RU90069U1 - GLASS PACKAGE - Google Patents

Abstract

1. A double-glazed window containing at least two sheets of glass, a spacer between the sheets of glass and a sealant, the sealed volumes between the glasses being filled with gas, characterized in that the spacer is made of a hollow polypropylene profile lined with steel foil, the cavity of which is filled with absorbent material, and inert gas was used as gas. ! 2. A double-glazed window according to claim 1, characterized in that argon is used as an inert gas. ! 3. A double-glazed window according to claim 1, characterized in that silica gel is used as the absorbent. ! 4. The double-glazed window according to claim 1, characterized in that the thickness of the facing steel foil is 0.1 mm ! 5. The double-glazed window according to claim 1, characterized in that it contains two sheets of glass. ! 6. The double-glazed window according to claim 1, characterized in that it contains three sheets of glass. ! 7. A double-glazed window according to claim 5 or 6, characterized in that the thickness of the glasses is different. ! 8. A double-glazed window according to claim 6, characterized in that the distance between the glasses is different. ! 9. A double-glazed window according to claim 1, characterized in that K-glass is used as glass.

Description

The utility model relates to the building materials industry, in particular to the glass industry, and can be used in the manufacture of double-glazed windows with enhanced operational, including thermal insulation, properties.

A double-glazed window is known, where two glasses are hermetically glued with a spacer frame, and sealing is carried out along the entire contour with non-hardening mastic and sealant (SU 669045, С03В 23/24, 1978).

Also known is a double-glazed window containing three sheets forming interconnected volumes filled with air or a mixture of gases, a spacer frame between two sheets, and a sealant (GB 1510544, 1978).

These well-known double-glazed windows are not effective enough in terms of operational and thermal insulation qualities.

The task to which the proposed utility model is directed and the technical result achieved is to increase the operational and heat-insulating properties of the glass packet.

The specified technical result is achieved by the fact that:

The glass packet contains at least two sheets of glass, spacers between the sheets of glass and a sealant. The tight volumes between the glasses are filled with gas. The distance frame is made of a hollow polypropylene profile lined with steel foil, the cavity of which is filled with absorbent material. The gas used is an inert gas.

Besides:

- argon can be used as an inert gas;

- silica gel can be used as absorbent;

- the thickness of the facing steel foil is 0.1 mm .;

- a double-glazed window may contain two sheets of glass;

- a double-glazed window may contain three sheets of glass;

- the thickness of the glasses may be different;

- the distance between the glasses can be different;

- K-glass can be used as glass.

The utility model is illustrated by graphic materials, which presents the following:

Figure 1 - double-glazed window (cross section).

Figure 2 - distance frame (cross section).

Under the item numbers, the following is noted:

1 - glass;

2 - distance frame;

3 - sealant;

4 - polypropylene profile of the frame;

5 - thin steel foil;

6 - absorbent.

The double-glazed window contains two (single-chamber) or three (two-chamber) glasses 1 between which there are spacers 2, with the formation of tight volumes between the glasses 1 (tightness is ensured by applying a sealant (two-component mastic) 3) filled with an inert gas, mainly argon. The distance frame 2 is made of a hollow polypropylene profile 4, lined with steel foil 5. The cavity of the profile is filled with absorbent 6, for example silica gel.

Polypropylene, of which the spacer is made, is a high-quality plastic with low thermal conductivity (0.22 W / micron). Cladding in steel foil 0.1 mm thick. serves to improve the rigidity of the frame, in addition, the steel foil has a high thermal resistance (thermal conductivity - 17 W / micron). The absorbent is designed to remove excess moisture from the glass.

With this arrangement of a double-glazed window, and in particular, a remote frame, the probability of condensation in the edge zone of the double-glazed window is reduced, the likelihood of ice formation even at high humidity in the window zone is reduced, which is especially important for lovers of home plants. This improves the operational properties of the double-glazed unit: it eliminates fogging, the glass remains clean and transparent, and the thermal insulation properties of the double-glazed unit improve.

Different distances between the glasses (in a double-chamber glass unit) and different glass thicknesses are used to improve the sound-proofing properties of the glass units.

The manufacture of double-glazed windows begins with precise cutting and preparation of glasses, which consists in their selection in accordance with the criteria of glass quality, washing, polishing and antistatic processing on special equipment. A bent distance frame is placed between the glasses and glued to them. Inert gas argon can be used to fill the space between the glasses. This improves the thermal properties of the glass. A double-glazed window around the entire perimeter is sealed with a special two-component mastic. Therefore, neither moisture nor dust gets inside the sealed glass unit - the glass unit always remains transparent and clean. The guaranteed service life of such a double-glazed window is at least 15 years.

For the manufacture of a double-glazed window, the best polished window glass of domestic (BOR) and foreign (Pilkington) production can be used. Such high-quality glass does not have rainbow and dull spots, inhomogeneities or bubbles.

In the claimed double-glazed window can be applied various types of glass.

For example - K-glass is an energy-saving low-emission glass with a special coating that can reflect thermal energy back into the room. K-glass is a type of energy-saving hard-coated glass, which is determined by the weak surface haze, noticeable only in bright light.

The claimed utility model is industrially applicable, since industrial materials known from the prior art are used for its production.

The claimed utility model can be performed in various versions containing a combination of features of the formula.

Claims (9)

1. A double-glazed window containing at least two sheets of glass, a spacer between the sheets of glass and a sealant, the sealed volumes between the glasses being filled with gas, characterized in that the spacer is made of a hollow polypropylene profile lined with steel foil, the cavity of which is filled with absorbent material, and inert gas was used as gas. 2. A double-glazed window according to claim 1, characterized in that argon is used as an inert gas. 3. A double-glazed window according to claim 1, characterized in that silica gel is used as the absorbent. 4. The double-glazed window according to claim 1, characterized in that the thickness of the facing steel foil is 0.1 mm 5. The double-glazed window according to claim 1, characterized in that it contains two sheets of glass. 6. The double-glazed window according to claim 1, characterized in that it contains three sheets of glass. 7. A double-glazed window according to claim 5 or 6, characterized in that the thickness of the glasses is different. 8. A double-glazed window according to claim 6, characterized in that the distance between the glasses is different. 9. A double-glazed window according to claim 1, characterized in that K-glass is used as glass.