DE1032597B - Injection internal combustion engine with combustion chamber located in the piston - Google Patents

Description

Injection internal combustion engine with combustion chamber located in the piston Internal combustion engines with air compression and auto-ignition have already been developed in which the combustion chamber is mainly housed in the piston. There are also known designs that this combustion chamber spherical Have given shape and where the opening in the piston crown is smaller or smaller is equal to the diameter of the cavity, as is the position relative to the cylinder axis was arranged concentrically or eccentrically, sometimes the axis of this Combustion chambers coincide with the axis of the injection jet.

In fact, arrangements of this kind go like this. far that even at oblique Injection nozzle housed in the cylinder head, the jet axis through the combustion chamber axis is extended. However, this highlights an essential feature of these explanations, which can be seen in the fact that the injection jet is thus introduced into the combustion chamber that the most intimate possible mixing of the fuel with the combustion air is achieved, namely in the interior of the combustion chamber, which is housed in the piston is. But it has also been suggested. to guide the beam in such a way that it is in the same direction applied with the flow direction of the air on the walls as a thin film and when it is detached from the wall by the inflowing air in vapor form mixed with this and burned.

Also the execution of combustion chambers in the piston, which consists of a cylindrical Neck and an adjoining cavity with trapezoidal shape in the longitudinal direction Cross-section are formed is known. The injection nozzle is also at an angle in the cylinder head. and the longitudinal axis of the combustion chamber is opposite the cylinder axis offset towards the injection nozzle. But the injection nozzle is brought so far that it lies within the neck of the cavity. Then there is also the Injection in a fan shape or by means of a number of jets. so should go through these arrangements also ensure intimate mixing of the injected fuel can be achieved with the combustion air.

The majority of these arrangements were based on the task. one possible strong swirling of the fuel jet with the compressed air in the combustion chamber to reach yourself in order to process the fuel and burn it to accelerate significantly, whereby the fuel jets are guided in the same way, that they fill this space evenly with fuel droplets or mists.

Apart from this. It is not always easy. the fuel jet to guide so safely that he also the combustion chamber, if this is primarily in the Piston is housed and the mouth of the injection nozzle directly above this Space lies, interspersed, show such machines, in which the ignition of the whole injected fuel takes place at the same time, a hard gear.

In contrast, the invention relates to an air-cooled injection internal combustion engine with air compression, auto-ignition and the combustion chamber located in the piston, the from a cylindrical neck and an adjoining cavity with in the longitudinal direction of the piston is formed with a trapezoidal cross-section, the height of the cavity about the diameter of the neck of the combustion chamber with approximately a quarter to one fifth of the piston diameter corresponds to the transition from the baseline to the side lines are made by strong roundings and the combustion chamber with its longitudinal axis. is offset with respect to the cylinder axis towards the injection nozzle, while the injection nozzle is arranged at an angle in the cylinder head. The feature of the invention proposed solution is now seen in the fact that equipped with a large beam angle Injection nozzle at an angle of inclination in the cylinder head with respect to the cylinder axis of more than 65 ° and set back from the neck of the cremation chamber and the jet cone running in the direction of the injection nozzle axis in free Air closes the cavity edge of the side surface cutout associated with the cylinder axis of the cavity hits so that only part of the fuel jet gets into the cavity.

An uneven injection of the interior is deliberately aimed at, in order to achieve a particularly smooth combustion process. Just a small part of the combustion chamber is penetrated directly by the fuel jet. The remaining part of the fuel injects into the actual displacement. This will made a division of the fuel jet as it were. The ignition of the whole injected fuel does not take place at the same time, so that the gear hardness becomes considerably less.

