RU191790U1 - Metal profile - Google Patents

Abstract

The utility model relates to the field of construction, in particular to supporting structures, and can be used in spatial lattice structures in general, overhead power transmission line supports, antenna structures. The technical result is to increase the stability and rigidity of the structure when using a profile. The metal profile is bent a metal sheet. Unlike the closest analogue, the profile contains three angles that form four faces, while the bends of the profile are parallel to the sides of the sheet, the two inner faces are of equal length and are oblique to each other, and the two extreme edges are 90 ° apart to friend. 1 s.p. f-ly, 2 Fig.

Description

The utility model relates to the field of construction, in particular to supporting structures, and can be used in spatial lattice structures in general, overhead transmission lines, antenna structures.

The prior art profile in the lattice structure, made in the form of braces stamped from a rectangular strip by bending it in opposite directions along two parallel lines, which are the diagonals of two rectangles obtained by conducting a longitudinal axis of symmetry of the strip. [Copyright certificate No. SU1684446, publication date 10/15/1991]

Also known from the prior art is a lattice structure of bent profiles, consisting of two waist angles oriented by the tabs towards each other and connected by a girth by the ends of the rods of the triangular lattice, which are made of a strip by bending its length along straight lines to form a reverse corner profile at the ends orientation of the shanks, characterized in that the bend of the strip is made in three lines, one central and two extreme, while all three lines at one end of the strip are brought to a point. [Patent for invention No. 215910, publication date 11/20/2000]

The closest analogue of the claimed utility model is a profile in the structure of the support structure of the power line, made trihedral of a continuous metal sheet, curved in the transverse plane along the entire height of the support structure with the formation of the central surface and bent surfaces located at an obtuse angle to it, forming the belt stiffeners. [Patent for No. 2204672, publication date 05/20/2003]

The disadvantage of the closest analogue is the low stability of the profile under central compression due to the characteristics of its cross section, in which the profile has a small radius of inertia. The trihedral shape of the profile is characterized by the location of the center of gravity at a relatively large distance from the extreme edges, which does not provide the necessary bearing capacity of the structure as a whole.

The technical problem, which the claimed model is aimed at, is to increase the bearing capacity of the spatial lattice structure with a cross-section in the shape of a rectangle while reducing the material consumption of the structure.

The technical result consists in increasing the stability and rigidity of a spatial lattice structure with a cross-section in the shape of a rectangle when using a profile.

The essence of the claimed device is as follows.

The metal profile is a bent metal sheet. Unlike the closest analogue, the profile contains three angles that form four faces, while the bends of the profile are parallel to the sides of the sheet, the two inner faces are equal in length and are located at an obtuse angle to each other, and the two extreme edges are at an angle of 90 ^° to each other.

The extreme edges can be made equal to each other, the width of the extreme edges along the length of the profile can be variable, which allows you to change the geometric characteristics of the entire spatial lattice structure along the length.

Due to the implementation of the profile with four faces forming three angles, while the inner faces are equal to each other, the extreme faces are located at an angle of 90 ^° to each other, the center of gravity is closer to the extreme edges of the profile, in comparison with the known solutions, which increases stability designs. Also, when performing a tetrahedral profile, the stability of each face individually increases due to their reduced length.

The geometry of the cross-section of the profile when bending the profile parallel to the side faces provides a larger radius of inertia of the profile in the plane of its lowest stiffness compared to trihedral profiles, thereby increasing the profile stiffness in compression and bending, which also increases the structural stability. Thus, it is possible to reduce the material consumption of the structure, due to the fact that with a smaller thickness of the steel profile provides higher characteristics of stability and rigidity.

The above distinctive essential features ensure the achievement of a technical result to increase the bending stiffness of the profile and stability of the spatial lattice structure with a cross-section in the form of a rectangle from it, thereby solving the problem of increasing the bearing capacity while reducing the material consumption of the structure, which allows us to conclude that the claimed utility model patentability criterion of "novelty."

The inventive utility model can be performed by known methods from known materials, which ensures its compliance with the patentability criterion of "industrial applicability".

The essence of the claimed utility model is illustrated by the following drawings:

FIG. 1 - section of a bent profile with an angle of 90 ° between the extreme edges.

FIG. 2 - spatial lattice structure with a cross-section in the form of a rectangle using a profile.

The metal profile is a bent metal sheet that has three angles forming four faces, two inner faces 1 have equal length and are located at an obtuse angle, two extreme edges 2 are located at an angle of 90 ^° . The width of the extreme edges 2 is made variable along the length of the profile.

The principle of operation of the claimed utility model is as follows.

In the manufacture of a spatial lattice structure with a rectangular cross-section, the profile can be used as corner belts 3, due to the profile with three angles forming four faces, the location of the extreme edges at an angle of 90 ^° , the optimal location of the center of gravity and the radius of inertia of each profile are ensured, whereby the necessary stability and rigidity of the entire structure is achieved.

Claims (2)

1. A metal profile, which is a bent metal sheet, characterized in that it contains three angles that form four faces, while the bends of the profile are parallel to the sides of the sheet, two inner faces are of equal length and are located at an obtuse angle to each other, and two extreme edges are located at an angle of 90 ^{° to} each other. 2. The metal profile according to claim 1, characterized in that the width of the extreme edges is made variable along the length of the profile.

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