DE19903661A1 - Spacer profile for double glazing - Google Patents

Abstract

On the outer surface of the metal foil (40) is a corrosion protection coating (44). This is a colored paint and/or a layer of chrome or chrome alloy. It is thin, being 2.5, 10 or best of all 20 times thinner than the metal foil.

Description

The invention relates to a spacer profile for a spacer frame, which in Edge area of an insulating pane unit to form a space between the panes is to be attached, with a profile body made of poorly heat-conducting material and with a diffusion-proof layer of metal that is integral with the profile body connected is.

The washers of the insulating washer are normal within the scope of the invention  Glass panes made of inorganic or organic glass, without the invention however, would be limited to this. The disks can be coated or on others Way refined to the insulating disc unit special functions, such as increased Insulation or sound insulation.

The profile body of the spacer profile comprises poorly heat-conducting material by volume the main part of the spacer profile and gives it its cross sectional profile.

By "cohesively connected" is meant that the profile body and the metal layer are permanently connected to one another, for example by coextruding the Profile body with the metal layer or by a separate lamination of the Metal layer, optionally via an adhesion promoter or similar techniques.

It has been used for a long time for the production of high thermal insulation Insulating washer units in addition to metallic spacer profiles Spacer profiles made of plastic are used for the low heat conduction of these Exploit materials.

Poorly heat-conducting materials in the sense of the invention are to be understood as such become clear to metals, d. H. at least by a factor of 10, show reduced thermal conductivity. The thermal conductivity values λ for such materials are typically in the order of 5 W / (m.K) and below, they are preferred less than 1 W / (m.K) and more preferably less than 0.3 W / (m.K). Plastics will usually fall under this definition.

However, plastics generally have a low level compared to metal Diffusion tightness. With spacer profiles made of plastic must therefore be special measures to ensure that existing in the area Air humidity does not penetrate into the space between the panes to such an extent that the  Capacity of the usually accommodated in the spacer profiles Desiccant is soon exhausted and the insulating washer unit is working properly is affected. Furthermore, a spacer profile must also prevent filling gases from being released the space between the panes, such as argon, krypton, xenon, sulfur hexafluoride, escape from this. Conversely, it should be contained in the ambient air Nitrogen, oxygen, etc. do not enter the space between the panes. So far in following diffusion tightness, this means both Vapor diffusion tightness as well as gas diffusion tightness for the gases mentioned.

To improve the vapor diffusion tightness it is known from DE 33 02 659 A1 Formation of the preamble of claim 1 was used, known a spacer profile made of plastic with a vapor barrier, by clicking on the plastic profile on the surface that faces away from the space between the panes when installed, a thin metal foil or a metallized plastic foil is applied. This me tall film must span the space between the panes as completely as possible so that the ge desired vapor barrier effect occurs. As a rule, the metal foil is in the range of Surfaces of the abutments of the spacer profile are drawn over which the profile with the help an adhesive layer is connected to the pane surfaces.

From the previously unpublished DE utility model application 298 07 413 is a Spacer profile made of plastic with a metal foil made of iron sheet as Diffusion-proof layer is known, at least on that facing away from the profile body A surface made of chrome or a coating of iron sheet as corrosion protection Chromium alloy with a maximum thickness of 5 µm is applied. It has been shown that Metal foils and / or spacer profiles equipped with such thin ones Corrosion protection coatings if, for example, during storage or are exposed to extreme moisture during transport, with regard to the Corrosion resistance is still in need of improvement.  

Also, when using plastic spacer profiles with a Metal foil, which according to the above-mentioned DE utility model application 298 07 413 bis in the area of the contact bars for connecting the spacer profile with the Disc surfaces are arranged, often cannot be prevented from the metal foil can be viewed from the outside in certain areas, especially if the Metal foil on the contact bars very far towards the space between the panes is pulled. Here it has been shown that the shiny metallic and consequently high reflective surface of the vapor diffusion-tight metal foil compared to the rather "dull" appearing surface of the (black) colored plastic of the Profile body appears striking and an optimization of the spacer profile in from an aesthetic point of view.

Nowadays spacer profiles are preferably made in one piece from spacer profiles manufactured, which are bent at three corners and where the connection of the end pieces via a corner connector inserted into the end pieces or a straight connector. The aim here is to make corner bending as simple as possible in terms of production technology to be carried out, in particular without extensive prior heating.

To ensure the cold bendability of spacer profiles made from poorly heat-conducting materials spacer profiles have been developed in which the profile body is made of poorly heat-conductive, elastic-plastically deformable material with a plastically deformable reinforcing layer, preferably a metal foil, is integrally connected. This reinforcement layer can also be made diffusion-proof and the entire width of the Spanning the space between the panes, whereby the required diffusion tightness of the Spacer profile is reached. Such a spacer profile was named THERMOPLUS® TIS® for example in the brochure "Impulses for the future" of flat glass AG presented and is described in DE 298 14 768 U1.

