HU231318B1 - Thermal insulation glazing panel - Google Patents

Description

Heat insulating glass panel

The subject of the invention is a polygonal, straight-edged, flat-surface heat-insulating glass panel, with a hermetically sealed spacer that is transparent on at least one edge and forms a closed frame on the other sides, connecting the parallel flat glass sheets that make up the glass panel.

Glass panels occupying a space filled with air or noble gas between flat glass sheets are well known from the state of the art. These products have excellent thermal insulation properties, because the circular flow of gases does not develop in the optimally designed space between the glass sheets, thus providing good thermal insulation. During the production of the products, the parallel glass sheets are connected by a hermetically sealed, closed frame.

In the case of the glass panel proposed in patent document US 5948195 A, the spacer connecting the glass sheets at the edges of the structure with glue can be made of metal, plastic, or a combination thereof. The plastic can be thermoplastic or thermosetting, it can be flexible or rigid, it can be hollow, but it can also be made of foam. The spacer can also contain a sealant, in which case no glue is needed to join the glass sheets and the spacer.

Patent document No. CA 2813168 A1 presents a heat-insulating sheet structure made of glass or plastic sheets, where the spacers connecting the sheets at the edges are composed of a rubber or silicone layer, a vapor-tight polyethylene fdm layer and a butyl-based sealing layer coated with a paper or plastic outer covering layer. During the preparation of the structure, heat and pressure are applied to the spacers, as a result of which the sealing layer becomes plastic and solidifies, filling the space between the transparent sheets at the edges.

The utility model with registration number HU 4867 describes the flat heat-insulating glass structure developed by the applicant, in which the spacer placed between the parallel flat glass plates on the edges forming the closed frame is designed in such a way that an end-closing glass tape is attached to the edge of the flat glass plates with a vapor barrier adhesive seal, and the inner edge of the flat glass plates and

SZTNH-100291292 a transparent, locally solidified epoxy or acrylic resin plastic serving as a spacer is introduced between the end closing glass tape.

US 2012/0090253 A1 patent document proposes a glass panel sheet structure where a tempered glass spacer is glued between the flat glass sheets, set in the plane of the edges of the flat glass sheets, the edges of which are designed with a chamfer for receiving adhesive material.

Ceramic or transparent glass spacers are installed between the flat glass sheets of the glass panel sheet structure presented in the patent document with the reference GB 2144167 A, between which a dehumidifying material is placed.

In some areas of use, for example in store refrigerators, there is a need from an aesthetic point of view for the edge of the heat-insulating glass panel, and thus the spacer forming the edge, to be transparent. A critical characteristic of the suitability of glass panels for use is the long-lasting vapor barrier, which must be kept in mind above all. When the glass sheets are pressed together to install the spacer, due to insufficient press pressure and the use of inappropriate tools, the internal moisture resistance of the glass structure cannot be ensured. The same consequence must be expected even if the vapor barrier material used at the edge of the glass structure is not suitable for vapor barrier or its layer thickness. According to experience, the materials and glass panel constructions that ensure vapor sealing of glass panels do not allow for perfect vapor sealing in the long term for the solutions known from the state of the art.

We set ourselves the task of creating a heat-insulating glass structure, at least one side of which is assembled with a spacer that is transparent, durable and provides a reliable vapor barrier that satisfies the aesthetic requirements. On the other edges, the flat glass sheets can be connected to each other in the traditional way, if necessary with non-transparent spacers of different materials.

The set task is solved with a polygonal, straight-edged, flat-surface heat-insulating glass panel, at least on one edge of which the interior of the glass panel is connected to each other with a hermetically sealed, transparent spacer forming a closed frame.

2042090 containing parallel flat glass sheets. In practice, the polygonal glass structure is usually realized in the shape of a right-angled square.

The spacer consists of three outer, intermediate and inner edge sealing glass tapes sized to match the length of the glass panel, as well as transparent adhesive bodies applied between the glass tapes. When the spacer is pressed between the flat glass sheets, the adhesive material squeezed out of the adhesive bodies forms an adhesive flange between the outer edge-sealing glass tape sealing the edge of the glass panel and the flat glass sheets sharpened towards the interior of the glass panel. The adhesive material forming the adhesive bodies and adhesive flange of the spacer is preferably transparent thermoplastic polyurethane or EVA (ethylene-vinyl-acetal).

