RU2478760C2 - Metal frame assembly for low-rise building - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: metal frame assembly for a low-rise building comprises a double-tee pillar, having alternating cross section by height within a lower floor, with paired horizontal symmetrical stiffening ribs at both sides of its wall, which are arranged in the plane of upper and lower shelves of a double-tee beam connected to the inner shelf of the pillar to form a cantilever. The free end of the cantilever in the area of least bending torques is connected by means of high-strength bolts with a crossbar, having a cross section corresponding to the cantilever section. Between horizontal stiffening ribs of the pillar there are ribs installed for connection of spacers to them, which are displaced from a neutral axis of cross section towards the outer shelf of the pillar and are installed in parallel to it. A vertical rib is welded to the inner shelf of the pillar and to the upper belt of the cantilever as arranged in the plane of cantilever walls and the pillar. The crossbar with the pillar cantilever is connected by means of flanges welded to their ends and protruding beyond the limits of their upper shelves, at the same time the crossbar and the cantilever are equipped with supporting ribs of their upper shelves and supporting ribs of their walls.

EFFECT: reduced material intensity of a unit due to its higher stiffness.

6 cl, 1 dwg

Description

The invention relates to the field of construction, in particular to nodes connecting elements of a metal frame frame, mainly for low-rise buildings for various purposes: office buildings, shopping centers, factory premises.

Known metal frame assembly, including an I-beam with a short I-beam welded to its flange, connected in the zone of least stress with a crossbar using a vertical plate, rigidly attached to the wall of the short beam with the formation of a console having holes for bolts to connect to the crossbar wall and lower plates, having many holes for bolts, coaxially located relative to the holes made respectively in the upper and lower shelves of the short beam and the crossbar, while tkaya beam fixed against displacement via top and bottom plates welded to the columns cantilevered shelf (WO 96/18774, Cl. E04V 1/19, 1996).

A disadvantage of the known solution is the large volume of assembly welding, the number of hardware and additional overlays, which increases the labor costs for installation.

The closest analogue to the claimed solution is a metal frame assembly for a low-rise building, including an I-pillar, which has at least a variable cross-section in height at least within the lower floor, with stiff horizontal ribs symmetrical on both sides of its shelf, located in the plane of the upper and lower shelves I-beam, welded to the inner shelf of the column with the formation of the console, the free end of which in the zone of least bending moments is connected by high-strength bolts with a crossbar having a cross section corresponding to the section of the console (Metal structures. Designer guide. Edited by N. Melnikov, Moscow, Stroyizdat, p. 174, Fig. 9.4b).

To connect the crossbar with the column, horizontal and vertical overlays are used, which increases the complexity of the node.

An object of the invention is to reduce the material consumption of the site by increasing its rigidity and increasing the internal space of the building.

This problem is solved due to the fact that

in a node of a metal frame for a low-rise building, including an I-beam column having at least a variable cross-section in height at least within the lower floor, with stiffening ribs horizontal symmetrical on both sides of its wall, located in the plane of the upper and lower shelves of the I-beam, joined by welds to the inner shelf of the column with the formation of the console, the free end of which in the zone of least bending moments is connected by means of high-strength bolts with a crossbar having a cross section a section corresponding to the cantilever section, between the horizontal stiffeners of the column at least on one side of its wall, ribs are installed for attaching struts to them, offset from the neutral axis of the section towards the outer shelf of the column and placed parallel to it, and to the inner shelf of the column and to the upper a vertical rib is welded to the console belt located in the plane of the console wall; the crossbar with the console of the column is connected by means of flanges welded to their ends and protruding beyond their upper shelves, while the crossbar and the console are equipped with reinforcing ribs of their upper shelves located in the plane of the walls of the crossbar and the console and reinforcing ribs of their walls located in the same plane above the neutral axis of the cross-section of the crossbar and the console parallel to their shelves;

between the upper flange of the crossbar and the console and between the reinforcing ribs of the wall of the crossbar and the console, at least two rows of high-strength bolts are installed in height;

the height of the vertical rib welded to the inner shelf of the column and to the upper belt of the console exceeds the height of the rib welded to the upper shelves of the beam and crossbar;

the height of the rib welded to the upper shelves of the beam and the crossbar is 0.2-0.5 of the length of the rib;

the number of horizontal rows of bolts above the neutral axis of the cross-section of the crossbar and the console exceeds the number of rows of bolts below the mentioned axis of the section;

the spacer is made of a closed cross section, mainly square, and is attached to the edge of the column by means of a T-flange, the shelf of which is welded to the end of the spacer, and the wall on the bolts is attached to the rib.

The invention is illustrated in the drawing, where figure 1 shows the connection node of the crossbar with the column in perspective.

The nodal connection includes a column 1 of an I-section, consisting of a wall 2, an outer shelf 3 and an inner shelf 4 facing the building’s premises.

Column 1 is equipped with pairs of horizontal stiffeners 5 and 6, symmetrically located on both sides of its wall 2. Rib 5, like rib 6, is welded to the wall 2 of the column and shelves 3 and 4. Each pair of ribs 5 and 6 is located in level shelves 7 and 8 of the I-beam, welded to the inner shelf 4 of the column with the formation of the console 9.

