EP0297261A2 - Heater - Google Patents

Abstract

The heater consists of a two-part housing, the housing parts (2, 2') being interconnected in a water-bearing manner, the combustion chamber (1) being arranged in one, horizontally oriented housing part (2'), and the heating gas flues (3) being guided in the other housing part (2) which is oriented vertically in relation to the first, starting from the combustion chamber (1), to a collecting chamber (4) with a gas take-off connection pipe piece (8). The heating gas flues (3), which start from the combustion chamber (1) and extend in the vertical housing part (2), are arranged in a diverging manner in the transverse and/or longitudinal direction in relation to the longitudinal axis (5) of the combustion chamber (1), towards the collecting chamber (4). <IMAGE>

Description

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

Heating boilers of the type mentioned are known, for example, from DE-U-86 17 230. In this known heating boiler, the heating gas flues, which are also designed as pipes, lead in close association with one another parallel to the collecting chamber for the residual gases arranged below, which can then flow off through the gas outlet to be connected to the chimney. The dense assignment of the heating gas flues is due in particular to the fact that a sufficient number of flues must be connected to the top of the cylindrical combustion chamber, for which only a limited area is available. Although it was possible to arrange a large number of heating gas draw tubes with smaller cross sections but larger distances from one another, this would, however, be associated with a correspondingly large production outlay, apart from the fact that heating gas draw tubes of small cross-section would no longer be readily suitable for enlarging them internally with transfer area enlargements (e.g. themselves radially extending longitudinal ribs). Given the relatively small distances between the heating gas draw tubes which are assigned to one another and which have correspondingly large cross sections, there is relatively little free space between the lower ends of the heating gas draws, that is to say where they reach through the lower bottom of the water-carrying, vertical housing part. Such boilers are already the best for modernization heating systems installed, in which a relatively large amount of corrosion products such as rust and sludge must be expected, these contaminants would accumulate at the deepest point of the boiler, i.e. in the relatively narrow spaces between the ends of the heating gas pipes . Such accumulations of contamination can, however, in the course of malfunctions with regard to the effectiveness of the convection heating surfaces represented by the heating gas flues.

The invention is therefore based on the object to improve a boiler of the type mentioned while maintaining the fundamentally advantageous construction principle in such a way that a larger free space is available for such unavoidable dirt accumulations.

This object is achieved with a boiler of the type mentioned according to the invention by the features stated in the characterizing part of the main claim. Another independent solution to the same problem arises from the subsidiary claim.

This design according to the first solution, which should also be used when the heating gas flues do not consist of individual tubes, but instead of a few so-called heating gas flue pockets with a relatively large length in terms of their cross section, can be easily and without any other significant design change to the boiler much greater free space can be reached between the lower heating gas flue ends, but this automatically leads to the fact that dirt accumulations cannot build up as high over time as can be the case with heating gas flues running strictly parallel and with narrow distances downwards. Since, when arranging heating gas flues in the form of individual pipes, there is of course a series connection with regard to the assignment of the pipes to one another, the pipes in such a group are advantageously arranged in such a way that within at least two adjacent rows of a group results in a gap offset of the pipes to each other. In view of an inexpensive cleaning possibility of this dirt accumulation area, which is expanded by the novel measure, an advantageous development of the heating boiler consists in that at least one liquid-tightly closable cleaning nozzle is arranged on the vertical, preferably approximately cylindrical or oval cross-sectional housing part in the region of the lower ends of the hot gas.

Regarding the second solution to the problem, the same construction principle is retained, but the entire boiler is turned upside down, i.e. the combustion chamber is at the bottom and the collection chamber at the top. Apart from the fact that there is a constant buoyancy flow directly above the cylindrical combustion chamber, no or no large dirt accumulations can form due to the overhead arrangement on the cylindrical, water-side surface of the combustion chamber, since these simply slide off to the sides. Advantageously, however, a diverging extension of the heating gas pipes from the collecting chamber to the combustion chamber can also be provided. Moreover, if the heating boiler is to be operated as a condensate boiler, such an arrangement has the further advantage that it takes into account the different dew point temperatures of the resulting condensate, because acid has a higher dew point than water, i.e. Water or the thin acid component of the condensate accumulates at the upper end of the heating gas flue and rinses off the more acidic condensate deposits that accumulate there when it flows down.

