FR2878290A1 - Blow-by gas pollution control device for e.g. diesel engine, has oil return system that comprises oil storage unit outside engine oil pan and connected to direct injection system in engine - Google Patents

Abstract

The device has a conduit (6) supplying blow-by gas to a filtration unit (7) which separates oil particles from the gas. An oil return system has an oil storage unit (9) outside an engine oil pan and connected to a direct injection system in an engine. A pipe (8) supplies filtered blow-by gas to a gas inlet circuit (2) of the engine, where the circuit has an exhaust gas recirculation valve.

Description

The present invention relates to gas pollution control devices

  blow-by of an internal combustion engine.

  The blow-by gases are the exhaust gases that pass from the combustion chambers to the low engine. These are gases that result from the lack of sealing of piston rings of the engine.

  To evacuate these blow-by gases, they are re-circulated in the intake circuit of the engine. This makes it possible to avoid the overpressures of the low engine which could damage it, and to recycle these gases.

  However, the blow-by gases that are present in the low engine are in contact with the oil that lubricates moving parts of the engine, and are loaded with oil particles. It is therefore necessary to filter these blow-by gases before circulating in the intake circuit, otherwise the oil particles clog the various components of the intake circuit.

  The resulting oil from the blow-by gas filtration is then returned to the engine oil sump. Such a device is described for example in the document US2004 / 01733193.

  However, this filter oil contains carbonaceous materials that are derived from the combustion gases, and this has the effect of polluting the engine oil, and can cause a problem of engine reliability.

  One of the objects of the invention is to overcome the problem of pollution of the engine.

  The invention provides for this purpose a device for cleaning up the blow-by gases of an internal combustion engine, the device comprising at least one duct bringing the blow-by gases to a filtration means, a duct bringing the gases filtered to the gas intake system in the engine, and an oil return system which carries a means for storing the oil out of the engine oil sump.

  According to a variant of the invention, the oil storage means can be connected to an injection system.

  According to a first embodiment, the injection system may be a direct fuel injection system in the engine, and the storage means may be a fuel tank of the engine.

  According to a variant of the first embodiment, the depollution device may comprise a means of mixing oil with the engine fuel from a fuel tank of the engine.

  According to a second embodiment, the injection system may be a fuel injection system in the exhaust line of the engine, and the storage means may be a fuel tank of the engine.

  According to a variant of the second embodiment, the pollution control device may comprise means for mixing oil with the engine fuel from a fuel tank of the engine.

  The present invention and its advantages will be better understood on reading the detailed description of an embodiment taken by way of example and in no way limiting, and illustrated by the appended drawings in which: FIG. 1 is a block diagram of FIG. FIG. 2 is a block diagram of the invention according to a first embodiment, FIG. 3 is a block diagram of the invention according to a variant of the first embodiment, FIG. a block diagram of the invention according to a second embodiment, Figure 5 is a block diagram of the invention according to a variant of the second embodiment.

  FIG. 1 schematizes an internal combustion engine 1. The engine 1 comprises an intake circuit 2 and an exhaust circuit 3.

  The intake circuit 2 comprises an air filter, at least one duct connecting the air filter to an intake manifold. The intake circuit may also include a throttle body to vary the flow of air entering the circuit.

  The exhaust circuit 3 comprises an exhaust manifold, at least one duct connecting the exhaust manifold to a muffler. The exhaust system 3 may also include means for cleaning up exhaust gases, such as catalysts or NOx-trap, and a particulate filter in the case of diesel engines.

  The engine 1 may include a system for recirculation of flue gas, called EGR system (Exhaust Gas Recirculation). This system comprises a conduit 4 connecting the exhaust circuit 3 to the intake circuit 2. This system may also include an EGR valve 5 for varying the flow of exhaust gas to be recirculated in the circuit of admission 2.

  The engine may also include a supercharging unit, such as a turbocharger.

  The device for cleaning up the blow-by gases comprises at least one duct 6 bringing the blow-by gases to a filtration means 7. The filtration means 7 serves to separate the blowby gases from the oil particles they contain. The filtration means 7 may consist of several filter modules known to those skilled in the art, such as centrifugal filters.

  The depollution device also comprises at least one duct 8 bringing the filtered blow-by gases to the intake system 2 of the gases in the engine.

  In order to evacuate the oil resulting from the filtration of the blow-by gases, the depollution device comprises an oil return system.

  According to the invention, the oil return system comprises means 9 for storing the oil out of the engine oil sump. The engine oil sump is a crankcase that attaches to the engine's cylinder block and closes the low engine. The engine oil sump is the lubricating oil tank of the engine.

  Thus the filter oil does not return to the sump. This makes it possible to prevent this filter oil from polluting the lubricating oil of the moving parts of the engine which is in the engine, because it contains carbonaceous substances which come from the contact of the oil particles with the blow gases. -by and that can adversely affect the reliability of the engine.

