RU98767U1 - BUILDING PROFILE - Google Patents

Abstract

 1. A construction profile made of plastic sheet material, the front side of which is made with shelves, and the ends of the shelves along the entire length are curved parallel to the front side towards each other, characterized in that a triangular shape is made in the center of the front side, and the length of each shelf half the length of the front side. ! 2. The construction profile according to claim 1, characterized in that the triangular indentation is made with equal sides. ! 3. The construction profile according to claim 1, characterized in that all the corners of the profile are smoothly rounded. ! 4. The construction profile according to claim 1, characterized in that the angle formed by the recess of the triangular shape is 90 °. ! 5. The construction profile according to claim 1, characterized in that the front side forms an angle of 90 ° with the shelves. ! 6. The construction profile according to claim 1, characterized in that the radii of rounding of the corners between the front side and the shelves, between the shelves and the ends of the shelves, between the triangular indentation and the front side are R = 1.5t, where t is the thickness of the profile.

Description

The utility model relates to building materials and can be used, in particular, as a building material in the construction of industrial and agricultural buildings, in the design and manufacture of girders, trusses and columns in such buildings.

Known bent profile channel type (RF patent №2118579, IPC B21D 5/06, F16S 3/04, publ. 09/10/1998) containing shelves and corrugated wall with a given value of the bending radii R1 between them, in the manufacture of a profile of galvanized steel with a thickness t = 0.5-1.0 mm, it additionally contains longitudinal corrugations on the shelves and flanges along their edges, directed inside the profile and with an angle of inclination to the shelves of 45 °, while the radius of bending between the shelves and flanges is R2 = (1 , 5-1.8) t and R1 = (2.0-2.5) t, and the minimum distance from the corrugation base to the corresponding place and bend 11 = 2R with a minimum distance between the corrugations on the shelves 12 = 8t.

Known equal-beam channel profile (RF patent No. 27184, IPC F16S 3/04, publ. 10.01.2003) with parallel outer faces of the shelves, the length of each shelf is 0.11-0.14 wall height, and the wall thickness is 0.17- 0.26 shelf lengths.

Known bent special profile channel type (RF patent No. 2124408, IPC B21D 5/06, publ. 10.01.1999), containing a wall and vertical heights of equal height, one of which has a flange inside the profile, while all profile elements are paired with four bending sections, the second the vertical shelf is made with an element of double thickness, the width of which is 0.65-0.75 of the height of the shelf, and the flanging is made of a width of at least three profile thicknesses.

Closest to the utility model is a modular element of the wall panel (RF patent No. 43881, IPC E04C 2/00, publ. 10.01.2005), the front side of which is made with shelves, made of plastic sheet material, and the ends of the shelves are additionally, throughout length, curved parallel to the front side towards each other.

However, due to the significant difference in the lengths of the front side and the shelves of the modular element of the wall panel, the stability and stiffness of the sheet decreases, which can lead to deformation of the modular element.

The objective of the utility model is to create a reliable profile that expands the scope of its application, as well as increase profitability compared to using profiles of a different section.

The technical result is to increase the rigidity, strength and stability of the profile, increase the seismic stability of buildings in combination with ease of assembly during the construction of prefabricated buildings.

The technical result is achieved in that in a building profile made of plastic sheet material, the front side of which is made with shelves, and the ends of the shelves along the entire length are curved parallel to the front side towards each other, the new is that a triangular depression is made in the center of the front side shape, and the length of each shelf is half that of the front side.

The triangular indentation is made with equal sides.

All corners of the profile are smoothly rounded.

The angle formed by the triangular indentation is 90 °.

The front side forms a 90 ° angle with the shelves.

The radii of the rounding of the corners between the front side and the shelves, between the shelves and the ends of the shelves, between the triangular indentation and the front side are R = 1,5t, where t is the thickness of the profile.

The utility model is illustrated by the drawing shown in figure 1.

The building profile consists of the front side 1, at the ends of which there are shelves 2. In the center of the front side 1 there is a triangular indentation 3. The ends of the shelves 4 are curved along the entire length parallel to the front side 1 towards each other.

