EP0921263B1 - Armoured fireproof panel - Google Patents

Description

The present invention relates to an armored firebreak panel against radiation.

It relates more particularly to a panel, for the production of standard doors, of the type consisting of laminate formed from the side most exposed to fire towards the other side, with at least one layer of lead forming a anti-radiation screen and a soul constituting the resistance structure of said panel.

The armored fireproof door units that currently exist on the market are above all fire-resistant door units standards that have been modified by adding at least a layer of a material, especially a layer of lead, forming a radiation screen. This results in a significant increase in the thickness of the door panel no longer making it possible to obtain door blocks of dimension standard easier to install. It also results in a relatively high weight door block that works significantly the mechanical elements, in particularly the closing and opening device of said door integrated into the assembly. Finally, this type of block door is generally designed so that it cannot withstand the fire for only half an hour.

Such an example of a door unit is provided in particular in the patent FR-A-1,367,709 where each lead sheet is inserted between two plates which can be assembled via complementary shapes thus providing a housing for receipt of lead sheet.

Similarly, document DE-A-1,139,967 provides for the completion a lead frame glued to the periphery of a plate lead, the assembly being arranged to cooperate with a jamb also incorporating lead. All of these solutions are cumbersome and complex to carry out.

The aim of the present invention is therefore to propose a armored panel, in particular against X-rays, and fire rated for at least three quarter of an hour, without the thickness of the panel is increased considerably.

To this end, the invention relates to a fire barrier shielded against radiation, especially for production of standard doors and door frames, of the type made up of a formed laminate, from the most exposed area fire towards the area least exposed to fire of said panel, at least one layer of lead forming an anti-radiation screen and of a soul constituting the structure of resistance of the panel, characterized in that the laminate further comprises at least one thin layer of a thermally conductive material with a melting point high placed between lead layer and core of the laminate so as to distribute the heat produced during the melting of lead layer when subjected to elevation accidental temperature.

It was thus surprisingly found that adding a layer of a thermally material high melting point conductor increased so considerable the fire resistance of said panel. Indeed, this layer has in particular the function of protecting the soul of the panel against fire by dissipating heat on its surface, thus eliminating any creation of point hot spots and because of its thin thickness, does not exercise of mechanical stress on the surface of said core at may distort the whole.

According to a preferred embodiment of the invention, the panel is characterized in that the material layer thermally conductive at high melting point laminate is a layer of copper.

The use of both a copper layer and a lead layer provides an armored panel of low thickness at a reduced cost with fire resistance and smoke equal to one hour.

la figure 1 représente une vue en coupe transversale d'un bloc-porte à un seul vantail formé de panneaux conformes à l'invention et

la figure 2 représente une vue en coupe transversale d'un bloc-porte à deux vantaux formés de panneaux conformes à l'invention.

The invention will be clearly understood on reading the following description of an exemplary embodiment, with reference to the accompanying drawings in which:

FIG. 1 represents a cross-sectional view of a door unit with a single leaf formed from panels according to the invention and

2 shows a cross-sectional view of a door block with two leaves formed from panels according to the invention.

Radiation shielded fire panel, object of the invention, can be used in many applications. However, one of the favorite apps of this panel is the realization of doors and door jambs as shown in Figure 1, which represents a door jamb and a door to a leaf, and Figure 2 which represents a frame of door and a door with two leaves. This app is preferred because of the possibility of obtaining with such panel a particularly reduced panel thickness allowing to respect the standard dimensions door thickness.

The door panel and the door panel appear each in the form of a laminate. This laminate is consisting of the area most exposed to fire towards the area least exposed to fire, at least one layer of lead 2A forming an anti-radiation screen and a core 1 constituting the resistance structure of said panel. This laminate further comprises at least one layer 3 of low thickness of a thermally conductive point material high fusion disposed between lead layer 2A and core 1 of the laminated to distribute the heat produced during the fusion of the lead layer 2A when it is subjected at an accidental temperature rise.

