NL1002806C2 - Fire resistant sheet material. - Google Patents

Description

Fire resistant sheet material.

The present invention relates to fire-resistant sheet material comprising at least two at least substantially parallel panels which mutually enclose a cavity, wherein a fire-resistant, or at least fire-retardant material is arranged in the cavity.

Such sheet material is mainly used for the manufacture or for the protection of cabinets and other spaces in which flammable substances or valuable goods or information are stored. Examples include fireworks, securities and computer files stored on suitable media. The primary function of the sheet material is to delay as long as possible any temperature rise within the relevant space as a result of an outside fire.

A known sheet material of the type mentioned in the preamble comprises two mineral outer panels, for instance plasterboard, which are separated from one another by one or more rock wool blankets for the desired fire resistance, at least fire retardancy.

The rock wool provides the desired insulation of the inside of the panel with respect to the outside. The thickness thereof is attuned to the required fire resistance on the one hand and an acceptable cost price on the other and will therefore always be a compromise.

The object of the present invention is to provide a sheet material of the type mentioned in the preamble with an improved fire resistance compared to a known sheet material of equal thickness.

For this purpose, a sheet material of the type mentioned in the preamble according to the invention has the feature that the fire-resistant material comprises a solid which undergoes at least one phase transition in the temperature range from normal ambient temperature to fire temperature. The invention is based on this

NL9693S.NL

1002806 -2- insight that such a fire-resistant material not only insulates but also goes through a phase transition in the mentioned temperature range, for which energy is required. The energy required for the phase transition is extracted from the environment, resulting in a drop in temperature and, as a result, an increased fire retardancy.

In this respect, a special embodiment of the sheet material according to the invention has the feature that the fire-resistant material comprises dispersible sodium silicate, ie sodium silicate in, for example, powder or granular form. This material is sprinkled between the two plates beforehand and will start to flow when heated and then foam up to an insulating layer. In practice, particularly satisfactory results have been achieved with this material.

A preferred embodiment of the sheet material according to the invention is characterized in that the sodium silicate is mixed with a compressible filler. The addition of the compressible filler allows the gap between the two panels to be filled completely or almost completely. A possible expansion of the fire-resistant material that foams at an elevated temperature can thus be absorbed by the compressible filler, thereby avoiding that the plate material is thereby severely pressed out of context. A special embodiment of such a filler is formed by foamed balls that can be added at a relatively low cost.

In order to prevent the fire-resistant content of the cavity from settling during the aforementioned phase transition, as a result of which the fire-resistant properties of a (large) part of the surface of the sheet material would deteriorate drastically, a further special embodiment of the fire-resistant sheet material according to the invention has the feature that the cavity is divided into a number of separate chambers by a number of partitions, whether or not interconnected, which extend transversely to both panels. In that case, the partitions keep the contents of the cavity in place both before, during and after the aforementioned phase transition, so that the fire-resistant properties of the sheet material over the entire surface thereof are guaranteed.

In order to avoid an impermissible weight gain of a sheet material thus filled, a further embodiment thereof according to the invention is characterized in that the fire-resistant material comprises a weight-saving filler, and more particularly vermiculite particles.

According to the invention, a preferred embodiment of the fire-resistant plate material is characterized in that a coherent framework is incorporated in the cavity, in particular with a honeycomb structure, which forms the partitions and is easy to fit in the cavity as a whole.

An adequate spread of the fire-resistant material over the entire surface of the plate material is further promoted in a further embodiment of the fire-resistant plate material according to the invention, which is characterized in that an adhesive is added to the fire-resistant material to ensure an adhesion of the fire-resistant material with at least effect one of the panels. The adhesive aims to prevent the fire-resistant content of the cavity from sinking into it.

The invention will now be further elucidated on the basis of an exemplary embodiment and an accompanying drawing, in which: figure 1 shows a cross-section of an embodiment of the fire-resistant plate material according to the invention; and figure 2 shows a cut-away top view of the fire-resistant sheet material of figure 1.

The drawing is purely schematic and not drawn to scale. In particular, for the sake of clarity, some dimensions are strongly exaggerated.

Corresponding parts are designated as far as possible in the figures with the same reference numeral.

