RU91581U1 - FRAME BUILDING - Google Patents

Abstract

1. The frame of buildings, containing girders and a single-span gable crossbar made of channels and double-branch columns of channels with rigid coupling of the crossbar with columns and made of overlapping channels connected by self-tapping screws, bolts or welding, characterized in that the frame crossbar is made in truss shape with parallel belts or trapezoidal, composed with belts of two channels facing the walls to each other, between which are located the lattice rods of the truss and column branches, made with the same height the walls of the channels, while the crossbar is rack-mount and diagonal, and the truss racks are perpendicular to the upper truss belt and extended beyond the girder dimension, and runs are attached to the protruding ends of the racks, while the frame columns are made with parallel branches or V-shaped, and the nodes the intersections of the branches of the columns with the truss belts are interconnected by X-shaped bonds, consisting of one channel, which is connected by its channel shelves to the walls of the waist channels of the crossbar and two channel channels connected by an overlap of their x walls of U-sections with shelves dvuhvetvevoj column of U-sections, the open U-shaped connection X at the intersection of their overlap and are interconnected. ! 2. The frame of the building according to claim 1, characterized in that the mounting joint for the half frames is made of four sections of channels, oriented by the walls of the channels perpendicular to the plane of the frame and overlapping sections of the channels of the channels overlapped by the shelves of the channels of the half channels of the half channels. ! 3. The frame of the building according to claim 1, characterized in that the base of the column of the frame is made cross, consisting of two sections of channels, its own wall

Description

The utility model relates to the field of construction and relates to single-span frames of buildings.

Frames of single-span buildings are known in which trusses from rolling profiles are assembled on sheet gussets and have a rigid conjugation of the crossbar with columns and connected by bolts and welding (see Metal structures. 3t, volume 2. Building structures: a textbook for construction universities (B. V. Gorev et al.) M .; Higher School, 1999, Fig. 132, 1.33, p. 47).

In such a frame, trusses and columns are mated on sheet scarves, which requires increased quality control of the manufacture of column and truss units and leads to the complexity of manufacturing frame elements.

The utility model is aimed at simplifying the manufacture of crossbars and frame columns, made by overlapping single channels on each other and connected by screws, bolts or welding.

The goal is achieved in that the crossbar of the frame is made in the form of a truss with parallel belts or trapezoidal, composed with belts of two channels facing the walls to each other, between which there are rods of the farm lattice and column branches made with the same height of the channel walls, while the crossbar made rack-mount and diagonal, and the truss racks are perpendicular to the upper truss belt and extended beyond the belt dimension, and the girders are attached to the protruding ends of the racks, while the frame columns are parallel to branches or V-shaped, and the nodes of the intersection of the branches of the columns with the truss belts are interconnected by X-shaped bonds, consisting of one channel, which is connected by its channel shelves to the walls of the waist channels of the crossbar and two communication channels, overlapped by the overlap of their channel walls with the double-branch shelves columns of channels, while the channel of the X-shaped connection at the point of intersection and overlap are interconnected.

The goal is also achieved by the fact that the mounting joint for the half-frames is made of four sections of channels, oriented by the walls of the channels perpendicular to the plane of the frame and overlapping sections of the channels overlapping by the shelves on the walls of the half-channels of the channel channels.

The goal is also achieved by the fact that the base of the column of the frame is made cross-shaped from two sections of channels attached with their walls to the shelves of channels of the branches of the columns and two segments of channels located above them, their walls attached to the walls of the branches of the columns, and four foundation anchors are located between these channels and are attached to him through the pucks.

The utility model is illustrated by drawings, where in Fig.1 shows a diagram of a single-span frame; figure 2 - half frame with a crossbar and a column; figure 3 - the decision of the mounting joint half frames; figure 4 is a decision of the base of the column of the frame in a perspective view.

The frame of the building consists of runs 1 channel section, trellised crossbar 2 and columns 3 of channels (figure 1).

