EP0890372A2 - Automatically closing fire damper - Google Patents

Abstract

At least one swivel mounted shut-off element (1) swivels from an open position parallel with the duct-passage (9) when a fusible soldered body (3) releases the lock under the effect of heat, into a closed position across the duct's axis. The shut-off element has a hinged connection or a spring element (2), pre-tensioned in an open position. The spring element or hinged connection have a bend or recess containing the soldered body and in the form of a holder with U-shaped cavity (2.1).

Description

The invention relates to a fire protection device in Preamble of claim 1 specified type or a corresponding Shut-off element.

Fire protection devices in conditioned for transport Air provided ducts of ventilation and air conditioning systems are required to prevent the fire from spreading in the event of a fire to prevent over the channels.

These fire protection devices work automatically and have a shut-off element which, in the event of fire, the channel closes and thus a further spread of fire prevented in neighboring rooms, otherwise the transported heated air itself to fuel and support one Fire can contribute.

One is from the German utility model DE 295 11 265 U1 Fire protection device for partitioning a ventilation duct known with a channel section widened in cross section, in which a fire protection compound is arranged in a ring is. Rods or shut-off elements are in this fire protection compound embedded, with the rods or shut-off elements about an axis extending perpendicular to the channel axis are pivotally arranged. When foaming the fire protection compound the rods or shut-off elements become exposed to heat from their position parallel to the channel axis ("Open" position of the fire protection device) in a essential radial position ("closed" position of the Fire protection device) pivoted.

The well-known fire protection device shows the essential Disadvantage that the foaming of the fire protection compound in Fire always occurs with a certain inertia and thereby a lower limit for the period of response until the fire protection device is completely closed - due to physical reasons - should not be undercut can. A short-term, preferably sudden, The fire protection device cannot be closed. It is also disadvantageous that foaming the fire protection compound is essentially non-directional Force effect is generated. This is neither the direction nor the size of the force acting on the shut-off elements exactly predictable so that a complete closure the flow channel is not guaranteed in every case.

A corresponding fire protection device is also in the German published application DE 196 27 987.

A fire protection device is known from US Pat. No. 4,627,498 known for a ventilation system in which a shut-off element a pressure-loaded solder in one Container is provided. When melting the solder material a relative movement occurs between the the pressure generating components, which are used to close the Flow path is usable.

With this solution, the direction of the closing force is indeed fixed, but only a relatively delayed response the fire protection device possible because the solder in the area encapsulated a place that is difficult to access for heat conduction where the mass of the encapsulation is the response time constant elevated. In addition, the solution is technically complex.

Based on the shortcomings of the prior art, the Invention, the object of a fire protection device to specify the genus mentioned at the beginning, which is due to a precise trigger temperature and a short response time and therefore simple Build an improved functional reliability and a higher one Has utility value.

This task is carried out with the characteristic features of the Claim 1 solved.

The invention includes the realization that at Use fusible link to lock a shut-off element a sudden movement in an "open" position is then achievable in a "closed" position, if a substantially unobstructed drain melted Solder is secured. The solder is initially blocking in a U-shaped groove of a spring element or in a corresponding hinge-like element provided in a manner that hinders its movement, that this gutter in the relaxed state of the element - So in the closed position of the shut-off element - one has a reduced cross section. So the solder holds the open position of the shut-off element through its cross section the gutter - under tension of the spring or other hinge-like element - locking open. The Lot is located near the swivel axis and can the way of the shut-off element at temperatures below the trigger temperature even against relatively large spring forces block effectively.

In this way, the solder is in the open position of the shut-off element always pressurized with the spring preload, so the configuration in the low temperature range is long-term stable. A temperature increase will transferred directly to the solder, the spring surfaces a large surface for heating by means of cavitation have the flow medium. Because additional essential Masses of material that need to be heated are missing an activation of the shut-off device at short notice and immediately.

According to a preferred embodiment of the invention shows the one channel of a ventilation or air conditioning system bulkhead fire protection device a majority of shut-off elements, which are in the "open" position the fire protection device part of the wall of the flow channel form and - arranged in the plane of the channel wall - To be essentially perpendicular to Axis extending longitudinal axis of the channel pivotally arranged are. The shut-off elements are each on a spring element attached, which by a fusible link against the spring force in a pre-stressed state is held that the individual, each attached to them Shut-off elements parallel to the direction of flow of the medium transported in the flow channel.

