RU2022127033A - BUILDING BLOCK - Google Patents

Claims (61)

1. A building block having: vertical walls forming a closed perimeter, a core filling the cavity formed by the said vertical walls from the plane of their lower end to the shrinkage plane located below the plane of their upper end, fastening layer and a hollow ventilated element connected to one of the vertical walls by means of said fastening layer, in which said ventilated element is provided with channels having open lower and upper ends, the mentioned vertical walls are made of the first material using the method of semi-dry vibrocompression, said first material is a moistened compressible mass containing a hydraulic binder and a fine-grained porous filler, said core is made from a second material by vibrating and pressing it within a preform containing said vertical walls, the second material mentioned is a large-porous concrete made by encapsulating a coarse-grained porous filler with a liquid solution of a hydraulic binder. 2. The block according to claim 1, characterized in that it additionally contains a top layer located in a space limited from below by said shrinkage plane, limited from above by said plane of the upper end of the vertical walls, and limited on the sides by the inner surface of said vertical walls, with said upper the layer is made of a third material containing a porous filler of fine fractions and a hydraulic binder. 3. The block according to claim 1, in which the above-mentioned ventilated element is made by the semi-dry vibration pressing method, the vibration casting method, the vacuum vibration molding method, by firing ceramic raw materials or by processing natural stone. 4. The block according to claim 1, in which the above-mentioned ventilated element is made of plastic. 5. The block according to claim 1, in which the above-mentioned ventilated element has a thickness of from 20 to 160 mm. 6. The block according to claim 1, in which the height of the above-mentioned ventilated element is 1-15 mm less than the height of the above-mentioned vertical wall to which it adjoins. 7. The block according to claim 1, in which the width of the above-mentioned ventilated element is 1-12 mm less than the width of the above-mentioned vertical wall to which it adjoins. 8. The block according to claim 1, in which the front surface of the above-mentioned ventilated element is provided with a decorative pattern and/or relief. 9. The block according to claim 1, in which the above-mentioned ventilated element is connected to the above-mentioned vertical wall to which it adjoins, with an offset in such a way that the contours of the ventilated element are shifted sideways and/or downward relative to the contours of the vertical wall to which it adjoins on the front projections. 10. The block according to claim 1, in which the rear side of the above-mentioned ventilated element adjacent to the above-mentioned fastening layer is provided with projections and grooves. 11. The block according to claim 10, in which the above-mentioned protrusions and grooves are made vertical to the entire height of the above-mentioned ventilated element. 12. Block according to any one of paragraphs. 10 or 11, in which said projections and grooves are made with a cross section resembling a dovetail. 13. Block according to any one of paragraphs. 10-12, in which the above-mentioned protrusions and grooves on the back side of the ventilated element are located mirroring the corresponding protrusions and grooves of the vertical wall to which the ventilated element adjoins. 14. Block according to any one of paragraphs. 10-13, in which the depth of the projections and grooves located on the rear side of the above-mentioned ventilated element is at least 3 mm. 15. Block according to claim 1, in which the depth of the above-mentioned channels is from 10 to 100 mm, and the width is from 15 to 120 mm. 16. The block according to claim 1, in which the above-mentioned ventilation ducts are located vertically. 17. The block according to claim 1, in which the above-mentioned fastening layer is made of an adhesive composition by vibration casting into removable formwork. 18. Block according to claim 1, in which the above-mentioned vertical walls have a thickness of from 18 to 35 mm. 19. The block according to claim 1, in which the above-mentioned vertical walls, which in the masonry are located on the facade side or on the room side, have a thickness of 18 to 150 mm. 20. The block according to claim 1, in which one of the mentioned vertical walls, which in the masonry is located on the side of the facade and to which the above-mentioned fastening layer is adjacent, has vertical projections and grooves. 21. The block according to claim 20, in which the above-mentioned protrusions and grooves in the vertical wall, which in the masonry is located on the facade side and to which the above-mentioned fastening layer adjoins, are made vertical. 22. Block according to any one of paragraphs. 20 or 21, in which the above-mentioned protrusions and grooves in the vertical wall, which in the masonry is located on the facade side and to which the above-mentioned fastening layer is adjacent, have a depth of at least 3 mm. 23. The block according to claim 1, in which the above-mentioned vertical walls, located on the butt sides, are equipped with protrusions and reciprocally shaped grooves that ensure tight abutment of adjacent butt sides in a horizontal row of masonry. 