RU81753U1 - RACK-AND-BOARD JOINT OF FILLING COMPONENTS OF FRONT CONSTRUCTIONS - Google Patents

Abstract

Rack-and-bolt connection of filling elements of facade structures. It can be used in the manufacture of facade structures based on the rack-and-beam assembly of aluminum profiles with translucent filling elements in the "heat-cold" system. The connection contains load-bearing elements in the form of a rack and a crossbar, elements of thermal insulation of the connection of the filling elements - a thermal bridge and seals of the side surface of the filling elements. It differs in that from the side of the less heat-consuming filling element, the connection contains two thermal bridges perpendicular to each other, combined into a rigid profile by means of metal profile elements, one of which is connected to the corresponding side surface of the rack or crossbar, and the second is made with the possibility of installing a sealant on it the side surface of a less heat-intensive filling element. A new technical result, which can be achieved by the claimed solution, consists in expanding the technological capabilities of the assembly of facade structures due to the possibility of using filling elements with various thermal characteristics.

Description

The utility model relates to the field of construction and can be used in the manufacture of facade structures based on the rack-and-beam assembly of aluminum profiles with translucent filling elements in the "heat-cold" system.

The appearance of rack-mount and crossbar structures made it possible to diversify the filling of the facade of structures, for which translucent elements, for example, double-glazed windows, are widely used. For the prototype of the claimed solution adopted the well-known rack-mount bolt connection of the filling elements of the facade structures (INICIAL, series IF 50 SR, 2008). The known compound is intended for the assembly of the same thermal characteristics, filling elements, for example, double-glazed windows. The connection contains load-bearing elements of the facade structure - a rack and a crossbar. A thermal bridge is installed in the center of the surface of the aluminum profile of the rack or crossbar, and at the edges there are corresponding seals in contact with one of the surfaces of the glass packet. On the opposite side, the double-glazed window is pressed through the seals to the stand or crossbar, and the pressure plate is closed with a decorative strip.

Certain places of the facades make it possible to use filling elements, for example, glass, in addition to double-glazed windows, so there is a need to manufacture facades formed from alternating filling elements that are different in terms of thermal performance, for example, double-glazed windows and glass in the “heat-cold” system . When using a known compound for assembling such filling elements, the thermotechnical balance of the compound will be disturbed. Therefore, the task is to move from

warm parts of the structure to cold in such a way as to avoid bridges of cold.

The proposed solution consists in the fact that from the side of a more heat-consuming filling element, for example, a double-glazed window, the function of thermal insulation, as in the known connection, is performed by a thermal bridge mounted in the center of the profile surface of the rack or bolt, and the corresponding sealant in contact with one of the surfaces of the double-glazed window. From the side of the less heat-consuming filling element, the function of thermal insulation of the connection is performed by two thermal bridges perpendicular to each other, joined in a rigid profile by means of metal profile elements, one of which is connected to the corresponding side surface of the rack or crossbar, and the second is made with the possibility of installing a sealant on the side surface of the filling element with lower heat capacity. In this case, the second profile element is connected to the mounting bracket, intended for mounting to the wall masonry. Two thermobridges perpendicular to each other, combined into a rigid profile by means of metal profile elements, are a thermobridge with the thermal characteristics necessary for connecting this type of filling elements.

Thus, the design of the new connection of the filling elements allows you to form the facades of the filling elements made of various materials. A new technical result, which can be achieved by the claimed solution, is to expand the technological capabilities of the assembly of facade structures due to the possibility of using filling elements with various thermotechnical characteristics.

The utility model is illustrated in the figure. It shows a crossbar 1, a double-glazed window 2 and a filler made of glass 3. The connection between them is insulated with a thermal bridge 4, a seal 5, and two

perpendicular to each other with thermal bridges 6 and 7, combined into a rigid profile by means of aluminum profile elements. One of them 8 is connected to the side surface 9 of the crossbar 1, and on the second element 10 is installed a sealant 11 of the side surface of the glass.

In addition, the element 8 is connected to the mounting bracket 12, which is attached to the masonry of the wall 13. An example implementation of the claimed solution with a bearing element - rack is similar to that described.

In order to achieve greater thermal insulation between the thermal bridges 4 and 6, a heat-insulating insert 14 made of foamed polymer can be mounted. Outside, the connection of the filling elements 2 and 3 is closed by a decorative strip 15.

Claims (2)

1. Rack-and-bolt connection of filling elements of facade structures, containing load-bearing elements in the form of a rack and a crossbar, thermal insulation elements of a connection of filling elements - a thermal bridge and seals on the side surface of filling elements, characterized in that the connection from the side of a less heat-intensive filling element contains two perpendicular to each other thermal bridges combined in a rigid profile by means of metal profile elements, one of which is connected to the corresponding lateral surface of the yoke or bolt, and the second is made with the possibility of installing on it a sealant on the side surface of a less heat-consuming filling element. 2. Rack-bolt connection according to claim 1, characterized in that the second profile element is connected to a mounting bracket intended for fastening to the wall masonry.