In the examples shown, the material layer thermally conductive at high melting point laminate is a layer of copper. The thickness of this layer is less than 0.6 mm, preferably close to 0.3 mm, to limit the mechanical stresses exerted on the core 1 of the panel when it is subjected to a accidental temperature rise. This layer of copper 3 is preferably placed in contact with the layer lead 2A so as to facilitate the distribution of heat of the lead layer. Generally the layer of copper 3 and the lead layer 2A are in the form of two sheets assembled by gluing. It is well obvious that even if, above, the exemplary embodiment has been limited to a layer of copper, this layer of copper can be replaced with a layer of any other material thermally conductive with high melting point.

To guarantee a particularly radiation screen effective, this laminate will include as shown in the figure 1, at least two layers of lead 2A, 2B arranged on the side and other of the core 1. The thickness of each layer of lead is at least equal to 0.4 mm, preferably close to 1 mm. It is also possible to double inside the lead layer 2B of a copper layer, as has been done for layer 2A.

Core 1 of the laminate consists of a high density wood panel, such as chipboard. So at as an example, the core 1 of this laminate is made up a panel classified fire type M1, with a thickness of around 35 mm.

Consequently, the component panel of the door, such as shown in Figures 1 and 2, is in the form of a laminate consisting, from its face most exposed to fire, towards the other side, with a facing layer 4A such as a hardwood fiber board with high fire resistance, a layer of lead 2A, a layer of copper 3, a core 1 consisting of a high density wooden panel, a lead layer 2B and a facing layer 4B of fibers hard wood with high fire resistance.

In the case of application of such panels to the realization of a door, it is necessary to provide, in particular in the frame, various wooden blocks coming to complete the realization of this laminate. Such blocks are for example represented by the reference 6 to the figure 1. Similarly, in the case of an application to a door, the panels used respectively for the realization of the door and the frame will be equipped of fire seals and all of the elements known per se guaranteeing good fire resistance of a door. Finally in the case of a door with two leaves, the flapping plate 7 between the leaves presents itself also in the form of a laminate meeting the panel definition provided above.

Claims (9)

1. Firebreak panel reinforced against radiation, more especially for producing standard doors and frames, of the type comprising a laminate which, in the position of use and from the zone of said panel the most exposed to the fire to the zone of said panel the least exposed to the fire, is formed from at least one lead layer (2A), forming an anti-radiation screen, and a core (1) constituting the resistance structure of the panel, characterised in that the laminate comprises, in addition, at least one thin layer (3) of a heat-conductive material, which has a high melting point and is disposed between the lead layer (2A) and the core (1) of the laminate so as to distribute the heat produced during the melting of the lead layer (2A) when it is subjected to an accidental increase in temperature.
2. Panel according to claim 1, characterised in that the layer (3) of the laminate, which is formed from a heat-conductive material having a high melting point, is a copper layer.
3. Panel according to one of claims 1 and 2, characterised in that the thickness of the layer (3) of the laminate, which is formed from a heat-conductive material having a high melting point, is less than 0.6 mm in order to limit the mechanical constraints exerted on the core (1) of the panel when said panel is subjected to an accidental increase in temperature.
4. Panel according to one of claims 1 to 3, characterised in that the layer of the laminate, which is formed from a heat-conductive material having a high melting point, is in contact with the lead layer (2A).
5. Panel according to one of claims 1 to 4, characterised in that the layers of the laminate, which are formed from a heat-conductive material (3), having a high melting point, and from lead (2A), are assembled by gluing.
6. Panel according to one of claims 1 to 5, characterised in that the laminate comprises at least two lead layers (2A, 2B) disposed on each side of the core, the thickness of each lead layer being at least equal to 0.4 mm.
7. Panel according to one of claims 1 to 6, characterised in that the core (1) of the laminate is formed from a high-density wood panel, such as an agglomerate.
8. Panel according to one of claims 1 to 7, characterised in that the laminate comprises, in its position of use and from its face the most exposed to the fire to the other face, at least one facing layer (4A), such as a panel of hardwood fibres which have a high level of fire resistance, its lead layer (2A), its copper layer (3), its core (1) formed from a high-density wood panel, a lead layer (2B) and a facing layer (4B), such as a panel of hardwood fibres having a high level of fire resistance.
9. Composite door of the type comprising a frame and a door with one or two leaves, characterised in that the frame and the door leaf or leaves are formed from a laminated panel according to one of claims 1 to 8.

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