FR2579106A1 - Firebreak device for air conditioning or ventilating ducts - Google Patents

Abstract

In a sleeve 1 that can be inserted in an air duct, the shutter 2 and its pivot 4 can rotate about a horizontal axis under the action of a weight 3 integral with the shutter. A catch 7 integral with the shutter 2 extends from it generally perpendicularly. An actuating member 12 passing through the lower region of the sleeve 1 makes it possible to act on the catch 7 from the outside in order to return the shutter 2 to the open position. The actuating member 12 passes through a screw 14 whose head 15 holds in place the fusible stop element 10 in its hole 11 which is adjacent to the threaded hole receiving the screw 14. The restoration of the shutter 2 to the open position and the instalment of a new fusible stop element 10, from the exterior of the underside of the sleeve 1, which is always accessible, are great advantages.

Description

 Firestop devices for ventilation or air conditioning air pipes are already known, which COInport a safety device doetin8 b obstruct the pipe when the air temperature in the pipe reaches a dangerase value. These known devices comprise a mobile or elastically deformable member which is maintained in an inactive position by a fuse pad at the temperature of the order of 1000C for example, this member automatically coming into the position of obstruction of the pipe when the pad melts.

 One of these known devices comprises a valve formed by a circular plate of diameter substantially equal to the inside diameter of the pipe and pivotally mounted around a horizontal axis, inside this pipe. One of the halves of the plate is ballasted with a mass which tends to bring the valve plate, by gravity, in the vertical closed position of the pipe, while the periphery of the other half cooperates with a fuse pad towards 100 OC for example, which retains the plate in a horizontal position leaving practically the free passage of air in the pipeline. The disadvantage of this known device is that returning the plate to the inactive position and replacing the tablet are difficult. and can only be carried out, in the majority of cases, if the device is mounted very close to an openable end of part of the pipe, allowing access to the device from the inside of the pipe.

 In fact, the pipes are generally mounted in parallel, which makes the pivot axes of the valves practically inaccessible, hence the impossibility of acting on them from outside the pipes.

 Another of these known devices comprises an elastic metal disc of diameter. Substantially equal to the inside diameter of the pipe and fixed inside the latter at the two ends of a diameter of this plate. The two ends of a diameter of this plate which is perpendicular to the first are kept close together, by elastic deformation of the plate, by means of a member connecting these last two ends by means of a fusible piece at a temperature of '' about 10oOC for example. When the air in the pipe reaches a temperature which melts said fusible piece, the member which held the elastically deformed plate ceases to act, and the plate returns to its natural plane position, which obstructs the conduct.

In addition to the fact that the plate in the inactive position constitutes an appreciable obstacle to the circulation of air. in the pipeline, this second known device has the same drawback, mentioned above, as the first known device
The present invention aims to provide a fire stop device for ventilation or air conditioning ducts which is free from the drawback indicated
The device according to the invention comprises a valve plate mounted in a sleeve insertable in the pipe and pivoting about a horizontal axis, one of the halves of this valve plate being ballasted with a mass urging it towards its vertical position active closing of the pipe, a fuse stop at a set temperature being provided to retain the valve plate in the inactive horizontal position as long as the temperature of the air in the pipe is lower than said set temperature, characterized in that the fuse piece for retaining the valve plate in the inactive horizontal position is disposed at the lower part of said sleeve in a sleeve hole accessible from the outside thereof, in that it comprises an angular latch secured to the valve plate, extending in a general direction perpendicular to the plane of this valve plate and the free end of which is designed to cooperate with said fusible part, which projects llie in the sleeve, to retain the valve plate in an inactive horizontal position, and in that ;; it comprises an operating member extending vertically in the sleeve, from the lower part thereof, which it cross member, this operating member being maneuverable from the outside of the sleeve and having a part for engaging with said latch when said fusible piece has melted and the valve plate is in the active closed position, and action is being taken from the outside of the sleeve, towards the bottom, on the operating member, to bring the valve plate back to the horizontal position, before a new fuse piece is put in place.

 The single figure of the accompanying drawing shows, by way of example, an axial section view of an embodiment of the device according to the invention.

 This embodiment comprises a cylindrical sleeve 1 intended to be fixed between two sections - not shown - of a ventilation or air conditioning air duct. Inside this sleeve is a circular valve plate 2 secured to a horizontal pivot 3, the ends of which pass through the sleeve 1. The diameter of the valve 2 is slightly less than the inside diameter of the sleeve 1. The left half ( in the drawing) of the valve 2 is provided with a mass 4 urging it to rotate anticlockwise and to come into the position shown in dashed lines.

