RU1795014C - Building skeleton - Google Patents

Abstract

Usage: the construction of building frames from light metal structures for industrial purposes. SUMMARY OF THE INVENTION: a building frame is made of frames with a variable cross-sectional height and various strength characteristics of the walls and shelves of their racks and half-beams. 2 ill.

Description

The invention relates to the field of construction and is intended for the erection of frames of buildings for industrial and public purposes.

A building frame is known, including welded, consisting of a wall and pillars, and half-frame structures.

The closest technical solution is. This is the building frame, which includes steel frames from uprights and half-girders leaning on them, made welded from the wall and strips, girders and welded joints.

A common drawback of these solutions is the presence of a significant number of component parts from which the frame is assembled, the need for preliminary cutting of sheet parts, including (oblique, the need for an assembly stand, with individually adjustable transverse stops for assembling and welding sheets into a change profile high cross-sectional area, significant metal consumption, as well as increased volume

welding, which leads to a significant complexity of manufacturing.

The purpose of the invention is to reduce the material capacity and labor,

This goal is achieved by the fact that the racks and crossbars are made of low alloy steel and the wall is of low carbon steel, and the ratio of the cross-sectional areas along the ca around the perimeter of the frames and the walls of the racks and crossbars is selected in the range of 1.7-0.3.

Figure 1 shows the building frame in plan; figure 2 is a section aa in figure 1.

The building frame consists of frames 1, Frames 1 include welded, consisting of a wall 2 and poles 3, racks 4 and a half-bolt 5. The joints of all elements are made welded, rigid, and the strength characteristics of the material along 3 and walls 2 are different. Three poles 4 and half-bolts 5 are made of mild steel, and wall 2 is made of mild steel. The ratio of the cross-sectional areas for sa 3 for sand

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The size of the frames 1 and the wall 2 of the uprights 4 and half-girders 5 is selected in the range of 1.7-0.3.

In columns 4, when they are articulated at the base of frame 1, the bending moment arising from the vertical external on. load, increases or zero at the base to the cornice nodes. In accordance with the growth of the bending moment in the uprights 4, the height increases; cross-section, we obtain w, for example, to dissolve along the oblique lines of the initial profile by appropriate assembly and welding of the formed longitudinal halves. Similarly, it is possible to manufacture elements of half-gels $ ,, ..; ;;:;:AND ,; .: ;;. :. . ;,. . ... / Assembly: of the elements of the frame 1 between themselves can be carried out on the bolts in the form of a flange in the second dyne. neither and; as well as butt welding in factory conditions upon delivery to

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; Kapksj.c a building, which includes steel frames of 1 columns and; 6 supported by a doluregel supported on them, made of welded from

/ glass: th s: in the first place.: th b rn1:) 1ёТЫУи, о н and чащий; th so that, With the aim

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mounting with enlarged elements, Mounting of the frame structures is carried out by installing the frame 1 first to the end of the building, to which the frame frames 1 which are further installed are fastened with the help of runs. After aligning the frames 1 and simple vertical connections, the anchor bolts are tightened or welded and the building fencing elements are further mounted.

The choice of the limiting ratios of the areas along the groove 3 and the wall 2 is determined, on the one hand, by the need to ensure the stable operation of the wall 2, and on the other hand, by the correspondence of the minimum cross-sectional size in the frame 1 of the frame with the acting bending and axial forces.

The use of the frame reduces metal consumption and labor costs for manufacturing ...

Reduced material and labor intensity, poles and girders are made of low alloy steel, and the wall is of low carbon steel, and the ratio of the cross-sectional areas along the ca along the perimeter of the frames and the wall of columns and girders is selected in the range of 1.7-0.3

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