DE330227C - Water tube boiler - Google Patents

Description

Water tube boiler .. The invention relates to a water tube boiler, consisting of a boiler part closest to the fire and one behind it, in which the feed takes place. Boilers are already known in which scale formers be excreted by high preheating of the feed water, whereupon the purified Water is supplied to the most endangered heating surface. But there is a big one Part of the limescale builder only fails during evaporation, is known with the Versions to achieve a boiler-free heating surface. This is only possible if with condensate, from which even those difficult to separate due to evaporation Scaling agents are removed, is fed. Since not always enough pure Condensate is available, should according to the invention that to feed the front, dem.), your closest, i.e. most endangered part of the boiler necessary condensate are formed in the boiler itself. For this purpose the front part of the boiler is from the fresh water feed completed - and in its steam or. Water space in In a known manner, a preheater is arranged, which feeds the front boiler part necessary water is precipitated from the steam.

The new water-tube boiler is shown in Fig. 1 in simple lines in vertical cross section, and in Fig. 2 in longitudinal section through the front upper boiler. 3 shows a second embodiment. In the new water tube boiler, the first boiler part is divided into two compartments g and l2 by sheet metal fittings d, b, c and x in the upper and lower boiler. In the room g there are tubes e through which the fresh feed water is passed, but which is not allowed to exit into the room g. On the way through the tubes e, the water is heated by the steam accumulated in space g, while with an appropriately sized heating surface of the tubes, an amount of steam corresponding to that generated in the boiler part g, h, g is precipitated.

The steam water that is permanently formed by this is used the supply of the boiler part g, h, g and is through special return pipes f, which are connected by connecting pieces i to the rooms g of the upper and lower boiler are, again and again fed to the space g of the lower boiler and into the subsequent Boiler tubes always evaporate anew. That which precipitates the steam in the upper boiler room g In addition to feeding the boiler part, water can be used for other purposes to be used. This measure ensures that only when replenishing of the boiler of the most endangered heating surface, scale-secreting water is supplied while in operation this heating surface - apart from the low Amounts of additional water that can be taken from the other part of the boiler in an emergency - scale-free Water is available. The basic idea of the invention can be applied except for steep tube boilers also apply to other water tube boilers. It also needs a steep tube boiler with multiple Tube bundles do not necessarily come in from the front bundle Part of the heating surface to be separated, rather the cooling or preheating tubes be accommodated in the undivided upper boiler of the front bundle, depending on this the temperature of the available water permits or protection against Scale deposit can be applied to a larger or smaller heating surface target.

. If the cooling surface of the tubes e should be dimensioned too small, the case could arise that there is a lack of water in compartment g. In order to prevent any danger in this case, flaps d, which only open after space g and whose use is known per se, are attached. If the water in room g sinks lower than in room 1a, flaps d open under the overpressure in room h and allow water to flow into room g. The original filling of the boiler part g also takes place through these flaps.

In the steep-tube boiler shown in FIG. I, the steam and water space of compartment g is completely separated from that of compartment h by walls a and b. The steam generated in space g is therefore collected separately from that in space h. For this reason, a higher vapor pressure can set in compartment g than in compartment lt . If this occurs, the water is pressed into space h around the lower edge of wall a, which only extends to the lowest water level, until the steam is pressure equalized with the other part of the boiler through the triangular cut-outs l (Fig. 2) manufactures. FIG. 2 shows the position of the flaps d between the triangular cutouts 1.

Fig. G shows another, simpler embodiment, namely is here only the water space of both compartments is separated by the wall x, while the steam space both compartments through the openings in. The one with too small a dimension Cooling surface of the tubes is about necessary «, -ground pressure equalization takes place here directly through the openings na.

Claims (2)

PATENT CLAIMS: z. Water tube boiler, consisting of a dem The boiler part closest to the fire and one behind it, in which the feed takes place, characterized in that the front boiler part (g, h) is closed off from the fresh water feed and a preheater (e) is arranged in its steam or water space in a known manner is that the water required to feed the front part of the boiler from the Steam precipitates. 2. Steam boiler system according to claim i, characterized in that that the end wall (a) in the steam room only extends to the lowest water level, while the partition wall (b) is in the water space. still above the highest water level protrudes.