1002806 -4-

The plate material of figure 1 comprises three mutually parallel panels 1,2,3, in this example of plaster but possibly of any other suitable, preferably mineral material. The individual panels 1, 2, 3 are kept at a fixed distance from each other by partitions 4 and thus retain an approximately 20 millimeter wide cavity 5 relative to each other. In this example, the panels 1,2,3 are themselves approximately 6 millimeters thick, so that the total thickness of the sheet material amounts to approximately 58 millimeters. It will be clear, however, that these measures can only be used as an example and that, in a specific case, other measures can be used for this within the scope of the invention.

The side walls of the sheet material are trimmed with strips 6 of the same material and 10 thickness as that of the panels.

The partitions 5 form part of a cohesive frame 25 with a honeycomb structure, see figure 2, which simplifies the fitting thereof. The frame 25 is made of sufficiently sturdy cardboard and is commercially available in the thickness of 20 millimeters used here. The cavities 5 of the sheet material are thus divided into a number of separate chambers 51, 52, 53.

In accordance with the invention, a fire-resistant material 7 is arranged in the cavity 5, which phase transition occurs in the temperature range from ambient temperature to the temperature of a fire occurring. In this case, a mixture of dispersible sodium silicate mixed with a compressible filler in the form of foamed balls has been poured into chambers 51, 52, 53 before applying the second and third panels, respectively. However, instead of sodium silicate, other materials also lend themselves for use within the scope of the invention, such as, for example, phenolic resins. The balls can also be made of any suitable material, for instance of polyurethane.

The mixture further contains an adhesive, in this case gypsum, and is adequately wetted to effect good adhesion to the panels 1,2,3 so that it remains spread over its entire surface to ensure adequate fire resistance over the entire surface. . Further fillers can also be added to the mixture, such as, in particular, vermiculite particles which promote a weight saving of the filled panel.

In this example, a filling of approximately: fifty percent sodium silicate, as a fire-resistant material, ten percent gypsum as an adhesive, in accordance with the material of the panels 1,2, 3, twenty percent compressible polyurethane balls and twenty percent weight-saving vermiculite particles is thus used in practice. , all percentages refer to the volume occupied thereby.

In the event of fire, the fire-resistant mixture 7 will at a good time first become liquid and then foam under the influence of the rising temperature.

This phase transition requires energy which translates into an instantaneous temperature drop and thereby enhanced fire resistance within the sheet material. The foam formed then ensures adequate heat insulation. Thus, in a normalized staged fire on one side, the panel shown here has been found in practice to limit the temperature rise on the other side to an acceptable level for two hours. A known sheet material filled with rock wool would require a thickness of approximately 200 millimeters for this, which would lead to a considerable cost increase. Depending on the fire resistance required in a specific case, the panel material can be expanded with 20 more panels or only two of the panels can be used. In all these cases, the invention offers a sheet material with an increased fire resistance compared to known panels of a corresponding thickness.

Although the invention has been further elucidated with reference to this one exemplary embodiment, it will be apparent to everyone that the invention is by no means limited to the example given. On the contrary, many variations and manifestations are still possible for a skilled person within the scope of the invention.

1002806

Claims (10)

1. Fire-resistant plate material comprising at least two at least substantially parallel panels which enclose a cavity with one another, wherein a fire-resistant, or at least fire-retardant material is arranged in the cavity, characterized in that the fire-resistant material comprises a solid which undergoes at least a phase transition in the temperature range from normal ambient temperature to fire temperature. Fire-resistant sheet material according to claim 1, characterized in that the fire-resistant material comprises dispersible sodium silicate. Fire-resistant sheet material according to claim 2, characterized in that the sodium silicate is mixed with a compressible filler. 4. Fire-resistant sheet material, characterized in that the compressible filler comprises foamed balls. 5. Fire-resistant sheet material according to one or more of claims 1 to 4, characterized in that the fire-resistant material comprises a weight-saving filler. Fire-resistant sheet material according to claim 5, characterized in that the weight-saving filler comprises vermiculite particles. 7. Fire-resistant sheet material according to one or more of the preceding claims, characterized in that the cavity is divided into a number of separate chambers by a number of partitions, whether or not interconnected, which extend transversely to both panels. 1002806 -7- Fire-resistant sheet material according to claim 7, characterized in that the cavity comprises a coherent framework comprising the partitions. Fire-resistant sheet material according to claim 8, characterized in that the frame has a honeycomb structure. 10. Fire-resistant sheet material according to one or more of the preceding claims, characterized in that an adhesive is added to the fire-resistant material in order to effect an adhesion of the fire-resistant material with at least one of the panels. 10. I 8 o 6