EP2918910A1 - Heating system - Google Patents

Abstract

The invention relates to a heating system, comprising a first heat generator (1) with a first exhaust pipe (1.1) and a second heat generator (2) with a second exhaust pipe (2.1), wherein the two exhaust pipes (1.1, 2.1) in an exhaust pipe connector (3) are formed openly opening. According to the invention, it is provided that one of the two exhaust pipes (2.1) is designed to open into the exhaust pipe connecting piece (3) in order to form a condensate discharge connection at a lowest point (3.4).

Description

The invention relates to a heating system according to the preamble of patent claim 1.

A heating system of the type mentioned is according to the patent document DE 10 2005 050 212 A1 known. This consists of a first heat generator with a first exhaust pipe and a second heat generator with a second exhaust pipe, wherein the exhaust pipes are formed opening into a Abgasleitungsverbindungsstück. This solution serves to avoid the entry of exhaust gas of an operating heat generator in a standstill heat generator. This is achieved by injectors provided on both exhaust pipes, wherein a condensate discharge connection is arranged at a lowest point of the exhaust pipe connection piece. Condensate is formed by condensing out of the exhaust gas.

The invention has for its object to improve a heating system of the type mentioned. In particular, a heating system of the type mentioned should be further simplified.

This object is achieved with a heating system of the type mentioned by the features listed in the characterizing part of patent claim 1.

According to the invention, it is thus provided that one of the two exhaust pipes is designed to form a condensate discharge connection is formed at a lowest point in the exhaust pipe connector opening.

In other words, the solution according to the invention is characterized by the fact that it is possible completely to dispense with the condensate discharge connection present in the aforementioned prior art by using one of the two exhaust gas pipes as such. This is possible in particular if the exhaust pipe used as condensate discharge port is connected to a boiler, which in turn has a Kondensatabfuhranschluss, which is the case regularly.

The proviso with respect to the junction of the exhaust pipe at a lowest point of the exhaust pipe connection means that the exhaust pipe is arranged on the exhaust pipe connector that automatically flows from the other exhaust gas condensate exiting gravity to this lowest point and from there into the designed as Kondensatabfuhranschluss exhaust pipe.

Other advantageous developments of the heating system according to the invention will become apparent from the dependent claims.

For the sake of completeness, the remainder of the solution according to the patent document will be referred to DE 102 40 990 A1 pointed. However, this solution differs in particular from the solution according to the invention in that there the two exhaust pipes are not openly formed in an exhaust pipe connecting piece, but that there is an exhaust pipe is guided only concentrically in the other. A merger of the two exhaust gas streams takes place only after the so-called exhaust manifold outside the building.

The heating system according to the invention including its advantageous developments will be explained in more detail with reference to the drawing of a preferred embodiment.

Figur 1

teilweise geschnitten eine Heizungsanlage mit dem erfindungsgemäßen Abgasleitungsverbindungsstück.

It shows

FIG. 1

partially cut a heating system with the exhaust pipe connection piece according to the invention.

In FIG. 1 a preferred embodiment of the heating system according to the invention is shown. This consists initially in a known manner from a first heat generator 1 with a first exhaust pipe 1.1 and a second heat generator 2 with a second exhaust pipe 2.1. In this case, the two exhaust pipes 1.1, 2.1 openly formed in an exhaust pipe connection piece 3 opening.

Essential for the heating system according to the invention is now that one of the two exhaust pipes 2.1 to form a Kondensatabfuhranschlusses at a lowest point 3.4 in the exhaust pipe connection piece 3, which preferably consists of plastic, is formed opening.

The proviso that the exhaust pipe 2.1 is formed opening at a lowest point 3.4 in the exhaust pipe connection piece 3, in addition to the above explanations also means that the exhaust pipe connector 3 may even have a deeper lying Totwassergebiet, but that accumulating there condensate from a certain Level in Totwassergebiet by overflow practically from flows alone or again by gravity to the condensate discharge port forming exhaust pipe.

How out FIG. 1 can be seen, it is particularly preferably provided that the connected to the lowest point 3.4 exhaust pipe 2.1 formed vertically extending to the heat generator 2 and / or the lowest point 3.4 above the heat generator 1, 2 is arranged.

