RU170797U1 - Building block - Google Patents

Abstract

The utility model relates to the field of construction, namely to building elements, and can be used in the construction of individual parts of buildings for indoor and outdoor use. A building block is proposed, made hollow and having six walls, consisting of a reinforcing filler based on inorganic fibers impregnated with an inorganic binder, and an internal cavity filled with inorganic powder material. The wall thickness does not exceed 2.5 cm, and the ratio of the length of the largest block rib to the wall thickness k is 10-12: 1. Inorganic fibrous materials are used as a reinforcing filler in the form of fabrics or discrete fibers: glass, basalt, carbon, metal. The content of the reinforcing filler in the walls of the block is 10-60 vol.%. As an inorganic binder, cements, compositions of alumina cements with liquid glass, alumina-boron or aluminochromophosphate compositions, liquid glass modified with sodium tetraborate are used. Perlite, expanded clay, mineral wool, graphite, boron and tungsten, or their compounds, are used as inorganic powder material to fill the internal cavity of the block. The walls of the block have different thicknesses, the wall of the block facing the room has a thickness sufficient to use a nail or a screw. The proposed unit is non-combustible, does not emit degradation products during a fire, has heat, sound, radio and radiation protection properties, is characterized by high strength and low specific gravity, does not require additional work to create insulating properties and cladding. The design of the unit allows the use of nails and screws for fastening on it.

Description

The utility model relates to the field of construction, namely to building elements, and can be used in the construction of individual parts of buildings for indoor and outdoor use.

Known heat-insulating SIP panels, including layers of oriented wood chips, impregnated with foamed polystyrene (US 2014059958, IPC E04C 2/288, 03/06/2014), Teplosten panels (1999), which are a heavy three-layer structure made of expanded clay concrete, expanded polystyrene and the outer layer of clinker. The main disadvantage of these technical solutions is the use of organic combustible components that emit harmful decomposition products in a fire.

Known concrete reinforced with discrete fibers (Pashchenko A.A., Serbia V.P., Paslavskaya A.P., Glukhovsky V.V., Biryukovich Yu.L., Solodovnik A.B. "Reinforcing of inorganic binders with mineral fibers" M.: Stroyizdat, 1988; FN Rabinovich “Dispersion-reinforced concrete.” M: Stroyizdat, 1989). The content of discrete fibers in such reinforced concrete usually does not exceed 4%, which does not allow to obtain thin-walled building elements. Blocks made of such concrete do not provide sufficient thermal and sound insulation.

A known building block is described in patent RU 2081264, Е04С 1/00, Е04В 2/08, 06/10/1997, consisting of ceramic walls parallel to one another, which are interconnected by ceramic walls installed perpendicular to them. The walls of the block are made with grooves and fixing protrusions corresponding in shape and size to them.

In this known block there are no combustible components, but it does not provide high-quality heat and sound insulation, since the presence of internal cavities in the block solves this problem only partially. Ceramic blocks are fragile, have a high specific gravity and require high temperatures in production.

The objective of the proposed utility model is the development of a building block with a wide range of useful properties: non-combustible and does not emit degradation products in case of fire, providing heat, sound, radio and radiation insulation, having high static and impact strength, low specific gravity, which will allow avoid additional work on the creation of insulating properties and cladding. The design of the unit should provide for the possibility of using nails and screws for fastening on it.

The solution to this problem is achieved by the proposed building block, made hollow and having six walls, consisting of a reinforcing filler based on inorganic fibers, impregnated with an inorganic binder, and an internal cavity filled with inorganic powder material, while the wall thickness of the block does not exceed 2.5 cm, and the ratio of the length of the largest rib of the block to the wall thickness is 10-12: 1.

Inorganic fibrous materials in the form of fabrics or discrete fibers can be used as a reinforcing filler based on inorganic fibers: glass, basalt, carbon, metal.

The content of the reinforcing filler in the walls of the block may be 10-40 vol.%.

As an inorganic binder, cements, compositions of aluminous cements with liquid glass, alumina-boron or aluminochromophosphate compositions, liquid glass modified with sodium tetraborate can be used.

As inorganic powder material, perlite, expanded clay, mineral wool, graphite, boron and tungsten or their compounds can be used.

The walls of the block can have different thicknesses.

The wall of the block facing the room has a thickness sufficient to use a nail or screw.

The wall of the block, designed for the outside of the building, can be made with slopes.

