RU176403U1 - SUPPORT ASSEMBLY OF METAL RUNNING ON A BEAM WITH A CORFORED WALL - Google Patents

Abstract

The utility model relates to construction and can be used in the construction of carcasses of buildings and structures. The technical result of the proposed utility model is to increase the bearing capacity of the support unit and the design of the main beam as a whole under the action of a concentrated load, as well as expanding the functionality of the support unit. that a known node supporting a metal run on a beam with a corrugated wall, containing a support plate, the length of which is equal to a length of corrugated wall flanges, connected by a weld to the upper beam flange, is additionally equipped with a support angle and fastening bolts, the run is made in the form of a channel, and the width of the support plate exceeds the width of the beam flange by at least two lengths of the support angle, which meets the requirements of building codes, this run is attached to the protruding part of the base plate by means of fastening bolts through the shelf run and the shelf support angle, the second shelf of which is welded to the outer side of the wall of the run.

Description

The utility model relates to construction and can be used in the construction of carcasses of buildings and structures.

Known unit supporting girders and beams, in which the run rests on top of a beam with a corrugated wall / TU 5261-001-01131690-2006. Welded steel beams of a continuous I-beam cross-section with a Sin-beam corrugated wall for load-bearing frames and floors of a building and structures / OJSC Aerostroy. 2006, p. 41, fig. 2 / [1].

The disadvantage of this node is that the width of the distribution of the concentrated load transmitted from the run to the beam with a corrugated wall, in most cases, is insufficient due to the design features of the beams with a corrugated wall, the thickness of which is about 2-3 mm. In this regard, the action of a concentrated load leads to a loss of stability of the corrugated wall and, ultimately, to the destruction of the node.

Known unit for supporting a metal run on a beam with a corrugated wall, containing an additional element in the form of a support plate that is attached to the upper shelf of a beam with a corrugated wall in the place of supporting the run / RF Patent for Utility Model No. 141155, IPC E04B 1/38 (2006.01) supporting a metal run on a beam with a corrugated wall / I.S. Kholopov, A.V. Soloviev, A.O. Lukin, declared. SGA-SU, 12/04/2013, publ. 05/27/2014. Bull. No. 15 / [2]. A support plate attached to a shelf of a beam with a corrugated wall at the point of abutment of the run. The base plate is fastened by welding or bolts. Adopted for the prototype.

The disadvantage of this node is that the bearing unit is intended for use in the construction sites or roof structures without a slope. In the case of a run from the channel and the presence of a standard slope of 5 to 15 ° on the roof, the bearing unit does not correspond to the operation scheme. The second disadvantage is the inability to perform the site for beams in which the width of the shelf is small to support two runs. In addition, attaching an additional element to a shelf of a beam with a corrugated wall weakens the cross section of the beam and leads to a decrease in the bearing capacity of the beam.

The technical result of the proposed utility model is to increase the bearing capacity of the supporting unit and the design of the main beam as a whole under the action of a concentrated load, as well as expanding the functionality of the supporting unit.

ширины полки балки. При опирании одного прогона он расположен согласно проекту, а опорный уголок прикреплен к прогону с противоположной стороны от консольной части прогона.The technical result is achieved by the fact that the known node supporting the metal girder on a beam with a corrugated wall, containing a support plate, the length of which is equal to the wavelength of the corrugated wall, connected by a weld to the upper shelf of the beam, is additionally equipped with a support angle and mounting bolts, the run is made in the form of a channel and the width of the base plate exceeds the width of the beam flange by at least two lengths of the reference angle, which meets the requirements of building codes, while the run is attached to s of the support plate by bolts run through the shelf and the shelf support brackets, the second shelf which is welded to the outer side wall of the run. In designs with a slope, the reference corner is attached to the run from the side of the slope. When two runs are supported on the beam, their ends are located in the middle of the support plate, and the support corner is attached to the run with an indent from the end of at least

the width of the beam shelves. When one run is supported, it is located according to the design, and the support corner is attached to the run from the opposite side of the console part of the run.

The utility model is illustrated by drawings.

In FIG. 1 shows a side view of the unit supporting the run on a beam with a corrugated wall in a design with a slope, where the following designations are accepted: run - 1, shelf of the beam - 2, corrugated wall - 3, support plate - 4, support angle - 5, mounting bolt - 6 .

