Slit-free safe disconnect

What is claimed is: 1. A coupler assembly comprising: a first connector having an outer surface, a first end and a first fluid pathway; a second connector having an exterior rim, a second end and a second fluid pathway; and a ring having a first portion and an axially offset second portion, the first portion being configured to be coupled to the outer surface of the first connector, and the second portion having a plurality of arms extending axially away from the first portion, wherein, when the ring is coupled to the first connector from the first end of the first connector, and when the first end of the first connector and the second end of the second connector are coupled together such that the first fluid pathway is in fluid communication with the second fluid pathway, the plurality of arms are configured to detachably engage the exterior rim of the second end of the second connector to secure the coupling of the first and second connectors. 2. The coupler assembly of claim 1 , wherein each of the plurality of arms includes connecting portions which engage with an indentation in the exterior rim of the second end of the second connector. 3. The coupler assembly of claim 1 , wherein the ring is configured to detach the first connector and the second connector upon a separating force exceeding a predetermined threshold force. 4. The coupler assembly of claim 3 , wherein the plurality of arms and the exterior rim of the second connector are configured to detach upon a decoupling force exceeding a predetermined decoupling force. 5. The coupler assembly of claim 3 , wherein the ring and the first connector are configured to detach upon a decoupling force exceeding a predetermined decoupling force. 6. The coupler assembly of claim 3 , wherein the separating force is applied axially along the first connector and the second connector. 7. The coupler assembly of claim 3 , wherein the separating force is a resultant axial force along the coupled first connector and second connector. 8. The coupler assembly of claim 1 , wherein the outer surface comprises an alignment detent, and the ring comprises an alignment tab, wherein the alignment tab is configured to be received by the alignment detent when the ring is coupled to the outer surface of the first connector. 9. The coupler assembly of claim 1 , wherein the plurality of arms is configured to detachably engage, via an interference fit, the exterior rim of the second connector. 10. The coupler assembly of claim 1 , wherein the first connector comprises an exterior portion and the second connector comprises an interior chamber such that the exterior portion of the first connector fits within the interior chamber of the second connector to provide fluid communication between the first and second fluid pathways. 11. A method of coupling two connectors comprising: providing a first connector of the two connectors with a first end and a second end opposite the first end; providing a second connector of the two connectors with an exterior rim and having a third end and a fourth end opposite the third end; sliding a ring having a plurality of arms around the first end of the first connector; detachably connecting the ring to the first connector via a detent on the first connector and an engagement means on the ring; detachably connecting the ring to the second connector via the plurality of arms engaging with the exterior rim of the third end of the second connector; and coupling the second end of the first connector with the third end of the second connector to form a fluid pathway between the coupled first and second connectors. 12. The method of claim 11 , further comprising detaching the first connector and the second connector with an application of a force exceeding a predetermined threshold force. 13. The method of claim 12 , wherein the detaching the first connector and the second connector creates a break in the fluid pathway. 14. A coupling assembly, comprising: a first connector, including: a first connector body having a first inlet and a first outlet in fluid communication with the first inlet; and a collar sleeved past the first inlet and over the first connector body between the first inlet and the first outlet, the collar comprising a collar body including a plurality of arms extending outward circumferentially from the collar body; and a second connector, including: a second connector body comprising a first end and a second end in fluid communication with the first end; wherein the collar body connects to an outer surface of the first connector via a friction or interference fit; and wherein the plurality of arms of the collar connects to an outer surface of the first end of the second connector via a friction or interference fit when the first end of the second connector is coupled to the first outlet of the first connector. 15. The coupling assembly of claim 14 , wherein the plurality of arms of the collar further comprises an interior ridge that connect to an exterior rim of the second connector to form the friction or interference fit. 16. The coupling assembly of claim 15 , wherein the interior ridge of the plurality of arms of the collar disengages from the exterior rim of the second connector upon an application of a force exceeding a predetermined threshold force. 17. The coupling assembly of claim 16 , wherein the force exceeding the predetermined threshold force is applied such that the first connector is pulled away from the second connector. 18. The coupling assembly of claim 16 , wherein a fluid flow exists between the first connector and the second connector when they are connected by the collar, and wherein the fluid flow is stopped by a self-sealing arrangement when the first connector and the second connector are disengaged. 19. The coupling assembly of claim 14 , wherein the first connector is coupled to a first tubing line at the first inlet, and the second connector is coupled to a second tubing line at the second end.