Separator configuration
US-10631697-B2 · Apr 28, 2020 · US
Crankcase ventilation systems having a swirl breaker to reduce pressure drop in tangentially exiting fluids
US11619152B2 · US · B2
| Field | Value |
|---|---|
| Publication number | US-11619152-B2 |
| Application number | US-201816769655-A |
| Country | US |
| Kind code | B2 |
| Filing date | Nov 9, 2018 |
| Priority date | Dec 6, 2017 |
| Publication date | Apr 4, 2023 |
| Grant date | Apr 4, 2023 |
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- Title
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- Abstract
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- Assignees and inventors
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- Key dates
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- First independent claim
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- CPC / IPC classifications
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- Citations and related patents
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Abstract
Official abstract text for this publication.
A crankcase ventilation system comprises a housing defining an internal volume structured to receive a. rotating air/oil separator element. The housing has a housing inlet structured to receive a fluid and a housing outlet defined tangentially in a sidewall of the housing which is structured to allow the fluid to exit the housing. An outlet conduit is fluidly coupled to housing outlet. The outlet conduit comprises an outlet conduit first portion axially aligned with the housing outlet, and an outlet conduit second portion positioned downstream of the outlet, conduit first, portion. A swirl breaking structure is positioned in at least one of an outlet conduit inlet and the outlet conduit second portion. The swirl breaking structure is configured to disrupt swirling flow of the fluid into the outlet conduit so as to reduce a pressure drop experienced by the fluid as the fluid flows from the housing into the outlet conduit.
First claim
Opening claim text (preview).
What is claimed is: 1. A crankcase ventilation system, comprising: a housing defining an internal volume structured to receive a rotating air/oil separator element, the housing having a housing inlet structured to receive a fluid and a housing outlet defined tangentially in a sidewall of the housing, the housing outlet structured to allow fluid to exit the housing; an outlet conduit fluidly coupled to the housing outlet, the outlet conduit comprising an outlet conduit first portion axially aligned with the housing outlet, and an outlet conduit second portion positioned downstream of the outlet conduit first portion, the outlet conduit second portion being perpendicular to the outlet conduit first portion; and a swirl breaking structure positioned in the outlet conduit second portion, the swirl breaking structure configured to disrupt swirling flow of the fluid into the outlet conduit so as to reduce a pressure drop experienced by the fluid as the fluid flows from the housing into the outlet conduit, the swirl breaking structure comprising a baffle positioned in the outlet conduit second portion, the baffle extending along an outlet conduit second portion longitudinal axis between a first end of the outlet conduit second portion and an outlet conduit outlet to define a baffle height, the first end of the outlet conduit second portion being proximate to the outlet conduit first portion. 2. The crankcase ventilation system of claim 1 , wherein the baffle comprises a vertical plate positioned in the outlet conduit second portion. 3. The crankcase ventilation system of claim 2 , wherein the baffle height is less than or equal to a height of the outlet conduit second portion. 4. The crankcase ventilation system of claim 2 , wherein the baffle extends in a first direction along the baffle height and in a second direction from a backwall of the outlet conduit second portion towards an outlet conduit inlet so as to define a baffle length, the baffle length being less than or equal to a width of the outlet conduit second portion. 5. The crankcase ventilation system of claim 2 , wherein the baffle extends from a backwall of the outlet conduit second portion at an angle with respect to a flow axis of the fluid entering the outlet conduit first portion towards an outlet conduit inlet. 6. The crankcase ventilation system of claim 2 , wherein the baffle comprises a baffle edge facing the first end of the outlet conduit second portion proximate to the outlet conduit first portion, the baffle edge inclined at angle with respect to a flow axis of the fluid entering an outlet conduit inlet. 7. The crankcase ventilation system of claim 2 , wherein the baffle comprises a baffle edge facing an outlet conduit inlet, the baffle edge defining a curvature towards the outlet conduit inlet. 8. The crankcase ventilation system of claim 2 , wherein a baffle slit is defined in the baffle, the baffle slit dividing the baffle into a baffle first portion position proximate to a first end of the outlet conduit first portion that is proximate to the outlet conduit second portion, and a baffle second portion positioned distal from the outlet conduit first portion. 9. The crankcase ventilation system of claim 1 , wherein the baffle comprises a wedge extending from a backwall of the outlet conduit second portion towards an outlet conduit inlet, the wedge having one or more curved surfaces. 10. The crankcase ventilation system of claim 1 , wherein the swirl breaking structure comprises a mesh or a grid positioned at an outlet conduit inlet. 