EP1589179B1 - Frame section member to be fixed on a support and corresponding door or window - Google Patents

Abstract

A frame profile trim strip for weatherproof fitting to a door or window has a shaped core (101) with bonded fastening to a mounting strip (103) which has a clip fitting to the main frame, or to the sealing strip onto the glass pane. The outer surface of the core is shaped and covered by a similarly shaped glass profile (102) to provide a weatherproof trim and support strip. The glass layer is secured to the core by bonding materials. The core material is selected to match the thermal expansion of the glass.

Description

The invention relates to a frame profile according to the preamble of claim 1.

Frame profiles can be used in many ways in practice. For example, they can be further processed by skirting boards to produce picture frames. The use of frame profiles is also realized in the construction of windows or doors in order to be able to design the look of the windows or doors in a variety of ways, to combine different materials together or even in terms of care and durability optimized materials exposed to the weather Side of the window or door.

In particular, in the case of windows and doors, it turns out that the weather resistance of the frame profiles used in windows is limited, so that they weather after a certain period of time as a result of weather attack. Also, the cleaning and cleaning of conventional window frames, especially if they are already used for a long time, reveals itself to be no longer always satisfactory feasible, so that it can lead to unwanted changes in the optical color impression and function, which is no longer even by brushing can be corrected.

In the DE 198 16 913 C2 Therefore, in order to avoid the above-mentioned problems, it is proposed to provide the window in which the glare and casement frames each have a frame body on its outside with a profiled molded glass layer as the glass overlay. This will be an exquisite and permanent weather protection achieved by glass. On the other hand results from the proposed profiled shaping the possibility of versatile ausgestaltbaren overall visual impressions. As a frame body, ie as a carrier body, for the profiled molded glass layer plastic or aluminum extruded profiles or wood moldings are proposed. The attachment of the profiled molded glass layer on the carrier body should be done by softening the plastic according to this document either by gluing, a positive connection or in the case that the frame body made of plastic.

Although the variants mentioned are advantageous in the context of the production process, they are also associated with disadvantages.

The thermal softening method of the frame body could in practice lead to reliability problems if the window or door is exposed to strong solar radiation after installation. Since the molded glass layer allows the sun's rays to pass through the frame body almost unhindered, it heats up, which in turn can lead to a softening of the material, so that, if necessary, a detachment of the molded glass layer is to be feared.

The attachment by means of a positive connection leads to a complicated production of profiled molded glass supports, so that this variant is unfavorable for cost reasons.

From the DE 203 14 999 U1 is a generic frame profile for mounting on a support body, in particular a glare or sash of a window or door known. The frame profile has a profiled molded glass layer as a glass overlay. Between the carrier body and the molded glass layer, an insulating material is introduced. The Introducing the insulating material aims at improved insulation and stability of the frame profile.

The object of the present invention is therefore to provide an arrangement in which a frame profile can be inexpensively connected to a carrier body in a simple manner. Furthermore, a window or a door should be specified, which have for durability reasons a profiled molded glass layer as a glass support, wherein the from the Prior art known disadvantages should be avoided.

These objects are achieved by a frame profile with the features of claim 1 and by a window or a door with the features of claim 10. Advantageous te embodiments will be apparent from the dependent claims.

The desired effects are achieved by a frame profile with a molded part, on which the profiled molded glass layer is applied as a glass overlay, wherein the molded part comprises a material which is adapted in terms of its thermal properties of the material of the mold glass layer and has a silicate as an essential component.

In contrast to the arrangements known from the prior art, the profiled shaped glass layer is not applied directly to the carrier body, but with the interposition of a molded part, which preferably has a correspondingly complementary shape to the molded glass layer. For clarification, it should be noted that the profiled shaped glass layer is not a flat glass but a glass layer with a deformed surface that has curves and bends.

The interposition of a molded part between the frame profile and the profiled molded glass layer has a number of advantages. Regardless of the shape of the profiled molded glass layer, the carrier body can be manufactured in a standardized manufacturing process. This means in other words, a single carrier body profile can be combined with a variety of different profiled shaped glass layers, since the spatial adaptation and support of the profiled molded glass layer is taken over by the molding. Furthermore, one is subject to no restrictions in the choice of the material of the carrier body. This means that it can be used in terms of their processability or their cost optimal materials for the carrier body, regardless of the respective material properties. Thus, as materials for the support body and those can be selected which have a very different thermal expansion coefficient than glass. By the molding, which is adapted in terms of its thermal properties of the material of the mold glass layer, it is then ensured that stress on the profiled molded glass layer can be avoided. This is particularly important when the frame profile is used in window or door construction.

