RU81227U1 - INTERFACE ASSEMBLY OF MULTI-EMPLOYED COVERING PLATES WITH LATCHES (OPTIONS) - Google Patents

Abstract

The utility model relates to land construction, namely, to the construction of multi-story frame buildings for various purposes, mainly housing and civil engineering. The utility model is aimed at increasing the stiffness of the disk overlap and reduce material consumption. Two options for achieving the specified technical result are proposed. According to the first option, in the interface of multi-hollow floor slabs with crossbars, containing crossbars with shelves mounted on the supporting elements of the columns, multi-hollow floor slabs with consoles for placing them on the shelves of the crossbar and elements for the formation of metal ties, the height of the crossbar shelves being made commensurate with the distance from the lower surface multi-hollow floor slab to the supporting surface of the console, for example, equal to half the thickness of the multi-hollow floor slab, while the multi-hollow consoles floor slabs are reinforced with reinforcing cages made in the form of welded gratings, vertically mounted in the side sections of a hollow core slab and in hollow spaces free of prestressed rods, the crossbars are equipped with embedded parts located either in recesses on its upper surface or on its lateral surfaces, elements for the formation of metal bonds of multi-hollow plates made in the form of embedded parts located on the upper surface of multi-hollow lit. overlap, and metal connection having the form of rods or plates adapted to connect the hollow floor slabs

with a crossbar welding according to the mentioned embedded parts and multi-hollow overlapping slabs that are opposite to the crossbar. According to the second option, in the interface of the multi-hollow floor slabs with crossbars, containing crossbars with shelves installed on the supporting elements of the columns, multi-hollow floor slabs with consoles for their location on the crossbars and elements for the formation of metal bonds, the height of the crossbars is made commensurate with the distance from the lower surface multi-hollow floor slab to the supporting surface of the console, for example, equal to half the thickness of the multi-hollow floor slab, while the console multi-hollow slabs the floors are reinforced with reinforcing cages made in the form of welded gratings, vertically installed in the frontal sections of the hollow core slab and in hollow spaces free of prestressed rods, the elements for forming metal ties of hollow core slabs are made in the form of embedded parts located on the upper surface of the multi-hollow floor slabs while transverse recesses for metal bonds are made on the upper surface of the crossbar, having the form of rods or pl Astin, welded to embedded parts. For all the options, welded gratings can include an anchored rod with bends at the ends and rods of longitudinal reinforcement connected to transverse clamps in the interface of the multi-hollow floor slabs with crossbars, with the upper and shortened middle rods placed above the supporting surface of the console, and the lower rod between the end walls of the multi-hollow plate overlapping and below the supporting surface of the console.

Description

The utility model relates to land construction, namely, to the construction of multi-story frame buildings for various purposes, mainly housing and civil engineering

From the description of the RF patent for utility model No. 74935, a knot for coupling reinforced concrete multi-hollow slabs in prefabricated monolithic floors with bearing reinforced concrete crossbars intended for use in the construction of buildings in earthquake-prone areas in which reinforced concrete multi-hollow plates coupled to a bearing reinforced concrete crossbar is made with two grooves facing each other in the area of the inter-plate seam and formed on the site of voids to their bottom, multi-hollow reinforced concrete slabs have arm releases atures facing also in the area of the interplate seam, parallel to the end surface, in each plate, metal rods are placed, connected with each other by strands with hooks hooked at the ends of the rods, while the strands are made integral and mated to each other in the region of the interplate seam, along the edges of the plates two pairs of parallel longitudinal reinforcing bars are placed, one of the longitudinal reinforcing bars of each pair is located in the upper part of the lintel of the hollow core, and the other under it in the lower part of the same jumper, each the arra of the rods is formed by a single rod, passed through the jumper and forming a stitch on top of the jumper, between the upper and lower rods of each pair there is a zigzag wire, in some places fastened to those longitudinal reinforcing rods with which it is in contact, characterized in that

the bearing reinforced concrete crossbar, with which the above reinforced concrete multi-hollow slabs are interfaced, also has reinforcing outlets of longitudinal reinforcement and transverse reinforcing bars that are placed above the longitudinal reinforcing elements and connected with which additional loop-shaped reinforcing elements are connected; , the height of the loop-shaped reinforcing elements does not exceed the height of the reinforcing cage, and its width does not exceed the width of the above reinforcing rkasa.

The disadvantages include the impossibility of obtaining a flat flat ceiling of unlimited area.