All elements of the lattice crossbar 2 and the two-branch column 3 are made of the same type of cross-section of the channel 4 with the wall height “h” (Figs. 2, 3), and all the nodes of the frame are solved by overlapping the belts or walls of the channel bars against each other (Figs. 2, 3 ) and connected on self-tapping screws 5 (Fig. 3). The crossbar of the frame 2 is solved in the form of a gable farm (Fig. 1) with parallel belts or trapezoidal with belts of two channels (Fig. 2), between the walls of which there are struts 6 and the grill 7 of the truss, while the struts 6 are released beyond the dimension of the upper girder belt , and runs 1 are attached to these racks 6 (Fig.2, 3) on bolts or screws.

The column 3 of the frame can be made with parallel belts or V-shaped (figure 2) and contains a vertical branch 8 (figure 2), which is placed between the belts of the crossbar of the frame and attached to them on the screws 5 (figure 2), and contains an inclined branch 9, which is made of one or two channels 4, joined by the walls (figure 2) and is also located between the girders of the frame crossbar (figure 2) and is attached to them by self-tapping screws 5 (figure 2). The branches 8 and 9 of the column 3 are additionally connected to the girder belts 2 with an X-shaped connection (Fig. 2), composed of one channel 10, which is connected by its channel shelves to the walls of the waist channels of the crossbar and two channels parallel to the overlap of their channel walls with the double-branch shelves columns of channels, while the channel of the X-shaped connection at the point of intersection and overlap are connected by self-tapping screws 5 (figure 2).

The base of the column of the frame is also solved from sections of channels (Fig. 4) and consists of two sections of channels 16 and 17, which are attached with their walls to the shelves of channels of branches 8 and 9 of the column and two sections of channels 18, 19 located above them, which are attached with their walls to the walls of the channels of the branches 8 and 9 of the column, and four anchors 20, 21, 22 and 23 are located between these channels and are attached to them through washers 20 (Fig. 4), allowing to straighten the columns.

The decision of the frame simplifies the manufacture of the frame as a whole, since all the nodes of the frame are obtained without cogs, and the assembly of structures can be performed both in the factory and in the conditions of the construction site, which reduces transportation costs.

The frame construction can be used most effectively in buildings with spans of up to 24 meters when trusses and column frames are made, for example, from thin-walled galvanized profiles from ordinary channels and from ... ... -shaped or -shaped channels, and trusses and column frames can be assembled on screws or bolts.

Claims (3)

1. The frame of buildings, containing girders and a single-span gable crossbar made of channels and double-branch columns of channels with rigid coupling of the crossbar with columns and made of overlapping channels connected by self-tapping screws, bolts or welding, characterized in that the frame crossbar is made in truss shape with parallel belts or trapezoidal, composed with belts of two channels facing the walls to each other, between which are located the lattice rods of the truss and column branches, made with the same height the walls of the channels, while the crossbar is rack-mount and diagonal, and the truss racks are perpendicular to the upper truss belt and extended beyond the girder dimension, and runs are attached to the protruding ends of the racks, while the frame columns are made with parallel branches or V-shaped, and the nodes the intersections of the branches of the columns with the truss belts are interconnected by X-shaped bonds, consisting of one channel, which is connected by its channel shelves to the walls of the waist channels of the crossbar and two channel channels connected by an overlap of their x walls of U-sections with shelves dvuhvetvevoj column of U-sections, the open U-shaped connection X at the intersection of their overlap and are interconnected. 2. The frame of the building according to claim 1, characterized in that the mounting joint for the half frames is made of four sections of channels, oriented by the walls of the channels perpendicular to the plane of the frame and overlapping sections of the channels of the channels overlapped by the shelves of the channels of the half channels of the half channels. 3. The frame of the building according to claim 1, characterized in that the base of the column of the frame is made cross, consisting of two sections of channels, their walls attached to the shelves of channel channels of the columns and two segments of channels located above them, their walls attached to the walls of the branches of the columns, and Four foundation anchors are located between these channels and are attached to them through washers.