NL1013773C2 - Tube coupling. - Google Patents

Description

Short designation: Tube coupling.

The present invention relates to a pipe coupling according to the preamble of claim 1. The pipe ends to be sealed for sealing are in particular smooth cylindrical or unprofiled ends and can for instance be part of straight pipes or of bends, tees, etc. The pipes are, for example, of metal or ceramic. In particular, provision is made for the use of the pipe coupling with cast iron discharge pipes.

Tube couplings according to the preamble of claim 1 are known in many different embodiments. Examples are described in DE 195 42 463, DE 41 03 702, DE 36 32 127, and DE 39 26 626.

In DE 39 26 626 the tensionable sleeve of the pipe coupling is double-walled in order to obtain a thermally insulating air layer. This insulating air layer is provided, inter alia, to prevent the sealing element formed from elastomeric material from losing its sealing effect in the event of flames along the outside of the cuff. Alternatively or in combination with the double-walled sleeve, 20 DE 39 26 626 proposes to place a ceramic fiber fleece between the sleeve and the sealing element. The air enclosed between the fibers of the fleece should act as thermal insulation.

The pipe coupling known from DE 39 26 626 and in particular the thermal insulation proposed therein offers little or no advantage in a situation where the pipe coupling is located in the vicinity or in a fire.

In the event of a fire, the temperatures rise to high values, so that both the pipe coupling and the pipes connected to it, especially when it concerns metal pipes, quickly become very hot. In the known pipe coupling it will then be observed that the thermal insulation is insufficient to prevent the material of the sealing element from softening or being completely burned. Particularly when the sealing element is burned, a gap is created between the end ends of the pipes which are connected to each other via the pipe coupling. In the event of a fire in a building, this can lead to smoke and hot gases entering the tube through that gap and possibly leaving the tube elsewhere in the building, so that the smoke and burning air are spread through the building. These gases may be so hot that a fire will also start in other places, for example because plastic drains will ignite.

In practice, it is conceivable that in the event of a fire in a multi-storey building - via a discharge pipe - on the floors 10 above the fire, burning air and visible smoke will escape from drains, overflows, etc. This can lead to panic among the people present and this often causes unnecessary victims.

The present invention aims to provide an improved pipe coupling of the type mentioned in the preamble, so that the aforementioned problem is solved.

The present invention provides a pipe coupling according to the preamble of claim 1, characterized in that the pipe coupling is provided with one or more bodies of intumescent material.

Intumescent material is well known in the art and is already widely used to seal the gap between a floor or wall of a building and a conduit extending through that floor or wall. As is well known, the intumescent material upon heating swells up to a multiple of its original volume and then forms a fire resistant barrier. Intumescent material is commercially available in many different embodiments, for example as thin relatively flexible mats from which shapes can be cut. Also embodiments are known with a rigid shape, for instance as a plate, or as a cord or tape. Examples of intumescent material are described in US 5,347,767; US 5,351,448, OS 4,364,210.

By the measure according to the invention it is simply possible that in the event of a fire the intumescent material swelling protects the sealing element of the pipe coupling against the heat or the sealing element, which then becomes softened M 013 7 7 "- 3 - (possibly melting) or even burnt, more or less replaces.This keeps the gap between the ends of the pipes sealed even in the event of a fire and in this way no smoke can enter the pipe.

Preferably, one or more bodies are provided with intumescent material inside the tensionable sleeve. When the intumescent material swells, the cuff then forms a stable envelope, so that it is ensured that the intumescent material that swells up in the fire remains at least partly in the space 10 between the cuff and the tubes and preferably acts at or near the place where the end ends of the pipe sections are located.

In a possible embodiment, one or more annular bodies of intumescent material are arranged along the inner circumference of the cuff. For example, a single strip of flexible intumescent material is placed in the inner circumference of the cuff.

Provision may also be made for one or more bodies of intumescent material to be disposed between the sleeve and the sealing member and / or on the inside of the sealing member so that the intumescent material is located between the tube and the sealing member.

In a generally known embodiment, a pipe coupling of the type mentioned in the preamble is provided with an elastic separating element, usually in one piece with an elastomeric sealing element, which is intended to lie between the end ends of the pipes. It is precisely with these pipe couplings that there is a considerable chance that smoke will enter the pipe through the relatively large gap that is present between the end ends of the pipes. The measure according to the invention makes it easy to also seal that gap, even if the separating element is completely lost, for example melt or burnt.