The closest technical solution is the solution presented in the description of the patent of the Russian Federation for utility model No. 47398, the essence of which is that in the interface of the multi-hollow floor slabs with crossbars, containing crossbars with shelves and multi-hollow floor slabs installed on the supporting elements of the columns, it is proposed to make multi-hollow floor slabs with consoles for their location on the shelves of the crossbar and elements for the formation of metal bonds, and the height of the shelves of the crossbar is made in proportion south from the bottom surface of the multi-hollow floor slab to the supporting surface of the console, for example, equal to half the thickness of the multi-hollow floor slab, while the consoles of multi-hollow floor slabs are reinforced with reinforcing cages made in the form of welded gratings, vertically installed in the side sections of the multi-hollow floor slab and in hollow spaces, free of prestressed rods.

The known technical solution allows you to get a flat flat ceiling of unlimited area, however, it does not provide increased rigidity of the disk overlap and requires significant

the thickness of the concrete leveling screed due to the need to hide in it metal bonds of hollow core slabs passing over the crossbar.

The utility model is aimed at increasing the hardness of the disk and reducing material consumption.

Two options for achieving the specified technical result are proposed. According to the first option, in the interface between multi-hollow floor slabs and crossbars, containing crossbars with shelves mounted on the supporting elements of the columns, multi-hollow floor slabs with consoles for their location on the crossbars and elements for forming metal ties, the height of the crossbars is made commensurate with the distance from the lower surface multi-hollow floor slab to the supporting surface of the console, for example, equal to half the thickness of the multi-hollow floor slab, while the console is multi-hollow x floor slabs are reinforced with reinforcing cages made in the form of welded gratings, vertically installed in the side sections of a hollow core slab and in hollow spaces free of prestressed rods, the crossbars are equipped with embedded parts located either in recesses on its upper surface or on its lateral surfaces , elements for the formation of metal bonds of multi-hollow plates made in the form of embedded parts located on the upper surface of multi-hollow floor slabs, and metal bonds having the form of rods or plates are made with the possibility of joining multi-hollow floor slabs with a crossbar by welding according to the mentioned embedded parts and connecting multi-hollow floor slabs opposite relative to the crossbar.

According to the second option, in the interface of the multi-hollow floor slabs with crossbars, containing crossbars with shelves installed on the supporting elements of the columns, multi-hollow floor slabs with consoles for their location on the crossbars and elements for the formation of metal bonds, the height of the crossbars is made commensurate with the distance from the lower surface multi-hollow floor slab to the supporting surface of the console, for example, equal to half the thickness of the multi-hollow floor slab, while the console multi-hollow slabs the floors are reinforced with reinforcing cages made in the form of welded gratings, vertically installed in the frontal sections of the hollow core slab and in hollow spaces free of prestressed rods, the elements for forming metal ties of hollow core slabs are made in the form of embedded parts located on the upper surface of the multi-hollow floor slabs while transverse recesses for metal bonds are made on the upper surface of the crossbar, having the form of rods or pl Astin, welded to embedded parts.

For all the options, welded gratings can include an anchored rod with bends at the ends and rods of longitudinal reinforcement connected to transverse clamps in the interface of the multi-hollow floor slabs with crossbars, with the upper and shortened middle rods placed above the supporting surface of the console, and the lower rod between the end walls of the multi-hollow plate overlapping and below the supporting surface of the console.

Figure 1 presents a top view of the overlap; figure 2 presents a section aa; figure 3 presents a section bB; figure 4 presents a section bb.

According to the first embodiment, the interface of the multi-hollow floor slabs 1 with crossbars 2 contains the crossbars 2 with shelves 4 mounted on the supporting elements of the columns 3, multi-hollow floor slabs 1 with consoles 5 for their location on the shelves 4 of the crossbar 2 and elements for the formation of metal bonds, and the height of the shelves 4 of the crossbar 2 is made commensurate with the distance from the lower surface of the multi-hollow floor slab 1 to the supporting surface of the console 5, for example, equal to half the thickness of the multi-hollow floor slab 1. Consoles 5 of hollow core slabs 1 of the floor are reinforced with reinforcing cages made in the form of welded gratings, vertically installed in the side sections of the hollow core slab 1 and in hollow spaces free of prestressed rods 6. The crossbars 2 are equipped with embedded parts 7 located or in recesses on the upper its surface 8 or on its lateral surfaces 9. Elements for the formation of metal bonds of multi-hollow plates 1 are made in the form of embedded parts 10 located on the surface of the multi-hollow floor slabs 1, and metal bonds having the form of rods or plates 11 are made with the possibility of connecting the multi-hollow floor slabs 1 with the crossbar 2 by welding along the mentioned embedded parts 7 and 10 and connecting the multi-hollow floor slabs 1 opposite to the crossbar 2.