It is further provided that the first heat generator 1, which is preferably designed as a fuel cell heater, to cover a base load and the second heat generator 2, which is preferably designed as a fuel oil, gas or wood fired boiler, is designed to cover a peak load.

In this case, the exhaust pipe 2.1 connected to the lowest point 3.4 is designed to be connected to the second heat generator 2 designed as a heating boiler. In addition, one of the heat generators 1, 2, here corresponding to the second heat generator 2, a building-side Kondensatabfuhranschluss (not shown separately, because known and readily imaginable).

In order to optimize the pressure conditions within the exhaust pipe connecting piece 3, which will be discussed in more detail below, it is further preferred that a flow cross-section of an exhaust pipe 1.1 is tapered in the junction region of the exhaust pipe connecting piece 3 to produce a pressure reduction in this exhaust pipe 1.1. In other words, it is provided that an end of an exhaust pipe 1.1, which opens into the exhaust pipe connection piece 3, is in the form of a nozzle-shaped injector is trained. Considered even more concretely, it is provided that an end of the exhaust pipe 1.1 opening into the exhaust pipe connection piece 3. 1 in the exhaust gas flow direction is first formed from a nozzle-shaped section 1.1. 1 and subsequently from a cylindrical section 1.

In order for condensate accumulating at the open end of the cylindrical section 1.1.2 to be able to flow or flow directly into the exhaust pipe 2.1, it is further preferred that an open end of an exhaust pipe 1.1 opening into the exhaust pipe connector 3 is arranged vertically above the other exhaust pipe 2.1 is. How to continue FIG. 1 As can be seen, these provisos also lead to the fact that once leaked from the exhaust pipe 1.1 condensate can not get back into this exhaust pipe 1.1, since a free end of the exhaust pipe 1.1, in particular the nozzle-shaped injectors, always at a distance, particularly preferably concentric, to walls of the is preferably arranged as a T-shaped piece of pipe formed Abgasleitungsverbindungsstücks 3.

Further, with reference to FIG. 1 in order to optimize the pressure conditions in the exhaust pipe connecting piece 3, a flow cross-section of an exhaust pipe 2.1 in the junction region of the exhaust pipe connecting piece 3 is designed to increase pressure in this exhaust pipe 2.1. Expressed in other words, it is provided that an end of an exhaust pipe 2.1 that opens into the exhaust pipe connection piece 3 is designed as a diffuser.

Furthermore, it is preferably provided that the exhaust pipe 1.1 of a heat generator 1 is formed unparallel or not parallel, preferably perpendicular, the exhaust pipe 2.1 of the other heat generator 2 in the exhaust pipe connector 3 opening.

Furthermore, the exhaust pipe connecting piece 3 has a first exhaust gas connection 3.1 for the first exhaust gas line 1.1, a second exhaust gas connection 3.2 for the second exhaust gas line 2.1 and a third exhaust gas connection 3.3 to a common exhaust gas discharge line 5. In this case, preferably connecting surfaces of two exhaust ports 3.1, 3.3 parallel to each other and a connection surface of the further exhaust port 3.2 unparallel or not parallel, preferably perpendicular, arranged to the two other pads.

In addition, to avoid confusion when connecting the heat generator 1, 2 to the exhaust pipe connection piece 3, provided that the exhaust port 3.1 for the one exhaust pipe 1.1 another size, in particular a different diameter than the exhaust port 3.2 for the other exhaust pipe 2.1 has.

Finally, the exhaust pipe connection piece 3 is provided for room air-independent operation of the heat generators 1, 2 with a three air connections 4.1, the exhaust pipe connection piece 3 preferably jacket-like enclosing air duct 4. At least one, in the present case all, the exhaust ports 3.1, 3.2, 3.3 are each arranged concentrically within the air ports 4.1.