 The position of the valve 2 shown in solid lines is its horizontal, inactive position, where it allows free passage to air through the pipe where the sleeve is inserted 1. The position shown in broken lines is the vertical position for closing the valve. 2.In this position, the edge of this valve is applied against two substantially semi-circular ribs 5,6, provided inside the sleeve 1. These ribs are slightly offset, the thickness of the valve 2, to ensure maintaining this valve in a vertical position and a good seal between it and the sleeve 1.

 To maintain the valve 2 in the normal (horizontal) opening position, the following means are provided: a lock 7, constituted for example by a steel blade, is secured, by one of its ends, the valve 2 and its pivot 3, thanks to a weld B. This lock extends downwards, in a general direction perpendicular to the plane of the valve 2. In fact, it is slightly curved as seen on the figure and for a reason which appears further on.

 The free end 9 of the latch 8 abuts (under the action of the weight of the mass 3) against a stop constituted by a piece of metal- fuse at a set temperature, ie between 50 and 1000C for example, which is engaged , from the outside of the sleeve l, in a hole ll which passes through it at its lower part. When the temperature of the air circulating in the pipe where the sleeve 1 is inserted exceeds said set value, the part 10 melts and releases the latch 7 which then no longer prevents the valve 2 from coming into its visible vertical closed position in dashed lines.

To allow the valve 2 to be returned to the open position, when the normal temperature conditions are restored in the pipeline, the following means are provided:
An operating member 12, constituted for example by a steel rod, passes through the lower part of the sleeve 1 and extends vertically in the latter, up to its axis, where it ends in a hook 13 which , when the latch 7 is in its position shown in broken lines, is located just above this latch.

 The actuator 12 axially passes through a screw 14 and its head 15.This screw is engaged in a threaded hole in the sleeve l. The lower end of 12 ends with an actuation ring 16.

 In the position of the members shown, the hook 13 is supposed to cooperate with the latch 7 which is in the visible position in mixed lines, position reached after the part 10 has melted. To return the latch 7 to its working position (solid lines), it suffices to pull down its actuation ring 16. Then, while holding the member 12 down, we unscrew the screw 14, we put in place a new fuse stop 10 in hole ll and replace screw 14. From then on, the head 15 of the screw 14 retains the stop 10 in its hole 11. When this part 10 melts, the rotation of the released bolt 7 raises the operating member 12 in the position shown in solid lines. The curved shape of the latch 7 is provided to facilitate the upward movement of the member 12. It is in fact advisable that there be no blockage between 7 and 12, which would prevent the valve 2 from closing.

 It can be seen from the above that the device described has the great advantage of allowing the valve 2 to return to the open position by an easy action stexerating outside the pipe and in the region. bottom of it, which is always accessible. Likewise, the replacement of the fuse stop 10 takes place from the outside of this lower part.

 An additional advantage of the device described is that by inspecting the pipes, we can see at a glance that in which the safety valve 2 has closed due to an excessive temperature rise in the pipe. Indeed, after closing the valve, the ring 16 is in the upper position.

Claims (3)

Claims  1. Firestop device for ventilation or supply air ducts, comprising urine valve plate (2) mounted in a sleeve (1) in @@ iale in the duct and pivoting about a horizontal axis (4), one of the halves of this valve plate being ballasted with a mass (3) urging it towards its active vertical position for closing the pipe, a stop (10) fusible at a set temperature being provided to retain the plate- valve (2) in horizontal position inactive as long as the air temperature in the pipeline is lower than said set temperature, characterized in that the fusible piece (10) for retaining the valve plate (2) in horizontal position inactive is disposed at the lower part of said sleeve (1) in a hole in the sleeve (l) accessible from the outside thereof, in that it comprises a lock (7) angularly integral with the valve plate (2 ), extending in a general direction perpendicular to the plane d e this valve plate (2) and the free end of which is designed to cooperate with said fusible part (1 (10), which projects into the sleeve (1), to retain the valve plate (2) in the inactive horizontal position, and in that it comprises an operating member (12) extending vertically in the sleeve (1), from the lower part thereof, which it passes through, this operating member (12) being maneuverable from the outside of the sleeve (1) and having a part (13) for engaging with said latch (7) when said fusible piece (10) has melted and the valve plate (2) is in the active closed position , and that one acts from the outside of the sleeve (1), in the downward direction, on the operating member (12), to bring the valve plate (2) in a horizontal position, before a new fuse part (10) is installed.  2. Device according to claim l, characterized in that it comprises a screw (14) cooperating with a threaded hole in the lower part of the pipe, in that this screw is traversed axially by the operating member (12) , which has at its lower end a head (16) for pulling it down until the arrival of the valve plate in a horizontal position.  3. Device according to claim 2, characterized in that said fusible part (10) is engaged in a hole (11) of the sleeve (1) which is adjacent to the threaded hole in which said screw (14) is intended to engage , the head (15) of this screw (14) being designed to retain said fusible part (10) engaged in its hole (II).