Rotating union
First Claim
Patent Images
1. A rotating union (10) having an input end and an output end relative to a fluid flow direction (D) therethrough, comprising:
- a housing (12), the housing having an input end (22) and an output end (24) relative to the fluid flow direction, the housing having;
a mounting structure (12) for mounting the housing to a support;
a housing cylindrical recess (32) defined in the housing, the housing cylindrical recess opening at the input end of the housing and extending axially along the interior of the housing to terminate at an end face (34) adjacent the output end of the housing, anda bore (40) defined through the end face of the housing at the output end thereof so that the bore is co-axial with the cylindrical recess and communicates therewith;
wherein the bore has a diameter DHB and the housing cylindrical recess has a diameter DHCR that is larger than the bore diameter DHB so that the housing cylindrical recess and the bore cooperate to define an interior surface of the end face as a housing annular shoulder (42) between the bore and the housing cylindrical recess;
a cylindrical low-friction bushing (14) received within the housing cylindrical recess, the bushing having an input end (48) and an output end (49) relative to the fluid flow direction and having a co-axial bushing recess (50) defined therein, the bushing recess comprising a cylindrical input end portion (52) having a first diameter DB1 and a cylindrical output end portion (54) having a second diameter DB2, with DB1 being larger than DB2 so as to define a bushing annular shoulder (56) between the input end portion and the output end portion of the bushing recess, the bushing having an output end surface (59) abutting the housing annular shoulder;
a fluid conduit (16) having an input end (70) and an output end (72) relative to the fluid flow direction and passing through the bushing and the bore in rotatable engagement therewith, wherein;
the output end of the fluid conduit is downstream of the bore, relative to the fluid flow direction;
the fluid conduit is supported by the bushing so as to be rotatable within the bushing; and
the fluid conduit has an external shoulder (78) defined part-way along its axial length which engages the bushing annular shoulder;
an annular seal (18) having an input side (96) and an output side (94) relative to the fluid flow direction, the annular seal being received within the housing cylindrical recess at the input end thereof and having its output side (94) engaging an input end surface (58) of the bushing, an inner annular engagement surface (90) of the annular seal sealingly engaging a cylindrical outer surface (80) of an input portion (74) of the fluid conduit and an outer annular engagement surface (92) of the annular seal sealingly engaging a cylindrical wall (46) of the housing cylindrical recess at the input end thereof; and
a cap (20) having an input side (100) and an output side (102) relative to the fluid flow direction, the cap having;
a circular recess (104) defined in the output side of the cap for receiving the input end of the fluid conduit in rotatable engagement therewith;
an annular projection (106) surrounding the circular recess and having an outer diameter DAP corresponding to a diameter DHCR of the housing cylindrical recess, an engagement surface (108) of the annular projection sealingly engaging the input side (96) of the annular seal;
wherein the input side of the cap is adapted to be coupled to a fluid source so that fluid can flow, via the cap, into the circular recess and into the input end of the fluid conduit, and the cap is removably and non-rotatably secured to the input end of the housing so as to maintain respective axial positions of the annular seal, cylindrical bushing and fluid conduit inside the housing;
whereby when the fluid conduit rotates within the bushing, the cylindrical outer surface of the input portion of the fluid conduit rotates under friction against the inner annular engagement surface of the annular seal so that sealing engagement therebetween is maintained.
3 Assignments
0 Petitions
Accused Products
Abstract
A rotating union (10) comprises a housing (12), a bushing (14), a fluid conduit (16), an annular seal (18) and a cap (20) secured to the housing and having a fluid inlet. The bushing is received within a cylindrical recess (32) in the housing, and the fluid conduit is rotatably received by the bushing and passes through the bushing and a bore (40) in the housing. The annular seal is received within the housing recess, and sealingly engages a cylindrical outer surface (80) of the fluid conduit and the cylindrical wall (46) of the housing recess. The cap has a circular recess (104) and surrounding annular projection (106) which receives the input end of the fluid conduit. The annular seal is sandwiched between the bushing and the annular projection. When the fluid conduit rotates, its outer surface rotates under friction against the annular seal to maintain the seal.
