Multi-stage jet suction pump

Abstract

The invention relates to a multi-stage jet suction pump for aspirating blow-by gases from internal combustion engines.

Claims

1. A multi-stage jet suction pump for venting an internal combustion engine with a turbocharger between an air filter and a crankcase, characterized in that a charge air duct has a branch to said multi-stage jet suction pump, wherein the inlet of said multi-stage jet suction pump is connected with the crankcase through the engine ventilation, and the outlet of said jet suction pump is connected with the suction duct between the air filter and the turbocharger for recirculating blow-by gas, the multi-stage pump presses a propulsion jet through a first nozzle entraining gas at a circumference of the first nozzle, the propulsion jet then flows through a second nozzle larger than the first nozzle, and the propulsion jet then flows through a third nozzle, larger than the second nozzle, wherein a proportion of the propulsion jet is entrained, and at least one bypass valve and/or one check valve in the direction of flow parallel to said multi-stage jet suction pump and between said crankcase and said suction duct.

2. The multi-stage jet suction pump according to claim 1, characterized in that said multi-stage jet suction pump has at least 2 stages.

3. The multi-stage jet suction pump according to claim 1, characterized in that at least part of said multi-stage jet suction pump is inside or part of a cylinder head cover.

4. The multi-stage jet suction pump according to claim 1, characterized in that said multi-stage jet suction pump is made of plastic.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) The present invention is illustrated and described herein with reference to the various drawings, in which like reference numbers denote like method steps and/or system components, respectively, and in which:

(2) FIG. 1 is an illustration of an embodiment of the present invention; and

(3) FIG. 2 is an illustration of an embodiment of the present invention wherein the jet pump is inserted into a cylinder head cover.

DETAILED DESCRIPTION OF THE INVENTION

(4) According to the invention, the above object is achieved in a first embodiment by a jet suction pump 7 for venting an internal combustion engine with a turbocharger 3 between an air filter 1 and a crankcase 4, characterized in that a charge air duct 5 has a branch to an at least two-stage jet suction pump 7, wherein the inlet of said jet suction pump 7 is connected with the crankcase 4 through the engine ventilation 6, and the outlet of said jet suction pump 7 is connected with the suction duct 2 between the air filter 1 and the turbocharger 3 for recirculating blow-by gas 9.

(5) Multi-stage jet suction pumps 7 are particularly suitable for the present purpose, because the absence of moving parts leads one to expect a wear-free pump 7.

(6) The multi-stage pump 7 acts by pressing a propulsion jet (e.g., pressurized air from the charged suction tube) through a small nozzle 10, so that the jet entrains gas at its circumference. After the first stage, the volume flow increased by the supply air is subsequently flowed through a second, larger, nozzle 12 and a third, even larger, nozzle 14, wherein a proportion of gas is again entrained.

(7) At each nozzle 10, 12, 14, the propulsion jet entrains a fraction of the gas to be conveyed (blow-by gas). Because of the multi-stage property, the volume flow conveyed becomes significantly larger (a factor of 2, 3 or more) as with a one-stage jet suction pump. The more, the better.

(8) Because of this improved efficiency, the conveyed volume flow as well as the pressure increase produced by the propulsion jet can be improved.

(9) A basic disadvantage of the jet suction pump 7 is the fact that it also produces a pressure loss in a forced flow mode. The multi-stage property produces a sharply adjusted pump 7 that has no propulsion jet in a case where the internal combustion engine works in non-charged operation.

(10) In this case, the blow-by gas would have to be pressed through the small nozzles, producing a pressure loss that is not desirable. For an optimally constructed multi-stage jet suction pump 7, this pressure loss is significant (5 to 100 mbar depending on the volume flow). Since this drawback may exceed the benefit of the jet suction pump 7, at least one bypass valve 8 and/or one check valve 8 is provided for this application in a preferred embodiment according to the invention, which in a case where the jet suction pump 7 does not produce a propulsion jet, directs the blow-by gas past the pump 7 and thus minimizes the pressure loss for this case.

(11) FIG. 1 shows a preferred embodiment of the present invention. Starting from an air filter 1, the blow-by gas is supplied to the crankcase 4 through the turbocharger 3 and the charge air duct 5. The charge air duct 5 has a branch that discharges into a multi-stage jet suction pump 7. The engine ventilation 6 represents another connection between the crankcase 4 and the jet suction pump 7. In the embodiment that is particularly preferred here, another branch of the engine ventilation 6 leads to a bypass valve 8 and/or a check valve 8 that recirculates the gas flow through the blow-by gas recirculation duct 9 to the suction duct 2 between the air filter 1 and turbocharger 3 when there is a weak or non-existent propulsion jet in the jet suction pump 7.

(12) When the engine works in turbocharging operation, the valve 8 is closed because of the higher pressure downstream the jet suction pump 7. When the engine works in non-charged operation, the blow-by gas can flow past the pump 7 without a pressure loss.

(13) Thus, this operation mode is optimized by a combination of the jet suction pump 7 with the bypass valve 8 and/or the check valve 8.

(14) FIG. 2 shows a preferred embodiment of the present invention in which the jet pump 7 is inserted into a cylinder head cover.

(15) The pump 7 is preferably made of plastic, for example, polyamide. Parts of the pump may also be manifested within the cylinder head cover 10.

(16) In another embodiment of the present invention, the jet suction pump 7 may also be integrated in a cylinder head cover 10.

(17) Alternatively, the complete component may also prepared as a module consisting of the jet suction pump 7 with the bypass valve 8 and/or the check valve 8 with hose connectors.