RU68542U1 - CONSTRUCTION PRODUCT (OPTIONS) - Google Patents

Abstract

Technical solutions relate to the field of industrial and civil construction and can be used in the construction of responsible, including earthquake-resistant, structures.

The technical task of the proposed solutions is to increase the load-bearing capacity of building products made in the form of plates, both monolithic and layered, in particular, to increase the characteristics of their bending strength due to the redistribution of the loads acting on the plate in the body of the plate by reinforcing it in the proposed manner.

This is achieved by the fact that in the first or second embodiment, the building product is made in the form of panels located with a gap relative to each other, connected by a reinforcing cage located between them or a single monolithic panel, and the reinforcing cage is made of nodal elements located in the panels or connected to them and connected to the nodal elements of inclined reinforcing bars, forming with the nodal elements oriented vertices in opposite directions of the tetrahedra, and adjacent tetrahedrons hav e their common reinforcing bars. In addition, the nodal elements are made in the form of cylinders located perpendicular to the plane of the plate with holes on the side surface, in which the ends of the inclined reinforcing bars are placed. Reinforcing bars have bent ends, and the nodal elements are made with radially spaced openings in which the bent ends of the inclined reinforcing bars are located. Reinforcing bars and / or nodal elements can be made of fiberglass. Soundproof or heat insulating material may be placed between the panels. In this case, one of the panels can be made of concrete or of a polymeric material or glass, and the other of the same material or from one of the listed materials.

2 n.p. f-ly, 3 ill.

Description

The proposed technical solutions relate to the field of industrial and civil construction and can be used in the construction of responsible, including earthquake-resistant, structures.

A building product is known, made in the form of a multilayer panel between the layers of which there are rows of reinforcing elements in the form of braces, while one of the panels is made with grooves in which bushings connecting the braces are placed (USSR author's certificate No. 1276776 A2, 1986).

A building product is known in the form of a wall panel containing a monolithic layer with reinforcing frames in the form of tetrahedra (USSR copyright certificate No. 1731914 A1, 1992).

Known designs are closest to the proposed options for a building product, the first of which is made in the form of a layered structure, the second in the form of a monolithic structure.

Known designs require the use of high-strength concrete and a significant amount of reinforcing steel to ensure the perception of operational loads. At the same time, the destruction of known plates often occurs from the occurrence of excessive bending loads, caused, for example, by a change in the characteristics of the bearing base under the plate.

The technical problem of the proposed solutions is to increase the bearing capacity of building products made in the form of plates, both monolithic and layered, in particular, to increase the characteristics of their bending strength due to the redistribution of existing

on the load plate by reinforcing it in the proposed manner.

This is achieved by the fact that in the first embodiment, the building product is made in the form of panels located with a gap relative to each other, connected by a reinforcing cage located between them, and the reinforcing cage is made of nodal elements located in the panels or connected to them and connected to the nodal elements of inclined reinforcing bars rods forming with the node elements oriented vertices in opposite directions of the tetrahedra, and adjacent tetrahedrons have reinforcing rods common to them. In addition, the nodal elements are made in the form of cylinders located perpendicular to the plane of the plate with holes on the side surface, in which the ends of the inclined reinforcing bars are placed. Reinforcing bars have bent ends, and the nodal elements are made with radially spaced openings in which the bent ends of the inclined reinforcing bars are located. Reinforcing bars and / or nodal elements can be made of fiberglass. Soundproof or heat insulating material may be placed between the panels. In this case, one of the panels can be made of concrete or of a polymeric material or glass, and the other of the same material or from one of the listed materials.

In the second embodiment, this is achieved by the fact that the building product is made in the form of a panel of concrete or polymeric material, monolithic or with voids, in the body of which there is a reinforcing cage, which is made of nodal elements and inclined reinforcing bars connected to them, forming with nodal elements the tetrahedra oriented with vertices in opposite directions, and adjacent tetrahedrons have reinforcing bars common to them. Nodal elements can be made in the form of located

perpendicular to the plane of the cylinder plate with holes on the side surface, in which the ends of the inclined reinforcing bars are placed. Reinforcing bars have bent ends, and the nodal elements are made with radially spaced openings in which the bent ends of the inclined reinforcing bars are located. Reinforcing bars and / or nodal elements can be made of fiberglass.

