EP0248327A2 - Method of making an air-, waste gas chimney for gas firing devices in buildings - Google Patents

Abstract

In the method for making an air/waste gas chimney for gas firing devices in buildings having at least two adjacent chimney flues, the two adjacent chimney flues are connected to one another via an overflow opening at the bottom of the chimney. One chimney flue is provided with openings for supplying combustion air to the individual gas firing devices, while the other chimney flue is provided with openings in each case for carrying away the waste gas. The top of the chimney flue for the waste gas is preferably raised in relation to the top of the chimney flue for the combustion air. Furthermore, if required the chimney flue for the waste gas is lined with a corrosion- resistant metal tube. The invention shows how, in a convenient way, connection possibilities for a large number of room air-independent gas firing devices can be provided retroactively in already existing buildings, namely by converting chimneys present in old buildings. This requires only minor structural alterations without any static problems. <IMAGE>

Description

Technical field

The invention relates to a method for creating an air-exhaust chimney for gas fireplaces in old buildings with at least two adjacent chimney flues.

In apartment buildings there is a desire to heat decentrally for various reasons. Accordingly, gas heating systems are also widely used. While it is generally not a problem to remove the exhaust gases in chimneys over the roof, the supply of combustion air can be critical. As long as no special attention was paid to the sealing and insulation of windows and doors, it could be assumed that sufficient combustion air was available at the respective gas fireplaces via a ventilation network. However, this has changed significantly with the pursuit of the highest possible energy saving and the new construction determined thereby.

State of the art

For new buildings, special components are now available for the installation of so-called air-flue gas chimneys, which, in addition to the flue (duct) for the flue gas, also have a flue for combustion air, with the flues connected to each other at the bottom of the chimney (at the base of the flue) via an overflow opening are. One embodiment is known in particular (DE-Z "sbz", 1984, H. 11, S. 914 - 928), in which the two trains are arranged side by side, as well as an embodiment (DE-Z "IKZ", 1984, H. 3, pp. 31 - 34), in which one train, namely for the exhaust gas , concentric in the other. Lateral openings in the trains allow the connection of individual gas heaters with closed combustion chambers, whereby a complete independence from the room air and thus the type and size of the installation room is achieved.

The components for such a chimney are dimensioned so that either the chimney can be built up piece by piece by hand from bottom to top with the rest of the building, or floor-high elements can be used from top to bottom through openings in the ceilings by means of a crane. Whichever system is chosen, it is in any case a new part of the building which, as a rule, can no longer be accommodated in old buildings. This would mean that existing ceilings and roofs would have to be broken and closed again. In addition to the immense pollution and noise pollution resulting from such measures, there could also be difficult static problems in the old building area. The removal of existing chimneys and the installation of modified chimneys with the known components in the same place should not be judged differently. After all, this also means a massive intervention in the grown building structure with an even greater pollution and noise pollution.

The operation of decentralized gas heaters in old buildings has become a dilemma. On the one hand, from an economic point of view, there is a need for the perfect design of windows and doors, and others on the other hand, for combustion and safety reasons (avoiding the formation of CO and exhaust gas backwater in the living rooms), the continued existence of a stronger ventilation network must be demanded, if one refrains from the radical measure of a completely new building using the known components.

Presentation of the invention

The invention is based on the object of specifying a comparatively gentle method by which an air-exhaust chimney for gas fireplaces in old buildings with at least two adjacent chimney flues can be created very quickly and easily. The chimney created should be fully functional and reliable.

This object is achieved according to the proposal of the invention in that the two adjacent chimney flues are connected to one another via an overflow opening on the chimney base and the one. Chimney draft is provided with openings for the supply of combustion air to the individual gas fireplaces, while the other chimney draft is provided with openings for discharging the exhaust gas.

