DE29520276U1 - Maintenance-free device for smoke and fire-proof partitioning of a ventilation pipe - Google Patents

Description

Wed"·.

The present invention relates to a device for sealing off a ventilation pipe in the event of fire using a fire protection compound that foams at elevated temperatures while increasing in volume and is suitable for sealing off the cross-section of a section of the ventilation pipe by foaming.

A device of the above-mentioned type is known, for example, from utility model G 94 11 193.2 (Ul). The disadvantage of such devices for sealing off ventilation ducts is that the fire protection compound only foams up when higher temperatures prevail, i.e. temperatures of several 100 ^° C, so that only then is the cross-section of the ventilation duct sealed. In the event of a fire, however, it takes some time until the temperature required for the fire protection compound to foam up is reached in the section of the ventilation duct to be sealed. This means that smoke coming from the source of the fire can still reach other areas of the ventilation system through the ventilation duct. This must be prevented because the spreading smoke can penetrate and spread through the ventilation duct system into corridors, stairwells, etc., i.e. into other fire compartments, and pose a considerable danger to the people there, in particular by obstructing necessary escape routes.

The object of the present invention is therefore to create a device for sealing off a ventilation pipe in the event of a fire of the type mentioned at the outset, which enables a ventilation pipe to be sealed at least smoke-tight even at a temperature that is not yet sufficient for the (complete) foaming of the fire protection compound.

The solution to this problem is provided by a device according to the invention for sealing off a ventilation pipe in the event of a fire of the type mentioned at the outset with the characterizing features of the main claim. According to the invention

a vertically movable bulkhead is provided in a gap in a double-walled section of a pipeline and means are provided which, at normal temperature, hold the bulkhead in its open position in which it releases the connection between two sections of the pipeline and, when the temperature increases, these means respond, whereby the bulkhead becomes movable, moves vertically downwards and closes the connection between the two sections of the pipeline.

Preferably, it is further provided that the bulkhead is held in the gap between two sheets curved in accordance with the curvature of a cylindrical pipeline and the bulkhead is also curved accordingly. Such an arrangement is preferably useful when the curved bulkhead is held along a section of the pipe wall of a main line with a larger cross-section and the bulkhead moves vertically downwards parallel to the axis of this main line at elevated temperatures and thereby closes the cross-section of a branch line branching radially outwards from the main line in this area.

The mass used according to the invention to hold the bulkhead in its upper position (open position) at 5 normal temperature is a hot-melt adhesive mass that melts at a relatively low temperature and thus melts with only a very slight heating relatively shortly after the occurrence of a fire and then releases the bulkhead to move downwards so that it can close the ventilation pipe. For example, a hot-melt adhesive mass can be used that melts in a range between about 60 ⁰ C and 80 ⁰ C. This temperature is significantly lower than the temperature at which the fire protection mass (intumescent foam) begins to foam. The latter temperature is generally above 100 ⁰ C, usually several 100 ⁰ C, with foaming only starting at a temperature that is still below 100 0 C.

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is completed to such an extent that the ventilation duct is completely closed.

According to the invention, the fire protection compound that foams up is preferably arranged distributed over the circumference along the inner wall of the ventilation pipe, i.e. axially in front of or behind the bulkhead. Preferably, in the case of a vertically running main pipe and a branch pipe branching off horizontally and radially from this, the arrangement is such that the fire protection compound is arranged in the branch pipe along the inner wall, i.e. in front of the bulkhead, which is located immediately in the branch area.

In order to prevent the movable bulkhead from becoming dirty and thus to ensure that it is maintenance-free, the hot-melt adhesive is preferably applied in such a way that it closes the gap to the room in which the bulkhead is located at normal temperature. The air flow through the pipe then normally does not reach this bulkhead and it cannot become dirty, and it is also maintenance-free.

According to a preferred development of the solution to the problem according to the invention, a fire barrier device according to the invention can also apply a layer of fire protection compound that expands at elevated temperatures and increases in volume to the bulkhead that closes the connection between the two pipe sections. This provides additional safety, since in the event of a fire not only the fire protection compound in the branch line foams up, but also the fire protection compound on the bulkhead. This layer of fire protection compound is preferably applied to the convex side of the bulkhead, i.e. on the side facing the branch line, so that the expansion of the fire protection compound occurs into the branch line when it foams up and thus in the direction from which the fire is coming.

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The present invention is described in more detail using an embodiment with reference to the accompanying drawings.

Fig. 1 is a plan view of a fire barrier device according to the invention;

Fig. 2 a longitudinal section through the

Fire barrier device of Fig. 1; 10

Fig. 3 a front view of the

Fire barrier device according to Fig. 1 and

First, reference is made to Fig. 1. The illustration shows the top view of the fire barrier device 10 according to the invention, which can be placed on a vertically arranged ventilation pipe 12 (main pipe) via fastening elements 11 such as screws or the like in the peripheral area, from which a pipe socket 13 of a branch pipe branches off horizontally at the side. The main pipe 12, as can be seen, naturally has a larger diameter than the branch pipe.