24. The block according to claim 23, in which the above-mentioned protrusions and grooves in the vertical walls located on the butt sides have a trapezoidal or rectangular cross-sectional shape. 25. The block according to claim 1, in which the above-mentioned vertical walls together form a prismatic body with a rectangular cross-section. 26. The block according to claim 1, in which the above-mentioned vertical walls together form a body with cross-sectional contours different from a rectangle. 27. Block according to claim 2, wherein said top layer has a thickness of 5 to 20 mm, preferably 5 to 15 mm. 28. The block according to claim 2, in which the above-mentioned top layer is made with a thermal break in the form of at least one strip with a width of 20 to 150 mm, partially unfilled with material. 29. The block according to claim 2, in which the above-mentioned hydraulic binder in the above-mentioned first and/or second and/or third materials is selected from the group consisting of Portland cement, aluminous cement and mixtures thereof with each other and/or with liquid glass. 30. The block according to claim 1, in which the above-mentioned hydraulic binder in the above-mentioned first and/or second and/or third materials is selected from the group consisting of gypsum, alabaster, magnesium cement, albolite and mixtures thereof with each other. 31. The block according to claim 1, in which the above-mentioned first and/or second and/or third materials additionally contain functional additives selected from the group consisting of a plasticizer, a set accelerator and an air-entraining additive. 32. The block according to claim 1, in which the above-mentioned first and/or second and/or third materials additionally contain fly ash. 33. The block according to claim 1, in which the above-mentioned first and/or third materials have a mass moisture content of 6-8 wt. %. 34. The block according to claim 1, wherein the D60 of the filler particles in the above-mentioned first and/or third material is less than 2 mm. 35. The block according to claim 1, in which the above-mentioned porous filler contained in the above-mentioned first and/or third material is selected from the group including expanded clay, crushed expanded clay, foam glass, perlite, diatomite, shungite, vermiculite, ceramic foam and a mixture thereof. 36. The block according to claim 1, in which the above-mentioned porous filler in the above-mentioned first and/or third material is crushed foam aerated concrete of a fraction of 2-5 mm. 37. The block according to claim 1, wherein the above-mentioned porous filler contained in the above-mentioned first and/or third material has a particle size of 0-7 mm. 38. The block according to claim 1, in which the above-mentioned porous filler contained in the first and/or third material has a bulk density of not more than 700 kg/m ³ . 39. The block according to claim 2, in which the above-mentioned first and/or third material further comprises a fibrous alkali-resistant filler selected from the group consisting of staple glass fiber and staple basalt fiber. 40. The block according to claim 2, in which the above-mentioned first and/or third material has the following composition, wt. %: porous filler of round or gravel shape, fraction 0-7 mm, bulk density from 300 to 700 kg/m ³ from 30 to 60 construction sand fraction 0-3 mm from 1 to 15 Portland cement grade M400-M500 from 20 to 50 functional additives from 0.1 to 5 water rest 41. The block of claim 1, wherein the hydraulic binder does not completely fill the space between the particles of said second material filler. 42. The block according to claim 1, wherein the D60 of the filler particles in the above-mentioned second material is 7-25 mm. 43. Block according to claim 1, in which the volume fraction of filler and voids not filled with binder in the above-mentioned second material is more than 50%. 44. The block according to claim 1, in which the volume fraction of air pores in the above-mentioned second material is greater than 15%. 45. The block according to claim 1, in which the above-mentioned second material is a large-porous sandless expanded clay concrete with large filler fractions with a diameter of 7 to 25 mm and a bulk density of 180 to 550 kg/m ³ . 46. Block according to claim 1, in which the above-mentioned second material has the following composition, per 1 m ³ : porous filler of round or gravel shape, fraction 7-25 mm, bulk density from 180 to 550 kg/m ³ 1 m ³ Portland cement grade M400-M500 from 110 to 180 kg functional additives from 0.1 to 15 kg water from 80 to 170 l 47. The block according to claim 2, in which the above-mentioned third material is expanded clay concrete with expanded clay of fractions 0-5 mm or crushed expanded clay of fractions 0-7. 48. The block according to claim 2, in which the above-mentioned third material has the following composition, wt. %: porous filler of round or gravel shape, fraction 0-7 mm, bulk density from 300 to 700 kg/m ³ from 30 to 70 Portland cement grade M400-M500 from 20 to 50 functional additives from 0.1 to 5 water rest