RU148635U1 - PROFILE COMBINED METAL-COMPOSITE FOR THE PRODUCTION OF LIGHT-TRANSPARENT FENCING CONSTRUCTIONS - Google Patents

Abstract

1. The combined metal composite profile for the production of translucent walling, comprising at least one structural element consisting of interconnected: the first part facing the inside of the room for which a translucent walling is installed, and made of metal or alloy, for example, steel or alloys based on aluminum, and the second part facing outward from the room for which a translucent enclosing structure is installed, and made of composite insulating material manufactured by pultruzii.2. A profile according to claim 1, characterized in that the internal cavities of the second part made of composite material are filled with heat-insulating material. The profile according to claim 1, characterized in that the base of the composite material is selected from the list including at least polyurethane, epoxy resin, vinyl resin, polyester resin, and the filler of the composite material is selected from the list including at least glass fiber, carbon fiber, basalt fiber. 4. The profile according to claim 1, characterized in that the type of profile for the intended purpose is selected from the list including at least the profile of the frame (box), the sash profile, the profile of the impost, the profile of the pulp, the profile of the extension.

Description

The proposed technical solution relates to the field of construction, namely to the group of building envelopes.

It is well known to use composite and metal profiles for window, facade, door structures, as well as other translucent walling. As the closest analogue of the proposed technical solution, a profile for the manufacture of translucent enclosing structures described in the patent for invention US 6260251, published on July 17, 2001, can be selected. The profile described in US 6,260,251 includes at least one structure made of metal or alloy or of composite material produced by pultrusion. In turn, the proposed design represents a further development of profiles for translucent enclosing structures used in construction, and will allow us to offer a profile characterized by increased energy efficiency, designed for the production of translucent enclosing structures with improved thermal characteristics.

A composite metal composite profile is proposed for the production of translucent walling, including at least one structural element made of a composite material obtained by pultrusion or of metal or alloy. In contrast to the known structural solutions, the proposed profile consists of interconnected: the first part facing inside the room, for which a translucent enclosing structure is installed and made of metal or alloy, and the second part facing outward from the room for which the translucent enclosing structure is installed, and made of composite material obtained by pultrusion. The internal cavities of the second part made of composite material are filled with heat-insulating material. The basis of the composite material is selected from the list including at least polyurethane, epoxy resin, vinyl resin, polyester resin, and the filler of the composite material is selected from the list including at least glass fiber, carbon fiber, basalt fiber. The combined metal composite profile can be frame (boxed), casement, impost, shtulpovy or additional.

A combined metal composite profile is proposed for the manufacture of translucent walling, that is, a profile is proposed consisting of several structural elements (parts) adjacent to each other and interconnected by some known type of connection. The term translucent enclosing structures means all possible types and designs of window and door blocks of rotary, folding and sliding opening, blocks with a combination of windows and doors, stained-glass windows, modular (elemental) facades and their combinations that cover openings for various purposes.

The profile consists of two parts - structural sub-elements: the first part is turned into the room for which a translucent enclosing structure is installed, that is, after installation it will be in the space of the room, the second part, on the contrary, is facing outward from the room (to the street), for which a translucent enclosing structure is installed. The first part is made of a metal or alloy with high thermal conductivity (mainly steel, aluminum-based alloys, for example, AD31, etc.) without filling the cavities with insulating material, the second part is made of composite material obtained by pultrusion.

For the manufacture of the second part, a composite material obtained by the method of pultrusion is used - heat treatment of the source material when it is pulled through a forming die. As the starting material, a polymer thermosetting matrix (base) and a reinforcing filler can be used. The material obtained by the method of pultrusion is characterized by a constant transverse structure, which will reduce the likelihood of distortions of the window profiles due to uneven thermal linear expansion. As a composite material obtained by the pultrusion method, fiberglass, basalt plastic, carbon fiber based on polyurethanes, epoxy, vinyl or polyester resins, other similar materials, characterized by low (not more than 0.5 W / m · K) thermal conductivity can be used. The internal cavity of the second structural element must be filled with insulating materials. The type of profile for the intended purpose can be a frame (box), a sash, an impost, a shtulp, an extension (Fig. 1) and may include an additional element (sealing element, etc.) (Fig. 2), i.e. it can be used for manufacturing of almost any translucent walling. The first and second parts are fastened together using lock joints, adhesives, sealants, screw and other types of joints existing in the world today. On the inside of the proposed profile, fittings are installed and a glazing bead is fixed that holds the glass packet, glass, and other suitable types of fillings.

The combination of the metal structural element (first part) and the composite structural element obtained by the pultrusion method (second part) with the spatial arrangement described above will provide increased energy efficiency of this structure, that is, reduced heat loss during its use (combination of materials with different thermal conductivities with the location more thermally conductive material indoors). Thus, the combination of the external heat-insulating structural element and the internal heat-conducting structural element will provide the maximum increase in energy efficiency.

Claims (4)

1. The combined metal composite profile for the production of translucent walling, comprising at least one structural element, consisting of interconnected: the first part, facing the interior of the building, for which a translucent enclosing structure is installed, and made of metal or alloy, for example, steel or aluminum-based alloys, and the second part, facing outward from the room for which a translucent enclosing structure is installed, and made of composite material obtained by pultrusion. 2. The profile according to claim 1, characterized in that the internal cavities of the second part made of composite material are filled with heat-insulating material. 3. The profile according to claim 1, characterized in that the base of the composite material is selected from the list including at least polyurethane, epoxy resin, vinyl resin, polyester resin, and the filler of the composite material is selected from the list including at least fiberglass, carbon fiber, basalt fiber. 4. The profile according to claim 1, characterized in that the type of profile for the intended purpose is selected from the list including at least the profile of the frame (box), the sash profile, the profile of the impost, the profile of the pulp, the profile of the extension.

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