RU19068U1 - STRUCTURAL COVERING - Google Patents

Abstract

Structural coating of trihedral trusses joined by the roofing flooring, each of which contains upper pentagonal section belts, of channel and corner rigidly interconnected, lower belts, including angles directed upside down and braces from corners attached to belt shelves, characterized in that that it additionally contains inclined end trusses and puffs between the belts, while the puffs between the lower belts are located in the center of the coating.

Description

Structural coating

The utility model relates to building metal structures and can be used as a cover for one multi-span industrial and public buildings, as well as for installing overhead handling equipment and suspension of technological devices.

Known devices for structural coatings with an upper belt from an I-beam, a lower belt from a corner oriented downwards, braces from single bars, bolted joints of belts with braces through gussets 1. A profiled flooring is laid along the upper belts. The block is closed by end trusses installed on short sides. The disadvantage of this coating is that it contains a large number of bolted joints performed on a building site; however, this leads to an increase in the volume of work on enlarging the assembly of the structure. The diagonal lattice of such a coating is lightly loaded. All this leads to increased consumption of metal and the complexity of manufacturing.

Closest to the claimed structural coating is a folded coating of inclined trusses 2. It consists of a continuous system of flat trusses, inclined at a corner of 45 ° to a vertical plane. Each adjacent farm has a common belt: either the upper one, which is the pentagonal profile of Szeged, formed from a docked channel and a corner; or lower, formed from a single corner, oriented upward by the edge of a bar. Braces from single corners are welded to the belts. This allows you to implement a packageless solution for nodes and

IPC E04C 3/04

a non-stop solution for roofing and is more economical than analogues. However, the design of such a cover contains a large number of inclined trusses, which leads to an increase in the volume of work performed manually on a stargel square; an addeck for enlarged assembly of the structure. The diagonal lattice of the truss farms is lightly loaded and has a large supply of layers; it has abilities, but without it it is impossible to form a constructive form of a folded coating. The absence of connecting elements between the upper zones of the folded system leads to the need to include the roofing in collaboration with the folded coating, and as a result, more frequent fastening of the profiled sheet to the upper belt and increased control over the quality of the fastening of the profiled sheet. In addition, this design involves a large number of supports.

The objective of the utility model is to ensure its rigidity and reduce the laboriousness of manufacturing and installation with high load-bearing ability and low metal consumption of the structural coating.

The problem is solved as follows. In the structural coating of triangular trusses joined by the roofing with a pentagonal section of the upper belt from the channel and the corner rigidly connected to each other, with the lower belt from the corner oriented upward by the edge, with braces from single corners, the ends adjoining the shelves of the waist corners, with a roofing of profiled sheet or sandwich panels, according to a utility model, the structural coating further comprises trusses, which are included in the core system of the structural coating in the form end

inclined node-truss trusses, between the upper and between the lower belts there are puffs, while the puffs between the lower belts are located in the center of the coating. The design scheme of the coating allows you to make the design of maximum factory readiness - in the form of spatial trihedral trusses and reduce the complexity of the enlargement assembly of the coating. Thus, the claimed device differs from the prototype in that:

-the structural coating contains inclined trusses;

The structural coating contains a tension between the belts, while the tightening between the lower belts is located in the center of the coating.

This indicates the novelty of the claimed device.

The installation of puffs on the upper and lower zones makes the core coating system rigid and allows you to install it as a single unit. The inclusion of truss trusses in the core system of the structural coating in the form of inclined end truss trusses allows the structure to be guided by corner points.

structurally, the structural coating system seems to consist of separate blocks - trihedral trusses manufactured at the factory, which reduces the number of work on enlarging assembly at the installation. All this allows, in comparison with the prototype, to significantly reduce the number of braces in the structural coating, to remove lightly loaded braces, which leads to a decrease in the large margin bearing capacity of the braces and their more effective work in the core system of the structural coating, to increase

spatial rigidity of the core system, reduce the complexity of manufacturing and installation of high load bearing capacity and low metal construction.

The figure 1 shows a plan of structural coating with a pentagonal section of the upper zone; figure 2 shows a cross section of a structural coating; figure 3 is a longitudinal section of a structural coating.

