RU97145U1 - FRAME BUILDING FROM CHANNELS - Google Patents

Abstract

The utility model is aimed at reducing the complexity of manufacturing and assembling the frames of buildings assembled, for example, from one type of channel profile. The goal is achieved by that. that in the frames of buildings from channels containing corrugated board and channels supported by trusses from channels, and containing columns of a building of two channels and columns supported by gable triangular trusses with an upper belt of two channels, between the walls of which racks and braces of the farm are located and overlap single or paired with the walls of the channels, while the lower belt of the truss is made of one or two, composed by the walls of channels, oriented by the shelves parallel to the plane of the truss, and the grille of the truss is connected to the lower trusses on two parallel scarves, while all connections of truss nodes and building frame racks are made by overlapping elements on each other with screws, bolts or welding, ACCORDING TO THE USEFUL MODEL, the cross section of the girders, all elements of the trusses and columns of the building are made of one type of channel with a proportion channel wall heights equal to two widths of its shelves, while the heads of truss racks and frame columns are made T-shaped with shelves of two sections of channels, overlapped and fastened by channel walls to racks and columns, and in the nodes anija farms these segments U-sections resting on the upper chord and fastened thereto, and a support unit with a column attached to the lower belt and the farm, the frame section of the column is formed of two U-sections I-beam, box-shaped or cross-cutting. The goal is also achieved by the fact that for the insulated coatings of buildings, the frame semi-trusses are made single- or double-staged, and the corrugated board is supported directly on the upper truss belts. The goal is also achieved by the fact that the stops for fixing the girders are made of sections of channels that are perpendicular to the upper belt of the truss and fastened with their shelves to the walls of the waist channels, and the coating runs are composed of two channels in the form of an I-beam, fastened by the walls of the channels, with one channel of the run it is attached to the stops protruding beyond the size of the upper farm belt, and the other is shorter than the first to the height of the channel wall of the farm rack and is supported on the farm belt and attached to the first. The goal is also achieved by the fact that the axis of the columns on the truss supports is shifted into the building span by the value e = M / N, where: M is the reference design moment in the upper truss belt; N is the calculated force in the column of the frame. Due to the equality of the channel wall walls, two channel shelves manage to place the same number of self-tapping screws or bolts on the shelves and walls of the joined channel frames of the building, which allows the frame nodal connections to be made without cogs and not only reduce the complexity of manufacturing the building frame, but also reduce the material consumption for the building as a whole. The most effective utility model can be used in building coatings, along a grid of columns in the longitudinal direction from 3 to 6 m and in the transverse direction from 12 to 24 m, where all frame elements (girders. Trusses, and columns) can be made from one type of section C-shaped or -shaped channel, for example, from galvanized profiles, and assemble building frames only on self-tapping screws or bolts. Development is transferred for implementation under license with registration of the contract with ROSPATENT.

Description

The utility model relates to the field of construction and relates to coatings of buildings containing flooring slabs, girders, trusses and columns.

The carcasses of buildings containing flooring supported by girders from channels and gable trusses and columns from rolled profiles are well-known (see Metal Structures. Designer’s Guide. Moscow. Stroyizdat, 1980, Figure 1.18, see also the attached best-panel brochure).

In these building frames, different types of profiles are used, and their nodal connections are performed on sheet shapes, which leads to an increase in the complexity of manufacturing and assembling the frames of such buildings.

The utility model is aimed at reducing the complexity of manufacturing and assembling the frames of buildings assembled, for example, from one type of channel profile.

The goal is achieved by that. that in the frames of buildings of channels containing corrugated board and channel runs supported by trusses from channels, and containing columns of a building of two channels and columned gable triangular trusses with an upper belt of two channels, between the walls of which racks and braces of the farm are located and overlap single or paired with the walls of channels, the lower belt of the truss made of one or two composed of walls of channels oriented by the shelves parallel to the plane of the truss, and the grid of the truss is connected to the lower belt trusses on two parallel scarves, while all connections of truss nodes and building frame racks are made by overlapping elements on each other with screws, bolts or welding, ACCORDING TO THE USEFUL MODEL, the cross section of the girders, all elements of the trusses and columns of the building are made of one type of channel with a proportion the height of the channel wall is equal to the two widths of its shelves, while the heads of the truss racks and the columns of the frame are made T-shaped with shelves of two sections of channels, overlapped and attached by the walls of the channels to the racks and columns, and in the nodes In the case of trusses, these sections of channels are abutted in the upper truss belts and attached to them, and in the support node with the column are also attached to the lower truss belt, while the cross-section of the frame column is made of two channels with two-tee, box or through.

The goal is also achieved by the fact that for the insulated coatings of buildings, the frame semi-trusses are single or double-stranded, and the corrugated board is directly supported on the upper truss belts.

The goal is also achieved by the fact that the stops for fixing the girders are made of sections of channels that are perpendicular to the upper belt of the truss and attached by their shelves to the walls of the waist channels, and the coating runs are composed of two channels in the form of an I-beam, fastened by the walls of the channels, with one channel of the run it is attached to the stops protruding beyond the size of the upper farm belt, and the other is shorter than the first to the height of the channel wall of the farm rack and is supported on the farm belt and attached to the first.

The goal is also achieved by the fact that the axis of the columns on the truss supports are shifted into the building span by the value e = M / N

where: M - reference design moment in the upper zone of the farm;

N is the calculated force in the column of the frame.