The material of the flat glass sheets is sodium calcium silicate glass, which is used in the construction industry and can be purchased in sheets. The edges of the flat glass panels facing the outside space are rounded to avoid damage to the edges when moving and installing the glass panel. During our experiments, we found that a perfect vapor barrier is achieved if the edges of the middle, intermediate glass strip of the spacer that covers the flat glass sheets are sharpened in two directions, forming closing edges, so that the closing edges are in direct contact with the closing surface of the flat glass sheets in the interior of the glass panel. The connection of the flat glass sheets and the glass ribbons of the spacer is helped by glue, however, in our invention, the flat glass sheets and the intermediate glass ribbon arranged in the middle of the spacer are also connected directly, so the diffusion of vapor is completely inhibited. The structure is perfectly transparent, because for the layout, we can use glue with less vapor barrier properties, but with high transparency, since this material does not ensure vapor barrier. The vapor barrier is made possible by the adhesive-free contact between glass and glass.

The material of the glass strips of the spacer is tempered aluminum silicate glass or tempered sodium calcium silicate glass, the mechanical resistance of which is much higher than that of non-tempered glass. The length of the glass strips corresponds to the length of the glass panel, their height to the height of the interior of the glass panel, and the distance between the flat glass sheets.

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The objectives of the invention can be achieved with the heat-insulating glass panel characterized in claim 1, the preferred embodiments of which are contained in the subclaims.

Our invention is described in detail with reference to the attached drawings, where - Figure 1 shows the general design of the insulating glass panel, - Figure 2 shows the possible designs for rounding and sharpening the edges of the flat glass sheet,

- figure 3 shows the transparent spacer, before gluing to the flat glass sheets and pasted between the flat glass sheets,

- in figure 4 we show the detail of figure 3 and

- Figure 5 shows the traditional spacer placed between the flat glass sheets.

Figure 1 illustrates a polygonal, flat-surface thermal insulating glass panel according to the invention, the straight edges of which form a right-angled rectangle. The glass panel is made up of two 2...12 mm thick flat glass sheets 1 arranged in parallel, which are connected by transparent spacers 2 on the two longer sides of the glass sheet. The material of the flat glass sheets 1 is sodium-calcium silicate glass, which is used in the construction industry and can be purchased in sheets. As shown in Figure 1, the flat glass sheets 1 are held together with traditional spacers 3 on the shorter lower and upper sides of the glass panel. The spacers 2, 3 form a closed frame at the edges of the glass panel, which surrounds the interior of the glass panel with a hermetic seal. Depending on the method and place of use, the non-transparent shorter sides of the glass panel, where the strict aesthetic requirement of perfect transparency does not have to be enforced, can be attached to separate frame elements, for example, which can be used to hold the glass sheet.

Figure 2 shows the rounding and sharpening of the edges of the flat glass sheets 1. The edges of the flat glass sheets 1 towards the outer space are rounded 7.2, which reduces the probability of damage to the edges of the flat glass sheets 1 when moving and installing the glass panel. The role of sharpening 7.1 is to ensure the vapor barrier of the glass panel, which is described in connection with Figure 3. The edges of the flat glass sheets 1 are sharpened from the plane of the edges of the flat glass sheets 1 towards the interior with a sharpening angle λ of 15-75° in terms of their installation position.

Figure 3 illustrates the construction of the transparent spacer 2 and its installation in the glass panel, aligned to the edges of the flat glass sheets 1. The transparent spacer 2 has a size matching the length of the glass panel and the height of the inner space of the glass panel, the distance between the flat glass sheets 1 6...26 mm high and 0.4...2 mm thick 4.1 external edge sealing glass tape, 4.3 intermediate glass tape and It includes an inner edge sealing glass tape 4.2, as well as transparent adhesive bodies 5 filling the space between the outer edge sealing glass tape 4.1 and the intermediate glass tape 4.3, as well as the inner edge sealing glass tape 4.2 and the intermediate glass tape 4.3.

