DE3504225A1 - Atmospheric hot-water boiler with combustion chamber arranged at the bottom, in particular for gas firing - Google Patents

Abstract

The invention relates to an atmospheric hot-water boiler with a combustion chamber arranged at the bottom, in particular for gas firing, with which the quantity of the combustion residues contaminating the air can be reduced and the efficiency can be increased, the mode of manufacturing the boiler, i.e. the production technology, compared with the production technology of the conventional boilers, is considerably simpler and cheaper. The solution according to the invention can be characterised in that at least two intercommunicating water chambers are present, which are formed from concentrically arranged cylinder jackets. The waste gas flues are arranged between the outer cylinder jacket of the inner cylinder jacket pair, and therein three smoke-deflecting baffle elements are advantageously arranged, which force the combustion residues onto a spiral path. Furthermore, a flame-deflecting element, which is fastened on the outer cylinder jacket of the inner water chamber, is arranged in the furnace body, and/or nozzles are arranged in the circle below the waste gas flue or below the waste gas flues. The boiler according to the invention is also very suitable for any other heating materials, such as coal, coke or oil, as well as for gas.

Description

Atmospheric hot water boiler with a

Combustion chamber, especially for gas firing The invention relates to an atmospheric hot water boiler for hot water preparation with a below-arranged Combustion chamber, especially for gas firing, with the help of which the amount of the Combustion residues polluting the air, resulting from complete and incomplete Constantly burned fuel fractions are composed, reduced and the thermal Efficiency can be increased, the manufacturing method of the boiler, i.

the manufacturing technology with the manufacturing technology of the conventional Boiler compared is much cheaper and simpler.

It is known that they burned in various heating systems Heating fuels - especially due to the imperfect combustion - the environment thereby heavily polluting that in significant quantities pollutants in the air emit. The amount of air pollution known as "smog" is significant in the heating season in some large cities. The reason is there in the heating systems, especially those with a poor efficiency functioning boiler plays a major role.

Numerous types of atmospheric, for hot water boilers are described, where in general by burning coal, coke, oil or gas, the necessary water heating Energy is generated.

In terms of structure, the known boilers can be of two broad groups be assigned. The first group includes those with pockets. designed Boiler, to the second the boilers with standing fkduch pipe.

The common characteristic of both boiler types is this. that Heating fuels are burned in their boiler room, the flames next to one made of water jackets - Pockets - or pipes filled with water, designed water space after which the combustion residues via the exhaust flues into the chimney reach.

In the Hungarian patent specification 153 484 there is a pocket system designed boiler described in which the water space by welded together or pockets attached to one another via tabs.

For the removal of the combustion residues are between the walls 2-3 mm gaps are provided for the individual pockets. Form the two edge pockets at the same time the two sides of the boiler, while the remaining sides with Flat plates are limited.

This type of boiler was specifically designed for heating and gas firing Industrial water preparation developed.

A major disadvantage of this type of boiler is that it is welded together the pockets - because of the narrow gap between them - only from the inside, can be performed using a primitive technology. Another Disadvantage is also due to the small distance between the columns, in which the flowing combustion residues are in the form of soot on the side surfaces the pockets settle, thereby clogging the crevices and the path of the train Is blocked.

If the bags become damaged, e.g. due to the bag material flowing, there is no way to repair the boiler, because the pockets are due to the Weld seams cannot be exchanged.

A similar boiler is described in HU-PS 171 720, in which the water space in the boiler by several water jackets delimiting the flue is formed, and the furnace, which is enclosed by a sheet metal edge is, is arranged outside the water jacket. The walls that form the water jacket are made of spacer elements consisting of punched-out tabs and weld seams supported. In the water space there are several closed and interconnected parallel smoke puffs with a rectangular or square cross-section. The combustion residues leave the system through these smoke puffs.

This boiler shows in terms of assembly, as well as repairability have the same disadvantages as the type previously described.

The boilers designed with vertical smoke tubes have in the Jacket drum vertically, or almost vertically standing smoke tubes, which are next to each other, are arranged parallel to each other and above and below via tube bundle wall sheets are connected to each other. The exhaust gas flows upwards while inside the tubes the water flows in the space between the jacketed pipes.

So that the combustion residue does not get into the chimney too easily can get, the flow retarding chain constructions in the individual smoke tubes let in, who are responsible for the rapid escape of the combustion residues to prevent.

