RU208780U1 - LONG-DIMENSIONAL BOX PROFILE - Google Patents

Abstract

The utility model relates to the field of construction, in particular to long building elements of box-section, and can be used in civil and industrial construction for the installation of ventilation, drainage and other utilities, external and internal decorative cladding of buildings and premises, the manufacture of flood racks and other elements of fences and fences. A long-length box-shaped profile consists of external and internal profiles connected to each other, each of which contains a wall with shelves at its opposite ends. Shelves of the outer profile are made with bends in the opposite direction and subsequent flanges in the direction of its wall with the formation of an opening between the flanges for accommodating the inner profile. The cross section of the inner profile corresponds to the cross section of said opening. The inner profile is fixed between the shelves of the outer profile by locking elements made on the inner profile by bending the edges on the shelves along their outer surface. The distance from the end face of said bend to the outer surface of the wall on the inner profile corresponds to the width of the flanges on the outer profile. External and internal profiles can be made from sheet metal by bending or rolling with an external protective or decorative coating, or from rigid polymer material by extrusion. The design of the box profile was tested in real operating conditions, which confirmed the increase in its strength of the box profile and its reliability under the influence of bending and expansion forces compared to the known profile of a similar purpose. This allows the use of a box profile for a wide range of products in civil and industrial construction. At the same time, the production of a profile from sheet metal can be carried out on bending machines without presenting special requirements for the accuracy of technological operations. 4 figs., 2 approx.

Description

The utility model relates to the field of construction, in particular to long box-section building elements, and can be used in civil and industrial construction for the installation of ventilation, drainage and other engineering communications, exterior and interior decorative cladding of buildings and premises, the manufacture of flood racks and other fence elements and fences.

A long profile is known (patent RU No. 2600247, IPC E04F 19/00, E04B 2/74, publication date 10/20/2016), consisting of interconnected external and internal profiles. The outer profile contains horizontal shelves with a longitudinal opening between them, formed by the side walls and the lower horizontal shelf. The opposite ends of the horizontal shelves end in inclined sections. The inner profile contains a wall with shelves at its opposite ends, and its cross section corresponds to the cross section of the opening. The inner profile is fixed between the side walls of the outer profile by means of a lock formed by making the side walls of the outer profile at an angle of 85° relative to its horizontal flanges and making the inner profile shelves at an angle of 95° relative to its wall. To increase the rigidity, the edges of the inclined sections of the outer profile and the flanges of the inner profile are made with bends along their inner surfaces. External and internal profiles are made of galvanized steel sheet by bending or rolling. After bending, a polymer powder coating is applied to the outer surfaces of the outer and inner profiles. Known profile is used for decorative finishing of butt joints of three-layer sandwich panels.

The disadvantage of the known lengthy profile is the limited scope, due to the fact that when connecting the outer and inner profiles, an insufficiently rigid profile with an open cross section is formed, which excludes the force effect on it during operation.

A long-length box-shaped profile is known (patent RU No. 197859, IPC E04C 3/06, publication date 06/03/2020), consisting of interconnected external and internal profiles, each of which contains a wall with shelves at its opposite ends. Shelves of the outer profile are made with bends in the opposite direction and subsequent flanges in the direction of its wall with the formation of an opening between the flanges for accommodating the inner profile. The cross section of the inner profile corresponds to the cross section of the opening. In this case, the width of the inner profile flanges corresponds to the distance between the inner surface of the base and the outer surface of the bends on the outer profile. The inner profile is fixed between the flanges of the outer profile due to the interaction of the elastic forces generated during their assembly. External and internal profiles are made of galvanized steel sheet by bending. After bending, a polymer coating is applied to the outer surfaces of the outer and inner profiles. A well-known profile is used as pipes, fencing elements and decorative finishes.

The disadvantages of the known long box profile are:

a significant limitation of the permissible force impact on the box profile, due to the small magnitude of the elastic interaction forces that hold the connection of the external and internal profiles;

increased requirements for the accuracy of manufacturing profiles to ensure a snug fit of the interacting surfaces during assembly.

These shortcomings limit the scope of the well-known long-length box-shaped profile, as well as the production base for its manufacture.

