DE99517C - - Google Patents

Description

IMPERIAL

PATENT OFFICE. Y &

In the known hydrocarbon machines with two mutually connected and unequal large pistons (see e.g. patents No. 76068, No. 85107 or No. 91346) the small piston causes the mixture to be drawn in and introduced into it the working area, while the larger piston, which serves as a working piston, is also the discharge worried about the burnt gases. In addition, they all have these known facilities one or more valves through which the burnt gases flow out.

The subject of the invention, however, forms a hydrocarbon engine in which the small piston does not act as a suction pump and in which valves do not exist are.

Both cylinders of this machine are provided with inserts, which are in the cylinder jackets enclosed recesses. The jacket space of the small cylinder is with connected to the same and to the working cylinder, while the jacket space of the greater Cylinders is connected to each cylinder by corresponding bores. Do this the reciprocating pistons control the machine in such a way that the explosive mixture is sucked in according to the piston position and is ignited as the burnt gases are expelled. The small The piston serves exclusively to reverse the openings in the small cylinder which as a result of a negative pressure prevailing in the machine, the suction of the ignitable Mixture takes place. The machine is shown in., The drawing.

The working piston P, which acts simply and is provided with respective piston rings, moves with slight friction in the use of the Gufscylinders A. This piston is connected on one side by the connecting rod B with the crank, on the other hand in its rear part a rod t screwed to the other end of which a small piston ρ is attached. The latter runs in a cast cylinder D, which is attached to the upper part of the working cylinder A. This little cylinder has:

ι. the inlet C for the gas mixture,

2. the ignition device b,

3. the openings dd, which connect the small cylinder with the working cylinder through the jacket space ss.

The working cylinder is provided with the bores mm and η η which open into the recesses SS of the jacket. The bores mm are made in such a way that the rear piston P ¹ overflows them when it has traversed approximately half of its way forward.

The action of the individual parts just described during the work of the machine is the following:

When the pistons assume the position shown in the drawing, the small cylinder is filled with a compressed gas mixture. At this moment the piston ρ releases the ignition and the gas mixture ignites in the

small cylinder and the pistons are propelled forward. When the pistons have covered about half of the way, the working piston releases the bores mm and the combustion gases flow through the same into the jacket space SS and from here through the bores η η and the exhaust E into the open. Here, pressure equalization takes place between the cylinder and the atmosphere. The piston now continues its way forward, whereby the. Bores η η are closed as soon as the edge u ν of the piston has overflowed the same. The working piston now produces a dilution of air in the cylinder, which is increased by the fact that the combustion gases remaining in the cylinder cool down. The air dilution increases until the piston has reached the bottom dead center. At the same moment the piston p, which was carried along by the piston P , has reached the outer end of the small cylinder D. He left the openings dd free and thereby connected the inlet C to the working cylinder through the intermediary of these openings dd and the jacket space ss . As a result, a new charge of gas mixture flows into the working cylinder, which is compressed as the piston begins to decline.

When the edge u ν clears the bores η η again when the piston retracts, the last remainder of combustion gases, which are located in the annular space 5 S , is expelled. As the piston retreats further, the rear part P ¹ of the piston closes the bores mm , whereupon the gas mixture in the cylinder is compressed, which reaches its maximum at the moment when the retraction is terminated. The two pistons have now returned to their initial position shown in the drawing and the operations just described following one another are repeated. The bores dd, mm and η η are of course chosen so large that they allow an unhindered flow of fresh mixture as well as of the exhausting gases.

Claims (1)

Patent claim: Two-stroke explosion machine with two controlling pistons, characterized in that the working piston (P ) controls channels (m and n) which respectively connect the cylinder jacket with the working space of the machine. with the exhaust, while the smaller piston (p) exposes the inflow opening (d) in the outermost piston position, through which the mixture flows into the cylinder as a result of the negative pressure prevailing in the working chamber of the machine. For this purpose ι sheet of drawings.