FR2973823A1 - Fire block door for use in building i.e. home, has lock for locking leaf in closed position, where lock includes electromagnetic suction cup having electromagnet fixed to frame and against metal plate - Google Patents

Abstract

The door (1) has a frame (2) including two fixed vertical posts (21, 22) and a cross-piece (23) made from a steel sheet to form a box filled with insulating fireproof material. A leaf (4) is rotatably mounted around a vertical axis (Z-Z') on the frame between a closed position for pressing the leaf against the posts and the cross-piece and an open position for separating the leaf from the frame. A lock (6) for locking the leaf in the closed position includes an electromagnetic suction cup (7) having an electromagnet (71) fixed to the frame and against a metal plate.

Description

The present invention relates to the technical field of designing and producing sashes, in particular for premises for collective use. More particularly, the invention relates to the field of fire doors. These doors, as their name suggests, have the function of resisting fire and stem the spread of fire when a fire breaks out in a building. Fire doors are usually installed inside buildings. Their fire resistance properties result from their particular structure made of non-flammable and / or flame retardant materials. In particular, the fire doors usually comprise a panel consisting of a sandwich of rock wool and mineral fibers trapped between two metal clad electrogalvanized steel for example. In addition, the fire doors are generally also provided on their periphery with intumescent seals intended to obstruct the joints between a door and its frame to prevent the diffusion of fumes by these joints. These intumescent seals consist of materials that expand under the effect of heat and form a refractory mass in the door seams that fill all gaps between the frame and the leaf for maximum fireproofness.

Perfectly developed for their primary function of fire resistance, the fire doors currently implemented are traditionally equipped with electromechanical locking systems lock or electric lock. These mechanical locking systems have the disadvantage of requiring significant maintenance because of their rapid wear under normal conditions of use, that is to say out of fire. These systems are also highly susceptible to vandalism. In addition, in case of fire declared, it is common that the power supply within the burned rooms is cut off. Such locking systems are then blocked and unusable and the doors equipped are completely locked. Catastrophic consequences may result if people are evacuated from the scene. The object of the present invention is to provide a fire door which does not suffer from the disadvantages of known fire doors and their mechanical locking systems. The invention achieves this goal through a fire door block comprising: - a fixed frame having at least two vertical uprights connected at their upper ends by a cross member and defining a rectangular opening passage, the amounts and crosses being constituted to from assembled steel sheets forming an internal box filled with a flame retardant insulating material, and - a leaf mounted to rotate about a vertical axis on the frame between a closed position in which the leaf is pressed against the uprights and passes through the frame to close said rectangular opening and an open position in which the leaf is spaced from the frame by a rotation about its axis, the leaf having an outer face formed of steel sheets assembled to form a box filled with less than a flame retardant insulating material, and .means for locking the leaf in the closed position on the frame. In a new and inventive way, the door block of the present invention is designed such that the locking means comprise at least one electromagnetic suction cup comprising an electromagnet fixed to the frame and a metal counter plate fixed opposite the electromagnet on the leaf. Electromagnetic locking systems have many advantages for closing residential and communal doors. In particular, these systems are much less fragile and subject to pure vandalism, that is to say to the destruction, than lock systems by locks and / or traditional handles. Their maintenance is therefore infrequent and inexpensive. In addition, unlike electromechanical locking systems, the electromagnetic vacuum pads have the advantage in case of power failure to leave the leaf unlocked relative to the frame of the door block. According to one embodiment, the locking means comprise at least two electromagnetic suckers each comprising an electromagnet fixed in a rabbet of an amount of the frame opposite to the axis of rotation of the leaf and a counterplate fixed on the leaf opposite. of one of the electromagnets. In a usual and advantageous manner, the locking means comprise a device for actuating the magnetic suction cups comprising at least one switch for supplying the electromagnet with said magnetic suction cups. Furthermore, the door block of the invention also comprises at least one intumescent gasket housed in a leaf plating rabbet formed in at least one upright of the frame or on a peripheral field of the leaf, preferably in each of the uprights and the crosses the frame or on each peripheral field of the leaf. Here, the term "peripheral field" of the leaf means the sides of the latter delimiting its periphery. According to one advantageous embodiment, the fireproof insulating material for filling the frame and the leaf comprises at least rockwool, preferably having a density greater than or equal to 130 kg / m 3. Advantageously, the rock wool then has a thickness of at least 50 mm. In an alternative embodiment of the invention, the leaf also comprises reinforcing members comprising folded steel reinforcements welded and glued between the steel facings.

