RU182307U1 - COMBINED BUILDING PANEL - Google Patents

Abstract

The utility model relates to the field of construction, namely to combined building panels and can be used for insulation, external protection and decorative decoration of building facades, including for the manufacture of ventilated facades. A technical problem is the creation of an easy-to-use universal and durable combined panel, providing thermal insulation of buildings and protection from adverse environmental influences. The technical result consists in increasing the strength and service life of the combined building panel, by increasing the resistance of the combined building panel to adverse environmental effects due to the fact that the combined building panel contains a decorative facing part and a heat-insulating part, the side edges of which are made in the form of locking elements, while the decorative facing part contains a sheet of ceramic material made of a mixture of clay, feldspar and quartz Vågå sand, sintered at a temperature not lower than 1220 ° C, and the heat insulating portion is connected to the back of the decorative facing part by curing, to form a layer of polyurethane foam, a polyol mixture and a polyisocyanate deposited on the back side of a sheet of ceramic material. 4 s.p. f-ly, 3 ill.

Description

The utility model relates to the field of construction, namely, to combined building panels and can be used for insulation, external protection and decorative decoration of building facades, including for the manufacture of ventilated facades.

A combination building panel is known from the prior art, the edges of which form lock elements on the sides, comprising heat-insulating part made of polyurethane foam and a decorative cladding tile clad together (see patent RU 2468165, class E04F 13/08, published on April 27, 2010 ) The disadvantages of the known device are the fragility of the decorative cladding, as well as a rather limited area due to the high weight of the clinker tiles. In addition, ceramics can not withstand strong shocks, so during installation of the modules and during operation it is necessary to be careful with this material, which significantly increases labor costs.

The technical problem is the creation of an easy-to-use universal and durable combination panel that provides thermal insulation of buildings and protection from adverse environmental influences. The technical result consists in increasing the strength and service life of the combined building panel during operation by increasing the resistance of the combined building panel to adverse environmental influences.

The problem is solved, and the technical result is achieved by the fact that the combined building panel contains decorative

the facing part, and the heat-insulating part, the lateral edges of which are made in the form of castle elements, while the decorative facing part contains a sheet of ceramic material made of a mixture of clay, feldspar and quartz sand, sintered at a temperature of at least 1220 ° C, and the heat-insulating part made of a decorative facing part connected to the back side by curing, with the formation of a layer of polyurethane foam, a mixture of polyol and polyisocyanate, deposited on the back side of a sheet of ceramic material ala.

In the particular case of implementation, the decorative cladding may have a thickness of 3 to 5 mm, and the combined building panel may further comprise a fiberglass reinforcing mesh fixed to the decorative cladding before applying a mixture of polyol and polyisocyanate to the back of the decorative cladding. In this case, the ceramic material can be made with porcelain stoneware, and may also contain mineral dye. Decorative facing part can be made of paired sheets of ceramic material. Additionally, the combined building panel may comprise a strong substrate fixed to the back of the decorative cladding panel by placing the durable substrate on a mixture of polyol and polyisocyanate before curing it to form a layer of polyurethane foam.

In FIG. 1 shows a cross section of the proposed panel with orthogonal locking elements;

in FIG. 2 - the same with cylindrical locking elements;

in FIG. 3 - the same with trapezoidal locking elements;

A combined building panel, in the particular case of its implementation, consists of a solid substrate 1, a central heat-insulating part 2 of polyurethane foam and a decorative cladding part 3, forming a monolithic structure formed during the production of the panel. The lateral edges of the panel on the sides form the locking elements 4 in the form of protrusions and recesses of various shapes corresponding to each other (rectangular (Fig. 1), semi-cylindrical (Fig. 2), trapezoidal (Fig. 3), etc.) The presence of the locking elements significantly affects on the technical result, since the connection of the panels with the locking elements is substantially tight and prevents moisture from entering the polyurethane foam insulation without the use of additional sealants.

