DE10112669A1 - Burner for a fuel mixture of air and gas - Google Patents

Abstract

The invention relates to a burner for a fuel mixture of air and gas, in which the fuel mixture can be supplied by means of a fitting to a burner element arranged in a combustion chamber and in which the exhaust gases produced during combustion can be derived via a heat exchanger, an exhaust gas chamber and an exhaust gas duct. Despite the blower-assisted discharge of the exhaust gas, the burner can be operated with a uniform flame pattern and low emission values if it is provided that the exhaust gases emerging from the heat exchanger are collected via an exhaust gas collector and guided through a labyrinth with baffle plates to a downstream fan and that the outlet of the Fan is coupled to the exhaust system.

Description

The invention relates to a burner for a fuel mixture of air and gas, in which the fuel mixture by means of a valve in a combustion chamber arranged burner element can be fed and in which the at Combustion generated exhaust gases via a heat exchanger, an exhaust gas Chamber and an exhaust system are derived.

State of the art

In the case of burners of this type, flame stability and problems with the removal of exhaust gases. Measures affect Improvement in one or another problem area, the cold start behavior, the Emissions and thus the efficiency of the burner.  

It is an object of the invention to a burner of the type mentioned design that the flame stability and the removal of the exhaust gas improves without deteriorating the cold start behavior and the emission values.

Advantages of the invention

This object is achieved according to the invention in that the from Exhaust gases exiting the heat exchanger are collected via an exhaust manifold and led over a labyrinth with baffles to a downstream fan are feedable and that the outlet of the blower with the exhaust gas routing ge is coupled.

With the Labrinth there is a decoupling between the downstream fan and the heat exchanger and thus the flame in front of the heat exchanger enough. Despite the exhaust gas being exhausted, the flame is generated by the fan more uniform, which is associated with an improvement in emission values. The blower ensures that the exhaust gas is clearly discharged and can be used with the Blower adjusted and adjusted sufficiently effectively. the maze with the conductor plates acts towards heat transfer and flame as Train interruption and as a targeted guide of the exhaust gas to the blower.

According to an advantageous embodiment, it is provided that the exhaust manifold has an inlet opening that the outlet openings of the heat exchanger completely covered and that the reduced in cross-section outlet opening  the exhaust manifold is coupled to the entrance opening of the labyrinth. On in this way the exhaust gas leaving the heat exchanger is in its ge Velvet is captured and guided to the labyrinth in a targeted manner.

The labyrinth is preferably designed so that the labyrinth through alternately directed baffles are formed, which on the labyrinth Housing attached and aligned horizontally.

So that the blower the supplied exhaust gas in a simple manner to the exhaust gas guide a further embodiment provides that the output of the labyrinth with an axial inlet of the blower and a radial outlet of the blower are connected to the exhaust system.

The exhaust gas is guided in the labyrinth according to an embodiment in the Way that it enters the labyrinth vertically and this horizontally guided leaves.

According to one embodiment, it is provided that the blower is turned last baffle of the labyrinth points away from the blower and as a kind of train acts as an interrupter, then the labyrinth already acts directly in the border area to the blower as a break in the train.

The blower can be housed in the exhaust chamber, which also with the Exhaust gas routing can be combined.

drawing

The invention is based on a schematic shown in the drawing Structure of a burner with labyrinth and fan explained in more detail.

embodiment

As can be seen in the drawing, all parts of the burner are accommodated in a burner housing, with a fitting 11 being arranged in the lower region, via which the supply of air and gas and the mixing of both media to the fuel mixture are carried out and regulated. The burner can be switched on and off in a manner known per se, and the components required for this can also be accommodated in the device housing 10 .

The valve 11 leads via the supply line 12, the fuel mixture to a Bren nerelement 13 , where it is burned. The hot exhaust gas passes through a heat exchanger 14 and releases its thermal energy to the liquid flowing through the heat exchanger 14 . The heat exchanger 14 can have one or more separate liquid circuits and can be of different designs.

The exhaust gas 15 leaving the heat exchanger 14 via the outputs 16 are completely absorbed by an gas collector 17 , since its inlet opening 18 covers all the outputs 16 of the heat exchanger 14 .

