RU84901U1 - SYSTEM OF NODAL CONNECTIONS OF SHUTTER WINDOW PROFILES - Google Patents

Abstract

1. A system for the nodal connection of the profiles of the insertion window, comprising a hollow profile with a cantilever shelf, at the end of which a longitudinal groove is formed to accommodate a seal in contact with the outer surface of the hollow rack flange, while the supporting hollow profile and the hollow rail on the sides facing inward of the nodal connection have pairs of longitudinal grooves in which dovetail protrusions are placed; pairs of parallel hollow multi-chamber heat insulating elements; opposite dovetail protrusions which are placed in pairs respectively in the longitudinal grooves of the hollow profile of the two shoulders with unequal shoulders of the shelf, located opposite the hollow rail and located opposite to the supporting profile of the longitudinal grooves of the hollow profile with a cantilever bracket, which at its end faces a glass-facing groove in which the seal is in contact with the glass, this, the larger of the shoulders of the two-shouldered shelf is in contact with a hollow profile having a cantilever bar, and the smaller has a groove in which a lock of the multi-chamber filling profile is inserted, and the last and the mentioned smaller shoulder are placed between the seals of the impost and the pressure strip, and between the hollow rail and the hollow profile with the cantilever strip, a multi-chamber seal with the cantilevered protrusion in contact with the protrusion of the multi-chamber heat-insulating element from the pair placed between the hollow profile is placed parallel to the multi-chamber heat-insulating elements cantilevered shelf and the supporting profile, the latter being equipped with a glazing bead, by means of which the seal is pressed against the glass, and at least

Description

The proposed solution relates to the manufacture of windows from extruded metal profiles.

Known for the implementation of nodal joints from extruded aluminum alloy profiles containing hollow profiles with shelves, between the seals placed in them are sheets of glass (RU No. 2270301, 2005) [1].

Known nodal joints of the profiles do not provide sufficient thermal insulation due to the presence of cold bridges.

The closest known system is the system of nodal connections of window profiles, containing frame elements mounted through hollow profiles interconnected (VIDNAL PROGRESS technical catalog, Architectural building profile systems, Series СПЛ-01,02,03, issue 1.0, Glavstroy, Rusalumstroy, M ., 2005, p. 33-36) [2].

Known nodal joints of the profiles do not provide adequate thermal insulation of internal rooms due to the presence of cold bridges, and also have a tendency to a high degree of wind blowing due to the irrational arrangement of seals at the joints of the elements of the nodal joint profiles.

The technical objective of this solution is to create a system of nodal profiles forming window elements with a high degree of thermal insulation, structural reliability, which prevents wind blowing through the joints of profiles and seals while providing the possibility of window opening mechanization.

This is achieved by the fact that the nodal connection system for the profiles of the plug-in window contains a hollow profile with a cantilever shelf, at the end of which a longitudinal groove is formed to accommodate a seal in contact with the outer surface of the hollow rail shelf, while the hollow profile and the hollow rail are facing the inward nodal the joints on the sides have pairs of longitudinal grooves in which dovetail protrusions are placed, pairs of parallel hollow multi-chamber heat insulating elements, opposite protrusions of on the dovetail of which are placed in pairs, respectively, in the longitudinal grooves of the hollow profile of the two shoulders with unequal shoulders of the shelf, located opposite the hollow rail, and located opposite the supporting profile of the longitudinal grooves of the hollow profile with the cantilever bar bearing at its end, the groove facing the glass, in which the seal in contact with the glass is placed, the larger of the shoulders of the two-shouldered shelf in contact with the hollow profile having a cantilever strip, and the smaller one has a groove in which a multi-chamber profile lock is inserted For filling, the last and the mentioned smaller shoulder are placed between the seals of the impost and the pressure strip, and between the hollow rail and the hollow profile with the cantilever strip, a multi-chamber seal with a cantilevered protrusion in contact with the protrusion of the multi-chamber heat-insulating element from a pair of placed between the hollow profile with cantilevered shelf and the supporting profile, the latter being equipped with a glazing bead, by means of which the seal is pressed against the stack well, at least one of the seals in contact with the glass has a plate protrusion dividing the cavity between the glazing bead and the cantilever shelf into chambers. In addition, in the system of nodal connection of the insert window profiles, each of the pair of hollow multi-chamber heat-insulating elements can have a pair of protrusions on the side surface facing each other of this pair of elements, and these protrusions are located with the formation in this pair of multi-chamber heat-insulating elements between them a labyrinth gap. Or hollow multi-chamber insulating elements parallel to each other located in the longitudinal grooves of the hollow profile and the hollow rail are spaced apart from each other by a distance exceeding their thickness, and the system can be equipped with an electric drive for moving the glass-bearing assembly formed by the supporting profile and the hollow profile with a cantilever strip , relative to the node containing the hollow rail.

Figure 1 presents the node profiles of the plug-in window;

figure 2 is the same with the elements of the electric drive.

