SU759679A1 - Assembly for resting metallic trusses upon the column - Google Patents

Description

The invention relates to the construction, namely, nodes supporting metal trusses on a column, in particular trusses of enlarged blocks of steel structures for coatings of industrial buildings, and can be used in construction using large-block or block-conveyor mounting.

It is known to support trusses of enlarged blocks on a column by means of subrafter trusses, while the roof trusses are located between the columns [1].

The disadvantages of this solution are the high material consumption of the coating and the unsatisfactory lateral rigidity of the building framework.

The technical essence and the achieved result is the closest to the invention is the node supporting metal trusses on the column, including a base plate, nadopornyh rack adjacent farms, nodal gussets with ribs, consoles with support sheets connected to the plate [2].

The known solution has such disadvantages as the presence of eccentricity relative to the existing horizontal forces in the lower zones of the trusses, which creates in the supporting

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nodes significant torque forces acting on the rods, converging in the support node, and, as a consequence - increased material consumption of the coating; unsatisfactory lateral stiffness of the coating ₅ , collected both from individual trusses and from bundled into spatial blocks; in addition, the installation of nodes difficult.

The purpose of the invention is to reduce the material consumption of coatings and simplify installation. This is achieved by the fact that the support assembly of metal trusses on a column, including a base plate, nadopornye stands of adjacent trusses, nodal gussets with ribs, consoles with support sheets connected to the slab, are provided with plates and the console ^{15 is} made of a T-shaped section with shelves placed at the level of the lower belts of the trusses, and shelves of adjacent trusses, as well as a belt with stiffeners each

farm connected lining.

₂₀ When using farms in enlarged

in blocks, the latter are joined to the assembly with each other by welding them to the base plate and with additional linings along the rows of columns, which ensures a direct transfer of 759679

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giving effort from struts to struts and creates a continuous external belt of a wind farm or a hard horizontal drive of a building frame for its spatial work.

To support the trusses of the blocks on the columns of the outer rows on the support plates, they fix tables with which they connect the shelves of the consoles of these trusses by using overlays.

FIG. 1 shows the layout of the enlarged blocks in the composition of the coating of the building with the bearing on the columns; in fig. 2 — node I in FIG. 1 (unit of support of trusses of blocks of adjacent spans of buildings); in fig. 3 - section A — A in FIG. 2 (scheme of support for the columns of the trusses of four adjacent blocks); in fig. 4 — node II in FIG. 1 (node of support of the farm block of the building’s extreme span); in fig. 5 - section G - G in FIG. 4 (scheme for supporting the farms of adjacent blocks of the extreme span); in fig. 6 — section B — B in FIG. 2 (connecting two adjacent blocks); in fig. 7 shows the node III in FIG. 2 (detail of the support console farm); in fig. 8D-D in FIG. 7 (fastening the support console on the column); in fig. 9 shows section B — B in FIG. 2 (detail of the connection plates).

The enlarged block 1 of the coating consists of roof trusses 2, runs 3, a system of connections 4, a roof 5, for example, from a profiled flooring. The blocks with their corners lean on columns 6 or other supports. On the columns of the outer rows, they arrange tables 7, on which, if necessary, they install 8 half-timbered racks.

The columns 6, through their upper base plates 9, are supported by the support units of the enlarged blocks 1. In these nodes the rods 10, 11 of the trusses and the support post 12 converge. All these rods are united by a knotted 13, to which the ribs 14 are welded, transmitting the pressure of the blocks through the planed the plane of the edge of the rib on the base plate 9 columns of the building. From the outer side of each enlarged block, consoles 15, having lower flexible support sheets 16, are welded to each edge of the truss 14 at each end of the truss 14, and on top of the console 15 are connected plates welded to their shelves 17. The ribs 14 are connected in pairs in the longitudinal direction of the building plate 9 columns 6, and above the consoles - overlay

18. Cover plate 18 provides for the creation of a hard horizontal disk covering the composition of the spatial frame of the building. At the level of the lower belts of truss trusses, pads 19 are welded to these consoles, reaching to the rib 14 and butt-welded to it. The bottom flexible sheets 16 of the consoles 15 have fastening bolts 20.

In the case of supporting the trusses of the blocks of the extreme spans of the building, the pads 17 with the same

the purpose as for the case of supporting the column of block trusses from two sides. To the ribs 14 of each truss truss 2, which are connected by overlays 18, the nodal grommets 21 are attached, which are part of the link vertical end trusses, which are part of the linking system 4. All the pads and supporting consoles are welded with assembly seams during installation. To preserve the possibility of some rotation of the support assembly when loading the trusses, the supporting flexible sheets 16 are welded to the columns restrictedly (only on the free side, as shown in Fig. 8).

The work node in the structure of the integrated unit or the entire frame of the building is as follows.

Vertical support pressure truss trusses 2 enlarged blocks 1 is transmitted to the support plates 9 columns 6 through the ribs 14.

Frame horizontal forces N ι, N 2 are transmitted through a direct path through the pads 17 and 19 and do not cause any moment impacts on the node. The horizontal effort of repulse <3, acting at the level of the base plate 9 of the column 6, creates a torque impact on the knot (a shoulder of this force is usually 150 mm), which in conventional well-known structures bends the support column and truss trusses, and in the proposed knot frame, formed by two cantilevers 15 and a lining 17. Due to this frame, the reference moment practically does not load the rods 10 and 11 of the truss truss and does not bend them.

In the longitudinal direction, i.e., along a row of columns, adjacent enlarged blocks are connected by lining 18 and base plates of 9 columns, thereby direct and momentless transfer of forces in this direction is achieved and continuity of outer belts of wind farms or trusses of hard horizontal disks of the building framework is achieved.

The assembly of the enlarged blocks is carried out after their pre-assembly on the pre-assembly stand, it consists in landing the blocks on the columns, fixing them with bolts 20 and then placing the overlays 17 and 18 on the welding, as well as welding the sheets 16 to the base plates 9. All related assembly works perform in a fairly convenient space between the ends of roof trusses (width for typical solutions is 500 mm) with the placement of all support consoles with their fastenings and all weldable linings in this zone.

Work on the design of assembly units, concentrated in the specified area, produced from the inventory site, mounted on the top of the column. In the aggregate, the accepted placement of mounting fasteners significantly improves the conditions for the performance of work.

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The invention, especially when it is used to support columns of trusses, combined in reinforced blocks, contributes to the spatial operation of building coatings, which leads to a significant reduction in their material consumption. In addition, the invention allows to simplify and reduce the complexity of the installation of coatings collected from individual farms, as well as from farms, precompiled in large blocks.

Claims (1)

Claim Assembly site metal trusses on the column, including the support plate, nadoporny racks adjacent trusses, nodal, gutted with ribs, consoles with support lis10 1ΐ tami connected to the slab, characterized in that, in order to reduce material consumption and simplify installation, it is equipped with plates, and consoles are made of T-shaped section with shelves located at the lower belts of the trusses, as well as a belt with ribs stiffness of each farm are connected with overlays.