RU224266U1 - PROFILE CONSTRUCTION - Google Patents

Abstract

The utility model relates to the field of construction, namely to curtain facades, suspended ceilings, fences and decorative elements. The profile structure consists of three metal profiles: one front and two main, interconnected into a single structure, while the main profile is a wall with two shelves located on both sides of the wall, at the ends of which there are stops directed to the outer sides, which , in turn, have U-shaped bends for connection with the front profile, which are directed into the inner part of the main profile, and the wall of the main profile has a flat shape, and the front profile is a wall with two shelves located on both sides of the wall, which have U-shaped bends directed towards the inside of the facial profile. The technical result is to increase the strength and stability of the structure.

Description

The utility model relates to the field of construction, namely to curtain facades, suspended ceilings, fences, cladding and decorative elements.

The invention RU 2600247 C1 (October 20, 2015) is known from the prior art, which relates to the field of construction, namely to the butt joint joint of three-layer sandwich panels (TSP) and the additional element used in this unit in the form of a composite shaped product, the parts of which form a system for hidden fastening of TSP at joints when installing TSP to the load-bearing frame of the building. The technical result consists in increasing the reliability of the TSP butt joint assembly while simultaneously increasing the manufacturability of the composite shaped product used in it and is achieved due to the fact that in the TSP butt joint assembly, which includes two TSPs adjacent to each other at the ends, each secured through the front cladding using threaded fastening elements to the supporting element of the supporting structure of a building or structure, and intended to hide the visible elements of the specified TSP fastening, a composite shaped product consisting of basic and decorative long profiles made of galvanized sheet steel by bending or rolling, while the basic profile is constant throughout along its length, a cross-section with a central open-type channel of a conventionally U-shape and with upper horizontal shelves extending in opposite directions from the longitudinal side walls of the channel, ending with extreme longitudinal side walls inclined towards the horizontal shelf of the channel, and the long decorative profile has a constant throughout its length has a conventionally U-shaped cross-section and is set against the central channel of the base profile in such a way that the outer surfaces of the longitudinal side walls of the decorative profile are in contact with the inner surfaces of the longitudinal side walls of the central channel of the base profile, and the base profile of the composite shaped product is fixed on the outer side lining of the TSP, along the joint line of the ends of the TSP using threaded fasteners to the supporting element of the supporting structure.

The closest to the claimed technical solution is the utility model RU 208780 U1 (09/08/2021), which 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, production of filler posts and other elements of fences and enclosures. A long box profile consists of interconnected external and internal profiles, each of which contains a wall with shelves at its opposite ends. The outer profile flanges 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 to accommodate the internal profile. The cross section of the internal profile corresponds to the cross section of the said opening. The internal profile is secured between the shelves of the external profile by locking elements made on the internal profile by bending the edges on the shelves along their outer surface. The distance from the end of the said bend to the outer surface of the wall on the internal profile corresponds to the width of the flanges on the external profile. External and internal profiles can be made from sheet metal by bending or rolling with an external protective or decorative coating, or from a rigid polymer material by extrusion. The design of the box profile has been tested under real operating conditions, which have confirmed the increase in the strength of the box profile and its reliability under the influence of bending and expansion forces compared to a known profile for a similar purpose. This allows the box profile to be used for a wide range of products in civil and industrial construction. In this case, the production of profiles from sheet metal can be carried out on bending machines without presenting special requirements for the accuracy of technological operations.

The disadvantages of these technical solutions are insufficient stability and strength of the structures.

The problem to be solved by the claimed utility model is the development of a profile structure for suspended facades, suspended ceilings, fences, cladding and decorative panels.

This problem is solved due to the fact that the profile structure consists of three metal profiles: one front and two main, interconnected into a single structure, while the main profile is a wall with two shelves located on both sides of the wall, at the ends of which there are stops , directed to the outer sides, which in turn have U-shaped bends for connection with the front profile, which are directed to the inside of the main profile, and the wall of the main profile has a flat shape, and the front profile is a wall with two shelves located on both the sides of the wall, which have U-shaped bends directed towards the inside of the front profile.

The technical result is to increase the strength and stability of the structure.

The utility model is intended for creating panels of curtain facades, suspended ceilings, fences, cladding and decorative panels.

The essence of the utility model is illustrated by drawings:

Fig. 1 - fragment of a profile structure;

Fig. 2 - design of five front and five main profiles;

Fig. 3 - enlarged fragment of Fig. 2;

Fig. 4-7 - examples of execution of the wall shapes of the front profile.

The figures indicate: 1 - wall; 2 - shelf; 3 - emphasis; 4 - bend; 5 - wall; 6 - shelf; 7 - bend.

The utility model is a prefabricated structure of three metal profiles: one front and two main (Fig. 2).

