DK2270307T3 - FIXED PANEL, LIGHT OR TURNING WINDOW OF A DOOR, WINDOW OR LIKE - Google Patents

Description

Fixed panel, fanlight or swing-wing of a door, a window or similar

The invention relates to a fixed panel, fanlight or a pivoting wing of a door or window or the like according to the preamble of claim 1.

In EP 1 528213, a frame for a door or a window with all the features of the preamble of claim 1 is described, wherein two panes are arranged at a distance from one another. The frame has at least one supporting and/or edge closure profile which is arranged between the panes, which can be used for attaching fittings, seals or the like to the wing, a receiving profile device which is directed towards the interior of the panes and which can contain a desiccant interacting with the interior, wherein the aforementioned components enclose an interior of the panes in a hermetically sealed manner. The receiving profile device comprises, transversely to the plane of the panes, at least two receiving profiles, which may be connected to each other by at least one intermediate element.

From DE 30 1331 199 A 1 is known a wing of a door, window or the like which comprises at least two mutually spaced apart panes enclosing a hermetically sealed pane interior. A receiving profile device directed towards the pane interior can contain a desiccant interacting with the interior. A supporting and/or edge closure profile arranged between the panes can be used for attaching fittings, seals or the like to the wing. Both the receiving profile device and the supporting and/or edge closure profile are each bonded to the inner-facing surfaces of the two panes. In practice, only the adhesive bonding of the receiving profile device is performed by the manufacturer, wherein the supporting and/or edge closure profile is subsequently glued into the outward, y-open edge region of the pane interior of the wing. This subsequent gluing increases the production cost of the wing. The receiving device profile consists of a single peripheral profile, whose thermal insulation properties are, of course, limited.

The invention has the object of providing a fixed panel, fanlight or a pivoting wing of a door or window or the like of the aforementioned kind so that its manufacturing cost is reduced while its thermal insulation properties are improved.

The object is achieved by the features of the patent claims.

The device comprises at least two receiving profiles transverse to the panes, which are interconnected by at least one intermediate element. As a result, the thermal insulation properties are significantly improved.

The intermediate element is inventively designed as a chamber of the supporting and/or edge closure profile which is engaged between two receiving profiles.

The intermediate element may be made of a material with low thermal conductivity, for example, made of fibreglass reinforced plastic. As a result, a simply constructed and effectively acting thermal separation of the two glass panes is achieved. A particularly advantageous structural embodiment is achieved by the intermediate element being designed as a web of the supporting and/or edge closure profile, again engaged between two receiving profiles.

In another alternative embodiment, the intermediate element may be formed as a separate profile which is placed between two receiving profiles and connected to the supporting and/or edge closure profile.

Alternatively, the intermediate element may be formed as a separate pane which is arranged between two receiving profiles and extends between the outer panes.

In all the above-mentioned embodiments, the supporting and/or edge closure profile may consist of a material with a low thermal conductivity, for example, fibreglass reinforced plastic.

The surface of the supporting and/or edge closure profile in direct contact with the space between the panes may be gas-tight in order to hermetically seal the space between the panes against the environment. The supporting and/or edge closure profile may, for example, have a gas-tight coating or be integrally formed from a gas-tight material.

The connection between the intermediate element and the receiving profiles may be formed as a primary seal and thus effect an optimum sealing. A visually particularly advantageous embodiment results when the primary seal has the same colour as the bonding arranged between the outer panes and the supporting and/or edge closure profile, wherein this measure enables the covering of a region, for example, with a glass decoration, to be dispensed with.

The fixed panel, fanlight or swivel wing of a door or window or the like may advantageously be produced through the following process steps: depositing a primary seal on the outer surfaces of at least two receiving profiles, applying the receiving profile bearing the primary seal against the corresponding mating surfaces, e.g. against a profile web of the supporting and/or edge closure profile, applying the panes against the outer faces of the receiving profiles, likewise provided with the primary seal, compression of the panes with the intervening receiving profiles and the supporting and/or edge closure profile, introduction of an adhesive serving for the final bonding between the outer surfaces of the profile legs of the supporting and/or edge closure profile and the inner surfaces of the space between the panes.