According to the invention, existing chimneys are used and redesigned to the desired functionality. The invention is based on the finding that chimneys are usually already available in old buildings, specifically as a group of at least two, three or more chimney flues, due to the heating which used to be customary with individual stoves. However, only a few of these are occupied after a changeover to gas heating. By means of comparatively minor conversion measures, two chimney flues can be connected to form a new structural unit, one of the chimney flues, namely that for the supply of combustion air, taking on a completely different function than before. According to this, there are similar conditions in old buildings for a perfect and safe combustion that could previously only be achieved in new buildings. One can even say that the effort required for this is less in old buildings. Finally, only one overflow opening between the chimney inlets to be combined and openings for the supply of combustion air need to be caulked and formed. Further connectors are already available as accessories for the gas heaters to be used.

An upstream opening which is variable in its free cross section is advantageously created. - This allows the flow conditions to be optimized. As is known, the upstream opening is intended to provide pressure equalization between the two trains or shafts. At the same time, the exhaust gas is diluted with fresh air, resulting in a lowering of the temperature and dew point in the exhaust gas mixture. Ultimately, this will prevent condensate, even at the top of the chimney draft, and thus prevent moisture penetration.

The head of the chimney draft for the exhaust gas is expediently raised relative to the head of the chimney draft for the combustion air. According to a further proposal, the head of the chimney draft for the combustion air is spaced at a distance Cover provided. - These measures serve for the undisturbed escape of exhaust gas on the one hand and the entry of combustion air on the other. The overlap also prevents precipitation from entering.

If the chimney flues in old buildings are too large in cross-section, which is particularly true when there is a switch from originally solid fuels to gas, the chimney flue may be lined with a corrosion-resistant metal pipe for the flue gas. This can increase the flow rate as well as gas tightness in the necessary manner. Such a metal pipe can be inserted in sections from the head into the chimney. The metal tube is then advantageously backfilled with a thermal insulation material.

The metal tube is expediently provided at its upper end with a removable attachment which surrounds the upper end of the metal tube at a distance with a cylindrical to frustoconical jacket and has a deflection and cover plate for the open end of the metal tube in its interior.

Brief description of the drawing

• Fig. 1 als Verfahrenserzeugnis eine aus zwei Schornsteinzügen gebildete neue Baueinheit im Längsschnitt und
• Fig. 2 den Gegenstand von Fig. 1 im Querschnitt entlang der Linie A - A.

The invention is explained below with reference to an embodiment shown in the drawing. It shows:

• Fig. 1 as a process product a new unit formed from two chimneys in longitudinal section and
• 2 shows the object of FIG. 1 in cross section along the line A - A.

According to FIG. 1, the process product forms an air-exhaust chimney, which has been redesigned from two adjacent but independent chimney flues in accordance with the proposal of the invention. One chimney draft is used to discharge exhaust gas, while the other chimney draft is to ensure the supply of combustion air. The latter means both the application of another gaseous medium as well as a reversal of the flow direction and thus a functionality that differs significantly from the original task. The following process steps are implemented in detail.

In the chimney draft V intended for the supply of combustion air, an inlet 1 for combustion air is provided at the head. In the upper area between the top floor and roof there is a cleaning opening 2, which is also used for occasional inspections and can be closed with a door. Where gas heaters are to be installed, connection openings 3 for the combustion air are introduced on the chimney draft V. A closable cleaning opening 4 is provided on the chimney foot (chimney sole).

If one now looks at the other chimney draft A, which serves to discharge exhaust gas, again from top to bottom, the following further process features emerge. At the top of the chimney draft A, an attachment 5 has been installed, which is to cause an undisturbed outflow of the exhaust gas and to prevent precipitation from entering the chimney draft A. To ensure that there is no mixing with the combustion air entering the adjacent chimney draft V, the head of the chimney draft A is opposite the head of the chimney stone train V has already been raised in the masonry Furthermore, the head of the chimney draft V has a cover 6 at a distance, which extends beyond the edge of the chimney draft A and rests thereon as protection against precipitation. Due to the elevation of the chimney draft A compared to the chimney draft V and the attachment of the cover 6, there is a lateral flow direction for the combustion air below the outlet for the vertically rising exhaust gas, as symbolized by arrows.

