DE809266C - Diesel engine - Google Patents

Description

Diesel engine The invention relates to a diesel engine in which when the piston approaches top dead center from the cylinder bottom and from the The top surface of the piston is a combustion chamber that takes up almost all of the combustion air is formed, in which a movement of the for the purpose of intimate mixing with the fuel Combustion air is generated.

The invention consists in that the combustion chamber is cylindrical is designed and arranged with its axis transverse to the cylinder axis and that the Displacement effect of the surfaces of the cylinder base lying to the side of the combustion chamber and the piston is rotating towards the end of the compression stroke in the combustion chamber Generated air roll, in the longitudinal direction of which the fuel is injected.

The invention provides a diesel engine that is very starts up easily and with the piston and cylinder moving during operation heat up less than the known diesel engines with constricted combustion chambers. It has a very low fuel consumption. With her there is an advantage use a simple, single jet generating nozzle. As a result of the elongated The fuel jet emerging from the fuel nozzle can form the combustion chamber develop freely without strongly wetting a wall of the combustion chamber.

In the drawing, various embodiments are shown in FIG the invention for example shown schematically.

Fig. I and a show the piston and cylinder of a diesel engine. Fig. I shows a vertical longitudinal section. Fig. A is a section along the line II-II of Fig. I. The piston is denoted by i. a is the cylinder. The diesel engine has a combustion chamber 3 which is formed when the piston approaches top dead center and which takes up almost all of the combustion air. At the end of the compression stroke of the piston i, a movement of the combustion air is generated in the combustion chamber 3 for the purpose of intimate mixing of the combustion air with the fuel injected through the injection nozzle 4. To form the combustion chamber 3, the cylinder base and the top surface of the piston i are each stepped once, in such a way that the steps slide into one another at the top dead center of the piston i, the step webs 5 being at a greater distance from one another, while the step surfaces 6 or approach 7 as much as possible. In this way, a combustion chamber is created which is essentially cylindrical and is arranged with its axis transverse to the cylinder axis. Due to the displacement effect of the surfaces 6 of the cylinder base lying to the side of the combustion chamber 3 and the surfaces 7 of the piston i, a rotating air cylinder is generated in the combustion chamber 3 towards the end of the compression stroke. By arranging the injection nozzle 4 at one end of the combustion chamber 3, the fuel is injected in the longitudinal direction of the combustion chamber 3 or the air roll. In the diesel engine according to FIGS. 1 and 2, the combustion chamber 3 lies with its longitudinal axis in a plane directed perpendicular to the cylinder axis. The axis of the combustion chamber 3 intersects the cylinder axis. However, it is possible and under certain circumstances very advantageous if the longitudinal axis of the combustion chamber lies next to the longitudinal axis of the cylinder, as can be seen from FIG. 5. While in the diesel engine according to Figs. 1 and 2 an equally strong, flat air jet flows tangentially into the combustion chamber in the same direction of rotation, in the diesel engine according to Fig. 5 one of the air jets is significantly stronger than the other. It is achieved in that the air roll rotates in the combustion chamber at a greater speed. This is advantageous with regard to the mixture of the combustion air with the fuel. In Fig. 5, the piston is denoted by 8 and the cylinder by 9. io is the combustion chamber and ii is the injector. 12 and 13 are the surfaces of the cylinder base and piston B that generate the stronger air jet.

Figs. 3 and 4 show the piston and cylinder of another diesel engine. Figure 3 shows a vertical longitudinal section. Fig. 4 is a section along the line IV-IV of Fig.3. The diesel engine according to figure 3 and 4 differs from that according to Figs. I and 2, characterized in that the step surfaces are curved and 14 1. 5 The step webs are also curved, so that the combustion chamber 17 has an approximately circular shape in section, seen transversely to its longitudinal axis. The curvature of the step surfaces 1, 4 and 15 has the advantage that the upper edge 18 of the piston forms a self-contained, circular edge lying in a plane perpendicular to the longitudinal axis of the cylinder. As in the case of a flat piston, the piston rings have the same distance everywhere from the upper edge of the piston. Due to the curved design of the step webs 16 , a flow-favorable shape of the combustion chamber 17 is formed.

It is also possible within the scope of the invention that, as can be seen from Fig. 6, a flat air jet is generated during the compression stroke by the displacement effect of the step surfaces 2o and 21 of the cylinder base or the piston lying on one side of the combustion chamber 19, which is closer to the central axis of the combustion chamber i9. It is achieved in that a strong air movement is also generated in the core of the air roll rotating in the combustion chamber 19.

Figs. 7 and 8 show a further embodiment of the invention. The Fig.7 is a vertical longitudinal section through the cylinder and the piston of a Diesel engine. The Fig.8 is a section along the line VIII-VIII of Fig. 7. While in the case of the diesel engines according to Figs. i to 6, the cylinder-shaped combustion chamber is formed by both the cylinder base and the head surface of the piston, is the cylindrical combustion chamber 22 of the diesel engine according to Fig. 7 and 8 essentially in the cylinder cover 23 and is cut from the cylinder base 24, so that there is an elongated connecting opening from the combustion chamber 22 to the cylinder chamber results. One of the two longitudinal edges 25 delimiting the connection opening is rounded, while the other longitudinal edge 26 runs out like a knife. On the top of the piston 27 is a deflecting nose extending in the longitudinal direction of the combustion chamber 22 28 is provided, which is in the top dead center of the piston 27 with its side 29 of the rounded edge 25 approaches the connection opening and with its other side 3o the addition of the combustion chamber 22 forms. The embodiment of the combustion chamber the diesel engine according to Figs. 7 and 8 has the advantage that the piston 27 has a has a simple shape.