Embodiments will be explained with reference to the following figures:

Fig. 1 shows a front view of a door system with a plurality of wings;

Fig. 2 shows a sectional view of the edge region of a wing;

Fig. 3 shows a first assembly step of a wing according to Fig. 1;

Fig. 4 shows a further assembly step of a wing according to Fig. 1;

Fig. 5 shows a further assembly step of a wing according to Fig. 1;

Fig. 6 shows a further assembly step of a wing according to Fig, 1.

Fig. 7 shows an embodiment of a wing according to the invention modified in comparison with Fig. 1;

Fig. 8 shows an embodiment of a wing modified in comparison with Fig. 1 and 6;

Fig. 9 shows an embodiment of a wing modified in comparison with Fig. 1,6 and 7.

Fig. 1 shows a front view of a door system with multiple wings 1. The central wing 1 in the drawing is configured in this embodiment as a hinged door which is pivotally mounted between two further wings 1 formed as a fixed panels. Another wing 1 in the form of a fanlight is arranged above the pivot door and fixed panels. The wings 1 are each designed as so-called integrated all-glass wings with two outer panes 2, 3 in the form of glass panes, for example, between which a receiving profile device 5 is arranged in the edge region. The receiving profile device 5 includes a profile cooperating with the interior dessicant, for which purpose the receiving profile device 5 comprises openings directed towards the pane interior. The receiving profile device 5 is recessed in sections at least on the outer edge the wing, so that a receiving space for a supporting and/or edge closure profile is formed at the edge side between the panes 2, 3 and the outer edge of the receiving profile device 5. The supporting and/or edge closure profile 8, which can be arranged in this receiving space in sections or all the way round, is used to fasten fittings, seals or the like on the wing. 1

Fig. 2 shows a sectional view of the lower edge region of a wing 1, in this case with a section along the line A-A in Fig. 1. The lower end of the wing 1 is formed by a supporting and/or edge closure profile 8 which is connected with the insides of the windows 2, 3 by the bonding 10. The supporting and/or edge closure profile 8 is substantially U-shaped in this embodiment, wherein the lateral profile legs 8a,8b which are connected integrally with each other by the profile base 8c, face downwards. Thus, the two profile legs 8a, 8b together with the profile base 8c form a receiving groove directed towards the outer edge of the wing 1 for fastening the above-mentioned fittings, seals, or the like. Of course, the profile legs 8a, 8b and/or the profile base 8c - not shown here - comprise measures such as grooves, undercuts or the like, which enable the fastening of components. A profile web 8d is arranged on the profile base 8c of the supporting and/or edge closure profile 8 and is directed at the pane interior 4. A receiving profile 6, 7 of the receiving profile device 5 is attached via a primary seal 9 on each side surface of the profile webs 8d. The outer side surfaces of the two receiving profiles 6, 7 are connected to the inner surfaces of the panes 2,3 via additional primary seals 9. The surfaces of the receiving profiles 6, 7 facing the pane interior 4 together with the intermediate end face of the profile web 8d of the supporting and/or edge closure profile 8 thus form a hermetic seal of the pane interior 4.

The supporting and/or edge closure profile 8 may consist of a material with low thermal conductivity, for example, fibreglass reinforced plastic. Since the supporting and/or edge closure section 8 forms the only direct thermal bridge between the two panes 2, 3, an effective thermal insulation is thus achieved between the two panes 2, 3. Attention does not have to be paid to the lowest possible thermal conductivity in the choice of materials for the receiving profiles 6, 7, as the profile web 8d of the supporting and/or edge closure profile 8 forming an intermediate element, represents a heat insulator between the receiving profiles 6, 7.

The manufacture of the wing 1 shown in Fig, 2 is explained step by step with reference to Fig. 3 to 6:

In a first assembly step, designated by A and shown in Fig. 3, a material, e.g. Butyl, provided for the primary seal 9, is applied to the outer surfaces of the receiving profiles 6, 7.

In another assembly step, designated by B, and shown in Fig. 4, the receiving profiles 6, 7 provided with the primary seal 9 is applied to the corresponding mating surfaces of the profile web 8d of the supporting and/or edge closure profile 8.

In a further assembly step designated by C and shown in Fig. 5, the panes 2, 3 are applied to and pressed against the outer surfaces of the receiving profiles 6, 7 provided with the primary seal 9, wherein the material of the primary seal 9 is compressed. There is thus produced an airtight connection of the receiving profiles 6, 7 both with the panes 2, 3 and with the profile web 8d of the supporting and/or edge closure profile 8.

