DE3819902A1 - Laminar material for fire barriers - Google Patents

Abstract

Laminar composite material, comprising a) a flexible, heat-resistant base layer, b) one or two flexible fire protection layers, forming insulating layers, c) one or two flexible heat-resistant outer layers, characterised in that the laminar composite material has punched-out and bent-out clear openings.

Description

The invention relates to a flexible, insulating layer-forming (DSB) Layered material and its use for fire insulation of ventilation, Air conditioning and gas pipes.

Intumescent materials are increasingly being used application in various areas of structural fire protection. The the DSB fabrics are most frequently used as coating systems for Wood, wood-based materials and steel. In addition, putty, pastes, castings masses, foams, granules, strips, profiles and for flat fire protection Plates, sheets, fleeces and rolls are used.

All DSB materials work on the same principle. Under heat Exposure from 100 ° C to 180 ° C begins to soften and is inflated to a foam by gases from a blowing agent. This When used extensively, thermal foam protects the ones underneath Materials, while with so-called edge protection by filling in the edge joints, pipe ducts, ventilation openings, passage through flames, hot gases and smoke should be prevented. Depending on the area of application different demands on the mechanical properties of the thermal foam produced under heat.

While DSB materials are also used in flat fire protection, can only be a very relaxed and just compared to the thermal the fire gases form resistant foam, so in the edge protection much higher demands on the mechanical properties of the Thermal foam.

This applies in particular to the areas of application, where one is a priori there is intense air movement, e.g. in ventilation ducts, gas lines and the like

With insulating layer-forming materials that are manufactured as panels, is often an incombustible reinforcement in the form of glass fleece, mineral fibers and / or wire mesh installed.

This is intended to support the thermal foam created under the influence of heat will. But also through the combination with other layer materials an attempt is made to improve the property of the thermal foam.  

A fire protection layer element is among others known from DE-OS 28 28 839, with a polyester fiberglass layer on both sides with a gelcoat with a dash, a polyester resin as a binder and fire as a DSB inhibiting additives and others Melamine, pentaerythritol, potato starch and Has ammonium phosphate. Also layer elements using glass fiber reinforcement layers are known.

Such fire protection layer elements are used primarily to protect Ge buildings or parts of buildings, i.e. used for extensive fire protection. To For reinforcement, they contain glass or metal fiber.

According to DE-OS 30 42 788 two DSB layers by one as a barrier layer serving intermediate layer separately and additionally on at least one Be covered by another barrier layer, which in turn with is covered with a cover layer.

A number of other patent applications are known, the subject matter of which is ver layered materials for preventive fire protection are (DE-OS 35 04 953, DE-OS 28 41 907 and others).

These layer materials generally meet the requirements use in flat fire protection. In contrast, in areas where the on foaming layer material when fireproofing a strong When exposed to overpressure or underpressure, these materials struggle. So e.g. the layer materials according to DE-OS 28 41 907 in the partitioning ventilation ducts are used in packages.

Appropriately cut panels are made at short intervals of mounted in parallel in openings to be protected.

With round openings, the radially curved plates are similar in the package arranged or formed spirally from a band. The plate packs must also be adequately dimensioned in depth, so in the event of a fire the lower (or back) parts, the foaming parts at the front can support.

Such solutions are cumbersome to use, expensive to use and greatly reduce the efficiency of the ventilation to be protected and / or gas pipes, since a large part of the clear diameter is through the foreclosure packages are blocked. The same problems arise if perforated layer materials as bulkhead elements across in the protective lines are installed.  

In this case, the thermal foam can be easily pushed away here, too, several perforated laminates are installed one behind the other will. Another disadvantage of these foreclosure systems is that the Milling out or sawing the openings in the layer material is a remarkable one Part of the material is generated as waste.

Based on this finding, the present invention is Task to design an intumescent layer material, the one effective partitioning of ventilation and gas pipes, even with one Single use, guaranteed.

This object could be achieved in that the invention Layer material the closure of the clear openings is not as before through the thermal foam alone, but in cooperation with one flexible heat-resistant cover layer.

The layer material according to the invention consists of three different ones Materials:

1. from a heat-resistant, flexible carrier layer, preferably from Sheet metal, e.g. made of galvanized steel, aluminum, copper and the like,

2. one or two flexible intumescent, preferably puffy pressure-developing fire protection layers,

3. one or two flexible, heat-resistant cover layers, preferred wise of metal foil, which are connected to a flat layer material.

The layer material according to the invention thus consists in the simple (asymmetrical) design made of three layers and in double (symmetrical) execution from five layers, whereby the centrally positioned Backing layer is laminated on both sides with the DSB web, which in turn is covered with a covering layer are covered.

For use in fire protection of ventilation and / or gas pipes a whole series of openings are punched out and bent around that without loss of material from a layer material three-dimensional fire protection construction.

The structure and function of the layer material according to the invention will be explained with reference to FIG. 1.

The carrier layer 1 , consisting of an approximately 0.5 mm thick galvanized steel sheet, is laminated on one side with a flexible 2 mm thick DSB sheet 2 , which in turn is covered with a 20 µm thick copper foil.

There were rectangular openings in the entire surface of the layer material punched out so that a construction in the manner of an advent calendar arose. The resulting thermo presses under heat foam the copper foil back into the old position, which makes the light Openings are quickly closed and the foaming is stable Barrier layer is guaranteed.

The use of the layered material according to the invention for fire protection of round gas pipes is explained in FIG. 2.

The one made of a 0.7 mm thick aluminum sheet and a 2 mm thick DSB sheet and a 0.3 mm thick glass fleece with a trapezoidal opening The protective material provided was integrated into a spiral-shaped partition Ventilation pipe installed.

Comparative fire tests showed that the layer according to the invention effective fire insulation of ventilation, air conditioning and Ensure gas lines.

Claims (6)

1. Layered composite material consisting of

• a) a flexible, heat-resistant carrier layer,
• b) one or two flexible fire protection layers forming an insulation layer,
• c) one or two flexible, heat-resistant cover layers, characterized in that the layered composite material has punched out and bent out clear openings.

2. Layered composite material according to claim 1, characterized in that the carrier layer consists of a heat-resistant metal sheet. 3. Layered composite material according to claims 1 and 2, characterized records that the insulation layer-forming fire protection layer from bloated pressure-developing, calendered and / or extruded fire protection tracks exists. 4. Layered composite material according to claims 1 to 3, characterized records that the top layer of heat-resistant metal foils consists. 5. Process for the continuous production of composite layers fabrics according to one of the preceding claims, characterized records that one or two are freshly calendered or extruded Fire protection tracks in front of the smoothing rollers with a top layer, preferably be made of metal foil and then by strand press with a support preferably made of sheet metal be laminated together to form a layered composite material that is then carried out under a rotary punch. 6. Use of the lattice structures produced according to claim 5 for Fire insulation of ventilation and air conditioning shafts as well as gas pipes.