RU2484212C1 - Unit of metal frame carcass of building - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: unit of a metal frame carcass of a building includes a double-tee column, combined with a double-tee beam, which creates a column cantilever, which is rigidly connected in the zone of least bending torques by means of flanges on high-strength bolts with a crossbar, having the cross section corresponding to the section of the column cantilever. The column is equipped with an upper stiffening rib and paired lower stiffening ribs, symmetrically arranged at both sides of the column wall in the level of the lower shelf of its cantilever. Between the upper and lower stiffening ribs of the column in parallel to its shelves there is a vertical rib for connection of the spacer and the vertical link to it, and to the column wall above the neutral axis of its cantilever and in parallel to its shelf there is a polygonal plate attached to the shelf, and this plate protrudes beyond the edge of the upper stiffening rib, for fixation of the horizontal link. Central longitudinal axes of the spacer, horizontal and vertical links are connected in one point arranged in the frame plane.

EFFECT: unit strength improvement.

3 cl, 1 dwg

Description

The invention relates to the field of construction, in particular, to the nodes of the coupling unit of the frame frame of metal prefabricated buildings from light structures.

Known node of the metal frame of the building, including an I-beam with two pairs of horizontal stiffeners, each of which is symmetrically located on both sides of the column wall; on the outside of one of the column shelves, at the level of its horizontal stiffening ribs, a support table and a connecting plate for fixing the spacer beam and a vertical flange located in the plane of the column wall for vertical connection to it are welded (Faibishenko V.K. Metal structures. Moscow, Stroyizdat, 1984, p. 162).

A disadvantage of the known solution is the complexity of mounting the node due to the increased volume of welding and a large number of connected parts.

An object of the invention is to increase the strength and rigidity of the node, reducing labor costs during the installation of its elements and reducing metal consumption.

This problem is solved due to the fact that in the node of the metal frame of the building, which includes the extreme I-beam, combined with the I-beam, forming the cantilever of the column, rigidly connected in the zone of least bending moments by means of flanges on high-strength bolts with a crossbar having a cross section corresponding to the section console columns, while the column is equipped with an upper horizontal stiffener made with the upper shelf of its console in the form of a single part, which is part of the outer contour of s, and paired lower horizontal stiffeners, arranged symmetrically on either side of the column wall at the level of its lower flange console; between the upper and lower horizontal stiffeners of the column parallel to its shelves there is a vertical rib for attaching a spacer and vertical connection to it, and a polygonal plate parallel to the upper horizontal stiffening and protruding beyond its edge is attached to the column wall above the neutral axis of the console for horizontal connection while the spacer, horizontal and vertical ties are made of one profile shape, and their central longitudinal axes are connected at one point, p memory location in the plane of the frame.

In addition, this problem is solved due to the fact that the spacer, horizontal and vertical ties are made of a closed, mainly rectangular profile, and their ends are equipped with T-shaped flanges attached to a vertical rib and a polygonal column plate on bolts; the vertical stiffener is located symmetrically relative to the central axis of symmetry of the column or is shifted towards its outer shelf.

The invention is illustrated in the drawing, where figure 1 shows a node of a metal frame of a building in perspective.

The assembly unit of the metal frame of the building includes an extreme continuous I-beam column 1, combined with an I-beam 2, which forms the console of the column.

Column 1 can be made constant or variable cross-section in height.

The beam (or console) 2 is connected to the column 1 using factory welding and form one shipping mark.

The console 2 is rigidly connected to the I-beam crossbar 3 of the frame, having a cross section corresponding to that of the column console, by means of flanges 4 on high-strength bolts 5 in the zone of least bending moments. Thus, the length of the console of the column is determined by the distance from the vertical outer contour of the frame (outer shelf of the column) to the zone of zero moment.

The free end of the column 1 is connected by welding with the upper horizontal stiffener 6. The upper stiffener 6 and the upper shelf of its console are made in the form of a single part, which is part of the outer contour of the frame.

At the level of the lower shelf of the console 2, the column 1 is equipped with a pair of lower horizontal stiffening ribs 7 symmetrically positioned relative to its wall. Each lower horizontal rib 7 is welded to the column wall and its two shelves 8 and 9.

Between the upper 6 and lower 7 horizontal stiffeners of the column 1, parallel to its shelves 8 and 9, on one side of its wall there is a vertical rib 10 for attaching a spacer 11 and a vertical link 12. A vertical rib 10 is connected to the upper and lower stiffeners by welding columns and its wall.

A polygonal plate 13 is attached to the wall of the column above the neutral axis of its console 2 and parallel to its upper horizontal stiffening rib for fixing the horizontal bond of the coating 14.

The vertical 12 and horizontal 14 ties and the strut 11 combine adjacent frame frames with the formation of the connecting block and provide spatial stability of the building frame.

In the plane of the vertical rib 10 of the column 1, a vertical rib is welded to the other side of its wall to attach to it spacers 11 of the adjacent span (not shown in the drawing).

The spacer 11, horizontal 14 and vertical 12 communications are made of a closed, mainly rectangular profile, and their central longitudinal axis is connected at one point located in the plane of the frame.

The ends of the struts 11 horizontal 14 and vertical 12 ties are provided with T-shaped flanges 15, respectively attached to the vertical stiffener 10 and the polygonal plate 13 of the column on the bolts 16. The plate 13 extends beyond the edge of the upper horizontal stiffener of the column 6 by an amount that secures T- horizontal flange 14.

The vertical stiffening rib 13 is located symmetrically with respect to the central axis of symmetry of the column or, in the case of manufacturing a column of variable cross-section in height, is shifted towards its outer shelf 9.

Claims (3)

1. The node of the metal frame of the building, including the extreme I-beam, combined with the I-beam, forming the console of the column, rigidly connected in the zone of least bending moments by means of flanges on high-strength bolts with a crossbar having a cross section corresponding to the section of the console of the column, while the column is provided the upper horizontal stiffener, made with the upper shelf of its console in the form of a single part, which is part of the outer contour of the frame, and paired lower horizontal ramie stiffness are located symmetrically on either side of the column wall at the level of its lower flange console; between the upper and lower horizontal stiffeners of the column parallel to its shelves there is a vertical rib for attaching a spacer and vertical connection to it, and a polygonal plate parallel to the upper horizontal stiffening and protruding beyond its edge is attached to the column wall above the neutral axis of the console for horizontal connection while the spacer, horizontal and vertical ties are made of one profile shape, and their central longitudinal axes are connected at one point, p memory location in the plane of the frame. 2. The node according to claim 1, characterized in that the spacer, horizontal and vertical ties are made predominantly of a closed rectangular profile, and their ends are equipped with T-shaped flanges attached to a vertical rib and a polygonal column plate with bolts. 3. The node according to claim 1, characterized in that the vertical stiffener is located symmetrically with respect to the central axis of symmetry of the column or is shifted toward its outer shelf.

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