A labyrinth seal including a stator and a non-contacting rotor, and annular elastomeric seals. The confronting surfaces of the stator and rotor define at least one interface passage, including a radially-outermost annular interface passage between an annular, outermost, radially-extending projection
A labyrinth seal including a stator and a non-contacting rotor, and annular elastomeric seals. The confronting surfaces of the stator and rotor define at least one interface passage, including a radially-outermost annular interface passage between an annular, outermost, radially-extending projection of the stator and an annular rearwardly-extending distal projection of the rotor that overlaps the radially-extending projection of the stator, the radially-outermost annular interface passage tapering outwardly and rearwardly at an acute angle relative to an axial reference line. The annular elastomeric seals are stationary with the stator during dynamic operation of the rotor, and are not contacted by a surface of the rotor during dynamic operation. The interface can also have two radially-disposed exclusion chambers, the outer exclusion chamber being defined in part by a radially-inboard projection of the rotor. The stator can have a projection providing a contact avoidance interface position inboard of at least two contaminant-excluding interfaces.
대표청구항▼
1. A labyrinth seal including a stator and a non-contacting rotor, and including at least one annular elastomeric seal, and at least one interface passage disposed between the confronting surfaces of the stator and rotor, the at least one interface passage including a radially-outermost annular inte
1. A labyrinth seal including a stator and a non-contacting rotor, and including at least one annular elastomeric seal, and at least one interface passage disposed between the confronting surfaces of the stator and rotor, the at least one interface passage including a radially-outermost annular interface passage between an annular, outermost, radially-extending projection of the stator and an annular rearwardly-extending distal projection of the rotor that includes an annular inner surface that overlaps the radially-extending projection of the stator, the radially-outermost annular interface passage tapering outwardly and rearwardly at an acute angle relative to an axial reference line; wherein the confronting surfaces of the stator and rotor define two radially-disposed exclusion chambers including a radially-outside exclusion chamber and a radially-inside exclusion chamber,the radially-outside exclusion chamber defined by a first radially-extending annular surface of the rotor, a first radially-extending annular surface of the stator spaced axially from the first radially-extending annular surface of the rotor, the annular rearwardly-extending distal projection of the rotor, and an annular rearwardly-extending, radially-inboard intermediate projection of the rotor, andthe radially-inside exclusion chamber defined in part by the first radially-extending annular surface of the rotor and an annular intermediate projection of the stator disposed radially inwardly from the intermediate projection of the rotor. 2. The labyrinth seal according to claim 1 wherein the acute angle is at least 2°, and up to 15°. 3. The labyrinth seal according to claim 1, wherein the at least one annular elastomeric seal is disposed between, and in an intermediate portion of the interface passage between, the confronting surfaces of the stator and rotor, is stationary with the stator during dynamic operation of the rotor, and is not contacted by a surface of the rotor during dynamic operation. 4. The labyrinth seal according to claim 1 further including a contact avoidance interface disposed in an intermediate portion of the interface passage between the stator and the rotor, that is inboard of at least two contaminant-excluding interfaces and at least one lubricant-excluding interface, that provides a first interface of contact between the confronting surfaces of the stator and rotor in the event the rotor moves axially toward the stator during dynamic operation of the seal. 5. The labyrinth seal according to claim 4 wherein the contact avoidance interface comprises an end of an axial projection of the stator. 6. The labyrinth seal according to claim 1 wherein the stator has a lubricant collecting groove having a tapered surface that improves the flow of lubricant through a drain in the bottom of the stator. 7. A labyrinth seal including a stator and a non-contacting rotor, and including at least one annular elastomeric seal that is disposed between, and in an intermediate portion of an interface passage between, a surface of the stator and a confronting surface of the rotor, where the least one annular elastomeric seal is stationary with the stator during dynamic operation of the rotor, and is not contacted by a surface of the rotor during dynamic operation, and wherein the confronting surfaces of the stator and rotor diet define two radially-disposed exclusion chambers including a radially-outer exclusion chamber and a radially-inner exclusion chamber; where the radially-outside exclusion chamber is defined by a first radially-extending annular surface of the rotor, a first radially-extending annular surface of the stator spaced axially from the first radially-extending annular surface of the rotor, an annular rearwardly-extending distal projection of the rotor, and a rearwardly-extending, radially-inboard intermediate projection of the rotor;wherein the radially-inside exclusion chamber defined in part by the first radially-extending annular surface of the rotor and an annular intermediate projection of the stator disposed radially inwardly from the intermediate projection of the rotor; andwhere the stator further includes an annular radially-extending projection having an annular frustoconically-shaped surface, andthe inner annular surface of the rearwardly-extending distal projection of the rotor has an annular frustoconically-shaped inner surface that overlaps the radially-extending projection of the stator to define therebetween an annular interface passage that tapers outwardly and rearwardly at an acute angle relative to an axial reference line of at least 2°, and up to 15°, that is a radially-outermost portion of the interface passage that is an entry point into the labyrinth seal between a distal edge of the rotor and the stator. 