DE3310223C2 - - Google Patents

Description

The invention relates to a steel boiler according to the preamble of the main claim.

Such boilers are well known and in use and are nowadays generally called so-called low temperatures boiler designated and operated, d. H. such kettles can down to 30 ° in terms of water temperature be driven or using additional special Measures in even lower temperature ranges, being then be referred to as a low temperature boiler. This out obviously extremely cheap in terms of primary energy consumption operable boiler, whether as low or low temperature boiler operated, require special design measures, in order to counter the risk of condensate attack, although of course you try to keep this effort as low as possible to keep possible. These measures (e.g. double wall training dung, profile trimmings leading to double wall designs or Like.) You could now also in the area of the deflection chamber hen, however, such a boiler construction still on made it more agile.

According to DE-PS 19 39 986, a steel boiler is known, which corresponds approximately to that of the type mentioned at the beginning. Here at, however, the combustion chamber is slim and oval with its main axis oriented vertically in the aquifer Boiler housing arranged and connects to a cylindrical Deflection chamber, the top and bottom of constructive green which has slightly flattened boundary walls, um this with the upper and lower areas of the combustion chamber to be aligned, which is extremely far from the center of the Combustion chamber located because the main axis length of the combustion chamber almost the inside diameter of the water-bearing Ge corresponds to the house.

The invention has for its object a heater boiler of the type mentioned also in the area of the deflection combustion chamber, d. H. in the area of the boiler lock door in ge to improve the above-mentioned senses, but with ge  less effort than he especially for the Heizgaszugbe rich and the flue gas collection chamber is applied.

This task is ge with a steel boiler named type according to the invention by the in the hallmark of Main claim listed features solved. Beneficial Further training results from the subclaims.

Through this training and simple measure, that of the normally intended cylindrical shape of the Boundary wall of the deflection chamber deviates, is advantageous achieved that these boundary walls closer to those in the heating heating gas flowing into the flue and flowing out of the combustion chamber gases are brought up and heavily loaded so that there is none or practically none in these areas Condensation can form, as these walls are heat up faster and stronger than if it continues to heat up would be far away. The whole thing has the advantage that the total area of the boiler lock door, which is also abstrah area is reduced accordingly, upwards and downwards can be.  

The heating gas flues of the steel boiler according to the invention are preferably adapted to the cylinders The cross-sectional shape of the combustion chamber is circular formed and ver with a height or secant extension see that corresponds approximately to the diameter of the combustion chamber (see real sub-claims 2 to 4).

The steel boiler according to the invention is described below the graphic representation of exemplary embodiments nä explained here. It shows schematically

Figure 1 shows the steel boiler in longitudinal section.

Fig. 2 shows the steel boiler according to Figure 1 in cross section.

Fig. 3 shows the steel boiler according to Fig. 1, 2 in Vorderan view with the shutter door open and

Fig. 4 shows a section according to FIG. 2 in a slightly different imple mentation form with regard to the number of heating gas flues.

From Fig. 1, in particular, the essentially interesting arrangement of the deflection chamber 2 is clear, into which the heating gases emerging from the pot-like combustion chamber 6 enter and flow into the heating gas flues 4 , which, as can be seen from FIG. 2, have a circular arc shape. Normally, the ends of these heating gas flues are arranged higher and lower, ie they end at a corresponding distance in front of the vertical longitudinal median plane or longitudinal central axis 9 and the boundary wall of the deflection chamber is cylindrical. Since boilers smaller Lei stung such sized heating gas flues do not need and heating gas flues 4 , as shown, are sufficient, are now the upper and lower boundary walls 1 of the deflection chamber 2 , which, as can be seen from Fig. 1, are cooled to a certain extent from the circular shape flattened upwards or downwards and arranged in a substantially horizontal manner from the ends 3 of the heating gas flues 4 . They are advantageously taking into account the pressure conditions in the boiler housing 10 , but slightly rising (above) or slightly falling inclined with respect to their halves 1 ' , which results in a better stiffness. This training also applies in principle to the embodiment according to FIG. 4, whose boiler differs only in that heating gas flues 4 are arranged in pairs on both sides of the combustion chamber 6 .

As can readily be seen from FIGS. 2, 4, the upper and lower boundary walls 1 are moved much closer to the opening edge 8 'of the combustion chamber 6 and are immediately struck by the outflowing heating gases, which would not be the case , if these boundary walls 1 were also cylindrical in this area.

The boiler according to Fig. 1, 2 arises with open Ver closing door 7 in the sense of Fig. 3 illustrates, from which apparent (the illustrated rectangular shape of the Türzargenrandes 11 is not mandatory, nor the arrangement of a sepa rates frame, although this is advantageous ) that the surface of the shutter door 7 and thus the radiation can be reduced accordingly up and down.

Claims (4)

1. Steel boiler for gaseous or liquid fuels, consisting of a water-bearing housing with a pot-shaped, cylindrical combustion chamber connected to the water-side rear wall of a larger, burner-side deflection chamber and a fume-side flue gas collection chamber, from the one leading to the rear wall of the deflection chamber, on both sides the combustion chamber heating gas flues are arranged, characterized in that the upper and lower areas of the limita tion walls ( 1 ) of the cylindrical deflection chamber ( 2 ) extending horizontally or approximately horizontally, formed and to the opening edge ( 8 ' ) of the combustion chamber ( 6 ) are arranged. 2. Steel boiler according to claim 1, characterized in that the heating gas flues ( 4 ) are formed in the shape of a circular section. 3. Steel boiler according to claim 1 and / or 2, characterized in that the order steering chamber ( 2 ) is provided with respect to its overall cross section with a boiler lock door ( 7 ), the surface ( 8 ) about the total cross section of the deflection chamber ( 2 ) ent speaks. 4. Boiler according to one of claims 1 to 3, characterized in that the upper and lower boundary walls ( 1 ) of the deflection chamber ( 2 ) with respect to the vertical longitudinal center ( 9 ) of the boiler to this longitudinal center ( 9 ) Halves ( 1 ′ ) are slightly inclined at the top and slightly inclined at the bottom.