DE585165C - Locomotive boiler or the like - Google Patents

Description

Locomotive boiler or the like. The subject matter of the invention is a locomotive boiler o. The like. In which the fire box and an adjoining combustion channel through rows of risers and downpipes for heating a heat transfer medium indirect steam generation can be limited.

According to the invention, the downpipes are between upper containers, from which the heat transfer medium passes through a series of external pipes to the radiators in the, Steam generating drum located below the pipes of the fire box and the combustion duct is fed, and lower containers, which the condensate of the heating steam through a pump is closed, provided with check valves .. By this arrangement it is achieved that the condensate of the heat transfer medium from the circulation pump does not go through the middle row of drop rolls; but only through the inner, most heated Riser row can be pressed. On the other hand, there is also the possibility that when the circulation pump is at a standstill, there is natural circulation within the pipes the fire box and the combustion duct, i.e. between the inner row of risers and the middle row of downpipes by adjusting the upper and lower headers can. It is known to have devices at the lower ends of vertical tube boilers the downpipes to be provided in order to prevent the flowing through these downpipes of the lower drum To prevent water from flowing back into the downpipes. For example, one has jet-like Constrictions are provided at the lower ends of the downspouts. Here have these fixtures but to fulfill a different task than the present invention, where it is is about,, the inevitable water circulation through a certain group of Pipes in a high-pressure water pipe fire-gun for indirect steam generation to back up.

The drawing represents an exemplary embodiment of the subject matter of the invention represent.

Fig. I shows part of a locomotive two-pressure boiler with indirect Steam generation in the high pressure part in a vertical longitudinal section.

Figure a is a cross-section through the combustion duct between firebox and long boiler.

The firebox of the locomotive boiler is marked io. ioa are the support tubes for the fire bridge, and i i is a combustion chamber which contains the Firebox io with the long boiler 71 connects. "The one from the parts io and i i composite boiler part is used to generate high pressure steam indirect way, while the boiler part 71 from the exhaust gases of the high pressure part is heated and thereby directly generates low-pressure steam. The side walls and the ceiling of the high pressure part io, ii are made up of two groups of pipes 12 and 14 formed, of which the tubes 12 lower longitudinal chambers 16 and upper Connect longitudinal intermediate containers 18.

The tubes 14, on the other hand, start from a lower longitudinal chamber 16, extend upwards to just below the intermediate container 18 on the same side and are then bent upwards to the intermediate container 18 on the other side, so that the tubes 14 of the two boiler sides meet cross roughly in the middle of the boiler and form the ceiling of the fire box io and the combustion duct ii. In order to create its own natural circulation of water between the chambers 16 and 18, downpipes 2o are provided behind the pipes 12 and 14, which are equipped with non-return valves.2i which only allow a downward flow. The steam generated in the tubes 12 and 14 is used to evaporate water and in this way generate high pressure steam for use in a machine. This high pressure steam generation takes place in a drum 22 which, as can be seen from FIGS. 1 and 2, is arranged below the combustion duct ii and the long locomotive boiler 71. In this way, the center of gravity of the entire locomotive is lowered and the overall height of the locomotive is reduced or the available space is better utilized than if the drum were arranged above the boiler. In the arrangement shown, the steam from the intermediate containers 18 is conducted through tubes 24 into smaller collecting containers 26, which run parallel to the large drum 22 outside the same and are in communication with heating elements 30 inside the drum 22 through short pipe sections 28. The condensate that forms during the heat transfer of the heating steam to the water in the drum 22 flows from the lower ends of the heating coil 3o through short pipe sections 32 to the outside into smaller collecting tanks 34, from which the condensate flows through connecting pipes 38 to a pump 36. The condensate is then fed back to the steam-generating pipe system by the pumps 36, namely in the illustrated embodiment through pipes 4o, which are preferably provided with non-return valves 42, into the lower water chambers 16. Since the downpipes 2o are provided with non-return valves 21 which release only one path downwards, so the water from the lower chambers 16 can only rise through the inner row of riser pipes 12, 14. Instead of the centrifugal pumps 36 shown, piston pumps can of course also be used. The feed water is introduced into the drum 22 through a pipe 44 at the bottom of the drum, while the high pressure steam generated is withdrawn through a pipe 46 in the top of the drum.

The arrangement according to the invention, apart from the lowering the Sch, tverpunktes and the favorable use of space, still another advantage achieved, that the support members for the firebox and the rear end of the boiler are less Use building material and weight.

Claims (1)

PATENT CLAIM: Locomotive boiler or the like, in which the fire box and an adjoining combustion duct through rows of risers and downspouts for the heating of a heat transfer medium for indirect steam generation are limited, characterized in that the downpipes (2o) between upper containers (18) those of the heat transfer medium through a series of external pipes (24) to the radiators (30) in the one below the pipes of the fire box and the combustion duct Steam generating drum (22) is supplied, and lower containers (16) to which the The condensate of the heating steam is pressed in by a pump (36) with non-return valves (21) are provided.