DE3013223B1 - Non-combustible mineral fiber product with a lamination - Google Patents

Description

Since the reinforcement, in addition to increasing the mechanical

The strength of the composite film has no function, it can This task can be optimally trained accordingly, which further costs decreased. Surprisingly, it has been shown that the organic adhesive between the Metal foils the classification of the mineral fiber product as non-flammable according to DIN 4102 is not affected, although this is the case in the case of using an organic Adhesive between the lamination and the mineral fiber layer is definitely the case. The reason for this is probably that the comparatively small amount of glue between the metal foils lying tightly against one another, including the reinforcement is protected from the ingress of oxygen in the event of fire, so that the destruction front in the organic glue only progresses as fast as the destruction of the metal foils enough; the metal foils on both sides protect the organic adhesive Oxygen access and thus against oxidative decomposition, as long as the metal foils are still intact on both sides. It has even been shown that they too Reinforcement enclosed between the metal foils is not necessarily made of non-combustible material Material such as glass threads or the like. Must exist, but for this with correct dimensioning Plastic threads can also be used without compromising fire safety significantly and to endanger the classification as non-flammable.

From about DE-AS 15 11 283 it has long been known that Material webs with cover foils made of metal and an intermediate reinforcement from reinforcement threads, placing a suitable glue in the space between the cover foils is introduced.

Such webs of material can definitely be used with a suitable design Suitable as a lamination for the mineral fiber products according to the invention. For generic however, such use is never considered for non-combustible mineral fiber products been drawn, although non-combustible laminated mineral fiber products on the one hand and material webs made of metallic cover foils with reinforcing threads glued in between on the other hand, have long been in use side by side. The reason for this lies in that the bonding of the reinforcing threads of the known material webs always takes place via organic glue, as only this is used for the production of the webs, their storage etc. are well suited. It is precisely this fact that has an effect within the scope of the invention advantageous, since there is absolutely no fundamentally whatsoever on the part of the manufacturer of the foils either new technology with manufacturing problems arises. However, it is never considered such material webs with organic adhesive for non-combustible mineral fiber products to be used as a lamination arranged on the outer surface of the mineral fiber layer, since the use of organic glue is classified as non-flammable at this point seemed to rule out regularly, so that the use of such material webs as Lamination was not considered from the outset for this application could be.

Although DE-GbmS 76 07 839 is a mineral fiber product in the form an aluminum-laminated thermal insulation felt, the lamination of which is on the side in the form of edge strips beyond the mineral fiber layer to secure it to allow on squared timber and the like. With brackets or nails, the edge strips are reinforced with fiberglass threads that are attached together with an organic adhesive their back by an edge strip made of aluminum are covered. In the practical The applicant is responsible for the use of such aluminum-laminated thermal insulation felts appropriate constructive measures succeeded, despite the use of an organic one Adhesive in the edge strips to achieve the classification as non-flammable when on a lamination of the aluminum foil with Kraft paper as well as on the synthetic resin binder the mineral fibers were dispensed with. This was possible because the use of the organic glue not only in very small quantities, but in particular was limited to the area of the edge strips, which reinforced in the fire test Heat radiation on both sides and very good heat conduction are favored and the Let the front of destruction progress only comparatively slowly; this favor it has been attributed to the marginal ridges that despite a use of a minor Amount of organic adhesive a classification as non-flammable could be achieved. In the area on the outer surface of the mineral fiber layer, however, there is only one side Heat radiation is possible and there is more of an additional one from the other side Incidence of heat from the area of the mineral fibers, so that there is no reason to assume existed, there could also be a use of organic glue, embedded between two metal foils that are bare metal on their outside than for the Classification as non-flammable, proven harmless, although the same organic adhesive at this point for fastening the lamination to the mineral fiber layer Classification absolutely excludes.

The following is a description of an embodiment of the invention based on the drawing. 1 shows a perspective view of a top view on the laminated side of a mineral fiber product according to the invention in the form of a laminated thermal insulation felt and Fig. 2 in a greatly enlarged view of a partial section according to line II-II in FIG. 1.

The mineral fiber product can be a rigid mineral fiber board, a mineral fiber web or any mineral fiber molding, for example for insulation be of pipes and has a mineral fiber layer 1 of suitable thickness made of glass or Stone fibers, the outside of which is covered with a lamination 2, the inside of which Connected to the mineral fiber layer 1 via an inorganic, non-combustible adhesive 3 is. In the example, FIG. 1 shows a mineral fiber web in the form of a laminated one Thermal insulation felt illustrates how they are used in particular for roof-side thermal insulation can be used in the attic conversion of a house. It extends the lamination 2 over the lateral longitudinal edges 10 of the mineral fiber layer 1 in edge strips 11 also, which is used to attach the thermal insulation felt between the timber of the roof or the like. Serve with staples or nails. In the course of production, the edge strips 11 placed inward on the top of the lamination 2, while for assembly the edge strips 11 folded out into the protruding position shown in FIG (around line 13) to make the desired attachment to them, with the lamination 2 is arranged on the room-side surface of the thermal insulation felt and so forms the conclusion of the mineral fiber layer 1 to the interior Representation in FIG. 1 compared to natural size on a scale of about 1: 2 is, the illustration in FIG. 2 to illustrate details enlarged compared to the natural size on a scale of about 100 1.

