DE19623343C2 - Relief chimney for piping systems - Google Patents

Description

The present invention relates to a relief chimney for Rohrleitungssy steme with a chimney body and a closing against the atmosphere Rupture disc, wherein the chimney body to a pipe with a predetermined th pipe nominal width can be coupled.

Such relief chimneys are known from the general prior art. They represent a particularly inexpensive explosion decoupling device in which the flow direction is deflected by 180 °. A In practice, such relief chimney is in front of an apparatus to be protected set and is intended to cause a starting in a longer pipeline Dust explosion deflected upwards by lifting the relief device becomes. The chimney body has a cylindrical geometry that of the respective Pipe nominal width is adjusted. The associated rupture disc is also circular formed round and adapted to the corresponding nominal pipe size.

The formation of such relief chimneys of the prior art in Ab dependency on a respective pipe diameter and the use of egg ner circular disk with the same dependence leads to the fact that Relief chimneys individually manufactured for each individual purpose Need to become. This is a very expensive and time consuming process.

A relief chimney is known from DE 30 14 483 A1, which has a rectangular shape Has cover and in buildings for potentially explosive electrical Network stations is used. The prior art disclosed here relates to al but the field of building technology and not that of pipeline technology.

The object of the present invention is therefore a discharge chimney for To create piping systems that is inexpensive to manufacture and for ver different pipe sizes can be used.

The object is achieved in that the rupture disc is rectangular, wherein the geometry of the chimney body is adapted to the rupture disc and the Vent body to a pipeline with a plurality of predetermined pipelines nominal nominal widths can be coupled.  

The inventive concept takes into account the fact that rectangular rupture disks ben, and in particular 0.5 m ² burst disks (see claim 5), which are usually sold rupture disks for other purposes. Such rectangular bursting discs are therefore manufactured in large quantities and are inexpensive. Experiments and calculations have now shown that a chimney body with a basic geometry adapted to a right-angled rupture disk for all common pipe line nominal sizes, in a sensible way up to a nominal diameter DN 400, can be trained. By using uniform relief chimneys for different pipe sizes, they can be manufactured in large numbers and therefore inexpensively. In addition, they are quickly available because there is no one-off production.

According to claim 2, it is advantageous that the geometry of the chimney body in is essentially truncated pyramid-shaped. This allows the right angular rupture disc can be easily integrated into the vent body.

According to claim 3, another advantage is that the chimney body we at least one connecting element for connection to a piece of pipe. This creates an always positive and tight connection with the respective guaranteed pipe section.

In addition, it is advantageous according to claim 4 if the connecting elements are tapered are shaped, as this reduces the nominal diameter to the ent speaking pipeline nominal size in compliance with a positive and tight connection is possible.

Finally, as already stated above, it is advantageous according to claim 5 if the rectangular rupture disk is a 0.5 m ² rupture disk, since such a rupture disk is the most frequently sold rupture disk. There is therefore no need for any special one-offs.

An embodiment of the present invention is described below with reference to the Drawings described in more detail. Show it:

Fig. 1 is a schematic view of a discharge chimney according to the present invention;

Fig. 2 is a schematic side view of a vent member according to the present invention;

Fig. 3 is a further side view of the vent body of FIG. 2.

In Fig. 1 a discharge chimney 1 used in a piping system is shown schematically. The relief chimney 1 comprises a chimney body 3 , a rupture disc 5 closing against the atmosphere, a protective cage 7 arranged above the rupture disc, and a feed line connection 9 and a line connection 11.

The rupture disk 5 is rectangular and is preferably a commercially available 0.5 m ² burst disk. The chimney body 3 is essentially truncated pyramid-shaped, the base side receiving the rupture disk. The supply connection 9 in the truncated pyramid-shaped chimney body 3 lies in the pyramid surface, which is assigned to the longer side of the bursting disk 5 in this embodiment (see FIG. 2). In another embodiment, an assignment to the shorter side is also conceivable.

In Fig. 2 the chimney body geometry is shown schematically in a side view. The truncated pyramid-shaped chimney body 3 tapers geome trically from the rectangular rupture disc 5 to the circular Ableitungsan circuit 11 to the pipe section 13. In a pyramidal surface 15 of the supply line circuit 9 is formed and has a connecting element 17 . The connecting element 17 can be conical or have a conical insert element (not shown) if the nominal diameter is to be reduced to a smaller pipe nominal diameter.

The chimney body 3 is adapted at its discharge connection 11 to the round pipe section 13 and can also include a conical insert element (not Darge) if the nominal diameter is to be reduced to a smaller nominal pipe size.

In Fig. 3 the chimney body 3 is shown in a further side view rotated by 90 ° to Fig. 2. The arrows in the pipe connection 17 or pipe section 13 reflect the direction of flow of the dust material flowing through.

By using a 0.5 m ² burst disk with a rectangular base, the chimney body can be used for pipe sizes up to approx. DN 400.

Claims (5)

1. relief chimney for piping systems with a chimney body and a rupture disc closing against the atmosphere, the chimney body being connectable to a pipeline with a predetermined pipeline nominal size, characterized in that the rupture disc ( 5 ) is rectangular, the geometry of the chimney body ( 3 ) is adapted to the rupture disc ( 5 ) and the chimney body ( 3 ) can be coupled to a pipe with a plurality of predetermined pipe nominal widths. 2. Relief chimney according to claim 1, characterized in that the geometry of the chimney body ( 3 ) is substantially pyramid-shaped. 3. relief chimney according to claim 1 or 2, characterized in that the chimney body ( 3 ) has at least one connecting element ( 11 , 17 ) to a pipe section ( 13 ). 4. relief chimney according to claim 3, characterized in that the connecting element ( 11 , 17 ) to adapt to the nominal width of the pipe section ( 13 ) is conical. 5. relief chimney according to one of the preceding claims, characterized in that the rupture disc ( 5 ) is a 0.5 m ² burst disc.