MD700Z - Window block - Google Patents

Abstract

The invention relates to building structures, in particular to window blocks. The window unit consists of a frame (1) and a double-glazed unit (2) with a distance frame (4) between adjacent windows made of a profile with a groove (7) for the accessories necessary for fixing the double-glazed unit (2) in the frame (1). The window unit additionally contains a platband (5) attached around the glass perimeter and closing the inner vestibule with a sealant (6) installed in its groove. In a double-glazed window (2) use glasses of the same size.

Description

The invention relates to building elements, in particular to window blocks.

A window block is known, which consists of assembly units: frame (box, box profile), swing elements and built-in ventilation systems, including, if necessary, a number of additional elements: blinds, shutters, etc. [1].

A window block is also known, which contains a frame and an insulating glass unit with spacer frames between neighboring panes [2].

A window block is also known, which contains a frame and an insulating glass unit with spacer frames between the adjacent glasses. The frame is fixed to the walls of the window opening or door opening and carries all the other components, also serving for the installation of the sashes or canvases. The sash is a frame construction, a frame for the insulating glass unit, and is joined to the frame, as a rule, by a hinged connection or sliding joint, is fixed to the frame with fittings, located in a special groove in the sash and serves to ensure the opening function of the window. The insulating glass unit is a volume article, which consists of two or more sheets of glass, joined together with a spacer frame and sealed, which form hermetically closed chambers, filled with dry air or another gas. The insulating glass unit is fixed to the sash by means of a rod, which additionally contributes to the compression of the insulating glass unit on the sealing gasket, located on the metal protrusion (the protrusion of the sash profile, intended for installing the sealing gasket and covering the gap in the sash) of the sash, which prevents water from entering the sash [3].

The main disadvantages of known window blocks are the following:

- reduced light permeability (the main function of the window) due to the rather large overall dimensions of the sash profiles;

- reduced heat saving due to the limited selection of the thickness of the insulating glass used. The thickness of the insulating glass is one of those factors that has a major influence on the heat saving of the window. The insulating glass consists of glass panes and the space between the glass panes, which serves as the main thermal insulator of the insulating glass and is filled with special gases (most often dry air, less often argon and less often krypton). The thicker the thermal insulation gap, the greater the heat saving, but up to a limit, when gas convection begins inside this space. The optimal thickness of the space is considered to be 20 mm. That is, an insulating glass pane with a thickness of 4+20+4+20+4=52 mm can be considered optimal. The insulating glass pane is always thinner than the sash profile in terms of its thickness, because it is fixed by a rod from the inside of the room, and from the outside it presses on the metal lining of the sash. In contemporary window construction, thermal panes with a thickness of up to 41 mm are used, because installing thermal panes requires creating a more massive sash profile, which is economically unfounded;

- the rather high cost of construction in general is due to a large number of elements used, a large number of technological operations performed during assembly, a high share of profile elements in the material cost of construction. The share of profile elements, in particular, PVC profiles, reinforcement and sealing, in the material cost of construction is about 50%, of thermal insulation glass - about 20%, of supplies - about 30%.

The closest solution to the essence of the present invention is the construction of a window block, which consists of a frame and an insulating glass unit with a spacer frame between the neighboring glasses, made of a profile with a groove for the necessary fittings for fixing the insulating glass unit in the frame to ensure the window opening function [4].

The disadvantages of the known window block consist in the need to use different sized glasses in the insulating glass, one of them (on the room side) of a larger size serving to close the edge seam (the interval between the frame and the insulating glass); the use of laminated glass (triplex) to cover the sash, usually very expensive, with a mandatory polished edge; the need to apply a non-transparent coating to the perimeter of the internal glass to hide the traces of gluing and the fittings (spacer strips with fittings); the application, to ensure the necessary degree of air permeability of the window block, of a sealing gasket, which is glued to the glass.

Additionally, it is necessary to mention that the window block, in which the glass is placed on the frame, causes an inadequate perception of the building's construction in general.

The problem solved by the present invention consists in modernizing the window block in order to improve its main operating characteristics.

The technical result consists in reducing the cost of constructing the window block while maintaining its traditional appearance, improving the thermal insulation properties of the window block while ensuring the necessary degree of air permeability.

The window block, according to the present invention, consists of a frame and an insulating glass unit with a spacer frame between the adjacent glasses, made of a profile with a groove for the necessary fittings for fixing the insulating glass unit in the frame. The window block additionally contains a frame, which is fixed on the perimeter of the glass unit and which covers the internal sash, with a sealing gasket, installed in its groove, at the same time glasses of the same size are used in the insulating glass unit.

The use of standard insulating glass units with glass of the same size and type in the window block allows to reduce the cost of the finished window block, compared to the closest solution, because it allows the construction of the window block to be included in the standard technological process of manufacturing insulating glass units for window blocks and, thus, ensuring the necessary work efficiency.