In the event of a fire, the solder body will be over its Melting point heats up and releases the spring force, causing the shut-off elements suddenly in an essentially swivel radial position and thereby the flow path isolate. This pivoting process in the "closed position the fire protection device is essentially carried out abruptly because the fusible link is arranged without any encapsulation is and in the molten state unhindered from the spring element flows off, so that the spring element relax immediately can.

It is particularly advantageous if the shut-off element with the spring element or the hinge-like connecting element is connected such that the crossbar of the "U" essentially points in the direction of the shut-off element, so that itself with a blocked shut-off element and melted Solder body is a component of the movement of the shut-off element results, which leads to spring or hinge-like Connection element is directed. The generated with it Movement component of the shut-off element "pulls" this in case of dirt or other undesirable Blockages of the channel area slightly "back", see above that the shut-off element is released in this way.

According to another preferred embodiment the fusible link as a circular ring with a square, in particular square, cross-section. The spring elements consist of a flat, ribbon-shaped spring material and have a resilient area, which against the spring force is expandable in a substantially U-shape and picks up the fusible link. The individual spring elements are distributed evenly in the circumferential direction on the solder body arranged and each widened with its U-shaped Put the area on the fusible link.

According to a further preferred embodiment of the invention the shut-off elements are essentially triangular, preferably an isosceles triangle, the pivot axis parallel to the base of the Triangle stretches. In the "closed" position of the Fire protection devices form the individual shut-off elements the lateral surface of a circular cone.

To ensure that also in the area of the swivel axis the shut-off elements in the "closed" position of the fire protection device good isolation can be achieved are further, similarly trained and on the solder body attached spring elements provided which are supported on the corner areas of adjacent shut-off elements and thereby the pivoting movement in the "Closed" position of the fire protection device on the Support the base of the triangular shut-off elements.

According to a favorable development of the invention are the edges and / or the back of the individual shut-off elements with a foaming agent that reacts when heated coated. This ensures in a simple way that the "closed" position of the fire protection device inherent narrow slots between the side edges of the shut-off elements after abrupt bulkheads are closed.

In advantageous variants of the invention, the foaming agent in the form of a thin mat on the Back of the individual shut-off elements facing away from the flow medium to arrange and preferably by gluing, riveting or flanges to attach.

According to another advantageous embodiment the invention are in compliance with an axial distance two ring-shaped fusible links with the corresponding ones Shut-off elements attached to the spring elements of the above described form provided. The arrangement of the shut-off elements is mirror-symmetrical, so that in the "closed" position the outer surface of the fire protection device of two circular cones facing one another isolate the flow channel.

As a result, the fire protection device in the event of a fire two substantially parallel to each other Layers including a natural air cushion be sealed off suddenly, causing a penetration the heat from the lateral surfaces of the two circular cones in the is substantially prevented even if the foaming agent not yet on the back of the individual shut-off elements has become fully effective and between the individual shut-off elements located narrow slots has not yet filled in completely.

A particularly small size is for the fire protection device attainable if the two ring-shaped fusible links advantageously in the circumferential direction are offset from each other that the tips of the attached to the first fusible body, triangular trained shut-off elements in between the on the second fusible body attached shut-off elements available Open spaces protrude.

An improvement in the foreclosure effect can be achieved if the fire protection device corresponds to an additional one Training a volume under heat enlarging, preferably having a foaming agent Has device which the shut-off elements "Open" position of the fire protection device from the outside in Embraces the shape of a cuff. After the shut-off elements in the event of fire, the flow cross-section in one closed the first phase suddenly in two levels, subsequently the foaming agent in a second phase active and in turn fills the space that exists between the two closure levels remain.

Does the foaming agent form one - preferably by dipping applied - coating, so represents a corresponding Plastic also provides corrosion protection for metallic ones Shut-off elements.

According to another advantageous variant of the invention a fusible link body is provided, in which the fusible link additives in the form of metallic particles or chips, preferably made of a heat-conducting material like copper. This solder body is preferred produced by heat treatment in the manner of "sintering". This makes ductile behavior easy of the fusible body improved without its Flowability when heated in the event of fire is impermissibly restricted becomes.

A simplification in the form and dimensional production of the fusible body is corresponding to another Variant of the invention can be achieved by the circular ring several, preferably three, sintered, arcuate segments is put together. The connection between the individual elbows is soldered to a separate one Made of solder.

• in sehr kleinen Abmessungen rotationssysmmetrisch zur Achse des Strömungskanals ausgeführt,
• aus nur wenigen Bauteilen motiert sowie
• mit einer nur geringen Anzahl von Bauteilen hergestellt werden kann und dabei
• unabhängig von der Einbaulage und der Einbaurichtung voll funktionsfähig ist.