According to the second variant, the interface unit of the multi-hollow floor slabs 1 with crossbars 2 contains the crossbars 2 with shelves 4 mounted on the supporting elements of the columns 3, multi-hollow floor slabs 1 with consoles 5 for their location on the shelves 4 of the crossbar 2 and elements for forming metal bonds, the height of the shelves 4 bolts 2 are made commensurate with the distance from the lower surface of the hollow core slab 1 to the supporting surface of the console 5,

for example, equal to half the thickness of the hollow core slab 1. Consoles 5 of hollow core slabs 1 of the floor are reinforced with reinforcing cages made in the form of welded gratings, vertically mounted in the side sections of the hollow core slab 1 and in hollow spaces free of prestressed rods 6. Elements for the formation of metal bonds of hollow core slabs 1 are made in the form of embedded parts 10, located on the upper surface of the hollow core slabs 1, while on the upper surface of the crossbar 2 there are transverse recesses under the metal Kie connection having the form of rods or plates 11, attached by welding to the mortgage details 10.

For two options for the interface of multi-hollow plates 1, welded gratings include an anchored rod 13 with bends at the ends and longitudinal reinforcement rods connected by transverse clamps 14, the upper and shortened middle rods 15 and 16 placed above the supporting surface of the console 5, and the lower rod 17 between the end the walls of the hollow core slab 1 and below the supporting surface of the console 5.

The increase in the stiffness of the overlapping disk according to the first embodiment is provided due to the rigid connection of the hollow core slabs 1 with the crossbar 2, and according to the second variant due to the rigid connection of the multi-hollow plates 1 to each other.

The reduction in material consumption in two versions is provided due to the exclusion of the passage of metal bonds above the upper surface 8 of the crossbar 2

Claims (4)

1. The interface of the multi-hollow floor slabs with crossbars, comprising crossbars with shelves mounted on the supporting elements of the columns, multi-hollow floor slabs with consoles for their location on the shelves of the crossbar and elements for the formation of metal ties, and the height of the crossbar shelves is made commensurate with the distance from the lower surface of the multi-hollow plate overlap to the supporting surface of the console, for example, equal to half the thickness of the hollow core slab, while the console multi-hollow floor slabs are hardened reinforcing cages made in the form of welded gratings, vertically mounted in the frontal sections of the hollow core slab and in hollow spaces free of prestressed rods, characterized in that the crossbars are equipped with embedded parts located either in recesses on its upper surface or on its side surfaces, elements for the formation of metal bonds of multi-hollow plates are made in the form of embedded parts located on the upper surface of multi-hollow plates overlapping, and metal bonds, having the form of rods or plates, are made with the possibility of connecting multi-hollow floor slabs with a crossbar by welding according to the mentioned embedded parts and connecting multi-hollow floor slabs opposite relative to the crossbar. 2. The interface of multi-hollow floor slabs with crossbars according to claim 1, characterized in that the welded grids include an anchored rod with bends at the ends and longitudinal reinforcement rods connected by transverse clamps, the upper and shortened middle rods being placed above the supporting surface of the console, and the lower rod - between the end walls of the hollow core slab and below the supporting surface of the console. 3. The interface of multi-hollow floor slabs with crossbars, comprising crossbars with shelves mounted on the supporting elements of the columns, multi-hollow floor slabs with consoles for their location on the flange shelves and elements for the formation of metal ties, the height of the crossbar shelves being made commensurate with the distance from the lower surface of the multi-hollow plate overlap to the supporting surface of the console, for example, equal to half the thickness of the hollow core slab, while the console multi-hollow floor slabs are hardened reinforcing frames made in the form of welded gratings, vertically installed in the frontal sections of a hollow core slab and in hollow spaces free of prestressed rods, characterized in that the elements for forming metal bonds of hollow core plates are made in the form of embedded parts located on the upper surface of the hollow core floor slabs, while on the upper surface of the crossbar there are transverse recesses for metal bonds having the form of rods or Astin, attached by welding to the mortgage details. 4. The junction of multi-hollow floor slabs with crossbars according to claim 3, characterized in that the welded grids include an anchored rod with bends at the ends and longitudinal reinforcement rods connected by transverse clamps, the upper and shortened middle rods being placed above the supporting surface of the console, and the lower rod - between the end walls of the hollow core slab and below the supporting surface of the console.