8. The labyrinth seal according to claim 7, further including a contact avoidance interface disposed in an intermediate portion of the labyrinth pathway between the stator and the rotor, that is inboard of at least two contaminant-excluding interfaces and at least one lubricant-excluding interface, that provides a first interface of contact between the confronting surfaces of the stator and rotor in the event the rotor moves axially toward the stator during dynamic operation of the seal, and preferably wherein the contact avoidance interface comprises an axial projection of the stator. 9. The labyrinth seal according to claim 7, wherein the stator has a lubricant collecting groove having a tapered surface that improves the flow of lubricant through a drain in the bottom of the stator. 10. The labyrinth seal according to claim 1 wherein radially-outermost annular interface passage is an entry point into the labyrinth seal between a distal edge of the rotor and the stator. 11. The labyrinth seal according to claim 1 where a virtual radial plane perpendicular to the axial reference line passes through a portion of both the radially-outside exclusion chamber and the radially-inside exclusion chamber. 12. The labyrinth seal according to claim 2 where the acute angle is at least 3°, and up to 5°. 13. The labyrinth seal according to claim 1 where the annular inner surface of the distal projection of the rotor faces radially inwardly. 14. The labyrinth seal according to claim 1 where the stator includes an annular shoulder rearward of the annular radially-extending projection that defines an annular channel, where the annular channel is defined between the annular radially-extending projection and a housing, and assists in running off of a contaminant liquid away from an entrance into the labyrinth seal when the stator is inserted axially into a receiving bore of the housing. 15. A labyrinth seal including a stator configured to insert into a cylindrical bore in a housing of an equipment, and rotor configured to attach to a rotating shaft of the equipment, the labyrinth seal including at least one annular elastomeric seal, and at least one interface passage disposed between the confronting surfaces of the stator and rotor, the at least one interface passage including a radially-outermost annular interface passage between an annular, outermost, radially-extending projection of the stator and an annular rearwardly-extending distal projection of the rotor that includes an annular inner surface that overlaps the radially-extending projection of the stator; where the confronting surfaces of the stator and rotor define two radially-disposed exclusion chambers including a radially-outside exclusion chamber and a radially-inside exclusion chamber,the radially-outside exclusion chamber defined by a first radially-extending annular surface of the rotor, a first radially-extending annular surface of the stator spaced axially from the first radially-extending annular surface of the rotor, the annular rearwardly-extending distal projection of the rotor, and an annular rearwardly-extending, radially-inboard intermediate projection of the rotor, andthe radially-inside exclusion chamber defined in part by the first radially-extending annular surface of the rotor and an annular intermediate projection of the stator disposed radially inwardly from the intermediate projection of the rotor, andwhere the stator includes an annular shoulder rearward of the annular radially-extending projection that defines an annular channel, where the annular channel is defined between the annular radially-extending projection and a housing, and assists in running off of a contaminant liquid away from an entrance into the labyrinth sea when the stator is inserted axially into a cylindrical bore of the housing. 16. The labyrinth seal according to claim 15, wherein the at least one annular elastomeric seal is disposed between, and in an intermediate portion of the interface passage between, the confronting surfaces of the stator and rotor, is stationary with the stator during dynamic operation of the rotor, and is not contacted by a surface of the rotor during dynamic operation. 17. The labyrinth seal according to claim 15, where a virtual radial plane perpendicular to the axial reference line passes through a portion of both the radially-outside exclusion chamber and the radially-inside exclusion chamber. 18. The labyrinth seal according to claim 1, wherein the two radially-disposed exclusion chambers are in fluid communication with a drain in the bottom of the stator. 19. The labyrinth seal according to claim 1, wherein radially-outside exclusion chamber is further defined by the annular rearwardly-extending distal projection of the rotor. 20. The labyrinth seal according to claim 7, wherein the two radially-disposed exclusion chambers are in fluid communication with a drain in the bottom of the stator.
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이 특허에 인용된 특허 (67)
Orlowski, David C.; Tejano, Robert A., Adapter plate.
Orlowski David C. (190110 Sixth Ave. West Milan IL 61264) Church Brooks D. (326 W. Caley Dr. Littleton CO 80120), Multi-stage continuous system for production of heteropolysaccharides.
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