The present invention relates to a CAN communication protocol system, along with an internal combustion engine and a method for operating same, for exchanging fuel consumption-optimizing and/or operating fluid consumption-optimizing and noise-optimizing messages between drive components and output components, which also help to increase the overall availability of the system.
The present invention relates to an internal combustion engine including a residue containment.
A method and a device for separating contaminants from a gas flow are known from DE 102007025416 B3.
An intake manifold for engine oil is further known from EP 1857646 B1.
The oil circuit of an internal combustion engine normally includes an oil pressure control valve. The latter controls downstream from the oil cooler the oil quantity that is not needed for the engine lubrication back into the oil pan.
If the oil pressure control valve is kept open as a result of an error, the lubricating oil circuit is disrupted and the locations to be lubricated receive too little oil pressure. Such an error may occur due to contaminants (machining chips, casting sand residues, blasting shot, etc.) in the oil. The removal of these contaminants after casting and machining is difficult despite cleaning with the aid of high-pressure machines, so that a certain amount always remains in the fully assembled internal combustion engine.
As a result of the position of the control valve in the oil circuit, the purging of the valve seat during engine operation and thus the susceptibility to disruption may be influenced.
It is also possible to position the valve downstream from the lubricating oil filter, so that contaminants cannot reach the valve. This, however, has the disadvantage, for example, that the filter size must increase, since the entire conveyed oil quantity and not just the lubricating oil quantity flows through the filter and the filter lifetime is otherwise reduced accordingly.
In some installation cases, the valve is positioned in the oil circuit laterally next to the oil filter, figuratively speaking in an “appendix,” so that once the contaminants reach the valve, they are no longer eliminated through the oil flow, but are deposited upstream from the valve seat and remain stuck in the valve seat upon opening the valve, whereby the valve may be prevented from closing.
It is an object of the present invention to create an internal combustion engine and a method that prevent the above-mentioned disadvantages.
The present invention provides an internal combustion engine including a crankcase, at least one oil pump, at least one oil filter, at least one oil circuit, at least one control valve, and at least one device for separating particulate contaminants from a fluid flow, in particular for separating contaminants from the crankcase of the internal combustion engine, this fluid or oil flow to be purified having at least one containment for receiving the contaminants. It is advantageous in this case that the contaminants may be permanently stored in the provided containment.
Further features of the present invention result from the following description and the figures or the table, each illustrating one exemplary embodiment.
Since it is not possible to completely prevent the presence of contaminants (residues), they are to be deposited during the first operating hours of the engine upstream from control valve 2 in suitably shaped chambers (containments) and remain there for the rest of the engine lifetime. Moreover, the oil channels are to be shaped in such a way that the contaminated oil is primarily guided into residue containments 4 and the separation there is facilitated by low flow speeds.
CFD simulations were carried out to make visible the trajectories of contaminants in the oil flow. In this case, an instantaneous series geometry of an engine as well as a modified geometry having two residue containments according to the present invention were contemplated by way of example.
Some of the contaminants deposit themselves on the walls of the oil channels even without residue containments. The comparison of the separation rates in Table 1, which is illustrated in
Number | Date | Country | Kind |
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10 2018 007 604.1 | Sep 2018 | DE | national |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2019/000243 | 8/22/2019 | WO |