PL205587B1 - Fire protection cut off flap - Google Patents

Abstract

A Fire damper composed of the body where division is self-aligning fixed against the axis division of the closing spring device ( 2 ) and releasing fuse link element ( 3 ) are placed inside the body ( 5 ) in the plane perpendicular to the axis ( 1 ) where the division is fixed on ( 6 ), and besides, there is a flexible sealing ring ( 11 ) fixed on the notch made in the circumference of the division ( 6 ) that works closely with thermal expanding gasket ( 12 ) located inside on the body wall ( 5 ) in lateral plane corresponding to the position of the division ( 6 ) in the closed position. There can also be at least two rows of lengthwise holes ( 13 ) on the body wall ( 5 ) in lateral plane corresponding to the position of the division ( 6 ) in the closed position, protecting against heat conduction along the vent duct walls. Additional feature is the fact that there are limit switches ( 8 ) and ( 9 ) placed inside the body ( 5 ), monitoring division's position ( 6 ). The nipple or sleeve make allows for easier cut off flap valve mounting in the vent or air-conditioning installation.

Description

Description of the invention

The subject of the invention is a cut-off fire damper.

One of the problems that must be dealt with when creating ventilation and air-conditioning installations is fire protection of a ventilated or air-conditioned facility. Unprotected ventilation and air conditioning ducts passing through building partitions constitute a way of spreading the fire, thus reducing the degree of fire protection of the building. The solution to the problem is to install in these installations elements that cut off the hazardous zone from the rest of the installation. These elements help to maintain the fire resistance of building partitions through which ventilation and / or air conditioning ducts are led. In this way, they protect the remaining zones against hot fumes and gases and enable the normal operation of the installation with the elements of the rest of the building. Such elements are fire dampers, which are fire safety elements installed in the passages of ventilation and / or air conditioning ducts through walls and ceilings.

Various solutions of automatic and controlled shut-off dampers are known from the patent literature. British patent application GB 2399497 shows a shut-off hatch located outside the ventilation duct, provided with a spring tensioning mechanism. The damper is kept in the open position by the outer wall of the ventilation duct. The duct is closed as a result of the heated ventilation duct losing stiffness. The pressure of the flap on the wall of the conduit caused by the spring mechanism causes a progressive denting of the conduit wall, until the flow is completely cut off.

EP 0 829 689 shows a flap mounted axially in a constriction inside a ventilation duct. This narrowing is a ring with the damper rotation axis embedded in the horizontal plane. Both the ring and the flap are formed in such a way that the flap, rotating through 90 °, rests against the step formed in the ring. Additionally, there are flexible plates on the flap and the ring, which additionally seal the flap in the closed position.

The design of the flap, described in the Swedish patent specification SE 9003794, was solved in a different way. The flap located inside the body is mounted on an axis, which after leaving the body is bent at right angles. The bent end of the axis that comes outwards is based on a fusible link which, while melting under the influence of temperature, releases it, allowing the operation of a spiral spring located on the damper rotation axis. This causes the flap to rotate and the gas flow is closed.

A shut-off fire damper containing a body inside which is pivotally mounted, a partition on the axis, a spring closing mechanism and a fusible release mechanism, and includes a thermo-expansion gasket placed on the internal wall of the body, according to the invention, it is characterized in that the spring closing mechanism and the fusible release mechanism are arranged in planes perpendicular to the axis on which the barrier is mounted, and in the cut made on the perimeter of the barrier, there is a flexible sealing ring cooperating with a thermo-expanding gasket.

Preferably, oblong openings are made on the body wall in the transverse plane corresponding to the position of the partition in the closed position to prevent heat conduction along the walls of the ventilation duct.

Inside the body, there are limit switches signaling the position of the partition.

Preferably, the fusible release mechanism is connected in series with an electromagnet, which enables remote control of the bulkhead.

The subject of the invention is presented in the drawing, in which fig. 1 shows a longitudinal half-view-half-section of the hatch in the female version in the closed position, while fig. 2 shows a longitudinal half-view-half-section of the hatch in the nipple version in the open position, and fig. 3 shows a cross-section view of the hatch. equipped with limit switches in the closed position. Fig. 4 shows a sectional detail of the partition edge.

Across the tubular body 5 is mounted in bearings 4, the axis 1 of the partition 6. The partition 6, made of a heat-resistant material, is kept in the open position by means of a fusible release mechanism 3. Additionally, the partition 6 is connected to the body 5 by a spring 2. Spring the closing mechanism 2 and the fusible release mechanism 3 are placed inside the body 5 in a plane perpendicular to the axis 1 on which the

Partition 6. The partition 6 has a circumferential cut 10 in which a flexible sealing ring 11 is mounted, cooperating with a thermo-expansion seal 12 provided on the inner wall of the body 5 in a transverse plane corresponding to the closed position of the partition 6. In order to impede heat conduction through the body 5, on its wall, in the transverse plane corresponding to the position of the partition 6 in the closed position, oblong holes 13 are made. Signaling of the position of the partition 6 is provided by the use of limit indicators placed inside the body 5. A limit switch is mounted on the bracket 7. 9 signaling the position of the partition 6 in the open position. The limit indicator 8 signals the position of the partition 6 in the closed position.

The damper body 5 has a diameter similar to that of the ventilation duct, which greatly facilitates the installation of the installation. The damper can be made in two variants of bodies 5. In the nipple version, ventilation ducts are placed on the ends of the damper body 5, while in the sleeve version, the ends of the ventilation ducts are inserted inside the body 5. The damper is open during normal operation of the ventilation system. The zone in which the fire broke out is automatically separated by closing the partition 6 as a result of the temperature increase in the ventilation duct and the activation of the fusible release mechanism 3, which in turn releases the potential energy accumulated in the tensioned spring of the closing mechanism 2. Optionally, it is possible to connect it in series to fusible release mechanism 3 of the electromagnet, which enables remote control of the partition position 6.

Claims (4)

Patent claims 1. A cut-off fire damper containing a body inside which a partition is pivotally mounted, on its axis a partition, a spring closing mechanism and a fusible release mechanism, and it includes a thermo-expansion gasket placed on the inner wall of the body, characterized in that the spring closing mechanism (2) and the fusible release mechanism (3) ) are placed in planes perpendicular to the axis (1) on which the partition (6) is mounted, and in the cut (10) made on the perimeter of the partition (6) there is a flexible sealing ring (11) cooperating with the thermo-expanding gasket (12). 2. The flap according to claim The device according to claim 1, characterized in that elongated openings (13) are made on the body wall (5) in a transverse plane corresponding to the closed position of the partition (6) to prevent heat conduction along the walls of the ventilation conduit. 3. The flap according to claim A device according to claim 1, characterized in that limit switches (8, 9) signaling the position of the partition (6) are located inside the body (5). 4. The flap according to claim The fusible release mechanism (3) is connected in series with an electromagnet, which enables remote control of the bulkhead (6).