SU775056A1 - Glass element for bilayer light transparent fences - Google Patents

Description

The invention relates to the construction industry and building materials and can be used in the manufacture of shaped glass to create a two-layer translucent fencing.

Known glass element used in the manufacture of two-layer translucent fencing [1J.

The disadvantages of the glass elements used here are: low heat-shielding properties of the fences mounted from them due to the formation of a thermal bridge when the shelves of glass elements are directly adjacent to each other 15. The need for special Support devices covering the glass elements from the side of their ends and sides.

The closest to the technical solution * 0 glass element for two-layer translucent fences is known, containing a base and side walls [2j. 25

The disadvantages of such fencing are reduced to low heat-shielding properties due to the formation of a thermal bridge at the joints of parallel layers and high breathability of the seam, as well as to the requirement to have special bevels for fastening together elements that are in the same layer of the fence.

The purpose of the invention is to increase heat-shielding properties and simplify the installation of fences.

This goal is achieved in that the glass element for two-layer 'translucent fences, containing the base and side walls, is equipped with a heat-insulating strip located on the inside along the side wall, and the strip width is 3-5 thicknesses of the glass element and an additional heat-insulating strip located with the inner side along the other side wall, the width of the strip being 1-2 thicknesses of the glass element.

In FIG. 1 shows the proposed element; in FIG. 2 is the same. with two stripes; figure 3 and 4 shows the installation of two-layer light-transparent fencing of glass elements. The glass element 1 contains a wide strip 2, its size ranging from 3 to 5 b *, where Я is the thickness of the glass, size a ₁ lies in the same range, the size is narrow. band 3,. 'Όχ ranges from 1 to 2 4 *. With such sizes of one and two polls, the light transmission of the transparent part of the standard glass element is from 90 to 95% of the light transmission of the element without stripes. In both cases, the shelves of the elements located in the paracellular layers do not adjoin each other (size ί), as a result of which the fence has improved heat-shielding properties compared to a prototype having a thermal bridge. The conditions are due to the absence in the mouths of special fastening elements and the use of only sealant or adhesive in them.

The fencing of glass elements with two heat-insulating polo * themselves (Fig: 4) compared with the fence. cue of elements with one heat-insulating strip (figure 3) has a higher resistance to air permeation with approximately the same heat-shielding qualities (C ₄ > ^C ₃ ; in ₆ and in ₄ )

The technical and economic effect of the fencing of the proposed elements is characterized by the following data: The overall thermal resistance compared to the fencing of ordinary elements is an improvement of 5-10% and will be about 0.4. m h ° C / kcal instead of 0.36 + 0.38 ^mg h C / kcal.

With an improvement in the heat-shielding properties of the enclosure by 5-10% only due to rupture of thermal bridges at its joints, energy savings for heating a building when using the proposed elements instead of the known ones are 2.5-5%.

Claims (2)

The invention relates to the construction industry and building materials and can be used in the preparation of profile glass to create two-layer translucent fences. The glass element used in the manufacture of two-layer translucent fences 1 is known. The disadvantages of the glass elements used here are: the low heat-shielding properties of the enclosures mounted from them due to the formation of a thermal bridge with the direct adjoining one of the other shelves of the glass elements, as well as the need for special porosity devices covering the glass elements from their ends and sides. The closest technical solution to the glass element for two-layer translucent fences, containing the base and side walls of C 23, is known. The disadvantages of such fences are low heat protection properties due to the formation of a thermal bridge at the joints of parallel layers and high air permeability of the seam, as well as the requirement to have special bevels for bonding between the elements, which are in one layer of the fence. The purpose of the invention is to increase the heat-shielding properties and simplify the installation of fences. The goal is achieved by the fact that the glass element for two-layer translucent fences, the supporting base and the side walls, are provided with a heat insulating strip located on the inner side along the side wall, and the width of the band is 3-5 thickness of the glass element and an additional heat insulating layer. a strip located on the inner side along the other side wall, the strip width being 1–2 thicks of the glass element. FIG. 1 shows the proposed item; in fig. 2 - then;: Be, with two lanes; in fig. Figures 3 and 4 show the installation of two-layer light-proof fences made of glass elements. Glass element 1 contains a wide strip 2, its size is a ,. ranging from 3 to 5 rf, where r is the glass thickness, size a lies within the same limits, the size is narrow. The 3 X3j bands are from 1 to 2 (f. With such dimensions of one and two polrs, the transmittance of the transparent part of the standard glass element is from 90 to 95% of the light transmittance of the element without stripes. In both cases, the shelves of elements that are in parallel layers, they are not adjacent to each other (size i), as a result of which the fence has improved thermal properties compared to a prototype having a thermal bridge. The mounting advantages of these structures are due to the lack of special fastening elements using only hermetic or klekhtsy composition in them. The enclosure made of glass elements with two heat insulating rollers (Fig; 4) compared with the enclosure of elements with one heat insulating strip (figure 3) has a higher resistance to air resistance at approximately identical heat protective qualities c) -4. Cji 6 The technical and economic effect of the barriers of the proposed elements is characterized by the following data: The total thermal resistance compared to the barrier of ordinary elements is 5g-10% improvement and will be about 0.4. m-h C / kcal instead of 0.36 4-.0.38 m h C / kcal. By improving the heat-shielding properties of the fence by 5-10% ONLY due to the rupture of thermal bridges at its junctions, energy savings Np1 heating the building using the proposed B3s1men known elements is 2.5-5%. Claims. 1. Glass element for double-layer translucent fences, containing the base and side walls, which is characterized by the fact that in order to increase the heat-shielding properties and simplify the installation of the fences, it is equipped with a heat-insulating strip, located on the inner side along the side wall, and It is 3-5 times the thickness of the glass element. 2. The glass element according to claim 1, characterized in that it is provided with an additional thermal insulation strip located on the inner side along the other side wall, the width of the strip being 1-2 times the thickness of the glass element. Sources of information taken into account in the examination 1. USSR patent № 330609, cl. From 03 to 23/24, 1970. 2 .., Patent of France No. 2153168, cells-C 03 B 23/00, 1973. 2