DE1679393C - Boiler for liquid or gaseous fuels with a combustion chamber and an adjoining conical flue gas duct - Google Patents

Description

The invention relates to a heating boiler for liquid. A passage 28 from the heating boiler wall 13 or gaseous fuels with a combustion chamber to the outer jacket 12 protrudes through the to be heated and an adjoining conical water and is with a (not shown) hinged

deten flue gas duct provided by a water jacket ble door on which a fan 30 for the are surrounded by the prismatic water 5 supply of gaseous or liquid fuel

pipes through the combustion chamber and through which sits in the combustion chamber 14. Above the fan 30

Flue gas routing run. a further passage 32 is arranged, of which

Various boilers are already accessible and can be cleaned to operate a collective heating system and to easily generate water from the inside of the flue gas duct 18,
known. It has been proposed for boilers for operation with io. The combustion chamber 14 has a fuel that is solid over its height, the upper cross section remaining constant. The supply part of the combustion chamber has to be conical, zolo the flame direction of the fuels in order to achieve continuous slipping of the fuel combustion chamber 14 in a plane that is just above and uniform load on the heating surface in the prismatic water combustion chamber lying in one plane. The heat exchange 15 tubes 22 runs. The water pipes 22 are easy but often followed by water pipes, which are led through the interior of the boiler falling in the direction of the front of the boiler and on which it is arranged. At the same time, the level of the supply is located where the combustion gases, releasing thermal energy, are in front of the zone just below the nose-shaped projection. 16. The areas in the area of the flue gas duct 18

In such an embodiment, there is no verao the cross-sections point upwards

vortex in the combustion chamber, but only a conically tapering course that carries the combustion gases

laminar, upwardly directed air movement than leading to an increase in speed and pressure

Consequence of the temperature drop in the heated air. That starts, so that with a decreasing cross-section a Heat exchange with the water pipes is low. constant amount of fuel gas in the unit of time

The object of the invention is to create as the cross-sectional areas can enforce,
a space-saving and compact built boiler in the upper area of the flue gas guide 18 are of the type mentioned, \ ^a i said further by simple means adjacent prismatic water Personalized fuel gas guide a more effective pipes in its entirety by 24 denotes ange-heat exchange ei made possible. arranges that with one of its side faces in two

To solve this problem, according to the Er- 30 planes intersecting at an obtuse angle suggested that above the level of the lie, the two levels of the side fuel supply one from the rear wall of the heating surface of the boiler at the level of the bushing 32 Kesseis jump into the interior of the combustion chamber - rise in the direction of the top surface of the boiler the nose-shaped projection to deflect and and just below the inlet opening of the Swirling of the combustion gases downwardly 35 flue gas outlet nozzle 20 ip snows the top surface is. the. ! Those penetrating the flue gas duct 18

The forcibly by the projection in the water pipes 24 are towards the front of the

The lower part of the combustion chamber is deflected and inclined from the boiler

swirled fuel gases rise between the prismatic through offset flat metal webs 26 one below the other

formed water pipes in the combustion chamber 40 connected. Due to the inclined arrangement of the prism

and up in the conical flue gas duct. Mitischen water pipes 22 and 24 make the property

the conicity of the flue gas duct and the arrangement circulation of the water increases, creating a very

tion of the nose-shaped projection will result in good heat exchange,

the speed, pressure and turbulence of the fuel displaced by the fan 30

Increased fuels and thereby the heat exchange 45 surfaces across the prismatic water pipes 22,

significantly increased with the same operating costs. meet the downward sloping wall of the

This advantage of the invention is also by nose-shaped projection 16, from which it in the

extremely simple and uncomplicated means achieved. lower part of the combustion chamber 14 in a circular

In the drawing is an embodiment of the steers and swirls. The fuel gases rise Invention illustrated and described below. 50 up between the prismatic water pipe 22 It shows' in the conical flue gas duct 18, where F i g. I made a longitudinal section through the boiler they formed the spaces between the prismatic

and pass through water pipes 24. The flat metal webs 26

2 shows a perspective view of the heating gap and swirling up the burning boiler flowing through it. 55 gases, which creates a high level of turbulence,

The boiler, denoted as a whole by 10, causes an increased heat exchange between the fuel gases, which are rectangular in cross-section, and the heating surfaces. The coincitic or circular combustion chamber 14, which is the flue gas duct 18 and which is set off in between by a nasal space of the juxtaposed water pipes 22 protruding 16 from a flue gas duct 18 that tapers upwards and increases the pressure and speed . One of the fuel gases flowing through, and thus also a cuboid outer jacket 12, surrounds the turbulence of the heating and forms a further boiler factor It at a certain distance. The resulting increase in heat exchange,
The resulting space between the boiler 10 and the outer jacket 12 returned by the collective heating system is filled with water. At the 65 flowing heating water, through a thick return area of the boiler, a right-hand pipe 34 is directed vertically into the water jacket of the boiler so that the flue gas outlet nozzle 20 is designed so that the water jet penetrates the outer wall of the boiler. Boiler at its hottest point. This

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Location is approximately in the plane of the feed zone Fuel gases.

Claims (2)

Patent claims: 1. Boiler for liquid or gaseous fuel with a combustion chamber and a adjoining conical flue gas duct, which is supported by a water jacket are surrounded, from which prismatic water pipes through the combustion chamber and through run the flue gas, characterized in that above the level of the Fuel supply from the rear wall of the boiler (10) into the interior of the combustion chamber (14) re-entrant nose-shaped projection (Ϊ6) is arranged to deflect and swirl the combustion gases downwards. 2. Boiler according to claim 1, characterized in that the p.asen-shaped projection (16) in the area of the transition from the combustion chamber (14) to the conical flue gas duct (18) is provided. 1 sheet of drawings