DE470845C - Self-igniting oil engine with a cavity in the piston - Google Patents

Description

Compression-igniting oil engine with a cavity in the piston The present The invention relates to a compression-ignition oil engine, particularly for airless ones Injection, with a cavity in the piston that acts as an additional combustion chamber serves.

There are known engines of this type in which air and fuel spatially separated from each other are introduced into the piston cavity, so that they can only mix there. The consequences of this late and consequently insufficient Mixing is difficult ignition and incomplete combustion.

Furthermore, it has also already been proposed to put one on the piston crown to put on hemispherical hollow attachment and its interior finite the cylinder space to be connected by a mouthpiece attached to the apex of the hemisphere. If the When the piston arrives in its dead center position, the mouthpiece is in front of the injection port directly opposite. At that moment the plant fuel is sliding in him upstream, non-ignitable or difficult to ignite locking means from the injection port opening out and through the mouthpiece into the hollow attachment. The locking means should now, together with the compressed air enclosed in the attachment, when flowing out Atomize the operating fuel that follows the locking agent from the attachment. However, the point in time at which the operating fuel enters the cylinder is chosen in such a way that there is no possibility of getting into the hollow attachment.

The present one differs from these known engines in different ways. According to the invention is namely the additional combustion chamber connected to the rest of the combustion chamber by a throttle cross-section, and the The shape of the rest of the combustion chamber and the position of the fuel nozzle are the same chosen that the resulting air flow during the compression stroke fuel after Throttle cross section and that fuel and air together through the throttle cross section flow through into the piston cavity. That way one becomes special Intimate mixing of air and fuel is achieved, which causes the cylinder charge to self-ignite and favors combustion. It is advantageous to place the throttle point between the to make additional and the rest of the combustion chamber only briefly. One brings up the throttle point has a funnel-shaped indentation in the piston, so extended you thereby the mixing path and experience has shown that ignition and. combustion still significant.

The drawing shows two examples of application of the invention various designs of cylinders for oil engines with air-soluble injection shown in longitudinal section.

In both cases the cylinder with Z, The piston with d, the additional combustion chamber housed in the piston with b and the im Fuel injection nozzle arranged in the cylinder base is denoted by e. The additional The combustion chamber in the piston is connected to the rest of the combustion chamber d by a throttle cross-section c tied together.

Both examples show four-stroke engines. The air inlet valve is each with 1- and the exhaust valve with ä: The mode of operation, the The machine according to Fig, z, insofar as it is important in this context, is the following: The air drawn into the cylinder on the suction stroke is compressed on the next stroke. This creates a lively air disturbance through the throttle cross-section c into the piston cavity b. The approximately towards the end of the compression stroke from the Fuel coming out of nozzle e is at least partially already in space d - i.e. before the throttle cross-section c - with the flowing into the piston cavity, as a result of the When heated air comes into contact with compression, it mixes with this and is released by the Air flow driven towards the throttle cross-section. The axis of the fuel nozzle e coincides with that of the constricted throttle point, so that at least some of the fuel is injected into the core of the air flow. That The fuel-air mixture then passes through the throttle cross-section c, is how mixed even more intimately in a nozzle and ignites. The once initiated Combustion is carried on wherever a combustible mixture is formed Has.

In the second embodiment, the mode of operation is fundamental just like the first. In front of the throttle cross-section, however, there is still a funnel-shaped one Depression b1 arranged. This depression is of course not similar to a longitudinal section purely conical and bound in cross-section round shape.

The shape of the additional combustion chamber in the piston is natural not even the one indicated on the drawing, which is often particularly advantageous Tied pear shape. Instead of a single additional combustion chamber, you can also, without deviating from the inventive concept, several combustion chambers in the piston be provided if this appears necessary or advantageous.

The invention can be used with advantage in oil engines of any type, like pure compression-ignition engines, engines that have a device to assist in starting the ignition, as well as hot-bulb engines. The invention is also applicable to Machines in which the fuel is blown with air. Likewise extends not only on four-stroke, but also on two-stroke engines.

Claims (1)

PATENT CLAIMS: r. Self-igniting oil engine, especially for airless ones Injection, with a cavity serving as an additional combustion chamber in the Piston, characterized in that the additional combustion chamber with the rest Combustion chamber is connected by a throttle cross-section and the shape of the The rest of the combustion rate and the position of the fuel nozzle are chosen so that the fuel air flow resulting from the compression stroke after the throttle cross-section drives and fuel and air together through the throttle cross-section flow into the piston cavity. z. Motor according to claim r, characterized in; that the throttle cross-section between the piston cavity and the rest of the combustion chamber is only found over a short distance. 3. Motor according to claim i, characterized in that that in front of the throttle cross-section a funnel-shaped depression is attached in the piston is. q .. engine according to claim r, characterized in that the fuel nozzle in the axis of the throttle cross section is arranged. 5. Motor according to claim i, characterized characterized in that the additional combustion chamber in the piston is in the shape of a pear Has.