RU2476647C2 - Steel frame of single-storey multispan building - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: steel frame of a single-storey multispan building includes support structures and an apron slab comprising pitched trusses and a shaped steel decking. Support structures in each span are made in the form of separate frames including stands inclined to each other and joined with a crossbar on top. Pitched trusses are rested in units of stands and crossbar joining in the level of their upper belt. The shaped decking between pitched trusses of adjacent spans is laid in accordance with a double-cantilever scheme. Between ends of cantilevers of adjacent profiled sheets of the decking the shaped decking is laid in accordance with a split scheme.

EFFECT: reduced mass and labour intensiveness of making building frame elements.

3 dwg

Description

The invention relates to the field of construction, namely to metal frames of single-storey multi-span buildings, such as shopping and entertainment centers, logistics centers, etc.

A well-known frame of a multi-span building, including columns, rigidly fixed to the foundation, trusses, articulated on columns in the level of their upper belt, trusses and profiled steel flooring on the upper belts of trusses with the formation of a hard disk [RF Patent No. 2387759, IPC Е04В 1 / 24. Bulletin No. 12 of April 27, 2010].

The disadvantages of the known solutions are the significant consumption of steel and the complexity of manufacturing trusses.

Another constructive solution is known for the frame of a single-story multi-span building, including columns, roof trusses and roof trusses, and profiled steel flooring [A.S. No. 706501, M. Cl. EB04 1/20. Bulletin No. 48 of December 30, 79]. The truss trusses in this solution are single-console and are interconnected in series along the length.

A disadvantage of the known solution is the large consumption of material for trusses and in the complex sequence of their installation.

Closest to the invention is the frame of a one-story multi-span building, including supporting structures, consisting of columns with brackets placed symmetrically to its axis, and coating blocks supported on them, including rafter trusses, girders and profiled steel flooring and communication elements for columns and for the coating block [A.S. No. 591560, M. Cl. EB04 1/24. Bulletin No. 5 of February 5, 1978].

A disadvantage of the known solution lies in the complex system of the supporting structure, consisting of columns with brackets and connections, as well as in the presence of a separate coating unit, which can be justified by the presence of hoisting cranes.

The invention is aimed at reducing the mass and complexity of manufacturing elements of the building frame.

The result is achieved in that in the steel frame of a single-story multi-span building, including supporting structures and a coating unit consisting of truss trusses and profiled flooring, according to the invention, the supporting structures in each span are made in the form of separate frames, including racks, inclined to each other and connected by the top is the crossbar, and the truss trusses are supported in the nodes of the connection of the racks and the bolt in the level of their upper belt, while the profiled flooring between the truss trusses of adjacent spans is laid in two-con the olny scheme, and between the ends of the consoles of adjacent profiled flooring sheets - according to a single-span scheme.

Figure 1 shows a fragment of the plan of the frame of a single-storey multi-span building with partially laid profiled flooring; figure 2 shows a longitudinal section 1-1 in figure 1; figure 3 shows a cross section 2-2 of figure 1 with a full laying of profiled flooring.

The steel frame of a one-story multi-span building includes supporting structures, in each span made in the form of separate frames, consisting of inclined racks 1 connected along the top with a crossbar 2. At the nodes of the connection of the inclined racks 1 with the crossbar 2, truss trusses 3 are installed at the level of the upper belt of the crossbar 2. A steel profiled sheet of flooring 4 is laid along the upper belts of truss trusses 3. Flooring 4 between truss trusses 3 of adjacent spans is laid in a two-console pattern, and between the ends of consoles of adjacent profiled sheets of truss la 4 split circuit.

Installation of frame elements is performed in the following sequence. In each span, inclined racks 1 are installed and connected along the top with crossbar 2 to form separate frames. The fastening of the uprights 1 on the foundation in the plane of the frames can be hinged, and it is advisable to perform rigid fastening from the plane. In the attachment points of the uprights 1 and crossbar 2, truss trusses 3 are installed, the support node of which is located at the level of the upper girder belt 2. A profiled flooring 4 is laid and fixed on trusses 3. Moreover, between the truss trusses 3 of the adjacent spans, the profiled flooring 4 is laid according to a two-console scheme, and between the ends of the consoles of adjacent profiled sheets of flooring 4 according to a split diagram.

The design of the proposed steel frame of a single-story multi-span building allows to reduce steel consumption by 20-25% and the complexity of manufacturing by 30-35% by reducing the number of elements and more efficient transfer of force from the support of the sub-roof structure to the foundation.

Claims (1)

The steel frame of a one-story multi-span building, including supporting structures and a coating unit, consisting of rafter trusses and profiled steel flooring, characterized in that the supporting structures in each span are made in the form of separate frames, including racks inclined to each other, connected along the top with a crossbar, and truss trusses are supported in the nodes of the racks and crossbar joints at the level of their upper belt, while the profiled flooring between truss trusses of adjacent spans is laid according to a two-console scheme, and between Tsami consoles neighboring profiled sheet flooring - on a split scheme.

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