The heating boiler according to the invention is explained in more detail below with reference to the drawing of exemplary embodiments.

• Fig. 1 einen Längsschnitt durch den Heizungskessel längs Linie I-I in Fig. 2;
• Fig. 2 einen Vertikalschnitt durch den Heizungskessel längs Linie II-II in Fig. 3;
• Fig. 3 einen Horizontalschnitt durch den Heizungskessel längs Linie III-III in Fig. 2;
• Fig. 4 den Heizungskessel gemäß Fig. 1 in Überkopfstel­lung;
• Fig. 5 den Heizungskessel gemäß Fig. 4 im Schnitt;
• Fig. 6 den Heizungskessel gemäß Fig. 5 in einer weiteren Ausführungsform und
• Fig. 7 im Schnitt einen als Kondensat- bzw. Brennwertkes­sel betreibbaren Heizungskessel.

It shows schematically

• 1 shows a longitudinal section through the heating boiler along line II in Fig. 2.
• Figure 2 is a vertical section through the heating boiler along line II-II in Fig. 3.
• Figure 3 is a horizontal section through the boiler along line III-III in Fig. 2.
• 4 shows the heating boiler according to FIG. 1 in the overhead position;
• 5 shows the heating boiler according to FIG. 4 in section;
• 6 shows the heating boiler according to FIG. 5 in a further embodiment and
• Fig. 7 in section a boiler that can be operated as a condensate or condensing boiler.

As can be seen from Fig. 1, 2, the boiler consists of a water-carrying housing with in the upper part 2 'of the housing arranged, essentially horizontally oriented combustion chamber 1, from which in the vertical housing part 2 heating gas flues 3 to a collecting chamber arranged at the bottom of the vertical housing part 2 4 are led with gas vent 8. As can be seen, the vertical housing part 2 is closed at the bottom with sheet metal, which is penetrated by the ends 3 'of the heating gas flues 3, to which, as can also be seen, the collecting chamber 4 is connected in a gastight manner. In the exemplary embodiment shown, the heating gas flues 3 are formed by tubes which are arranged in the corresponding region of the combustion chamber 1 in a manner quite close to one another. These starting from the combustion chamber 1 and extending in the vertical housing part 2 Heizgaszug 3 are arranged in the direction of the collecting chamber 1, diverging, that is, he Heizgaszugrohre he stretch apart with increasing distances apart, whereby around the ends 3 'of the heating gas flue around a correspondingly large free space is created, which is able to absorb considerable amounts of pollution, without this pollution having to build up extremely high, which would be the case , when the heating gas draft pipes entered the collecting chamber 4 in as close a relationship as they are attached to the top of the combustion chamber 1. The same effect would of course also be achievable with a divergence in the longitudinal direction, based on the longitudinal axis 5 of the combustion chamber 1, and of course also with a divergence both in the transverse and in the longitudinal direction.

Fig. 2 illustrates the advantageous requirement that the heating gas flues 3 formed as tubes are arranged in rows 6 and within at least two adjacent rows offset from one another to a gap. If such a gap offset were not taken into account and the spacing of the pipes, as is the case with gap offset, should be maintained, this could only be done at the expense of the overall width of the pipe arrangement.

1 is arranged on the vertical, preferably in cross-section and, as shown, approximately cylindrical or oval housing part 2 in the region of the lower heating gas pull ends 3 ', a liquid-tight sealable cleaning nozzle 7, when it is opened and when the heat transfer medium flows out, the accumulated in the housing part 2 on the end plate 9 Dirt particles can simply be washed up.