The utility model is based on the task of expanding the scope of a long box profile due to a different connection between the outer and inner profiles during assembly.

The technical result from the implementation of this task consists in a significant increase in the allowable force effect on a long-length box-shaped profile due to the connection of the outer and inner profiles by means of locking elements. At the same time, the requirements for the accuracy of manufacturing external and internal profiles are reduced, which makes it possible to expand the production base for their manufacture.

The problem is solved by the fact that a long-length box-shaped profile, consisting of interconnected outer and inner profiles, each of which contains a wall with shelves at its opposite ends, while the shelves of the outer profile are made with bends in the opposite direction and subsequent flanging in the direction of its wall with the formation of an opening between the flanges for accommodating the inner profile, and the cross section of the inner profile corresponds to the cross section of the mentioned opening, according to the utility model, the inner profile is fixed between the shelves of the outer profile by locking elements made on the inner profile by bending the edges of the shelves along their outer surface, while the distance from the end of said bend to the outer surface of the wall on the inner profile corresponds to the width of the flanges on the outer profile.

The essential distinguishing features of the claimed utility model make it possible to provide a strong detachable connection of the outer and inner profiles and thereby significantly increase the permissible force effect on the box profile, which maintains its integrity during operation. In particular, the implementation of the locking elements on the inner profile by bending the edges of the shelves along their outer surface in combination with ensuring the distance from the end of the mentioned bend to the outer surface of the wall on the inner profile in accordance with the width of the flanges on the outer profile practically eliminates the possibility of "squeezing out" the inner profile from openings in the outer profile as a result of minor deformations of the wall of the outer profile, for example, when installing products from a long box profile, which is typical for a well-known technical solution. Increasing the strength of the detachable connection of the outer and inner profiles makes it possible to significantly expand the scope of the box profile due to the possibility of its use, for example, for the manufacture of air ducts for ventilation systems that experience excessive internal pressure on the walls, as well as long enclosing and filling elements of building structures and fences.

The design of a long box profile is illustrated by examples of its manufacture, where in Fig. 1 shows a general view of the outer and inner profiles for assembling a box profile with a rectangular cross-section opening (example 1); in fig. 2 - general view of the assembled box profile with an opening of rectangular cross section (example 1); in fig. 3 is a general view of the outer and inner profiles for assembling a box profile with an opening of a trapezoidal cross section (example 2), in FIG. 4 is a general view of the assembled box profile with an opening of trapezoidal cross section (example 2).

Example 1. A long box-shaped profile with an opening of a rectangular cross section (Fig. 1, 2).

Long-length box-shaped profile consists of external 1 and internal 2 profiles connected by locking elements 3 (Fig. 2).

The external profile 1 consists (Fig. 1) of the wall 4 and shelves 5, made with limbs 6 in the opposite direction and subsequent flanges 7 in the direction of its wall 4. The flanges 7 are located at a right angle "α" relative to the wall 4 with the formation of a rectangular opening 8 cross section. In this case, the height of the flanges 7 is less than the height of the shelves 5.

The inner profile 2 consists (Fig. 1) of the wall 9 and shelves 10. The cross section of the inner profile 2 corresponds to the cross section of the opening 8 of a rectangular shape. The width of the wall 9 corresponds to the distance "a" between the outer surfaces of said flanging 7 on the outer profile 1. The lower edges of the shelves 10 are made with bends 11 along their outer surface. The distance "b" from the end of said limb 11 to the outer surface of the wall 9 on the inner profile 2 corresponds to the width of the flanges 7 on the outer profile 1. The width of the shelves 10 corresponds to the distance between the inner surface of the wall 4 and the outer surface of the limbs 6 on the outer profile 1.

The inner profile 2 is placed (Fig. 2) in the opening 8 between the flanges 7 of the outer profile 1 and secured by locking elements 3 to form a closed box-shaped cross-section with three isolated internal channels (not indicated). The lock 3 is formed by persistent interaction between the edges of the flanges 7 on the outer profile 1 and the ends of the bends 11 on the edges of the shelves 10 of the inner profile 2 during their assembly.

Example 2. A long-length box-shaped profile with an opening of a trapezoidal cross section (Fig. 3, 4).