The heating system according to the invention works as follows:

The heat generator 1, in this case a fuel cell heater, serves to satisfy a given base load. Exhaust gas from the heat generator 1 reaches the exhaust pipe connection piece 3 via the exhaust pipe 1.1, the heat generator 1 preferably being supplied with fresh air via the air connection 4.1 at the same time. Due to the taper or the nozzle-shaped portion 1.1.1 at the junction region, the flow velocity of the exhaust gas increases at this point. At the same time, the rejuvenation due to the Bernoulli effect (see also http://de.wikipedia.org/w/index.php?title=str% C3% B6mung_nach_Bernoulli_und_Venturi & oldid = 127053410) leads to a pressure reduction, d. H. at the open end is a comparatively low pressure.

The heat generator 2, in this case for example a gas fired boiler, serves to satisfy peak loads. Exhaust gas from the heat generator 2 reaches the exhaust pipe connection piece 3 via the exhaust pipe 2.1, the heat generator 2 preferably being supplied with fresh air via the air connection 4.1 at the same time. Due to the in FIG. 1 shown extension or the aforementioned diffuser at the junction region, the flow rate of the exhaust gas drops at this point. This simultaneously leads to a pressure increase at this point.

As a result, these described and deliberately induced pressure conditions advantageously lead to the second, preferably modulating working heat generator 2 is not affected by the exhaust gas of the first heat generator 1 at low power and in the worst case even blown out since the pressure of the exhaust gas at the outlet of the exhaust pipe 2.1 is higher than at the outlet of the exhaust pipe 1.1.

LIST OF REFERENCE NUMBERS

1

first heat generator

1.1

first exhaust pipe

1.1.1

nozzle-shaped section

1.1.2

cylindrical section

2

second heat generator

2.1

second exhaust pipe

3

Exhaust pipe connector

3.1

first exhaust connection

3.2

second exhaust connection

3.3

third exhaust connection

3.4

lowest point

4

air duct

4.1

air connections

5

Flue tube

Claims (10)

Heating installation, comprising a first heat generator (1) with a first exhaust pipe (1.1) and a second heat generator (2) with a second exhaust pipe (2.1), wherein the two exhaust pipes (1.1, 2.1) are openly opening into an exhaust pipe connector (3) .
characterized,
in that one of the two exhaust gas lines (2.1) is designed to open into the exhaust gas line connecting piece (3) in order to form a condensate discharge connection at a lowest point (3.4). Heating system according to claim 1,
characterized,
in that a flow cross-section of an exhaust gas line (1.1) in the junction area of the exhaust gas line connecting piece (3) is tapered in order to produce a pressure reduction in this exhaust gas line (1.1). Heating system according to claim 1 or 2,
characterized,
in that an end of an exhaust gas line (1.1) which opens into the exhaust gas line connecting piece (3) is designed as a nozzle-shaped injector. Heating installation according to one of claims 1 to 3,
characterized,
that a flow cross-section of an exhaust pipe (2.1) in the junction area of the exhaust pipe connection piece (3) to increase the pressure in this exhaust pipe (2.1) is formed extended. Heating installation according to one of claims 1 to 4,
characterized,
in that the exhaust gas line (1.1) of one heat generator (1) is designed to run into the exhaust gas line connecting piece (3) unparallel to the exhaust gas line (2.1) of the other heat generator (2). Heating installation according to one of claims 1 to 5,
characterized,
that the exhaust pipe connection piece (3) having a first exhaust port (3.1) for the first exhaust line (1.1), a second exhaust port (3.2) for the second exhaust pipe (2.1) and a third exhaust port (3.3) to a common exhaust gas discharge line (5). Heating system according to claim 6,
characterized,
that connection surfaces of two exhaust ports (3.1, 3.3) parallel to each other and a connection surface of the further exhaust port (3.2) are arranged unparallel to the other two pads. Heating system according to claim 6 or 7,
characterized,
that the exhaust gas connection (3.1) for an exhaust gas line (1.1) has a different size, particularly a different diameter than the exhaust port (3.2) for the other exhaust gas line (2.1). Heating installation according to one of claims 1 to 8,
characterized,
in that the exhaust pipe connection piece (3) is provided with an air duct (4) having three air connections (4.1) for room air-independent operation of the heat generators (1, 2). Heating system according to claim 9,
characterized,
that the exhaust gas connection (3.1, 3.2, 3.3) is concentrically disposed within the air connection (4.1).

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