As an inorganic, non-flammable adhesive 3 for connecting the lamination 2 with the mineral fiber layer 1, an adhesive based on is particularly suitable Water glass with an addition of clay mineral substances, as described in DE-PS 2460508 and 24 60 509 or, in the form of a two-component adhesive, from DE-OS 2603904 and 26 03 905 is known, on which for further details insofar expressly Is referred to.

The lamination 2 has an outer metal foil that is bare on its outside 4 and an inner metal foil 5, which may be different by aluminum foils Thickness between approximately Q007 and 0.020, optionally also up to 0.040 mm can, in which case the thicker of the two metal foils 4 and 5 is advantageous to the Outside is arranged.

Reinforcement 6 is provided between the metal foils 4 and 5, the reinforcing threads 7 and 8, which in the selected embodiment cross each other and form a wide-meshed grid. The distance between neighboring Threads 7 in one direction, which in the drawing is transverse to its longitudinal extension are shown cut, can be in the range of one centimeter or above lie, and a similar distance can be for the reinforcing threads lying across them 8 can be selected so that the reinforcement 6 has a square-lattice-shaped appearance. If necessary, however, the mutual distances can of course be adapted to the respective Depending on the application, they can also be selected differently. In the graphic In the illustration, the cutting plane is placed so that just one of the reinforcing threads 8 lies in the plane of the drawing.

The reinforcement threads 7 and 8 can be indicated in the drawing Way made of glass fibers, and form a reinforcement 6 made of glass fabric, which Can be produced inexpensively and processed without problems. In particular, however, all of them can also be used if the lamination 2 is to be bent at one point or some of the reinforcing threads 7 and 8 extending transversely to the kink line from one Material such as polyester can be made, which is less sensitive to kinking is.

Overall, the design of the reinforcement 6 can only be used in the usual way take place under strength aspects.

The mutual securing of the position of the metal foils 4 and 5 with the intervening Reinforcement 6 takes place via an adhesive 9 in the space between the metal foils 4 and 5, which also contains the reinforcement threads 7 and 8 of the reinforcement 6 embeds or at least secured in position on the metal foils 4 and 5. An organic adhesive 9 can be used for this which is relatively flammable, as it has been shown that the interposition the reinforcement 6 closely spaced metal foils 4 and 5 the adhesive 9 in the event of fire Protect as much as possible from the ingress of oxygen and so no significant acceleration the destruction of the mineral fiber product due to the accelerated progression of the Destruction front takes place in the area of the adhesive 9. Surprisingly succeeds in spite of this the use of an organic glue the classification of the mineral fiber product as non-flammable. This and the simultaneous significant increase in the mechanical Strength of the lamination 2 compared to the use of a single metal foil 4 or 5 is achieved with minimal additional effort, since the lamination 2 as a whole inexpensive and efficient without any special production problems in manufacturing plants for laminated material webs of this type can be produced, and then on the part of the manufacturer for the mineral fibers in the usual way completely unchanged using the inorganic adhesive 3 with the outer surface the mineral fiber layer 1 can be connected.

The drawing shows the illustrated partial section through the mineral fiber product at a magnification of about 100: 1, but true to scale within this scale, so that for details of the dimensions, reference is made directly to the drawing can be. The mineral fiber product formed in this way is particularly suitable for Use as a fiberglass sheet in the form of an aluminum-laminated thermal insulation felt, how it is used for the thermal insulation of walls, attics and ceilings, the lamination 2 protruding over the two long sides of the mineral fiber web Can form edge strips with which the mineral fiber web on squared timbers such as rafters can be easily and conveniently attached by staples or nails. Without impairment The classification as non-flammable results in the sandwich-like structure of the lamination 2 a higher mechanical strength and thus an increase in security against mechanical damage to the lamination.

In addition, the wind load forces can be used for loft extensions in the absence of a sarking membrane from the lamination 2 or from its reinforcement 6 are better absorbed and secure those arranged in the area of the edge strips Reinforcing threads 7 and 8 of the reinforcement 6 to prevent the edge strips from tearing out the staples or nails.