The decision on the useful model is illustrated by drawings, where: Figure 1 - shows a cross section of a building and a perspective view of a fragment of a building frame from channels; Figure 2 - building frame in a non-stop solution; Figure 3 - node pairing T-shaped racks of channels with truss belts of channels; Figure 4 - node interface runs from one or two channels with emphasis from the channel and the upper belt of the truss from two channels; Figure 5 - kerosene-free node support trusses of channels with a T-shaped column of a frame of two channels, made only in channels.

The frame of the building from channels contains corrugated board and girders supported on trusses 1 and contains the columns of the building from two channels 2 and triangular girders supported on columns (Figs. 1, 2) with an upper belt of two channels 3, between the walls of which racks are located and overlap 4 and braces 5 of the truss from single or paired by the walls of channels, the lower belt 6 of the truss made of one or two joined by the walls of the channels oriented by the shelves parallel to the plane of the truss, and the lattice 4 and 5 of the truss is connected to the lower belt 6 of the truss on two parallel scarves 7, while all the connections of the nodes of the trusses and racks of the frame are made by overlapping elements on top of each other on self-tapping screws, bolts 8 or on welding (Figs. 3, 4, 5). The cross section of the runs 1, all elements of trusses 3, 4, 5 and columns 2 of the building are made of the same type C = figurative or -shaped channel with a proportion of the height of the channel wall equal to two widths of its shelves, while the heads of the truss racks and columns of the frame are made T-shaped (Figs. 1, 2, 3, 5) with shelves of two sections of channels 9, overlapped and attached by the walls of the channels to the farm posts and to the columns, and in the nodes of the truss support, these sections of channels 9 are abutted in the upper belts of 3 trusses and attached to them (Figure 3), and in the supporting node of the truss with a column are also attached to the lower truss belt 6 (Figure 6 ), while the cross-section of the column of the frame is made of two channels, I-beam, box m or looping (1, 5).

The utility model can also be applied to insulated buildings, in this case the half-trusses of the frame can be made single- or double-staged, and the corrugated board is directly supported on the upper truss belts. which reduces the consumption of material on the frame of the building.

To support runs from one or two channels, stops for fixing the runs are made of sections of channels 10 located perpendicular to the upper belt 3 of the truss and attached with their shelves to the walls of the waist channels, and the coating runs are made up of two channels in the form of an I-beam (Figure 4), fastened the walls of the channels, while one channel of the run is attached to the stops 10 protruding beyond the size of the upper belt of the truss, and the other is shorter than the first to the height of the channel wall in the truss rack and is supported on the truss belts and attached to the tear.

In order to reduce the metal consumption for truss belts, in a utility model, the axis of the columns on the truss supports can be shifted into the span of the building by e = M / N,

where: M - reference design moment in the upper zone of the farm;

N is the calculated force in the column of the frame.

This feature allows to reduce the bending moment in the support panel of the upper belt 3 of the farm, which is also useful.

Due to the equality of the channel wall walls, two channel shelves manage to place the same number of self-tapping screws or bolts on the shelves and walls of the joined channel frames of the building, which allows the frame nodal connections to be made without cogs and not only reduce the complexity of manufacturing the building frame, but also reduce the material consumption for the building as a whole.

The most effective utility model can be used in building coatings, along a grid of columns in the longitudinal direction from 3 to 6 m and in the transverse direction from 12 to 24 m, where all frame elements (girders. Trusses, and columns) can be made from one type of section C-shaped or -shaped channel, for example, from galvanized profiles, and assemble building frames only on self-tapping screws or bolts.

Claims (4)

1. The frame of the building from channels, containing corrugated board and trusses supported by channels, columns of the building from two channels and columns gable triangular trusses with an upper belt of two channels, between the walls of which the racks and braces of the truss from single or paired by the walls of channels, the lower truss belt being made of one or two channels joined by the walls of the channels oriented by the shelves parallel to the plane of the truss, and the grating of the truss is connected to the lower truss belt by two parallels scarves, while all the joints of truss units and building frame racks are made by overlapping elements on each other with screws, bolts or welding, characterized in that the cross sections of girders, truss elements and building columns are made of one type of channel with a proportion of channel wall height, equal to two widths of its shelves, while the heads of the truss racks and the columns of the frame are made T-shaped with shelves of two sections of channels, overlapped and attached by the walls of the channels to the posts and columns, and in the nodes of the trusses these sections of channels you in the upper belt trusses and fastened thereto, and a support unit with a column attached to the lower belt and the farm, the frame section of the column is formed of two U-sections I-beam, box-shaped or cross-cutting. 2. The frame of the building from channels according to claim 1, characterized in that for the insulated coatings of the buildings the semi-trusses of the frame are made in one or two racks, and the corrugated board is directly supported on the upper truss belts. 3. The frame of the building from channels according to claim 1, characterized in that the stops for attaching the girders are made of sections of channels located perpendicular to the upper girder of the truss and fastened with their shelves to the walls of the channel channels, and the coating runs are composed of two channels in the form of an I-beam, fastened by the walls of the channels, while one channel of the run is attached to the supports protruding beyond the size of the upper belt of the farm, and the other is shorter than the first to the height of the channel wall of the farm rack and is supported on the farm belt and attached to the first. 4. The frame of the building from channels according to claim 1, characterized in that the axis of the columns on the supports of the truss is shifted inward of the span of the building by the value e = M / N, where M is the reference design moment in the upper zone of the farm; N is the force in the column of the frame.