It is the object of the invention for a spacer profile made from poorly heat-conducting Plastic material with a metal foil as a diffusion-tight layer an inexpensive  Finding an alternative to the spacer profile with a metal foil with a chrome coating, which is highly corrosion-resistant, at the same time also meets aesthetic requirements and which too is particularly useful for cold-bendable spacer profiles.

This object is achieved by a spacer profile according to claim 1. Beneficial Refinements are the subject of the dependent claims.

According to the invention it is provided that the metal foil at least on the profile body facing surface is provided with a colored lacquer coating, the thickness of the Compared to the thickness of the metal foil by at least a factor of 2.5, preferably by is at least a factor of 20.

Paint coating means in connection with the invention a thin, by spraying, Immersion or similar coating application applied coating from a liquid and / or powdery solid substance by chemical reaction and / or physical change of an adhering to the metal foil even during bending, abrasion-resistant continuous film forms and at the same time a decorative and has a corrosion-preventing function.

It has been shown that such thin lacquer coatings have good corrosion behavior can be achieved since these do not tend to crack even during cold bending.

Color means the sensory impressions usually conveyed by the human eye like red, blue, green, white, black or mixtures, also different Levels of brightness and tints, but not the colorant itself, i.e. H. the dye or the pigment.

It is advisable to also coat the paint on the side of the profile body facing the Apply metal foil. In this case, the varnish coating may also be used  Function of what is usually applied between the metal foil and the profile body Adhesion promoter take over.

The lacquer coating according to the invention is preferably applied over an adhesion promoter layer applied the surface of the metal foil. For this purpose, preferred ones Based on silane.

The profile body preferably consists of a colored plastic material.

It has proven to be particularly advantageous if the color of the lacquer coating in is adapted approximately to that of the plastic material of the profile body.

Plastic materials have proven to be special for the production of the profile body appropriately highlighted as the subject of the unpublished DE patent application 198 59 866 are. These materials contain, for example, 1% by weight based on one to the RAL color 9004 selected color batches (black pigmentation).

The coating is advantageously in a thickness of 1 to 30 microns, usually with Thicknesses of 3 to 10 µm applied.

It has been shown that applied to the metal foil in such thicknesses Such a high level of coating even under the most extreme conditions Corrosion resistance of the metal foil, as with chrome or a Chromium alloy coated metal foils according to the unpublished DE Utility model application 298 07 413 only with significantly higher layer thicknesses than there specified can be achieved, which makes such metal foils not inconsiderable make it more expensive.  

The preferred coatings for the coating of the invention have been found Surprisingly, those highlighted with a binder based on Polyurethane, epoxy or rubber have been produced. As very particularly suitable Lacquer coating materials have become those with a binder based on Rubber used to connect rubber-containing plastic material with metals are suitable. They could be very particularly preferred partially polymerized rubbers can be identified. The lacquer coatings according to the invention show a good bending behavior, so that they are particularly suitable for profiles according to DE 298 14 768 U1.

For the paint coatings to be used, it is essential that they adhere well to those in as a rule, finally for external gluing of insulating glass panes applied adhesive materials, preferably those made of polysulfide, silicone or Polyurethane. This is the case with the paints used.

Lacquers with black pigmentation based on the RAL Color 9004 used.

Usually, the proportion of binder and Pigmentation at approx. 30-50% by weight. In addition to a corresponding share from usual Solvents can also fillers and / or auxiliaries contain.

Above all, as an inexpensive and easily deformable material for the metal foil suitable iron sheet. The iron sheet can optionally also be tinned or be electrolytically galvanized. However, the use of is also within the scope of the invention other metal foils commonly used as diffusion-tight layers. For example also that from the previously unpublished DE utility model application 298 07 413 known metal foil with a chrome layer additionally with the invention Be coated with varnish.  

The metal foil should have a maximum thickness of 0.2 mm, preferably 0.08 to 0.13 mm exhibit. The minimum layer thickness must be chosen so that the necessary Diffusion tightness in combination with the desired mechanical behavior (e.g. Cold bendability) can be achieved.

The profile body is usually a hollow profile with the formation of a Desiccant chamber executed.

However, the spacer profiles according to the invention with a profile body are suitable made of plastic material and a metal foil with a lacquer coating as diffusion-proof Layer particularly good for use with such spacer profiles made of bad thermally conductive plastic material, the contact webs for contact with a Have the inside of the pane over the bridge sections with a desiccant chamber are connected, the metal foil with the contact surface of the contact webs by the Surface of the bridge sections facing away from the space between the panes and that of the External surfaces of the walls of the chamber facing away from the disc space are integrally bonded connected is. Such a spacer profile is the subject of DE 298 14 768 U1.