In FIG. depicts a General view of the proposed building block. The block body (1) consists of six walls, one of the walls (2) is made of sheet cladding material obtained either by injection molding (then wall (2) can be made with slopes, as shown in Fig.), Or by impregnation of inorganic fabric (3 -5 layers) inorganic binder followed by pressing. The internal cavity of the block is filled with inorganic powder material (3).

The high content of reinforcing filler in the walls of the block - up to 40 vol.% - allows you to make it thin-walled and provides static and dynamic strength of the block. The absence of organic components makes the unit non-combustible and safe in case of fire.

The inventive wall thickness of the block provides a sufficient volume of the internal cavity and as a result a low specific gravity of the block.

Heat and sound insulating properties are given to the claimed unit by the introduction of powder perlite, mineral wool or other heat-insulating inorganic materials. Absorption of electromagnetic radiation from the radio wave and microwave range is provided by powder or fibrous carbon dispersed in an inorganic powder carrier. Radiation-protective, in particular neutron-shielding properties, are determined by the introduction of powdered boron, tungsten or their compounds into the block.

Adding sodium tetraborate to the liquid glass provides high water resistance of the proposed block.

The proposed building block is made as follows: either a mixture of an inorganic binder with reinforcing inorganic fibers is poured into the mold, or inorganic fabric or discrete inorganic fibers are placed in the mold and the reinforcing filler is filled with an inorganic binder. Cure at room temperature. Then, inorganic powder material: perlite, expanded clay, mineral wool, graphite, boron, tungsten or boron or tungsten compounds is introduced into the open internal cavity of the cured block body, depending on the requirements of the building element. To close the inner cavity, the sheet lining material is glued using inorganic glue or cement mortar to the walls of the block along the contour of the inner cavity, obtained either by injection molding, as described above, then the wall can be sloped, or inorganic fabric (3-5 layers) is impregnated with inorganic binder, dried at room temperature and pressed at 100-130 ° C for 15 minutes The wall of the block of facing material is intended for the outside of the building.

The tests showed that the proposed building block is fire resistant - does not support combustion in pure oxygen; It has high thermal stability - no mass loss is observed up to 600-1200 ° C; low thermal conductivity - 0.06-0.08 W / m⋅K (for comparison: wood - 0.15, glass - 1.15, concrete - 1.75); good sound insulation properties - sound insulation coefficient 0.5-0.7. Under shock loading, the sample does not completely collapse - the measured toughness is 30-40 kJ / m ² (for comparison: polymers 3-30, glass 1.15, concrete 1.75). The compressive strength is 35-40 MPa. The unit is characterized by a low specific gravity of 0.5 g / cm ³ (the weight of the inventive unit with a size of 30 × 20 × 15 cm is 4.5 kg). At a moisture content of 95%, the unit has zero hygroscopicity. When kept in water for 2 hours, the mass loss is 2%.

Thus, the proposed building block is non-combustible, does not emit degradation products during a fire, has heat, sound, radio and radiation protection properties, is characterized by high strength and low specific gravity, does not require additional work to create insulating properties and cladding. The design of the unit allows the use of nails and screws for fastening on it.

Claims (8)

1. A building block made hollow and having six walls, consisting of a reinforcing filler based on inorganic fibers, impregnated with an inorganic binder, and an internal cavity filled with inorganic powder material, the wall thickness not exceeding 2.5 cm, and the ratio of the length of the largest rib block to wall thickness is 10-12: 1. 2. The block according to claim 1, characterized in that inorganic fibrous materials in the form of fabrics or discrete fibers: glass, basalt, carbon, metal, are used as a reinforcing filler based on inorganic fibers. 3. The block according to claim 1 or 2, characterized in that the content of the reinforcing filler in the walls of the block is 10-40 vol.%. 4. The block according to claim 1, characterized in that as an inorganic binder, cements, compositions of aluminous cements with liquid glass, alumina-boron or alumino-phosphate compositions, liquid glass modified with sodium tetraborate are used. 5. The block according to claim 1, characterized in that perlite, expanded clay, mineral wool, graphite, boron and tungsten or their compounds are used as inorganic powder material. 6. The block according to claim 1, characterized in that the walls of the block have different thicknesses. 7. The block according to claim 1 or 6, characterized in that the wall of the block facing the room has a thickness sufficient to use a nail or screw. 8. The block according to claim 1, characterized in that the wall of the block, designed for the outside of the building, is made with slopes.

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