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A seal cartridge and a rotating nozzle assembly utilizing the seal cartridge are disclosed. The main seal member in the nozzle assembly is mounted as part of the seal cartridge. The seal cartridge is also easily removable from the rotating nozzle assembly without requiring the separate removal of th

A seal cartridge and a rotating nozzle assembly utilizing the seal cartridge are disclosed. The main seal member in the nozzle assembly is mounted as part of the seal cartridge. The seal cartridge is also easily removable from the rotating nozzle assembly without requiring the separate removal of the main seal member from the seal cartridge. This configuration allows a user to quickly install a new or rebuilt seal during an operation while minimizing or eliminating the necessity to manipulate small parts in the field.

대표청구항 ▼

1. A rotating nozzle assembly comprising: (a) a seal cartridge comprising: i. a mandrel having an exterior surface and defining an internal fluid path, the mandrel having an upstream end with a first cross-sectional diameter and a downstream end with a second cross-sectional diameter that is smaller

1. A rotating nozzle assembly comprising: (a) a seal cartridge comprising: i. a mandrel having an exterior surface and defining an internal fluid path, the mandrel having an upstream end with a first cross-sectional diameter and a downstream end with a second cross-sectional diameter that is smaller than the first cross-sectional diameter to allow pressurized fluid exposed to the mandrel to exert a positive pressure bias on the mandrel in a direction from the upstream end towards the downstream sealing end;ii. a retaining member disposed about the mandrel, the retaining member being constructed and arranged to removably connect the seal cartridge assembly to a rotating nozzle assembly, wherein the positive pressure bias exerted on the mandrel by pressurized fluid causes the mandrel to be axially displaced with respect to the retaining member in a direction towards the downstream sealing end to form a seal between the downstream sealing end and a continuously rotating nozzle shaft;iii. a main seal member disposed about and in direct contact with the exterior surface of the mandrel;iv. a backup bushing disposed about the mandrel, and disposed between the retaining member and the main seal member; at least a portion of the retaining member being directly adjacent the exterior surface of the mandrel and free of the backup bushing therebetween; andv. the entire seal cartridge assembly is constructed and arranged to be oriented within and removable from a rotating nozzle assembly with the retaining member, the main seal member and the backup bushing being retained on the mandrel when the seal cartridge is removed from the rotating nozzle assembly;vi. the nozzle assembly defining a continuous interior channel, wherein the mandrel upstream end and the mandrel downstream end are each exposed to the interior channel;(b) a seal cartridge housing directly connected to the seal cartridge via the retaining member of the seal cartridge;(c) a nozzle housing directly connected to the seal cartridge housing;(d) a nozzle shaft directly coupled to the mandrel of the seal cartridge; and(e) a rotating nozzle head directly coupled to the nozzle shaft. 2. The rotating nozzle assembly of claim 1, further comprising an upstream seal member oriented to form a seal about the exterior surface of the seal cartridge. 3. The rotating nozzle assembly of claim 2, wherein the upstream seal member is disposed about and in direct contact with the main seal member. 4. The rotating nozzle assembly of claim 1, further comprising a downstream seal member oriented to form a seal about the exterior surface of the seal cartridge. 5. The rotating nozzle assembly of claim 4, wherein the downstream seal member is disposed about and in direct contact with the mandrel. 6. The rotating nozzle assembly of claim 1, wherein the main seal member is formed from an elastomeric material. 7. The rotating nozzle assembly of claim 1, wherein the backup bushing is formed from a metal. 8. The rotating nozzle assembly of claim 1, wherein the main seal member has a downstream surface that slopes towards the exterior surface of the mandrel in a direction towards the downstream end of the mandrel and wherein the backup bushing has a sloped upstream surface that is in contact with the sloped downstream surface of the main seal member. 9. The rotating nozzle assembly of claim 1, further comprising a retainer constructed and arranged to secure the main seal member, the backup bushing and the retaining member onto the mandrel, the retainer being in direct contact with the mandrel. 10. The rotating nozzle assembly of claim 1, further comprising an engagement mechanism constructed and arranged to couple the mandrel of the seal cartridge assembly to a rotating shaft of the rotating nozzle assembly, wherein the engagement mechanism includes pins and the rotating shaft includes tabs constructed to engage the pins. 11. The rotating nozzle assembly of claim 1, wherein the nozzle shaft has a sealing surface against which the downstream end of the mandrel forms a seal. 12. The rotating nozzle assembly of claim 11, wherein the nozzle shaft sealing surface has a straight tapered shape, and the downstream end of the mandrel has a radiused shape. 13. The rotating nozzle assembly of claim 11, wherein the nozzle shaft sealing surface has a radiused shape, and the downstream end of the mandrel has a straight tapered shape. 14. The rotating nozzle assembly of claim 11, wherein the nozzle shaft sealing surface has a straight tapered shape, and the downstream end of the mandrel has a straight tapered shape. 15. The rotating nozzle assembly of claim 11, wherein the nozzle shaft sealing surface has a radiused shape, and the downstream end of the mandrel has a radiused shape. 16. A rotating nozzle assembly comprising: (a) a seal cartridge comprising: i. a mandrel having an exterior surface and defining an internal fluid path, the mandrel having an upstream end with a first cross-sectional diameter and a downstream end with a second cross-sectional diameter that is smaller than the first cross-sectional diameter to allow pressurized fluid exposed to the mandrel to exert a positive pressure bias on the mandrel in a direction from the upstream end towards the downstream sealing end;ii. a retaining member disposed about the mandrel, the retaining member being constructed and arranged to removably connect the seal cartridge assembly to a rotating nozzle assembly, wherein the positive pressure bias exerted on the mandrel by pressurized fluid causes the mandrel to be axially displaced with respect to the retaining member in a direction towards the downstream sealing end to form a seal between the downstream sealing end and a continuously rotating nozzle shaft;iii. a main seal member disposed about and in direct contact with the exterior surface of the mandrel;iv. a backup bushing disposed about the mandrel, and disposed between the retaining member and the main seal member; at least a portion of the retaining member being directly adjacent the exterior surface of the mandrel and free of the backup bushing therebetween; and(b) a seal cartridge housing directly connected to the seal cartridge via the retaining member of the seal cartridge;(c) a nozzle housing directly connected to the seal cartridge housing;(d) a nozzle shaft directly coupled to the mandrel of the seal cartridge; and(e) a rotating nozzle head directly coupled to the nozzle shaft; and(f) wherein the nozzle shaft has a sealing surface against which the downstream end of the mandrel forms a seal;(g) the nozzle assembly defining a continuous interior channel, wherein the mandrel upstream end and the mandrel downstream end are each exposed to the interior channel. 17. The rotating nozzle assembly of claim 16, wherein the nozzle shaft sealing surface has a straight tapered shape, and the downstream end of the mandrel has a radiused shape. 18. The rotating nozzle assembly of claim 16, wherein the nozzle shaft sealing surface has a radiused shape, and the downstream end of the mandrel has a straight tapered shape. 19. The rotating nozzle assembly of claim 16, wherein the nozzle shaft sealing surface has a straight tapered shape, and the downstream end of the mandrel has a straight tapered shape. 20. The rotating nozzle assembly of claim 16, wherein the nozzle shaft sealing surface has a radiused shape, and the downstream end of the mandrel has a radiused shape.