DE102008013721A1 - Sectional boiler i.e. condensing boiler, has middle element and front element that encompass another middle element and cover-type rear element, where elements are connected together in alternating manner by hubs - Google Patents

Abstract

The boiler has a front element (5), a cover-type rear element (3) and middle elements (2, 4) that form a combustion chamber (6) for reverse firing with surrounding heating gas course, where the boiler is made of cast iron or aluminum. The chamber has circular water chambers (7) staying in connection with one another via upper and lower hubs (8, 9). A cylindrical gap (1) is formed between the elements during heating gas course. The elements (4, 5) encompass the elements (2, 3) at a distance, where the elements are connected together in an alternating manner by the hubs.

Description

The Invention relates to a cast iron or aluminum sectional heating boiler, in particular a condensing boiler, according to the preamble of claim 1.

such Sectional heating boilers consist of several cast in one piece Kesselgliedern, which arranged one behind the other and water side through Hubs are interconnected. In doing so, those of the boiler members formed water channels and pockets between the return port and flows through the flow connection. Usually own generic sectional boiler a lower Return connection and a top supply connection, preferably in the respective hub. The hot gases are flowing from the combustion chamber via downstream flues to a flue and give heat on the way Boiler water from.

at all previous boilers of this kind are the members in series one behind the other arranged. There is a ring-shaped front link on which a combustion chamber door or a burner plate can be attached, one or more similar, depending on the output size designed middle links as well as a hind limb. It extends the combustion chamber through front and middle links to the hind limb, which with its cover-shaped design the ground of the combustion chamber forms. All boiler members have similar external features in these embodiments Dimensions because they are over the entire boiler cross-section Parts of combustion chamber, Heizgaszügen and water space form. Furthermore, there are also boilers for low power ranges known, which consist of only two or even only one boiler member. With regard to the exhaust system and the efficiency of the heaters a distinction is made between heating technology and condensing technology. For reasons of saving energy, more and more condensing boilers are coming for use. The construction of their heat exchanger granted the possibility of operating in the combustion of To cool the fuel and air produced moist exhaust gases below the Abgastaupunkt. It condenses the moisture of the exhaust gases and it is in addition to the sensible heat the heat of condensation transferred to the heating water.

When used as a condensing boiler special emphasis must be placed on the choice of materials, because due to the composition of the fuel used and the combustion management, the exhaust gases are polluted and the accumulating condensate has various acids in low concentration. The components touched by condensate such as heating surfaces, exhaust manifold and exhaust pipe must therefore be resistant to the acids, which is why it is customary to manufacture these components made of stainless steel, aluminum or plastic. Especially in the Ölbrennwerttechnik are generally used welded stainless steel heat exchangers, such as in the DE 10 2004 023 711 B3 disclosed as spiral tube winding. They offer the advantage of enduring the acid load without corrosion. Disadvantages are the high costs associated with the material as well as, especially in welded constructions made of sheet metal, the less favorable scaling conditions and the larger sizes which are difficult to assemble in spatially narrow conditions.

The Heat exchangers conventional Heizwertgeräte be Often made of cast iron. They stand out high robustness and long life. Your structure mostly identical casting segments allows cost-effective production and easy scalability for different performance sizes and offers good mounting options even under tight By selection. The material endures the short exhaust gas condensation phases very good at start of operation and cold heat exchanger. Only for condensing operation with longer lasting Condensation is cast iron in its present form and design not suitable.

Furthermore, from the DE 296 21 817 U1 a condensing boiler with integrated and hydraulically downstream compact heat exchanger made of corrosion-resistant material known. This compact heat exchanger is enclosed as a separate component of two shell-shaped boiler sections and separately connected on the water side. All boilers with downstream heat exchanger have the disadvantages that the assembly work is increased by the required pipe parts and the water-side resistance increases. The arrangement as a separate, external component also causes cooling losses, which must be reduced by a suitable thermal insulation.

Of the Invention is based on the object, a sectional boiler Cast iron or aluminum, in particular with regard to compactness and to optimize robustness.

According to the invention this is solved with the features of claim 1. advantageous Further developments can be found in the dependent claims.

The cast-iron or aluminum sectional heating boiler is characterized in that a cylindrical gap extending between the inner and outer members over the entire length of the block of members is provided as the heating gas duct. In this case, the outer members include the inner with Distance, and there are the outer and inner links alternately connected by hubs.

On the lid-shaped rear link is an exhaust collector with Exhaust nozzle attached and heating gas tight with the rear member and / or the closest to the hind limb outer Middle link connected. Thus, the cylindrical gap opens as a hot gas flue in the exhaust collector.

