DE3047029A1 - Fire door fire retarding inlay - is layered structure of heat insulating panels cemented by water-glass between metal skins - Google Patents

Abstract

One or more door wings, each assembled from two half skins of sheet metal, make up a fire screen door, with fire-retarding inlay, for closing fire section passageways, or similar. The hollow space between the two half skins in the wing is fitted with standard-type heat-insulating panels to serve as fire-retarding and/or heat-insulating inlays. The panels are saturated in waterglass, and cemented by waterglass, to form a multi-layer structure completely filling the hollow space. This structure in turn can be cemented to the half skins by waterglass. The structure is stable when exposed to fire for a long time.

Description

Fire protection door with fire-retardant insert

The invention relates to a fire door with a fire-retardant insert for closing fire compartment passages or the like. Categorical Fire doors are known per se, they usually consist of two sheet metal shells, between which fire-retardant and heat-insulating inserts are arranged. For stabilization The door leaf was also proposed to have horizontal profiles with thermal insulation To arrange requirements between the sheet metal shells and also corresponding vertical profiles.

The fire-retardant and / or heat-insulating insert is independent of this between the sheet metal shells of a fire protection door in the event of prolonged fire exposure in their Structure changed. Water of crystallization is expelled, hydrated compounds, as with asbestos cement, for example, and there is a risk of daX in the course of the process the Burning effect converts the heat insulating insert into a powder. This one To remedy the disadvantage unl to propose a fire door with the fire retardant and / or heat-insulating inserts remain stable even after prolonged exposure to fire, is the task on which the invention is based.

According to the invention, the use of of known thermal insulation panels as fire-retardant and / or heat-insulating Insoles suggested that soaked with water glass and two or more layers are glued together by means of water glass.

When exposed to temperature during a fire, at least water vapor is generated apart from, if not from other materials, other gases - such as carbon dioxide from alJge r1 (ienem lime - are split off.

These Gaseous Spal products at elevated temperatures cause the water glass, which becomes plastic at a higher temperature, to foam. This creates a stable waterglass foam structure that is the material of the fire-retardant and / or heat-insulating inserts of the fire door still hold together, if these had already disintegrated into a powder in and of themselves.

In particular, when using fine limestone free from knots has shown that the procedure according to the invention offers quite surprising advantages: The use of this particularly inexpensive and from the standpoint of industrial hygiene very advantageous plates is limited by the fact that the set fine lime converts into quicklime at a relatively low temperature, with carbon dioxide and water that is present or bound in the structure is split off as steam and the plate loses its strength. While the split off carbon dioxide and the Water vapor can usually escape through pressure relief openings by reducing the strength of the thermal insulation panels, voids between the metal shells, in which a heat flow by convection of the existing in them Gas takes place from the fire side to the side facing away from the fire. So that will the "Service life" of such a fire door is limited and the The longer service life necessary for high fire protection requirements is not the case accessible. In the procedure according to the invention, on the other hand, the released carbon dioxide is used and the water vapor for foaming the abundant and at higher temperature water glass that is becoming plastic is used. The foam bubbles themselves stand under one relatively high internal pressure and thus stabilize the plate material, which binds its calcium carbonate has lost in this temperature range.

The essence of the invention is illustrated by way of example with the aid of FIG.

With 1 a door leaf of the fire door is marked, the one-sided is posted and that with its other side on the counter profile of the not shown Door frame rests. It goes without saying that from the corresponding door leaves 1 multi-leaf fire doors can also be formed. The door leaf 1 of the fire door is in the same way on the masonry, for example designed as a fire protection wall posted, the fittings 11.1 and 11.2 together with the bolt 11.3 form the rotatable hinge of the door leaf, the door leaf 1 itself firmly with the Fitting part 11.1 is connected. Strip-shaped inserts made of heat-insulating Materials 12.1 and 12.2 are used for the thermal insulation of the impact in the fold and the resulting gap covering part of the door leaf. The striking side of the door leaf is constructed similarly, the door leaf overhang 13 with the inserted strip-shaped thermal insulation 13.1, 13.2 and 13.3 against this door leaf overhang 13 legends - not shown - part of the frame or the adjacent door leaf protect from the effects of heat. An additional strip-shaped thermal insulation 14 is provided in the area of the front edge of the door leaf 1. Additional pickled Foamable sealing strips 16 ensure that in one Fire the passage of fire gases through the fire door is prevented. The door leaf itself can be kept closed by means of the bolt 15, the bolt 15 can belong to any conventional lock, but in particular to a panic lock.

