DE3912616A1 - WATER HEATER - Google Patents

Abstract

A water heater with a downward burner (1) assigned to a combustion chamber (2) comprises at least one heat exchanger arranged in the waste gas guide (3). In order to prevent overheating of the heat exchanger elements lying closer to the burner (1), these elements are designed and/or arranged with a lower heat absorption capacity than the elements lying further from the burner (1). To this end, the heat exchanger elements lying closer to the burner (1) can be formed for example from pipe trains (4) with a smooth surface and the pipe trains (6 or 10) lying further from the burner (1) with ribs (5 or 11). Moreover, there can be arranged in the region of the heat exchanger elements (4 or 6) facing the burner (1) rods (7) consisting of ceramic material which deflect and absorb radiation heat. <IMAGE>

Description

The invention relates to a water heater with egg surface burner assigned to a combustion chamber preferably a fall burner, and at least one in the Exhaust gas routing of this combustion chamber arranged heat rope shear.

Such water heaters are state of the art. Especially for water heaters with fan operated Surface burners and when using metallic or Ceramic burner plates is the share of Radiant energy on the total power of the burner ver equally large.

The low visible flame height of such burners closes the possibility of making the combustion chamber very compact and dimensioned and designed to save space.  

However, this design is based on the ratio of the burners depending on the area of the heat exchange elements, which is flown by the exhaust gases. Would be desirable it, this inflow surface is about the same size as the burner area to be measured.

The relatively uniform density of the heat flow for this reason, however, leads to thermal overload in the case of heat exchange elements with comparatively high heat exchange and heat absorption capacity, for example finned tubes, in particular when the specific surface area of such elements is more than 0.4 m ² / m .

The object of the invention is therefore the thermal loading load of the elements closest to the burner adorn.

According to the invention, this object is achieved in that Areas closer to the burner in the exhaust system of the heat exchanger, for example pipe strings, with a less heat absorption capacity and / or are arranged as a heat rope further away from the burner shear areas.

This condition can be within the scope of the invention comply with or implement in many different ways lichen.  

For example, those closer to the burner can be used Heat exchange elements made of tubing, preferably steel pipe strands, with a smooth surface, which the Burner distant heat exchange elements, for example Pipe strings, on the other hand by profiling, to the play ribs, have increased heat exchange area.

But you can also the pipe closer to the burner Profiling strands with ribs that are lower in height or thickness than the ribs of the Bren ner distant pipe strings.

In an embodiment of the invention it is proposed that Pipe strings of the heat exchanger closer to the burner, preferably steel tubing strands, a smooth surface exhibit.

A heat exchanger is known from AT-PS 3 78 422, the has a single-layer pipe coil in the area of Heat exchanger is occupied with fins. Except only Areas lying half of the heat exchanger are made of smooth tube formed.

The features of claim 2 ensure that oh ne further processing effort closer to the burner area is formed as a smooth tube, during the farther area of the tube receives fins.  

In a further embodiment of the invention, it is proposed gene that the burner distant pipe strands of heat metauschers in a manner known per se Profiles, for example ribs, increased heat have exchange area.

Through the AT-PS and DE-OS just mentioned 34 13 712 it is known to heat exchanger tubes with professional lations, for example ribs.

Finally, it is particularly useful that the Tube strings nearer the burner are profiled with ribs are that have a small height or thickness sen as the fins, the distant tube the burner strands.

From GB-PS 15 56 709 it is known, at a einla existing heat exchanger to form the fins so that they a lower height on the side facing the burner have as on the side facing away from the burner.

By applying the measure just described a multi-layer heat exchanger, where it is one Area closer to the burner and one near the burner ner lying area of the heat exchanger results a particularly simple design of the main fin idea.  

Furthermore, it is particularly useful that in the Burner facing area of the pipe strands of the heat rope shers made of ceramic material, radiation heat-absorbing elements, for example rods, in parallel are arranged running to the pipe strings. By this configuration can be based on the formation of nitrogen oxide Brenner's decisive influence.

Ultimately, it is particularly useful that this Radiant heat absorbing elements between one Coulter of pipe strings with a smooth surface and one Coulter of pipe strings with by profiling, for the game ribs, increased heat exchange area provided are. By bringing in the radiant heat taking elements between a smooth tubing string and egg Nem finned tube string can be used to pick up the Radiant heat is particularly easy to achieve.