The claimed structural coating has upper belts 1, lower belts 2, upper belts of the end inclined truss trusses 3, lower belts of the end inclined truss trusses 4 and braces 5. The upper belts I are located in the longitudinal direction, the lower belts 2 are offset by a half-step relative to the upper 1. The upper belt 1 consists of a channel joined in welding and an angle with a horizontal orientation of the channel wall; lower belt 2 from a single corner, oriented obuschem up; the upper 3 and lower 4 belts of the end inclined truss trusses are made of single corners; braces 5 from single corners. The rods of the braces 5 are attached by the ends to the shelves of the waist corners of the belts 1, 2 (Fig. 2) by welding. Braces 6 (Fig. 3) are also welded to the belts 3, 4 of the end inclined truss trusses. The upper belts of the structural coating in the horizontal plane are connected by puffs 7 (Fig. 1, Fig. 2) and a roofing made of profiled sheets or sandwich panels 8. The lower middle belts in the center of the block are connected by puffs 9. Fastening the puffs 7 and 9 to the upper belt 1 or lower belt 2 is carried out on bolts or on welding. The support of the structural coating is carried out at four corner points on the columns.

The manufacture of a structural coating, for example, from the five upper belts 1 and four lower belts 2, is carried out as follows: the channel and the corner are joined together by longitudinal welds and form elements of the belt 1 of the pentagonal section profile. Then, the production of spatial trihedral trusses 10 is formed, formed by the upper belts 1 and one lower 2 and the spatial truss 11, formed by one upper belt 1 and two lower 2 (Fig. 2). In the manufacture of spatial trihedral trusses 10 and 11, the upper belts 1 are installed with the horizontal orientation of the channel wall, the lower belts 2 are installed with the orientation of the angle plate up. At the same time, the channel walls of the upper belts 1 serve as supports for the flooring, and the inclination of the planes of the waist corners of the elements I and 2 corresponds to the required planes of the ends of the braces 5. The braces 5 made of single corners are welded to the shelves of the waist corners of the upper 1 and lower 2 belts (Fig. . 2, Fig. 3). After this, the manufacture of end inclined truss trusses is carried out. To the shelves of the corners of the upper 3 and the other 4 zones of the end inclined truss trusses, braces 6 are welded (Fig. 3) from single corners. Formless trihedral spatial farms and flat farms of full factory readiness are formed. Spatial trihedral farms are convenient for transportation, their dimensions and device allow you to transport several farms at the same time due to their Christmas tree laying on the vehicle. At the installation site, spatial, flat and linear elements are combined into a single spatial structural design of the coating. It is advisable to apply a structural coating with dimensions in plan

12x18m., 12x24m. and a height of 1.5 m. To the three-sided truss farms 10 and 11, heel inclined inclined trusses formed by noses 3 and 4 and braces 6. Then, puffs 7 heel to the upper belts 1, and puffs 9 to the lower noses 2. After that, the spatial the coating unit is installed in the design position. Then the device is installed roofing 8 in the form of a profiled sheet or sandwich panels. Conveyor assembly and block installation additionally simplify the manufacturing and installation processes of the coating, making it technologically advanced and less time consuming. Structural coating works as a spatial system with continuous belts. The upper belts work as compressed curved rods. Lower belts are like eccentrically extended rods. Braces work in tension and compression. Roofing from profiled flooring or sandwich panels works in bending. Thus, the structural coating is characterized by increased spatial rigidity, both at the installation stage and in operating conditions, and is an industrial and technological constructive form.

Sources of information.

1. Designer reference. Metal constructions. Moscow. Stroyizdat 1980 from 278 - 282.

2. Utility Model Certificate No. 8716, IPC E 04 C 3/04

Claims (1)

Structural coating of triangular trusses joined by the roofing flooring, each of which contains upper pentagonal section belts, of channel and corner rigidly interconnected, lower belts, including angles directed upward by the edge and braces of angles attached to the shelves of the belts, characterized in that that it additionally contains inclined end trusses and puffs between the belts, while the puffs between the lower belts are located in the center of the coating.