This effect is achieved in particular by the fact that the pre-injection is set so that taking into account the injection delay of the nozzle approximately 10 to 16 ° crank angle before TDC reaches the upper opening of the combustion chamber is, so that at the moment of high flow velocities the compressed Air the entire injection amount is introduced. The first takes place shortly afterwards Partial ignition. It then takes place through the eddies of the cylinder capacity into the combustion chamber inflowing air a mixing of the fuel jet with this air and then the residual combustion. , The fuel jet, which in the open air is only part of the applied to the cylinder axis associated side surfaces of the cavity, achieved In operation, to a large extent, this side surface is not at all, but becomes in the moment the injection is slowed down by the compressed air located above the piston and settles in connection with the air in the cavity of the piston as it were like a Veil over the opening of the cavity, then from the compressed air immediately to be carried away into the cavity. The resulting mixing of the air with the fuel takes place due to the simple shape of the combustion chamber in connection with the jet position of the fuel jet so well that, like experiments have shown a specific fuel consumption at an effective mean pressure of 7 atm of 175 g / PSh for a four-stroke engine with 1.33 1 displacement per cylinder and 1800 RPM can be reached.

Due to the great distance of the injection nozzle opening from the combustion chamber mouth the injector does not heat up excessively. There is therefore no coke buildup. the low heating of the nozzle and the low heat absorption of the piston from the combustion chamber enable the above-mentioned mean effective pressure and the favorable specific fuel consumption.

The large opening between the combustion chamber and the displacement results in this further an insensitivity in the beam angle. It cannot be avoided that The fuel jet shows angular deviations after a long period of operation. In combustion processes, which prescribe an exact path for this jet through recesses in the piston, etc., the engine performance and fuel consumption are immediately degraded, when the ray deviates only a little from its exact direction.

In the embodiment according to the invention, however, it is circular The opening is so large that even a considerable angular deviation has very little effect on the performance and the specific consumption of the engine. One such after This method working engine is therefore a significantly greater operational reliability with highly loaded engines there are engines with narrowed spray ports or Motors that work with hole nozzles - both single-hole nozzles and multi-hole nozzles.

Since the first ignition of the injected fuel in the cubic capacity, i. H. takes place in hot, compressed air, special aids are used to start the Motor such as glow plugs or ignition lugs are not required.

Particularly favorable values have been obtained when the longitudinal axis of the Cavity relative to the cylinder axis by about one seventh to one tenth of the The value of the piston diameter is offset and the proportion accommodated in the piston makes up about three quarters of the entire combustion chamber. The angle of inclination of the Injection nozzle in the cylinder head in relation to the cylinder axis is at least 65 °.

In the drawing, the subject matter of the invention is shown schematically as an example shown, namely Fig. 1 shows a longitudinal section through the piston head and the arrangement of the injection nozzle in the cylinder head; Fig. 2 illustrates the arrangement of the piston and injection nozzle in plan.

A piston 2 guided in a cylinder 1 has its piston crown 3 a combustion chamber. which consists of a cylindrical neck 4 and a self subsequent cavity 5 is formed, while an injection nozzle 6 in the cylinder head 7 is arranged obliquely at the side. Fig. 1 represents the moment of the start of injection represent.

Claims (1)

PATENT CLAIM: Air-cooled injection internal combustion engine with air compression, auto-ignition and a combustion chamber located in the piston, which is formed from a cylindrical neck and an adjoining cavity with a trapezoidal cross-section in the longitudinal direction of the piston, the height of the cavity being approximately the diameter of the combustion chamber neck with approximately a quarter corresponds to a fifth of the piston diameter, the transition from the base line to the side lines is made by strong roundings and the longitudinal axis of the combustion chamber is offset from the cylinder axis to the injection nozzle, while the injection nozzle is arranged at an angle in the cylinder head, characterized in that the with The injection nozzle equipped with a large jet angle is arranged at an angle of inclination in the cylinder head with respect to the cylinder axis of more than 65 ° and set back with respect to the combustion chamber neck and which runs in the direction of the injection nozzle axis In the open air, the jet cone hits the edge of the side surface section of the cavity, which closes the cavity, which is associated with the cylinder axis, so that only a part of the fuel jet reaches the cavity. References considered: British Patent Nos. 585,801, 611916; Swiss patent specification No. 296 441.