UA131428U - FOLDER PACKAGE - Google Patents

Abstract

A double-glazed window containing two or more sheets of glass, and between the sheets of glass, parallel to the last, one transparent polymer film with closed air layers between the film and the glass is placed, and the distance between the film and the glass is from three to eight millimeters.

Description

The utility model belongs to the construction industry and can be used for windows and other light openings.

Known glazing, which contains two sheets of glass, located parallel to each other.

The disadvantage of such glazing is its low thermal resistance to heat transfer, which leads to significant heat losses through light openings (see the book Y.N. Khromets, G.A. Shiryaev "Reduction of material capacity of built industries". - M.: Stroyizdat, 1985. - p. 94, fig. 24).

The closest in technical essence to the claimed object is glazing, which contains two or more sheets of glass, transparent multilayer (consisting of several single films) polymer films are placed between them parallel to the sheets of glass, with closed air spaces between the films. The distance between the films is from five to eighteen millimeters (see utility model patent A.F. Ponomarchuk, I.A. Ponomarchuk Mo 7793 "Glass". - K.: Byul.

Mo. 7 dated 15.07.2005).

The basis of a useful model is the task of creating a double-glazed unit in which, thanks to a change in its design, an increase in transparency is ensured with an increased resistance to heat transfer through the glazing.

The task is solved by the fact that in the double-glazed unit, which contains two or more sheets of glass, one transparent polymer film is placed parallel to the latter with closed air gaps between the film and the glass, and the distance between the film and the glass is from three to eight millimeters.

Due to the fact that the chambers between the layers of glass are divided by a layer of polymer film, the intensity of convective heat transfer between the layers of glass decreases, which increases the thermal resistance of the glazing while maintaining the transparency of the structure.

A useful model is explained by a drawing showing a cross-section of a fragment of a double-glazed unit.

The double-glazed unit contains a frame 1, three sheets of glass 2, between which polymer films 3 are placed parallel to the sheets of glass 2. There are isolated layers of air 4 between the sheets of glass and the film.

The principle of operation of the double-glazed window is as follows. First, the flow of heat, which is transferred in the direction from the room, where the temperature in winter is much higher than the temperature of the outside air, overcomes the thermal resistance of the material of the inner glass, as well as the resistance of heat perception and

From the heat transfer of the surfaces of the inner sheet of glass. Next, the heat flow overcomes the thermal resistance of the closed air layer between the glass and the film. The same thing happens when heat is transferred through the film that is next to the inner glass. In this way, the process of heat transfer passes through all layers of glass, films and air layers and ends with heat transfer through the outer glass.

Claims (1)

USEFUL MODEL FORMULA A double-glazed unit containing two or more sheets of glass, which differs in that between the sheets of glass, parallel to the last, one transparent polymer film is placed, with closed air spaces between the film and the glass and the distance between the film and the glass is from three to eight millimeters