DE102009043026A1 - Pressure relief flap for fire protection system in staircase to lock extractor hood, during fire in building, has pretensioning device engaged at lever such that arm is enlarged between point and axis during increased swinging of lamella - Google Patents

Abstract

The flap has an outlet opening (2) closable by a lamella (1), which is hanged by dead weight in a position and tiltable over a rotation axis (6). The lamella has a contact surface (3) supplied with outlet air to rotate the lamella. The lamella is provided with a lever, and a pretensioning device exerts pretensioning force during swinging and releasing of the outlet opening on the lamella. The pretensioning device engages at the lever such that a lever arm introducing engaging force is enlarged between an engaging point and the axis during increased swinging of the lamella.

Description

The present invention relates to a pressure relief flap, in particular for fire protection systems, in detail with the features according to the preamble of claim 1.

Pressure relief flaps in fire protection systems are installed, for example, in staircases to close a trigger, as long as the air pressure in the stairwell has not exceeded a certain value, and then to open this deduction when the predetermined value has been reached or exceeded. In building fires, it is customary to pressurize the staircases with compressed air in order to set in them a certain overpressure to the environment and thereby prevent smoke from entering the stairwell. However, the predetermined overpressure may not exceed a certain value, for example 50 Pa, since otherwise there is the danger that escape doors, contrary to this overpressure, can no longer be opened sufficiently easily, for example by children. Task of a pressure relief valve, as it relates to the present invention, it is therefore to set the desired pressure by discharging more or less air, when at the same time by means of a blower at another point compressed air is blown into the stairwell.

Since such pressure relief valves must work extremely reliable, they are usually operated only by the pressure in the flow direction of the air in front of the pressure relief valve or by the pressure drop across the pressure relief valve. Thus, at least one blade, usually provided a plurality of fins, which are pivotally suspended above a rotation axis, usually at its upper end, and close the exhaust port spent by its own weight in the closed position. If now builds up a corresponding overpressure in front of the pressure relief flap, so the air, referred to here exhaust air, attacks on the one or more fins and pushes them in the open position to release the vent opening. If a plurality of fins are provided, they can for example work in the manner of a blind and thus be simultaneously pivoted by the exhaust air.

In order to enable easier pivoting into the open position of the lamella (s), a biasing device, for example in the form of a counterweight, may be provided, which acts on the lamella (s) in the sense of opening the discharge opening with a biasing force. Although with such biasing means a slight initial opening of the pressure relief valve is made possible, the known pressure relief valves have the disadvantage that, in particular with lamellae suspended at its upper end, with increasing the opening angle, the pressure force which are applied by the exhaust air to the lamella (s) must, increases, so that the known pressure relief valves with increasing flow velocity of the exhaust air have a greater pressure loss, which leads to an increase in the pressure in front of the pressure relief valve.

The present invention has for its object to provide a pressure relief valve, which does not have the disadvantage mentioned and in which the force required to open the vent by pivoting at least one blade or a plurality of fins, which must be applied by the exhaust air, at large Deflection angles is comparatively reduced. Furthermore, the pressure relief valve according to the invention should have a particularly low pressure loss even at high flow velocities of the exhaust air or at large exhaust air quantities that pass through the pressure relief valve.

The object of the invention is achieved by a pressure relief flap with the features of claim 1. in the dependent claims advantageous and particularly expedient embodiments of the invention are given.

The pressure relief flap according to the invention is particularly suitable for fire protection systems in which a room, such as a staircase of a building, is acted upon by blowing air with an overpressure, the pressure relief flap provides a vent opening for this room so that the desired pressure in the room is maintained without exceeding a predetermined limit.

The pressure relief flap according to the invention accordingly has a vent opening, which can be closed by at least one lamella, usually a plurality of lamellae. If a plurality of slats is provided, the slats can be arranged, for example, in the manner of a blind, that is aligned parallel to each other with its axis of rotation so that the slats in the closed state by abutment together form a common surface and in the open state corresponding slots or release openings.