In the diesel engine according to Figs. 7 and 8, the combustion chamber is located 22 with its longitudinal axis in a plane directed perpendicular to the cylinder axis and intersects the cylinder's longitudinal axis with its longitudinal axis. The diesel engine after Fig. 9 and io differs from the diesel engine according to Fig. 7 and 8 only in that the combustion chamber shifted sideways in said plane is so that it lies with its longitudinal axis next to the cylinder axis. The combustion chamber The diesel engine according to FIGS. 9 and 10 is denoted by 31. Fig.io represents a section along the line X-X in Fig. 9.

In Figs. I to io is the direction of flow of the combustion air indicated by arrows in the combustion chambers.

The combustion chambers of the diesel engines after the Figs. I, 2, 7, 8, 9 and io have a constant cross-section over their entire length. However, this is not mandatory. The combustion chamber can also look after its both ends to taper in cross-section, as can be seen particularly from Fig. 3 is. There is also the possibility that the combustion chamber becomes larger as it becomes larger Distance from the injection nozzle expanded or tapered in cross section.

The injection nozzle can be a single-hole nozzle that produces a sharp jet generated. However, an injection nozzle can also be used, which makes one strong dissolved fuel jet generated, z. B. a spigot nozzle. Such a splash the fuel closer to the wall of the combustion chamber, so the class Fuel more with that flowing at high speed on the combustion chamber wall Comes into contact with air. The invention, however, is an intimate one in all cases Mixing of the combustion air with the fuel ensured. The invention leaves can be used to advantage on two-stroke machines, but also on four-stroke machines. The machines can be designed in such a way that it is possible to use the injection nozzle to be connected both at one end and at the other end of the combustion chamber.

Claims (14)

PATENT CLAIMS: i. Diesel engine in which, when the piston approaches top dead center, the cylinder base and the top surface of the piston form a combustion chamber which absorbs almost all of the combustion air and in which a movement of the combustion air is generated for the purpose of intimate mixing with the fuel, characterized in that the Combustion chamber is designed in the shape of a cylinder and its axis is arranged transversely to the cylinder axis and that the displacement effect of the surfaces of the cylinder base and the piston lying sideways to the combustion chamber produces a rotating air cylinder in the combustion chamber towards the end of the compression stroke, in the longitudinal direction of which the fuel is injected. 2. Diesel engine according to claim i, characterized in that the combustion chamber with its longitudinal axis lies in a plane directed perpendicular to the longitudinal axis of the cylinder. 3. Diesel engine according to claims i and 2, characterized in that the longitudinal axis of the combustion chamber the longitudinal axis of the cylinder intersects. . Diesel engine according to claims i and 2, characterized in that the combustion chamber with its longitudinal axis next to the Cylinder longitudinal axis lies. 5. Diesel engine according to claims i to .4, characterized characterized in that the cylinder base and the to form the combustion chamber Head surface of the piston are each stepped once, in such a way that the steps Push into one another at the top dead center of the piston, with the step webs forming a have greater distance from each other while extending the stepped areas as much as possible approach. 6. Diesel engine according to claims i to 5, characterized in that the step surfaces are arched. 7. Diesel engine according to claims i to 6, characterized characterized in that the step webs are bent so that the combustion chamber in Section seen transversely to its longitudinal axis, has approximately a circular shape. B. Diesel engine according to claims i to 7, characterized in that by Displacement effect of the step surfaces lying on one side of the combustion chamber of the cylinder base and the top surface of the piston towards the end of the compression stroke a flat air jet is generated which is closer to the central axis of the combustion chamber lies. 9. Diesel engine according to claims i to 4, characterized in that the combustion chamber lies essentially in the cylinder cover and from the cylinder base is cut, so that an elongated undrösselte connection opening to the Zy; linderraum arises, and that one of the two the connection opening with the cylinder delimiting longitudinal edges is rounded, while the other longitudinal edge runs out like a knife and that on the head surface of the piston one in the longitudinal direction the combustion chamber running Abienknase is provided, which is in the upper Dead center of the piston with one side of the rounded edge of the connection opening approaches and forms the complement of the combustion chamber with its other side. ok Diesel engine according to Claims i to 9, characterized in that the Combustion chamber has a constant cross-section over its entire length. i i. Diesel engine according to Claims i to 9, characterized in that the combustion chamber tapers towards its two ends in cross section. 12. Diesel engine according to claims i to 9, characterized in that the combustion chamber widened with increasing distance from the injection nozzle in cross section or rejuvenates. 13. Diesel engine according to claims i to 12, characterized in that that it has an injection nozzle that produces a high-resolution fuel jet; z. B. a spigot nozzle. 14. Diesel engine according to claims i to 13, characterized in that it is designed so that the injection nozzle can be optionally arranged at both ends of the combustion chamber.