RU138007U1 - LARGE-PANEL BUILDING FRAME - Google Patents

Abstract

The utility model relates to civil engineering and can be used in the construction of frame buildings for various purposes, both in factory production conditions and at the construction site. The frame of a large-panel building is made of external and internal wall panels with heat-insulating material and floor slabs. New is that the outer wall panels and floor slabs contain a flat steel frame made with consoles with the possibility of joining, while the steel frame is placed on the inner surface of the wall panels, and the entire mass of heat-insulating material is on the outer surface of the wall panels, while as heat-insulating material using lightly reinforced lightweight aerated concrete weighing not more than 500 kg / m3. This design provides a reduction in heat loss, a reduction in the time of construction of buildings, reducing the complexity and cost of construction

Description

The utility model relates to civil engineering and can be used in the construction of frame buildings for various purposes, both in factory production conditions and at the construction site.

Large-panel housing construction today is one of the most popular ways of erecting buildings and structures for various purposes.

The number of panel houses in the country is huge and their number is constantly increasing.

The main types of prefabricated panel buildings are currently frame and frameless. The first type includes frame-panel, and the second - large-panel. Installation of buildings of both types is made from industrial prefabricated reinforced concrete structures.

There are panels for walls and floor panels. For walls, internal and external panels are made.

Known building frames containing frame-forming metal elements, outer and inner formwork, filled with hardening mortar (see AS USSR No. 694609, IPC E04C 2/26).

The disadvantage of this design is its low heat-conducting properties, since it only provides for the installation of carcass-forming metal elements that play the role of anchors between previously molded fragments of the structure, which is why they are "cold bridges".

The closest technical solution to the claimed design is the construction of the building frame in the form of monolithic insulating wall panels in which the frame is molded (see patent RU No. 2157441, IPC E04B 2/86, with priority dated 08.25.98, publ. 10.10.2000 d), the frame of the building contains installed frame-forming elements, the outer and inner formwork connected to each other, and the interdeck space filled with hardening mortar.

The disadvantage of this design is its low thermal insulation properties, since the frame located in the middle of the wall is not a stable support of the building, has a significant metal consumption, which is why it is a “cold bridge”, and to maintain heat it needs to increase the thickness of the concrete layer, which leads to an increase in weight buildings and, as a result, its value. In addition, the construction of the building is time-consuming and time-consuming.

The objective of the proposed utility model is to develop a frame structure that provides reduced heat loss, reduced construction time for buildings, reduced labor intensity and construction costs.

To solve this problem, the frame of a large-panel building is made of external and internal wall panels with heat-insulating material and floor slabs. New is that the outer wall panels and floor slabs contain a flat steel frame made with consoles with the possibility of joining, while the steel frame is placed on the inner surface of the wall panels, and the entire mass of heat-insulating material is on the outer surface of the wall panels, while as heat-insulating material using lightly reinforced lightweight aerated concrete weighing not more than 500 kg / m3.

With this embodiment, the flat steel frame of the outer wall panels is an element that accepts loads from floor slabs and wall panels of the upper floors, which allows you to create a spatially rigid frame, which allows to lighten the structure through the use of ultralight aerated concrete.

The implementation of wall panels and floor slabs with mating consoles facilitates their assembly and allows the assembly of a block consisting of four wall panels and floor slabs and the main finishing work in them directly at the construction site, followed by the installation of ready-made block sections. This ultimately allows you to significantly reduce the complexity, reduce construction time and cost of housing.

Placing a heat-insulating material on the outer surface of wall panels eliminates heat loss arising from “cold bridges”.

A detailed idea of the proposed design is given in the accompanying drawings, where,

- in FIG. 1 shows a floor plan installation plan;

- in Fig 2 - outer wall panel, top view;

- in FIG. 3 is a section 1-1 in FIG. 2;

- in FIG. 4 is a view along arrow 2 in FIG. 2;

- in FIG. 5 - floor slab, top view;

- in FIG. 6 is a section 1-1 in FIG. 5

- in FIG. 7 - mounting block section;

- in FIG. 8 is a section 2-2 in FIG. one;

- in FIG. 9 - node A in FIG. 7.

The block section (Fig. 7) consists of external wall panels 1, internal wall panels 2 (Fig. 2), floor slabs 3 (Fig. 5) each of which consist of a steel frame 4 with consoles 5, located on the outer surface of the panel , lightweight aerated concrete 6, located on the inner surface of the panel, to connect the consoles are bolts 7.

Mounting the frame is as follows.

On the mounting table, external 1 and internal wall panels 2 are installed, with a frame 4 installed on the outer surface of the panels and filled with aerated concrete 6 located on the outer surface of the panels, after that the panels are interconnected (node A) and the joints are filled with a sealant, then installed floor slabs 3, consoles 5 of which are joined and interconnected by self-tapping bolts 7 (Fig. 9). The mounted unit is installed on the building frame through one, between them the external wall panels 1 and the internal wall panels 2 are mounted, on which the floor slabs 3 are laid. After that, mounting fittings are installed at all joints and the joints are concreted (Fig. 4 sec. 1-1, 2-2). Thus, a building block is assembled at a construction site. Joints of consoles are reinforced and concreted with ordinary heavy concrete.

This design provides a reduction in heat loss, a reduction in the time of construction of buildings, reducing the complexity and cost of construction

Claims (2)

1. The frame of a large-panel building made of block sections composed of external and internal wall panels and floor slabs with heat-insulating material, characterized in that the wall panels and floor slabs contain a flat steel frame made with consoles with the possibility of their joining, while the steel frame is located on the inner surface of the wall panels, and the entire mass of heat-insulating material is located on the outer surface of the wall panels. 2. The frame of a large-panel building according to claim 1, characterized in that a light-reinforced lightweight aerated concrete with a mass of not more than 500 kg / m ^{3 is} used as a heat-insulating material.

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