RU92058U1 - LATTICE DESIGN OF KhISAMOV R.I. - Google Patents

Abstract

1. A lattice structure comprising straight and piecewise broken belt of channels and a lattice of channel bars connected to the belts with an overlap of the lattice elements on the belts or connected to the structure belts through fittings on screws, bolts or welding, characterized in that the belts and the lattice design in its nodes are made with a partial cut and bend of the channels along their walls or shelves, with the proportion of channels h / b = 2, where h is the height of the channel wall, ab is the width of the channel shelf. ! 2. The lattice structure according to claim 1, characterized in that the upper belt of the structure is made of two channels, between the walls of which are located and the shelves are overlapped with the lower belt of the channel bent in the lower nodes of the structure along the channel wall, and the lattice is made V-shaped with an inflection along the wall of the channel, while the nodal gussets are made of segments of the same channels overlapped by the walls on the shelves of the waist and diagonal channels. ! 3. The lattice structure according to claim 1, characterized in that in the middle of the span of the structure the lattice is made V-shaped, and in the rest it is rack-mounted, directed along the bisectors of the angles of fracture of the lower zone. ! 4. The lattice structure according to claim 1, characterized in that the lattice in each node of the lower belt is V-shaped and divides the upper belt by n + 1 or 2n-1 the number of panels, where n is the number of panels in the lower belt of the lattice structure. ! 5. The lattice structure according to claim 1, characterized in that the outline of the structure is made with piecewise broken upper and straight lower belts. ! 6. The lattice structure according to claim 1, characterized in that the outline of the structure is fish-shaped. ! 7. The lattice structure according to claim 1, characterized in

Description

The utility model relates to the field of construction and relates to lattice structures for building coatings.

Known lattice structures containing straight and piecewise broken belts of channels and a lattice of channels connected to belts with an overlap of lattice elements on belts or connected to belts of a structure through fittings on self-tapping screws, bolts or welding (see. Metal constructions. Designer Handbook. M Stroyizdat, 1980, p. 220, fig. 11.19).

In such lattice structures, the belts and the lattice are combined on sheet shapes, which leads to an increase in the overall dimensions of the shapes and the complexity of manufacturing the structure.

Closest to the utility model is a lattice structure containing straight and piecewise-broken belt from channels and a grid from channels connected to the upper belts with an overlap of the lattice elements on the belts, and to the lower ones - bent belts from the channel connected end-to-end on welding (see RU Patent 2072413 C1 6 E04C 3/04 dated 01/27/97, Bull. No. 3).

This solution greatly simplifies the manufacture of lattice structures, but is not applicable for the manufacture of structures, for example, from galvanized profiles.

The utility model is aimed at simplifying the manufacture of lattice structures from thin-walled, for example, bent galvanized channels.

A lattice design of Khisamov RI is proposed, containing straight and piecewise-broken belt from channels and a grid from channels connected to the belts with an overlap of the lattice elements on the belts or connected to the belts of the structure through cuts on screws, bolts or welding, in which the belts and the lattice of the structure in its nodes is made with a partial cut and kink of the channels along their walls, while the channels are made with the proportion h / b = 2, where h is the height and ab is the width of the channel.

The result is also achieved by the fact that the upper structure belt is made of two channels, between the walls of which are located and the laps overlap the lower belt of the channel is bent at the lower nodes of the structure along the channel wall, and the grill is V-shaped with an inflection along the channel wall, while nodal gussets are made of pieces of the same channels, overlapped by walls on the shelves of waist and diagonal channels.

The result is also achieved by the fact that in the middle of the span of the structure the lattice is made V-shaped, and in the rest it is rack-mounted, directed along the bisectors of the angles of fracture of the lower belt.

The result is also achieved by the fact that the lattice in each node of the lower belt is made V-shaped and divides the upper belt into n + 1 or 2n-1 number of panels, where n is the number of panels in the lower belt of the lattice structure.

The result is also achieved by the fact that the outline of the structure is fish-shaped.

The result is also achieved by the fact that the upper and lower zones of the structure are made of two channels, between the walls of which there is a channel grill, which is attached to the walls of the zone channels with its shelves, and the structure has a segmented or fish-shaped outline.

The result is also achieved by the fact that the design belts are box-shaped from two channels or closed profiles, and the lattice is made through from two channels on the slats and overlapped by the walls of the channel bars of the lattice to the box belts, and the design has a segmented or fish-shaped outline.

The result is also achieved by the fact that the lattice of the structure is rack-diagonal.

