RU69905U1 - FRONT CONSTRUCTION PROFILE DESIGN WITH HEAT-INSULATING INSERT - Google Patents

Abstract

Facade building profile design with insulating insert. It can be used in the manufacture of facade building profile structures such as “rack-crossbar” and “crossbar-crossbar” for warm facades, stained-glass windows, etc. with increased requirements for thermal insulation, for example, for the northern regions. The design contains a metal profile (1) of a box-shaped section with a cantilever protrusion (2) for mounting a thermally insulating element, double-glazed windows (3), and a clamping bar (5). In the space (6) between the profile surface, the protrusion for the thermally insulating element, the end face of the double-glazed window and the clamping plate with the possibility of overlapping this space, a pre-made set shape and size, insulating insert (7) made of foamed polymer, for example polyethylene, is mounted. The section of the insert is made with the possibility of overlapping the space between the surface of the profile, the protrusion for the thermally insulating element, the end face of the glass unit and the pressure strip. The insert can be made with channels (10) for condensate drainage and double-glazed ventilation. A new technical result achieved using the utility model is to increase the thermal insulation of the structure and its simplification.

Description

The utility model relates to the field of construction and can be used in the manufacture of facade building profile structures such as “rack-crossbar” and “crossbar-crossbar” for warm facades, stained-glass windows, etc. with increased requirements for thermal insulation, for example, for the northern regions.

Profile building construction is known (Catalog of the PB 50 series “Aluminum building structures of the ROST 'AL' system, Yekaterinburg, 2000). The design contains a box-shaped metal profile with a cantilever protrusion in which a thermally insulating element is mounted in the form of a thermal bridge made of polyvinyl chloride material.

The thermal bridge reduces heat transfer through the aluminum profile, but does not provide increased requirements for thermal insulation of structures for this purpose. In addition, to eliminate the consequences of possible convection, the air space formed by the profile surface, the protrusion for the thermal bridge, the thermal bridge itself, the end face of the double-glazed window and the pressure strip can additionally be divided into several air chambers using sealing elements.

The present technical solution proposes to replace the thermal bridge with a thermally insulating insert made of foamed polymer and place it in the air space between the profile surface, the protrusion for the thermally insulating element, the end face of the glass packet and the pressure strip with the possibility of overlapping this space.

A new technical result achieved using the utility model is to increase the thermal insulation of the structure and its simplification.

The utility model is illustrated by drawings, in which Fig. 1 shows the declared facade building profile design of the "crossbar-crossbar" type with a heat-insulating insert, in Figs. 2, 3, 4 - the same with different versions of the insert, in Figs. 5, 6 - facade building profile construction of the "rack-crossbar" type with various versions of the insert; Figs. 7-10 show an insulating insert with channels for condensate drainage and double-glazed ventilation; Figs. 11, 12 show the same without channels.

The facade building profile design consists of a metal profile 1 with a cantilevered protrusion 2 for a thermally insulating element, double-glazed windows 3, sealants for double-glazed windows 4, a pressure strip 5. In the space 6 between the surface of the profile, a protrusion for a heat-insulating element, the end of the glass and the pressure strip with the possibility of overlapping this space mounted pre-made of a given shape and size, insulating insert 7 from a foamed polymer, for example, polyethylene. The insert has an opening 8, made as in Figs. 7, 8 or as in Figs. 9-12 for mounting it on a protrusion 2, an opening 9 for a mounting screw, channels 10 for condensate drainage and ventilation of a glass packet. The insert can be made without channels, as in Figs. 11, 12, and can be mounted adjacent to the working surface of the profile, as in Figs. 1-4 or at a certain distance from it, as in Figs. 5, 6.

Claims (3)

1. Facade building profile design with a heat insulating insert, containing a box-shaped metal profile with a cantilevered protrusion for mounting a thermally insulating element, double-glazed windows, a pressure bar, characterized in that in the space between the surface of the profile, a protrusion for a heat-insulating element, a glass packet end and a pressure bar with the possibility of overlapping this space mounted insulating insert made of foamed polymer. 2. Facade building profile design according to claim 1, characterized in that the cross section of the insert is configured to overlap the space between the surface of the profile, the protrusion for the thermally insulating element, the end face of the glass packet and the pressure strip. 3. The facade building profile design according to claim 1, characterized in that the insert is made with channels for condensate drainage and ventilation of the glass packet.