The fire protection device 10 comprises a double-walled sheet metal which has a radius corresponding to the curvature of the pipeline of the main line 12 and a correspondingly curved inner sheet metal 14 and a curved outer sheet metal 16 with a corresponding curvature connected to the outside, for example welded via sheet metal strips 15. This results in a double-walled sheet metal arrangement with a rectangular outline which, due to the curvature, corresponds to a section of a cylinder jacket. Between the two curved sheets 14, 16, there is a gap 17, as they are spaced apart. This gap 17 now accommodates a movable bulkhead 18, the dimensions of which in the circumferential direction are such that it is guided in the gap 17 and the dimensions of which in relation to the main line 12 in the axial direction are selected such that the bulkhead 18 in its

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upper position completely exposes the cross-section of the branch line 13, whilst the bulkhead 18, when lowered in its lowest position, completely closes the branch line 13. As the main line 12 and hence also the bulkhead 18 are arranged vertically, it is necessary to hold the bulkhead 18 in its upper position, in which the cross-section of the branch line 13 is free. This is done with the aid of a hot melt adhesive 19, i.e. a relatively low-melting mass which melts or softens at a temperature of around 6O ⁰ C - 8O ⁰ C, for example, and preferably at around 70 ⁰ C - 75°C, and then no longer holds the bulkhead 18 in place, so that it falls down and closes the opening to the branch line 13. This then first of all seals the connection between the main line and the branch line 13 smoke-tight. This already happens at a relatively low temperature because the hot melt adhesive is designed accordingly and thus already at a temperature at which any fire protection compound that is also present does not react (foam). The hot melt adhesive compound is designated in the drawing with the reference number 19. The use of the hot melt adhesive compound 19 has another advantage. The gap 17 in which the bulkhead 18 is located is closed with the hot melt adhesive compound 19 in its connection area to the branch line 13 in order to hold the bulkhead 18 in its upper position under normal circumstances. This hot melt adhesive compound 19 thus closes the gap 17 preferably all the way around in the peripheral area between the gap 17 and the branch line 13 and this prevents the bulkhead 18 from becoming dirty. Maintenance of the bulkhead 18, which ensures that it is still mobile in the event of a fire, can therefore be omitted.

Reference is now made to Figures 2 and 3. It can be seen that a fire protection compound 20 is applied to the wall area on the inside of the pipe socket of the branch line 13. This is a material that foams up in the event of a fire when heat is generated, a

-δ&igr; so-called intumescent foam. If higher temperatures are reached, i.e. values that are above the temperature range in which the hot melt adhesive responds, then this fire protection mass foams up with a strong increase in volume and finally closes the entire cross-section of the branch line 13 so that neither fire, temperature nor smoke can penetrate into the main line. The particular advantage of the device according to the invention is therefore that even at temperatures at which the connection from the branch line 13 to the main line 12 is not yet fire-tight, a smoke-tight connection already exists and smoke cannot get into the main line 12.

Claims (8)

-1-Protection claims: 1. Device for fireproofing a ventilation pipe in the event of a fire using a fire protection compound which foams at elevated temperatures with an increase in volume and is suitable for closing the cross-section in a section of the ventilation pipe by foaming, characterized in that a vertically movable bulkhead (18) is provided in a gap (17) of a double-walled section of a pipe (12), means (19) being provided which hold the bulkhead (18) in its open position at normal temperature, in which it releases the connection between two sections of the pipe and when the temperature increases, these means are activated, whereby the bulkhead (18) becomes movable, moves vertically downwards and closes the connection between the two sections of the pipe. 2. Device for fire sealing of a ventilation pipe according to claim 1, characterized in that the bulkhead (18) is held in the gap (17) between two sheets (14, 16) curved in accordance with the curvature of a cylindrical pipe and the bulkhead (18) is also curved accordingly. 3. Device for fire sealing of a ventilation pipe according to claim 1 or 2, characterized in that the curved bulkhead (18) is held along a section of the pipe wall of a main pipe (12) and the bulkhead (18) moves vertically downwards parallel to the axis of this main pipe (12) at elevated temperature and closes the cross section of a branch pipe (13) branching off radially outwards from the main pipe (12). -2- 4. Device for fire sealing of a ventilation pipe according to one of claims 1 to 3, characterized in that the mass by means of which the bulkhead (18) is held in its upper position (open position) at room temperature is a hot-melt adhesive mass (19) which melts at a temperature preferably in the range between 60 ⁰ C and 80 ⁰ C and releases the bulkhead (18) for its downward movement. 5. Device for fire sealing of a ventilation pipe according to one of claims 1 to 4, characterized in that the fire protection compound (20) is arranged in the branch line (13) along the inner wall distributed over the circumference, which foams at a temperature that is above the response temperature of the hot melt adhesive compound (19) and closes the branch line (13) and its connection to the main line (12) in the event of fire. S- Device for fire sealing of a ventilation pipe according to one of claims 1 to 5, characterized in that the hot-melt adhesive mass (19) is arranged in such a way that at normal temperature it closes the gap (17) to the space in which the bulkhead (18) is located all around. 7. Device for fire sealing of a ventilation pipe according to one of claims 1 to 6, characterized in that a layer of a fire protection compound which foams at elevated temperature with an increase in volume is applied to the bulkhead (18). 8. Device for fire protection of a Ventilation pipe according to claim 7, characterized in that the fire protection compound is applied to the convex outer side of the curved bulkhead (18).