DE568051C - Arrangement for the quick removal of overprints - Google Patents

Description

For distillation equipment, steam generators, pressure vessels and storage vessels sometimes sudden overpressures occur, which can have various causes. at Distillation devices and steam generators are often caused by overpressures Delayed boiling. Pressure vessels and storage containers are often overprinted caused by explosion, which is easily caused by spontaneous combustion of mixtures had flammable vapors or gases with air. In both cases the overprints resulted frequently for the destruction of the facilities concerned.

The safety valves used in practice with their relatively small size Cross-section only. protection when the pressure in the vessels is very gradual increases and on the one hand part of the overpressure due to the blow-off of the safety valve is derived, on the other hand, the operator is advised of the cause of the creation of the overpressure to turn off.

»5 safety valves in such dimensions to create as they are for the removal of sudden overpressures at large Vessels would be necessary, fails because these large sealing surfaces very are difficult to keep tight, which would lead to inconveniences, especially in the case of distillation vessels.

Attempts have also been made to remove suddenly appearing overprints by loosely placed covers, either abraded or applied using a sealant eliminate a process, which, however, must be done with consideration of the risk to the Operating crew is very questionable due to the flying lid.

To eliminate overpressures in containers for compressed gases or compressors, arrangements have been recommended consisting of either membranes passing through the overpressure should be torn, or those where by a pin in the In the event of danger, the membrane is drilled through. With both arrangements However, it is a question of small vessels, and the safety device is also kept in correspondingly small dimensions.

Another invention uses a cast iron break plate to protect against Occurring overpressures in compressors also in small dimensions, like that when using this material, it is also not easy to do otherwise.

The use of cast-iron crushing plates in the 6n

Maneuverable large dimensions are out of the question, if only because of the unevenness of this material and the difficulty of choosing the plate thickness so that it will break reliably at a certain pressure and thus create space for the overpressure. However, membranes in the dimensions that would have to be used as adequate protection for such large vessels cannot be arranged in the known manner. In the case of the vessels in question, which as a rule have very large dimensions, the membranes must also have correspondingly large areas in order to ensure that the device functions reliably in the event of an explosion. On the other hand, they have to be of very little strength so that they tear when the dangerous pressure occurs. Since, for example, an overpressure of ¹ _1/2 atm. Is permissible in the case of distillation vessels, for example, this membrane would be subject to permanent flexing outwards and a return to its old position at the normal operating pressures, a process which would be repeated at least once with each distillation and would have to lead to fatigue of the material, which would cause the membrane to tear even at normal operating pressure after a while would occur in the direction of the diameter, so that the intended purpose of bringing about the sudden release of the entire cross-section is not achieved.The same damage would occur to an even greater extent in vessels that work with negative pressure during the process.

The present invention offers the possibility in the event of a sudden overpressure to eliminate this in that a large opening gives space for the vapors or gases to escape and but at the same time it is always completely airtight up to this point. she consists in principle of an airtight over the blow-off nozzle of any size attached membrane, either against a certain operating pressure inside of the vessel or against the external pressure when using a vacuum in the vessels or against pressure from inside and outside is. The purpose of this support is to hold the membrane, which is weak in itself, under the normal pressure ratio and lets it in only a very narrow slit around the circumference of their support. When a sudden occurrence Overpressure tears the membrane at the point just mentioned, pressing the support away and thus releases the necessary cross-section. It goes without saying that the material of the membrane depends on the Properties of the vapors or gases that occur must be selected.

Figures I, II and ITI are included as an example of such arrangements. In Fig. I there is membrane a above the safety connection piece, which is placed airtight on the connection piece between two rings and seals. According to this arrangement, the sealing ring c carries six stud bolts on which there is a downwardly curved base. The membrane is held in its free cross-section by a plate on which a rod is placed, which ends at the top in an elongated plate, which in turn is connected by stud bolts to the inwardly curved cover of the frame ⁸ ^. These stud bolts are dimensioned in their cross-section so that they tear off under a certain load.

Accordingly, if a sudden overpressure occurs in the vessel to be protected, the membrane tears, and at the same time the stud bolts g. The consequence of this is that the plate c snaps up at the same time as the rod d , thus exposing the full cross-section of the opening. The only purpose of the spring is to soften the shock 9 "with which c and d are thrown upwards. Another embodiment is shown in Fig. II. Here, the membrane α and is located on the relevant connection piece on this a counter-flange b with an approximately semicircular frame attached, which carries a spring / The support of the membrane a takes place here by a hinged cover c , which is arranged with a cam d against a tear-off pin e .

The operation of this device is basically the same. In the event of sudden overpressure, the pin e tears off the membrane at the free slot at the same time, and the cover strikes against the spring /.

In Fig. III it is shown how the membrane is supported against internal and external pressure at the same time in such a way that it tears off despite the occurrence of a sudden overpressure and can release the safety cross-section. The arrangement is the same as in Fig. I, only here there is a plate d below the membrane, which rests on a multi-armed cross.

Claims (1)

Claim: Arrangement for the rapid removal of overprints, characterized in that that a connection to the protected area via a correspondingly large contain airtight membrane against normal operating pressure of is supported inside or outside or on both sides, while in the event of sudden overpressures by removing a resistance element, stud bolt or the like. The tearing of the membrane and thus the exposure of the nozzle cross-section serving to discharge the vapors or gases is made possible. For this purpose ι sheet of drawings