The inside of the formed from the two sheet metal half-shells 1o 'and 10' ' The door leaf is filled with two layers formed from the thermal insulation panels 21, 22. In addition, three-layer and multi-layer embodiments can of course also be used This invention can be used. Such plates are preferably made of inorganic material, namely various silicates, including calcium. In addition, lime and / or quartz powder are often used as fillers. About that fiber reinforcements can also be provided. These thermal insulation panels are in front their installation soaked with water glass to the residual pores contained in them close and thereby reduce the water absorption of the plates.

In addition, the panels are of the two- or multi-layer panel structure glued together with water glass, and the multilayer structure made of warmed # mm panels is also glued to the sheet metal half-shells lo 'and 102' by means of water glass.

By using the soaked with water glass and by means of water glass bonding Plate-shaped thermal insulation materials joined together to form multilayer thermal insulation inserts 2 the sheet metal half-shells 10 'and 10 "are stabilized, their tendency to bulge under the action of heat is significantly reduced. This assumes that the The cavity between the sheet metal half-shells is completely filled with thermal insulation panels is. This shows another advantage of using water glass: In thick Layers it evens out unevenness. Soaking the thermal insulation panels with water glass closes residual pores still present in the material, the water absorption capacity is significantly reduced. Surprisingly, it has been shown that with Wasserflas Impregnated multi-layer structures have significantly higher resistance against Have the effect of heat. When heating such plates is initially a little Dimensions of the water bound adsorptively on surfaces released. If the temperature rises further Finally, the water of crystallization follows, which is the main part of the released water vapor forms. The expulsion of the chemically bound carbon dioxide only takes place with one further significant temperature rise. In this one from the one facing the fire Side outgoing heating of the fire protection door generally occur in the thermal insulation panels the door insert, especially with the multi-layer structure used, tensions which lead to cracks in the cracks, especially in panels with a high level of fillers lead and so a "crumbling" of the not soaked with water glass, between the Door half-shells located thermal insulation material leads. By soaking with Water glass, which at elevated temperature under the action of the released water vapor and released carbon dioxide foams, the tendency to form such Cracks or cracks prevented from crumbling from the outset, as they arise Close cracks immediately with the resulting water glass foam and the water glass foam the crack walls fixed against each other.

The multi-layer structure also has the significant advantage that the individual layers on a "water glass foam cushion" against each other slightly are movable. The insignificance of mobility is sufficient to do this Stresses caused by different thermal expansion due to different temperatures occur to compensate. The manufacturing advantage of such a multilayer structure is also not to be survived: door leaves of different thicknesses can be used without essentials Problems are produced, the gradation of the door leaf thickness by the choice the layer thickness can be adapted to the requirements of practice. Included it is not necessary that the inserted layers all have the same layer thickness exhibit.

Claims (3)

Claims 1. Fire door with fire-retardant insert for Closing fire compartment passages or the like, consisting of a or several door leaves, each made from two sheet metal half-shells, thereby characterized in that the cavity between the two sheet metal half-shells (10 'and lo ") of the door wing (1) with known thermal insulation panels (21, 22) as fire-retardant and / or insulating inserts are provided, which are impregnated with water glass and by means of Water glass glued to form a multi-layer structure that completely fills the cavity are. 2. Fire door according to claim 1, characterized in that the Multi-layer structure (2) made of the thermal insulation panels glued by means of water glass (21, 22) is glued to the sheet metal half-shells (1o 'and 10' ') by means of a water glass. 3. Fire protection door according to claim 1 or 2, characterized in that that the multilayer structure (2) made of the thermal insulation panels glued by means of water glass (21, 22) made of schiclltfiirroiyen, heat-insulating materials of different layer thickness are formed.