RU193914U1 - WINDOW BOARD - Google Patents

Abstract

The utility model relates to the field of housing and industrial construction and can be used in equipping building windows and finishing window openings. The window sill is made in the form of a panel of a hollow profile with alternating box shapes. The new one is that it is made of aluminum. This window sill provides significant heat saving and excludes fogging and freezing of a double-glazed window. 5 ill.

Description

The proposed utility model relates to the field of housing and industrial construction and can be used for equipping building windows and decorating a window opening.

Currently, plastic (for example, PVC), wooden and stone window sills are widely used for finishing window openings.

The prior art board for the windowsill (utility model of the Russian Federation, patent No. 150965, ЕВВ 1/70, publ. 03/10/2015), made by molding from a plastic material and having upper and lower walls, interconnected by vertical and inclined partitions to form through passages with the formation of symmetrical end parts, while the through aisles of the board have alternating trapezoidal and rectangular shapes.

A window sill is also known (RF invention, patent No. 2339783, EV 1/70, publ. 11/27/2008), consisting of a hollow profile of PVC material with the possibility of laminating the surface, or coating with various laminating films with inner ribs forming through passages having alternating box-shaped and triangular shapes formed by inclined and perpendicular ribs to the surfaces.

Known window sill (German application No. 19756322, IPC EV 1/70), from an elongated extruded profile (window sill), made with partitions. At the same time, an external window sill, which is installed on the outside of the window block, is used to divert street precipitation, protect the external window contour from snow and wind loads, and noise insulation, made of aluminum profile. For these purposes, it is installed not in the horizon, but under a certain slope from the window frame to the outer surface of the building wall and does not bear any heat-saving properties for the room and the window itself.

The disadvantages of all these designs are that they do not provide efficient heat transfer. This is due to the fact that the window sills of these materials are not heated enough and conditions are not created for the transfer of thermal air masses from the heating battery and / or surrounding air masses, for example, when heating with underfloor heating or forced ventilation, there is a high probability of the occurrence of “cold zones”, and, as a result, condensation on the double-glazed window, the lower part of the profile and sloping panels

The objective of the proposed utility model is to ensure efficient heat transfer through the use of a material that creates the most favorable conditions for heat transfer processes.

To solve this problem, the window sill is made in the form of a panel of a hollow profile with alternating box shapes. New is that it is made of aluminum.

In FIG. 1 of the accompanying drawings shows a window sill assembly;

in FIG. 2 - the main profile of the window sill;

in FIG. 3 - an additional profile of the window sill;

in FIG. 4 - node A in FIG. 1 (castle connection of the main and additional profiles);

in FIG. 5 shows the assembly sequence of the locking connection of the main and additional profiles.

The window sill contains the main profile 1, the additional profile 2, the butt ends of the main and additional profiles are made with protrusions of the L-shaped form 3 and grooves of the U-shaped form 4 at one end of the joint, and the response protrusions of the L-shaped form 5 at the other end of the joint , with the possibility of the formation of a castle connection. The lock connection is fixed with a self-tapping screw 6.

The window sill is assembled as follows.

An additional profile 2 of the reciprocal protrusions 5 by longitudinal and transverse movement is connected with the protrusions 3, forming a locking connection (see Fig. 4, node A), which is fixed with a self-tapping screw 6.

The extruded aluminum profile allows to achieve a significant increase in the rigidity and strength of the durability and heat resistance of the structure, and also allows the use of powder coatings based on epoxy, epoxy-polyester, polyester resins, fluorocarbon powder coatings, which, unlike the laminated coating, are possible only on metal.

In addition, the aluminum window sill of this design, unlike PVC, wooden and stone window sills, has high thermal conductivity. Heat-insulated from external temperatures (outside), it is heated from the elements of the heating system (battery) and transfers this heat to the bottom of the window unit, warming it up and excluding fogging and freezing. In general, this leads to heat savings.

The design of the window sill makes it possible to use it at any depth of the window opening without longitudinal cutting linear material, which allows to save linear material, reduces the complexity of the assembly process.

Claims (1)

A sill board made in the form of a panel of a hollow profile with alternating box shapes, characterized in that it is made of aluminum.

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