In a further variant, provision can be made for a body of intumescent material to be provided in or around the separating element, preferably such that the intumescent intumescent material completely or completely separates the separating element. Lo .Λ U lo f ï o - 4 - partially replaces.

In some pipe couplings of the type mentioned in the preamble, there are several, usually two, (metal) clamping rings provided inside the cuff, which are adapted to engage on the pipe ends when tensioning the cuff.

In order to prevent the clamping rings from being pushed out of the cuff by the swelling material, additional fastening means can be provided between the cuff and the clamping rings and / or between the clamping rings themselves.

In a variant, it is provided that intumescent material is placed between the clamping rings and the cuff, so that the clamping rings are pressed firmly against the tube when the intumescent material swells. For example, each clamping ring has a groove on its outer circumference in which a cord of intumescent material lies.

The present invention will be explained in more detail below with reference to the drawing. In the drawing: Fig. 1 shows a schematic cross-sectional half view of two pipe ends coupled to a first exemplary embodiment of a pipe coupling according to the invention, Fig. 2 schematically shows two pipe ends coupled in cross-section with a second exemplary embodiment of a pipe coupling according to the invention, Fig. 3 is a schematic half-sectional view of two pipe ends coupled to a third exemplary embodiment of a pipe coupling according to the invention, and Fig. 4 is a schematic half-sectional view of two pipe ends coupled to a fourth exemplary embodiment of a pipe coupling according to the invention.

30

In figure 1, two pipe ends 1, 2 can be seen in longitudinal section, which are connected to each other in a sealing manner with a pipe coupling 3 according to the invention. It can be recognized that the pipe ends 1, 2 are smooth and cylindrical. For example, the 35 pipe ends are made of cast iron.

The pipe coupling 3 lies as a ring around the pipe ends 1, 2 to be connected, as is known per se.

1 0'3 7 7 3 - 5 -

The pipe coupling 3 comprises a tensionable metal annular cuff 4, for example of stainless steel, which is divided at least at one place of the circumference. In the sleeve 4 an annular elastic sealing element 5 is provided, for instance of 5 rubber or plastic, which forms an opening on each side in which a tube 1, 2 fits.

The pipe coupling 3 further comprises an elastic separating element 6, which lies between the end ends of the pipes 1,2 and here, as is preferred, integrates with the sealing element 5.

The pipe coupling 3 further comprises a clamping device, not shown in figure 1, which is arranged to clamp the sleeve 4 around the pipes 1,2 inserted in the sealing element 5 and thereby allow the sealing element 5 to seal in a leak-proof manner. Such a tensioning device is generally known and can for instance consist of one or two tensioning bolts with which the ends situated on either side of the part seam of the sleeve can be pulled together.

An annular body of 9 intumescent material is arranged here between the sleeve 4 and the sealing element 5.

As is known, intumescent material, when heated above a certain temperature, usually swells up to a multiple of its original volume, and then forms an incombustible barrier. If the temperature now rises high during a fire, there is a chance that the sealing and separating element 5,6 melts or burns. At the same time, or sooner, the intumescent body 9 will swell and cover or replace the sealing and separating element 5,6 fire-resistant. In this way it is ensured that there is no gap between the tubes 1,2 through which smoke and gases could enter the tube. The swelling of the intumescent material in a suitable embodiment may be sufficient to ensure that the tubes 1,2 remain firmly clamped in the sleeve 4 even if the sealing and separating element 5,6 is completely lost.

In a variant, the intumescent material 9 is wholly or partly embedded in the sealing element 5 and / or the separating element 6.

1 013? “3 - 6 -

The pipe coupling 13 of figure 2 differs from that of figure 1 in that now - in order to grip the pipes 1, 2 extra firmly - a clamping ring 7, 8 is placed on each side of a sleeve 4 inside the sleeve 4 on either side of the sleeve. sealing element 5, as is known per se. The clamping rings 7, 8 are preferably made of metal and provided with teeth with which the clamping rings 7, 8 bite 1.2 in the material of the pipes under the influence of the tensioned sleeve 4.

