RU72997U1 - ASSEMBLY BEARING ELEMENT OF BUILDING SECTION - Google Patents

Abstract

The utility model relates to the field of construction, in particular to the construction of mobile buildings for various purposes, including warehouses, industrial, utility rooms.

The problem solved by the proposed utility model is to reduce the time of installation / dismantling work on the erection of building structures by increasing the degree of readiness of structural elements for installation / dismantling.

The problem is solved due to the fact that the prefabricated load-bearing element of the building structure consists of two load-bearing rectangular panels connected by a hinge, one of which is a wall (wall panel), and the other is a roof slope (roof panel), while the length of the wall panel is not exceeds the length of the roofing panel, the width of the roofing and wall panels is the same, the lateral longitudinal surfaces of both panels facing one side are located in the same plane, on the lateral longitudinal surfaces of the panel facing one side, the plates protruding with their flat sides protruding beyond the side surfaces of the panels, the first plate is fixed to the lateral longitudinal surface of the wall panel, and the other two plates are fixed to the lateral longitudinal surface of the roof panel, the second plate is located between the hinge connecting both panels and the third plate, the plates are designed for fastening to them beams that hold the wall and the roof slope in the required position, with a second plate located between the hinge, with connecting the two panels, and the third plate, a side beam is pivotally connected at one end, intended for attaching it with the other end to the first plate connected to the wall panel, the roof panel is equipped with fasteners designed to attach cables to them.

Description

The utility model relates to the field of construction, in particular to the construction of mobile buildings for various purposes, including warehouses, industrial, utility rooms.

Known prefabricated building section according to the patent of the Russian Federation No. 2052596, containing panels, composed in a frame, the elements of the connection of the panels in the frame and frames between them. In this case, the frame is made of the same type of ribbed panels, the ribs of which are joined so that any section of the frame is U-shaped, with all the connection elements located on the edges of the panels.

When using the known solution, a significant set of operations is required during the installation / dismantling of the building structure, due to the insufficient degree of readiness of the elements of the section for installation / dismantling.

The problem solved by the proposed utility model is to reduce the time of installation / dismantling work on the erection of building structures by increasing the degree of readiness of structural elements for installation / dismantling.

The problem is solved due to the fact that the prefabricated load-bearing element of the building structure consists of two load-bearing rectangular panels connected by a hinge, one of which is a wall (wall panel), and the other is a roof slope (roof panel), while the length of the wall panel is not exceeds the length of the roofing panel, the width of the roofing and wall panels is the same, the lateral longitudinal surfaces of both panels facing one side are located in the same plane, on the lateral longitudinal surfaces of the panel facing one side, the plates protruding with their flat sides protruding beyond the side surfaces of the panels, the first plate is fixed to the lateral longitudinal surface of the wall panel, and the other two plates are fixed to the lateral longitudinal surface of the roof panel, the second plate is located between the hinge connecting both panels and the third plate, the plates are designed for fastening to them beams that hold the wall and the roof slope in the required position, with a second plate located between the hinge, with connecting the two panels, and the third plate, a side beam is pivotally connected at one end, intended for attaching it with the other end to the first plate connected to the wall panel, the roof panel is equipped with fasteners designed to attach cables to them.

The inventive prefabricated bearing element is a unified building unit, from the set of which you can assemble a building of any length.

The use of the inventive prefabricated load-bearing element allows to prepare the initial building units for installation of the building as much as possible and, accordingly, reduce the time required to erect the building.

On the wall panel, openings for windows and doors are made in advance.

Prefabricated load-bearing elements are delivered folded to the installation site in the required quantity and in the required configuration (taking into account the required number of windows and doors). When folded, the roof panel is laid on the wall panel, so that the prefabricated bearing element forms a package that is convenient for laying (storage) and transportation.

To enable installation, the height of the wall panel is chosen no more than the length of the roof panel. The roof panel is a single slope of the roof, which is half the roof of the building.

In order to assemble the building, it is necessary to take several pairs of the claimed load-bearing elements.

Two load-bearing prefabricated elements are laid on the floor towards each other, so that the free sides of the panels are facing towards each other. Roof slopes (two roof panels) are interconnected by means of a ridge plate. For the ridge plate, the roof panels are raised to a height that provides the necessary angle between the roof slopes. To the third plates connected to the roof slopes, a roof beam is attached, which ensures this position of the roof slopes and prevents the roof slopes from adding up inside the building.

