RU180650U1 - Mounting profile for fixing power supply, ventilation and air conditioning systems - Google Patents

Abstract

The utility model relates to devices for attaching power supply, ventilation and air conditioning systems and can be used in structures for various purposes, including mobile and stationary, for example, in industrial, administrative and residential buildings. The technical result achieved by the utility model consists in increasing the rigidity of the profile by forming rigid step-by-step connections between the faces of its body, predetermining the stiffness of the profile itself with its low weight and the possibility of mounting soybeans in it The specified technical result is achieved by the fact that the mounting profile for fastening power supply systems, ventilation and air conditioning, comprising an open housing with openings in the form of a dihedral angle with opposing longitudinal flanges of its faces, is additionally equipped with jumper wires connecting the edges of the housing transversely installed between them on their flanges and welded to them with a step along each other along the length of the body with the formation in the body of technological, facilitating the design profile, windows, and forming in the case across the width of the jumpers sections of triangular section that provide the overall structural rigidity, the jumpers themselves are made in the form of a dihedral angle, which provides a spatial-angular configuration of compressive rigidity along its end surfaces, and each bridge is welded flanging the edges of the hull with one of its faces with the possibility of another of its faces participating in the formation of the flight of stairs between the faces of the hull.

Description

The utility model relates to devices for mounting power supply, ventilation and air conditioning systems and can be used in structures for various purposes, including mobile and stationary, for example, in industrial, office and residential buildings.

For mounting power supply, ventilation and air conditioning systems, special mounting profiles fixed on support bases with through holes in the body of their housings are used, some of which are used to fasten the profiles themselves to their supports, and others are used to fasten different systems to these profiles.

Known mounting profile with a closed trihedral case and through holes in it, providing reliability and durability of the structure due to the rigidity of the structure of its trihedral case, able to resist the bending action of external forces without changing its shape and size, due to the formation of equal moments of resistance relative to its perpendicular axes. Due to this, this profile does not require additional reinforcement of its fastening to the supports (LLC Oglenda System http://www.oglaend-system.ru/).

The disadvantage of this known mounting profile is that for the manufacture of the casing of this profile, a whole-rolled pipe is used, requiring the use of expensive equipment to form a triangular casing from it, and thereby the cost of manufacturing the profile and, consequently, its cost. In addition, this mounting profile has a large weight, and the closedness of the internal space of its housing does not allow mounting fasteners connected to each other in it.

From the same source, the mounting profile for fastening the power supply, ventilation and air conditioning systems closest to the proposed utility model is known, comprising a case in the form of a dihedral angle with counter-longitudinal flanges of its faces open with holes.

This mounting profile closest to the proposed utility model is lighter than the above-mentioned known mounting profile due to the absence in its body of a face covering its internal space and its manufacture directly by cold stamping from sheet metal, eliminating the need for expensive special equipment and, as a result, reducing the cost profile. In addition, the openness of the internal space of the profile housing allows you to mount fasteners connected to each other.

The disadvantage of this profile closest to the proposed utility model is its unreliability and fragility due to the insufficient rigidity of its body, due to its open profile with different moments of resistance to the bending effect of external forces in the perpendicular axes, which require the use of reinforcing them to the supports in the direction of smaller case resistance moment.

The problem solved by the utility model is to create a mounting profile design that implements the positive characteristics of known profiles, namely: the rigidity of the profile with its low weight and the ability to mount fasteners connected to each other in it.

The technical result achieved by the utility model consists in increasing the stiffness of the profile by forming rigid step-by-step connections between the faces of its body profile, predetermining the stiffness of the profile itself with its low weight and the possibility of mounting fasteners connected to each other in it.

The specified technical result is achieved by the fact that the mounting profile for fastening the power supply, ventilation and air conditioning systems, comprising a dihedral-shaped open case with openings with counter-longitudinal flanges of its faces, is additionally equipped with jumpers connecting the sides of the casing, transversely mounted between them on their flanges and welded to them with a step along each other along the length of the case with the formation in the case of technological, facilitating the design of the profile, windows and the formation in the body e across the width of the crosspieces of the sections of triangular section, providing the overall structural rigidity, the jumpers themselves are made in the form of a dihedral angle, providing its spatial-angular configuration for compressive rigidity along its end surfaces, and each crosspiece is welded to the flanges of the body faces with one face with the possibility of another side participating in the formation of the flight of stairs between the faces of the building.