In Figure 3, parts of the pipe coupling 23 corresponding to parts in Figure 2 are provided with the same reference numeral. Instead of the intumescent body 9 in figure 1, an intumescent body 19 is now provided, which is located substantially at the level of the separating element 6 and which is specifically intended to prevent the opening of a gap 15 between the tubes 1,2 in the event of a fire. .

Figure 3 furthermore shows intumescent ring bodies 10, 11, which are in each case located near one side of the sleeve 4 and are intended there to seal the gap between the sleeve 4 and the tube 1,2 in the event of fire. The separating element 5 is hereby protected, in particular at the end ends, against fire. The clamping rings 7, 8 are located between the bodies 10, 11 so that when these bodies 10, 11 swell, the clamping rings 7, 8 are not pressed out from under the sleeve 4. Of course, in variants of the pipe coupling 23, the ring bodies 10, 11 may be missing or, for example, the ring body 19 may be missing.

In the pipe coupling 33 in Figure 4, corresponding parts are again provided with the same reference numerals as in Figures 1 and 2.

In figure 4 clamping rings 20, 21 are provided, wherein in this example an intumescent body 15, 16 is situated between each of the clamping rings 20, 21 and the sleeve 4. In this example, the clamping rings 20, 21 are provided with a groove on the side facing the cuff 4, in which a cord-shaped intumescent body 15, 16 is each accommodated. In this example, the clamping rings 20, 21 are H-shaped in cross-section, but other shapes are of course also possible. Advantage of this 1Λ ί Λ 7 5

The arrangement of the intumescent bodies 15, 16 is that the swelling of those bodies 15, 16 in case of fire leads to a firm compression of the clamping rings 20, 21. Optionally, openings in the clamping rings 20, 21 or 5 intumescent material should pass through other openings on the side (s) of the clamping rings to protect them from overheating.

In a variant, just a cord of intumescent material is accommodated in the groove formed by the clamping ring open to the tube, for instance in the V-shaped groove in the clamping rings 7 and 8 of figure 3.

It will be clear that the solutions shown are only examples and that other solutions are possible within the scope of the invention.

1013773

Claims (12)

1. Pipe coupling for sealingly connecting two pipes or pipe parts, in particular for pipes or pipe parts 5 with smooth cylindrical ends, for instance for metal drain pipes, which pipe coupling comprises: a tensionable metal annular sleeve, which is divided in at least one place, a substantially sealing annular elastic sealing element arranged in the sleeve, which on both sides delimits an opening in which a tube fits, and a clamping device adapted to tighten the sleeve around the tubes inserted in the sealing element and thereby sealing the sealing element sealed, characterized in that the pipe coupling is provided with one or more bodies of intumescent material. 2. Pipe coupling according to claim 1, wherein inside the cuff one or more bodies are provided with intumescent material. A pipe coupling according to claim 2, wherein one or more annular bodies of intumescent material are arranged along the inner circumference of the sleeve. 25 Pipe coupling according to claim 3, wherein one or more bodies of intumescent material are arranged between the sleeve and the sealing element. Pipe coupling according to one or more of the preceding claims, wherein intumescent material is embedded in the sealing element. Pipe coupling according to one or more of the preceding claims, wherein intumescent material is arranged such that it is located between a pipe inserted into the pipe coupling and the sealing element, preferably against the pipe. 1 o 1 3 T 7 3 - 9 - Pipe coupling according to one or more of the preceding claims, wherein the pipe coupling further comprises an elastic separating element which is intended to lie between the end ends of the pipes. 5 Pipe coupling according to claim 7, wherein a body of intumescent material is provided in or around the separating element. Pipe coupling according to one or more of the preceding claims, wherein a plurality of clamping rings are provided inside the sleeve, which are arranged to engage the pipe ends when tensioning the sleeve. Pipe coupling according to claim 9, wherein intumescent material is placed between the clamping rings and the cuff, so that the clamping rings are pressed against the pipe when the intumescent material swells. A pipe coupling according to claim 9, wherein a clamping ring has an inner circumferential open groove, and wherein an annular body of intumescent material is accommodated in said groove. A pipe coupling according to claim 9, wherein a clamping ring is integral with or is connected to an annular body of intumescent material. 1013773