The edges of the intermediate glass strip 4.3 above the flat glass sheets 1 are sharpened in two directions, forming closures 12. The shutters 12 are in direct contact with the shutter surfaces 13 of the flat glass sheets 1 in the interior of the glass panel, thereby permanently ensuring the perfect vapor barrier of the glass panel.

When manufacturing the glass panel, the 2 transparent spacers are pressed between the 1 flat glass sheets. During the operation, the adhesive material squeezed out of the adhesive body 5 by the closing edge 12 of the intermediate glass tape 4.3 enters the wedge-shaped space between the outer edge-sealing glass tape 4.1 sealing the edge of the glass panel and the sharpening 7.1 of the flat glass sheets 1, filling the space there to form an adhesive flange 6. The transparent spacer 2 must be pressed between the flat glass sheets 1 until the edges of the flat glass sheets 1 and the outer edge sealing glass tape 4.1 fall in one plane. The edge of the glass panel according to the invention is formed by the edges of the flat glass sheet 1 in one plane, the adhesive flange 6 and the outer edge sealing glass tape 4.1. Then the adhesive in the wedge-shaped space created by sharpening 7.1 fixes the matching glasses, and the closing edge 12 of the intermediate glass strip 4.3 comes into contact with the closing surface 13 of the flat glass sheets 1, which, as proven by the results of our experiments, provides the glass panel with a perfect vapor barrier. The solution also achieves the goal of making the edge of the glass panel almost completely transparent.

The production width of the adhesive body 5 exceeds the width of the inner edge sealing glass tape 4.2 by 0.3...0.6 mm. The adhesive material is preferably transparent thermoplastic polyurethane or EVA. It is known from the state of the art that non-transparent, two-component or cross-linking polyurethane is widely used for sealing and gluing insulating glass structures.

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The glass strips 4.1, 4.2, 4.3 of the 2 transparent spacers are made of hardened aluminum silicate glass or hardened sodium calcium silicate glass. Aluminum silicate glass is a glass made of aluminium, silicon and oxygen molecules bonded together and is resistant to harmful mechanical effects, despite being light and thin, its thickness can be less than 1 mm. The mechanical resistance of the tempered glass strip is many times that of non-tempered glass. Glass is tempered either thermally or by a chemical process. During thermal training, the glass is heated and then suddenly cooled with air. Chemical training is carried out by reducing potassium nitrate to a liquid state, approx. They heat up to 450°C and keep the glass in the melt for a period of time to reach the desired level of hardness. As a result, the sodium molecules on the surface of the glass are replaced by much larger potassium molecules and surface tension is created in the glass.

Figure 4 shows the design of the closing edges 12 of the intermediate glass strip 4.3, which contact the closing surface 13 of the flat glass sheets 1 when they are installed in the transparent spacer glass panel 2. For the formation of the closing edges 12, the sharpening angle λ of the edges of the intermediate glass strip 4.3, taken from the side of the intermediate glass strip 4.3, is 15-75°.

Figure 5 illustrates the construction of a traditional spacer 3, which can be installed, for example, on the shorter sides of the glass panel according to the invention. It can be seen in the figure that a spacer profile element 8 is placed between the flat glass sheets 1, the material of which can be various and which closes the inner space between the flat glass sheets 1, so its height is the same as its inner space. The profile element 8 is filled with vapor barrier material 9, which is attached to the flat glass sheets 1 with 10 butyl strips. The spacer 3 is pressed between the butyl strip 10 and the flat glass sheets 1 and is attached to the flat glass sheets 1 with an adhesive material 11 suitable for the production of heat insulating glass.

In the following, we briefly describe the manufacturing process of the glass panel.

When making the transparent 2 spacers, we first cut the aluminosilicate glass strips to size, grind their edges, and then harden the pieces. Then between the custom-made and hardened outer edge sealing glass tape 4.1, intermediate glass tape 4.3 and inner edge sealing glass tape 4.2 in a Teflon-coated tool, approx. Thermoplastic polyurethane is laminated at 110°C, forming the adhesive bodies 5 of the spacers 2.