Even with this type of boiler, combustion residues will escape can be slowed down, it can happen that the chain construction settling soot completely clogs the exhaust flues.

When using the known boiler types, all of these can be used Constructions common disadvantage are observed that the combustion residues - for two reasons - along with a significant amount of unburned fuel leak into the air. One reason is that it is on the face of the water space limited by metal sheets striking the hot water limiting, but compared to the flame "cold" surface cools down to such an extent that the Components cannot burn out, i.e. remain unburned and get in shape of soot on the wall of the combustion chamber or unburned the boiler above leave the exhaust flues. Another reason that the fuel is only partially is burned, consists in the fact that the cooled and unburned on the end faces Parts of the fuel in the exhaust flues cannot heat up to such an extent that a combustion takes place, rather they flow quickly through the exhaust flues and step out into the air. These unburned parts cause air pollution and on the other hand reduce the efficiency of the boiler.

An object of the invention is to remedy the above mentioned shortcomings to be eliminated by creating an atmospheric combustion chamber arranged at the bottom, for hot water boiler serving derarat is further developed that he is easy to assemble and repair and complete combustion takes place in it, so that contamination of the ambient air can be avoided.

The invention is based inter alia on the knowledge that in the known Boilers only partially fulfill the three known basic conditions of combustion are. Even though the flammable substance and the oxygen in the air are present the ignition temperature, which is necessary for complete combustion, remains not only on Beginning of the process but should be present to the one with the Front surfaces that come into contact with water are not retained. But if it succeeds, that Impact of the flame on the front surfaces in contact with the water, or to prevent their cooling, as well as the rapid escape of the combustion residues to delay while allowing the unburned components to settle into the flame can be burned repeatedly heating, so that an increased efficiency can be achieved with the combustion practically complete and without any Air pollution is going on.

Based on this knowledge, an easy assembly and repairability, as well as the elimination of air pollution with an atmospheric, with down arranged combustion chamber designed, serving for hot water boiler can be achieved, which has at least two water spaces, the individual water spaces are formed by concentrically arranged pairs of cylinder jackets. The exhaust train is between between the outer cylinder jacket of the inner cylinder jacket pair and the inner cylinder jacket of the adjacent cylinder jacket pair. In the flue gas pass there is at least one - but preferably three - the combustion residues attached to a spiral path mandatory smoke deflecting damming element. The single ones Cylinder jacket pairs are closed at the top and bottom with a circular ring each. By the upper circular ring is coaxially guided through a gas pipe. The water spaces communicate together. In the combustion chamber there is one on the outer cylinder jacket of the inner one Water space attached flame deflecting element attached and / or under the Exhaust gas flue or under the flue gas flues, nozzles are arranged in a circle.

The smoke deflecting dam (s) is (are) in the form of a (of) made of circular (circular) sheet steel designed serpentine (s) and is (are) welded to the outer cylinder jacket of the inner water space.

The water spaces are through three flow pipes or three flow through links connected to each other.

The upper ends of the flow tubes can over the inner cylinder jacket of the outer water space to the water spaces and the lower ends over the final Circular ring of the inner water space can be connected to the water spaces. on in this way it can be achieved that the inner water space of the three flow tubes is being held.

For larger boilers with three water spaces, it seems advantageous to connect the individual water spaces in such a way that that the flow members are connected to the water spaces via the upper circular ring are. In this case, the inner water spaces of the flow members in held in a stable position.

The flame deflecting element can be adapted to the fuels the outer jacket of the inner water space attached sheet metal, which is preferably can be designed in the form of a straight circular cone or a spherical cap. Each Element is capable of the impact of the flame on with Forehead surfaces in contact with water. When heated with coal The use of a straight circular cone is particularly advantageous.

If gas is used as fuel, the nozzles can be advantageous Be butterfly burners, which you can see under the individual smoke puffs in a circular arc arranges. In this case, under the smoke puffs there will be one or more circular ones Gas nozzles, the wall of which is provided with holes at the top, with each one above Hole a butterfly burner is attached with hanging bolts.

In the boiler according to the invention, when using any Fuel with the help of the flame deflecting element prevents the flame strikes the face in contact with the water, with the serpentine dams can be achieved that the not burned Components repeatedly heated to ignition temperature before escaping and thus completely to be burned.