Ropes are connected to the fasteners on the roof panels, by which the roof panels are lifted together with the wall panels to the vertical position of the wall panels. At the same time, the lateral beams attached to the second plates hang under their own weight. The free ends of the side beams are led to the corresponding wall panels and attached to the first plates. At the same time, the side beams hold the wall and the roof slope adjacent to it in the required position and prevent the wall panel, and therefore the structure as a whole, from falling.

Thus, the required number of prefabricated load-bearing elements is installed in a row, connecting them together. After all prefabricated load-bearing elements are installed, the open end faces of the assembled building structure

close with end wall panels, isolating the inside of the building structure from the external environment.

In order to ensure the possibility of year-round operation of the building, insulation is installed in the wall panels and on the roof. The frames of the panels (wall and roofing) are made of a metal C-shaped profile. Wall and roof cladding from profiled galvanized sheet painted steel.

The use of the inventive prefabricated load-bearing elements can significantly reduce the time for installation of the building (and in the future - for dismantling the building) due to their unification (all prefabricated elements are made of the same type) and a high degree of their readiness for installation during delivery to the consumer.

The building structures assembled on the basis of the claimed prefabricated load-bearing elements are mobile (easy to carry from place to place), lightweight, and do not require large preparatory work for their installation.

The inventive utility model is illustrated by drawings.

Figure 1 shows the inventive precast structural element of the building section, side view.

Figure 2 shows the inventive prefabricated load-bearing element of the building section, top view.

Figure 3 shows two interconnected load-bearing elements of a building section during their lifting.

Figure 4 shows two interconnected load-bearing elements of a building section mounted on a foundation.

The inventive prefabricated load-bearing element of the building section contains a wall 1 and roofing 2 panels made of a metal C-shaped profile connected by a swivel 3. The swivel should provide the ability to rotate one panel relative to another during the assembly of the building structure of the claimed elements. The length of the wall panel 1 does not exceed the length of the roofing panel 2, in order to ensure the convenience of the layout of the claimed element during its transportation. The width of the wall 1 and roofing 2 panels is the same to provide convenient and quick matching of several elements together during the assembly of buildings from them, because while the lateral longitudinal surfaces 4, 5 of both panels facing one side will be located in the same plane. On the lateral longitudinal surface 4 of the wall panel 1, a first plate 6 is fixed with its flat side, on the lateral longitudinal side 5 of the roofing panel 2, the plates 7 and 8 are fixed with their flat sides. In this case, the plate 7 is located between the hinge 3 and the plate 8.

The plates 6, 7 and 8 protrude with their flat sides beyond the longitudinal end surfaces of the panels on which they are fixed in order to ensure convenient attachment to these plates of beams that will hold the assembled and installed elements in a rigid stable position. For this, the protruding parts of all the plates should be oriented to the inside of the building structure assembled from the claimed elements.

Initially, the end of the side beam 9 is connected to the second plate 7. The plates 8 of the two claimed elements are designed to attach to them a roof beam 10, which holds the roof in a predetermined position and prevents it from folding inside the building structure.

The roofing panel is provided with fasteners 11 for attaching cables 12 to them.

In the process of assembling a building structure, the two claimed elements are located opposite each other.

Roofing panels 2 are interconnected by means of a roofing beam 10, attaching it to the plates 8. The length of the roofing beam 8 is selected based on the conditions for ensuring the required angle between the roof slopes.

Due to the high degree of readiness of the claimed element for assembly, significantly reduces the time and cost of installation / dismantling of buildings from the claimed elements. The so-called mobile buildings are assembled from the claimed elements, which can easily be moved to another place.

Claims (1)

Prefabricated structural building element, consisting of two supporting rectangular panels connected by a hinge, one of which is a wall (wall panel), and the other is a roof slope (roof panel), while the length of the wall panel does not exceed the length of the roof panel, the width of the roof and wall panels are the same, the lateral longitudinal surfaces of both panels facing one side are located in the same plane, on their side longitudinal surfaces of the panels facing one side, their with the flat sides of the plate extending beyond the side surfaces of the panels, the first plate is fixed to the lateral longitudinal surface of the wall panel, and the other two plates are fixed to the lateral longitudinal surface of the roof panel, the second plate is located between the hinge connecting both panels and the third plate, the plates are designed for fastening to them beams that hold the wall and the roof slope in the required position, with a second plate located between the hinge connecting both panels and the third plate, arnirno connected to one end of the side frame designed for attachment of its other end to the first plate connected to the wall panel, a roofing panel is provided with fastening elements for fastening them to the cables.