DE211981C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

CLASS 46 d. GROUP

HEINRICH PARZELLER in ESSEN, Ruhr.

Gas generators for gas engines. Patented in the German Empire on November 5, 1907.

The gas generator for gas engines described below is one of those at which the gases not only from the explosion chamber, but alternately from this and a reservoir connected to it by a check valve. the The invention consists in the peculiar interaction, which is characterized in more detail in the claims the outlet valves of the explosion chamber and the storage space and the gas mixture inlet valve the former. This is intended to be as uninterrupted as possible, which is particularly useful for suitable for the operation of turbines.

In the drawing, FIG. 1 illustrates the entire arrangement of such a gas generator (partly in longitudinal section) in a schematic representation; Figs. 2 and 3 show one Modification of the device made on part of the gas discharge pipe in longitudinal section and in front view.

The mode of operation of the system is as follows: At ι, compressed air with a certain voltage flows into the mixing nozzle 2, in which the air and the gas penetrating at 3 (fuel vapors), whose inflow can be regulated by the cock 4, mixed, what then the mixture flowing through the inlet valve 5, its valve cone 6 up to point 7 is depressed and passes through the openings 8 and the tube 9 into the explosion chamber 10. The load on the check valve 11, which the latter with the reservoir 12 connects is dimensioned so that it can withstand the pressure of the penetrating gas mixture withstands and prevents further flow into the storage container 12. As soon as now the mixture in the explosion chamber 10 to the voltage that occurs at 1 Compressed air has compressed, so an overpressure of the latter no longer prevails, closes the inlet valve 5 automatically by the valve cone 6 as a result of the decreasing pressure from ι and through the effect of the lifting weight 13 is pulled up into its seat 14. At this moment she touches the outer end of the lever arm 15 facing the explosion chamber 10 adjustable screw 16 with its tip the upper one attached to the insulating piece 17 Contact springs 18 and 19, whereby the current of the battery 20 via an ignition coil 21 is closed and in the explosion chamber 10 at 22 a spark jumps over, which the Mixture ignites. Now that opens under the pressure of the exploded gases Check valve 11 and allows some of the gases to flow into the storage container 12, until the same pressure prevails in this as in the explosion chamber 10, whereupon it is closes automatically.

Since the immediate explosion impact the engine (turbine) and the upstream If organs would be destroyed, the end of the pipe 23, which leads the gases into the machine, is closed but the jacket of the pipe is provided with many fine bores 24, which in their total number the inside diameter of the pipe

correspond and are covered by sleeves 25, which overlap with play space. The first burst of the gas mixture, which exploded with great violence, which occurred at 26 penetrates, is caught by the inner end face 27 of the outermost sleeve, continues the gas stream thrown back and forth several times parallel to its direction and thereby most of its living strength has been consumed. From the inner sleeve comes the Gas flow through the fine holes 24, in which it still experiences a strong throttling, into the interior of the tube 23 and further through the outlet valve 28, the check valve 39 and the collecting nozzle 31 in the machine.

When finally the expanded gas trapped in the explosion chamber 10 so is far consumed that its voltage is below the operating pressure of the machine (turbine) decreases, the valve cone 6 of the inlet valve 5 begins at the explosion chamber as a result the decreasing tension in FIG. 10 and the pressure acting from FIG. 1 towards each other lower and thereby immediately opens the lever arm 15 through the rod 29 inevitably connected outlet valve 30 on the reservoir 12, while the outlet valve 28, which is also connected by the rod 29 to the valve 5, by virtue of a The facility described in more detail below remains open for a short time and only is closed after the gas mixture inlet valve 5 is fully open. This staying open of the exhaust valve 28 of the explosion chamber

more after the opening of the same organ 30 on the storage container has the purpose that now through the part 31 of the line formed from the latter into the injector-like part 23 and 40 respectively, the gas stream sweeping the combustion residues still present in the explosion chamber as a result of its sucking effect is carried away and the chamber is cleaned and at the same time a certain negative pressure is generated in it, which makes it suitable for a renewed uptake of gas mixture power. This is made possible by the fact that the spindle 32 of the outlet valve 28 is not fixed connected to the hollow valve piston 33, but tightly closing in its upper one Front face is displaceable, and through the annular collars 34 and 35 in its maximum and Lowest position is taken. In the position illustrated in the drawing Valves will as soon as the cone 6- of the valve 5 is under the pressure of the penetrating The gas mixture begins to lower, the valve 30 connected to 5 by the rod 29 immediately opened by the slots 36 in its hollow piston 37 with the corresponding

annular opening 38 of the valve body are brought into communication. Meanwhile but the piston 33 of the valve 28 remains provisionally in the drawn by friction Stand position and is only when the collar 35 hits the upper piston surface depressed and so interrupted the flow of gas. To prevent gas from escaping from the collecting nozzle during this process 31 returned to the explosion chamber is in the former behind the exhaust valve 28 a check valve 39 is also arranged.

As long as the valve 30 is open, but the inlet valve 5 is not yet fully open or the outlet valve 28 is not yet fully closed, the flows into the storage container 12 trapped amount of exploded gas through the collecting nozzle 31 into the engine (Turbine), while at the same time those still in the explosion chamber 10 Carries away gas residues. This creates a certain negative pressure against the gas mixture flowing in again from 8; the chamber 10 fills again with an explosive mixture, and the one described above The work process is repeated and carried out in the same way.

The plant described thus delivers a continuous gas flow, which, soon the Explosion chamber 10, soon flowing out of the storage container 12, through the injector-like designed collecting nozzle 31 led into the machine (turbine) and here to work is made usable.

Claims (1)

95 Patent APPLICATION: Gas generator for gas engines, in which the explosion chamber (10) with a adjoining storage container (12) connected by a check valve (11) and the gas flow alternately from the storage container and from the explosion chamber flows, characterized in that the outlet members (28, 30) of the Explosibnskammer (10) and the storage container (12) and the fuel air mixture inlet valve (5) of the former are connected to one another in such a way that after the explosion, initially only no the outlet member (28) of the explosion chamber (10) is open, whereupon through the now occurring voltage drop in the explosion chamber (10) the mixture inlet member (5) and the outlet member (30) of the storage container (12) connected to this inevitably opens, so that the Gases flowing out of the storage container, whose outflow pipe is injected into the outflow pipe of the explosion container discharges, suck the gas residues out of the explosion chamber and thereby open the NEN of the mixture inlet organ (5) convey on which process the closing of the outlet member (28) of the explosion chamber follows until finally after Filling of the explosion chamber (10) with fresh mixture frictionally Closing the mixture inlet element (5) and the outlet element (30) of the storage container (12) occurs, whereupon a new opening occurs of the outlet member (28) of the explosion chamber (10) and an ignition of the imported mixture takes place. 1 sheet of drawings.