DE3238603A1 - Condensation heating boiler - Google Patents

Abstract

The condensation heating boiler consists of a water-bearing housing, which has forward and return run connections, with a combustion chamber and heating gas flues, the heating gas flues, which start from the bottom of a combustion chamber, being arranged at every point of their course with a gradient. The heating gas flues (1) are designed as heating gas flue-pipes (4) made of special steel which open into a flue gas and condensate collecting chamber (2) and are helically twisted with regard to their wall (3) at least over a part of their overall length. The water-bearing interior (5) of the housing (6) is divided into two parts (6', 6'') which are connected by jacket tubes (7) surrounding the heating gas flue-pipes (4). <IMAGE>

Description

Condensation heating boiler

= = = The invention relates to a condensation heating boiler according to Preamble to the main claim ..

HeizungskesSel of the type mentioned are known from FR-OS 2,479,956. At. such boilers, the flue gases are deliberately cooled down so far that with Safety condensate accumulates. Apart from the quite complex and complex Construction of the previously known boiler (helical design of the heating gas supply pipes) even in the case of a design with a lintel combustion chamber, there is a risk that the This collects condensate on the floor and does not flow directly into the hot gas flues can. In addition, the helically wound heating gas supply pipes are completely free run in the water-bearing interior of the housing, their intensive cooling is not very well guaranteed.

The invention is accordingly based on the object of a heating boiler of the type mentioned to improve that such Condensate- or so-called condensing boiler despite the forced flow of the cooling medium along the Heizgaszugrohre for the purpose of intensive cooling is easier to produce, This The object is achieved with a boiler of the type mentioned according to the invention that which is recorded in the identifier of the main claim is drawn. Advantageous further training result from the subclaims.

This training leaves practically unknown boiler designs Xund it can be straight for the heating gas supply pipes as well as for the cooling pipes Pipes are used, with regard to the heating gas supply pipes on commercially available ones Stainless steel tubing with twisted walls is used, which has a long flow path ensure with correspondingly intensive cooling, although these pipes the water-bearing Reach straight through the housing.

The two-part division of the water-bearing interior of the one-piece Outer housing ensures that the combustion chamber located in the upper part is related heats up its walls quickly, eo that there, if anything, a minimum condensate accumulates, but this occurs directly through the stainless steel hot gas supply pipes with can drain.

The condensation heating boiler according to the invention is described below explained in more detail with reference to the graphic representation of exemplary embodiments.

It shows schematically Fig. 1 a longitudinal section through the condensation heater boilers; FIG. 2 shows a cross section through the heating boiler according to FIG. 1; Fig. 3 shows a longitudinal section through the condensation heating boiler in a special embodiment and FIGS. 4, 5, in side and front views, show a further development of the heating ice cream according to Fig. 3.

As can be seen from Fig. 1, the water-bearing interior 5 of the housing 6 divided into two parts 6,6 "by a partition 11, with 6" in the upper part the pot-shaped lintel combustion chamber lo is arranged. As shown, the boiler flow connection is 8 at the top of the upper part 6 "and the boiler return connection 9 at the top of the lower part 6 ' arranged. The twisted Heizgaszugrohre 4 are sn openings d85 combustion chamber bottom lol, extend through the lower part 6 'of the inner space leading to the lake 6 and open into the one below Flue gas and condensate collection chamber 2 or in corresponding openings in the flue gas collecting chamber ceiling 13.

In the area of part 6 ', the twisted heating gas supply pipes 4 are in Cladding tubes 7 arranged with their upper ends 7 'in corresponding openings 12 of the partition wall 11 are attached. However, the lower ends 7n of the cladding tubes 7 end at a distance (approximately corresponding to a pipe diameter) above the smoke gas collecting chamber ceiling 13. For a simple welded connection and a simple opening shape in the combustion chamber floor lo 'and flue gas collecting chamber cover 13 are the walls 3 of the twisted flue gas pipes 4 cylindrical in their connection areas.