The fire protection device according to the invention is also particularly advantageous from a technological point of view since it

• made in very small dimensions rotationally symmetrical to the axis of the flow channel,
• motivated from just a few components as well
• can be manufactured with only a small number of components and thereby
• is fully functional regardless of the installation position and direction.

Retrofitting of already installed ventilation or air conditioning systems is easily possible.

In another preferred embodiment, the arrangement made of shut-off and spring elements in one piece as band material manufactured as a section after appropriate preforming in inserted the tubular channel and placed it on the wall. In this way, the channel can be made in one piece as a closed one Pipe made and assembled without modification become.

Figur 1 eine bevorzugte Ausführungsform der Erfindung in einem perspektivisch dargestellten Teilschnitt,

Figur la die Darstellung der in Figur 1 gezeigten Einzelheit E,

Figur 2 die in Figur 1 dargestellte Brandschutzeinrichtung in Seitenansicht und "Geschlossen"-Stellung,

Figur 3 eine andere vorteilhafte Ausführungsform der Erfindung in einem perspektivisch dargestellten Teilschnitt,

Figur 4 die in Figur 3 gezeigte Ausführungsform in Seitenansicht und "Geschlossen"-Stellung,

Figuren 5 und 6 ein Federelement in verschiedenen Spannungszuständen, sowie

Figuren 7a bis 7c bevorzugte Ausführungsformen für einen erfindungsgemäß eingesetzten Schmelzlotkörper.

Other advantageous developments of the invention are characterized in the subclaims or are shown below together with the description of the preferred embodiment of the invention with reference to the figures. Show it:

FIG. 1 shows a preferred embodiment of the invention in a partial section shown in perspective,

FIG. 1 a shows the representation of the detail E shown in FIG. 1,

FIG. 2 shows the fire protection device shown in FIG. 1 in a side view and in the “closed” position,

FIG. 3 shows another advantageous embodiment of the invention in a partial section shown in perspective,

FIG. 4 shows the embodiment shown in FIG. 3 in a side view and in the “closed” position,

Figures 5 and 6, a spring element in different stress states, as well

Figures 7a to 7c preferred embodiments for a solder body used according to the invention.

The fire protection device shown in FIG. 1 in the "open" position 10 is a separate component between two channel sections 7 used a ventilation system. In the Wall 6 of the fire protection device 10 is an annular Fused solder body 3, which is a plurality of spring elements 2 (or corresponding - in the figures corresponding hinge-like connecting elements, not shown) shut-off elements connected to it 1 wearing. The spring elements 2 are even on the circumference of the Solder body 3 distributed. They form together with a carrier a crown-shaped ring 4, which an equal distance between adjacent spring elements 2 fixed. The spring elements 2 consist of a flat, band-shaped material and have a U-shaped section 2.1, the shape of which is formed by the annular solder body 3 maintained against the action of the spring force becomes.

The attached to each second spring element 2 in the circumferential direction Shut-off elements 1 are isosceles triangles trained and made of relatively thin sheet steel. They are riveted to the spring elements or Enforcement connected.

In the event of a fire, the fusible link 3 is placed over the The melting temperature of the solder is heated. The spring force of the spring elements 2 takes effect suddenly, with the liquefying Solder solder flows out of the U-shaped area. As a result, the shut-off elements 1 pivot by one extending perpendicular to the longitudinal axis 9 of the channel 7 Axis inward and take a substantially radial Position on. Form the triangular shut-off elements 1 the lateral surface of a circular cone 11, as in FIG. 2, in which the fire protection device 10 in the "closed" position is shown.

The number of spring elements 2 is twice as large here Number of shut-off elements 1, which are not related to the Shut-off elements 1 spring elements fastened by riveting each at the two adjacent triangle corners 1.4 arranged adjacent in the circumferential direction Support shut-off elements. This will make the swivel movement the shut-off elements 2 in a sudden transition of Fire protection device 10 in the "closed" position also forced in the edge area, so that there too an essentially closed lateral surface of the circular cone 11 trains.