The Front member and at least one outer middle member form an outer water space with an inner, the cylindrical gap bounding wall. Here are the front member, the at least one outer center member and the Exhaust manifold connected to each other at their front sides in a heat-gas-tight manner. a inner, near the combustion chamber near water with an outer, the cylindrical gap delimiting wall, however, form the at least an inner middle link and the lid-shaped rear link. Here are the at least one inner center member and the rear member connected to each other at their ends in a heat-gas-tight manner.

The inner and outer members are offset from each other arranged, with the water space of the rear member until about in the Center of the associated outer middle link extends. This overlaps on the outer shell close to the gap the hind limb largely, and the outer middle limb extends to about the middle of the associated inner middle link. The front member has a smaller depth than the adjacent middle members on, so that between the burner-side end face of the inner Central member and a combustion chamber door, the hot gases well in overflow the cylindrical gap as Heizgaszug can.

Of the Water space of the limbs has two outwards projecting, the hubs forming water arms, respectively associated with the adjacent member, so that a watertight hub connection and a heating gas-tight connection to the adjacent member in the area the low-water arises. Recesses in the water room have that Front member and the at least one outer center member on both sides next to the water arms, each to the penetration the adjacent arms of the at least one inner center member and the hind limb. At a lying Arrangement of the link block is this recess, however only at the bottom of a limb and the top closes each at hub height, thus venting the water space is ensured.

The Heating gas touched surfaces of the limbs, at least the surfaces forming the gap can be provided with a corrosion protection coating. To train a forced flow, the upper and lower hubs between return and supply connection alternately be closed, then closing means on within the Hubs arranged anchor rods, on a feed pipe for Return water and / or a withdrawal pipe for Supply water are attached. This will over the length of the Link block an alternating overflow between ensured two adjacent links in the upper and lower hub. With the invention is a sectional boiler with the best suitability created for condensing operation, in which the positive material properties be applied and used specifically by cast iron or aluminum, for good heat transfer characteristics, compactness and To ensure robustness. With the invention Design can be very tight in the heating surface Gaps realized for an intensive heat exchange because these are within familiar terms with the usual ones Casting can not be produced. Only by the invention Combining the inner and outer water spaces, shown with different links, the result is the high effective, but still easy to clean from the front Heating surface.

It Corrosive loads are absorbed. Also the corrosion protection coating itself is not according to the invention just easy to apply and control in the manufacturing process, but it is also possible in the gap before possible mechanical Protected loads. Furthermore, the link block Both horizontally and vertically be installed. By light Inclination of the link block can be, for example, the by dimpling caused depressions between the Avoid limbs. This may not be possible unfavorable, for a long time existing condensation accumulation come.

Farther offers the limb construction in addition to the simple production also the advantage of inserting further middle links different lengths for different firing and heat exchanger services variably cover. Nevertheless then remain all front-mounted attachments and the equal to water-side connections. Because of the low exhaust gas temperatures The exhaust collector can even be made of plastic.

The Drawing represents an embodiment of the invention It shows a link block for a sectional boiler made of cast iron or aluminum:

1 in a perspective overall view with a section in the upper corner area,

2 : in a perspective Gesamtan view from the back,

3 in a vertical longitudinal section through one half of the entire block of links,

4 : an inner middle link in a perspective view and

5 : an outer middle link in a perspective view.

The sectional boiler has a cylindrical gas gap as a heating gas 1 between inner links 2 . 3 and outer limbs 4 . 5 with the outer ones spacedly surrounding the inner ones. All limbs 2 . 3 . 4 . 5 form a combustion chamber 6 for reverse firing, and their annular water spaces 7 are alternating with each other via upper and lower via hubs 8th . 9 connected to each other, wherein in particular an upper flow connection and a lower return connection is provided.

On the lid-shaped hind limb 3 is an exhaust collector 10 with exhaust pipe 11 fitted and gas-tight with the hind limb 3 and / or the nearest outer center member 4 connected so that the cylindrical gap 1 as Heizgaszug in the exhaust collector 10 opens. For the hot gas side sealing known sealing strips 12 used in the form of a tongue and groove connection.

The front member 5 and at least one outer center member 4 form an outer water space 7 , They are the fore link 5 that has at least one outer middle link 4 and the exhaust collector 10 connected to each other at their ends in a heat-gas-tight manner. The inner middle link 2 and the lid-shaped hind limb 3 again form an inner, close to the combustion chamber water space 7 , and both limbs 2 . 3 are also connected to each other at their ends in a heat-gas-tight manner. The inner limbs 2 . 3 and the outer limbs 4 . 5 are offset from each other and the front member 5 has a smaller depth than the adjacent center member 4 on, so that between the burner-side end face of the inner center member 2 an overflow of the hot gases in the cylindrical gap 1 is possible.