The use of a frame for covering the inner sash allows, firstly, to mask the spacer frame profile with a sealant and accessories, as well as to use standard thermal insulation, which is used in traditional constructions between the opening part of the window - the sash, and the fixed part of the window - the frame, to ensure the necessary degree of air permeability of the window block, and secondly, to maintain the continuity of the appearance of the article in relation to the constructions of window blocks with sashes that exist today. The standard sealing gasket, intended for installation (rolling) in a special groove, is given a "mushroom" shape in the design - in such a shape the sealing gaskets after installation in the groove are very durable. If it is necessary to glue the sealing gasket to the glass, this sealing gasket must have a special adhesive layer. At the same time, the adhesive must be selected in such a way that it is convenient to work with (for example, it can be rolled into coils for transportation, etc.), at the same time, the adhesive must be durable and have properties that allow it to compensate for the differences in expansion of the glass and the sealant with temperature (i.e. it must always be elastic). All this inevitably leads to an increase in the price of the sealant, compared to the standard one.

The insulating glass unit can be installed in all types of window frames - wooden, PVC, aluminum and fiberglass. This means that there is no need to modify numerous nozzles, change tools and other equipment for the manufacture of wooden, PVC and aluminum windows, because the frame, lintel and sash remain the same, and the jambs and sashes are missing in the window construction.

The new construction of the window profile, compared to the known standard constructions, in which the insulating glass unit is mounted in the sash, presents undeniable advantages:

- increases light permeability by an average of 20%;

- increases heat savings thanks to increasing the thickness of the insulating glass unit up to 52 mm (by 30%);

- the construction cost is reduced (by 25%) thanks to the reduction in the number of profile elements (the exclusion of the sashes from the construction) and an entire complex of technological operations is excluded.

The invention is explained by the drawings in the figure, which represent the section of the window block profile, in which the insulating glass unit is fixed to the frame with fittings mounted in the groove of the spacer frame.

Next, on an example of a concrete construction of a window block with two-chamber insulating glass, information is presented, which confirms the possibility of making the window block, according to the present invention, with the achievement of the main mentioned technical result and additional technical results.

The window block consists of a frame 1, a two-chamber insulating glass unit 2 with glasses, separated by spacer frames 3 and 4, and a frame (frame profile) 5 glued to the insulating glass unit, covering the internal sash with a sealing gasket 6 installed in its groove. At the same time, in one of the profiles of the spacer frame 4 of the insulating glass unit 2, a special groove 7 is made for fixing the fittings (fitting groove), with which the insulating glass unit is fixed to the frame.

If the thermal insulation properties of the window are not required (for example, for internal partition walls), the spacer frames can be made of aluminum, less often of steel.

The spacer frame (both standard and with a groove for fittings) in the insulating glass unit is fixed (glued) to the glass with specific adhesive-sealants, which withstand high loads and ensure the tightness of the insulating glass unit for a long period of time.

Thus, the insulating glass unit in the window block is mounted using standard technology - with two spacer frames, the profile of one of which has a groove for fittings.

The method of manufacturing and installing the window block according to the present invention is described below.

The plastic profiles for both the framing and the spacer frame are obtained by the PVC extrusion method.

The spacer frame profile is cut to the required dimensions with the ends cut obliquely, after which the prefabricates are welded together, like a standard PVC profile, obtaining a rectangular spacer frame. The spacer frame is mounted in the insulating glass unit using standard assembly technology and fixed with an adhesive-hermetic, after which the necessary fittings are mounted in the fitting groove of the spacer frame profile.

The frame profile is cut to the required dimensions with the ends cut obliquely. After that, the prefabricated parts are welded together, like a standard PVC profile (a rectangular frame construction is obtained). A standard window sealing gasket is installed (rolled) into the frame groove. Then the frame is glued to the insulating glass unit (in which the fittings were installed) with a special adhesive. After the adhesive hardens, the entire construction can be fixed to the window frame.

1. GOST 23166-99 Window blocks. General technical conditions

2. GOST 30674-99 Window blocks from polyvinyl chloride profiles. Technical conditions

3. Борискина И.В., Plotnikov А.А., Захаров А.В. Design of modern window systems of civil buildings. Учебное пособие МИСИ MGSU, Vybor, 2008

4. Kelin С.А. On the development of a new construction of the window block. Journal of Translucent Constructions № 1-2, 2009

Claims (1)

Window block, consisting of a frame (1) and an insulating glass unit (2) with a spacer frame (4) between the adjacent glasses, made of a profile with a groove (7) for the necessary fittings for fixing the insulating glass unit (2) in the frame (1), characterized in that it additionally contains a frame (5), which is fixed on the perimeter of the glass and which covers the internal sash, with a sealing gasket (6), installed in its groove, at the same time glasses of the same size are used in the insulating glass unit (2).