An internal combustion engine crankcase ventilation rotating coalescer includes an annual rotating coalescing filter element, an inlet port supplying blow by gas from the crankcase to the hollow interior of the annular rotating coalescing filter element, and an outlet port delivering clean separated
An internal combustion engine crankcase ventilation rotating coalescer includes an annual rotating coalescing filter element, an inlet port supplying blow by gas from the crankcase to the hollow interior of the annular rotating coalescing filter element, and an outlet port delivering clean separated, air from the exterior of the rotating element. The direction of flow by gas inside-out, radially, outwardly from the hollow interior to the exterior.
대표청구항▼
1. An internal combustion engine crankcase ventilation rotating coalescer separating air from oil in blowby gas from an engine crankcase, comprising: a coalescing filter assembly including a first annular rotating coalescing filter element having an inner periphery defining a hollow interior and an
1. An internal combustion engine crankcase ventilation rotating coalescer separating air from oil in blowby gas from an engine crankcase, comprising: a coalescing filter assembly including a first annular rotating coalescing filter element having an inner periphery defining a hollow interior and an outer periphery defining an exterior, an inlet port supplying said blowby gas from said crankcase to said hollow interior, an outlet port delivering cleaned separated air from said exterior, and an axial endcap coupled to the first annular rotating coalescing filter element and substantially sealed to the inlet port;wherein the direction of blowby gas flow is inside-out, radially outwardly from said hollow interior to said exterior, and wherein a flow path through said coalescing filter assembly is from upstream to downstream, from said inlet port to said outlet port. 2. The internal combustion engine crankcase ventilation rotating coalescer of claim 1, further comprising a rotating cone stack separator located in said flow path and separating air from oil in said blowby gas. 3. The internal combustion engine crankcase ventilation rotating coalescer according to claim 2, wherein the direction of blowby gas flow through said rotating cone stack separator is inside-out. 4. The internal combustion engine crankcase ventilation rotating coalescer according to claim 3, wherein said rotating cone stack separator is upstream of said first rotating coalescer filter element. 5. The internal combustion engine crankcase ventilation rotating coalescer according to claim 3, wherein said rotating cone stack separator is in said hollow interior. 6. The internal combustion engine crankcase ventilation rotating coalescer according to claim 5, further comprising an annular shroud in said hollow interior and radially between said rotating cone stack separator and said first rotating coalescer filter element such that said shroud is downstream of said rotating cone stack separator and upstream of said first rotating coalescer filter element, and such that said shroud provides a collection and drain surface along which separated oil drains after separation by said rotating cone stack separator. 7. The internal combustion engine crankcase ventilation rotating coalescer according to claim 2, wherein said rotating cone stack separator is downstream of said first rotating coalescer filter element. 8. The internal combustion engine crankcase ventilation rotating coalescer according to claim 7, wherein the direction of flow through said rotating cone stack separator is inside-out. 9. The internal combustion engine crankcase ventilation rotating coalescer according to claim 8, wherein said rotating cone stack separator is located radially outwardly of and circumscribes said first rotating coalescer filter element. 10. The internal combustion engine crankcase ventilation rotating coalescer according to claim 2, wherein the direction of flow through said rotating cone stack separator is outside-in. 11. The internal combustion engine crankcase ventilation rotating coalescer according to claim 10, wherein said first rotating coalescer filter element and said rotating cone stack separator rotate about a common axis and are axially adjacent each other, and wherein said blowby gas flows radially outwardly through said first rotating coalescer filter element, then axially to said rotating cone stack separator, then radially inwardly through said rotating cone stack separator. 12. The internal combustion engine crankcase ventilation rotating coalescer according to claim 2, wherein said rotating cone stack separator is perforated with a plurality of drain holes, allowing drainage therethrough of separated oil. 13. The internal combustion engine crankcase ventilation rotating coalescer according to claim 1, further comprising a second annular rotating coalescing filter element located in said flow path and separating air from oil in said blowby gas. 14. The internal combustion engine crankcase ventilation rotating coalescer according to claim 13 wherein the direction of flow through said second rotating coalescer filter element is outside-in. 15. The internal combustion engine crankcase ventilation rotating coalescer according to claim 14 wherein said second rotating coalescer filter element is downstream of said first rotating coalescer filter element. 