CZ2012155A3 - Building components - Google Patents

Abstract

Building elements, in particular fillers and insulating and load-bearing elements, such as, for example, stress bags, blocks, cladding panels, cladding components, facade elements and ceiling panels are provided with flat cavities (2) provided in planes perpendicular to the bearing surface. Granular heat-insulating material (3) is arranged in the cavities (2).

Description

Building elements

Technical field

The invention relates to building elements, in particular filling, insulating and load-bearing elements, such as roofing tiles, blocks, lining panels, lining components, facade elements, ceiling panels and the like, usually made of a concrete mixture, usually consisting of aggregates and binders, It is represented by cement and water and possibly other concrete additives and dyes.

BACKGROUND OF THE INVENTION

So far, the building elements have been made of a concrete mixture containing, in addition to cement and water, natural aggregate of normal or expanded or artificial sintered aggregate based on expanded clays called keramzite.

The disadvantage of such a concrete mix is that it contains quite a lot of cement, the production of which is very energy intensive, and the cement is therefore expensive. Also the consumption of aggregates in this case is higher. However, both natural or lightweight aggregate and artificial sintered aggregate, represented by keramzite, are relatively expensive.

SUMMARY OF THE INVENTION

The aforementioned drawbacks largely eliminate building elements, in particular filling and insulating and load-bearing elements, such as roofing tiles, blocks, tiles, tiles, facade elements, ceiling tiles and the like, usually made of a concrete mixture, usually consisting of aggregates and binders which are represented by cement and water and optionally from other concrete additives and dyes according to the invention, characterized in that their production concrete mixture contains, apart from cement, aggregates and water, either fly ash and / or at least a part of the aggregate represents natural and / or artificial aggregates.

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In particular, the solution according to the invention achieves a reduction in the consumption of energy-intensive, and therefore expensive, cement, as well as a reduction in the consumption of relatively expensive natural aggregates, as well as natural expanded aggregates or artificial sintered aggregates represented by ceramite. This leads to a reduction in the total cost of production of the building components of the present invention and their cost, thereby improving their marketability and competitiveness. The weight of these components is also reduced. This makes handling easier and more convenient also leads to reduced transport costs.

Coal-fired power and heat fly ash is an easily and relatively large amount of material available, usually as waste generated by the operation of power plants and heating plants - in the production of electric and thermal energy. This fly ash has good pozzolanic properties, contains free calcium oxide and replaces the expensive cement binder. Lightweight artificial sintered aggregate also reduces the weight of the product. Agloporite produced by sintering of fly ash by self-firing is the most advantageous of the sintered aggregates used so far. In addition, thermal energy is generated during its production, which is released as waste heat. Economically beneficial and environmentally friendly is also the use of fly ash, which is generated in power plants and heating plants as waste, which is thus conveniently used and disposed of. This also saves the cost of building fly ash deposits.

Quarry dust, slag, lime dust, metakaolin, brick meal, recycled brick and roof tiles, or concrete recycled waste are basically wastes whose use is both economically and environmentally advantageous. It saves quality natural materials - aggregates, limestone and thus cement. In addition, they mostly contribute to the improvement of the concrete mix and thus also to the improvement of the physical and utility properties of the manufactured building elements. The same applies to the quality of the concrete mix and the properties of the building elements when using air or hydraulic lime.

The construction of recessed profiled construction elements reduces product weight, reduces manufacturing component consumption, manufacturing costs and product cost. It contributes to easier handling of products and reduces their transport costs. The same applies to the cavities made in the building elements.

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Filling the cavities and / or recesses formed in the building elements with a thermal insulating material further improves the thermal insulating properties of the building elements of the present invention. The interconnection of these thermally insulating materials and their connection with adjacent surfaces of the building elements makes it easier to handle them, especially directly during the construction of the work.

Waterglass is a suitable, proven and readily available fastener.

Overview of the drawings

BRIEF DESCRIPTION OF THE DRAWINGS The invention is illustrated in greater detail in the drawing, in which FIGS. 1 and 3 show a sectional view of the expanded hollow blocks, and FIGS. 2 and 4 show a plan view thereof, partly in cross-section. The façade element and thus the structural cladding panel is shown in front view, partially in section, in FIG. 5.

Examples

The lightweight hollow block 1 according to FIGS. 1 to 4 is provided with flat cavities 2 formed in planes perpendicular to the loading surface, and in the cavities 2 a granular thermal insulating material 3 is arranged.

The flat cladding panel shown in FIG. 5 has projections 5 with abutment surfaces 6 and recesses 7 on the inner profiled surface 4 in which the thermal insulating material 8 is arranged.

Example 1

The concrete mixture for the production of roofing tiles is prepared in such a way that per 100 parts by volume of the mixture there are 45 parts by volume of natural aggregate 0-4 mm, or 0-8 mm respectively, by volume by volume 0-4 mm agloporite, 25 parts by volume cement, water and the usual additives for concrete and dye in the amount of 11 kg per 1 m 3 of concrete mixture and 15 parts by volume of thermal fly ash.

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Example 2

The concrete mixture for the production of lightweight hollow blocks is prepared by 100 parts by volume of 5 parts by volume of dust from stone quarry, 10 parts by volume of power slag, 25 parts by weight of cement with mixing water and 60 parts by weight of artificial aggregate from power plant fly ash. self-firing - agloporite fraction 0 to 8 mm.

Claims (4)

PATENT CLAIMS 1. Building elements, in particular filling and insulating and load-bearing elements, such as roofing tiles, blocks, tiles, lining components, facade elements, ceiling tiles and the like, usually made of a concrete mixture, usually consisting of aggregates and binders, represented by cement and water and, where appropriate, other additives for concrete and dyes, characterized in that their production concrete mix contains, in addition to cement, aggregates and water, either fly ash and / or at least part of the aggregate is lightweight aggregate natural and / or artificial. Building elements according to claim 1, characterized in that at least a part of the fly ash is a coal-fired power plant or a thermal fly ash and at least a part of the artificial aggregate consists of light artificial sintered aggregate based on expanded clays and clay. agloporite, preferably made by sintering the fly ash with self-firing. Building elements according to claim 1 or 2, characterized in that the concrete mixture further comprises at least one of the components represented by: (a) Quarry dusts (b) slag (c) lime dusts (d) aerial lime (e) hydraulic lime f) metakaolin (c) brick meal of baked clay products, in particular bricks, blocks, roofing tiles and the like (d) burnt brick and roof tile recycled building material or concrete recycled building material e) scattered reinforcement consisting of metal wires and / or fibers, such as textile, polypropylene, glass, carbon and aramid fibers, preferably in the length of 3 to 30 mm (f) reaction products from the semi-dry desulphurisation method. Building elements according to any one of claims 1 to 3, characterized in that at least a part of the outer surfaces are profiled, formed by protrusions and recesses, e.g. 9 · 9 · β Preferably, these building elements are provided with cavities, preferably at least a part of the cavities and / or at least a part of the recess being at least partially filled with a thermal insulating material, preferably perlite. and / or polystyrene, wherein the heat insulating material particles are connected to each other and / or to adjacent surfaces of the building elements by means of connection means, preferably water glass.