DE472191C - Overheater jacket pipe for the heating pipes of locomotive boilers or the like. - Google Patents

Description

Superheater jacket pipe for the heating pipes of locomotive boilers or the like. The invention relates to steam superheaters, which are used in particular for smoke tube boilers, such as B. Locomotive boiler, are determined and where the superheater tubes within the smoke pipes are. There are nested superheater tubes, so-called Casing pipes, used, of which according to the invention at least the inner elliptical or oval or similar, with this oval tube on its long axis the outer superheater tube. This outer tube is thus made in a simple manner divided by the interior into two steam paths, so that the wet steam is in one of these Paths in the direction of the fire box and in the other path back again in the Direction to the smoke chamber flows. At the ends (near the fire box) are the two Superheater tubes welded together, so that here a connection between the both steam paths is made to reverse the steam here. One can also make the outer superheater tube elliptical or oval and attach this tube let its long axis rest against the wall of the smoke pipe in question, with then the inner superheater tube or the outer one either in the same places but can touch it offset.

In the drawings, the subject matter of the invention is shown by way of example Demonstrates execution. Fig. I is a partially vertical section View of the overheating device from the smoke chamber side of a locomotive boiler seen from.

Fig.2 is a vertical section through the one by the smoke chamber Part of the boiler with the superheater tubes.

Fig. G is a view similar to Fig. I showing a modified embodiment is shown.

Figure 4 shows the end of a superheater tube near the fire socket, and Figs. 5 and 6 are cross-sections through two embodiments of the superheater tubes, drawn on a much larger scale than in the other figures.

In figs. I and 2, a denotes the smoke tubes of the boiler, and b and c are the superheater tubes, of which c is in b . The tubes c initially have a smaller outside diameter than the inside diameter of the tubes d. At the end located after the fire box, the tubes b and c are welded together, and since they are of different diameters; so there is a space between them, as can be seen from the upper superheater tubes in Figure 2. The inner tubes c only have a circular shape at the closed end, whereas they are otherwise broadly pressed or elliptical in shape. The arrangement of the tubes b within the tubes c is as follows. -l-i-the two touch each other on their sides, so that there is no space around c, but only above and below between b and c. Only at the closed end is there a short annular space cl (Fig. 4). This space represents the connection between the upper and the lower space between: the tubes b and c, so that the steam flowing in from the Naßdampfverteil-ungskammer flows in the upper space in the direction of the fire box, in the space c * ' reverses and flows back through the lower space in the direction of the smoke chamber, to then go through a lateral connection f into the superheater pipe next below and go through the same run here. However, the inner tubes c do not need to be extremely elliptical, but can also have an oval shape or a shape similar to that.

When manufacturing the superheater tubes, it is expedient to proceed as follows: that when the tubes are cold, the diameter of the elliptical tubes c in the larger Axis is slightly larger than the inner diameter of the circular tubes b, so that these must be heated so that the tubes c can be inserted into them, so consequently increase somewhat in diameter, so that the inner tubes now can be inserted and the outer ones afterwards, when cooling and shrinking, Pull tightly onto the inner one, whereby the two tubes are rigidly connected to one another will. A further safeguarding of this connection occurs afterwards in the enterprise thereby one that the two spaces between the tubes b and c of the pressurized Steam are flowed through, so stand under the pressure of this steam, of course acts on the curved surfaces of the tubes c, so they strive to move against each other is, from which then a further pressing of the sides of the tubes c follows against the tubes b.

The two superheating chambers of each superheater tube will be how out - Figs. i, 2 and q. can be recognized both outside and inside by the hot Fire gases heated. Since this is particularly evident from Fig. 2, is a no further explanation is required.

Two other embodiments of the superheater tubes are shown in Fig. 5 and 6 shown. These images speak for themselves, so to speak. It is sufficient to say that the fire gases flow through the rooms d and the steam flow through the rooms e flows through. What is above about the shrinking of the tube b onto the tube c and from the pressure conditions has been said, also applies to these other two embodiments.

In the embodiment discussed first (Figs. I and 2) are the Socket f of the outer superheater tube b has already been mentioned. The top nozzle each of the vertical rows of superheaters receives the 2V cup steam through a pipe g. The nozzle f can, however, also lie on the sides of the tubes b, as is the case with the embodiment according to Fig. 3 shows in which case the superheater tubes are not in vertical rows, but are connected in horizontal rows. As in this case the Wet steam is fed through the pipes, as can be seen in Fig. 3, and how the superheated steam is collected from the various rows of superheater tubes is evident from Figs. i and 3 without further ado.

With reference to Figs. 5 and 6, the only thing that needs to be mentioned is that each outer superheater pipe touches the associated smoke pipe at opposite points (which is not the case with the embodiment according to FIGS. i and 2). These places of the smoke pipe are not flushed by the fire gases, and so these are here no heat to the water surrounding the flue pipe, so that accordingly more Heat is available for overheating.

Claims (2)

PATENT CLAIMS: i. Superheater jacket pipe for the heating pipes of locomotive boilers o. The like., characterized in that the inner tube (c) on most of its Length has elliptical cross-section and on the wall parts lying in its major axis the inner wall of the outer tube (b) rests, whereas the remaining part of the inner tube (c J has normal cylindrical cross-section. 2. Superheater jacket pipe according to claim i, characterized in that the outer tube (b) is also elliptical Cross-section and its major axis coincides with that of the inner tube (c).