Finally, the door block of the invention also advantageously comprises a cold smoke seal attached to the periphery of the frame defining the rectangular opening passage in which can pivot the door. Various other characteristics appear from the description given below with reference to the accompanying drawings which show, by way of non-limiting examples, a preferred embodiment of a door locking mechanism and a door unit incorporating a such mechanism according to the invention. In the accompanying figures: - Figure 1 shows a door block according to the present invention seen from the front; - Figure 2 shows a longitudinal sectional view of a door block as shown in Figure 1; FIG. 3 represents a horizontal cross-sectional view of a door block as represented in FIG.

The present invention proposes a fire door block 1 shown in FIGS. 1 to 3. This door block 1 is composed of a frame 2 on which is mounted a leaf 4 pivoting about a vertical axis ZZ 'embodied by connecting hinges of the leaf 4, by a said pivot side 41, on the frame 2.

The frame 2 is formed of two uprights 21, 22 and a crossbar 23 made from electrogalvanized steel sheets, preferably with a thickness of at least 20 / 10th mm, assembled by welding. The uprights 21, 22 are joined at the bottom by a stainless steel plate 24 by welding. The frame 2 thus defines a rectangular passage opening obstructed by the leaf 4 pressed against the frame 2 in a first position P1 closing the leaf and free passage in a second position P2 in which the leaf 4 is spaced from the frame 2 after a pivoting at least 70 ° to 90 ° about its axis ZZ 'from position P1. The amounts 21, 22 and 23 through the frame 2 form a rebate bearing 30 of the leaf 4 in the closed position P1 shown in Figures 1 to 3. An intumescent seal 8 self-adhesive is housed in the bottom of this rabbet 25. Known manner, such an intumescent gasket is intended to melt and expand under the effect of heat during a fire to form at the joints 26 between the frame 2 and the leaf 4 in the closed position P1 refractory mass closing and connecting the leaf 4 on the frame 2 preventing the passage of smoke and flame through these seams 26. In addition, the frame 2 is also equipped with a cold smoke seal 9 mounted on aluminum profile and maintained by self-drilling screws on the inner periphery of the frame 2. This cold smoke seal 9 serves to fight, as its name suggests, against the passage of cold fumes that do not trigger the intumescent seal 8 because of their temperature too low . The frame 2 defines by its constitution of steel sheets welded together a hollow internal box which is filled with a double thickness of rockwool 10 with a thickness of at least 50 mm and a density greater than or equal to 135 kg / m3. This rock wool 10 is a mass of flame retardant material. The frame 2 is intended to be fixed on the edges of a rectangular embrasure in a wall of a construction by means of expansion plugs. The peripheral seal between the splay of the support wall and the frame 2 is achieved by the implementation of expansive foam sealed with a silicone bead, also intumescent. The leaf 4 is itself formed by two sheets 41, 42 of galvanized steel folded with a thickness preferably equal to 15 / 10th mm, forming once assembled to each other by their edge a hollow box filled by rockwool 11 having a thickness of at least 50 mm and a density of at least 135 kg / m3, similar to that of the posts 21, 22 and 23 of the frame 2. The wool panels of rock 11 are held on the sheets 41, 42 by means of glue. The assembly of the two steel sheets 41, 42 forming the facing of the leaf 4 is made laterally on the pivot side 43 and in the upper part 44 and lower 45 by self-drilling sheet metal screws; the assembly opposite the pivot side 43, said closing side 46, is provided by stainless rivets.

The leaf 4 formed by the two steel sheets 41, 42 assembled is preferably reinforced by the implementation of omega reinforcement, not shown, folded electrogalvanized steel sheet. These are fixed on the sheets 41, 42 by gluing and welding.

Finally, a self-adhesive intumescent gasket is preferably placed on the pivot side 43 and in the upper part 44 of the leaf 4. In the embodiment shown, the leaf 4 is provided with a rectangular oculus 47 of glazing clear dimensions 500. x 500 mm in protective glass tested and tested against heat, flames and hot gases. This glass may for example be of the Pyrostop 30-20 type, for example 18 mm thick PILKINGTON® brand with a fire resistance of 30 minutes inside / outside, or Pyrostop 60-101 brand PILKINGTON® 18 thickness mm with an internal / external fire resistance of 60 minutes. Glazing of the glazing is carried out at the periphery by shims of steel glazing, associated with an intumescent joint strip. Finally, a silicone bead is used on the entire outline of the glazing between the frame and the glazing shims. The leaf 4 is hinged on three steel hinges 48 on the upright 22 of the frame 2. The hinges 48 are fixed to the frame 2 by continuous weld seams. It is also equipped on the hinges side 48 of a P opening handle.