The main profile is a wall 1 with two shelves 2 located on both sides of the wall 1, at the ends of which there are stops 3 with U-shaped bends 4 for a strong and reliable connection with the front profile. The stops 3 are directed outward relative to the walls 2 and are designed to prevent the profiles from moving perpendicular to each other, which leads to increased stability of the structure. The angle on the outside between stop 3 and wall 2 is 135°. The bends 4 are directed into the inner part (into the cavity) of the main profile. Wall 1 of the main profile has a flat shape for fastening to the surface of a ceiling or wall, or a bracket system. The main profile can be of any length and width depending on the purpose. Shelves 2 of the main profile can also be of any width depending on preferences and purpose.

The front profile is a wall 5 with two shelves 6 located on both sides of the wall 5, which have U-shaped bends 7 directed into the inner part (into the cavity) of the front profile. The shape of wall 5 can be any depending on decorative preferences. The front profile can be of any length and width depending on the purpose.

The profiles can be coated with an anti-corrosion coating, in particular zinc and polyester, which leads to a twofold increase in corrosion resistance in relation to building elements known from the prior art.

The utility model is assembled as follows.

The main profiles with the outer side of wall 1 are attached to any base (ceiling, wall, brackets, etc.). The minimum number of main profiles is two, the maximum number is any, depending on the purpose. The distance between the main profiles depends on the width of the facial profile. Next, the front profile is pushed into the bends of the 4 main profiles so that the bends 7 of the front profile close with the bends of 4 adjacent main profiles (Fig. 1, 3), then the front profile moves along the length of the main profiles as along guides. In this case, bends 4 and 7 play the role of stiffeners, increasing the overall rigidity, strength and stability of the assembled structure. The bends 7 of the front profile rest against the stops 3 of the main profile, thereby increasing the strength, rigidity and stability of the structure as a whole. The minimum number of facial profiles is one, the maximum number is any, depending on the purpose. Thus, the utility model is a single structure consisting of one front and two main profiles.

The advantage of this useful model is the ability to assemble panels of curtain facades, suspended ceilings, fences, cladding and decorative panels using various wall shapes, 5 front profiles and color schemes. In fig. 4-8 show examples of various shapes of the walls 5 of the front profiles (arched, triangular, trapezoidal, corrugated). These examples are not limiting. At the same time, the profiles can be compactly stored and transported, which reduces storage and transportation costs. Also, the use of the proposed utility model simplifies the process of installing the structure and improves the aesthetic properties of facades, ceilings, fences, cladding and decorative panels due to the absence of welds and additional means of fixing the structure. In addition, if part of the structure is damaged, this part can be removed and replaced with a new one in a short time, without replacing the entire structure. As a result, you can get panels, cladding, facades, fences of any length and width, without being limited, as is the case with profiled sheets.

Examples of utility model execution.

Example 1. In FIG. Figure 2 shows the design of a utility model consisting of five main and five facial profiles. The walls of the 5 front profiles are made straight. This design can be used for cladding walls of various buildings and structures, as well as for decorating and strengthening facades, suspended ceilings and fences.

Example 2. In FIG. Figure 8 shows a design of five main and five front profiles, which is used in a slatted facade. The walls 5 of the front profiles are made with a slope (Fig. 6).

Example 3. In FIG. Figure 9 shows the use of the utility model as cladding for the walls of a kiosk. The length of the front and main profiles used is 2980 mm. The shape of the walls of the 5 front profiles is straight, as in Fig. 12.

All examples given are specific embodiments of this utility model and are not limiting.

To determine the rigidity, strength and stability of the structure, a simulation was carried out in the Compass software package.

The basis for simulating the load is the panel of the slatted facade described in example 2. The length of the panel is 400 mm, the thickness of the profiles is 0.45 mm, the number of front profiles is five, the number of main profiles is also five. Three load vectors of 10 kg each (total 30 kg) were applied to the panel. Two of the three vectors were applied to the junction of the main and front profiles, the third vector was applied to the surface of the front profiles having an angular slope. The simulation calculation showed that a section 400 mm long can withstand a total load of 30 kg, only at the joints of the profiles were minor deformations of the surface layer observed. Consequently, the structure is strong, rigid and stable. The simulation result is shown in Fig. 10.

Claims (1)

The structure is profile, characterized in that it consists of three metal profiles: one front and two main ones, interconnected into a single structure, while the main profile is a wall with two shelves located on both sides of the wall, at the ends of which there are stops directed to the outer sides, which, in turn, have U-shaped bends for connection with the front profile, which are directed into the inner part of the main profile, and the wall of the main profile has a flat shape, and the front profile is a wall with two shelves located on both the sides of the wall, which have U-shaped bends directed towards the inside of the front profile.