The invention is explained in more detail with reference to the accompanying drawing, from the example of an advantageous embodiment of the device according to the invention can be seen. The drawing shows: FIG. 1, in section, a side view of a Boiler with two water spaces, Fig. 2 partially in section the view of the upper part a boiler with three water spaces and FIG. 3 shows a top view of part of the invention Furnishings.

As can be seen from Fig. 1, limit concentrically arranged cylinder jackets 6a and 6b an inner water space 21a, while cylinder jackets 7a and 7b an outer Limit water space 21b. The inner water space 21a or the outer water space 21b are closed at the bottom with circular rings 20a and 20b, and at the top with circular rings 19a and 19b.

Through the upper circular ring 19b there are four with the axis of the circular ring Coaxially arranged pipes serving to remove the exhaust gas are carried out.

On the circular ring 19 a terminal 5 is attached to which a Thermostat 2 a riser pipe 1 is connected. In the circular ring 19b and although above the outer water space 21b there is a vent port in a bore 3 attached. In an exhaust flue 18a between the water spaces 21a and 21b there are three Smoke deflecting damming elements 9a, 9b and 9c arranged, which are made of circular ring-shaped There are sheets that - cut through in the radial direction - by pulling apart the two ends in the axial direction take the form of serpentines.

The serpentine sheet metal strips are on the outer cylinder jacket 6b of the inner water space 21a divided into three equal sections (with three Steps) welded on. On the inner cylinder jacket 7a of the outer water space 21b are the upper ends of flow tubes via the side wall connections 12a, 12b lla, 11b attached, while the lower ends via three holes that are attached to the final Circular ring 20a of the inner water space 21a are designed on the inner water space 21a are connected. In Fig. 1, the boiler is shown in section, so that only two side wall connections 12a and 12b and the flow tubes 1 pa, lib can be seen. The third sidewall connector and the third flow tube are Mirror-symmetrical in relation to the sheet metal, arranged in front of the cut. The three flow tubes fix and stiffen the cylinder jackets 6a and 6b carrying the inner water space 21a thus the entire boiler construction.

The space inside the inner cylinder jacket 7a of the outer water space 21b and the space below the final circular ring 20a of the inner Wasserra around it 21a form a furnace 10 in which a conical flame deflecting element 17 is arranged, which is welded to the cylinder jacket 6b.

In the area of the final circular ring 20b is on the outer side jacket 7b of the outer Wasserrraums 21b, a backflow connection 13 welded.

The closing circular ring 20b lies on an inwardly protruding ring Legs of a base 16. Inside this base ring 16 are on a gas distribution pipe 15, nozzles 14a, 14b designed as butterfly burners in a circle under the exhaust gas duct 18a arranged. The exit of the heat - as waste heat - in the form of radiated heat is prevented with the help of a side panel 26 and a cover lining 27.

As can be seen from Fig. 2, the three water spaces 21a, 21b, 21c between the cylinder jackets 6a, 6b, 7a, 7b, 8a and 8b, the individual Water spaces communicate with one another via flow members 25a, 25b, 25c.

The connection was made so that in the inner circular ring 19c drilled holes over the water spaces and the pipe ends of the flow members 25a, 25b, 25c were fixed around the holes by welding.

Similar to the boiler with two water spaces, is through the upper one Circular ring 19c passed through an exhaust pipe 4 coaxial with the axis of the circular ring, the smoke flues 18a, 18b being arranged between the water spaces.

As can be clearly seen from the figure, are on the gas distribution pipe 15 two gas nozzle tubes 22a, 22b attached. On the gas nozzle pipes 22a, 22b are at the top Bores attached over which the nozzles 14c, 14e with the locking device 24 of the gas nozzles and the hanging bolts 23a, 23b are attached. The nozzles are designed as butterfly burners designed. The other nozzles - including the nozzles - are in the same way 14d, 14f - attached along the perimeter.

In the one designed with three water spaces, i.e. two exhaust flues 18a, 18b containing boiler is one of two gas nozzle pipes and under the exhaust flues the butterfly burner designed burner system arranged.

The mode of operation of the boiler described here as an example is as follows: Even before the gas is ignited, the individual water spaces with Floating material free, softened water, after which this is in motion over the water Settling, well-known pumps and fEadiators - according to the terminology of heating technology - Are connected to a riser pipe 1 and a return pipe 13. Thereafter, the gas introduced through the gas distribution pipe 15 becomes known per se Way ignited.

