DE515667C - Powder combustion engine or powder combustion turbine with supply of powdery fuels - Google Patents

Description

Powder internal combustion engine or powder internal combustion turbine with supply of pulverulent fuels The invention relates to a further embodiment of the powder internal combustion piston machine or turbine protected by patent 515 666. The invention consists in the special design and arrangement of the devices used for conveying the fuel powder in such a way that they are suitable at the same time for loosening the fuel powder and for adding air.

It is known to use the fuel powder to operate a piston engine Use of an impeller, which is moved by compressed air occurring, at the same time to mix with this compressed air. It is also known to fuel powder by compressed air to convey into the combustion chamber of a turbine, where it mixes with air.

The advantage over the known devices is that a more reliable promotion and at the same time a loosening of the fuel powder is achieved and it is prevented from settling.

The supply of the powder-air mixture into the antechamber of the work area takes place as in the main patent by means of a between the storage container and antechamber prevailing pressure gradient. The devices used to loosen the fuel powder, such as high-speed centrifugal augers or centrifugal screws, centrifugal wheels etc., must be designed in such a way that they prevent the excessively conveyed coal powder air mixture cannot compress if the conveyance exceeds the machine consumption.

The fuel powder is at no point on its way between the storage container Left to itself into the antechamber to be filled, but is subject to the driving influence of the pressure gradient and the centrifugal agent along the entire conveyor line. The rapid and safe introduction of the fuel-air mixture into the antechamber particularly supported by the fact that this, as is known, before the introduction of the fuel powder in each case by an overpressure that is approximately present in relation to the fuel powder supply is vented to the outside of the antechamber.

In the drawing are several for performing the method according to Invention suitable embodiments of internal combustion engines shown.

Fig. Z shows a longitudinal section through the fuel supply device and through a turbine, Fig. 2, a section along line C-C of Fig.

Fig. 3 and q. are two schematic longitudinal sections through according to FIG Invention established piston engines. For the turbine Fig. = And a, the combustion chambers B are connected upstream of the turbine housing, in which from the antechambers e the fuel in a controllable amount by means of compressed air intermittently is blown in. The powdery fuel is controlled by the antechambers e Valves b and the injection compressed air supplied through valves a. In front of the atomizing mouthpieces i spark plugs F or other ignition devices are arranged.

The filling valves b is the powdered fuel from the common Storage container d according to the invention supplied by centrifugal screws S (cf. Fig.z). The screws S get their drive by mechanical means, e.g. B. how illustrated in the drawing, from a special electric motor. the Centrifugal augers S rotate quickly and run with play in their housings, or they have such a slope and, if necessary, breakthroughs or interruptions in the wings that they have both a promoting and a slinging effect on the fuel powder to swirl vigorously with air. The snails S are not allowed to simply run slowly Be stirring devices, because otherwise they promote the escape of air from the mixture would.

In the embodiment shown schematically in longitudinal section in Figure 3 the fuel powder is driven into the antechamber by a centrifugal wheel R. In front of the filling valve b is to regulate the respective amount of fuel to be divided off a control slide Q is provided. In the closed, only from time to time Refilling to be opened fuel storage space d can be through a not shown Feed in compressed air, so that the fuel powder is both through the overpressure in the fuel supply as well as by the centrifugal effect generated by the Rade R in the antechamber e is driven. The wheel R can then run more slowly and serves more as a propeller, to keep the amber powder constantly in motion and to stick to the container walls to prevent. The overpressure or flow between powder container and nozzle rates can also be caused by another rapid movement of the powder to the filling valve Facility are generated.

The centrifugal snails S (Fig. Q.) Get more or more in the wings fewer large breakthroughs or are interrupted in places at all, so the fuel powder can flow back in the axial direction to the extent that it is in each case not into the antechamber due to the more or less opening powder filling valve b2 can occur.

The same effect can be achieved through greater or lesser leeway the centrifugal screw S in their housings or by such a large pitch be achieved that the relatively low promotional effect by her closed filling valve opposite resistance is lifted.

The antechamber is blown out in the illustrated embodiments by means of compressed air, which is fed through the controlled valve a intermittently into the antechamber is introduced, the loosely stored fuel powder in space e whirls through, entrains and at the end of the compression period it blows directly into the working cylinder w, where it may be at the flame of the pre-blown igniter immediately Entrance ignites and burns floating in the air stream.

Claims (1)

PATENT CLAIM: Powder combustion engine (diesel engine or powder combustion turbine according to patent 515 666, characterized in that approximately equiaxed (S in Fig. ¢) or transversely (S in Fig. x and R in Fig. 3) to the filling element (b), centrifugal and mechanically driven centrifugal wheels or openwork wheels with a conveying effect or rotating centrifugal augers, throwing organs or the like arranged in the housing with play that stir up the fuel powder and drive it through the filling element, but as a result Maintaining or renewing the air admixture the loose powder air mixture do not squeeze.