To the educator of the hubs 8th . 9 owns the water room 7 the limbs 2 . 3 . 4 . 5 two outwardly projecting arms of water. The front member 5 and the at least one outer center member 4 have recesses 13 in the water room 7 on both sides next to the relatively long water arms, which for the passage of the adjacent, shorter water arms of the at least one inner center member 2 and the hind limb 3 are provided.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• DE 102004023711 B3 [0004]
• - DE 29621817 U1 [0006]

Claims (10)

Cast iron or aluminum sectional boilers, in particular condensing boilers, with substantially annular members ( 2 . 3 . 4 . 5 ), whereby a front member ( 5 ), a lid-shaped hind limb ( 3 ) and at least one middle link ( 2 . 4 ) are provided, which have a combustion chamber ( 6 ) for reverse firing with essentially surrounding flues and their annular water spaces ( 7 ) with each other via upper and lower hubs ( 8th . 9 ) are connected, with an upper flow connection and a lower return connection, characterized in that as Heizgaszug a cylindrical gap ( 1 ) between inner and outer links ( 2 . 3 . 4 . 5 ), the outer links ( 4 . 5 ) the inner links ( 2 . 3 ) and the outer members ( 4 . 5 ) and the inner links ( 2 . 3 ) alternately via hubs ( 8th . 9 ) are interconnected. A sectional boiler according to claim 1, characterized in that on the lid-shaped rear member ( 3 ) an exhaust collector ( 10 ) with exhaust pipe ( 11 ) and heated gas-tight with the rear member ( 3 ) and / or the hind limb ( 3 ) nearest outer middle member ( 4 ), so that the cylindrical gap ( 1 ) as Heizgaszug in the exhaust gas collector ( 10 ). A sectional boiler according to claims 1 or 2, characterized in that the front member ( 5 ) and at least one outer middle link ( 4 ) an outer water space ( 7 ) with an inner, the cylindrical gap ( 1 ) forming a bounding wall, and that the anterior member ( 5 ), the at least one outer center member ( 4 ) and the exhaust collector ( 10 ) are connected to one another at their front sides in a heat-gas-tight manner. Sectional heating boiler according to one of claims 1 to 3, characterized in that at least one inner center member ( 2 ) and the lid-shaped rear member ( 3 ) an inner, near the combustion chamber water space ( 7 ) with an outer, the cylindrical gap ( 1 ) and that the at least one inner center member ( 2 ) and the hind limb ( 3 ) are connected to one another at their front sides in a heat-gas-tight manner. Sectional heating boiler according to one of claims 1 to 4, characterized in that the inner members ( 2 . 3 ) and outer members ( 4 . 5 ) are arranged offset to one another, wherein the water space ( 7 ) of the hind limb ( 3 ) to about the middle of the associated outer middle link ( 4 ) and this on the gap-like outer shell the rear member ( 3 ) is largely overlapped, and wherein outer center member ( 4 ) to about the middle of the associated inner middle link ( 2 ) enough. A sectional boiler according to one of claims 1 to 5, characterized in that the front member ( 5 ) a smaller depth than the adjacent middle links ( 2 . 4 ), so that between the burner-side end face of the inner center member ( 2 ) and a combustion chamber door, an overflow of the hot gases in the cylindrical gap ( 1 ) is possible as Heizgaszug. A sectional boiler according to one of claims 1 to 6, characterized in that the water space ( 7 ) of the limbs ( 2 . 3 . 4 . 5 ) each two outwardly projecting, the hubs ( 8th . 9 ) has forming water arms, each of which the adjacent member ( 2 . 3 . 4 . 5 ), so that a watertight hub connection and a heating gas-tight connection to the adjacent member ( 2 . 3 . 4 . 5 ) arises in the area of the water arms. A sectional boiler according to one of claims 1 to 7, characterized in that the front member ( 5 ) and the at least one outer center member ( 4 ) Recesses ( 13 ) in the water space ( 7 ) on both sides next to the water arms, which for the passage of the adjacent water arms of the at least one inner center member ( 2 ) and the hind limb ( 3 ) are provided. Sectional heating boiler according to one of claims 1 to 8, characterized in that the heating gas touched surfaces of the links ( 2 . 3 . 4 . 5 ), at least the gap ( 1 ) forming surfaces, are provided with a corrosion protection coating. Sectional heating boiler according to one of claims 1 to 9, characterized in that the upper and lower hubs ( 8th . 9 ) are mutually closed to form a forced flow between the return and flow connection, wherein closure means are arranged within the hubs ( 8th . 9 ) arranged anchor rods are attached to a feed pipe for return water and / or a discharge pipe feed water.