The at least one lamella is suspended in such a way pivotally about a rotation axis, that they pass through its own weight is pivoted into a position closing the exhaust opening and is pivoted by applying exhaust air through the exhaust air attack in a release position releasing the position. Accordingly, the lamella has an attack surface for the exhaust air, which upon pressurization by the exhaust air (in principle, an attack surface with a Saugbeaufschlagung conceivable) exerts a torque on the blade such that the blade in the open, that is the exhaust port releasing position, is pivoted.

In order to enable a particularly easy pivoting of the blade and thus releasing the exhaust port, the blade is provided with a lever to which a biasing device engages and exerts a biasing force in the sense of pivoting the blade or releasing the exhaust port. For this purpose, the biasing device engages at a predetermined engagement point on the lever in order to effect a corresponding torque on the axis of rotation of the blade. In a plurality of the exhaust opening together closing or releasing slats can be provided either per slat or for a certain number of slats each have a lever on which attacks its own biasing device. Particularly advantageous, however, a single biasing device is provided for all slats, which acts either on a plurality of levers for the different slats or on a single lever of a blade, in the latter case, the various slats are then coupled to each other via a corresponding mechanism such that by pivoting the one blade with the lever at the same time also the other slats are pivoted accordingly.

According to the invention, the prestressing device now engages on the lever in such a way that an attacking force in the sense of pivoting into the position of the lamella releasing the trigger opening, which extends between the point of application of the prestressing device and the axis of rotation of the lamella, increases with increasing pivoting of the lamella is enlarged.

This invention increasing enlargement of the lever arm can be achieved particularly advantageous in that the biasing device is connected via a slotted guide with the lever. For example, a slot-shaped gate, which is particularly straight, provided in the lever, in which a pin or a web, also called sliding block, is slidably mounted, wherein the length of the lever arm by sliding or moving the pin / web or the sliding block is changed. The biasing means exerts the biasing force, in particular a tensile force or compressive force, on the pin, the web or the sliding block, wherein the lever converts this force into a torque, so that with the displacement of the pin, web or sliding block in the backdrop at constant biasing force acting torque is varied by changing the lever arm.

Now, if the blade is pivoted in the direction of the release opening releasing position, so the pivoting arm is increasingly extended during this pivoting, whereby the increasing torque, which is necessary to rotate the blade further in the direction of the releasing position, compensated or even overcompensated , whereas with decreasing acting on the blade pressure of the exhaust air with the pivoting of the blade in the direction of the exhaust port closing position of the lever arm is again shortened so that the biasing moment acting on the lamella, thereby reducing a particularly safe and Complete closing the exhaust port can be achieved without the risk that due to a high biasing force, the blade remains in a slightly open position.

In principle, a force accumulator of the prestressing device, which applies the pretensioning force, can be embodied in various known ways. Thus, for example, a compression spring or tension spring as energy storage into consideration. However, the energy accumulator is particularly advantageously formed by a weight or counterweight to the acting in the direction of closing the blade dead weight of the blade, which applies the biasing force to the lever. For power transmission between the counterweight and the lever, for example, a cable or other mechanical connection may be provided.

The advantage of a counterweight as an energy store of the pretensioning device, in particular as the only force accumulator of the pretensioning device, lies in the magnitude of the effective force, which remains constant over the pivoting travel of the lever, and in the reliability. Despite the same force is, as shown, with increasing pivoting movement of the blade in the direction of the discharge opening releasing position increases the acting in the sense of biasing the blade torque by increasing the lever arm. For example, the lever arm is increased during the pivoting of the lamella from its position closing the discharge opening into its position which maximally opens the discharge opening by 50 percent or more, in particular by 60 percent or more.

The present invention provides a pressure relief flap in which the required force for pivoting the at least one blade, which must be applied by the exhaust air acting on the blade, is not increased even with increasing opening angle of the blade. As a result, the pressure loss, which exerts the pressure relief valve on the exhaust air, especially at high flow velocities of the exhaust air can be significantly reduced. The reduced pressure loss in turn makes it possible to use comparatively smaller pressure relief flaps, for example with an area between only 0.3 and 0.5 m ² . Of course, however, larger or smaller cross sections of the exhaust opening are conceivable.