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The longitudinal edges of the 1 flat glass sheets are rounded and sharpened with a special grinding wheel, and then the sheets are hardened in a traditional tempering furnace.

When assembling the glass panels, the profile elements of the traditional spacer 3 are placed on one of the two sharpened flat glass sheets 1, and then joined with the other sharpened glass panel. Next, we place the 2 transparent spacers on the longitudinal edges, and then place this assembly in a pressing machine that can be used to press in a controlled manner from three sides per edge. Use this press to make the transparent spacers approx. We press it between the glass panels at 110°C, creating a "glass to glass" closure with the closing edges 12 of the intermediate glass tape 4.3 on the closing surfaces 13 of the flat glass sheets 1. After pressing, the excess adhesive material that flows out on the edges of the glass panel is removed, and then the edges with the traditional 3 spacers at the top and bottom are filled with a sealing material suitable for the production of heat-insulating glass.

At the end of the procedure, the interior of the glass panel is filled with argon or krypton gas, if required, or air is left inside.

The advantage of the heat-insulating glass structure according to the invention is that the edge is almost perfectly transparent, thus enabling an aesthetic design suitable for the production of high-quality window and door devices.

The particular advantage of the solution is that the transparent spacers ensure a perfect and durable vapor barrier, with a structural arrangement protected from damage. And the rounding of the edges of the flat glass sheets provides protection against minor mechanical damage to the edges.

Claims (9)

1. Polygonal, straight-edged, flat-surface heat-insulating glass panel, with a hermetically sealed spacer (2) that is transparent on at least one edge and forms a closed frame on the other sides, connecting two parallel flat glass sheets (1) occupying the interior of the glass panel, characterized by that - the transparent spacer (2) is made of outer edge sealing glass tape (4.1), intermediate glass tape (4.3) and inner edge sealing glass tape (4.2) of a size matching the length of the glass panel, as well as the outer edge sealing glass tape (4.1) and the intermediate glass tape (4.3), and the is made of transparent adhesive bodies (5) applied between the inner edge sealing glass tape (4.2) and the intermediate glass tape (4.3), - the edges of the intermediate glass strip (4.3) above the flat glass sheets (1) are sharpened in two directions, forming their closures (12), - the edges of the intermediate glass strip (4.3) formed by sharpening the closing edges (12) are in direct contact with the closing surface (13) of the flat glass sheets (1) in the interior of the glass panel, - the edges of the flat glass sheets (1) are sharpened to accommodate the adhesive flange (6) towards the outer edge-sealing glass tape (4.1) sealing the edge of the glass panel. 2. The glass panel according to claim 1, characterized in that the material of the flat glass sheets (1) is sodium calcium silicate glass. 3. The glass panel according to claim 1, characterized in that the material of the outer and inner edge sealing glass bands (4.1, 4.2) and the intermediate glass band (4.3) is tempered aluminum silicate glass or tempered sodium calcium silicate glass. 4. Glass panel according to claim 3, characterized in that the thickness of the outer edge sealing glass strip (4.1), the inner edge sealing glass strip (4.2) and the intermediate glass strip (4.3) is 0.4...2 mm. 5. Glass panel according to claim 1, characterized in that the material of the transparent adhesive body (5) and adhesive flange (6) is thermoplastic polyurethane or EVA (ethylene vinyl acetal). © SZTNH-100291293 6. The glass panel according to claim 1, characterized in that the sharpening angle (λ) of the edges of the flat glass sheets (1) is 15-75° from the plane of the edges of the flat glass sheets (1), 7. Glass panel according to claim 1, characterized in that the sharpening angle (λ) of the edges of the intermediate glass strip (4.3) is 15-75° from the side of the intermediate glass strip (4.3). 8. The 1-7. A glass panel according to any one of the claims, characterized in that the edges of the flat glass sheets (1) facing the outer space are rounded (7.2) 9. The 1-8. A glass panel according to any one of the claims, characterized in that the polygon formed by the flat glass sheets (1) is a right-angled rectangle.