In FIG. 2 shows a section AA of FIG. 1 when supporting two runs, where: run - 1, beam shelf - 2, corrugated wall - 3, support plate - 4, support corner - 5, fastening bolt - 6.

In FIG. 3 shows a view A of FIG. 1 when two runs are supported, where: run - 1, beam shelf - 2, support plate - 4, support corner - 5, mounting bolt - 6.

In FIG. 4 shows a section AA of FIG. 1 when one run is supported adjacent to the building envelope, where: run - 1, beam shelf - 2, corrugated wall - 3, support plate - 4, support corner - 5, fastening bolt - 6.

The proposed node supporting the metal girder on the beam contains a support plate - 4, attached by a weld along the end of the shelf of the beam - 2, and protruding beyond it by at least a length of the reference angle - 5, which is attached by one shelf with a weld to the outside of the wall run - 1 and is located in its supporting part. Fastening of the run - 1 to the protruding part from the outside of the base plate - 4 is carried out by bolts of fastening - 6 through the shelf of the run - 1 and the free shelf of the support corner - 5.

Fixing the base plate with a weld along the end of the beam flange allows avoiding weakening of the flange cross-section, and also the longitudinal location of the welds increases the reliable operation of the support unit. The protruding part of the base plate beyond the limits of the beam shelves allows you to increase the area of the support and to support the runs on the beam with a narrow shelf. The length of the support angle must comply with the requirements of building codes to ensure reliable operation of the bolted joint and be at least 5 diameters of the mounting bolt.

The advantage of the proposed support unit is that it can be used in building structures with a slope, for example, in roof structures, where the angle of inclination of the roof beam is from 5 to 15 °. In this case, the run from the channel should be facing the shelves in the opposite direction from the roof slope, and the reference corner should be located on the side of the roof slope.

If two runs are supported on the beam, their ends are located in the middle of the base plate.

Provided that one run is supported on the beam, its end face is located outside the base plate at a distance provided by the project to the building envelope, and the support corner is attached to the run from the opposite side from the cantilever part of the run.

The node is collected in the following order.

To the shelf of the beam - 2 with a corrugated wall - 3 at the places of application of concentrated loads, a support plate is welded - 4, having protrusions outside the shelf of the beam - 2. Then, by welding, the run - 1 is connected with the supporting corner - 5. Then to the protruding part the base plate - 4 bolts of fastening - 6 through the shelf of the run - 1 and the free shelf of the support corner - 5, located in the support part of the run, the run - 1 and the beam with the corrugated wall are connected.

Features of the proposed node supporting the run on the beam with a corrugated wall lead to an increase in the bearing capacity of the building frame nodes.

Using the proposed technical solution allows us to simplify the manufacture of the unit supporting the run on the beam in the metal frames of buildings and structures, as well as to increase its bearing capacity and functionality, because the proposed support unit allows you to support both one run and two, as well as on the beam with a narrow shelf of the beam, and allows you to use it in structures with a slope, for example, in roof structures, where the angle of inclination of the roof beam is from 5 to 15 ° .

Claims (4)

1. The node supporting the metal girder on a beam with a corrugated wall, containing a support plate, the length of which is equal to the wavelength of the corrugated wall, connected by a weld to the upper shelf of the beam, characterized in that it is additionally equipped with a reference angle and mounting bolts, the run is made in the form of a channel and the width of the base plate exceeds the width of the beam flange by at least two lengths of the base angle, which meets the requirements of building codes, while the run is attached to the protruding part of the base plate by means of fastening bolts through the girder shelf and the support corner shelf, the second shelf of which is welded to the outer side of the girder wall. 2. The node according to claim 1, characterized in that in the structures with a slope, the reference corner is attached to the run from the side of the slope. 3. The node according to claim 1, characterized in that when two runs are supported on the beam, their ends are located in the middle of the support plate, and the support corner is attached to the run with an indent from the end of at least

the width of the beam shelves. 4. The node according to claim 1, characterized in that when one run is supported, it is located according to the design, and the support corner is attached to the run from the opposite side from the console part of the run.

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