US2008014076A1PendingUtilityA1

Seal

47
Assignee: RODDIS ALAN JPriority: Jul 12, 2004Filed: Jul 12, 2005Published: Jan 17, 2008
Est. expiryJul 12, 2024(expired)· nominal 20-yr term from priority
F16J 15/164F16C 33/80F16J 15/4478F16J 15/447F16J 15/16
47
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Claims

Abstract

An isolator seal includes a stator member for placement into the stator of rotating equipment and a rotor member for placement onto a rotary shaft of the rotating equipment. The stator member and the rotor member provide respective adjacent surfaces, while a static shut-off device engages both adjacent surfaces when the rotor member is static and disengages one or more of the surfaces when the rotor member is dynamic. In one embodiment of the invention at least one of the surfaces is inclined to the longitudinal axis at an angle greater or less than 90°. In a further embodiment, the static shut-off device includes a resilient annular sealing member and an auxiliary member, which can move between a first position, when the rotor member is static, at which the auxiliary member compresses the resilient annular member into engagement with both surfaces, and a second position at which the compression on the resilient member is reduced, so that the resilient annular member disengages one or more of the rotor and stator surfaces when the rotor is dynamic.

Claims

exact text as granted — not AI-modified
1 - 22 . (canceled)  
   
   
       23 . An isolator seal comprising: 
 a stator member for placement into a stator of rotating equipment;    a rotor member for placement onto a rotary shaft of said rotating equipment, said stator member and said rotor member providing respective, adjacent surfaces; and,    a static shut-off device having a resilient annular sealing member engaging both said adjacent surfaces when said rotor member is static and disengages one or more of said rotor member and stator member surfaces when said rotor member is dynamic, wherein at least one of said surfaces is inclined to the longitudinal access at an angle greater or less than 90°.    
   
   
       24 . The isolator seal according to  claim 23 , wherein the inclination of said at least one of said surfaces to the longitudinal axis is between 5° and 175°.  
   
   
       25 . The isolator seal according to  claim 23 , wherein the inclination of at least one of said surfaces to the longitudinal axis is between 10° and 80° or between 100° and 120°.  
   
   
       26 . The isolated seal according to  claim 23 , wherein the inclination of said at least one of said surfaces to the longitudinal axis is from 30° to 60° or from 120° to 150°.  
   
   
       27 . The isolator seal according to  claim 23 , wherein the inclination of said at least one of said surfaces to the longitudinal axis is approximately 45°.  
   
   
       28 . The isolator seal, comprising: 
 a stator member for placement into a stator of rotating equipment;    a rotor member for placement onto a rotary shaft of rotating equipment, said stator member and said rotor member providing respective, adjacent surfaces; and,    a static shut-off device having a resilient annular sealing member and an auxiliary member, movable between a first position, when said rotor member is static, wherein said auxiliary member compresses said resilient annular sealing member into engagement with both said adjacent surfaces and a second position wherein compression on said resilient annular sealing member is reduced, whereby said resilient annular sealing member disengages one or more of said rotor member and stator member surfaces when said rotor member is dynamic.    
   
   
       29 . The isolator seal according to  claim 28 , wherein said resilient annular sealing member is toroidal.  
   
   
       30 . The isolator seal according to  claim 28 , further comprising a labyrinth seal formed between said rotor member and said stator member.  
   
   
       31 . The isolator seal according to  claim 28 , further comprising at least one bi-directional repelling pumping device.  
   
   
       32 . The isolator seal according to  claim 28 , wherein said adjacent surfaces of said rotor member and said stator member are both inclined to the longitudinal axis at an angle greater or less than 90°.  
   
   
       33 . The isolator seal according to  claim 28 , wherein said rotor and said stator member are axially separated, but constrained against relative axial movement by at least one radially extending member formed on one of said rotor member and said stator member.  
   
   
       34 . The isolator seal according to  claim 28 , wherein said rotor member and stator member are axially constrained by a plurality of radially extending members.  
   
   
       35 . The isolator seal according to  claim 28 , wherein said stator member has least one communication orifice extending between an inner surface of said stator member to an outer surface of said stator member.  
   
   
       36 . The isolator seal according to  claim 35 , wherein the communication orifice is adjacent to a radially extending member provided on said rotor member.  
   
   
       37 . The isolator seal according to  claim 35 , wherein said inner surface of said stator member is substantially eccentric to said rotor member or, when in use, said rotary shaft.  
   
   
       38 . The isolator seal according to  claim 35 , wherein the communication orifice is positioned, in use, at a lowest radial point on said isolator seal.  
   
   
       39 . The isolator seal according to  claim 28 , wherein said stator member has a radially inward extending groove on its outermost surface and a substantially eccentric innermost surface, said radially extending groove extending to a radially most outward point of said innermost surface, thereby creating a communication orifice connecting said innermost surface and said outermost surface of said stator member.  
   
   
       40 . The isolated seal according to  claim 28 , wherein said adjacent surfaces together form a “V” shape.  
   
   
       41 . The isolator seal according to  claim 40 , wherein said resilient annular sealing member rests within said “V” shape at a radial position greater than a nominal radial position of the resilient annular sealing member in its free state.  
   
   
       42 . The isolator seal according to  claim 28 , wherein said rotor member includes a plurality of repelling pumping devices axially separated from one another.

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