DE29718741U1 - boiler - Google Patents

Description

BUDERUS HEATING TECHNOLOGY GMBH

G 1366 TE-P Z/Pf

Description boiler

The innovation concerns a heating boiler according to the generic term of claim 1.

Such gas boilers are designed for condensing heat by containing relatively large heating surfaces in order to extract the latent heat from the heating gas by cooling it to below the dew point. This is usually achieved with tubular or plate-shaped heating gas flues, which are made of stainless steel at least in the areas at risk of corrosion. They are arranged close to the boiler's combustion chamber in order to create a compact overall structure. The heating gases are guided to the heating gas flues in deflection zones. Conventional heating boilers can also be equipped with downstream heat exchangers for condensing heat in separate housings.

Depending on the type of burner, the geometry of the combustion chamber and the design of the hot gas flues, disturbing resonance noises can occur in unfavorable operating conditions. For this reason, downstream heat exchangers are also designed as silencers in order to attach a unit to any boiler. DE 39 33 553 C2 shows one such example, where the heat exchanger surfaces are enclosed on the outside by a jacket made of perforated sheet metal with stainless steel wool behind it. It is also known to insert sound-absorbing mats in the deflection zones in front of or between hot gas flues.

Furthermore, ever higher demands are being placed on boiler technology with regard to exhaust emissions. These cannot always be met by making changes to the burner. For various applications, the use of catalysts is therefore

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ren at one point of the heating gas ducts. Examples of implementation are contained in DE 43 24 012 C1, DE 38 01 437 C2 and DE 42 28 990 A1. The catalysts are installed at the points with the most favorable operating temperatures in the range of 250 °C to 800 ^° C and a honeycomb-like ceramic carrier structure is used. There are also continuous catalytic coatings on the inner surfaces of heating gas ducts exposed to heating gases. DE 34 25 259 A1 is worth mentioning, which contains such a surface coating on a ceramic deflection chamber wall. The aforementioned measures, however, require a complex, catalyst-compatible design with precisely coordinated components and continuous monitoring of the function during operation. - ■

The innovation is based on the task of combining parallel demands for lower exhaust emissions and better noise and vibration dampening in a cost-effective manner.

In accordance with the innovation, this was solved with the features of claim 1. Advantageous further developments can be found in the subclaims. The heating boiler, in particular a gas heating boiler for condensing technology, has a combustion chamber with downstream heating gas flues connected via deflection zones for the heat transfer from the heating gas to the boiler water. A soundproofing device is installed in the flow path of the heating gases. This consists of a solid metal catalyst or metal mesh with a catalytic coating. With an integrated arrangement in the heating gas flues, the device can be used along their wall and/or in the deflection zones of the heating boiler. Installation in the separate housing of a downstream heat exchanger or silencer is also possible. The solid metal catalysts have a catalytically active layer built up directly from the metallic base material. On the other hand, stainless steel mesh forms the support structure if additional substances are applied from the outside.

The innovation thus meets the requirement for sound insulation and exhaust gas purification in a simple manner. No additional monitoring device for a catalyst needs to be provided because the hot gas ducts are simply lined or

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are interspersed with coarse-mesh fabric and therefore there is no bottleneck for the flow in the area of the catalyst. Proper operation of the boiler is guaranteed at all times and the consumption of the catalyst material can be determined from the gradual changes in the emission behavior. In addition, there are more variable application options for the metal mesh in terms of layer thickness, density or installation position compared to ceramic components. The priority arrangement according to the most effective soundproofing can be within the limits specified by the working temperature of the catalytic coating. Therefore, the support of exhaust gas purification with the cost-effective use of catalyst material can be seen as a positive additional effect to soundproofing. ■ ■

In condensing boilers in particular, corrosion resistance is ensured by using stainless steel as the carrier material. This is not shielded with perforated plates or similar, as is the case with conventional silencers, but is directly exposed to the heating gases. The elements can be designed to be removable and are therefore easy to clean.

The drawing shows an example of the innovation in a single figure in a vertical longitudinal section.

The boiler consists of a combustion chamber 1 and two heating gas flues 2, 2' arranged underneath with a surrounding water chamber 3. These are connected to one another via deflection zones 4, 4'. In this variant, the soundproofing device 5 is installed as a full metal catalyst wire mesh or metal mesh made of several metal fiber mats with a catalytic coating in the two deflection zones 4, 4' and the first heating gas flue 2. It is installed as a lining on the inner walls and can be adapted to the flow conditions.

Alternatively, the soundproofing device 5 is housed in a separate, downstream housing 6 if the temperatures of the heating gases there are still sufficient for the catalyst to function, or integrated as a compact insert over the entire flow cross-section in a section of the heating gas ducts 2, 2'.

14.1O.1997/G1366

Claims (1)

BUDERUS HEATING TECHNOLOGY GMBH
G 1366 TE-P Z/Pf Protection claims 1. Heating boilers, especially gas heating boilers! for condensing boiler use, with a combustion chamber and downstream heating gas flues connected via deflection zones for the heat transfer from the heating gas to the boiler water as well as a device made of metal mesh for soundproofing in the flow path of the heating gases, characterized in that the sound-damping device (5) comprises a catalyst. 2. Heating boiler according to claim 1, characterized in that the catalyst is a full-metal catalyst. 3. Boiler according to claim 1, characterized in that the catalyst consists of a coating applied to the metal fabric. 4. Boiler according to claims 1 to 3, characterized in that the soundproofing device (5) with catalyst is installed in the heating gas flues (2, 2') and/or in the deflection zones (4, 4 ^' ). 5. Heating boiler according to claims 1 to 4, characterized in that the soundproofing device (5) with catalyst is connected downstream of the heating gas flues (2, 2') in a separate housing (6). 6. Boiler according to claims 1, 3, 4 and 5, characterized in that preferably catalytically coated stainless steel mesh forms the support structure. 14.10.1997/G 1366