The result is also achieved by the fact that the upper belt of the structure is gable, and the lower belt is three-panel of one or two channels, and the lattice has a beam diagram of the braces of the channel coming from the nodes of the lower belt.

The capabilities of the utility model are illustrated by drawings, where in Figs. 1 to 16, types and schemes of lattice structures and their nodal solutions are presented.

Lattice design Khisamova R.I. contains straight and piecewise-broken belts 1, 2 of channels (Figs. 1–16) and a lattice 3 of channels (Figs. 1–16) connected to the upper belts 1 of the structure by overlapping elements of the lattice 3 on belts 1 (Fig. 1, 4, 6, 7, 12, 13, 16) or connected to the belts 1, 2 of the lattice 3 of the lattice structure through the cuts 4 (Figs. 1, 2, 3, 4, 5), where the cuts 4 are made sheet (Fig. 2, 16) or from the same sections of channels (FIGS. 3, 5) from which the structure rods are made.

Lattice structures Khisamova R.I. can be made both from ordinary channels, and from bent -shaped or -shaped channels. The channel with the proportion h / b = 2, where h is the height and ab is the width of the channel, can be used most effectively in them. In this case, all lattice structures can be made of one type of channel (Fig.1-16), and the same channel profile can be used for nodal shapes (Fig.3, 5), which simplifies the manufacture of lattice structures in general.

Figure 1 ÷ 16 presents 17 types of lattice structures that can be used for building coatings. For example, lattice structures of the type of FIGS. 4, 5, 6, 7 are effective for their use as runs based on trusses with truss spacing of 6 to 12 m.

The lattice structure of the type of FIGS. 7a) and 7b) can also be used in the coatings of gable two-span frame buildings with a frame pitch of 3 to 6 m and direct support of corrugated boards on the upper belts of the supporting structures.

The lattice structures made of galvanized profiles of Figs. m using trellised runs of the type of figures 4, 6.

All the presented schemes of lattice structures, when they are made of galvanized bent channels, can be assembled on self-tapping screws or bolts, and structures made of black rolled metal can be made on welding or on conventional ones. high strength bolts.

Claims (11)

1. A lattice structure comprising straight and piecewise broken belt of channels and a lattice of channel bars connected to the belts with an overlap of the lattice elements on the belts or connected to the structure belts through fittings on screws, bolts or welding, characterized in that the belts and the lattice design in its nodes are made with a partial cut and bend of the channels along their walls or shelves, with the proportion of channels h / b = 2, where h is the height of the channel wall, ab is the width of the channel shelf. 2. The lattice structure according to claim 1, characterized in that the upper belt of the structure is made of two channels, between the walls of which are located and the shelves are overlapped with the lower belt of the channel bent in the lower nodes of the structure along the channel wall, and the lattice is made V-shaped with an inflection along the wall of the channel, while the nodal gussets are made of segments of the same channels overlapped by the walls on the shelves of the waist and diagonal channels. 3. The lattice structure according to claim 1, characterized in that in the middle of the span of the structure the lattice is made V-shaped, and in the rest it is rack-mounted, directed along the bisectors of the angles of fracture of the lower zone. 4. The lattice structure according to claim 1, characterized in that the lattice in each node of the lower belt is V-shaped and divides the upper belt by n + 1 or 2n-1 the number of panels, where n is the number of panels in the lower belt of the lattice structure. 5. The lattice structure according to claim 1, characterized in that the outline of the structure is made with piecewise broken upper and straight lower belts. 6. The lattice structure according to claim 1, characterized in that the outline of the structure is fish-shaped. 7. The lattice structure according to claim 1, characterized in that the upper and lower zones of the structure are made of two channels, between the walls of which there is a channel lattice, which is attached with its shelves to the walls of the zone channels, and the structure has a segmented or fish-shaped outline. 8. The lattice structure according to claim 1, characterized in that the design belts are box-shaped from two channels or closed profiles, and the lattice is made through from two channels on the slats and overlapped by the walls of the channel bars of the lattice to the box belts, and the design has a segmented or fish-shaped outline. 9. The lattice structure according to claim 1, characterized in that the lattice of the structure is made rack-diagonal. 10. The lattice structure according to claim 1, characterized in that the upper belt of the structure is gable, and the lower belt is three-panel of one or two channels, and the lattice has a beam diagram of the braces of the channel coming from the nodes of the lower belt, or triangular with additional racks. 11. The lattice structure according to claim 1, characterized in that the design belts are made in the form of a piece-broken arch from two channels facing each other with walls, and their nodal shapes are made of two sections of channels overlapped on the walls of the waist channels.