Synthetic resins or natural rubbers -- part of the class 520 ser – Synthetic resins – Processes of preparing a desired or intentional composition...
Reexamination Certificate
2001-08-28
2004-12-14
Cain, Edward J. (Department: 1714)
Synthetic resins or natural rubbers -- part of the class 520 ser
Synthetic resins
Processes of preparing a desired or intentional composition...
C523S219000, C524S444000, C524S445000, C524S450000, C524S439000
Reexamination Certificate
active
06831118
ABSTRACT:
The subject matter of the present invention is a flexible fire protection plate having a plastic matrix and an inorganic filler as well as its use for the fire protection of openings in walls, floors and ceilings, especially of conduits for pipes and cables.
It is known that openings through the walls, floors and ceilings of adjacent rooms are problematic in case of fire because the fire can propagate through such openings. Since, as a rule, it is structurally not possible to avoid wall or ceiling conduits, especially conduits for pipes and cables, as a way to ensure protection against fire, it is common practice to seal off such conduits and the annular gap between the installed pipes and cables—as well as any flanges—and the wall, floor and ceiling material. For this purpose, so-called soft partitions or plate partitions made of non-flammable material are used.
One possible way to make such a fire partition consists of using coated mineral fiber plates with which the structure openings can be closed off, after which all gaps, joints, spandrels and also the surface of the fire protection plates are sealed with an ablative or intumescent coating so as to be smoke-tight. Such mineral fiber plates, however, have drawbacks since they are very labor-intensive and unpleasant to install, and they only provide a low level of mechanical stability in case of fire. In particular, such mineral fiber plates do not pass the extinguishing water test (hose stream test) in case of fire, which means that, upon impact from the stream of water used by a firefighter, the remnants of such a mineral fiber plate are very easily destroyed.
Another possibility that is commonly employed in the United States is the use of sandwich plates, that is to say, multi-layer plates made of a layer of sheet steel, a 1 cm-thick layer of a rubbery-elastic intumescent compound with a reinforcement of netting wire and a covering of aluminum foil that is fitted to and mounted over the structure opening. Subsequently, all of the joints, gaps, spandrels and the like are sealed with an intumescent compound. These sandwich plates are likewise time-consuming and costly to install, since the necessary cutting is very difficult in view of the layer of sheet steel. Furthermore, approval for such sandwich plates under German standard DIN 4102, part 9—according to which not only the fire penetration but especially also excessive temperatures are to be prevented—can only be attained with complicated measures or not at all.
Therefore, the objective of the present invention is to provide a fire protection plate that can be manufactured and installed very simply, that exhibits a high mechanical strength, not only during installation but also in case of fire, and that makes it possible to fully comply with the fire protection requirements according to the DIN standard mentioned above.
This objective is achieved by a flexible fire protection plate that contains a coarse-grained inorganic filler embedded in a plastic matrix made of a pliable organic binder.
Therefore, the subject matter of the invention is the flexible fire protection plate according to claim
1
.
The subordinate claims relate to preferred embodiments of this fire protection plate as well as to their use for the fire protection of openings in walls, floors and ceilings, especially of conduits for pipes and cables.
The fire protection plate according to the invention having a plastic matrix and an inorganic filler is characterized by a plate made of a pliable organic binder in which a coarse-grained inorganic filler is embedded.
As the pliable binder, the fire protection plate preferably contains a vulcanized caoutchouc compound, a dispersion acrylate, a polyvinyl acetate and especially a pliable polyurethane polymer, preferably a pliable polyurethane foam that is preferably made of a polyisocyanate, a polyol and water, or an isocyanate prepolymer. Preferably, the formation of the polyurethane foam can be promoted by using a foaming agent on the basis of a liquefied gas.
As the vulcanized caoutchouc compounds, preferred materials that can be used according to the invention are vulcanizable rubber compounds, that is to say, mixtures of low-molecular-weight synthetic caoutchouc with cross-linkable double bonds, whereby the vulcanization is usually carried out with sulfur (or sulfur compounds) at temperatures ranging from 150° C. to 180° C. [302° F. to 356° F.]. Foaming agents (for example, baking powder, etc.) can be added to the mixtures so that rubbery-elastic foams are obtained. Examples of dispersion acrylates are polymeric dispersions of polyacrylates, usually copolymers of acrylic acid esters, such as ethyl acrylate and butyl acrylate. These polymeric dispersions contain between 30% and 60% of the polymer. The curing is carried out by drying out.
The fire protection plate according to the invention preferably contains 30% to 80% by weight, especially 65% to 75%, of the pliable binder and correspondingly 70% to 20% by weight, especially 35% to 25% by weight, of the coarse-grained inorganic filler.
The coarse-grained inorganic filler preferably comprises grains having a particle size of 1 mm to 25 mm, preferably 3 mm to 15 mm. Especially preferred coarse-grained inorganic fillers are grains consisting of a foamed mineral material, for example, grains made of pumice, porous concrete, water-glass foam, geopolymers, sepiolite, fly ash, gypsum, foamed expanded clay, perlite and/or vermiculite, or else hollow beads made of silicate material or glass.
The geopolymers used as the inorganic filler are synthetically produced silicate foams, for example, made of water glass with fly ash or corundum and peroxides or metal powder as the foaming agents. These foams are non-flammable and have good insulating properties. Waste from the manufacturing process can also be used according to the invention as the inorganic filler.
As a function of the envisaged strength properties of the fire protection plate, it is possible to use the coarse-grained inorganic filler in the form of mixtures of grains having varying particle sizes and/or in the form of mixtures of grains of different inorganic materials.
The presence of the coarse-grained inorganic filler translates not only into a high mechanical strength, stability and resistance to pressure on the part of the fire protection plate, but rather, especially in the case of grains made of foamed mineral material, also into easy and simple processability, for example, when it comes to cutting or sawing and moreover, a high strength in case of fire.
According to a preferred embodiment of the invention, the pliable binder contains an additive to increase the dimensional stability of the crust that forms in case of fire. This additive is preferably an additive mixture containing at least one acidifier, at least one compound that yields carbon and at least one particulate metal.
It has been found that, when such an additive mixture is added to the pliable organic binder of the fire protection plate according to the invention in an amount of 10% to 60% by weight, preferably 25% to 40% by weight, relative to the weight of the binder, a marked improvement of the dimensional stability of the fire protection plate can be achieved in case of fire. Through the addition of this additive mixture, in case of fire, the pliable organic binder is converted—without a substantial change of the geometric dimensions of the fire protection plate—into an inorganic, hard, stone-like, fire-resistant compound. In this manner, the fire protection plate according to the invention can pass the above-mentioned hose stream test without any problem.
According to a preferred embodiment, the additive mixture incorporated into the pliable organic binder contains 10% to 90% by weight, preferably 40% to 70% by weight, of the acidifier, 5% to 45% by weight, preferably 15% to 30% by weight, of the compound that yields carbon and 2% to 30% by weight, preferably 5% to 15% by weight, of the particulate metal.
As the acidifier, preference is given to salts or esters of ino
Cain Edward J.
Hilti Aktiengesellschaft
Sidley Austin Brown & Wood LLP
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