DE692055C - - Google Patents

Description

Four-stroke internal combustion engine with a steam receiver when operating with Hydrogen and Oxygen The invention relates to an internal combustion engine with a for storing part of the combustion residues when operating with hydrogen and oxygen-serving steam receiver, from which the working cylinder is used in these operations is fed.

It is already known that in a hydrogen engine, part of the to store the water vapor produced during the combustion and the working cylinder to feed again '. In this embodiment, however, the steam receiver was on connected to the exhaust. This arrangement had the disadvantage that during the exhaust stroke a considerable back pressure had to be overcome, which had to be overcome by the valves of the steam receiver was conditional. Nor is it new to a liquid fueled one Four-stroke internal combustion engine in addition to the usual exhaust and intake valves of the cylinder to arrange an outlet near the bottom dead center through which part of the Combustion products enter a reservoir, from which he points to the working cylinder is fed back. However, with this arrangement the gases occur on the same Ways back into the cylinder on which they emerged. This is what happens in the end of the intake = stroke when the cylinder releases the outlet to the memory again. It can therefore only a small part of the exhaust gases leaked into the memory return to the cylinder while the remaining combustion gases enter the Exhaust pipe escape. A mixture of the fresh gases with the combustion residues should even be avoided if possible. It is only intended to be a pad of combustion residues to form between the fresh air and the piston.

The invention consists in the fact that in a machine described at the beginning Kind in the steam pipe, which den- in the Additional outlet provided near the bottom dead center on the working cylinder connects to the steam receiver, arranged a w check valve and the steam ": receiver is connected to the suction line of the Maschsb @ #.

The advantage of the invention is that the steam from the steam receiver well mixed with the oxygen enter the cylinder through the suction pipe can. Accordingly, #e is heat absorption of the water vapor during combustion and his participation in the work performance through relaxation is very great. The work diagram largely loses its harmful peak and resembles a constant pressure diagram at. The rest of the exhaust gases, if they do not get into the steam receiver, escape through the exhaust valve from the cylinder into the exhaust pipe, where it is beneficial is precipitated in the condenser, so that a negative pressure in the exhaust line arises.

A two-wire valve is advantageously provided in the suction line, the connection with the steam receiver when operating with hydrogen and oxygen and when operating with a liquid or gaseous fuel and air, the connection with the outside air. In this way it is possible to operate the internal combustion engine to convert to a wide variety of fuels.

In the drawing, the invention is exemplified and schematic shown. It denotes: Fig. I a section through a cylinder, Fig. 2 a Crank circle diagram.

The cylinder head is. provided with an inlet valve a and an outlet valve b. In the vicinity of the bottom dead center an opening 'c is made in the cylinder, which is connected to the steam receiver e by a pipe d. The check valve dl is located in line d, which is loaded by adjustable springs in. And prevents the water vapor from flowing back from the sensor to the cylinder. The steam pick-up e can be connected to the outside air or to the cylinder via the two-way valve f in the suction line. A condenser g in the exhaust line enables the condensation of the water vapor that does not get into the steam receiver e. The hydrogen gas is admitted through the rotary valve i. The oxygen inlet valve 1 sits in the suction line between the inlet valve a and the two-way valve f. Oil can also be injected through the injection valve lt.

.. The internal combustion engine can therefore with ab - '= @: @ esChalteem steam pickup e can be operated with oil, with `` carrier gas' 'or with oil and hydrogen -' = gas. In this case the two-way valve f is set in this way; that. only sucked in air will.

The two-way cock closes when operating with hydrogen and oxygen f from the entry of atmospheric air and connects the suction line -with your Steam pick-up e. From the crank circuit diagram according to Fig. 2 it can be seen that during the suction period A to C oxygen off. the nozzle l at the same time is sucked in with steam from the steam receiver e through the suction valve. At the start of the compression stroke, hydrogen is blown in from C to B through the rotary valve i. The ignition of the mixture of hydrogen, oxygen and water vapor takes place in near top dead center by the spark plug K.

At the end of the working stroke, part of the combustion residue occurs from D to E. (Water vapor) through the outlet c released by the flask and the line d into the Steam pick-up e. Only after the outlet c is covered by the piston going upwards is, the outlet valve b opens from E to F, and the remaining amount of steam is expelled.

Claims (2)

PATENTANSYI2ÜCHl :: i. Four-stroke internal combustion engine with one for storage part of the combustion residues when operating with hydrogen and oxygen Serving steam receiver, from which the working cylinder is fed in these operations is, characterized in that in the steam line (d), the in the vicinity of the Lower dead center on the working cylinder provided additional outlet (c) with the Steam receiver (e) connects, a non-return valve (d1) and the steam receiver is connected to the suction line of the machine. 2. Four-stroke internal combustion engine according to claim i, characterized by a two-way cock in the suction line, the when operating with hydrogen and oxygen, the connection. with the steam pick-up (e) and when operating with a liquid or gaseous fuel and air, the Establishes connection with the outside air.