Decorative cladding part 3 can be made, for example, of a ceramic sheet produced under the trademark ARCH-SKIN (ARCHSKIN) formed at a temperature of at least 1220 ° C from a mixture of clay, feldspar and quartz sand, with the addition of mineral dye. The specified mixture can be subjected to pressing without the use of hard forms, which provides surface roughness, the absence of internal stresses and increased adhesion between polyurethane foam and ceramic sheet. By selecting modes, for example, temperature and sintering time, a ceramic sheet can be made with porcelain stoneware, that is, with increased bending and tearing strength and closed pores on the back (facing the combined facing panel) and the front (facing out) sides of the sheet. Decorative cladding part 3 can be made of a sheet with a thickness of 3 mm, 5.6 mm, 14 mm or 20 mm. It is preferable to make a decorative cladding part with a thickness of 3.5 mm with a fiberglass mesh applied over the decorative cladding part. The grid (not shown in the drawings) can be glued to the decorative cladding along the entire length of the fibers of the grid, or fixed to the back of the decorative cladding at separate points. A flexible thin sheet together with a reinforcing mesh embedded in the structure of polyurethane foam in close proximity to the surface of the ceramic sheet significantly improve the mechanical properties of the product. When performing a decorative panel 2 of several ceramic sheets, a reinforcing mesh prevents the product from being divided into several parts.

The heat-insulating part 2 is made of polyurethane foam by curing deposited on part 3, for example, in a mold, a mixture of polyisocyanate and polyol. The specified mixture may also contain additional modifying additives, increasing, for example, elasticity and resistance to low temperature, which is not essential for the purposes of this utility model. This formation of a layer of polyurethane foam significantly increases the adhesion and strength of the connection of parts 2-3 to each other, and also eliminates the possibility of forming sections that are not bonded to each other. The substrate 1 can simultaneously perform the functions of protecting the panel from external influences and increase the strength of the panel, for example, under bending loads. The attachment of the substrate 1 to the product is carried out simultaneously and as a result of polymerization of polyurethane foam. The substrate can be made of various plastics, for example, polyurethane, polystyrene or other materials, for example, galvanized sheet steel, wood plywood and fiberglass.

The principal differences between the PUF boards with the outer layer of ARCH-SKIN (materials from fine ceramics) from the well-known facade panels with clinker tiles are the following factors.

The proposed combined building panel has 2-3 times less weight than a panel with clinker facade tiles. With a thickness of 3 to 5 mm, its ceramic sheet withstands the load several times more than ordinary clinker tiles, and, in the case of adding a fiberglass mesh on the back, is able to withstand various direct impacts. This makes it possible to make panels of a larger area with the same weight, which increases the speed of covering the required area of the facade during installation, and also while maintaining the area of the panel, facilitate the installation process and reduce the cost of supporting structures (if used).

Due to the almost unlimited area of the ARCH-SKIN sheet, the front side of the panel is automatically protected from the harmful effects of UV radiation on polyurethane foam. In traditional facade panels, for these purposes, the laborious process of grouting joints between panel elements, as well as the process of applying quartz sand between clinker tiles, is already used in the production of panels.

Due to the lack of visible regularity of the appearance of the surface (due to the fixed dimensions of the rectangular clinker tiles), architectural and design restrictions typical for clinker façades are greatly reduced.

The use of the proposed PPU panels with ARCH-SKIN cladding allows you to simultaneously solve several problems: insulation of the facade (usually performed with mineral wool or extruded polystyrene foam when using ventilated facades), its external protection and decorative decoration.

In front thermal panels with ARCH-SKIN, unlike ventilated facades, there are no visible seams and clasps that impair the appearance of the facade.

The absence of micropores and seams provides increased protection of the surface of the panels from contamination (anti-vandal performance).

With a thickness of ARCH-SKIN sheet from 3 to 5 mm, the proposed panel can withstand loads several times greater than the traditional one, and the addition of a fiberglass mesh provides the ability to withstand various direct impacts.

The principal advantages of PPU slabs with an external layer of ARCH-SKIN for interior decoration are the provision of soundproofing of the premises when applied to the decoration of walls, floors, ceilings and the provision of thermal stabilization of rooms finished with polyurethane foam.

The surface of ARCH-SKIN ceramic sheets can be treated with a thin layer of titanium dioxide, which is preliminarily subjected to photocatalysis, due to which the sheet acquires a unique ability to self-clean with the release of oxygen into the surrounding atmosphere. This is relevant for the design of facades and the arrangement of so-called “clean rooms” (operating rooms, medical laboratories, etc.), where it is important to minimize the appearance and reproduction of harmful microflora.

Based on climatic conditions and the application zone (outside or inside the building), the proposed panels based on polyurethane foam can be made with different thicknesses of the polyurethane foam part 2 in the range of 10 ... 150 mm and an area of up to 1000 mm × 3000 mm. At the same time, the density of polyurethane foam required for the production of finished panels should be in the range of 45-75 kg / m ³ .

The proposed combined building panels are produced as follows.