As can be seen from FIGS. 4 to 7, these embodiments have the same construction principle described above, but these boilers are installed upside down, ie the combustion chamber part is at the bottom and the collecting chamber 4 is at the top. Since the same construction principle is used, corresponding parts are provided with corresponding reference symbols in these embodiments. From Fig. 5 it is readily apparent that for dirt parts there is practically no possibility of accumulating in large quantities on the water-side combustion chamber surface 1 ', since accumulations slide off to the sides and there is also flow buoyancy in this area. Apart from this, as can be seen from FIG. 6, it is also readily possible to provide a divergence profile for the heating gas draw tubes 3. In addition, such an overhead installation of such a boiler is connected with a downward shift of the center of gravity, which facilitates the installation and fixation of such a boiler. Advantageously, the front and rear walls 10, 11 of the housing part containing the combustion chamber 1 can also be used as a set-up element 9, as is customary in heating boilers of a different type.
In particular, the embodiment of the heating boiler according to FIG. 7 is intended for operation as a so-called condensate or condensing boiler.

Without this having to be mandatory, the heating gas flues are designed in the form of heating gas flue pockets 3 '. If these are not combined, as shown, into a pocket block which can be installed overall, the then individually extending pockets could also be spread out in a fan-like manner to the combustion chamber 1.
Since such a mode of operation leads to condensate accumulation, the wall of the combustion chamber 1 is provided with a condensate drain 13 opposite the mouth region 12 of the heating gas flues, towards which the combustion chamber wall is expediently formed with a slope, which can be achieved in a simple manner, for example, in that to arrange the combustion chamber 1 with a slight inclination in the housing.

Claims (8)

1.Heating boiler consisting of a two-part housing, the housing parts being connected to one another in a water-carrying manner and the combustion chamber being arranged in a horizontally oriented housing part and, in the other, vertically oriented housing part, starting from the combustion chamber, the heating gas flues being led to a collecting chamber with a gas exhaust connection piece.
characterized,
that the starting from the combustion chamber (1) and extending in the vertical housing part (2) heating gas flues (3) in the direction of the collecting chamber (4) with respect to the longitudinal axis (5) of the combustion chamber (1) in the transverse and / or in the longitudinal direction are arranged divergent. 2. heating boiler according to claim 1,
characterized,
that the heating gas flues (3) are arranged in rows (6) and within at least two adjacent rows with a gap between them. 3. Boiler according to claim 1 or 2,
characterized,
that at least one liquid-tight lockable cleaning nozzle (7) is arranged on the vertical, in cross-section approximately cylindrical or oval housing part (2) in the region of the lower heating gas pull ends (3 '). 4.Heating boiler, consisting of a two-part housing, the housing parts being connected to each other in a water-carrying manner and the combustion chamber being arranged in a horizontally oriented housing part, and in the other, vertically oriented housing part, starting from the combustion chamber, the heating gas flues are led to a collecting chamber with a gas outlet connection piece.
characterized,
that the housing part containing the cylindrical combustion chamber (1) is designed as a lower boiler part with positioning elements (9) and on this the other housing part (2) with the vertically extending heating gas flues (3) and the collecting chamber (4) is arranged. 5. heating boiler according to claim 4,
characterized,
that the set-up elements (9) are formed by the front and rear walls (10, 11) of the housing part containing the combustion chamber (1). 6. heating boiler according to claim 4 or 5,
characterized,
that the heating gas flues (3) extending from the collecting chamber (4) down to the combustion chamber (1) are arranged diverging in the transverse and / or longitudinal direction with respect to the longitudinal axis (5) of the combustion chamber (1). 7. Boiler according to one of claims 4 to 6,
characterized,
that the wall of the combustion chamber (1) is provided with a condensate drain (13) opposite the junction area (12) of the heating gas flues (3). 8. heating boiler according to claim 7,
characterized,
that the wall of the combustion chamber (1) to the condensate drain (13) is inclined.

Images