14 Citations
11 Claims
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1. A rotating union (10) having an input end and an output end relative to a fluid flow direction (D) therethrough, comprising:
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a housing (12), the housing having an input end (22) and an output end (24) relative to the fluid flow direction, the housing having; a mounting structure (12) for mounting the housing to a support; a housing cylindrical recess (32) defined in the housing, the housing cylindrical recess opening at the input end of the housing and extending axially along the interior of the housing to terminate at an end face (34) adjacent the output end of the housing, and a bore (40) defined through the end face of the housing at the output end thereof so that the bore is co-axial with the cylindrical recess and communicates therewith; wherein the bore has a diameter DHB and the housing cylindrical recess has a diameter DHCR that is larger than the bore diameter DHB so that the housing cylindrical recess and the bore cooperate to define an interior surface of the end face as a housing annular shoulder (42) between the bore and the housing cylindrical recess; a cylindrical low-friction bushing (14) received within the housing cylindrical recess, the bushing having an input end (48) and an output end (49) relative to the fluid flow direction and having a co-axial bushing recess (50) defined therein, the bushing recess comprising a cylindrical input end portion (52) having a first diameter DB1 and a cylindrical output end portion (54) having a second diameter DB2, with DB1 being larger than DB2 so as to define a bushing annular shoulder (56) between the input end portion and the output end portion of the bushing recess, the bushing having an output end surface (59) abutting the housing annular shoulder; a fluid conduit (16) having an input end (70) and an output end (72) relative to the fluid flow direction and passing through the bushing and the bore in rotatable engagement therewith, wherein; the output end of the fluid conduit is downstream of the bore, relative to the fluid flow direction; the fluid conduit is supported by the bushing so as to be rotatable within the bushing; and the fluid conduit has an external shoulder (78) defined part-way along its axial length which engages the bushing annular shoulder; an annular seal (18) having an input side (96) and an output side (94) relative to the fluid flow direction, the annular seal being received within the housing cylindrical recess at the input end thereof and having its output side (94) engaging an input end surface (58) of the bushing, an inner annular engagement surface (90) of the annular seal sealingly engaging a cylindrical outer surface (80) of an input portion (74) of the fluid conduit and an outer annular engagement surface (92) of the annular seal sealingly engaging a cylindrical wall (46) of the housing cylindrical recess at the input end thereof; and a cap (20) having an input side (100) and an output side (102) relative to the fluid flow direction, the cap having; a circular recess (104) defined in the output side of the cap for receiving the input end of the fluid conduit in rotatable engagement therewith; an annular projection (106) surrounding the circular recess and having an outer diameter DAP corresponding to a diameter DHCR of the housing cylindrical recess, an engagement surface (108) of the annular projection sealingly engaging the input side (96) of the annular seal; wherein the input side of the cap is adapted to be coupled to a fluid source so that fluid can flow, via the cap, into the circular recess and into the input end of the fluid conduit, and the cap is removably and non-rotatably secured to the input end of the housing so as to maintain respective axial positions of the annular seal, cylindrical bushing and fluid conduit inside the housing; whereby when the fluid conduit rotates within the bushing, the cylindrical outer surface of the input portion of the fluid conduit rotates under friction against the inner annular engagement surface of the annular seal so that sealing engagement therebetween is maintained. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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Specification
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Current AssigneeNova Scotia Community College (Nova Scotia, Province Of), Vertical Circuits LLC
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Original AssigneeNova Scotia Community College (Nova Scotia, Province Of)
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InventorsBolivar, Daniel Mark, Allen, Peter Foster, Doyle, Michael Ray
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Primary Examiner(s)Dunwoody, Aaron
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Assistant Examiner(s)KEE, FANNIE C
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Application NumberUS12/368,870Publication NumberTime in Patent Office1,197 DaysField of Search285/98, 285/121.3, 285/121.6, 285/190, 285201-204, 285/272, 285/272.1, 285/273, 285/275, 285/278, 285/345, 285/901, 285/912US Class Current285/272CPC Class CodesF16L 27/0816 having radial sealingY10S 285/901 Cap closures
