RU69109U1 - REINFORCED CONCRETE SINGLE-CONSOLE INTERIOR WALL PANEL - Google Patents

Abstract

The utility model relates to the field of construction and can be used in the manufacture of reinforced concrete single-console internal wall panels, mainly in the construction of panel residential buildings. The panel contains monolithic concrete and a reinforcing cage, consisting of frame elements, individual rods, mounting loops, anchors, embedded parts for mounting connections and embedded parts for mounting connections of nodes that prevent progressive collapse of the building. Four mounting loops are placed on the console end face along the length of the panel in pairs symmetrically with respect to the center of gravity of the panel. The panel is made with five embedded parts for assembly connections of assemblies that prevent progressive collapse of the building, of which three embedded parts are located at the end of the console, respectively, two on its lateral sides and one on the front side along the length of the panel, and two embedded parts for assembly connections of assemblies to prevent the progressive collapse of the building, placed on the upper and lower project end faces along the length of the panel, are located on one line perpendicular to the longitudinal axis of the panel. One of the embedded parts located on one line perpendicular to the longitudinal axis of the panel is made in the form of an anchored loop installed in a niche formed in the body of the wall panel on the lower side projected end along the length of the panel.

Description

The utility model relates to construction and can be used as an internal load-bearing structure.

Known reinforced concrete single-console internal wall panel (RF Patent No. 55815, class E04C 2/00), containing monolithic concrete and reinforcing cage, consisting of frame elements, individual rods, mounting loops, anchors and embedded parts for mounting connections. The known panel has a limited scope in the construction of buildings of various designs due to the limited number of options for the implementation of the mounting connections necessary to meet the requirements to prevent the progressive collapse of large-panel buildings.

The utility model is aimed at solving the problem of ensuring the requirements to prevent progressive collapse during the construction of large-panel buildings of various layouts.

The technical result that can be obtained by using the utility model is to increase the ability to prevent the progressive collapse of a building constructed using the described panel, as well as by expanding the possible options for the implementation of the necessary structural systems of the building being constructed that meets the requirement of preventing progressive collapse.

The problem is solved due to the fact that in a reinforced concrete single-console internal wall panel containing monolithic concrete and reinforcing cage, consisting of frame elements, individual rods, mounting loops, anchors, embedded parts for mounting connections and embedded parts for mounting connections

nodes that prevent progressive collapse of the building, four mounting loops are placed on the console end side along the length of the panel in pairs symmetrically with respect to the center of gravity of the panel, and the panel is made with five embedded parts for mounting connections of nodes that prevent progressive collapse of the building. Of the five, two embedded parts are located at the end of the console along its lateral sides, one on the upper project end face at the end of the console and two embedded parts for mounting connections of the assemblies preventing progressive collapse of the building are located on the upper and lower project end faces along the length of the panel . These two embedded parts are located on the side of the panel, opposite its cantilever side, on one line perpendicular to the longitudinal axis of the panel. One of these embedded parts is made in the form of an anchored loop installed in a niche formed in the body of the wall panel on the lower side of the design end along the length of the panel.

It is preferable to perform a reinforced concrete single-cantilever internal wall panel with the formation inside the body of the panel of channels with pipes from PVC to pass electrical wires. The channels have output sockets for installing electrical elements on the surface of the panel.

It is advisable to perform a reinforced concrete single-console inner wall panel in such a way that at least two embedded parts for mounting connections with embedded parts of adjacent panels are placed on the upper design end side of the panel, and one embedded part for mounting communication with the adjacent panel is placed on the side of the panel opposite it cantilever end face.

It is possible to carry out a reinforced concrete single-console internal wall panel using class 30 monolithic concrete.

It is also possible to perform a reinforced concrete single-console internal wall panel using concrete monolithic class B 22.5.

The essence of the utility model is illustrated by drawings, in which Fig. 1 shows a reinforced concrete single-console internal wall panel, in Fig. 2 is a view A in Fig. 1, in Fig. 3, a reinforcement diagram of a single-console internal wall panel is shown.