The exhaust manifold 17 has an outlet opening 19 with a reduced cross section, which at the same time forms the inlet opening of a labyrinth 20 . In the housing of the labyrinth 20 , alternately directed horizontal baffles 21 and 22 are attached, which pass the supplied exhaust gases out of the exhaust manifold 17 to a blower 30 . It is important to ensure that the last blower 30 facing guide plate 22 is located facing away in the maze 20 as possible from the blower 30 and acts in the manner of a course interruption in the direction of the heat exchanger 14 and arranged in the combustion chamber burner element 13 with the forthcoming thereto flame , With the blower 30 , the exhaust gas leaving the labyrinth 20 can therefore be safely fed to the exhaust gas guide 40 without impairing the flame stability. The burner can therefore be operated with a uniform flame pattern and low emission values despite fan-assisted removal of the exhaust gas.

As the embodiment shows, the exhaust manifold 17 facing first baffle 21 is mounted in the opposite direction to the baffle 22 in the housing of the labyrinth 20 and is used with the reduction in the cross section of the outlet opening 19 of the exhaust manifold 17 .

The outlet 23 of the labyrinth 20 is connected to an axial inlet 31 of the fan 30 and feeds the exhaust gas via a radial outlet 32 directly to the vertically continuing exhaust gas duct 40 . A motor 33 takes over the drive of the blower 30 , which can be switched on and off via an assigned control circuit and, if necessary, its output can be regulated.

The exhaust manifold 17 , the labyrinth 20 and the blower 30 with the motor 33 are accommodated in a section 35 which adjoins the device housing 10 above the heat exchanger 14 . The exhaust gas duct 40 is on the deck wall of the device housing 10 and can be connected in a known manner and continued. In this device housing 10 , the burner 13 , combustion chamber, heat exchanger 14 , exhaust manifold 17 , blower 30 and exhaust gas connection can be included and sealed against the ambient air.

In the schematic structure are only the parts essential to the invention described in detail. Otherwise, the burner can be used in a known manner Ignition device, exhaust gas recirculation and the like provided and operated become.

Claims (7)

1. Burner for a fuel mixture of air and gas, in which the fuel mixture can be supplied by means of a fitting to a burner element arranged in a combustion chamber and in which the exhaust gases resulting from the combustion can be discharged via a heat exchanger, an exhaust gas chamber and an exhaust gas duct, characterized in that
that the exhaust gases ( 15 ) emerging from the heat exchanger ( 14 ) are collected via an exhaust gas collector ( 17 ) and guided through a labyrinth ( 20 ) with guide plates ( 21 , 22 ) to a downstream fan ( 30 ) and
that the output ( 32 ) of the blower ( 30 ) is coupled to the exhaust gas duct ( 40 ). 2. Burner according to claim 1, characterized in
that the exhaust manifold ( 17 ) has an inlet opening ( 18 ) which completely covers the outlet openings ( 16 ) of the heat exchanger ( 14 )
and
that the cross-sectionally reduced outlet opening ( 19 ) of the exhaust gas collector ( 17 ) is coupled to the inlet opening of the labyrinth ( 20 ). 3. Burner according to claim 1 or 2, characterized in that the labyrinth ( 20 ) is formed by alternately directed baffles ( 21 , 22 ) which are attached to the labyrinth housing and aligned horizontally. 4. Burner according to one of claims 1 to 3, characterized in that the outlet ( 23 ) of the labyrinth ( 20 ) with an axial inlet ( 31 ) of the blower ( 30 ) and a radial outlet ( 32 ) of the blower ( 30 ) the exhaust duct ( 40 ) are connected. 5. Burner according to one of claims 1 to 4, characterized in that the exhaust gases enter the labyrinth ( 20 ) in a vertically guided manner and leave it in a horizontally guided manner. 6. Burner according to one of claims 1 to 5, characterized in that the blower ( 30 ) facing the last guide plate ( 22 ) of the labyrinth ( 20 ) points away from the blower ( 30 ) and acts as a type of train interrupter. 7. Burner according to one of claims 1 to 6, characterized in that the fan ( 30 ) is designed as a suction fan and in an exhaust gas chamber or a section ( 35 ) of the device housing ( 10 ) is housed.