From a mixture of clay, feldspar, quartz sand and mineral dye at a temperature of not lower than 1220 ° C by means of sintering and pressing without the use of hard forms, the ARCHSKIN ceramic granite sheet is formed.

They lubricate the mold (it fully corresponds to all sizes of the manufactured panel) with anti-adhesive lubricant.

The ARCHSKIN sheet is laid in the mold corresponding to the dimensions of the panel being produced and forming the decorative facing part 3.

Using an automatic casting installation, a mixture of components A (polyol-based system) and B (polyisocyanate) for the production of heat-insulating part 2 from foamed polyurethane is fed into a mold that fully corresponds to the dimensions of the panels being manufactured.

The filled form after the start of foaming is covered with a substrate 1.

The mold is closed and held for 20 ... 40 minutes (depending on the thickness of the panel).

The finished combined construction panel is removed, the mold is cleaned, and re-casting is carried out.

For the manufacture of the proposed plates, high-pressure casting equipment is used with an actual maximum productivity of up to 196 kg / min, which provides the desired adhesion of the expandable polyurethane to ARCHSKIN from the front side and the substrate from the back. In the production, containers are used for components A and B of 500 liters each (that is, with a capacity of at least two barrels of raw materials), which are equipped with a non-contact combined electric heating with electronic thermal control separately for each component. Control is carried out from the monitor (19``) on the frame using the mouse and the remote control on the head bracket (buttons). The control interface has 99 fill programs and the ability to assign programs names and marks. There are also: an unlimited fill calendar to monitor personnel and prevent “left” work, an unlimited timer for the fill time (accuracy up to 0.001 sec.), A raw material consumption calculator for any selected period. To protect against pressure drops (human factor), the machine is equipped with electronic pressure sensors, both at low and high pressure. The length of the lever for the removal of the casting head is 2.3 m and the angle of rotation is up to 180 °, as well as the ability to initially adjust in height and quickly turn the head to any angle vertically. Self-cleaning single-cylinder filling head of direct-flow action, with a hydraulic drive, is made of high-strength steel and has a wear-resistant coating of the working chamber and stem and is equipped with a set of interchangeable nozzle nozzles with a step of 0.1 mm. Both high-pressure pumps have fine infinitely variable capacity control (electronically), allowing you to get a wide range of performance and setting the ratio of the raw materials A: B from 200: 100 to 100: 350. Bulb filters with a throughput of up to 240 l / min (each) have reusable filter elements with a cell of 100 microns. The machine has two circulation loops for each component with manual mode switching. Complete with the machine, a compressor is used with air monitoring and purification devices to create retaining pressure and a kit for pumping raw materials from transport containers to consumable containers by means of air back-up.

The specified firing temperature (not lower than 1220 ° C) provides optimal conditions for the formation of a surface that ensures reliable adhesion of part 3 from ARCHSKIN to the adjacent part 2 from polyurethane foam and reliable fastening between them (under other conditions, adhesion to porcelain stoneware must be ensured by the use of special additives to glue or using primers). Due to the main property of porcelain stoneware of the specified composition - closed pores on the surface of the material, even unprocessed porcelain stoneware does not absorb liquid, which reliably protects the panel from precipitation and humidity.

Thus, by improving the adhesion of the insulating and decorative facing parts and increasing the resistance to environmental influences, the proposed utility model can significantly increase the strength of the combined building panel.

Claims (5)

1. A combined building panel containing a decorative cladding part and a heat-insulating part, the side edges of which are made in the form of castle elements, while the decorative cladding part contains a sheet of ceramic material made of a mixture of clay, feldspar and quartz sand, sintered at a temperature not lower than 1220 ° С until the pores are closed on one of the sheet surfaces, and the heat-insulating part is made connected to the back side of the decorative cladding part by curing, with the formation of a layer polyurethane foam, a polyol mixture and a polyisocyanate deposited on the back side of a sheet of ceramic material, wherein before being applied to the backside of the decorative wall panel mixture of a polyol and a polyisocyanate on the decorative facing portion secured fiberglass reinforcing mesh. 2. The combined building panel according to claim 1, characterized in that the ceramic material is made with porcelain stoneware. 3. The combined building panel according to claim 1, characterized in that the ceramic sheet contains mineral dye. 4. The combined construction panel according to claim 2, characterized in that the decorative facing part is made of conjugated ceramic sheets. 5. The combined construction panel according to claim 1, characterized in that it comprises a strong substrate fixed to the back side of the decorative cladding panel by placing the durable substrate on a mixture of polyol and polyisocyanate before it cures to form a layer of polyurethane foam.

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