16. The internal combustion engine crankcase ventilation rotating coalescer according to claim 15 wherein said first and second rotating coalescer filter elements rotate about a common axis and are axially adjacent each other, and wherein said blowby gas flows radially outwardly through said first rotating coalescer filter element, then axially to said second rotating coalescer filter element, then radially inwardly through said second rotating coalescer filter element. 17. The internal combustion engine crankcase ventilation rotating coalescer according to claim 1, further comprising an annular shroud along said exterior and radially outwardly of and downstream of said first rotating coalescer filter element such that said shroud provides a collection and drain surface along which separated oil drains after coalescence by said first rotating coalescer filter element. 18. The internal combustion engine crankcase ventilation rotating coalescer according to claim 17 wherein said shroud is a rotating shroud. 19. The internal combustion engine crankcase ventilation rotating coalescer according to claim 1, further comprising a drain port in communication with the exterior defined by the outer periphery, the drain port configured to drain separated oil from the outer periphery for subsequent return to the engine crankcase. 20. The internal combustion engine crankcase ventilation rotating coalescer according to claim 1, further comprising a set of vanes provided within the hollow interior defined by the inner periphery. 21. The internal combustion engine crankcase ventilation rotating coalescer according to claim 1, further comprising a mechanical coupling that couples the coalescing filter element to a component of an associated internal combustion engine, and wherein the coalescing filter element is driven to rotate by the mechanical coupling. 22. The internal combustion engine crankcase ventilation rotating coalescer according to claim 21, wherein the mechanical coupling comprises an axially extending shaft. 23. The internal combustion engine crankcase ventilation rotating coalescer according to claim 22, wherein the component of the internal combustion engine comprises one of a gear or a drive pulley of the internal combustion engine. 24. An internal combustion engine crankcase ventilation rotating coalescer separating air from oil in blowby gas from said crankcase, comprising: a coalescing filter assembly comprising an annular rotating coalescing filter element having an inner periphery defining a hollow interior, and an outer periphery defining an exterior, an inlet port supplying said blowby gas from said crankcase to said hollow interior, an outlet port delivering cleaned separated air from said exterior, and an axial endcap coupled to the annular rotating coalescing filter element and substantially sealed to the inlet port;wherein the direction of blowby gas flow is inside-out, radially outwardly from said hollow interior to said exterior, said blowby gas forced radially outwardly from said inner periphery by centrifugal force so to reduce clogging of said coalescing filter element otherwise caused by oil sitting on said inner periphery, and so as to open more area of said coalescing filter element to flow-through, whereby to reduce restriction and pressure-drop,wherein said centrifugal force pumps said blowby gas from said crankcase to said hollow interior, wherein pumping of said blowby gas from said crankcase to said hollow interior increases with increasing speed of rotation of said coalescing filter element, wherein said increased pumping of said blowby gas from said crankcase to said hollow interior reduces restriction across said coalescing filter element, and wherein a set of vanes are included in said hollow interior, the plurality of vanes enhancing said pumping. 25. An internal combustion engine crankcase ventilation rotating coalescer separating air from oil in blowby gas from said crankcase, comprising: a coalescing filter assembly comprising an annular rotating coalescing filter element having an inner periphery defining a hollow interior, and an outer periphery defining an exterior, an inlet port supplying said blowby gas from said crankcase to said hollow interior, an outlet port delivering cleaned separated air from said exterior, and an axial endcap coupled to the annular rotating coalescing filter element and substantially sealed to the inlet port;wherein the direction of blowby gas flow is inside-out, radially outwardly from said hollow interior to said exterior, and wherein the coalescing filter element is driven to rotate by one of (a) a mechanical coupling to a component of the engine; (b) a fluid motor and (c) an electric motor.
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이 특허에 인용된 특허 (120)
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