Adequate heat-conducting materials for the profile body have been found thermoplastics with a thermal conductivity λ <0.3 W / (m.K), e.g. B. Polypropylene, polyethylene terephthalate, polyamide or polycarbonate. The Plastic can contain common fillers, additives, dyes, UV protection agents, etc. contain.

The following plastic materials are preferably used to manufacture the profile body:

Material 1

Material 2

The plastic materials also each contain 1% by weight of one to obtain the RAL Color 9004 suitable color batches (black pigmentation) and 2% by weight of a UV Stabilizer.

The invention will be explained in more detail below with reference to the drawings. Here shows:

Figure 1 shows a first embodiment of a spacer profile in cross section.

Figure 2 shows a second embodiment of the spacer profile in cross section.

Fig. 3 is a schematic cross-sectional view of the diffusion-proof layer; and

Fig. 4 is a cross-sectional view of a spacer profile in the installed state in an insulating washer unit.

The cross-section shown in FIGS. 1 and 2 does not normally change over the entire length of a spacer profile, apart from tolerances caused by production technology.

In Fig. 1 a first embodiment of a spacer profile is shown in accordance with the present invention. The profile body, for example based on the RAL color 9004 made of black colored plastic material according to the above material 1 , consists of an inner wall 12 which , when installed, faces the space between the panes, two bearing walls 20 and 22 intended for bearing against the inside of the pane and one over beveled transition areas adjoining rear wall 18 . A desiccant chamber is defined by the walls 12 , 20 , 22 , 18 and is later filled with hygroscopic materials. In order that moisture can enter the desiccant chamber from the space between the panes, 12 perforations 50 are provided in the inner wall. The abutment walls 20 , 22 are each provided with an indentation 60 in their surfaces intended for abutment on the inside of the pane, which begins at a certain distance from the end of the abutment walls 20 , 22 facing the pane and extends over the entire remaining area thereof. In the indentations 60 , on the outer surface of the rear wall 18 and the transition areas between the contact walls 20 , 22 and the rear wall 18, there is a diffusion-proof layer 40 made of 0.12 mm thick, one-sided, namely on the outer surface with a thickness of 5 μm Lacquer coating 44 provided iron sheet arranged, which is integrally connected to the profile body. The depth of the indentation 60 corresponds exactly to the thickness of the metal layer 40 , so that the contact surface formed by the profile body and the contact surface formed by the metal layer, to which a thin sealant layer is applied during the manufacture of the insulating pane unit, lie exactly in one plane. The chemical composition of the iron sheet used is (in percent by weight):
Carbon 0.070%, manganese 0.400%, silicon 0.018%, aluminum 0.045%, phosphorus 0.020%, nitrogen 0.007%, balance iron.

The paint coat was covered with a black paint with a binder based on a partially polymerized rubber with the designation PC265 from HÜHOCO, Wuppertal used, which has roughly the same visual appearance as the black had colored plastic material of the profile body. Between lacquer coating and the Metal foil was used as an adhesion promoter, type PM02 from HÜHOCO, Wuppertal, used.

The embodiment shown in FIG. 2 is based on a profile shape, as can be seen, for example, from DE 298 14 768 U1. A desiccant chamber 10 is defined for later filling of hygroscopic materials by walls 12, 14, 16, 18, wherein the connection between this chamber 10 and the space between the panes, or the like is produced via perforations 50th In the installed state for contact with the inside of the pane, contact webs 30 and 36 are connected to the chamber 10 via bridge sections 32 and 34 , the gap between the panes being spanned and a diffusion-proof layer 40 being arranged following the outer contour of the profile body. The diffusion-tight layer 40 is provided with a lacquer coating 44 . In the area of the contact webs 30 , 36 , if present there, it additionally acts as a reinforcing layer which ensures the cold bendability of the profile.

A schematic sectional view through an embodiment variant according to the present invention is shown in FIG. 3. The diffusion-tight layer here consists of a metal foil 42 , for example an iron sheet. A lacquer coating 44 is applied to the iron sheet on both sides by painting or another suitable coating method.

Specifically, a 0.12 mm thick iron sheet with the technical designation TFS from Rasselstein, Neuwied, was used for experiments with the invention, to which a 5 µm thick coating of a varnish with a binder based on a partially polymerized rubber was applied on one side. The metal foil prepared in this way was cohesively connected in the course of an extrusion process in the course of an extrusion process via the abovementioned adhesion promoter with the plastic material identified as material 1 to form spacer profiles according to FIG. 2 such that the lacquer coating was arranged on the surface of the metal foil pointing outwards in the installed state.