This design results in the heating medium or cooling medium (Water) a flow guide from the return connection 9 to the flow connection B, as with Flow arrows indicated in Fig. 1, the transition from part 6 'to part 6 " of the interior 6 only through the twisted gaps 19 (Fig.1) between the Heizgaszugrohren 4 and the Hfllirohren 7 can be done.

The flue gas and condensate collection chamber 2, which is also made of stainless steel sheet is formed, and the possibly

can stand under blower suction, has advantageous a lowest lying condensate collection area 17, on which a condensate drain connection 18 is connected.

This area. 17 can by a curvature of the bottom 16 (as shown) or can be achieved by a slope of the floor.

The arrangement of the flue gas draft pipes 4 and the Hü11 pipes is in the course provided by concentric circles 14, but this is not mandatory, just as little, like the illustrated cylindrical design of the water-bearing housing 6, although this form is of course the cheapest in terms of production.

If necessary, an interior space can be centered between the cladding tubes 7 15 are kept free so that there is space for a domestic hot water tank (not shown) is given.

The Susführungform shown in FIG. 3 is especially for boilers of this Species with coarser performance determined. As can be seen, are here while maintaining of the basic principle, the two parts 6 ', 6 "of the housing offset at an angle to one another in accordance with the illustrated example in such a way that the horizontal longitudinal axis 20 of the Brennkam mer lo perpendicular to the longitudinal axis 21 of the lower part 6 'intersects.

The resulting space gusset in part 6 ″ is correspondingly bent or inclined flue gas ducts 4 penetrated, the smooth but also twisted Walls 3 can have.

The arrangement as shown in Fig. 3 is preferred, the However, compliance with the right-angled assignment of the longitudinal axes 20, 21 is not mandatory, i.e.

other angular positions are also possible, provided that only at each Place a slope is guaranteed.

So the partition could also be in an inclined position, such as indicated by dashed lines, the cladding tubes 7 then correspondingly at their upper ends bent up to the partition 11 are brought up.

In this training, but also in the one according to FIG. 1, there is also the rest also the possibility of connecting separate heating circuits with an average lower heating temperature are operated, e.g. an underfloor heating, whose Flow and return connections are then only connected to the lower part 6 '.

Following on from the embodiment according to FIG. 3, FIGS. 4, 5 a further improved embodiment illustrates, which, however, is also based on the Embodiment according to FIG. 1 could be realized.

This embodiment according to Fig. 4,5 is based on the following consideration: A problem with condensation boilers when they are connected to a hot water heater are, and this is often the case, then, then, in winter, i.e. at the greatest Heat demand, the heating assumes a higher and highest temperature. The heating return water then and it usually has a temperature that is above 40 ° C, Vfindet chew another one Condensation of the combustion gases takes place. You can help here, for example, by if underfloor heating is combined with radiator heating, the underfloor heating circuit passes through the lower part 6 'of the boiler, i.e. where the actual condensation occurs the combustion gases takes place. The radiator heating circuit is then connected at the top. Underfloor heating usually runs with flow temperatures of around 3o DC, see above that the return temperature is only about 200 or 250 C, but this causes condensation the combustion gases is guaranteed.

Another way to make the lower part 6 'colder, consists in using a heat exchanger through which the cold water is passed will. This heat exchanger 22 is connected upstream of water heaters, i.e. when warm water is tapped, then cold water from the water pipe first flows through this WT 22 and then into the hot water tank arranged outside the housing 6 and is thereby preheated. Because drinking water has a temperature in some areas has from 120C and in winter from approx. 80C or less, strong cooling takes place.

In the practical implementation, this is shown in detail in FIGS. 4, 5 made clear.

In principle, in all of the illustrated embodiments, the heat exchanger 22 are provided in the form of a helical tube that all cladding tubes 7 includes. It is essential that the cold water connection 24 is arranged in the area of the lower ends of the jacket tubes 7 and the hot water at the top is deducted at 23 '.

As for the connection of a sufficiently cold return water supply Floor heating circuit 28 concerns, so are 6 'low temperature heating circuit connections on the lower part 24, 25 provided, where again it is essential that the low-temperature return connection 24 in the area of the lower ends of the jacket tubes 7 is located.