Claims (1)

Claim: Non-combustible mineral fiber product with a mineral fiber layer and a lamination which has a metal foil on its outside, which at least in its part covering the outer surface of the mineral fiber layer a reinforcement attached to its inside by gluing is reinforced, wherein the lamination is attached to the mineral fiber layer by means of an inorganic adhesive is, characterized in that the inside of the lamination (2) by at least another metal foil (5) is formed, which together with the outer metal foil (4) the reinforcement (6) includes, and that for the adhesive fastening of the reinforcement (6) an organic adhesive (9) is provided. The invention relates to a non-combustible mineral fiber product a mineral fiber layer and a lamination, according to the preamble of the claim. Non-flammable mineral fiber products laminated with a metal foil such as plates and sheets are known from DE-PS 24 60 508 and 24 60 509. By the use of an inorganic adhesive to attach the metal foil to the Mineral fiber layer ensures that the mineral fiber product does not contain organic, combustible materials Has substances, but consists exclusively of mineral substances. With a Such mineral fiber products are therefore class A2 - non-combustible - according to DIN 4102 Building materials - achieved while in the case of using an organic glue with the otherwise unchanged formation of the mineral fiber product, only the building material class Bl - flame retardant building materials - is achieved because the organic adhesive in the Fire test accelerates the progress of the decomposition front so much that the Requirements for the classification as non-flammable can no longer be met. If a single-layer, bare metal foil, such as a If aluminum foil is used, there is no result whatsoever in terms of incombustibility Problems; however, the lamination is not very strong mechanically, so that it is difficult to handle In rough construction operations, for example, damage can easily occur, and tensile forces from the Lamination can only be transferred to a very limited extent. To improve mechanical strength without the classification to affect as non-combustible, it has already become known from DE-OS 28 49 246, reinforcement in the form of a glass fiber layer on the inside of the metal foil to arrange. This was done initially, on the inside of the metal foil the inorganic, non-flammable adhesive in the to apply in the usual way, but first of all the metal foil coated with adhesive not to be connected to the mineral fiber layer, but to the applied adhesive for To use fastening of the reinforcement. In a second step it was then a new layer of inorganic glue is applied to the inside of the reinforcement and the reinforced metal foil is connected to the mineral fiber layer. This two-step procedure is complex. A Winding the reinforced metal foil on winding cores for temporary storage and transport economically not possible because the inorganic adhesive is too small if the bending radius is too small tends to be damaged. Therefore, both the application of the reinforcement and the application of the reinforced metal foil to the mineral fiber layer in the area of the Manufacturing plant for the mineral fiber layer takes place and leads to considerable there manufacturing effort, which makes the product considerably more expensive. Furthermore a significant amount of inorganic glue is created by applying it twice consumed, which is comparatively expensive. To eliminate these disadvantages, it is also from DE-OS 28 49 246 already known, in the course of the lamination of the mineral fiber layer, a reinforcing glass fiber layer to run through a bath of the inorganic glue, and so put the glue together with the reinforcement between the metal foil and the outside of the mineral fiber layer to raise. Apart from the fact that this also results in a not inconsiderable amount of glue is required, this assumes that the reinforcing fiberglass layer has a structure has, which ensures a flat, even removal of the adhesive from the bathroom. In the case of a glass fabric or glass fabric, this implies a closely spaced arrangement of the glass threads in advance, taking into account the desired improvement in strength would not be necessary in itself. Hence, by doing this, too, the end product becomes expensive, especially since the introduction of the reinforcement together with the adhesive application must take place on the part of the manufacturer for the mineral fibers. Furthermore Although the reinforcing glass fiber layer is extremely strong with a suitable structure, however, their connection to the metal foil via the inorganic adhesive is prone to damage, so that the metal foil can peel off in some areas and still during assembly work can be easily damaged. In contrast, the invention is based on the object of a non-combustible Mineral fiber product outlined in the preamble of the claim and from DE-OS 2849246 known genus, which can be manufactured at low cost greater security by improving the mechanical strength of the lamination against damage. This task is solved by the characteristic features of the claim. This achieves that in place of the single-layer metal foil a two-layer metal foil with reinforcement enclosed in between occurs, the just like the single-layer metal foil on the mineral fiber layer via an inorganic adhesive can be attached. The two-layer metal foil can be provided by the foil manufacturer be completely prefabricated, so that on the part of the manufacturer for the Mineral fibers no additional manufacturing effort compared to the lamination occurs with a single layer of metal foil. On the other hand, the manufacturer can use the two-layer film for the film Foil with reinforcement enclosed between the foils, inexpensive and efficient produce so that the additional cost is very low. The fact that a common organic adhesive is used in the manufacture of the two-layer film is used, there are no manufacturing or transport problems, especially a winding up of the film produced in this way for transport in the usual way Way can be done.