Cross-sectionalization of a section of a profile with a jumper in the shape of an isosceles triangle with a right angle between the faces of the body, balancing the bending effect of external forces on the profile, ensures maximum rigidity of the design of the profile due to the formation of balanced moments of resistance with respect to its perpendicular axes.

The proposed utility model is illustrated by the drawings:

FIG. 1 - General view of the mounting profile assembly (axonometry);

FIG. 2 - AA in FIG. one;

FIG. 3 - Jumper;

FIG. 4 - BB in FIG. 3.

The mounting profile for mounting power supply, ventilation and air conditioning systems contains an open housing 1 with holes 2 and jumpers 3 (Fig. 1).

Case 1 has the shape of a dihedral angle with faces 4 and 5, each with counter longitudinal flanges 6 and 7.

The jumpers 3 also have the shape of a dihedral angle, which provides, with its spatial-angular configuration, the compressive rigidity on the end surfaces of its faces 8 and 9. The jumpers 3 are transversely mounted with their faces 8 on the flanges 6 and 7 of the faces 4 and 5 of the housing 1 and are welded to them along the length case with a step between each other, with the formation in the case of technological, facilitating the design of the profile, windows 10 and the formation together with the case of sections of a triangular section, providing the profile as a whole with structural rigidity. In this case, one face 8 of each jumper is welded to the flanges 6 and 7 of the building 1, and its other face 9 is freely located between the faces 4 and 5 of the housing 1 with the possibility of its participation in the formation of the flight of stairs between the faces of the housing.

The section of the assembly profile assembled with a jumper 3 has the shape of an isosceles triangle with a right angle between the faces, balancing the bending effect of external forces on the profile and providing the maximum rigidity of the profile structure due to the formation of the balanced section shape of the profile of balanced moments of resistance relative to its perpendicular axes.

The mounting profile is made according to well-known technology using inexpensive equipment used at each mechanical plant as follows.

First, the sheets are cut to form a housing 1 with holes 2 and to form jumpers. Then, on a coordinate punch press, a hole is punched in the sheet to form the housing 1, and the contours of the housing are cut down. In the same way, the contours of the jumpers are cut down.

After that, on a press brake from the obtained blanks, a dihedral body 1 is formed with flanges 6 and 7 on its faces 4 and 5. In the same way, the dihedral shape of the jumpers 3 is formed.

Then the profile is assembled, for this, each jumper 3 is inserted one at a time into the channel of the dihedral angle of the housing 1, stacked transversely to the housing on its flanges 6 and 7, pressed against them and welded with the formation of technological windows between each of them along the length of the housing that facilitate construction profile and providing the ability to mount in the case of interconnected fasteners. The mounting profile is ready for use.

Thus, the set of essential features of the utility model, reflected in its formula, ensures the formation of rigid step-by-step connections between the faces of the body of the profile, which predetermine the stiffness of the profile itself with its low weight and the possibility of mounting fasteners connected to each other in it.

The mounting profile declared as a utility model has passed factory tests and is ready for release at the applicant’s enterprise.

Claims (2)

1. An assembly profile for fastening power supply, ventilation and air conditioning systems, comprising a dihedral-shaped open case with openings with opposing longitudinal flanges of its faces, characterized in that it is additionally equipped with jumpers connecting the edges of the casing, transversely mounted between them on the flanges and welded to them with a step along each other along the length of the case with the formation in the case of technological, facilitating the design of the profile, windows and the formation of sections of tr of coal section, providing the overall structural rigidity profile, while the jumpers themselves are made in the form of a dihedral angle, which provides compression and stiffness along its end surfaces with its spatial-angular configuration, and each jumper is welded to the flanges of the body faces with one of its faces with the possibility of another faces in the formation of the flight of stairs between the faces of the hull. 2. The mounting profile according to claim 1, characterized in that the section of the section of the profile with a jumper welded to its body has the shape of an isosceles triangle with a right angle between the faces of the body, balancing the bending effect of external forces on the profile.

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