According to the present invention, the leaf 4 is finally locked on the frame 2 at the level of the rabbet 25 of the upright 21 by means of locking means 6 comprising at least one, and preferably at least two electromagnetic suckers 7, of more preferably a force of 250 daN. Each electromagnetic lock 7 comprises firstly an electromagnet 71 fixed on the upright 21 in the rabbet 25 by means of two grub screws with the interposition of a compression spring, not shown in the figures. The electromagnetic suction cups 7 also comprise, secondly, a counter-plate 72 fixed facing an electromagnet 71 along the closing side 46 of the leaf 4 via an EPDM (Ethylene Propylene Diene-Monomer) rubber seal. .

The locking means 6 also include associated with the suction cups 7 a device 73 for actuating the suction cups at least one power switch of the electromagnet 71 of said magnetic suction cups to allow a temporary stop of the magnetic attraction provided by the electromagnets for allow, under normal conditions of use of the door block 1, that is to say out of fire, an opening of the leaf 4 from the position P1 to the open position P2 to pass through the rectangular opening of the frame 2 This actuating device 73 can in particular be constituted by a European cylinder, a badge reader, or a simple pushbutton mounted on an upright 21, 22 of the frame 1 and electrically connected to the electromagnets 71 of the suction cups 7, themselves connected to each other. to an electrical power source. Finally, the door block 1 may also be equipped with an arm and slide door closer 12 installed opposite the hinges 48. Thus, the door block 1 of the present invention provides a fire door construction assembly. equipped with a non-mechanical locking system but with electromagnetic suction cups 7, which are not very fragile and require little maintenance under normal conditions of use. In addition, the combination of intumescent seals and cold smoke seals in the rabbets 25 of the frame 2 and around the periphery of the leaf 4 ensure in case of fire effective obstruction of the seams 26 between leaf 4 and frame 2 to prevent the passage of smoke and limit the spread of fire while blocking the leaf in the closed position P1 on the frame 2. The door block 1 of the invention thus allows a high performance and secure use of a fire door inside of buildings that require little or no maintenance and are not very sensitive to deterioration while guaranteeing high resistance to fires.

Claims (8)

REVENDICATIONS1. Fire door block (1) comprising: a fixed frame (2) having at least two vertical uprights (21, 22) connected at their upper ends by a cross member (23) and defining a rectangular opening passage, the amounts and cross-member being made from assembled steel sheets forming an internal box filled with a flame retardant insulating material (3), and a leaf (4) rotatably mounted around a vertical axis (Z-Z ') on the frame (2) between a closed position (P1) in which the leaf is pressed against the uprights (21, 22) and crosses (23) of the frame to close said rectangular opening and an open position (P2) in which the leaf is removed from the frame (2) by a rotation about its axis (Z-Z '), the leaf comprising an outer face formed of steel sheets (41, 42) assembled to form a box filled with at least one flame-retardant insulating material (5), and means (6) for locking the leaf in a position of closure (P1) on the frame (2), characterized in that the locking means (6) comprise at least one electromagnetic sucker (7) comprising an electromagnet (71) fixed on the frame and a counterplate (72) metal fixed next to the electromagnet on the leaf. 2. fire door (1) according to claim 1, characterized in that the locking means (6) comprise at least two electromagnetic suction cups (7) each comprising an electromagnet (71) fixed in a rabbet (25) an amount of the frame opposite to the axis of rotation (Z-Z ') of the leaf (4) and a back plate (72) fixed on the leaf (4) facing one of the electromagnets (71). 830 3. fire door (1) according to claim 1 or 2, characterized in that the locking means (6) comprise a device (73) for actuating the magnetic suction cups (7) comprising at least one switch d supplying the electromagnet (71) with said magnetic suction cups. 4. fire door (1) according to one of claims 1 to 3, characterized in that it comprises at least one intumescent gasket housed in a rabbet (25) for plating the leaf (4) formed in minus one of the frame (2) or on a peripheral field of the leaf, preferably in each of the uprights and the crossbar of the frame or on each peripheral field of the leaf. 5. fire door (1) according to one of claims 1 to 4, characterized in that the fireproof insulating material (3, 5) for filling the frame and the leaf comprises at least rock wool, preferably of density greater than or equal to 130 kg / m3. 6. fire door (1) according to claim 5, characterized in that the rock wool has a thickness of at least 50 mm. Fireproof door block (1) according to one of claims 1 to 6, characterized in that the leaf (4) comprises reinforcing members comprising folded steel reinforcements welded and glued between the seams steel. 8. fire door (1) according to one of claims 1 to 7, characterized in that it comprises a cold smoke seal fixed on the periphery of the frame (2) defining said rectangular opening.