DE527949C - Injection engine with self-ignition of the fuel in the compressed air - Google Patents

Description

Injection engine with compression ignition of the fuel Air The invention relates to an injection engine with auto-ignition of the fuel on the compressed air, whose pistons take air out of the cylinder chamber during the compression stroke displaced into at least one chamber, which is arranged on the engine cylinder or -decket and connected to the cylinder space only by at least one opening of narrow cross-section is.

According to the invention, the throttle opening is a funnel-shaped mixing space, in which the fuel is injected, upstream in such a way that its closest Place facing the chamber. The air charge is compressed to such an extent that self-ignition of the fuel enters, and the fuel is injected around the top dead center. Such a motor is extremely flexible and is therefore particularly suitable as a vehicle engine.

The drawing shows exemplary embodiments of the subject matter of the invention Engines shown that operate with airless fuel injection. Each of the Fig. I to 6 shows an embodiment in a longitudinal section through the cylinder head and the piston. In Fig. 7 the pistons of the engine according to Fig. 6 are shown in a view.

In the engine according to Fig. I, cylinder Z plays with the fuel nozzle c the piston a. The compression space is composed of two chambers that are connected to each other by a narrow opening f. One of the two chambers includes the cylinder space d and the funnel g, the other chamber b is in a goiter-like Extension of the cylinder wall arranged.

The machine according to fig. I -acts as follows: -The suction stroke in the cylinder on. stepped air is compressed on the next stroke; thereby arises a vigorous flow of air through the narrow opening f into the chamber b. Fuel injection begins towards the end of the compression stroke. through the Fuel nozzle c. Air and fuel meet in the funnel g, i.e. in front of the opening /, together - and mix and ignite.

The example in Fig. 2 only differs structurally from the first. The machine according to Fig.2 has a removable cylinder cover h. Sit at this one both a vessel containing the chamber b and the injection nozzle c. This arrangement is particularly suitable for converting existing machines into motors according to the invention, because here only the cylinder cover has to be changed.

The motor according to Fig. 3 also differs only structurally from the above-described ones. A removable cylinder cover h is again provided here. While at the engine according to Fig. 2 the vessel containing the chamber 'b and the nozzle for itself in the cylinder cover are attached, in this embodiment, the two parts are in one part! used, which attaches to the cylinder cover is. This part contains the two parts that are most frequently used according to the changing operating conditions need to be changed, and it is more appropriate to use only one for this purpose To have to loosen the connection with the cylinder cover than two as in the previous one Example.

With the engine according to fig. Q. the chamber b is housed in a goiter-like structure at the top of the cylinder jacket. As it approaches the inner dead center position, the piston crown helps to form the narrow opening f and the funnel g. When the piston goes down again after the ignition, it increases even the cross section of the opening f between the two chambers so that at the, in the chamber b charge located without large throttle losses and thus can relax more easily than in the previously described motors.

In the engine according to Fig. 5, the chamber b is arranged very similar to with the previous one. Again, the correspondingly recessed piston crown helps, to form the mixing funnel g, in part. my groove in the bottom of the cylinder. What is particularly noteworthy about this design is the long mixing path for the fuel and is offered to the air.

The engine of Fig. 6 has two in one. Cylinders running against each other Piston and otherwise differs in structure and effect from the one previously described Example only a little. The recesses in the two piston heads that form the funnel g are shown in a view in Fig. 7.

The throttling cross section does not need to come from a single opening f, it can also consist of several narrow holes or Slitting of any shape. Of course, the invention can be used with four-stroke , as well as with two-stroke machines, regardless of the type of Fuel introduction. So instead of using the fuel as in the examples Inject airlessly, also blow it in with the help of compressed air.

Claims (1)

PATENT APPLICATION: i. Injection engine with compression ignition on the compressed air, whose pistons take air out of the cylinder chamber during the compression stroke displaced into at least one chamber, which is arranged on the engine cylinder or cover and is only connected to the cylinder chamber by at least one throttle opening, characterized in that the throttle opening (f) is a funnel-shaped mixing space. (G), into which the fuel is injected, is connected upstream in such a way that its the narrowest point of the chamber is facing. 'a. Motor according to claim i, characterized in that that the opening between the cylinder space and the chamber is only a very short one Stretch has its narrowest cross-section. 3. The engine of claim i, wherein the fuel is injected past the piston head towards the connecting opening, characterized in that that the calving floor at least helps to create the mixing space. q .. engine according to claim i, characterized in that both the chamber and the injection nozzle on one removable cylinder cover are arranged. 5. Motor according to claim i, characterized in that that the chamber and the injection nozzle are housed in one part: the one on the cylinder cover is attached.