Adjusting the thermal properties of two interconnected materials is not a peculiarity in itself. However, in the present case, it becomes very important, since the energy converted in the molded part viewed over the cross section of the profiled molded glass layer is largely different. It is, as already mentioned, assumed that the profiled glass layer form radiant sunlight can pass through almost unhindered. The different energy conversion in the molded part results from the fact that the electromagnetic radiation due to the deformed surface of the profiled molded glass layer meets at different angles to this. Thus, there are areas in which the radiation impinges on the molded glass layer in a nearly perpendicular angle and can pass through it almost unhindered. On the other hand, there are regions in which the radiation impinges on the molded glass layer at a more or less acute angle, whereby a significant portion of the radiation reflects and a smaller amount passes through the molded glass layer. This has the consequence that areas of the molded part are subjected to a greater extent, while other areas of the molded part have only a small extent. If the material of the molded part were not adapted to the thermal properties of the material of the molded glass layer, then reliability problems, in particular cracking in the profiled molded glass layer, almost inevitable.

It is further preferred if the molded part is formed from a glass foam. In this case silicate is in a binder, e.g. Epoxy, incorporated. This material has the advantage that it can be processed in a particularly simple manner. In another preferred embodiment, the molded part can also be made of rigid foam, e.g. a PU foam or PVC foam, or be formed from cork. Generally suitable are those materials which are lightweight and have insulating properties. The desired complementary shape of the molded part to the profiled molded glass layer can be done for example by grinding, cutting or milling.

Conveniently, a fastening means is provided for fastening the frame profile on the carrier body, which is in frictional connection with the molded part. The attachment means may be an adapter profile, e.g. is made of a plastic or a metal, act, which extends either over the entire length of the frame profile or spaced from each other along the frame profile is arranged. The solubility of the fastening means and the molded part can be accomplished, for example, by introducing grooves into the molded part into which correspondingly shaped projections of the fastening means can be inserted. Optionally, such a connection can be made by a screw connection from the rear, i. be supported on the invisible side of the frame profile, after the attachment of the molding to the support body.

It is particularly advantageous if the fastening means and the molded part are releasably connected to each other. This facilitates the replacement of a frame profile, if, for example, other optical effects are to be achieved. A particularly universal use and handling results when the frame profile according to a further preferred embodiment via a connecting means with the carrier body is connectable. The connecting means may be configured such that the frame profile is releasably or non-detachably connected to the carrier body. A preferred connection method is the use of bayonet locks that allow an invisible but detachable connection to the carrier body.

In order to further reduce the different expansions of the molded part and the profiled molded glass layer, it is advantageous if the connection of the molded part to the profiled shaped glass layer takes place via an elastic adhesive.

It is further preferred if a transparent adhesive is used. As a result, the view of the material of the molded part is made possible by the profiled molded glass layer. The molded part itself then contributes a part to the appearance of the frame profile and can be modified in the desired manner. Thus, for example, it could be thought to interfere with the raw material of the molded part color particles to achieve different color accents. Optionally, the molding could be provided with ornaments and ornaments prior to applying the profiled molded glass layer to effect various visual accents.

The adhesive used is preferably a liquid adhesive, since this can be processed particularly easily. The term "elastic adhesive" is to be understood to mean that the adhesive has a residual elasticity after curing, such as the adhesive "Collano A8 6400" manufactured by Collano. Particularly preferred is the use of two-component adhesives.

In a particularly advantageous embodiment, it is provided that at least one controllable light source, optionally together with corresponding line feeds, is embedded in the molded part, which adjoins the inner side of the molded glass layer facing the molded part. Primarily, but not exclusively, is to think of the light source of LEDs (LED), as they have a particularly low energy consumption and a particularly long life. The introduction can take place during the production of the molded part. This variant is advantageous if the frame profile is used as a skirting board. For example, in public venues, e.g. Concert halls, cinemas and the like, paths to the emergency exits are marked.

The optical effect can be further enhanced by the fact that the profiled molded glass layer, preferably on the inside, is provided with a colored coating. Instead, of course, the profiled molded glass layer itself already be colored. A coating allows the application of motifs in which the coating is at least partially removed again in a later processing step by means of stencils.