11. The crankcase ventilation system of claim 1 , wherein the swirl breaking structure comprises a plurality of plates positioned at an outlet conduit inlet such that axial ends of each of the plurality of plates are coupled to a rim of the outlet conduit inlet, the plurality of plates intersecting at midpoints thereof. 12. An outlet conduit for a housing of a rotating air/oil separator element, the outlet conduit comprising: an outlet conduit first portion having an outlet conduit inlet configured to be fluidly coupled to a housing outlet defined tangentially in a sidewall of the housing such that the outlet conduit first portion is axially aligned with the housing outlet, the outlet conduit first portion being configured to receive fluid expelled from the housing outlet; an outlet conduit second portion positioned downstream of the outlet conduit first portion, the outlet conduit second portion being perpendicular to the outlet conduit first portion; and a swirl breaking structure positioned in the outlet conduit second portion, the swirl breaking structure configured to disrupt swirling flow of the fluid into the outlet conduit so as to reduce a pressure drop experienced by the fluid as the fluid flows from the housing into the outlet conduit, the swirl breaking structure comprising a baffle positioned in the outlet conduit second portion, the baffle extending along an outlet conduit second portion longitudinal axis between a first end of the outlet conduit second portion and an outlet conduit outlet to define a baffle height, the first end of the outlet conduit second portion being proximate to the outlet conduit first portion. 13. The outlet conduit of claim 12 , wherein the baffle comprises a vertical plate positioned in the outlet conduit second portion. 14. The outlet conduit of claim 13 , wherein the baffle height is less than or equal to a height of the outlet conduit second portion. 15. The outlet conduit of claim 13 , wherein the baffle extends in a first direction along the baffle height and in a second direction from a backwall of the outlet conduit second portion towards the outlet conduit inlet so as to define a baffle length, the baffle length being less than or equal to a width of the outlet conduit second portion. 16. The outlet conduit of claim 13 , wherein the baffle extends from a backwall of the outlet conduit second portion at an angle with respect to a flow axis of the fluid entering the outlet conduit first portion towards the outlet conduit inlet. 17. The outlet conduit of claim 13 , wherein the baffle comprises a baffle edge facing the first end of the outlet conduit second portion proximate to the outlet conduit first portion, the baffle edge inclined at angle with respect to a flow axis of the fluid entering the outlet conduit inlet. 18. The outlet conduit of claim 13 , wherein the baffle comprises a baffle edge facing the outlet conduit inlet, the baffle edge defining a curvature towards the outlet conduit inlet. 19. The outlet conduit of claim 13 , wherein a baffle slit is defined in the baffle, the baffle slit dividing the baffle into a baffle first portion positioned proximate to a first end of the outlet conduit first portion that is proximate to the outlet conduit second portion, and a baffle second portion positioned distal from the outlet conduit first portion. 20. The outlet conduit of claim 12 , wherein the baffle comprises a wedge extending from a backwall of the outlet conduit second portion towards the outlet conduit inlet, the wedge having one or more curved surface. 21. The outlet conduit of claim 12 , wherein the swirl breaking structure comprises a mesh or a grid positioned at the outlet conduit inlet. 22. The outlet conduit of claim 12 , wherein the swirl breaking structure comprises a plurality of plates positioned at the outlet conduit inlet such that axial ends of each of the plurality of plates are coupled to a rim of the outlet conduit
Assignees
Inventors
Classifications
with a deflection device, e.g. screen · CPC title
by impingement against baffle separators · CPC title
generated by the winding course of the gas stream {, the centrifugal forces being generated solely or partly by mechanical means, e.g. fixed swirl vanes} · CPC title
Separating oil and gas with a centrifuge device · CPC title
- F01M13/04Primary
having means for purifying air before leaving crankcase, e.g. removing oil · CPC title
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Frequently asked questions
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- What does patent US11619152B2 cover?
- A crankcase ventilation system comprises a housing defining an internal volume structured to receive a. rotating air/oil separator element. The housing has a housing inlet structured to receive a fluid and a housing outlet defined tangentially in a sidewall of the housing which is structured to allow the fluid to exit the housing. An outlet conduit is fluidly coupled to housing outlet. The outl…
- Who is the assignee on this patent?
- Cummins Filtration Ip Inc
- What technology area does this patent fall under?
- Primary CPC classification F01M13/04. Mapped technology areas include Mechanical Engineering.
- When was this patent published?
- Publication date Tue Apr 04 2023 00:00:00 GMT+0000 (Coordinated Universal Time) (B2). Legal status and post-grant events are not shown on this page.
- What related patents are in patentsdb?
- We list 5 related publications on this page (citations in our corpus or others sharing the same primary CPC).