These connections 24, 25 with a four-way mixing valve are useful 26 connected, with its free connections, as can be seen, then the low-temperature heating circuit 28 is connected.

As described above, the actual heating circuit 29 with the sor- and return connections 8, 9 of the housing 6, as can be seen in FIG is. A bypass line 27 with a charge pump is also advantageous in this heating circuit 30 provided, which comes into effect once if only the low-temperature heating circuit 28 is in operation or when only the worm diver 22 is exposed to heat should, i.e. this bypass provides the boiler circuit between the upper and lower part 6 ", 6 'safe if only the HE 22 and / or the low-temperature heating circuit 28 is in operation meant to be.

L e r s e i t e

Claims (1)

Claims: S condensation boiler, consisting of a water-carrying, flow and return connections having a housing with combustion chamber and heating gas flues, the heating gas flues emanating from the bottom of a combustion chamber being arranged with slopes at every point in their course, characterized in that the heating gas flues (1) as in a Flue gas and condensate collecting chamber (2) opening, with respect to their wall (3) at least over part of their total length in a manner known per se, are helically twisted heating gas supply pipes (4) made of stainless steel and the water-bearing interior (5) of the housing (6) in two Parts (6 ', 6 ") are divided, which are connected by the Heizgaszugrohre (4) surrounding" cladding tubes (7). open below 2. Heating boiler according to claim 1, characterized in that the flow connection (8) in the upper region of the upper part (6 ") and the return connection (9) in the upper region of the water-carrying part (6 ') of the housing (6) are arranged. 3. Heizakeasel according to claim 1 and / or. 2, d a d u r e 1 g e k It is indicated that in the water-bearing interior space (5) of the housing (6) below of the combustion chamber bottom (lo ') a partition (11) with openings (12) arranged is, in which the ducts (7) sit above the flue gas and condensate collection chamber (2) discharging freely into the lower part (6 ') of the water-bearing interior space (5) are arranged. 4. Heating boiler according to any one of claims 1 to 3, d a d u r c h it is noted that the walls (3) of the twisted heating gas supply pipes (4) in the connection areas on the combustion chamber floor (lo ') and on the flue gas collection chamber ceiling (12) are formed cylindrically, 5. heating boiler according to any one of claims 1 to 4, that the cladding tubes (7) at a distance Above the Rauchgassammelkamitierdecke (13) end, which is about its diameter is equivalent to. 6. Heating boiler according to any one of claims 1 to 5, d a d u r c h it is not indicated that the cladding tubes (7) with the heating gas supply tubes extending through them (4) in the course of concentric circles (14) while keeping a cylindrical one free Interior (15) are arranged. 7. Heating boiler according to any one of claims 1 to 6, d a d u r c h it is not noted that the bottom (16) of the flue gas and condensate collection chamber (2) provided with a deep condensate collecting area (17) and a condensate drainage connection (18) is arranged in this area. 8. Heating boiler according to any one of claims 1 to 7, d a d u r c h q e k e n n n z e i c h n e t that the .Teile (6 ', 6 ") of the housing (6) are inclined to one another are arranged. 9. Heating boiler according to any one of claims 1 to 8, d a d u r c h it is shown that in the lower part (6 ') of the housing (6) there is a cladding tube (7) Overall comprehensive heat exchanger (22) and its cold water connection (23) is arranged in the area of the lower ends of the cladding tubes (7) on the housing (6). lo. Heating boiler according to any one of claims 1 to 9, d a d u r c h It is noted that the lower part (6 ') of the housing (6) has low-temperature heating circuit connections (24,25) are provided and the low temperature heating circuit return connection (24) in Area of the lower ends and the low-temperature heating circuit flow connection (25) is arranged in the region of the upper ends of the cladding tubes (7). 11. Heating boiler according to claim lo, d a d u r c h g e k e n n z e i c h n e t that between the two low-temperature heating circuit connections (24, 25) a four-way mixing valve (26) is arranged. 12. Heating boiler according to any one of claims 1 to 12, d a d u r c h g e k e n n n z e i c h n e t- that between the upper and lower part (6 ", 6" ') of the housing (6) a bypass line (27) is arranged.