DE202006007027U1 - Double-glazed window structure, has interior window sash with glazing held with plate-shaped connector that manages glazing with minimum spatial input, and insulating material laid on area of glazing`s faucet joint to insulate joint - Google Patents

Abstract

The structure has thermally insulated profiles comprising windows and French doors with a window frame and a window sash, where a glazing of an interior of window sash (1) is held with a selectively acting plate-shaped connector. The connector manages the glazing with minimum spatial input such as 45-80 millimeter diameter and 2-8 millimeter thickness. An insulating material (2) is laid on an area of a faucet joint of the glazing to energetically insulate the joint.

Description

The The invention relates to a window or a door with a Frame and one or more casement frames being the frame made of thermally insulated profiles constructed and thermally separated.

Window more usual Type are divided into single and composite windows. Simple windows consist of a frame which is firmly connected to the building is and a moving wing. Of the wing serves to accommodate the glazing. In terms of glazing, single pane glazing and Multiple-pane insulating glass can be distinguished. IG unit is used as a 2-pane insulating glass and as a 3-pane insulating glass.

The Mechanical fastening of the glazing in the frame is via a circumferential glass retaining strip (from the inside), through an attached Frame (metal or plastic) from the outside or by means of a closed U-profile guaranteed. Composite windows are also made of the components frame and Wing constructed. As with single windows, the frame is firmly connected to the building also contributes the wing the glazing. Unlike single windows, the composite wing is made of built two separate frames and with the help of a fitting coupled. Both frames are each equipped with glazing. The fixing of the glass panes takes place as with single windows over glazing beads or via U-profiles. To minimize the heat transfer be for Both types of windows hybrid semi-finished products made of an insulating material (polyurethane foam) and a carrier (Wood, reinforced PVC).

Of the in claim 3 protection invention is based on the problem to create an energy efficient window that ensures the heat transfer, especially on the particularly heat-conducting Make the glass edge composite of the glazing minimized, the strains the different components and at the same time one meaningful fixation of the glass in the frame allows.

This Problem is solved with the features listed in the protection claim 3.

With the invention is achieved in that an insulating layer in the area the glass edge composite of the window can be introduced. Thereby is the most thermally conductive Point thermally decoupled and the heat flow throughout the component can be lowered significantly.

This is possible this construction by fixing the glazing of the inner frame as in the claims 1 and 2 shown together with the composite window as a basic construction. By using a punctiform acting connector (protection claim 1) with a flat design (protection claim 2) can the glazing of the inner frame with minimal spatial Effort to be kept (thickness direction). It creates a compact Unit of wing inner frame and the glazing together with the frame interior frame static requirements on the component takes over.

The Glazing of the inner frame is thus flush with the outside of the wing inner frame. An insulating material can from the outside surface over the Edge composite of the glass pane are introduced.

Of the insulation in the sash is held by the auxiliary frame (wing) shown in the protection claim 4. The insulating material in the frame is represented by the protection claim 5 Subframe (frame) fixed. Both frames are using of chipboard screws through the pressure-resistant insulating material on the inner frame assembled. The hexagon wood screw transmits the shear forces the dead weights of the subframe and the outer frame in the static bearing Inner frame (both wings as well as frame).

By the insulation of frame and sash and in particular by the incorporation of an insulating material in the area of Edge composite of the glazing is created as a component with high thermal insulation. The individual layers (inner frame, insulating material, subframe and outer frame are springy (push soft) and take into account a different thermal as well as mechanical expansion behavior of the components. By connecting the glazing to the inner frame, a module is created. On this platform can be a variable in thickness insulation layer being constructed. In addition, the technically very complex 3-pane insulating glass waived.

The invention will be explained in more detail below with reference to FIGS. 1 to 4. Representation 1 shows Overview of the composite window construction. The frame consists of the main components of the frame interior frame ( 5 ), Insulation material (frame) ( 6 ), Subframe (frame) ( 7 ) and outer frame (frame) ( 8th ). It is firmly connected to the building and serves to accommodate the rotatable wing. The wing is constructed as follows: wing inner frame ( 1 ), Insulating material (wings) ( 2 ), Subframe (sashes) ( 3 ) and outer frames (wings) ( 4 ). In the exemplary embodiment according to illustration 1, the main components were insulating material (wings) ( 2 ) and subframes (wings) ( 3 ) and insulating material (frame) for manufacturing reasons glued to a composite. According to the invention, the main components are made of the materials mentioned in Table 1.

