface of the panel 1, even in the absence of reflection from particles 5 passes through layer 6, is reflected by layer 4 and again passes through layer 6, now in the opposite direction, thereby again creating a visual gloss effect.

Due to this, the gloss of the front surface of the panel does not depend on the angle of incidence of the light and is visible when observed from almost any angle.

As shown in Fig. 8, it is also possible that, due to the absence of sedimentation of particles 52 in layer 5 and their arrangement almost parallel to the plane of plate 2, light beam L3, reflected from layer 4, passes between particles 52 without reflection and exits outside of layer 6 In this case, the beam L3 is painted in the color of layer 4.

As a result, interference of light beams reflected from particles 52 and from layer 4 occurs, and panel 1 is painted in various interference colors due to the complex reflection of the incident light.

By coloring the panel 1 in interference colors by the reflection mechanism described above, the need to add a color dye to the transparent paint material 51, from which the shiny transparent layer 5 is formed, is eliminated. This would enhance the gloss effect, since the presence of paint in the material 51 would darken particles 52 and, as a result, to a decrease in gloss.

It should be noted that the particles 52 that produce the gloss effect have, from an optical point of view, a disadvantage in that these particles can effectively reflect rays incident at angles close to the straight line, but they practically do not reflect rays incident at other angles. for example about 10 ~ 20 °.

In order to compensate for this drawback, the transparent coating of the panel 1 according to the invention is formed two-layer and includes a shiny transparent layer 5 containing particles 52, and an upper transparent layer 6 formed on the layer 5. Due to this, rays incident on the surface of the panel at angles at which it is impossible to achieve a gloss effect with particles 52, they are reflected by layers 4 and 6 and as a result, an additional color gloss effect is created in which the color of layer 4 is involved.

In well-known building panels, dyes are used to give the shiny particles a variety of colors to create a visual effect of color gloss using gloss particles. Because of this, in known wall panels, shiny particles have the color of said dyes.

In the building panel 1 according to the invention, no dyes are used, and the gloss of the particles 52 is provided by using the colors of the second primer layer 4. In other words, the rays of light coming from outside, reflected from layer 4 and coming out through particles 52, acquire the color of layer 4.

Thus, the overall color tone of the panels 1 can, if necessary, be changed by simply changing the color of the layer 4, without any use of dyes.

In addition, the described coating structure of the front surface of the panel 1 makes it shiny when observed from almost any angle of view and provides coloring of the panel in interference colors due to the complex reflection of the incident light rays.

Another difference of the panel 1 is that a shiny transparent layer 5 is formed only on the protrusions 411 of the embossed surface of the second coating layer 4 and is practically absent in the recesses 213. Due to this, the consumption of expensive material used to obtain particles 52 is reduced.

In addition, the entire front surface of the panel 1 is covered with an upper transparent layer 6, which effectively inhibits the process of damage to the front surface under the influence of the external environment.

Claims (3)

1. Ceramic building panel, characterized in that it contains a base plate with a relief pattern on the front surface; a first primer layer applied to the front surface of the base plate; a second primer layer deposited on the surface of the first primer layer and forming a relief front surface, repeating the relief of the pattern of the front surface of the base plate; a shiny transparent layer obtained by applying the first transparent paint material containing a lot of shiny particles in the form of thin flakes on the protrusions of the relief front surface of the second primer layer; and an upper transparent layer obtained by applying a second transparent paint material on the entire front surface of the second primer layer, including the surface of the shiny transparent layer; however, these shiny particles located in a shiny transparent layer are not prone to sedimentation and are located mainly parallel to the plane of the base plate, the viscosity of the first paint material is 95 ~ 120 KU, and a shiny transparent layer is formed by applying the first paint material using a roller. 2. The construction panel according to claim 1, characterized in that the relief pattern on the front surface of the base plate has many small protrusions, while a shiny transparent layer is formed on the small protrusions of the relief front surface of the second primer layer. 3. A method of manufacturing a building panel, characterized in that they form a base plate with a relief pattern on the front surface; by applying the first primer material to the front surface of the base plate, the first primer layer is formed; by applying a second primer material to the surface of the first primer layer, a second primer layer with a surface relief repeating the relief of the front surface of the base plate is formed; on the protrusions of the relief surface of the second primer layer, a first transparent coating material is applied, which contains many shiny particles in the form of thin flakes and has a viscosity of 95 ~ 120 KU, and thus forms a shiny transparent layer; a second transparent coating material is applied to the entire surface of the second primer layer, including the surface of the shiny transparent layer, and thereby an upper transparent layer is formed; at the same time, at the stage of formation of the shiny transparent layer, the first transparent material is applied using a roller and thus ensures that the shiny particles in the shiny transparent layer do not settle and are located mainly parallel to the plane of the base plate.

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