DE442167C - Sectional or single chamber boiler - Google Patents

Description

Sectional or single chamber boiler. With the previously known sectional or single chamber water tube boilers are the individual chambers or chamber segments directly connected to the upper boiler, which is consequently so that it is from the heating gases, at least to a certain extent, must be coated.

Now taking into account the requirements that are currently on such boilers are provided, the wall thicknesses of these upper boilers reach such Dimensions that heat build-up occur within the sheets, which may be can lead to the formation of cracks.

It has already been proposed that the upper boiler not immediately to switch on the water circuit and connect it to the. Elements connect to. Here, however, the heating gases touch in the same way as with the usual ones Upper boiler assemblies the surface of this at least partially, and it yield this results in the same disadvantages already mentioned above when using higher pressures. Also the suggestion to have a preheater together with the upper boiler before the actual one Switching the boiler did not lead to the goal, because the upper boiler then at the beginning of the The water cycle lies and is just as stressed as with the previously known Arrangements.

The purpose of the invention is therefore to eliminate all these disadvantages of the known Avoid sectional or single chamber boilers, and this is done in the first place Line in that in place of the upper boiler a water distribution chamber and a Dampfsaiumelkammer are arranged. Such water distribution and steam collection chambers, whose clear cross-section need not be larger than that of the individual Elements can withstand high and highest operating pressures without excessive wall thickness easily withstand the stresses and strains that arise. Just like that without further ado clear that The water content of such a boiler is proportionate less, so that the boiler itself will work restlessly.

In order to eliminate this disadvantage, however, according to the invention parallel to the connection of the two chambers one or more. rere outside of the gas flow and the water-serum circulation are switched on, whose water level corresponds to the mean water level of the whole. Boiler corresponds. Through this is achieved on the one hand that the boiler has a sufficient water reserve to to be able to adapt to all operational disturbances without further ado. On the other hand 'is Avoided the upper boiler lying in the Heizgasstrorn, because instead of this the two Chambers occur whose walls are proportionate due to the small diameter can be kept thin. The walls of the water or steam storage tank on the other hand can be thinner, as they are withdrawn from the direct influence of the heating gases and are stressed less by heat than just by pressure. In> consequently they are also less exposed to wear than before.

The drawing shows an embodiment of the subject matter of the invention shown, namely: Fig. i a vertical section parallel to. the Tube bundles, Fig. 2 is an end view of the boiler, partially in section, and Fig. 3 is a schematic representation of the boiler, the basic arrangement and reveals the cycle of water and steam.

In the illustrated embodiment, the boiler consists of the two chambers 3 and ¢, between which the tube bundle 5 is located, and the through which Pipes 6 and 7 are connected to a water distribution chamber 8. This chamber 8 is in turn connected by pipes cg to a steam collecting chamber io, which is also connected to the other chamber 3 by means of corresponding pipes.

This water tube boiler without an upper drum is now available with a steam or water reservoir 12 through the pipes 13 adjoining the steam chamber io on the one hand and through the pipes i a opening into the water chamber 8, on the other hand, in connection and lies so high; that its mean water level corresponds to the mean water level of the Sectional boiler corresponds, as can be seen from Fig. I. The memory 12 is fed through the pipe 1 5. The water enters the water cans through the two pipes 14 8 and from this through the pipes 6 into the lower chimney. 4, flows through this, to get into the upper chamber 3 and through the pipes 7 back into the water collector 8, while the steam forming through both the tubes g and through the tubes i i enters the steam chamber io and exits it through the. two tubes 13 in the Storage 12. From this, the wet steam passes through line 16 into the superheater 17 and, after it has overheated, through line 18 to the point of consumption.

Due to the fact that the memory 12 only through a few 'pipes with the actual Boiler is connected, it is possible to arrange it so that it is outside of the gas flow is either, as shown in the drawing, in the boiler wall embedded or rolled outside of the walling, which is easy is possible if the memory would be on the other side, as shown schematically is shown in Fig. 3.

The arrows in Fig. 3 show how the water and steam cycle takes place, but at the same time that the water reservoir is completely outside this circuit is and can therefore be arranged so that the heating gases him cannot paint under any circumstances.

Instead of the one shown, there can of course be several which are then connected to one another in a manner known per se, at least are heat accumulations in storage of this type in contrast to the previously known Arrangements in which the storage tank also played the role of the upper boiler, excluded, thus making crack formation impossible from the outset, whereby the Operational safety and the service life of the boiler can be increased significantly. '

Claims (1)

PATE lITTANSPRUCFI: -sectional or single-chamber boiler, characterized in that a water distribution chamber (8) and a steam collecting chamber (io) are arranged in place of the upper boiler and that parallel to the connection of both one or more steam or water reservoirs located outside the gas flow and the water circulation (12) are switched, the water level of which corresponds to the mean water level of the entire boiler.