DE8507961U1 - Condensate boiler - Google Patents

Description

Condensate boiler

The innovation relates to a condensate boiler according to the preamble X of the main claim.

&iacgr; Such condensate boilers, which are also known as condensing boilers

boilers are now generally known. These types of boilers differ in their function from "normal" boilers in that the heating gases are deliberately cooled until they condense. Such condensate boilers are

X which of course operates in a modern way like the normal boilers

; also not operated in continuous operation, but the burner

is switched off for a longer or shorter period of time depending on the heat requirement. Although the surfaces of the boiler exposed to condensate are made of suitable, ie more or less condensate-resistant material,

' (stainless steel), it can be assumed that such

Materials are not completely resistant to acidic condensate in the long term. When operating such condensate boilers, it must be taken into account that if no condensate is produced (burner switched off), the condensate that has previously formed and precipitated does not drain completely, may dry out and increase in concentration, whereby over time the material that is supposed to be condensate-resistant is exposed to corrosion.

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The innovation is therefore based on the task of improving a condensate boiler of the type mentioned above in such a way that this risk is eliminated or at least its negative impact is largely reduced.

This object is achieved with a condensate heating boiler of the type mentioned at the outset according to the innovation by the features stated in the characterizing part of the main claim. Advantageous further developments arise from the subclaims.

By equipping such a condensate boiler with a liquid supply device, it is possible in a simple way to flush the condensate-critical areas of the boiler, to ensure an accelerated drainage of the condensate and to dilute the condensate. In the simplest case, a suitable liquid is water, which, of course, is preferably introduced into the combustion chamber and immediately evaporates, thereby increasing the neutral portion of the heating gases and, when condensed, ultimately leads to a condensate that is not extremely acidic. It is also possible to mix the introduced water with additives that have a neutralizing effect on the acidic condensate. The preferred introduction of the liquid into the combustion chamber, at a time before the burner is switched off, has the advantage that the

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Liquid injected into the flame immediately evaporates, which is known to result in a considerable increase in volume. This vapor naturally spreads quickly to all gas-carrying spaces and reaches every corner of the room. This means that a relatively small amount of liquid is needed compared to direct sprinkling or flushing of the condensate-critical areas, which is also possible in principle. There are of course a number of options for supplying the liquid and designing the supply device, but in view of the preferred evaporation, a liquid supply device in the form of at least one spray nozzle directed into the flame area of the combustion chamber is preferred. Since continuous sprinkling is not necessary and would ultimately be pointless, the liquid supply device is equipped with a burner circuit-controlled switching valve that switches the liquid supply device on a long time before the burner is switched off and keeps it active at least until the burner is actually switched off. The condensate dilution process therefore begins on the one hand before the burner is switched off by evaporation of the liquid supplied and then continues for a suitable period of time. The boiler design according to the invention or the measure according to the invention for preventing condensate attack on the affected heat exchange surfaces can be used both with gas-fired condensate boilers and with boilers that are fired with oil.

The new condensate boiler is explained in more detail below using a drawing of an example design that represents a gas condensing boiler.

As can be seen from the example shown for explanatory purposes only, the condensate boiler consists of a water-carrying housing 6 with a combustion chamber 1 and heating gas ducts 8 that lead from this to the condensate collection chamber 7 at a gradient. The combustion chamber interior 2 of the combustion chamber 1 is closed off at the top by a burner with a housing that is attached and in this case is designed as a gas blower burner 9.

As mentioned, the requirement to have a

Liquid supply for the purpose of condensate dilution and flushing can be carried out in a variety of ways. For the preferred embodiment, it is basically only important that the liquid supply can take place in the interior 2 of the combustion chamber 1, namely in the flame area.

The most advantageous liquid supply device is therefore provided in the form of at least one spray nozzle 4 directed into the flame area of the combustion chamber 1, as shown, whereby the spray nozzle or its supply line, unless the injection of a liquid containing neutralizing additives is provided

is connected directly to the water pipe system. Furthermore, as mentioned, since a continuous injection of the liquid would be unnecessary and inappropriate, the liquid supply device 3 is provided with a burner circuit-controlled switching valve 5, which causes the liquid stirring device 3 to be switched on for some time before the burner 9 is switched off and, if necessary, to remain in effect for some time even after the burner is switched off. The circuit elements required for this do not require any further description, since they are readily available.

Claims (3)

- 1 - (15 198) Patent Attorney· Dipi.4ne. Office of Protection Claims: wpwne,WoM AnderMalnbrOetoi« e450H*nau7 1. Condensation boiler, consisting of a water-carrying housing with a combustion chamber equipped with a burner and heating gas flue ducts that lead from this through the water-carrying housing to the condensate collection chamber with a gradient, characterized in that a liquid supply device (3) is arranged in the area of the combustion chamber (1) and/or below it in the upper area of the heating gas flue ducts (8). 2. Heating boiler according to claim 1, characterized in that the liquid supply device (3) is designed in the form of at least one spray nozzle (4) directed into the flame region of the combustion chamber (1). 3. Heating boiler according to claim 1 or 2, characterized in that the liquid supply device (3) is provided with a switching valve (5).