To seal the sealing of the duct cross section To increase the lateral surface of the circular cone 11, the individual wear Shut-off elements 1 a formed from a foaming agent Coating 1.2, like that shown in Figure la Detail E from Figure 1 shows. The foaming agent is 1.2 glued to the metallic carrier material 1.1 as a mat or connected to the carrier material by riveting or flanging. The coating takes place when applied by dipping on both sides, so that at the same time corrosion protection is achievable. Since the foaming of the foaming agent 1.2 in any direction takes place, especially those at "Closed" position of the fire protection device 10 between the triangle leg extending parallel to each other the shut-off elements 2 by column the foam material sealed gas-tight. With that, too Manufacturing tolerances or the effects of contamination compensated, which otherwise a complete closure would prevent the opening.

Two fastening bolts 6 are provided in the wall 5, with which the fire protection device 10 with a wall bracket is connectable.

3 and 4 in the "open" position or "Closed" position shown fire protection device 10 ' has two annular solder body 3, which under Maintaining an axial distance with the associated, shut-off elements 1, 1 'attached to spring elements 2, 2' are arranged in the form described above. By the mirror-symmetrical arrangement of the shut-off elements will be in the "closed" position of the fire protection device two circular cones 11 pointing towards one another, 11 'formed, the lateral surfaces of the flow channel in the Isolate channel 7 in two levels.

The fire protection device 10 'also assigns one a cuff shaped foaming agent 12, which in In the event of fire, the volume depends on the effects of heat from the material composition to the two to Magnified four times. The cuff 12 encompasses the shut-off elements 1 and 1 'with the fire protection device in the "open" position from the outside. This can cause heat resulting foam in the space between the from the shut-off elements 1 and 1 'in a first reaction phase the fire protection device 10 'formed lateral surfaces the circular cone 11, 11 'a closed foam wall 12 'which form the flow channel in a second reaction phase the fire protection device 10 'additionally seals off.

Figures 5 and 6 show a perspective view a portion of a crown-shaped ring 4, which on a fusible link 3 formed as a circular ring is in the "open" position or "closed" position the fire protection device.

The crown-shaped ring 4 fixes spring elements 2 in one fixed distance from each other in the circumferential direction. The spring element 2 consists of band-shaped spring steel and has one through the solid solder body 3 ("open" position of the Fire protection device) against the spring force into a U-shape with the same leg length spread section 2.1 on. The free leg 2.2 of the spring element 2 has two holes 2.3, which for the secure rivet connection between the spring element 2 and a shut-off element (compare position 1 in Figure 1) are provided.

In the event of a fire, the fusible link 3 will be over to its Melting point heated by the hot flow medium. The melting solder 3 is no longer able to shape of the spread section 2.1, so that the free leg 2.2 suddenly under the effect of Spring force swings around axis 2.4.

It can be seen that the shut-off element 1, 1 'with the Spring element 2, 2 'or the hinge-like connecting element is connected such that the crossbar of the "U" in points essentially in the direction of the shut-off element 1, 1 ', so that when the shut-off element 1, 1 'and melted Solder body is a component of the movement of the shut-off element 1, 1 'results, which for spring or hinge-like connecting element is directed towards. By varying the leg length of the U-shaped section 2.1 can be the angle through which the free leg 2.2 of the Spring element 2 when the fire protection device responds is pivoted, change.

FIGS. 7a, 7b and 7c show embodiments of annularly shaped fusible links 3, 3 'and 3 ", which is characterized both by its material composition as well as differ in their construction.

The fusible link body 3 shown in FIG. 7a consists of a pure solder material with predefinable melting temperature.

By adding chip-shaped copper particles 3.1 'to one pure solder material can be sintered into a figure 7b shown fusible solder body 3 ', which a lower one with essentially the same melting behavior Has ductility and moreover a cheaper one Production enabled.

Technological advantages are in the manufacture of the The fusible body 3 "according to FIG. 7c can be reached. The ring-shaped The fusible body is made of three pieces of the same size 3.1 "composed, the connection to the Joints are made by a 3.2 "fusible link. Likewise, it is possible to use the individual arch pieces 3.1 "as sintered parts with a metal particle insert.

In another variant, the arrangement is manufactured from shut-off elements and blocked by the solder strand Spring elements as a one-piece insert in the form of a Kind of "mat", this undivided along the wall of the (circular) closed pipe or channel becomes. The "mat" then contains a butt edge as a stop surface against one directed in the longitudinal direction of the channel Move.

The invention is not limited in its execution the preferred embodiments given above. If the spring elements by appropriate - under spring preload standing - hinge-like connecting elements the functions are replaced "Rotation bearing" on the one hand and "spring preload" on the other separated from each other. It can also block the pivoting movement of the shut-off elements by solder under spring preload in almost any near the Axis of the pivoting area his. Here is - due to the leverage effect - the one to be released Way very small and can be effective by solder - even large ones Resisting forces - being blocked.

