SU924301A1 - Truss - Google Patents

Description

The invention relates to the construction and can be used in the coating of industrial and public buildings.

Known farm of polygonal elements [13. ^five

These modular elements are made of I-beams, cut in steps along its length, or a channel. In addition, the modular element in the form of a triangle is designed so that the heights of the walls on each side of the modular element are different and constant within it. Interconnecting the triangles, they form a truss in which the belt of variable cross section increases by the middle of the span and is formed by a stepped cut of the wall h

I-beam or channel, and the elements of the lattice are attached to the belt. With _Λ

This step belt wall is located in the plane of the truss, and the shelf is from the plane of the truss. An increase in wall height corresponds to an increase of 2

effort in the farm. This solution allows you to unify the manufacture of farms and allows you to get a large assortment of farms from a single initial modular element.

The disadvantages of this solution include the complexity of manufacturing modular elements. For the formation of triangles, it is necessary to make quite complex cuttings in the corners, then bend the long starting element into a triangle and weld it in the corners. The connection of the triangles with the lower belt is also difficult in forming trusses with great efforts.

The closest technical solution to the proposed is a truss, including belts, one of which from a farm plane is made of variable cross section, increasing in the middle of the span [2].

The disadvantage of this solution is increased material consumption.

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15

20

3,92430

truss designs as well as complexity

joining the lattice to the belts.

The purpose of the invention is to reduce the metal and the complexity of manufacturing the farm. five

This goal is achieved by the fact that in the farm, including the belt _? one of which is made of a truss plane of variable cross-section, increasing to the middle of the span, the element of the belt of variable cross-section from the truss plane is made stepped with a height that is constant within the truss panel.

FIG. 1 shows a fragment of the proposed farm; in fig. 2 shows a section A-A in FIG. in fig. 3 shows a section BB in FIG. 1 (belt of the brand); ' in fig. A - the same belt from the corner '; in fig. 5 is a variant of a truss belt. With a symmetrical arrangement of the stepped elements *, FIG. 6 shows a section B-B in FIG. five-; in fig. 7 - cut line of the original profile; in fig. 8 - section G-Y in FIG. 7 (when cutting the I-beam); in fig. 9 - the same, when cutting the channel.

the truss includes a T-shaped or angular element of belt 1 formed by a stepped cut of the wall of an I-beam or channel or a grating 2. The element of belt 1 is installed out of the plane with its stepped wall and a shelf to which the grating elements are attached is in the plane of the truss. This solution ₃₅ allows the same for all farm uzlo'v height attachment zone of lattice elements in the belt, and at the same time allows the belt to concentrate the greatest cross section in the ground ₄₀ usi- ly.

25

When the grating is attached from the inside of the shelf, a truss is formed asymmetrically from the plane of the type of known single-corner trusses.

When using two stepped elements in the belt, a symmetrical truss is formed. Here, gaskets 3 can be used to connect the belt elements together.

The original profiles 4 in the form of a channel or an I-beam are cut along their walls along the cut line 5, forming step-like elements of the belt 1, and within one truss panel the height of the cut wall remains constant.

The proposed solution allows to simplify the manufacture of trusses and, most appropriately, to use I-beams with a small wall thickness for stretched belts.

Claims (1)

Claim . - Фер 'A truss, including belts, one of which is made of variable cross-section increasing from the middle of the span from the plane of the truss; the limits of the truss panel ..