RU2163284C1 - Composite building unit - Google Patents

Abstract

FIELD: construction engineering; building units for ceilings of buildings and structures. SUBSTANCE: unit has body made of at least two parts fabricated from extra light-mass concrete. Slots are made on some surfaces of body; reinforcing fastener is made of reinforcing members arranged in slots and joints to organize hollows and hardener medium that fills up the hollows. One part of body is essentially main part, other one is auxiliary part. Reinforcing fabrics with meshes are used as reinforcing fastener. One of surfaces of auxiliary body part has set of nonintersecting slots or net of slots mating the reinforcing net; slots of mentioned net mating the reinforcing net are different in depth. Adhesive compound is used as hardener. EFFECT: reduced specific weight and heat conductivity of building unit. 4 cl, 5 dwg

Description

 The invention relates to construction, namely to the production of building materials.

 Known composite building element used in ceilings of buildings and structures, containing a body consisting of at least two parts with grooves made of especially lightweight concrete, and a reinforcing element, the reinforcing element contains bars of steel placed with the formation of voids in the grooves, voids filled with heavy concrete [1]. The disadvantages of the known composite building element are the large specific gravity and high thermal conductivity due to the use of heavy concrete when creating structures.

 An object of the invention is the creation of a composite building element with sufficient bearing capacity for use in flexible structures of buildings, due to the full use of the strength of particularly lightweight concrete and reinforcing steel by reliably fixing the reinforcing elements in the adhesive composition, reducing the specific gravity and thermal conductivity of the building element.

 The solution to the technical problem is achieved by the fact that the composite building element contains a body consisting of at least two parts made of especially lightweight concrete, grooves are made on some surfaces of the body parts, and reinforcing elements placed in the grooves with the formation of voids, a cured medium filling voids, moreover, one part of the body is made in the form of the main part of the body, the other part of the body is made in the form of the auxiliary part of the body, reinforcing elements with mesh are used as reinforcing elements, on one the surfaces of the auxiliary part of the body, the grooves are made in the form of a groove system consisting of disjoint grooves or of a groove mesh, a mating reinforcing mesh, grooves of a groove mesh, a mating reinforcing mesh, made of different depths, the characteristic size H of the main body in a direction perpendicular to the reinforcing mesh is larger characteristic size h of the auxiliary part of the body in the same direction, an adhesive composition is used as a curing medium, reinforcing mesh made of reinforcing steel, cross-sectional area rebar, forming the long sides of the cell reinforcing mesh is greater than or equal to the cross-sectional area of the rebar, forming the short sides of the reinforcing mesh cells.

In FIG. 1 shows a general view of a composite building element for the case of a system of grooves parallel to each other;
in FIG. 2 is a front view of a building element;
in FIG. 3 shows a general view of a composite building element for the case of a rectangular groove grid;
in FIG. 4 is a front view of a building element;
in FIG. 5 is a surface view of a building element with a mesh of grooves with rectangular cells.

 The composite building element 1 contains a body 2, consisting of a main part 3 and an auxiliary part 4 made of especially light concrete, a groove system 11 is made on the surface 10 of the auxiliary part 4. The main part 3 of the body 2 is connected to the auxiliary part 4 of the body 2 by adhesive composition, reinforcing elements 6 contain reinforcing mesh 9, placed in the system 11 of the grooves 5, with the formation of voids 7, and in the seams 8. The seams 8 and the system 11 of the grooves 5 are filled with the adhesive composition. Reinforcing mesh 9 are made of reinforcing steel and have, for example, rectangular cells. In FIG. 1.2 shows an example of a composite building element 1 for execution on the surface 10 of the auxiliary part 4 of the body 2 of the system 11 of the grooves 5 parallel to each other. In FIG. 3, 4 shows an example of a composite building element 1 for the case of applying on the surface 10 of the auxiliary part 4 of the body 2 of the system 11 grooves 12, 13, forming a groove grid with rectangular cells 14, corresponding to the reinforcing mesh 9. FIG. 5 shows the surface 10 of the auxiliary part 4 of the body 2 with a system 11 of mutually perpendicular grooves 12, 13 and rectangular cells 14. The mutually perpendicular grooves 12, 13 can be made of different depths. Reinforcing mesh 9 made of reinforcing steel. The characteristic size H of the main part 3 of the body 2 in the direction perpendicular to the reinforcing mesh 9 is larger than the characteristic size h of the auxiliary part 4 of the body 2 in the same direction. In the case of using reinforcing meshes 9 with rectangular cells, the reinforcing bars 15 forming the long sides of the rectangular cells are made with a larger or the same cross-sectional area as the cross-sectional area of the reinforcing bars 16 forming the short sides of the rectangular cells of the reinforcing mesh 9.

 The device operates as follows. Under bending loads, typical for the elements of floors and lintels, the placement of reinforcing meshes 9 in the seams 8 and the reciprocal mesh 11 of the grooves 12, 13 with rectangular cells 14 and filling the formed voids of the adhesive composition allows for reliable fastening of the reinforcing mesh and the necessary bearing capacity of the building element with full using the strength of reinforcing steel. In this case, the main part 3 of the body 2 perceives compressive forces, and the reinforcing mesh 9 perceives tensile forces. Reinforcing bars 15, made with a greater length than the reinforcing bars 16, and forming the long sides of the rectangular cells of the reinforcing mesh 9, have the same or larger cross-sectional area than the reinforcing bars 16, forming the short sides of the reinforcing mesh 9, which leads to full use strength of reinforcing steel and especially lightweight concrete. The placement of the reinforcing mesh 9 in the system of 11 grooves 5 of the auxiliary part 4 of the body 2 and the seams 8, the fastening of the reinforcing mesh 9 with the parts 3, 4 of the body 2 using the adhesive composition allows to obtain a reliable connection of the reinforcing mesh 9 with lightweight concrete of the building element 1, fully use the carrier the ability of particularly lightweight concrete and the strength of reinforcing steel. Replacing heavy concrete with adhesive composition leads to the joint work of light concrete and reinforcing mesh, reducing the size of voids and, accordingly, reducing the specific gravity and thermal conductivity of the composite building element 1.

Sourse of information
1. RU N 2097502, C1, 11.27.92.

Claims (4)

 1. A composite building element containing a body consisting of at least two parts made of especially lightweight concrete, grooves are made on some surfaces of the body part, reinforcing elements placed in the grooves and seams to form voids, and a curing medium filling the voids, characterized in that one part of the body is made in the form of the main part, the other part of the body is made in the form of the auxiliary part, reinforcing elements with mesh are used as reinforcing elements, on one of the surfaces of the auxiliary the body parts of the grooves are made in the form of a groove system consisting of disjoint grooves or of a groove grid, a reciprocal reinforcing mesh, and the grooves of the grooves of the mesh, the reciprocal reinforcing mesh, can be made of different depths.  2. The composite building element according to claim 1, characterized in that the characteristic dimension H of the main body part in the direction perpendicular to the reinforcing mesh is larger than the characteristic size h of the auxiliary part of the body in the same direction.  3. The composite building element according to claim 1, characterized in that an adhesive composition is used as a curing medium, including foamed for especially lightweight concrete.  4. The composite building element according to claim 2, characterized in that the reinforcing mesh is made including of reinforcing steel, the cross-sectional area of the reinforcing bar forming the long sides of the reinforcing mesh cells is greater than or equal to the cross-sectional area of the reinforcing bar forming the short sides of the cells reinforcing mesh.

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