DE3622897A1 - FIRE AND SOUND PROTECTION CASSETTE - Google Patents

Description

The present invention relates to a fire and soundproof cassette, consisting of one or more intumescent fire protection membranes and one or several soundproofing sheets.

Components and special components classified according to fire behavior are in the Part 4 of DIN 4102 listed.

What is striking in this list is the predominantly solid execution of the components, which is also reflected in considerable weights. The The same also applies to those based on special approval notices distributed, fire-resistant fire closures (flaps, doors and gates). Their consistently massive constructions are like this in most cases difficult that special measures are required during installation.

This is also the case for fire-retardant components made of wood or wood-based materials Situation not much better. Fire doors, for example, are independent depending on whether the door leaf made of edge-compressed chipboard or Hardwood frame with a central web made of chipboard, in Weight also much heavier than normal apartment doors, whose Backfilling with cardboard honeycomb panels or perforated light fiber panels be formed. The considerable weight differences can cause fire In most cases, protective doors do not fit into the existing door frames be attached, which of course makes their use significantly more expensive.

In recent times, attempts are increasingly being made to use intumes zenzmaterial (also known as DSB-intumescent materials) reduce the weight of fire protection parts.

In British Patent GB 23 580-A is a honeycomb Construction in the cells of which a fire extinguishing liquid flows capable fire extinguishing agents are described.

The principle of dividing the fire protection agent into separate cells (Chambers) is also the subject of OS-DE 31 25 577, in which case the chambers are filled with a powdery intumescent mass. Also here, as is often the case with cell designs, on the preferred design as a honeycomb panel construction, in particular as a cardboard honeycomb panel grasslands.  

The disadvantages of this application are similar to those of the filling of the honeycomb structure with liquid fire protection agents. Handling is also practical with powdery fire protection agents, e.g. B. very difficult to install in fire protection components. Ins especially for components that are exposed to dynamic loads, it comes to the compression of the fire protection powder on the chamber floors what the foamability in the event of a fire is reduced and the sound insulation ver worsened.

Furthermore, DE 30 11 453 discloses a flat support known material whose fire protection coating in the event of fire forms the insulating layer filling the empty cells of the carrier material.

In addition to the use of liquid, powdery or pasty intumescence There is also the possibility to put the intumescent material on a material Laminate the carrier material (e.g. glass fleece).

In previous attempts, the weight of fire protection components by to reduce the use of intumescent materials found that all intumescent materials used vertically under fire the tendency to sag the resulting thermal foam show what makes the fire resistance strong at the exposed areas is reduced. As a result, there were more official fire tests compartment for premature burn directly under the upper frame construction. This tendency is particularly pronounced with highly effective seed intumescent products with a foaming factor of ≧ 20. At Intumescent products with a foaming factor of ≦ 10 (e.g. based on of sodium silicate), can be installed under certain circumstances Reinforcement mesh to counter this phenomenon.

With the high-quality intumescent materials, however, due to the large volume, the resulting thermal foam, especially in the outer layers can no longer be effectively supported by the wire mesh.

But especially through the use of high-foaming intumescence materials, however, offer particularly good options for ver reducing the weight of fire protection components.

Based on the disadvantages identified in previous use try the invention is based on the task of a light, mechanically resistant composite element with fire and sound to construct protective properties.  

This object is achieved in that one or more Intumescent fire protection membranes with one or more sound insulation membranes be planned, and the whole lane package with an incombustible Wrapping is surrounded.

The fire resistance duration of the incombustible covering should be calculated in this way be that the thermal foam that forms when exposed to heat is full can develop and stabilize before it burns through the casing is coming. The number and strength of the intumescent fire protection membrane should be in In the event of fire, all cavities in the cassette are completely foamed enable.

The operation of the cassette of the invention will be explained with reference to the embodiment shown in Fig. 1 and Fig. 2 examples.

example 1

A soundproofing membrane made of 36 mm thick cardboard honeycombs was covered on both sides with 2mm thick intumescent fire protection membranes 1, 1 ' (Interdens VP 80 from Dr. Wolmann GmbH) and on all sides with a 05mm thick fire protection fleece 3 (Interdens V from Dr. Wolman GmbH) wrapped.

This cassette with the outer dimensions of 920 × 920 × 41 mm was made with anchored in a 41 mm thick and 40 mm wide edge band made of oak wood.

This structure was made on both sides with 4 mm thick veneered hard fiber glued panels. The model wall thus constructed with the dimensions of 1000 × 1000 × 49 mm was flame in the fire room, the temperature increased according to the standard temperature-time curve (abbreviated ETK).

The burn-through occurred after 87 minutes in the edge area (oak edging). Thereupon punctual burn tests were carried out with analog models a strong Bunsen burner (temperature approx. 1000 ° C). The The fire resistance in this case was 157 minutes

Example 2

A model wall with the same dimensions of Example 1 was manufactured according to the structure shown in FIG. 2. A middle layer 2 mm thick intumescent fire protection membrane 1 (Interdens VP 80 from Dr. Wolman GmbH) was covered on both sides with 18.5 mm thick perforated soundproofing panels made of duroplastic 2, 2 ' and all sides with a 1 mm thick fire protection vapor barrier membrane 3 (Interdens AL from Dr. Wolman GmbH).

The flaming of the 1 × 1 large model wall according to the ETK resulted in one Fire resistance duration of 78 minutes and selective flame exposure the bunsen burner took 141 minutes to burn out.

The path is thus mapped, even with materials that are combustible per se such as wood, wood materials, paper, cardboard, plastics high fire to achieve delay effects with light components. Will be exemplary a fire door based on the cassette according to the invention have a weight of less than 35 kg, which means they can also be used in normal Door frames allowed.

The exemplary embodiments demonstrated in the drawing are intended to be described in explain possible variations in practice, but without the application restrict area.

Claims (5)

1. Fire and sound insulation cassette, consisting of one or more intumescent fire protection sheets ( 1, 1 ' ) and one or more sound protection sheets ( 2, 2' ), characterized in that the combustible fire and sound insulation sheets ( 1, 1 ') , 2, 2 ' ) are surrounded by a non-combustible covering ( 3 ) which, in the event of fire, enables the voids in the soundproofing membranes ( 2, 2' ) to be filled with stabilized thermal foam. 2. Fire and sound insulation cassette according to claim 1, characterized in that the covering ( 3 ) made of metal foil, for. B. VA steel, copper, aluminum and / or glass fiber plastic and / or glass fleece. 3. Fire and soundproofing cassette according to claim 1 and 2, characterized in that the intumescent fire protection membranes ( 1, 1 ' ) consist of a thermally highly active foam layer. 4. Fire and soundproof cassette according to claim 1 to 3, characterized in that the sheath ( 3 ) is coated on one or both sides with a fire protection agent. 5. Use of the fire and sound insulation cassette according to claim 1 to 4, characterized in that they have light fire protection as an inner insert components, e.g. B. fire doors, walls, ceilings, encapsulations of Aggregates and / or machines, or as partitions of cable and / or pipe breakthroughs is used.