Tabelle 1: Materialien der Hauptkomponenten

Table 1: Materials of the main components

The composite window is created by assembling the main components. presentation 2 shows the fixation of the glazing ( 9 ) of the wing inner frame ( 1 ). The wing inner frame is equipped with a rebate in which the multi-pane insulating glass is inserted and clamped in the sense of a printed diagonal. The connector ( 10 ) fixes the disc punctiform in the frame (protection claim 1) and is fixed with a chipboard screw (chipboard screw is not shown). Wing and glazing form a module. The thickness of the connector depends on the distance between two connectors and the selected material. In the exemplary embodiment, the distance L between two connection points is 400 mm. For this purpose, a connector made of fiber-reinforced polyamide in the thickness 5 mm was chosen. In addition, the connector is milled into the wing inner frame, so that after insertion creates a flat surface. On this surface can over the entire wing up to the glass edge composite ( 11 ) of the glazing (and beyond) the insulating material (wings) ( 2 ) together with the subframe (wing) ( 3 ) (protective claim 3). The subframe (sash) ends in the plane with a wood-based panel (see Table 2). This is done with the help of chipboard screws ( 14 ) attached to the wing inner frame. In addition, a hex bolt ( 17 ) the dead weight loads in the wing inner frame (protection claim 4). The outer end of the window forms the outer frame (wing) ( 4 ). This is on the wood-based panel of the subframe ( 3 ) as follows: (Figure 3) on the hinge side with a rotary fitting ( 15 ) and on the lock side with a suitable lock. The structure of the frame is similar to the structure of the wing. Base is also the inner frame (frame inner frame) ( 5 ). On this, as shown in Figure 3, both the insulating material and the subframe placed and fastened by means of a chipboard screw. The pressure-resistant insulating material ensures safe transmission of the compressive forces and the chipboard screw ( 16 ) takes over the 'safety against lifting off' with tensile loads (eg wind suction). Due to the free length of the screw in the region of the insulating material, the screws have a springy effect and allow a very smooth connection between the subframe and the frame inner frame. This property is necessary to compensate for the different heat and moisture induced deformations. The wood-based panel of the subframe (frame) ( 7 ) serves to receive the connector for the outer shell ( 13 ). This connector allows (also push soft) the secure attachment of the outer frame (frame) ( 8th ). In addition, the hexagon wood screw ( 12 ) the self-weights safely in the frame interior frame (protection claim 5).

The interaction of said window components creates a modular structure that is thermally separated over the entire profile width with the help of an insulating material. On the basis of the embodiment, a heat transfer coefficient U _w for the window of 0.9 W / m ² K results With the construction without the use of a technically very complex 3-pane insulating glass is able to halve the heat transfer coefficient in relation to the prior art. This is achieved in particular by the 'over-insulation' in the area of the glass edge composite. The combination of statically loaded inner frame and an aluminum outer frame makes the construction absolutely weatherproof and durable over many decades. In addition, the inside offers a homely and harmonious impression, which is determined by the (comparatively) narrow profiles and the material wood. The special connection technology (protection claims 1, 4 and 5) creates an air gap between the glazing inside and the glazing of the composite wing, which can be used to hold additional elements such as privacy screens and sun protection.

Claims (6)

Composite window construction with thermally insulated profiles, including windows and balcony doors, consisting of a frame and one or more sashes, characterized in that the glazing (interior) ( 9 ) of the wing inner frame ( 1 ) with a punctiform plate-shaped connector ( 10 ) is held. Composite window construction according to claim 1, characterized characterized in that the selectively acting connector the glazing of the wing inner frame with minimal spatial Effort accomplished, at least 45 mm diameter, a maximum of 80 mm diameter, at least 2 mm thick and not more than 8 mm thick. Composite window construction according to claim 1 or 2, characterized in that an insulating material in the wing ( 2 ) directly to the insulating glass pane ( 9 ) in the area of the glass edge composite and energetically decoupled the glass edge composite (isolated). Composite window construction according to claim 1, 2 or 3, characterized in that between the inner and outer frame of the wing in addition to an insulating material additionally a subframe ( 3 ), which is 'push soft' connected to the inner frame, by means of a hexagonal wood screw ( 12 ) Can transmit lateral forces and is used to attach the wing outer frame. Composite window construction according to claim 1, 2, 3 or 4, characterized in that between the inner and outer frames of the frame in addition to an insulating material additionally an auxiliary frame ( 7 ), which is 'push soft' connected to the inner frame, by means of a hexagonal wood screw ( 12 ) Transverse forces can be transmitted and which is used to attach the frame outer frame. Window and window door consisting of a frame and one or more casements one of the claims 1 to 5 characterized in that the frame of the wing or the frame are formed by four circumferentially same profiles.