A quick connect/disconnect (QCD) system includes a first component and a second component. The first component includes a first body defining a first fluid channel extending between a first end portion and a second end portion and defining a longitudinal axis, a first QCD coupling portion located at
A quick connect/disconnect (QCD) system includes a first component and a second component. The first component includes a first body defining a first fluid channel extending between a first end portion and a second end portion and defining a longitudinal axis, a first QCD coupling portion located at the first end portion, a first adaptor coupling portion located at the second end portion, and a first mating portion of a mating assembly operably connected to the first body. The second component includes a second body defining a second fluid channel extending between a third end portion and a fourth end portion, a first threaded coupling portion located at the third end portion, a second adaptor coupling portion between the third end portion and the fourth end portion, and a second mating portion of the mating assembly operably connected to the second body.
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1. A quick connect/disconnect (QCD) system comprising: a first component including a first body defining a first fluid channel extending between a first end and a second end and defining a longitudinal axis,a first QCD coupling located at the first end,a first adaptor coupling located at the second
1. A quick connect/disconnect (QCD) system comprising: a first component including a first body defining a first fluid channel extending between a first end and a second end and defining a longitudinal axis,a first QCD coupling located at the first end,a first adaptor coupling located at the second end, anda first mating feature of a mating assembly operably connected to the first body and including a rotating ring assembly; anda second component including a second body defining a second fluid channel extending between an externally threaded third end and a fourth end,a second adaptor coupling located between the third end and the fourth end,a second mating feature of the mating assembly operably connected to the second body and including at least one locking tab, anda cavity defined radially between the second mating feature and the third end,wherein the mating assembly is configured such that when the first mating feature and the second mating feature are mated, the first adaptor coupling is received in the cavity and the externally threaded third end is between the first end and the second end and not in threaded engagement with the first component. 2. The QCD system of claim 1, wherein: the first adaptor coupling includes a first alignment feature; andthe second adaptor coupling includes a second alignment feature configured to engage the first alignment feature by axial movement of the second component along the longitudinal axis thereby rotationally fixing the first component with respect to the second component. 3. The QCD system of claim 2, wherein: the first alignment feature defines an octagonal inside surface; andthe second alignment feature defines a complementary octagonal periphery. 4. The QCD system of claim 2, wherein: the rotating ring includes (i) at least one first rotational stop configured to abut the at least one locking tab and to stop rotational movement of the rotating ring in a first direction, and (ii) at least one second rotational stop configured to abut the at least one locking tab and to stop rotational movement of the rotating ring in an opposite second direction; andthe at least one first rotational stop is circumferentially displaced from the at least one second rotational stop. 5. The QCD system of claim 1, wherein the first component further includes: a first o-ring supported by the first body and configured to seal against an outer periphery of the second body; anda second o-ring supported by the first body and axially displaced from the first o-ring, the second o-ring configured to seal against the outer periphery of the second body. 6. The QCD system of claim 1, further comprising: a second threaded coupling located at the fourth end. 7. The QCD system of claim 1, further comprising a third component, the third component including: a third body defining a third fluid channel extending between a fifth end and a sixth end;a second QCD coupling located at the fifth end; anda second threaded coupling located at the sixth end and configured for threaded engagement to the first threaded coupling. 8. The QCD system of claim 1, wherein the rotating ring further includes: a first axial stop configured to abut the at least one locking tab and to stop axial movement of the first component in a first direction along the longitudinal axis; anda second axial stop configured to abut the at least one locking tab and to stop axial movement of the first component in an opposite second direction. 9. The QCD system of claim 8, wherein the first rotational stop and the second rotational stop extend from the first axial stop. 10. The QCD system of claim 1, wherein the first QCD coupling is a female coupling including a helical groove on an external surface. 11. The QCD system of claim 1, wherein the first QCD coupling includes an open end and a sealing member positioned within the open end. 12. The QCD system of claim 11, wherein a spacer is positioned between the first end and the sealing member. 13. The QCD system of claim 12, wherein an o-ring is positioned between the first end and the spacer. 14. The QCD system of claim 11, wherein the sealing member includes a supporting structure located within the sealing member. 15. The QCD system of claim 1, wherein the rotating ring assembly is coupled to and rotatable relative to the first body. 16. The QCD system of claim 15, wherein the rotating ring assembly is coupled to the first body via a retaining clip. 17. The QCD system of claim 1, wherein the first adaptor coupling includes a sealing member structured to seal against the second body. 18. The QCD system of claim 1, further comprising a water seal positioned in the second fluid channel and extending substantially to the third end. 19. The QCD system of claim 1, wherein the rotating ring assembly includes a grip portion. 20. The QCD system of claim 19, wherein the grip portion is an overmold.
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이 특허에 인용된 특허 (41)
Faughn Jim A. (Bel Air MD), Air distribution connector valve.
Brown Peter W. (North Muskegon MI) DuBois Chester G. (Zion IL) Hartke David J. (Waukegan IL) Hunt Paul R. (Lindenhurst IL), Quick disconnect fluid line coupling.
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