The main difference between the claimed building profile is the presence on a flat area of a triangular recess. This allows you to increase the stiffness, strength and stability of the profile along its length, which is a significant factor in the operation, installation and transportation of the profile.

A triangular corrugation in the middle of the profile wall is necessary to prevent the loss of local wall stability.

A feature of the construction profile is that it fits into two squares in terms of external dimensions (the proportion of overall dimensions is one to two), which allows you to compose composite sections of structures and their units in non-mesh solutions by overlapping shelves and profile walls on top of each other with placement in the structural nodes the largest number of fasteners.

Profitability is achieved by eliminating kerchiefs from assembled structures using this profile.

The manufacture of building profiles is made of sheet metal by rolling the strip through the mill.

Example 1. The construction profile contains the front side 100 mm long, two shelves, each 50 mm long, a triangular indentation with an angle of 90 ° and a length of 16 mm, the radius of the rounded corners between the front side and the shelves and the ends of the shelves, as well as the radius between the recess and the front side R = (3-3.75 mm) with a profile thickness of t = (2-2.5) mm, respectively, the length of the bent ends of the shelves is 15 mm.

Example 2. The construction profile comprises a front side 160 mm long, two shelves, each 80 mm long, a triangular indentation with an angle of 90 ° and a length of 24 mm, the radius of the rounded corners between the front side and the shelves and the ends of the shelves, as well as the radius between the recess and the front side R = (3-6 mm) with the profile thickness t = (2-4 mm), respectively, the length of the bent ends of the shelves is 25 mm.

The construction profile of example 2 can be made of non-galvanized metal grade C285 according to GOST 19903.

The building profiles according to examples 1 and 2 can be made of hot-rolled galvanized sheet with a class of double-sided zinc coating 275, mechanical properties according to table 13 of GOST R 52246 and workpiece dimensions in accordance with GOST 19851.

Example 3. The construction profile contains a front side 200 mm long, two shelves, each 100 mm long, a triangular indentation with an angle of 90 °, a length of 30 mm, and the radius of the rounded corners between the front side and the shelves and the ends of the shelves, as well as the radius between the recess and the front side R = (4.5-7.5 mm) with a profile thickness t = (3-5 mm), respectively, the length of the bent ends of the shelves is 30 mm.

The construction profile according to example 3 with a metal thickness of 5 mm can only be made of non-galvanized metal grade C285 according to GOST 19903.

The use of such material is very promising in the construction of industrial and warehouse facilities, as the span of the supporting structures without additional supports is possible up to 30 meters.

The seismic stability of buildings, combined with the ease of assembly, provide great advantages when choosing materials for the construction of prefabricated buildings.

The advantage of this building profile is that its load-bearing capacity allows the use of Σ 100 × 50 when creating trusses and arches with a span of up to 12 m, and in some moments up to 15 m without additional supports, which is more economical compared to using profiles of a different section . At the same time, costs are significantly reduced during the construction of prefabricated buildings.

The scope of this construction profile is very wide: from utility rooms inside the building to the frames of prefabricated hangars.

Claims (6)

1. A construction profile made of plastic sheet material, the front side of which is made with shelves, and the ends of the shelves along the entire length are curved parallel to the front side towards each other, characterized in that a triangular shape is made in the center of the front side, and the length of each shelf half the length of the front side. 2. The construction profile according to claim 1, characterized in that the triangular indentation is made with equal sides. 3. The construction profile according to claim 1, characterized in that all the corners of the profile are smoothly rounded. 4. The construction profile according to claim 1, characterized in that the angle formed by the recess of the triangular shape is 90 °. 5. The construction profile according to claim 1, characterized in that the front side forms an angle of 90 ° with the shelves. 6. The construction profile according to claim 1, characterized in that the radii of rounding of the corners between the front side and the shelves, between the shelves and the ends of the shelves, between the triangular indentation and the front side are R = 1.5t, where t is the thickness of the profile.