RU174634U1 - INSULATING FACING PLATE - Google Patents

Abstract

The utility model relates to building elements of relatively small thickness for the construction of individual parts of buildings, for example, slabs, panels consisting of insulating material and concrete, in particular heat and sound insulating slabs for wall cladding. made of heat-insulating material and a decorative protective layer made of fiber-reinforced concrete based on sand, cement binder and polymer additives. The material from which the decorative-protective layer is made as a binder additionally contains slaked lime. In the decorative protective layer, installation recesses are made on the outside for placing the heads of fasteners “flush” in them when fixing the plate to the wall of the building.

Description

The utility model relates to building elements of relatively small thickness for the construction of individual parts of buildings, for example, slabs, panels consisting of insulating material and concrete, in particular to heat and sound insulating plates for wall cladding.

A known insulating cladding plate adopted as the closest analogue is described in the RF patent No. 109771 for the utility model “Decorative facing cladding plate”, IPC E04C 2/288, 2011. The device according to the closest analogue is a two-layer plate. One layer of insulating plate performs the function of thermal insulation of the facade of the building and is a rigid sheet of heat-insulating material (polystyrene foam, mineral wool, etc.), the thickness of which (3-5 cm) depends on the climatic conditions of operation of the facade. The second layer of the slab - decorative-protective, performs aesthetic functions and protects the heat-insulating layer from external atmospheric and other influences and is a polymer-cement-sand layer, that is, a layer which includes cement as a binder, as well as sand and polymer additives reinforced with fiber a polymerizing additive (for example, polyvinyl acetate) and a plasticizer (for example, C-3 manufactured by Moscow Polyplast OJSC). The thickness of the second layer of the plate (1.0-1.5 cm) depends on the configuration of the texture pattern. In the manufacturing process of the plate, both layers are interconnected, ensuring their strong permanent connection. An insulating cladding plate is made - the closest analogue is vibrocasting into a mold.

It is known that:

- concrete - an artificial building material obtained by molding and solidifying a rationally selected and compacted mixture consisting of a binder (cement or other), large and small aggregates, water, and in some cases containing special additives;

- fiber - micro-reinforcement, evenly reinforcing concrete in all planes, increasing the grade of concrete, strength, impact resistance and reducing the formation of shrinkage cracks;

- fiber - any fibrous filler for concrete reinforcement;

- fiber concrete - a type of concrete in which fiber or fiber is evenly distributed as a reinforcing material, a high-tech material obtained by adding fiber to concrete;

- cement - an artificial inorganic hydraulic binder.

A plate consisting of a layer of sheet heat-insulating material, for example, polystyrene foam, polyurethane foam, foam glass, basalt plate and so on, and a decorative decorative protective layer of fiber-reinforced concrete, has, in addition to heat-insulating properties, also sound-insulating properties (sound-reflecting and sound-absorbing), due to its multilayer, relative thickness and structure of the material.

In view of the foregoing, the signs of the closest analogue, which coincide with the essential features of the utility model, are the presence in the insulating cladding plate of interconnected layers: an insulating layer of heat insulating material and a decorative protective layer of fiber concrete with polymer additives, sand and a cement binder.

The technical result of the utility model is to increase the biocidal properties of fiber-reinforced concrete due to the addition of slaked lime as an astringent, since the high alkalinity of lime prevents the appearance and development of bacteria, various forms of fungi and microorganisms.

A positive effect of the additional introduction of slaked lime is a decrease in shrinkage during hardening of cement stone, an increase in the plasticity (fluidity) of the solution.

A positive effect of the utility model is also an increase in the decorative properties of the insulating cladding plate due to the ability to hide the heads of fasteners used to fasten the plate to the wall of the building in installation recesses made in the thickness of the decorative protective layer, which will protect the heads of fasteners from corrosion due to the influence atmospheric influences and eliminate the possibility of spots from oxidation on the front surface of the plate.

The reasons that impede the receipt of the indicated technical result when using the closest analogue are the occurrence of foci of infection, a violation of the appearance of the surface of the decorative protective layer of the insulating facing plate, caused by the development of microorganisms.

The utility model is based on the technical task of expanding the arsenal of hardware for slab structures consisting of insulating material and fiber-reinforced concrete.