The invention will be described below with reference to an embodiment. Show it:

1 a possible field of application of a pressure relief valve designed according to the invention;

2 an example for providing a variably provided lever arm according to the invention;

3 a possible mechanical connection of cooperating lamellae of a pressure relief flap.

In the 1 an example of an application of an inventively designed pressure relief flap is shown. Thus, the pressure relief flap, which closes a plurality of fins 1 having, in each case via a rotation axis 6 are pivotable, in the closed state of the slats 1 a vent 2 and gives this vent 2 in the upwardly pivoted state of the slats 1 more or less free.

The exhaust opening 2 allows a discharge of exhaust air from a stairwell 20 whenever the room is in the stairwell 20 under an overpressure to the environment 21 is set. To this overpressure in the staircase 20 in case of fire, thereby preventing smoke in the stairwell 20 flows in, is a corresponding fan 22 at a suitable place in the staircase 20 provided, via which air (exhaust air) in the stairwell 20 blown. The exhaust air attacks on attack surfaces 3 at the slats 1 and pivots these about each axis of rotation 6 due to their pressure force upwards.

As the expert knows, arises by the force attack of the exhaust air to the fins 1 a pressure loss, which is also desirable to some extent to establish a corresponding pressure ratio across the pressure relief flap, and thereby the desired positive pressure in the stairwell 20 to secure. The problem is, however, that with increasing opening of the slats 1 and with increasing flow velocity of the exhaust air flowing through the pressure relief flap, the pressure loss increases, so that the pressure in the staircase 20 increases. The increase of overpressure in the staircase 20 However, it must be limited to prevent escape doors 23 that's somewhere in the stairwell 20 are still comparatively easily opened, even if the escape doors 23 inside the staircase 20 into pan. At the same time, it must be ensured that in the event of a sudden opening of escape doors 23 , which results in a significant additional extractor vent for the exhaust air, closing the pressure relief flap quickly and safely to avoid unwanted pressure drop in the stairwell 20 to avoid.

Both the opening of the slats 1 , more specifically the release of the vent 2 by swinging the lamellae 1 , as well as the closing of the slats 1 , more precisely, the closing of the vent 2 by swinging down the slats 1 , is determined by the height of the attack surface 3 the slats 1 attacking air pressure in conjunction with the acting in the sense of closing weight of the slats 1 certainly. Due to that, to open the slats 1 necessary torque with increasing opening angle of the slats 1 relative to the vertical increases, since the central lever arm, with which the weight of the slats 1 at the slats 1 engages, extends, the exhaust air has an increasing compressive force on the attack surfaces 3 the slats 1 exercise to the slats 1 to swing upwards. To counteract this increase in force or to fully compensate for the increase in force is now according to the invention a biasing device 5 provided schematically in the 2 is shown.

The biasing device 5 puts a biasing force on a lever 4 on, the rotationally fixed to at least one lamella 1 connected so that he is together with the lamella 1 above the rotation axis 6 rotates.

The biasing device 5 has a counterweight in the illustrated embodiment 9 on, by means of a cable 10 that has a pulley 11 is guided, a pulling force up on the lever 4 and thus in the sense of opening the slat 1 exercises. Of course, it would also be possible to use the biasing device 5 perform differently, for example by a tension spring, a magnet and / or a gas spring.

The lever 4 has a slotted guide 8th on, which causes with increasing pivoting of the lamella 1 above the rotation axis 6 the lever arm 4.1 between the axis of rotation 6 and the point of attack 7 the biasing device 5 on the lever 4 extended. This is in the lever 4 a slot-shaped backdrop 8.1 provided in which a pin or web 8.2 the pretensioner 5 slides. In the present case, the minimum lever arm 4.1 by moving a stop 12 be set variably. However, it is of course possible and easier, the extent of variation of the lever arm 4.1 by appropriately dimensioning the length of the gate 8.1 adjust.

