Patent ID: 8939470
Filing Date: 2015-01-27
Classification: F16L

Abstract:
1. A fluid coupling assembly comprising: a connector body defining a bore extending axially from an entrance opening defined by a radially inward extending rim having an axial cylindrical surface, said bore having a retainer receiving portion adjacent said rim and a sealing member receiving portion forward of said retainer receiving portion and a tube receiving portion forward of said seal member receiving portion; a retainer releasably secured to said rim of said connector body, said retainer including a plurality of axially extending radially deflectable locking arms in said retainer receiving portion of said bore, each said locking arm including a rearward abutment surface and a forward abutment surface, said rear abutment surfaces in abutting contact with said rim; a hollow tube, removably received within said bore having a cylindrical surface extending from a free end of said tube disposed in said tube receiving portion and a radially outwardly directed upset spaced from said free end, said forward abutment surface of each of said locking arms in abutting contact with said upset; wherein said retainer includes a cylindrical ring having an outer cylindrical surface and an inner cylindrical surface, a diameter of said outer cylindrical surface being smaller than a diameter of said axial cylindrical surface of said rim, said rim of said connector body is disposed radially outward of said cylindrical ring, and said locking arms extend from said cylindrical ring into said retainer receiving portion, said locking arms include side faces defining slots said slots having end surfaces on said retainer defining a rearward terminus of said slots; wherein said cylindrical ring of said retainer includes a plurality of radial protrusions defining a channel with said rearward abutment surfaces of said locking arms and said rim is disposed in said channel; and wherein said cylindrical ring of said retainer defines a rearwardly directed guide element intermediate each said protrusion, each said guide element is defined by two angled rearwardly converging surfaces that meet at a separate apex intermediate adjacent protrusions; an insertion verifier, said insertion verifier includes a ring disposed outward of said upset and four forwardly extending legs extending from said ring of said insertion verifier, each of said four legs having radially directed axially extending sidewalls and a distal end, each of said four legs disposed in a respective one of said slots defined by said side faces of said locking arms, two of said four legs two of said legs including a radially outward directed pad defining a forwardly directed guide defined by two angled guide surfaces rearward of said distal end of each of said to leg converging forwardly and meeting at an apex midway between said sidewalls of each of said two legs to engage said angled rearwardly converging surfaces of said rearwardly directed guide elements of said cylindrical ring of said retainer; wherein each said radially outwardly directed pad is disposed in a respective one of said slots defined by said side faces of said locking arms, is spaced from the distal end of each of said two legs toward said ring of said insertion verifier, and has a rearward end defining a latching surface releasably engaging the rearward terminus of one of said slots, and wherein another two of said four legs of said insertion verifier each having a radially extending block extending from the distal end of each of said another two legs toward said ring of said insertion verifier, each said block disposed in a respective one of said slots defined by said side faces of said locking arms; wherein each of said four legs fill a respective one of said slots and prevent collapse of said locking arms of said retainer toward said cylindrical surface of said tube.