RU22953U1 - METAL FRAME BUILDING - Google Patents

Abstract

1. The metal frame of the building, containing frames installed on the foundation, including racks made in the form of two branches converging to the bottom, connected by means of a diagonal grating, and a gable bolt supported on racks with upper and lower belts connected by a diagonal grating, longitudinal runs, vertical runs and horizontal ties of rigidity and half-timbered strut, characterized in that each slope of the crossbar is made detachable and consists of at least two parts interconnected in the upper and lower zones, with the parts forming the upper crossbar belt are hinged to each other, and the parts forming the lower crossbar belt are joined end-to-end by means of a flange connection formed by vertical corners adjoining and bolted together, fastened by their horizontal shelves to the end sections of adjacent parts of the lower belt, moreover, both belts are connected to each other by additional braces located on both sides of the connector, and the part of the slope of the crossbar adjacent to the rack is attached to the outer branch yoke and its upper brace with the formation of a rigid attachment point, while the branches of the struts, the crossbar belts and the braces of the struts and the crossbar are made of a hollow steel profile of square cross section, and the girders connecting the frames of the metal frame are attached to the braces of the struts and the crossbar and are made of steel round pipes. 2. The frame according to claim 1, characterized in that the half-timbered racks are made of a hollow steel profile of square cross section. 3. The frame according to claim 1, characterized in that the vertical and horizontal bonds of rigidity are made �

Description

constructions of one-story industrial buildings. Designer reference. M., Stroyizdat, 1988, p. 103).

A disadvantage of the known design is its increased material consumption, as well as the complexity of installation.

Known metal frame of the building containing frames installed on the foundations, made of uprights in the form of two branches and a grate and lattice crossbars supported on racks, runs, vertical and horizontal ties and half-timbered racks, each crossbar is supported on both branches of the frame racks by the upper belt by means of support tables protruding beyond the lower edge of the upper belt, and the lower belt of each bolt is attached to the inner branch of the struts of the frames between the attachment points of the lattice, while the branches of the struts are unfastened by means of additional brace, the upper end of which is attached to the upper end of the outer branch, and the lower end to the inner branch in the area of attachment of the lower girder belt to it. Crossbars belts, strut branches, diagonal lattices, as well as girders, half-timbered racks and ties are made of paired S-shaped profiles (RF patent No. 2010091, M1ZH Е04В 1/24, publ. 1994).

The known design also has increased complexity, and not enough high manufacturability.

The objective of the claimed utility model is to expand the arsenal of hardware used in the construction of prefabricated and prefabricated buildings for various purposes, as well as increasing the cost-effectiveness of building by reducing material consumption and simplifying installation work.

The essence of the utility model is as follows.

The metal frame of the building contains frames installed on the foundation, including racks made in the form of two branches converging to the bottom, connected by a diagonal grating.

and a gable bolt supported on racks with upper and lower belts connected by a diagonal lattice, longitudinal runs, vertical and horizontal stiffeners and half-timbered racks.

New in the construction of the metal frame of the building is that each slope of the crossbar is made detachable and consists of at least two parts interconnected in the upper and lower zones, while the parts forming the upper belt of the crossbar are pivotally connected, and the parts, forming the lower girder belt, are butt-joined by means of a flange connection formed by vertical corners adjoining and bolted together, fastened by their horizontal regiments to the end sections of adjacent parts lower belts, and both belts are connected to each other by additional braces located on both sides of the connector, and the part of the slope of the crossbar adjacent to the rack is attached to the outer branch of the rack and its upper brace with the formation of a rigid attachment point, while the branches of the racks, belt the crossbars and braces of the uprights and the crossbar are made of a steel hollow profile of square cross section, and the runs connecting the frames of the metal frame are attached to the braces of the uprights and the crossbar and are made of round steel pipes.

Fachwerk racks, as well as vertical and horizontal stiffeners, can also be made from a hollow steel profile with a square cross section.