Column 1 together with the console 9 is a single mounting part and is made with a length of at least two floors. Within the lower floor, the column 1 has a variable cross-section in height, decreasing from the lower shelf of the console 9, and a constant cross-section in height above the lower shelf of the console 9. It is possible to make a column of variable cross-section within two floors.

The free end of the console 9 in the zone of least bending moments is connected by means of high-strength bolts to the crossbar 10 having an I-beam cross section, i.e. the cross section corresponding to the section of the console. Between the horizontal stiffening ribs of the column, at least one side of its wall has vertical ribs 11 for attaching struts 12. The ribs 11 are offset from the neutral axis of the cross section towards the outer shelf 3 of the column and are parallel to it. This arrangement of ribs increases the volume of the room.

A vertical rib 13 is welded to the inner shelf 4 of the column and to the upper shelf 7 of the console 9, located in the plane of the console wall 14, increasing the rigidity of the connection.

The crossbar 10 with the console 9 of the column is connected by means of flanges 15 and 16, welded to their ends and protruding beyond their upper shelves 7 and 17. Due to the removal of the connection of the crossbar 10 with the column 1 in the zone of least moments, it is possible to use thin flanges, the thickness of which does not exceed twice the thickness of the crossbar shelf, which reduces the material consumption of the node.

The crossbar 10 and the console 9 are equipped with reinforcing ribs 18 and 19, respectively, of their upper shelves 17 and 7 and reinforcing ribs 20 and 21 of their walls 22 and 14.

The reinforcing ribs 18 and 19 are made of sheet metal, have a shape close to a triangle, and legs are welded respectively to the upper shelves 17 and 7 of the bolt 10 and the console 9 and the protruding sections of their flanges and are located in the plane of their walls 22 and 14.

The reinforcing ribs of the walls 20 and 21 of the crossbar and the console are located in the same plane, above the neutral axis of the cross-section of the crossbar and the console, parallel to their shelves and symmetrically on both sides of their walls.

Between the upper flange of the crossbar and the console and between the reinforcing ribs of the wall of the crossbar and the console, at least two rows of high-strength bolts 23 are installed in height.

The height of the vertical rib welded to the inner shelf of the column and to the upper belt of the console exceeds the height of the rib welded to the upper shelves of the beam and crossbar.

To ensure the joint work of the reinforcing ribs of the upper shelves 17 and 7 of the crossbar 10 and the console 9, their height should be 0.2-0.5 of their length.

The arrangement of bolts along the wall of the crossbar and the console is uneven: the number of horizontal rows of bolts above the neutral axis of the cross-section of the crossbar and the console exceeds the number of rows of bolts below the mentioned axis of the cross section, which allows to reduce the material consumption of the assembly without reducing the bearing capacity of the flange connection.

The spacer 12 is made of a closed cross section, mainly square, and is attached to the edge of the column by means of a T-shaped flange, the shelf of which is welded to the end of the spacer, and the wall on the bolts is attached to the rib.

Claims (6)

1. The node of the metal frame for a low-rise building, comprising an I-beam, having at least a variable cross-section in height at least within the lower floor, with stiffening ribs horizontal symmetrical on both sides of its wall, located in the plane of the upper and lower shelves of the I-beam, connected by welds to the inner shelf of the column with the formation of a console, the free end of which in the zone of least bending moments is connected by means of high-strength bolts with a crossbar having a transverse cross-section a section corresponding to the console section, characterized in that between the horizontal stiffeners of the column, at least on one side of its wall, ribs are installed for attaching struts to them, offset from the neutral axis of the section towards the outer shelf of the column and placed parallel to it, and a vertical rib located in the plane of the walls of the console and the column is welded to the inner shelf of the column and to the upper belt of the console; the crossbar with the console of the column is connected by means of flanges welded to their ends and protruding beyond their upper shelves, while the crossbar and the console are equipped with reinforcing ribs of their upper shelves located in the plane of the walls of the crossbar and the console and reinforcing ribs of their walls located in the same plane above the neutral axis of the cross-section of the crossbar and the console parallel to their shelves. 2. The frame assembly according to claim 1, characterized in that between the upper flange of the crossbar and the console and between the reinforcing ribs of the wall of the crossbar and the console, at least two rows of high-strength bolts are installed in height. 3. The frame assembly according to claim 1, characterized in that the height of the vertical rib welded to the inner shelf of the column and to the upper belt of the console exceeds the height of the rib welded to the upper shelves of the beam and crossbar. 4. The frame assembly according to claim 3, characterized in that the height of the rib welded to the upper shelves of the beam and the crossbar is 0.2-0.5 of the length of the rib. 5. The frame assembly according to claim 1, characterized in that the number of horizontal rows of bolts above the neutral axis of the cross-section of the crossbar and the console exceeds the number of rows of bolts below the mentioned axis of the section. 6. The frame assembly according to claim 1, characterized in that the spacer is made of a closed cross section, mainly square, and is attached to the edge of the column by a T-flange, the shelf of which is welded to the end of the spacer, and the wall on the bolts is attached to the rib.

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