DE139370C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

The object of the invention relates to a four-stroke explosion engine, which is equipped with a device known per se in hot air machines that consists of consists of a container, the interior of which by an adjustable wall in a cooling and Boiler room can be transformed. This wall is adjusted by the machine in such a way that that in the cooling chamber the charge sucked in by the flask (mixture of luminous gas or liquid hydrocarbons with air) during the compression is cooled and in the on the other hand by adjusting the Wall formed boiler room the condensed charge transferred into the same and after the Ignition same the combustion gases are heated during the expansion. To this On the one hand, the compression of the cargo is brought about with less labor consumption and on the other hand, the heat absorbed by the device from the combusted gases at the end of the piston stroke is the next fuel charge just before ignition and then the expanding gases communicated.

The invention is illustrated on the drawings.

Fig. Ι shows a horizontal section of the machine;

Fig. 2 is a longitudinal section and

3 is a section along AA of FIG. 2. The piston / moves in the cylinder e and is connected by a steering rod to the crankshaft u carrying the flywheels t . This shaft transmits the movement through worm and wheel with half as many revolutions as the main shaft u making longitudinal shaft s, which mediates the control of the valves, the ignition etc. and also through eccentric n ¹ and rod η for moving the adjustable wall of the rear The device attached to the cylinder is used. The air inlet valve is moved by the eccentric g " ² and the arm g ^x \ the eccentric r ² drives the pump r ³ , which feeds fuel, kerosene or the like through pipe r ^{1 to your cylinder. The eccentric / 2 1} controls the outflow valve H.

In the housing i , which is attached to the cylinder e and communicates with the space behind the piston, a cooling and a heating space is formed alternately by the movable wall kj. In order to enlarge the areas of the adjustable wall, ribs k ¹ respectively are on both sides. j ¹ attached, which accordingly the opposite side parts of the housing i also with ribs V respectively. i ¹ are provided in such a way that, depending on the position of the partition kj , the relevant wall and housing ribs interlock. The parts k and j of the adjustable partition are blocked by a layer of poor heat conductor, e.g. B. by a glass panel, isolated from each other. Likewise, the container is located between the ribs clothing V and W ^T and the container i an insulating layer / glass or the like. At this page i kj in the position of the intermediate wall shown in FIGS. 1 and 3 are formed of the drawings of the heating room, while an adjustment of the partition, which η by the on the rod

acting eccentric κ ¹ takes place, between the ribs j ¹ and z ^1, the cooling space is created. This half of the container i is double-walled so that it can be constantly cooled by the water located in the space m. To better maintain the heat on the opposite side of the container, it can be covered with a poor heat conductor

ίο be provided.

The mode of operation of the device is as follows during the phases of a four-stroke cycle:

If the piston / moves outwards, fuel passes ^{behind the piston through tube r 1} and air through valve g, and the charge obtained is compressed as the piston retracts, valve h being closed. Here, the adjustable wall kj assumes that position in the container i ; in which there is a free space between the ribs i ^{1 and} j ¹ , so that the compressed charge is cooled on the cool surfaces of the ribs z ¹ and β. When the piston f moves outwards again shortly before the explosion, the wall kj is adjusted , which closes the cooling space i ¹ ] ¹ , but opens the heating space by diverging the ribs I ¹ k ^1. The compressed charge and the expanding gases are therefore heated between the hot surfaces of the ribs i ¹ k ^l. During the last movement respectively. on the second backward movement of the piston f , the burned gases flow through the space between the surfaces or ribs I ¹ k ¹ and divide. these with the contained heat. There is now another change in the position of the partition kj and the same processes are repeated during the next four-stroke, that is, the charge sucked into the cylinder is compressed and cooled at the same time, then ignited after the heating between the surfaces k ^l I ¹ , which Burned gases are further ^{heated on the surfaces Ar 1} Z ¹ and, as they flow out, give off their heat to the surfaces k ^l I ¹ . It is therefore the cooling room during the first two phases of the four-stroke cycle and the heating room of the device in operation during the last phases.

The amount of movement of the wall is, even with more powerful machines, about 20 horsepower, a small one, since the displacement only needs to be 3 to 4 cm; the change in the position of the wall can therefore be effected easily and very quickly go so that at three hundred revolutions of the crankshaft per minute the 1 50 changes the position of the wall do not present any difficulties.

The supply of fuel, be it gas, petroleum, gasoline, gasoline and the like. And the ignition can be done in any known manner. As the panels the adjustable wall and the housing, which are made of a good heat conductor, expediently Iron, exist, burn over time, so these plates are best interchangeable used. '' .. ·,

Claims (1)

Patent claim: Explosive engine, characterized in that the cylinder (e) is connected to a container (i) which is alternately transformed into a heater and cooler by a wall (kj) which can be adjusted in the interior so that the one formed on one side of the wall Cooling room the charge that has passed behind the piston ff) is cooled during its compression, in the heating room then formed on the other side the charge transferred into the same and, after the ignition thereof, the expanding gases are heated. 1 sheet of drawings.