CZ4997U1 - Insulating felt - Google Patents

Abstract

An insulating batt of mineral fibres which are bonded together by means of a binder to form a coherent porous sheet (1) and wherein the porous sheet (1) comprises at least one continuous zone (3) and preferably an edge zone which is more easily compressible than the remaining portion of the sheet and is encased in an air-permeable casing (2).

Description

Technical field

The invention relates to an insulating felt comprising mineral fibers which are bonded together by means of a binder and form a coherent porous layer wholly or partially enclosed in a breathable package.

BACKGROUND OF THE INVENTION

These insulating felts, as described, for example, in Danish application No. 0267/92 and in international application No. PCT / DK92 / 00223, are used, for example, for insulating ceilings and roofs.

Insulating felts are usually supplied in certain given widths, graduated, for example, by 10 cm starting from 50 cm to 120 cm. While these widths are suitable for normal spacings between joists and rafters, it has been shown in practice that they are not readily applicable for the production of insulating layers without gaps or joints.

In practice, therefore, cutting the felt to a width such that the felt fits exactly into the insulated gaps is required.

Cutting the package opens and there is a risk that individual fibers will be released from the insulating felt during handling. Since the cutting is mostly carried out in relatively small and confined spaces, the concentration of fibers in the air may increase to too high a value, and these fibers are then inhaled by the insulation workers.

The essence of the technical solution

This disadvantage can be overcome by the use of an insulating felt according to the present invention comprising mineral fibers interconnected by means of a binder to form a coherent porous layer fully or partially enclosed in a breathable package, the essence of the insulating felt being that the porous layer comprises at least one continuous zone which is easier to compress than the rest of the layer.

The porous layer preferably comprises at least one compressible edge zone.

When making the insulating felt in a rectangular shape, it is advantageous if the porous layer has a compressible edge zone at its two opposite edges.

The porous layer may be made of mineral wool fibers, preferably having a density in the range of 20 kg / m ³ to 60 kg / m ³ .

The wrapper may be comprised, for example, of a non-woven organic or inorganic material, a web of plastic fibers, a non-woven web of glass fibers. It may also consist of a perforated film which is preferably of plastic.

-1EN 4997 Ul

By means of said continuous zone, the insulator can adapt the insulating felt to the insulated space without having to open the package and thereby free loose fibers into the surrounding atmosphere.

The continuous zone may be located anywhere in the porous layer, but it is preferred to form an edge zone, thereby facilitating the adaptation of the insulating felt to the insulated space.

The porous mineral fiber layer with an easily compressible edge zone can be produced in various ways, eg by rolling the edge zone, see DE-3203622 and WO 91/02128. As a result of the rolling, the interconnection between the fibers of the otherwise rigid layer is partially broken without destroying the layer structure. Therefore, after this treatment, the relative position of the fibers in the machined edge zone can easily be changed.

The width of the edge zone (or edge zones) is preferably about 7.5 cm for insulating felts whose widths are graduated by 10 cm.

By virtue of the easily compressible edge zones on opposite edges of the felt, it is possible in practice to adapt the insulating felt to gaps of any width.

The term mineral fibers as used herein includes mineral wool fibers, glass fibers, slag fibers, and corresponding synthetic fibers prepared from mineral starting materials.

For glass fibers, the density of the porous layer ranges from 10 kg / m ³ to 60 kg / m ³ .

The binder used can be any binder commonly used in the manufacture of mineral fiber materials. However, phenolic resins are preferred.

The breathable cover is preferably a nonwoven organic or inorganic fabric. Examples of suitable sheaths are sheaths of organic synthetic fibers, such as polyethylene, polypropylene, nylon or polyester fibers. The packages may consist of a fabric or fabric of these fibers, e.g. having a basis weight of from 5 to 100 g / m ² .

The breathable wrapper can also be made directly on the felt, i.e. by spraying or other method in which the fibers are directly applied to the porous layer.

Nonwoven wrappers prepared from natural fibers such as cellulosic, flax, coconut, hemp and other similar fibers are suitable.

This also applies to packages prepared from modified cellulose, eg prepared from viscose fibers or rayon fibers.

Examples of suitable non-woven inorganic materials include glass fiber sheets having a basis weight of from 10 to 100 g / m ² , which are prepared from glass fibers with a thickness of

-2GB 4997 U1 around 7 to 13 μιη.

As an alternative to nonwovens, perforated films, such as polyethylene or polypropylene, with a basis weight of from 10 g / m ² to 150 g / m ² , or metal foils, such as aluminum, can be used for the packaging. The perforated film may take the form of a layered structure, including a structure consisting of a plastic film and a paper layer, or a structure consisting of a plastic film and a metal film.

The wrapper may be made separately, but may also be made directly on the inorganic fiber layer as described, for example, in DK Application No. 2667/92 and U.S. Patent No. 4,596,737.

Overview of the drawings

BRIEF DESCRIPTION OF THE DRAWINGS The technical solution will be described in more detail with reference to the drawings in which FIG.

Examples of technical solution

In the drawings, a coherent porous layer 1 of interconnected mineral fibers is shown. The cohesive porous layer 1 is enclosed in a nonwoven breathable wrapper 2 and comprises at its side edges marginal zones 2 which have been modified to be easily compressible, e.g. by rolling.

PROTECTION REQUIREMENTS

Claims (4)

An insulating felt comprising mineral fibers interconnected by means of a binder to form a coherent porous layer (1) wholly or partially enclosed in a breathable cover (2), characterized in that the layer (1) comprises at least one continuous zone (3), which is more compressible than the rest of the layer (1). Insulating felt according to claim 1, characterized in that the layer (1) comprises at least one compressible edge zone. Insulating felt according to claim 1 or 2, characterized in that it has a rectangular shape, the layer (1) having a compressible edge zone at its two opposite edges. Insulating felt according to at least one of Claims 1 to 3, characterized in that the layer (1) is made of mineral wool fibers. -3GB 4997 U1 Insulating felt according to claim 4, characterized in that the layer density (1/60 kg / m ³⁾ . characterized in the range from 20 kg / m ³ to Insulating felt according to any one of claims 1, wherein the cover (2) is up to 5, composed of a nonwoven organic or inorganic material. Insulating felt according to claim 6, characterized in that the cover (2) is composed of a web of plastic fibers. Insulating felt according to claim 6, characterized in that the cover (2) is composed of fibers. characterized by nonwoven glass webs Insulating felt according to a perforated film. any one of claims 1 to 5 wherein the wrapper (2) is formed Insulating felt according to claim 9, characterized in that the cover (2) is formed by a perforated plastic film.