The invention further comprises a window or a door with a frame and a relative to this movable sash, which holds and holds a glass pane, wherein Blend- and sash have each a frame body which is provided on its outside with a frame profile of the type described above , The window or door according to the invention has the same advantages as described above in connection with the frame profile.

Figur 1

einen Querschnitt durch ein erfindungsgemäßes Rahmenprofil in einer ersten Variante,

Figur 2

einen Querschnitt durch ein erfindungsgemäßes Rahmenprofil in einer zweiten Variante, das an einem Trägerkörper befestigt ist, und

Figur 3

in einer Perspektivdarstellung einen Ausschnitt eines erfindungsgemäßen Fensters oder Tür.

Further advantages and embodiments of the invention will be described below with reference to the figures. Show it:

FIG. 1

a cross section through an inventive frame profile in a first variant,

FIG. 2

a cross section through an inventive frame profile in a second variant, which is fixed to a support body, and

FIG. 3

in a perspective view a section of a window or door according to the invention.

In the following embodiments, respective elements are not shown in their actual size. The chosen dimensions and dimensions are rather chosen for the purpose of a clear presentation and should not be considered as limiting.

In FIG. 1 is a sectional view through an inventive frame profile 100 shown. The frame profile 100 has a, for example made of metal or plastic existing, fastener 103 which is non-positively connected to a molding 101. The frictional connection can be effected by the provision of grooves 105 in the molded part 101, in which correspondingly shaped projections 108 of the fastening means 103 engage. The fastening means 103 and the molding 101 are mutually displaceable perpendicular to the drawing direction, so that fastening means and molding can be assembled in a simple manner. A fixation can take place, for example, by a screw (not shown) which projects through the fastening means 103 into the molded part 101.

On the molding 101, a profiled molded glass layer 102 is applied. Molding 101 and molded glass layer 102 have a complementary shape to each other. In the embodiment of FIG. 1 A portion of the mold glass layer 102 also overlaps a portion of the fastener 103. This is merely exemplary and may be accomplished by appropriate Variation of the design of the fastener 103 and the molded part can be changed arbitrarily. The attachment of the profiled molded glass layer 102 on the molded part 101 by means of an elastic adhesive 104, which is preferably processable in liquid form and achieves its adhesion by curing. Adhesives used are preferably those adhesives which have a certain residual elasticity after curing, so that any mechanical stresses occurring between the molded part 101 and the molded glass layer 102 can be at least partly absorbed or compensated.

An inner side 106 of the molded glass layer 102 can be provided with a colored coating, for example, in order to be able to advantageously change the overall visual impression.

The frame profile 100 can be connected via projections 107 provided on the fastening means 103 to a carrier body made of any desired material.

This is better from the FIG. 2 showing a frame profile 200 which is connected to a carrier body 210 via connecting means 208, which are in the form of rotatable bayonet locks. The intermediate space 211 formed between the profiled shaped glass layer 202 and the carrier body 210 can either remain open, be sealed by a sealant or be bridged by lengthening the profiled shaped glass layer 202 until it directly adjoins the wall of the carrier body 210. In the latter case, it may be advantageous to widen the fastening means 203 in order to give the molded glass layer a stable support.

The connection between the mold glass layer 202 and the molded part 201 takes place according to the exemplary embodiment FIG. 2 in turn, with a residual elasticity in the cured state having adhesive, but also is transparent.

The transparency is necessary because in the molding 201 bulbs 209, e.g. in the form of LEDs are incorporated. The introduction of the bulbs 209 has to be done before the profiled molded glass layer 202 on the molding 201.

The material of the moldings 101, 201 is preferably made of a glass foam. This consists of about 96% of a mineral (recycled) granules of silicate hollow microspheres, which are embedded in an epoxy resin, which serves as a binder. Glass foams make it possible to easily produce the desired cross-sectional profile of the molded part using simple mechanical processing steps.

FIG. 3 shows in a perspective view a section through the lower portion of an assembly of a frame 310 and a sash 320 which holds a glass sheet 330, wherein the window or the door is in the position shown in the closed state. The sash 320 (not shown in the figure) laterally hinged to the frame 310 so that it can be removed from the closed position shown by the frame 310 by pivoting.

If a window is mentioned below, a door should also be included.