Long-length box-shaped profile consists of external 1 and internal 2 profiles connected by locking elements 3 (Fig. 2).

The execution of the outer profile 1 is similar to the considered example 1, except for the flanges 7, which are located at an obtuse angle "α" relative to the wall 4 with the formation of an opening 8 of a trapezoidal shape.

The cross section of the inner profile 2 corresponds to the cross section of the opening 8 of a trapezoidal shape. The wall 9 of the inner profile 2 is made of a convex shape. The width of the wall 9 corresponds to the distance "a" between the outer surfaces of the flanges 7 in their upper part. The lower edges of the shelves 10 are made with bends 11 along their outer surface. The distance "b" from the end of the bend 11 to the outer surface of the wall 9 on the inner profile 1 corresponds to the width of the flanges 7 on the outer profile 1. In this case, the width of the shelves 10 is less than the distance between the inner surface of the wall 4 and the outer surface of the bends 6 on the outer profile 1.

The inner profile 2 is placed (Fig. 4) in the opening 8 between the flanges 7 of the outer profile 1 and is fixed with locking elements 3 to form a closed box-shaped cross-section with one internal channel (not marked). The lock 3 is formed by persistent interaction between the edges of the flanges 7 on the outer profile 1 and the ends of the bends 11 on the edges of the shelves 10 of the inner profile 2 during their assembly.

The inventive design of a long box-shaped profile allows you to significantly increase its strength when exposed to spacer forces due to the persistent interaction formed during the assembly of the inner 2 and outer 1 profiles. At the same time, depending on the purpose, the box-shaped profile can be made both with several internal channels isolated from each other, and with one channel. In this case, it is possible to manufacture a box-shaped profile with two channels isolated from each other when making flanges 7 on the outer profile 1 and, accordingly, shelves 10 on the inner profile 2 at different angles "α" relative to their walls 4 and 9: on the one hand - at a right angle, and on the other - at an obtuse angle. In addition, the use of the inventive locking connection allows the use of external and internal profiles with different shapes of walls and shelves, which also expands the scope of the box-shaped profile, for example, as a decorative element for decorating buildings and interiors.

Depending on the purpose, the outer 1 and inner 2 profiles can be made of sheet metal by bending or rolling with an external protective or decorative coating. Profiles can also be made of other rigid material, such as polymer, which is lighter and more durable than metal. The thickening of the edges of the shelves 10 of the inner profile 2 by means of bends 11 allows you to simultaneously round the edges and increase their rigidity, which eliminates damage to the contact surfaces of the flanges 7 on the outer profile 1 during assembly and disassembly of the box profile and increases the convenience of these operations. In this regard, this implementation of the locking element 3 is more preferable than, for example, by bending the edges of the shelves 10 of the inner profile 2 at some angle (straight or obtuse) to their outer surface.

In the manufacture of outer 1 and inner 2 profiles from sheet metal, bends 11 on the edges of the shelves 10 of the inner profile 2 are performed by rolling them. When using a polymeric material, the production of said profiles and bends 11 on the edges of the shelves 10 of the inner profile 2 is performed by extrusion.

The improved design of the long box profile has been tested in real operating conditions. The test results confirmed the achievement of the claimed technical result associated with an increase in the strength of the box-shaped profile and its reliability under the influence of bending and expansion forces compared to the known composite closed profile of a similar purpose. This allows the use of an improved long-length box profile for a wide range of products in civil and industrial construction. In this case, the manufacture of a profile, for example, from sheet metal, can be carried out on bending machines without presenting special requirements for the accuracy of technological operations.

Claims (1)

A long-length box-shaped profile, consisting of external and internal profiles connected to each other, each of which contains a wall with shelves at its opposite ends, while the shelves of the outer profile are made with bends in the opposite direction and subsequent flanges in the direction of its wall with the formation of an opening between the flanges for placement of the inner profile, and the cross section of the inner profile corresponds to the cross section of the mentioned opening, characterized in that the inner profile is fixed between the shelves of the outer profile with locking elements made on the inner profile by bending the edges of the shelves along their outer surface, while the distance from the end face of the said bend to the outer surface of the wall on the inner profile corresponds to the width of the flanges on the outer profile.

Images