The attachment 5 is placed as a removable part on the upper end of a metal pipe 7, which still protrudes over the head of the chimney draft A. The attachment 5 surrounds the upper end of the metal tube 7 at a distance with a truncated cone-shaped jacket and has a deflecting and covering plate for the open end of the metal tube 7 in its interior.

The metal pipe 7 is used for the inner lining of the chimney draft A. It is of corrosion-resistant quality and consists of several sections. These are each equipped with beads at their ends, but this is not shown here. The individual sections are placed one on top of the other, each section having the upper end of the section lying above it. This type of connection allows changes in length in the event of temperature fluctuations while maintaining gas tightness. The metal tube 7 is backfilled with a mineral-based thermal insulation material 8 and is thus both insulated and fixed in position.

Analogous to chimney draft V, chimney draft A also has a closable cleaning opening 9 in the upper region. In the floors below, there are also connection openings 10 for the exhaust gas. Between each connection opening 3 and 9, a gas fireplace 11 is connected in the form of a gas floor heating with a closed combustion chamber (see also Fig. 2). This arrangement can be made on several floors. This is to be indicated by the recess in the middle storeys in the area of reference number 12. The gas fireplaces 11 can generally be attached directly to a chimney flue 13.

Finally, an overflow opening 14 is provided on the chimney sole between the chimney flues V and A. This can be reached and controlled from the cleaning opening 4 of the chimney draft V as well as from a cleaning opening 15 of the chimney draft A which is arranged at the same height. It is designed in such a way that it can be closed seamlessly up to a minimum opening and is lockable in each case. The free cross section of the overflow opening 14 can therefore be varied as desired. This enables the flow conditions to be optimized, depending on the number of connected gas fireplaces 11 and the flow calculations to be carried out for this purpose.

In addition, it should also be noted that the gas fireplaces 11 can have a blower support, either on the side of the exhaust gas or the combustion air. As a result, the exhaust gas is safely guided through the roof into the free wind power and is quickly diluted there.

Special pipe elements are provided for the cleaning openings 9, 15, as well as for the connection opening 10 of the gas fireplaces 11. The overflow opening 14 can also be formed by a tubular element, for example in the form of a T-piece. Since the exhaust side is able to compensate for temperature-related movements as a result of the structured structure of the metal tube 7, no special measures need to be taken for a movement play on the combustion air side. Rather, rigid connections can be provided there, ie connecting pieces can be walled into the chimney flue 13 by means of mortar.

Claims (7)

1. A method for creating an air-exhaust chimney for gas fireplaces in old buildings with at least two adjacent chimney flues, characterized in that the two adjacent chimney flues are connected to one another via an overflow opening (14) on the chimney sole and the one chimney flue (V) with openings (3) for the supply of combustion air to the individual gas fireplaces, while the other chimney draft (A) is provided with openings (10) for discharging the exhaust gas. 2. The method according to claim 1, characterized in that a variable overflow opening (14) is created in its free cross section. 3. The method according to claim 1 or 2, characterized in that the head of the chimney draft (A) for the exhaust gas is excessive compared to the head of the chimney draft (V) for the combustion air. 4. The method according to any one of claims 1 to 3, characterized in that the head of the chimney draft (V) for the combustion air is provided at a distance with an overlap (6). 5. The method according to any one of claims 1 to 4, characterized in that the chimney draft (A) for the exhaust gas to increase the flow rate as well as gas tightness is lined with a corrosion-resistant metal tube (7). 6. The method according to claim 5, characterized in that the metal tube is backfilled with a thermal insulation material (8). 7. The method according to claim 5 or 6, characterized in that the metal tube (7) is provided at its upper end with a removable attachment (5) which surrounds the upper end of the metal tube (7) with a cylindrical to frustoconical jacket at a distance and has in its interior a baffle and cover plate for the open end of the metal tube (7).

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