  This storage means 9 may consist of a reservoir provided exclusively for storing the filtration oil.

  According to a variant of the invention shown in FIGS. 2 to 5, this storage means is connected to an injection system. In this variant, the filtration oil is not only collected and stored in a tank 9, but is burned. This thus makes it possible not to have to provide for the emptying of the storage means 9.

  According to a first embodiment shown in FIG. 2 and more particularly corresponding to the diesel engine, the injection system is a system for directly injecting fuel into the engine. This makes it possible to burn the filter oil directly by injecting it into the combustion chambers of the engine 1, and avoids fouling the elements of the intake circuit 2 of the engine 1.

  The storage means 9 may then be the fuel tank of the engine that supplies the direct injection system 10. The oil return system comprises a pipe bringing the filtration oil into the fuel tank. The oil mixes with the fuel, and the fuel oil mixture circulates in the direct injection system 10 of the engine 1.

  According to another variant shown in Figure 3, the blow-by gas cleaning device comprises a means 12 for mixing oil with the engine fuel, the fuel from a fuel tank 11 of the engine. The filter oil is not directed to the fuel tank 11 of the engine, but is led to a storage means 9 which can then be an auxiliary tank. This auxiliary tank is connected to a mixing means 12. This mixing means 12 comprises two inlet ports for receiving on the one hand the filter oil, and on the other hand the fuel. This mixing means also comprises an outlet orifice for sending the fuel oil mixture into the direct injection system 10.

  The advantage of using a mixing means 12 is that a proportion of oil can be defined in the mixture by adjusting the diameter of the oil inlet.

  It is also possible to install a valve controlled by a computer to vary the oil flow and act on the proportion of oil in the mixture according to parameters such as the engine load, the speed of rotation of the engine, the engine. activation of a clean-up cycle, etc. The mixing means 12 can also integrate the storage means 9 so that they form a single piece, in order to gain space.

  According to a second embodiment shown in Figure 4 and suitable for any internal combustion engine, the injection system is a fuel injection system 100 in the exhaust line of the engine. These systems are designed to generate heat in the exhaust circuit for the purpose of depollution, and they allow to burn the filter oil directly by injecting it into the engine exhaust circuit 3, and avoids foul the intake circuit 2 and motor 1 components.

  The storage means 9 may be the fuel tank of the engine which also feeds the post injection system. The oil return system has a pipe that feeds the filter oil into the fuel tank. The oil mixes with the fuel, and the fuel oil mixture circulates in the post injection system 100.

  According to another variant shown in FIG. 5, the blow-by gas cleaning device comprises a means of mixing oil with the fuel used to carry out the post-injections, the fuel coming for example from a fuel tank 11. fuel supplying the engine. The filtration oil is not directed towards the fuel tank 11, it is conducted by means of storage 9 which may be an auxiliary tank. This auxiliary tank 9 is connected to a mixing means 12. This mixing means 12 comprises two inlet ports for receiving on the one hand the filter oil, and on the other hand the fuel. This mixing means 12 also comprises an outlet orifice for sending the fuel oil mixture into the post injection system 100.

  The advantage of using a mixing means 12 is that a proportion of oil can be defined in the mixture by adjusting the diameter of the oil inlet orifice in the mixing means 12.

  It is also possible to install a valve controlled by a computer to vary the oil flow and act on the proportion of oil in the mixture depending on parameters such as the engine load, the speed of rotation of the engine, the engine. activation of a clean-up cycle, etc. The mixing means 12 may comprise the storage means 9 so that they form only one piece, in order to gain space.

Claims (7)

claims   1) device for cleaning the blow-by gases of an internal combustion engine (1), the device comprising at least one duct (6) supplying the blow-by gases to a filtration means (7), a duct (8) supplying the filtered gases to the gas intake system (2) in the engine (1), and an oil return system, characterized in that the oil return system comprises storage means ( 9) oil out of the engine oil sump.   2) Device for cleaning the blow-by gases according to claim 1, characterized in that the means (9) for storing the oil is connected to an injection system (10; 100).   3) Device for cleaning the blow-by gas according to claim 2, characterized in that the injection system (10) is a direct fuel injection system in the engine (1).   4) Device for cleaning the blow-by gases according to claim 2, characterized in that the injection system (100) is a fuel injection system in the exhaust line (3) of the engine (1) .   5) Device for cleaning up blow-by gases according to any one of claims 1 to 4, characterized in that the storage means (9) is the fuel tank of the engine.   6) Device for cleaning the blow-by gases according to any one of claims 1 to 4, characterized in that it comprises means (12) for mixing oil with the engine fuel from a reservoir (II). ) of the engine fuel (1).   7) Device for cleaning the blow-by gases according to claim 6, characterized in that the means (12) for mixing incorporates the storage means (9).