The system for the nodal connection of the profiles of the plug-in window contains a hollow profile 1 with a cantilever shelf 2, at the end of which a longitudinal groove 3 is formed to accommodate a seal 4 in contact with the outer surface of the shelf of the hollow rail 5. The hollow profile 1 and hollow rail 5 on the inward nodal connection sides have pairs of longitudinal grooves 6 in which dovetail protrusions 7 of pairs of parallel hollow multi-chamber heat insulating elements 8 are placed. Opposite dovetail protrusions to of which, in pairs, are placed in the longitudinal grooves of the hollow profile 9 two shoulders with unequal - greater than 10 and less than 11 shoulders of the shelf, located opposite the hollow rail 5, and located opposite the supporting profile of the longitudinal grooves of the hollow profile 12 with a cantilever rail 13, bearing at its end, the groove facing the glass 14, in which the seal 15 in contact with the glass is placed. The larger of the shoulders 10 of the two shoulders of the shelf contacts the hollow profile 12 having the cantilever strip 13, and the smaller has a groove in which the multi-chamber lock is inserted Profile 16 filling. Profile 16 and the mentioned smaller shoulder 11 are placed between the seals of the impost and the pressure plate. Between the hollow rail and the hollow profile with the cantilever strip parallel to the multi-chamber heat-insulating elements there is a multi-chamber seal 17 with the cantilevered protrusion 18 in contact with the protrusion 19 of the multi-chamber heat-insulating element made of a pair of multi-chamber heat-insulating elements 8 located between the hollow profile with the cantilever shelf and the supporting profile. The supporting profile 1 is provided with a glazing bead 20, by means of which the seal 21 is pressed against the glass 14. The seal 15 or 21 in contact with the glass 14 has a plate protrusion 22 separating the cavity between the glazing bead and the cantilever shelf into chambers. In addition, in the system of nodal connection of the insert window profiles, each of the pair of hollow multi-chamber heat-insulating elements 8 can have a pair of protrusions 23 facing each other of this pair of elements on the side surface, and these protrusions 23 are located with the formation in this pair of multi-chamber heat-insulating elements between them labyrinth clearance. Or hollow multi-chamber heat-insulating elements 8, parallel to each other, located in the longitudinal grooves of the supporting hollow profile and the hollow rail, are spaced apart from each other by a distance exceeding their thickness, and the system can be equipped with an electric drive 24 for moving the supporting glass 14 of the assembly formed by the supporting profile and hollow profile with cantilever strip, relative to the node containing the hollow rail.

This design of the nodal connection of the profiles of the insertion window allows to significantly increase the thermal insulation properties of the window and significantly reduce heat loss during its operation. Equipping the unit with an electric drive ensures the convenience and reliability of its operation, since it eliminates the dynamic effects on the components of the assembly.

Claims (3)

1. A system for the nodal connection of the profiles of the insertion window, comprising a hollow profile with a cantilever shelf, at the end of which a longitudinal groove is formed to accommodate a seal in contact with the outer surface of the hollow rack flange, while the supporting hollow profile and the hollow rail on the sides facing inward of the nodal connection have pairs of longitudinal grooves in which dovetail protrusions are placed; pairs of parallel hollow multi-chamber heat insulating elements; opposite dovetail protrusions which are placed in pairs respectively in the longitudinal grooves of the hollow profile of the two shoulders with unequal shoulders of the shelf, located opposite the hollow rail and located opposite to the supporting profile of the longitudinal grooves of the hollow profile with a cantilever bracket, which at its end faces a glass-facing groove in which the seal is in contact with the glass, this, the larger of the shoulders of the two-shouldered shelf is in contact with a hollow profile having a cantilever bar, and the smaller has a groove in which a lock of the multi-chamber filling profile is inserted, and the last and the mentioned smaller shoulder are placed between the seals of the impost and the pressure strip, and between the hollow rail and the hollow profile with the cantilever strip, a multi-chamber seal with the cantilevered protrusion in contact with the protrusion of the multi-chamber heat-insulating element from the pair placed between the hollow profile is placed parallel to the multi-chamber heat-insulating elements cantilevered shelf and the supporting profile, the latter being equipped with a glazing bead, by means of which the seal is pressed against the glass, and at least re, one of the seals in contact with the glass has a plate protrusion dividing the cavity between the glazing bead and cantilever shelf into chambers. 2. The system of the nodal connection of the profiles of the plug-in window according to claim 1, characterized in that each of the pair of hollow multi-chamber heat insulating elements has a pair of protrusions on the side surface facing each other from this pair of elements, said protrusions being arranged to form multi-chamber in this pair heat insulating elements between them labyrinth gap. 3. The system of the nodal connection of the profiles of the insertion window according to claim 1, characterized in that the hollow multi-chamber heat insulating elements parallel to each other in the longitudinal grooves of the supporting hollow profile and the hollow rail are separated from each other by a distance exceeding their thickness, and the system is equipped with an electric drive the movement of the glass-bearing assembly formed by the supporting profile and the hollow profile with the cantilever rail relative to the assembly containing the hollow rail.