In detail show:

Fig. 1 shows the cross section of a water heater according to a first embodiment according to II of Fig. 2 and

Fig. 2 is a Waagschnitt according to II-II in FIG. 1.

Fig. 3 shows a modified embodiment of such a water heater in a cross section and

Fig. 4 illustrates a further variant in a partial cross-section.

Fig. 5 shows the cross section of a further, variant th embodiment.

The shown in Figures 1 and 2, with a fall burner 1 and a fan operated water heater sits a combustion chamber 2 and an exhaust duct 3 , in which heat exchange elements are arranged; these heat exchange elements are formed in all embodiments as a tube strands of water-bearing coils.

Within the exhaust gas duct 3 initially run - closer to the burner 1 - the pipe strings 4 of a pipe coil made of stainless steel, smooth on the outside of its wall, which then merges in the next lower level into a pipe coil consisting of the pipe trains 6 , which has ribs 5 is equipped.

Between these pipe strings 4 and 6 there are ceramic rods 7 .

These rods 7 are uncooled guide elements which serve to improve the exhaust gas flow and since with the heat reduction and to reduce the CO content of the exhaust gases. These heated rods 7 reach a surface temperature of approximately 800 to 900 ° C. and in this way, as heat stores, prevent the exhaust gases from cooling down excessively within the water-cooled combustion chamber 2 . This improves burnout in the direction of flow of the exhaust gases.

As can be seen in FIG. 1, the tubular strings 4 are arranged before coincident with the tubular strands 6 , in order to thereby keep part of the radiant heat of the burner 1 from the foremost group of the tubular strands 6 .

Fig. 3 shows a variant embodiment in which the burner 1 closer to the heat exchange elements consist of tubes 8, the ribs 9 have a smaller height than the ribs 11 of the more distant the burner tubes 10. This also achieves the effect sought by the invention.

Also, this effect can be achieved in that - the Wärmetauschelemen te forming pipe conduits 10 supplied at its side applied to the burner 1 are formed shorter the ribs 11 than on the side facing away from the burner 1 - of Fig. 4.

Fig. 5 shows an embodiment, in which the kera mixing rods 7 are arranged immediately in front of the burner 1 closer set of pipe strings 8 .

Claims (7)

1. Water heater with a combustion chamber assigned surface burner, preferably a lint burner, and at least one heat exchanger arranged in the exhaust gas duct of this combustion chamber, characterized in that the burner ( 1 ) in the exhaust gas duct ( 3 ) is closer to de areas of the heat exchanger for Example pipe strings ( 4 or 8 ), with a lower heat absorption capacity and / or arranged than the burner ( 1 ) further lying heat exchanger areas ( 6 or 10 respectively). 2. Water heater according to claim 1, characterized in that the burner ( 1 ) closer pipe strands of the heat exchanger, preferably steel pipe strands ( 4 ), have a smooth surface ( Fig. 1, 2). 3. Water heater according to claim 2, characterized in that the burner ( 1 ) distant tubing strings ( 6 or 10 ) of the heat exchanger in a conventional manner by profiling, for example ribs ( 5 or 11 respectively), have enlarged heat exchange surface ( Figs. 1 to 3). 4. Water heater according to claim 1 or 3 with ribbed tube strands, characterized in that the burner ( 1 ) closer tube strings ( 4 ) with ribs ( 9 ) are profiled, which have a lower height or thickness than the ribs ( 11 ) the burner ( 1 ) distant pipe strands ( 10 ) ( Fig. 3). 5. Water heater according to one of claims 1 to 4, characterized in that in the burner facing area of the tube strings of the heat exchanger ( 4 or 6 ) made of ceramic material, radiant heat absorbing elements, for example rods ( 7 ), parallel to the Pipe strands ( 4 or 6 ) are arranged durably ( Fig. 1, 2). 6. Water heater according to claim 5, characterized in that these radiant heat absorbing elements ( 7 ) between a family of pipe strands gene ( 4 ) with a smooth surface and a family of pipe strands ( 6 ) with profiles, for example ribs ( 5 ), enlarged heat exchange surface are provided ( Fig. 1, 2). 7. Water heater according to claim 5, characterized in that these radiant heat absorbing elements ( 7 ) are arranged immediately before the burner ( 1 ) closer group of pipe strings ( 8 ) to ( Fig. 5).