SK278638B6 - The root-resistant resin isolation band - Google Patents

Abstract

The resin isolation band root resistant and having an improved flexibility is created based on the planar fibrous formation, equipped with a resin material coating on one side or on both sides, while the fibrous formation is equipped on one surface at least with an evenly steamed copper layer. Instead of the copper band, the thickness of which is 0,1 up to 0,2 mm, there is a planar fibrous formation, the planar weight of which is 50 up to 300 g/m2, equipped with the steamed copper layer in a quantity of 0,1 up to 100 g/m2. The surface of the fibrous formation is equipped with the steamed copper layer is located at the bands with the both side coating based on the resins, and it is placed on the sides turned off the building site. When talking about the bands with resin material coating on one side, the surface closed to the fibrous formation equipped with steamed copper layer is located on the side of the fibrous formation turned off this material.

Description

Technical field

The invention relates to a bituminous insulating strip which is also resistant to aggressive roots, for example alder, poplar and thistle, and can be used as a protective layer of resin building insulation against roots, for example in roof gardens or other roof vegetation treatments.

BACKGROUND OF THE INVENTION

It is known that building resin insulation from resin insulating strips with a woven or nonwoven fiber insert is not root resistant. For this reason, resin sealing strips with an insert of 0.1 to 0.2 mm thick copper strips are used as a protective layer against the roots. To improve the coherence between the metal and the resin and to improve the ductility, the copper strips are grooved or topped.

The insulating strip is usually supplied as a welding strip. Although copper belts are used in soft quality, the welding belt is rigid and barely flexible. It is difficult to place without bubbles of enclosed air.

There is therefore a need to develop a root-resistant resin insulation strip with improved compliance.

SUMMARY OF THE INVENTION

According to the invention, this object is achieved by an insulating strip which is formed of a sheet-like fibrous formation provided with a resinous material coating on one or both sides, wherein the fibrous formation is provided with a uniformly vapor-deposited copper layer on at least one surface.

Since the vapor-deposited copper layer does not reduce the ductility and extensibility of the fibrous formation, the strip according to the invention corresponds, in terms of its mechanical properties, to conventional insulating strips.

In the insulating strip according to the invention, the fiber structure preferably has a basis weight of from 50 to 300 g / m ² and the amount of steam vapor may be 0.1 to 100 g / m ² , preferably 0.1 to 5 g / m ² .

The surface of the fibrous formation provided with a vapor-deposited copper layer is on the side of the fibrous formation facing the mass in the case of bands coated with a resinous material.

DETAILED DESCRIPTION OF THE INVENTION

All conventional inserts for resin strips, such as, for example, plastic or glass fiber webs, may be used as the fiber structure. It also includes multilayer fibrous formulations. Fiber formations having a basis weight of from 50 to 300 g / m ² are preferably used.

The strip according to the invention can be manufactured in the usual way as a roof strip, whereby the fibrous formation is first applied and then provided with a layer of coating material, the surfaces of which are sprinkled with talc, sand or granulate. The surface can also be covered with foil or wool. The strip is laid using hot tack adhesives

However, the strip can also be made as a welding strip or a self-adhesive strip for cold gluing. Known antifouling agents can additionally be added to the coating composition based on the oxidation resin or polymer resin.

Instead of sprinkling, the surface of the strip can also be laminated with foil. In the case of cold-adhesive materials, this separating film, e.g. silicone paper. Coatings with a high polymer fraction need neither be sprinkled nor sanded. All these special modifications of the strip according to the invention are known to the person skilled in the art and can be produced on conventional devices for the production of roof insulation strips.

When the liner is coated on both sides, protection of the vaporized copper layer is achieved. It is preferably located on the side of the insert facing away from the component. In a one-sided coating, this layer is on the same side as the kiycia mass.

In roof gardens, it is customary to provide a protective or sliding layer between the resin insulation and the vegetation or drainage layer, which may be formed, for example, of a geotextile and may protect the resin insulation. Here, it is possible to use the strip according to the invention with a one-sided resin coating of the sheet fiber structure. In this case, the root protection layer can be made very thin so that only a thin adhesive layer is present in the joints with overlap between copper-coated fibrous structures. Even under unfavorable conditions, it is not possible for such joints to overgrow the roots.

In the manufacture of such a self-adhesive strip adapted for cold bonding, the cold tacky resinous mass is poured in a foil casting machine onto a cooling strip having a film thickness of approximately 1 mm and laminated with a nonwoven or copper-coated cloth, possibly dipped resin, the side provided with the vapor-deposited copper layer lies on the resin mass, and eventually the belt is sprinkled with sand or talc. When laying, the separating foil contracts and the strip is glued to the resin roof insulation, gluing the joints with an overlap of approximately 10 cm

Claims (6)

Root-resistant resin insulating strip, characterized in that it is formed from a flat fibrous formation coated on one or both sides with a resinous material, the fibrous formation having at least on one surface a uniform vaporized copper layer. Insulating strip according to claim 1, characterized in that the fiber structure has a basis weight of from 50 to 300 g / m ² . Insulating strip according to claim 1 or 2, characterized in that the amount of vaporized copper is 0.1 to 100 g / m ² . Insulating strip according to claim 1 or 2, characterized in that the amount of steam vapor is 0.1 to 5 g / m ² . Insulating strip according to any one of claims 1 to 4, characterized in that the surface of the fibrous formation provided with a vapor-deposited copper layer is located on the sides facing away from the building in the case of strips having a double-sided resin coating. Insulating strip according to any one of claims 1 to 4, characterized in that the surface of the fibrous formation provided with a vapor-deposited copper layer is located on the side of the fibrous formation facing the mass of the strips with a one-sided coating of resinous material.