In the preferred embodiment of the invention is integrated Form of energy storage with one of these in Fire-releasing temperature-dependent blocking smallest space summarized. The number of components is limited on a cranked spring element with the inside included solder. So that are expensive additional Activators and the like saved.

A number of variants are conceivable, which of the shown solution even with fundamentally different types Makes use of explanations. In particular, one can Trigger element, based on a spring that is in itself is blocked by a fusible link, accordingly also for the kinematic inversion - an element that Heating opens a channel - use.

Claims (12)

Automatically closing fire protection device (10, 10 '), in particular for partitioning a duct (7) in a ventilation and / or air conditioning system, as or with at least one pivoting shut-off element (1, 1'), which upon exposure to heat can be pivoted from a lock formed by a fusible link (3, 3 ') in an open position substantially parallel to the direction of passage (9) into a closed position essentially transverse to the channel axis,
characterized by
that the shut-off element has a spring element (2, 2 ') pretensioned in the open position or a hinge-like connecting element pretensioned by means of a spring, which (s) is provided with a crank or a corresponding recess for receiving the solder body, into which the solder body (3, 3 '3 ") is introduced in such a way that the spring element or the hinge-like connecting element is blocked in its prestressed position as long as the solder body is not melted. Fire protection device according to claim 1, characterized in that the crank consists of a - in particular isosceles - U-shaped bend of a band-shaped carrier, in the U-shaped recess (2.1, 2.1 ') of the solder body (3, 3', 3 ") such is introduced that it is encompassed by the U-shaped recess. Fire protection device according to claim 2, characterized in that the shut-off element (1, 1 ') is connected to the spring element (2, 2') or the hinge-like connecting element in such a way that the transverse web of the "U" essentially in the direction of the shut-off element (1, 1 ') points so that when the shut-off element (1, 1') and the molten solder body are melted, a component of the movement of the shut-off element (1, 1 ') results, which is directed towards the spring or hinge-like connecting element. Fire protection device according to one of the preceding claims 1, characterized in that the shut-off element (1, 1 ') is connected to the spring element (2, 2') or the hinge-like connecting element by riveting or clinching. Fire protection device according to claim 1, characterized in that the solder body (3, 3 ') forms a strand which locks a plurality of spring elements (2, 2') and / or hinge-like connecting elements pretensioned in the strand direction, the strand-shaped solder body being in particular essentially annular . Fire protection device according to Claim 5, characterized in that the annular strand encompasses the flow channel, the spring elements (2, 2 ') and / or hinge-like connecting elements being arranged on the strand-shaped fusible link body in a substantially uniform manner in the circumferential direction. Fire protection device according to one of the preceding claims, characterized in that the strand-shaped fusible link body (3, 3 ', 3 ") has an essentially rectangular, preferably square, cross section and spring elements (2, 2') formed from flat strip material are provided, so that the Arrangement of spring and shut-off elements from a flat configuration can be formed into a hollow cylinder which can be inserted into the channel closed with respect to its wall, forming a stop surface. Fire protection device according to one of the preceding claims, characterized in that the solder body (3 ') includes particles (3.1') which form a filler to save the solder material, the filler consisting in particular of a heat-conducting material such as copper. Fire protection device according to one of the preceding claims, characterized in that the shut-off element (1, 1 ') at least in the region of its edge adjacent in the closed position of the inner wall of the channel or another shut-off element has a coating (1.2) of a foaming agent which reacts when exposed to heat, preferably a foaming agent Has plastic and / or an additional cuff-shaped device (12) which increases its volume when exposed to heat, preferably having a foaming agent, which surrounds the shut-off elements (1, 1 ') from the outside when the fire protection device (10') is in the "open" position .. Fire protection device according to claim 9, characterized in that the foaming agent (1.2) is flat and is attached or otherwise applied to the shut-off element (1, 1 '), in particular on both sides, by dipping, gluing, riveting or flanging. Fire protection device according to one of the preceding claims, characterized in that several shut-off elements (1, 1 ') are essentially triangular as circular sectors and / or each have the shape of an isosceles triangle, the base of which extends parallel to the respective pivot axis. Fire protection device according to claim 11, characterized in that the shut-off elements (1, 1 ') in the "closed" position form a closed outer surface (11, 11') of a multi-sided pyramid and / or that the shut-off elements (1, 1 ') are observed a distance between adjacent spring elements (2, 2 ') are combined to form at least one crown-shaped ring (4).

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