A 10 cm long and 1.6 cm wide section was removed from the spacer profile for corrosion tests. Corresponding spacer profiles without lacquer coating with tinned and chromed iron sheet were also tested for comparison purposes. The profiles were subjected to the corrosion tests described below:

• 1. Salt spray test 48 h according to DIN 50018
• 2. Condensation water storage in a humid atmosphere over 168 h at 50 ° C, 100% relative humidity, steam from deionized water.
• 3. Water storage for 672 h at room temperature

After completing the tests, it was found that the surfaces of the According to the invention, metal foils made with a lacquer coating are not visible Showed corrosion. The surfaces of the tinned and chrome-plated metal foils on the other hand, especially after the tests according to 1.) and 3.) showed large areas Signs of corrosion, sometimes with considerable damage to the metal foils. The results illustrate the high corrosion resistance of the invention metal foils with a lacquer coating compared to metal foils of the State of the art. Surprisingly, this remains comparatively high Corrosion resistance even after bending the metal foils according to the invention in  In the course of the production of one-piece spacer profiles as well as later usual handling of these completely preserved.

Finally, FIG. 4 shows a spacer profile 100 in the installed state between two panes 102 , 104 of an insulating pane unit. The spacer profile 100 corresponds essentially to the embodiment according to FIG. 2. The contact webs are connected to the inside of the panes 102 , 104 by means of an adhesive 106 . The remaining space between the spacer profile and the outer edges of the disks 102 , 104 is filled with mechanically stabilizing sealant 108 . It has been shown that the lacquer coating adheres very well to this sealant 108 .

For adhesion tests, so-called web adhesion samples with a length of 20 mm were produced from the spacer profiles described above for the corrosion test according to prEN 1279, Part 6 and tested with the following insulating glass adhesives:

• 1. Polysulfide sealant Terostat 998 R from Teroson, Heidelberg
• 2. Silicone sealant Q3-3362 from Dow Corning, Unterensingen
• 3. PRC 4429 polyurethane sealant from Courtaulds Aerospace, United States, Glendale

At a required load of 0.3 N / mm ² , no adhesive failure of the sealants to the lacquer coating according to the invention was found over 10 minutes. Liability fully meets the requirements.

The in the above description, in the drawings and in the claims Disclosed features of the invention can be used individually as well as in any Combination may be essential for the implementation of the invention.

Claims (12)

1. Spacer profile for a spacer frame, which is to be attached in the edge region of an insulating pane unit to form a space between the panes, with a profile body made of poorly heat-conducting plastic material and with a diffusion-tight metal foil which is integrally connected to the profile body, characterized in that the metal foil ( 40 ) at least on the surface facing away from the profile body is provided with a colored lacquer coating ( 44 ) which, in relation to the thickness of the metal foil ( 40 ), has a thickness which is at least 2.5 times, preferably at least 20 times, smaller. 2. Spacer profile according to claim 1, characterized in that the lacquer coating ( 44 ) is applied to the metal foil ( 40 ) via an adhesion promoter layer. 3. Spacer profile according to claim 1 or 2, characterized in that the Profile body consists of a colored plastic material. 4. Spacer profile according to claim 3, characterized in that the color of the lacquer coating ( 44 ) is adapted approximately to that of the plastic material of the profile body. 5. Spacer profile according to one of the preceding claims, characterized in that the lacquer coating ( 44 ) and the plastic material of the profile body are colored black based on the RAL color 9004. 6. Spacer profile according to one of claims 1 to 5, characterized in that the lacquer coating ( 44 ) has a thickness of 1 to 30 microns, preferably from 3 to 10 microns. 7. Spacer profile according to one of claims 1 to 6, characterized in that the lacquer coating ( 44 ) is made from a lacquer with a binder based on polyurethane, epoxy or rubber. 8. Spacer profile according to claim 7, characterized in that the lacquer coating ( 44 ) is made from a lacquer with a binder based on a partially polymerized rubber. 9. Spacer profile according to one of claims 1 to 8, characterized in that the metal foil ( 40 ) consists of chromed, tinned or galvanized iron sheet. 10. Spacer profile according to claim 9, characterized in that the metal foil ( 40 ) has a maximum thickness of 0.2 mm, preferably from 0.08 to 0.13 mm. 11. Spacer profile according to one of the preceding claims, characterized in that the profile body is designed as a hollow profile with the formation of a desiccant chamber ( 10 ). 12. Spacer profile according to claim 11, characterized by abutment webs ( 30 , 36 ) for abutment on an inside of the pane, which are connected via bridge sections ( 32 , 34 ) to a desiccant chamber ( 10 ), the metal foil ( 40 ) with the abutment surface of the abutment webs ( 30 , 36 ), the surface of the bridge sections ( 32 , 34 ) facing away from the space between the panes and the outer surfaces of the walls ( 14 , 16 , 18 ) of the desiccant chamber ( 10 ) are integrally connected.