DE650753C - Injection internal combustion engine with self-ignition, in which the main combustion chamber is separated from the piston displacement - Google Patents

Description

Injection internal combustion engine with compression ignition, in which the main combustion chamber is offset from the piston displacement The present invention relates to the known Injection internal combustion engines with compression ignition, in which the main combustion chamber is from Piston displacement is offset and the axes of the injection nozzle and the air reservoir lie in a common plane passing through a cylinder diameter, and in particular on internal combustion engines in which the wall of the main combustion chamber springing back on the side of the air reservoir and on the side on which the fuel supply takes place, is made protruding in such a way that the main combustion chamber is heart-shaped Cross-section received.

Such internal combustion engines have become small and medium-sized Cylinder diameter has proven its worth, as the flow phenomena that occur with Evacuation process of the air reservoir occur, a good combustion and a result in favorable efficiency.

In the case of machines with a larger cylinder diameter, however, the problem can arise occur that the range of the fuel jet is not sufficient to the air reservoir to be loaded with enough fuel. One of the enlargement of the cylinder diameter an approximately adapted enlargement of the injection nozzle would not be a sufficient extension of the fuel jet result. A decrease in the distance between the nozzle and Storage mouth by relocating the nozzles and air storage on the tendons of the combustion chamber while doubling them at the same time probably leads to the goal.

In the present invention, this object is achieved caused the injection jet to be given a further impulse on its way to revive its penetrating power after leaving the nozzle.

This takes place in that the injection nozzle is preceded by an antechamber becomes, with the result that the pre-chamber combustion that starts an additional one Drive for the nozzle jet results.

While in the known pre-chamber diesel engines, the pre-chamber only for processing the fuel and for transporting it into the combustion chamber serves above the piston, but this exhausts the function of the antechamber, it is the subject of the invention that the one in the antechamber Injection jet receiving additional drive impulse through the remote main combustion chamber blown through the machine against the air reservoir. Part of the blow-in jet with unburned fuel particles is attached to the air reservoir mouth intercepted and the other part in the memory for generating the known high pressure and the Enter blow-out energy. This is favored by the fact that the known Antechamber effect heated alif @: 'split and vaporized fuel particles . are better supplied to their end use in the air reservoir, d. H. for a storage blow-out- ' are suitable under a strong pressure drop.

It should be mentioned in this regard that the union of antechamber and air storage is known in a diesel engine in such a way that the air storage provided behind the antechamber and with one or more throttle openings the antechamber is connected, which is in suitable communication with the combustion chamber. The air storage is connected downstream of the antechamber, and the interactions between the air reservoir and the antechamber are completely different from those of the subject of the invention, in which the injection nozzle is connected upstream of the prechamber, the mouth of which the Air storage opposite.

The axes of the injection nozzle, Antechamber and air storage coincide and run perpendicular to the cylinder axis.

On the other hand, the common axis of the antechamber is a special arrangement and injection nozzle on the one hand and that of the air reservoir on the other hand against each other inclined, the direction of blow-out of the antechamber and air reservoir is in the way modified so that no entry happens to the flow into the memory, whereby the Blowing out of the air reservoir is directed so that it does not reach the antechamber mouth more hits. This gives the same for the heating conditions of the chamber mouths Advantages as with the corresponding direct injection, but obtained here for larger ones Machines have another meaning.

While with an equiaxed arrangement of the prechamber, injection nozzle and air storage it would be possible in this case that, depending on the size of the antechamber mouth some of the jet emerging from the air reservoir penetrate into the antechamber and an undesirable deposit of fuel in the antechamber could result, according to the impossibility of burning in the antechamber due to a lack of air reach, it would be for the special case of the injection internal combustion engine with a heart-shaped or similarly designed main combustion chamber cross-section further undesirable if 'the The memory beam would be misdirected and its rotational movement would not be complete or would not be perfect could perform.

Due to the mutual inclination of the antechamber and the injection nozzle towards each other the axis of the air reservoir, the opening of the antechamber is out of the area of the reservoir blow-out brought and continue to the underlying wall part for the cleavage of the Aus. Blowing for bringing about the rotary movement in the main combustion chamber is particularly advantageous used.

The drawing shows three embodiments of such internal combustion engines illustrated in Figs. z to 5. Fig. I shows a vertical and Fig. A a horizontal middle section through - the main combustion chamber. Fig. 3 and q. show a vertical and a horizontal middle section through the main combustion chamber of the second embodiment. Fig. 5 shows a vertical center section through the, main combustion chamber of an internal combustion engine, in which the common Axis of prechamber and injection nozzle inclined towards the axis of the air reservoir is.

As can be seen from Fig. I and a, the main combustion chamber c, which is separated from the cylinder a or piston b, is heart-shaped, the heart notch being the seat of the antechamber d, the heart tip being the seat of the air reservoir e or its mouths. The injection nozzle is denoted by f and the inlet and outlet valve with g and h.

In the embodiment according to Fig.3 and q. is again = the cylinder with a, the piston with b, the separate main combustion chamber with c, the antechamber with d and the air reservoir with e. However, the antechamber opens into the apex of the heart or in the middle part of the heart, while the air reservoir opens into the heart incision. The mouth of the prechamber d and optionally of the air reservoir e can be made one or more bores arranged at an angle to one another or Slits exist, and the mouth slits can be partially or entirely over extend the combustion chamber height.

In the embodiment of Fig. 5, the common axis is' from Pre-chamber d and injection nozzle t are arranged inclined to the axis of the air reservoir e. The remaining parts have been given the same reference numerals as in the previous ones Embodiments provided.

Claims (2)

PATENTA-NSPi2ÜCHE i. Internal combustion engine with compression ignition, in which the main combustion chamber is separated from the piston displacement, and the axes of the fuel injector as well as the air reservoir in a common through a cylinder diameter Level lie, in particular an injection internal combustion engine, in which the wall of the main combustion chamber on the side of the air reservoir and 'on the Side on which the fuel supply takes place, protruding executed is such that the main combustion chamber is given a heart-shaped cross-section, thereby characterized in that the injection nozzle is preceded by an antechamber. 2. Injection engine according to claim i, characterized in that the common axis of the prechamber and injection nozzle on the one hand and that of the air reservoir on the other hand against each other are inclined.