This compressed bonding is sufficiently strong for the manipulation of the wing 1 until the production of the final bonding 10 which is performed in a further assembly step designated by D and shown in Fig. 6, wherein the adhesive intended for the final bonding 10 is introduced into the gaps 11 existing between the outer surfaces of the profile legs 8a, 8b of the supporting and/or edge closure profile 8 and the inner surfaces of the panes 2, 3. Various adhesives are conceivable as a function of the required strength, elasticity, colour, curing speed, materials used etc.. The geometry of the gaps 11 must be matched with the expected loads and the adhesive used.

The regions of the panes 2, 3, which overlap the receiving profile device 5 and the supporting and/or edge closure profile 8 may be provided with a privacy protection, for example through printing, a coating or the like, in order to make this region optically advantageous. Optionally, one may dispense with the privacy protection when the primary seal 9 and the bonding 10 are colour-coordinated and the gap 11 forming the glue line is filled to its total depth with the adhesive.

Fig. 7 shows a different embodiment of the wing 1. Instead of the profile web 8d, the supporting and/or edge closure profiles 8 each have angled profile sections 8e, 8f, 8g, 8h in the middle of a chamber-like region, at whose side faces, which are formed by the profile sections 8g, 8h adjacent to the base profile 8c, are fixed the receiving profiles 6, 7 by means of primary seal 9. By means of this arrangement, wherein the entire profile base 8e forms the intermediate element, the receiving profiles 6, 7 are spaced further apart than in the first embodiment shown in Fig. 1 to 6, so that a further improved thermal insulation of the wing 1 is achieved. A further variant of the wing 1 is shown in Fig. 8. The supporting and/or edge closure profile 8 has a profile base 8c which extends over only about half the width of the supporting and/or edge closure profile 8. Two subsequent, respectively angled profile sections 8i, 8j together with the end region of the profile base 8c form a laterally open profile groove 8k. A separate profile insert 12 is inserted and fixed In the profile groove 8k.

The profile insert 12, which forms the intermediate element in this embodiment, is connected to the receiving profiles 6, 7 via primary seals 9. The supporting and/or the edge closure section 8 of this embodiment forms more variants, one of which is shown in Fig. 9. Instead of the profile insert 12, a third pane 13, arranged between the two outer panes 2, 3, is fastened in the profile groove 8k of the supporting and/or edge closure profile 8 by means of a retaining element 14. This central pane 13 divides the one-part pane gap 4 of the above embodiments into two separate pane interiors 4a, 4b, so that a further improved heat insulation of the wing 1 is achieved.

In all embodiments, the components, which are connected with the pane interiors 4, 4a, 4b, must be gas-tight in order to ensure the hermetic sealing of the pane interiors 4, 4a, 4b. This can be achieved by the use of gas-tight material and/or gas-tight surface configurations, e.g. coatings of these components.

List of reference numerals 1 Wing 2 Pane 3 Pane 4 Pane interior 4a Pane interior 4b Pane interior 5 Receiving profile device 6 Receiving profile 7 Receiving profile 8 Supporting and/or edge closure profile 8a Profile leg 8b Profile leg 8c Profile base 8d Profile web 8e Profile section 8f Profile section 8g Profile section 8h Profile section 8i Profile section 8j Profile section 8k Profile groove 9 Primary seal 10 Bond 11 Gap 12 Profile insert 13 Pane 14 Retaining element A Assembly step B Assembly step C Assembly step D Assembly step

Claims (1)

FIXED PANEL, TOP LIGHT OR TURNING WINDOW OF A DOOR, WINDOW OR SIMILAR Solid panel, skylight or turntable (1) of a door, window or the like with at least two windows (2, 3) spaced apart, with a receiving profile device (5) which faces the interior space (4) of the panes and which may contain an air-drying agent interacting with the interior space (4) of the panes, and having at least one carrier and / or edge closing profile (8), which is arranged in at least certain positions between the panes (2, 3) and can be used to attach fittings, seals or the like to the wing (1), the aforementioned components enclosing an inner pan compartment (4) in a hermetically sealed manner and the receiving one profile device (5), transverse to the plane of the panes (2, 3), consists of at least two receiving profiles (6, 7) which are connected to each other by at least one intermediate element, characterized in that the intermediate element is formed as a chamber in the carrier and / or edge closure profile (8 ), which chamber intervenes between two receiving profiles (6, 7).