DE1276280B - Firing for intermittent combustion - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. α .:

F23c

German class: 24 b -1/02

Number: 1276 280

File number: P 12 76 280.0-13 (A 38391)

Filing date: September 22, 1961

Opening day: August 29, 1968

The invention relates to a furnace for intermittent combustion of preferably liquid Fuel, with a combustion chamber, which on the one hand is connected to an air inlet provided with a non-return valve, on the other hand valveless on one by its formation after each combustion process the formation a negative pressure in the combustion chamber causing exhaust gas duct is connected, and in one A plurality of injectors for the fuel open, which the atomized fuel all over Distribute space of the combustion chamber, and which the fuel at the same time with a positively regulated, the frequency determining the combustion frequency is supplied, as well as with a glow igniter made of refractory material, preferably refractory steel in the combustion chamber. Such a furnace is known from British Patent 395 457, which also indicates the possibility of the Combustion chamber directly to the exhaust duct, d. H. without using an exhaust valve. On the other hand, it is known from the journal ATZ, J. 53, No. 8, August 1951, p. 209 that in such a Firing due to the lack of an exhaust valve in the combustion chamber after each combustion process a negative pressure is created. The ignition of the fuel mixture takes place in the known firing systems by a glow plug that is in close proximity to either the inlet valve or the combustion chamber outlet is arranged.

On the other hand, it is known that the heat transfer from a flowing gas to a contact surface the better, the greater the flow velocity of the gas. The object of the invention is therein, with a firing of the aforementioned basic structure in the combustion chamber for each Explosion to generate as high a gas pressure as possible, which corresponds to the burned gases gives high outflow velocity. The high outflow speed is not only beneficial the heat transfer from the exhaust gases into their guide surface, but has the emergence of a corresponding result in strong suction in the combustion chamber after each explosion, through which a large one Fresh air is drawn into the combustion chamber. A large amount of fresh air, in turn, allows the supply of a correspondingly large amount of gas and thus a significant increase in Burner output. With the help of this large amount of mixture, the type mentioned at the beginning is achieved in a firing Art a maximum of combustion pressure and outflow velocity as well as combustion chamber filling according to the invention produced in that the annealing furnace for intermittent combustion

Applicant:

Aktiebolaget Gustavsbergs Fabriker,

Gustavsberg (Sweden)

Representative:

Dipl.-Ing. H. Sauerland, patent attorney,

4000 Düsseldorf, Cecilienallee 76

Named as inventor:

John Anders Rydberg, Stockholm

Claimed priority:

Sweden 22 September 1960 (9033)

igniter consists of a latticework extending over the entire space of the combustion chamber. This Spatial latticework causes the mixture to be distributed in many, over the entire combustion chamber Place is ignited at the same time, while with the known burners the combustion of the fuel-air mixture extends over the duration of the injection process or from the relatively small Igniter from progresses over the length and width of the combustion chamber and thereby also over lasts a comparatively long period of time.

An exemplary embodiment of the invention is shown in the drawing. It shows

Fig. 1 is a longitudinal section through an inventive trained firing and

FIG. 2 shows a section along the line II-II in FIG. 1.

The combustion chamber 1 shown in the drawing has

a water-cooled jacket and is in open communication with an outlet channel 2, which is also has a water-cooled jacket. The furnace can therefore be provided for a boiler, for example be. The combustion chamber is in the form of an elongated tube and is located on the exhaust port 2 opposite end terminated by an end wall 3 in which a holder 4 for three Injectors 5 is attached. With an air inlet 6 is designated, which is tangential into the combustion chamber opens directly behind the end wall 3 and contains a check valve 7.

In the combustion chamber 1 a latticework 8 made of a refractory material is attached, which in the exemplary embodiment has a substantially square cross-section and approximates

809 598/216

extends over the entire length of the chamber. This latticework can be made up of wires, rods, or tubes any other profiles made of refractory steel.

The three injection nozzles S are different from one another. With dash-dotted lines it is indicated that the middle nozzle delivers a fuel jet with a small jet angle and long range, while the lower nozzle delivers a fuel jet with a larger cone angle and shorter range. The fuel jet emerging from the upper nozzle has the largest cone angle and the shortest Range. As a result, when fuel is supplied through all of the nozzles, the atomized fuel is spread essentially evenly over the entire space of the combustion chamber, so that the The fuel-air mixture in all parts of the chamber has a substantially uniform composition has created favorable conditions for the mixture to ignite and burn will.

An electric spark plug to ignite the fuel-air mixture can be used to heat the furnace be used. After a short time, however, the latticework 8 is affected by the combustion gases brought to glow, whereupon the electric spark plug can be switched off. Since that Lattice work 8 fills a substantial part of the combustion chamber, it causes a glow in the glowing state simultaneous ignition of the injected fuel throughout the combustion chamber, resulting in a contributes to rapid and complete combustion of the fuel.

The three injection nozzles 5 of the exemplary embodiment can each have a common cylinder Pump are fed, the speed of which determines the combustion frequency. In most cases however, the nozzles can be connected to a common pump cylinder. The injection of the fuel should take place at least approximately simultaneously through all three nozzles.

In order to achieve an even and uniform distribution of the fuel in the chamber, it is also possible to arrange several nozzles distributed over the length of the chamber, which in this case are mutually exclusive may be the same, so that they require the same fuel pressure and thus to a common Pump cylinders can be connected.

Depending on the position of the nozzles, they can be designed so that they have different fuel jets Kind deliver. As in the exemplary embodiment shown, they can produce jets with different atomization angles, for example from 15 to 110 ° Cone angle. The fuel jets can be homogeneous over the entire cross section or in the middle and have different fuel concentrations at the edge.

In the exemplary embodiment, the fuel is in the axial direction in the center of the chamber of the Front side 3 injected ago, while the air is introduced in the tangential direction, so that it is in

ίο rotation is offset. It has been shown that this Arrangement results in regular and permanent combustion.

The invention can also be used when using gaseous or powdered fuels will.

Claims (3)

Patent claims: 1. Firing for intermittent combustion, preferably liquid fuel, with a Combustion chamber, on the one hand to an air inlet provided with a check valve, on the other hand valveless to a due to its training after each combustion process the formation of a Is connected to negative pressure in the combustion chamber causing exhaust duct, and in the one A plurality of injection nozzles for the fuel open, which the atomized fuel over the distribute the entire space of the combustion chamber and provide the fuel at the same time with an inevitably regulated frequency, which determines the combustion frequency, is supplied, as well as with a glow igniter made of refractory material, preferably refractory steel in the combustion chamber, characterized in that the glow igniter consists of a latticework extending over the entire space of the combustion chamber. 2. Furnace according to claim 1, characterized in that the fuel nozzles side by side, are preferably arranged in a common holder and are different due to their design Shapes and ranges of the fuel jets result. 3. Furnace according to claim 1, characterized in that the fuel nozzles are distributed over the length of the combustion chamber. Considered publications:
German Patent Nos. 907 576, 90 287;
French Patent Nos. 900 960, 840 943; British Patent Nos. 395,457,172,579;
Zeitschrift Automobiltechnische Zeitschrift (ATZ), J. 53, No. 8, August 1951, pp. 209, 210. 1 sheet of drawings 809 S98 / 216 8.68 ® Bundesdruckerei Berlin