The flame runs between the smoke-deflecting damming elements 9a, 9b, 9c three times around the flue 1usa until it reaches the chimney. With help of the flame deflecting element 1 7 could the impact of the flame on the with Front surfaces of the water spaces that come into contact with the water are prevented. The vertical cylinder jackets should have some part of the flame components cool below the ignition temperature, so the unburned components can heat repeatedly to the ignition temperature due to the effect of the storage elements, whereby the possibility of complete combustion is given.

With a circulation achieved with a water pump, the hot water is passed from the outer water space 21b into the inner water space 21a, namely through the flow tubes 11a, 11b. Let the water take effect flowing under the force of gravity, the upward circulating water carries out the circulation by itself.

The boiler described here as an example is suitable for gas heating, but it is obvious that the idea of the invention is also arbitrary with combustion other heating fuels, such as coal, coke, oil can be realized.

The boiler according to the invention can advantageously be used to generate heat in central heating systems, but it can also be used for smaller heating units, e.g. gas boiler, find use.

Our measurements have shown that for a boiler with a heating surface 2 of 2 m, with a water volume of 50 liters and a mass of 130 and a heating power of 30 kW, the temperature of the exhaust gas is 160 to 1700 C, and the boiler efficiency ranges between 91 and 94%. Similar Temperatures and efficiencies could be achieved with one 40 kW boiler measured will.

In addition to the increased efficiency and the expected reduced air pollution there is a particular advantage that the boiler is cheap. with a simple Technology can be manufactured.

Compared with the cost of conventional boilers, the cost of production can decrease of the boiler according to the invention can be reduced by about 50%.

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Claims (8)

Atmospheric hot water boiler with a combustion chamber below, especially for gas firing Patent claims 1. Atmospheric hot water boiler with a combustion chamber arranged below, especially for gas heating, with a Water room, a furnace and with one or more the combustion residues exhaust gas ducts, characterized in that at least two with each other communicating water spaces (21a, 21b) are present, which are made up of concentrically arranged Cylinder jackets (6a, 6b, 7a, 7b) are formed that the exhaust gas train or the exhaust gas trains (18a, 18b) between the outer cylinder jacket (6b) of the inner cylinder jacket pair is or are arranged, and in the exhaust flue or in the exhaust flues at least one - preferably three - forcing the combustion residues on a spiral path smoke deflecting damming element (9a, 9b, 9c) is arranged, and that in the furnace one attached to the outer cylinder jacket (6b) of the inner water space (21a) flame deflecting element (17) and / or under the exhaust gas duct or under the exhaust gas ducts (usa, 18b) nozzles (14a, 14b, 14c, 14d, 14e, 14f) are arranged in a circle. 2. bl 16armw.3sserkessel according to claim 1, characterized in that that the rauchabienkenden damming elements (9a, 9b, 9c) have the shape of a circular ring Sheet metal designed have serpentines and on the outer cylinder matel (6b) of the inner Are welded to the water space. 3. hot water boiler according to claim 1 or 2, characterized in that that the water spaces (21a, 21b, 21c) with each other via three flow tubes (lla, leib, llc) communicate. 4. hot water boiler according to claim 1 or 2, characterized in that that the water spaces (21a, 21b, 21c) via three flow members (25a, 25b, 25c) with one another communicate. 5. hot water boiler according to claim 3, characterized in that the upper ends of the flow tubes (lla, lib, llc) over the inner cylinder jacket (7a) of the outer water space (21b) connected to the water spaces, while the lower ends over the final circular ring (20a) of the inner water space the water rooms are connected. 6. hot water boiler according to claim 4, characterized in that the flow members (25a, 25b, 25c) via the upper circular ring (19c) to the water spaces are connected. 7. hot water boiler according to one of claims 1 to 6, characterized in that that the flame deflecting element (17) on the outer cylinder jacket (6b) of the inner water space (21a) is attached sheet metal, preferably in the form of a straight circular cone or a dome is formed. 8. hot water boiler according to one of claims 1 to 7, characterized in that that the nozzles (14, 14b, 14c, 14d, 14e, 14f) are in the form of known butterfly burners are designed.