Both the frame 310 and the sash 320 consist in the embodiment shown in the figure in each case of a support body (frame body) 311 and 321, which preferably consists of a plastic, such as a hollow chamber extruded profile. Alternative materials for the carrier body 311 or 321 may also be wood or metals. On the "outside" of the frame 310 and the sash 320, ie on the side which lies on the outside of the space to be closed with such a window, the support bodies 311 and 321 are each covered with a frame profile 301 or 302, wherein the surfaces of the profiled molded glass layer 315 and 325, respectively, form the surface of the window frame 310 and the wing frame 320 which terminates on this "outside" of the window.

The configuration of respective frame profiles 301 and 302 can according to the in connection with the Figures 1 and 2 described embodiments take place. Accordingly, the frame profiles each have a fastening means 314 or 324 and a molded part 313 or 323 made of a thermally adapted to the profiled glass overlay 315 and 325, respectively.

From the representation of FIG. 3 It is clear that the profiled glass supports have different cross-sectional views. The cross-section of a profiled glass overlay in the present window is determined primarily by functional aspects (namely the size), but may otherwise also follow purely optical requirements.

The attachment or mounting of the frame profiles 301 and 302 via fasteners 314 and 324, which are formed in the form of the aforementioned bayonet locks.

In addition, it can also be seen from the exemplary embodiment that intermediate spaces between the profiled glass support and the glass pane 330 or between the glass support 315 and the glass support 325 can be closed by sealing means 332 or 331. Further existing sealing means 333, 334 correspond to the usual seals used in window or door construction and require no further explanation, since this is known to the person skilled in the art.

The advantages of the invention are particularly well in the embodiment according to FIG. 3 For use, since the frame profiles used there are exposed to rapidly changing temperatures. To avoid damage due to mechanical stresses are profiled molded glass layers are not applied directly to Blend- or casement, but on a complementary trained molding, which is adapted in terms of its material properties of the profiled molded glass layer. To accommodate a portion of mechanical stresses and an adhesive for securing the profiled molded glass layer is provided on the molded part, which has a residual elasticity in the cured state.

Claims (10)

1. Frame section (100; 200; 301, 302) for fixing on a support (210; 311, 321), in particular a frame or sash of a window or of a door, the frame section (100; 200; 301,302) having a profiled shaped glass layer as a glass layer(102; 202; 315,325), characterized in that the frame section has a shaped part (101; 201; 313, 323) on which the shaped glass layer (102; 202; 315, 325) is mounted, the shaped part (101; 201; 313, 323) comprising a material which, with respect to its thermal properties, is adapted to the material of the shaped glass layer (102; 202; 315, 325) and has a silicate as a substantial constituent.
2. Frame section according to Claim 1, characterized in that the shaped part (101; 201; 313, 323) is formed from a glass foam, a rigid foam or cork.
3. Frame section according to either of the preceding claims, characterized in that a fixing means (103; 203; 314,324) which has a frictional connection to the shaped part is provided for fixing the frame section (100; 200; 301, 302) on the support (210; 311, 321).
4. Frame section according to Claim 3, characterized in that the fixing means (103; 203; 314, 324) and the shaped part (101; 201; 313, 323) are detachably connected to one another.
5. Frame section according to Claim 3 or 4, characterized in that it can be connected to the support (210; 311, 321) via a connecting means (208; 316,326).
6. Frame section according to any of the preceding claims, characterized in that the connection of the shaped part (101; 201; 313, 323) to the profiled shaped glass layer (102; 202; 315, 325) is effected via a resilient bonding agent (104; 204).
7. Frame section according to any of the preceding claims, characterized in that the connection of the shaped part (101; 201; 313,323) to the profiled shaped glass layer (102; 202; 315, 325) is effected via a transparent bonding agent (104; 204).
8. Frame section according to any of the preceding claims, characterized in that at least one actuatable illumination means (209) is embedded in the shaped part (101; 201; 313, 323), which illumination means (209) is adjacent to that inner surface (206) of the shaped glass layer (102; 202; 315, 325) which faces the shaped part (101; 201; 313, 323).
9. Use of a frame section (100;200; 301,302) according to any of the preceding claims as a floor strip or strip for a picture frame or as a section for windows and doors.
10. Window or door having a frame (310) and a movable sash (320) which is movable relative to said frame and grips and holds a glass pane (300), the frame (310) and sash (320) each having a frame body (311, 321) which is provided on its outside with a frame section (301, 302) according to any of Claims 1 to 9.

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