The stated technical problem is solved in that in the insulating cladding plate, including interconnected insulating layer made of heat insulating material and a decorative protective layer of fiber concrete based on sand, cement binder and polymer additives, according to a utility model, fiber concrete based on sand, cement binder and polymer additives from which the decorative protective layer is made, as a binder additionally contains slaked lime; in the decorative protective layer, installation recesses are made from the outside.

Between the totality of the essential features of a utility model and the achieved technical result, there is the following causal relationship. The combination of these essential features of a utility model is a necessary and sufficient condition for achieving a technical result. The implementation of the decorative protective layer of fiber reinforced concrete based on sand, cement binder and polymer additives, which also contains slaked lime as a binder, will improve the biocidal properties of fiber concrete due to the strong alkaline properties of lime. Slaked lime - calcium hydroxide (Ca (OH) ₂ - a strong base, white powder, poorly soluble in water. Obtained by the interaction of calcium oxide (quicklime) with water (a process called "slaking lime"), the reaction proceeds with the release of heat:

The installation of the recesses on the outside of the decorative protective layer will allow them to fit the heads of fasteners “flush” when attaching the plate to the wall of the building, ensuring their protection against corrosion due to atmospheric influences and eliminating the possibility of stains from oxidation of fasteners on the front surface of the plate and increasing decorative qualities of a plate.

The utility model meets the patentability criterion of "novelty." The prior art does not know the use of slaked lime as a binder in materials for the decorative protective layer of insulating cladding boards made of fiber-reinforced concrete based on sand, cement binder and polymer additives.

The utility model is illustrated by graphic material, where the figure shows a cross section of an insulating cladding plate including a layer of heat-insulating material 1, a decorative protective layer 2, an area 3 of splicing layers 1 and 2, installation recesses 4 in the decorative protective layer 2 from its outer side .

The utility model is illustrated by a specific example of manufacturing an insulating cladding plate. For the preparation of a decorative protective layer 2 of fiber-reinforced concrete based on sand, a binder - cement and slaked lime with polymer additives

In the mixing mode, in the following order, mixing water (partially), lime in the form of milk of lime or lime dough are introduced into the drum of the mortar mixer in the required amounts, while the milk of lime or lime dough must be aged from the moment the lime is quenched for at least two weeks, an inert aggregate, for example, sand of natural or artificial origin (partially), fiber, for example, polypropylene. The ingredients are mixed, after which cement is introduced into the drum, and the resulting mixture is mixed to a state of homogeneous mass. Then the remainder of the inert aggregate, the necessary additives (for example, to accelerate or slow down the setting, antifreeze, air-entraining, hydrophobic, etc.) are introduced and the composition is again mixed until uniform. At the end, mixing water is added in the amount necessary to obtain a mixture of the desired consistency. Then proceed to the formation of layer 2 of the plate. The prepared plastic mold with the surface of a given configuration is filled with the finished mixture in the required volume and vibrated on a vibrating table for 20-30 seconds. (vibration time is determined empirically).

The installation recesses 4 on the outside of the protective and decorative layer 2 are formed when pouring the solution into plastic molds, in which convexities corresponding to the recesses 4 are made. The number of recesses 4 on each plate depends on the number of fasteners needed to fix the plate to the wall of the building, and is normalized manufacturer’s specifications. After that, a prepared layer of heat-insulating material 1 is placed in the mold, uniformly pressed to the surface of the mixture to form layer 2, and vibrate for 5-10 seconds. Part of the liquid mixture for forming layer 2 penetrates into the porous surface of the layer of heat-insulating material 1, forming a fusion zone 3. After molding, the finished product is sent to the place of exposure for subsequent hardening. After the formation of the mixture perform the stripping of finished products. The insulating plate is mounted on the wall enclosing structures of buildings and structures end-to-end in rows using fasteners (not shown in the figure). Docking seams and recesses 4 with the heads of the fasteners are sealed, the surface of the plates is painted.

Claims (1)

Facing insulating plate, including interconnected insulation layer made of heat-insulating material and a decorative protective layer of fiber concrete based on sand and cement binder, characterized in that the fiber concrete based on sand and cement binder, of which the decorative protective layer is made, is reinforced polypropylene fibers, as an additional binder contains slaked lime; in the decorative protective layer, installation recesses are made from the outside.

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