Figure 1 schematically shows a building product according to the first embodiment - with parallel panels and partially opened reinforcement scheme (to characterize the position of the tetrahedra, two of them are highlighted by thickened lines);

Figure 2 schematically shows a building product according to the second embodiment - with a monolithic panel in the body of which there is a reinforcing cage with a partially disclosed reinforcement scheme (to characterize the position of the tetrahedra, two of them are highlighted by thickened lines);

Figure 3 presents the assembly diagram of the reinforcing cage.

The construction product in both versions can be used as a wall panel of the fence (floor) depending on the accepted design scheme and configuration, determined by the project of its placement and operation. In shape, the product can be made in plan in the form of a rectangle. The product contains a body 1, for example, of concrete, in which the reinforcing cage 2 is placed. The reinforcing cage 2 is made of nodal elements 3 located in the lower and upper zones, and inclined reinforcing bars 4 connected to them. Such a connection should form oppositely oriented vertices and interconnected tetrahedra (see Fig. 1, to explain the location of the tetrahedrons, two of them are highlighted by thickened lines). At the same time, adjacent tetrahedra have reinforcing bars common to them. Nodal elements 3 are made in the form of perpendicular

the product plane of the cylinder with holes 5 on the side surface, in which the ends of the inclined reinforcing bars 4 are placed. With continuous concreting of the building wall, it is made in the form of a monolithic structure. To ensure the manufacturability and assembly of the frame, the reinforcing rods 3 have bent ends 6, and the nodal elements are made with radially arranged holes in which the bent ends 6 of the inclined reinforcing bars 4 are located. Some of the nodal elements 3 can be made with an axial hole in communication with the holes placement of reinforcing bars or with end threaded protrusions 7 for flanges 8.

The assembly of the reinforcing cage is carried out by the serial connection of the reinforcing bars 4, connecting them with the nodal elements 3, for example, placing them in the holes 5. In this case, the reinforcing cage is formed in the form of a system of combined tetrahedra (see figure 1). The reinforcing cage, assembled in this way, is a rather rigid and robust construction, ensuring the redistribution of operational loads arising in the slab, including abnormal, while maintaining the load-bearing capacity of the slab. The reinforcing cage of the product, when used in a continuous cycle (during the construction of monolithic structures) can be made directly at the place of work by the above-described sequential assembly of rods with nodal elements.

This embodiment of the product significantly increases their strength characteristics.

Claims (10)

1. A construction product made in the form of panels located with a gap relative to each other, connected by a reinforcing cage located between them, characterized in that the reinforcing cage is made of nodal elements located in the panels or connected to them and connected to the nodal elements of inclined reinforcing bars, forming with nodal elements tetrahedra oriented with vertices in opposite directions, and adjacent tetrahedrons have reinforcing bars common to them. 2. The building product according to claim 1, characterized in that the nodal elements are made in the form of cylinders arranged perpendicular to the plane of the plate with holes on the side surface, in which the ends of the inclined reinforcing bars are placed. 3. The construction product according to claim 1 or 2, characterized in that the reinforcing bars have bent ends, and the nodal elements are made with radially spaced openings in which there are bent ends of the inclined reinforcing bars. 4. The construction product according to claim 1 or 2, characterized in that the reinforcing bars and / or nodal elements are made of fiberglass. 5. The building product according to claim 1 or 2, characterized in that between the panels placed soundproofing or heat-insulating material. 6. The construction product according to claim 1 or 2, characterized in that one of the panels is made of concrete or a polymeric material or glass, and the other is made of the same material or one of the listed materials. 7. A construction product made in the form of a panel of concrete or a polymeric material, reinforced in one piece or with voids in the body of which there is a reinforcing cage, characterized in that the reinforcing cage is made of nodal elements and inclined reinforcing bars connected to them, forming oriented with nodal elements vertices in opposite directions of the tetrahedron, and adjacent tetrahedrons have reinforcing bars common to them. 8. The construction product according to claim 7, characterized in that the nodal elements are made in the form of cylinders arranged perpendicular to the plane of the plate with holes on the side surface, in which the ends of the inclined reinforcing bars are placed. 9. The construction product according to claim 7 or 8, characterized in that the reinforcing bars have bent ends, and the nodal elements are made with radially spaced openings in which there are bent ends of the inclined reinforcing bars. 10. The construction product according to claim 7 or 8, characterized in that the reinforcing bars and / or nodal elements are made of fiberglass.