In FIG. 1 shows a cross section of a frame of a frame; in FIG. 2 layout of frame elements in plan; in FIG. 3 - section aa in figure 2; in FIG. 4 - section of the frame of the frame, including part of the slope of the crossbar; in FIG. 5 - section of the frame of the frame, including the rack frame with elements of the slope of the crossbar; in FIG. 6 - a junction of the parts of the crossbar in its upper zone (top view); in FIG. 7 - node connecting parts of the crossbar in

its lower belt (bottom view); in FIG. 8 - connections of a nrogon with a brace; Fig.9 - frame frame, forming the end of the building with a door; in FIG. 10 - frame of the frame forming the main end of the building.

The metal frame of the building contains frames 2 installed on the foundations 1, each of which includes racks 3, consisting of two outer 4 and inner 5 branches converging to the bottom, connected by a diagonal grating 6, and gable crossbars 7 in the form of upper 8 and lower 9 belts connected by a diagonal grating 10. The frame also contains runs 11, vertical 12 and horizontal 13 ties and racks half-timbered 14.

The metal frame during assembly is formed from modules 15 (Fig. 4), each of which includes part of the crossbar elements, and modules 16 (Fig. 5), each of which includes crossbar and rack elements.

Each slope of the crossbar 7 is made detachable and consists of several parts connected to each other. In the example shown in the figures, each slope of the crossbar consists of two parts 17 and 18, fastened by means of joints 19, 20, respectively, in the upper 8 and lower 9 zones. The belts 8 and 9 are fastened by two additional braces 21, 22 located on both sides of the slot of the crossbar. The part of the slope of the crossbar 7, leaning on the rack, is rigidly bonded to it by the end brace 23, welded to the upper end of the outer branch 4 of the rack 3 and the brace 24, welded to the upper brace 25 of the rack 3, which forms the lower belt 9 of the crossbar when connecting the rack with the slope of the crossbar 7.

The branches of the uprights, the girder belts, the braces are made of square steel pipes, and the runs are made of round steel pipes.

Installation of the building frame from single-span frames is as follows.

Previously, the modules 15, 16 are made from the frame elements in the factory, while all the elements of the modules are connected by welding. Then, at the installation site of the building on the assembly site, the modules 15 and 16 are pivotally connected by means of bolted connections 19 to the frames. The assembled frames are lifted into a helper position, the modules are fastened by means of a flange connection formed by vertical corners of shelves 26 touching each other and bolted together by bolts, welded by their horizontal shelves 27 to the end sections of adjacent parts of the lower belt, while the frame racks are mounted on the foundation supports. Frames are connected to each other by removable girders, which are attached to the braces of racks and crossbars.

The proposed design is easy to manufacture and convenient to install, has high reliability.

Claims (3)

1. The metal frame of the building, containing frames installed on the foundation, including racks made in the form of two branches converging to the bottom, connected by means of a diagonal grating, and a gable bolt supported on racks with upper and lower belts connected by a diagonal grating, longitudinal runs, vertical runs and horizontal ties of rigidity and half-timbered strut, characterized in that each slope of the crossbar is made detachable and consists of at least two parts interconnected in the upper and lower zones, with the parts forming the upper crossbar belt are hinged to each other, and the parts forming the lower crossbar belt are joined end-to-end by means of a flange connection formed by vertical corners adjoining and bolted together, fastened by their horizontal shelves to the end sections of adjacent parts of the lower belt, moreover, both belts are connected to each other by additional braces located on both sides of the connector, and the part of the slope of the crossbar adjacent to the rack is attached to the outer branch yoke and its upper brace with the formation of a rigid attachment point, while the branches of the struts, the crossbar belts and the braces of the struts and the crossbar are made of a hollow steel profile of square cross section, and the girders connecting the frames of the metal frame are attached to the braces of the struts and the crossbar and are made of steel round pipes.  2. The frame according to claim 1, characterized in that the half-timbered racks are made of a hollow steel profile of square cross section. 3. The frame according to claim 1, characterized in that the vertical and horizontal bonds of rigidity are made of a steel hollow profile of square cross section.