The reinforced concrete single-cantilever internal wall panel (Fig. 1) is a main plate 1 with a cantilevered protrusion 2. Four mounting loops 4 are arranged pairwise symmetrically with respect to the center of gravity of the panel along the panel’s top end side 3 along the panel’s center of gravity. wires. Channels 5 have inputs on the cantilever end side 3 of the panel and outputs in the form of sockets for installing wiring elements on the inner side of the panel relative to the room. To prevent the progressive collapse of the building, the panel is made with five embedded parts 6, 7, 8, 9, 10, intended for the implementation of the assembly links of the nodes that prevent the progressive collapse of the building with the adjacent elements of the building structure. The presence of these connections, as well as the place of their attachment to individual building elements, including the described slab, protects the structural system from progressive destruction in the event of local destruction of its supporting structures during emergency impacts not provided for by the normal operation of buildings (explosions, fires) , shock, etc.). In accordance with this embedded parts 6-10 are fixed inside the reinforcing cage, the reinforcement scheme of which is presented in figure 3. Figure 2 shows that the embedded parts 6, 7, 8 are mounted on the cantilever protrusion 2, which provides increased stability of the console section while preventing

progressive destruction. Reinforcing is also facilitated by the reinforced frame of the console section 2 of the panel. In this case, the embedded parts 6, 7 are located on the sides at the end of the console, and the embedded part 8 is also located on the end of the console on the upper project end face 3 of the panel. On the same upper project end face 3 there is a embedded part 9, intended for the implementation of the assembly connections of the nodes, preventing the progressive collapse of the building with the adjacent elements of the building structure.

The embedded part 10, intended for the implementation of assembly connections of assemblies that prevent the progressive collapse of the building with the adjacent elements of the building structure, is made in the form of an anchored loop installed in a niche formed in the body of the wall panel on its lower side projecting end along the length of the panel. The embedded part 10 is located on the same line perpendicular to the longitudinal axis of the panel, with the embedded part 9, which eliminates the occurrence of additional loads from the torque during impacts not provided for by the normal operation of buildings.

To facilitate electrical work in the finished building, channels are formed inside the panel body with pipes made of polyvinyl chloride for passing electrical wires. The channels have output sockets 11 for installing wiring elements (sockets, switches, etc.) on the surface of the panel.

For mounting connections with embedded parts of adjacent panels, three embedded parts 12 are provided in the panel. Two of these parts are located on the upper project end face of the panel, and one is placed on the side of the panel opposite its console end side.

After the installation of all the reinforcing elements, the panel is monolithic by pouring the formwork with concrete, followed by heat treatment to mature the concrete.

In the manufacture of a wall panel intended for installation of the lower (first through fifth inclusive) floors of a building, monolithic panels are made by pouring formwork with concrete of class B 30.

In the manufacture of a wall panel intended for installation of the upper (above the sixth) floors of a building, monolithic panels are made by pouring formwork with concrete of class B 22.5.

After this, the metal form is removed and the finished wall panel is removed, which, in combination with the remaining elements of the structural system, provides the necessary protection against progressive collapse in the event of local destruction of its supporting structures.

Claims (5)

1. Reinforced concrete single-console internal wall panel containing monolithic concrete and reinforcing cage, consisting of frame elements, individual rods, mounting loops, anchors, embedded parts for mounting connections and embedded parts for mounting connections of nodes that prevent progressive collapse of the building, characterized in that four mounting loops are placed on the console end side along the length of the panel in pairs symmetrically with respect to the center of gravity of the panel, the panel is made with five embedded parts for assembly ties of assemblies that prevent progressive collapse of the building, of which three embedded parts are located at the end of the console, respectively, two along its sides and one on the upper project end face along the length of the panel, and two embedded parts for assemblies of assemblies that prevent progressive collapse of the building, placed on the upper and lower project end faces along the length of the panel, are located on one line perpendicular to the longitudinal axis of the panel, and one of these embedded parts is made in the form anchored loop mounted in a recess formed in a body on the bottom wall panel along the length of the design of the end panel side. 2. Reinforced concrete single-console internal wall panel according to claim 1, characterized in that channels are formed inside the panel body with polyvinyl chloride tubes for passing electrical wires, having output sockets for installing electrical elements on the surface of the panel. 3. The reinforced concrete single-console internal wall panel according to claim 1, characterized in that at least two embedded parts for mounting connections with embedded parts of adjacent panels are placed on the upper project end face of the panel, and one embedded part for mounting connection with the adjacent panel placed on the side of the panel opposite its console end face. 4. Reinforced concrete single-console internal wall panel according to claim 1 or 2, characterized in that it contains class 30 monolithic concrete. 5. Reinforced concrete single-console internal wall panel according to claim 1 or 2, characterized in that it contains a monolithic concrete of class B 22.5.