Due to the slight inclination of the lever 4 down to a horizontal with closed lamella 1 becomes the footbridge 8.2 by the biasing force up in the backdrop 8.1 and with it inside on the lever 4 in the sense of shortening the lever arm 4.1 drawn. If, however, the slat 1 by attacking the exhaust air at the attack surface 3 is pivoted upward, so the lever rotates 4 across the horizontal and the biasing force in turn causes a pulling of the web 8.2 up in the scenery 8.1 , this time in the direction away from the axis of rotation 6 in the sense of extending the lever arm 4.1 ,

By extending the lever arm 4.1 when pivoting the slat 1 upwards, the required actuating force for pivoting the blade 1 , which is to be applied by the exhaust air, be significantly reduced, which also reduces the pressure loss occurring over the pressure relief flap.

In the 3 is exemplified an additional measure to ensure that the slats 1 when swinging back into the exhaust opening 2 locking position the exhaust vent 2 close securely. Furthermore, one recognizes a possible mechanical connection 13 between the individual slats 1 or between at the fins 1 connected levers 14 to the pivoting movement of a lamella 1 on the remaining slats 1 to transmit synchronously. For example, those in the 2 shown elements at a first end of the axis of rotation 6 the slats 1 and those in the 3 features illustrated at the second, opposite end of the axis of rotation 6 the slats 1 be provided.

According to the 3 is a magnetic device 15 provided, which in the end of the Verschwenkweges of the slats 1 in the sense of closing the vent 2 works by the magnetic device 15 only in the last area of Verschwenkweges a magnetic force on the slats 1 exercise to keep them in the closed position or to hold there. This magnetic force prevents the slats 1 remain in a slightly open state. Furthermore, the opening pressure can be adjusted by the magnetic force.

Claims (8)

Pressure relief flap, in particular for fire protection systems, 1.1 with a by at least one blade ( 1 ) closable vent ( 2 ), where 1.2 the lamella ( 1 ) by its own weight in a the exhaust port ( 2 ) closing position via a rotation axis ( 6 ) is pivotally suspended and an acted upon by exhaust air attack surface ( 3 ), by exhaust air attack the blade ( 1 ) in a the exhaust port ( 2 ) to swing open position; and 1.3 the lamella ( 1 ) with a lever ( 4 ), to which a biasing device ( 5 ) at a given point of attack ( 7 ), wherein the biasing device ( 5 ) on the lamella ( 1 ) a biasing force in the sense of a Aufschwenkens and releasing the exhaust port ( 2 ) exercises; characterized in that 1.4 the biasing means ( 5 ) on the lever ( 4 ) attacks that an attack force initiating lever arm ( 4.1 ) between the point of application ( 7 ) and the axis of rotation ( 6 ) with increasing pivoting of the blade ( 1 ) is increasingly increased. Pressure relief flap according to claim 1, characterized in that the biasing device ( 5 ) via a link guide ( 8th ) on the lever ( 4 ) attacks. Pressure relief flap according to claim 2, characterized in that the sliding guide ( 8th ) a slot-shaped backdrop ( 8.1 ) in the lever ( 4 ), in which a pin or web ( 8.2 ) to which the biasing device ( 5 ) exerts the biasing force. Pressure relief flap according to claim 3, characterized in that the scenery ( 8.1 ) is executed in a straight line or curved. Pressure relief flap according to one of claims 1 to 4, characterized in that the biasing device ( 5 ) a counterweight ( 9 ), that the biasing force, in particular directly or via a cable ( 10 ), on the lever ( 4 ). Pressure relief flap according to claim 5, characterized in that the biasing force exclusively by means of the counterweight ( 9 ) is produced. Pressure relief flap according to one of claims 1 to 6, characterized in that the lever arm ( 4.1 ) during the pivoting of the blade ( 1 ) is increased by 50 percent or more, in particular by 60 percent or more. Pressure relief flap according to one of claims 1 to 7, characterized in that the exhaust port ( 2 ) has an area between 0.3 and 0.5 m ² .

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