Connector assembly

What is claimed is: 1. A connector system comprising: a first connector assembly having a first mating end and a first non-mating end comprising: a first housing; a first central member disposed within the first housing; and a first sleeve disposed between the first central member and the first housing; wherein the first sleeve is slidably coupled to the first housing, the first sleeve slidable along an axial direction relative to the first central member; and a second connector assembly having a second mating end and a second non-mating end, the second mating end configured to engage the first mating end without a compressible portion being in contact with a surface of either the first mating end or the second mating end, the connector assembly comprising: a second housing; a second central member disposed within the second housing; and a second sleeve disposed between the second central member and the second housing; wherein the second sleeve is slidably coupled to the second housing, the second sleeve slidable along the axial direction; wherein the connector system, when in a connected state, comprises the first connector assembly coupled to the second connector assembly, which forms a flow channel defined by at least (1) a first sloped surface on the first sleeve, (2) a first sloped surface on the first central member, (3) a second sloped surface on the second sleeve, and (4) a second sloped surface on the second central member; and wherein the connector system, when in a disconnected state, comprises the first connector assembly separated from the second connector assembly, the first and second sleeves close the first and second flow channels, respectively. 2. The connector system of claim 1 , wherein the first sloped surface on the first sleeve is part of a conical surface on the first sleeve, the first sloped surface on the first central member is a part of a conical surface on the first central member, the second sloped surface on the second sleeve is part of a conical surface on the second sleeve, and the second sloped surface on the second central member is a part of a conical surface on the second central member. 3. The connector system of claim 2 , wherein the conical surface of the first central member has a narrow end toward the first non-mating end of the first connector assembly and a wide end toward the first mating end of the first connector assembly, and wherein the conical surface of the second central member has a narrow end toward the second non-mating end of the second connector assembly and a wide end toward the second mating end of the second connector assembly, such that the mating ends of the first and second connector assemblies are facing one another. 4. The connector system of claim 1 , wherein the first sloped surface and the second sloped surface are asymmetrical and form a tear drop shape. 5. A method of connecting a first connector assembly with a second connector assembly comprising: orienting a first mating end of the first connector assembly toward a second mating end of the second connector assembly; applying a first pressure against the first connector assembly and the second connector assembly toward one another; contacting a first sleeve of the first connector assembly with a second sleeve of the second connector assembly, wherein the first pressure is greater than a second pressure applied by a first spring against the first sleeve and a second spring against the second sleeve; and coupling a first housing of the first connector assembly with a second housing of the second connector assembly by engaging the first mating end and the second mating end without a compressible portion being in contact with a surface of either the first mating end or the second mating end to form a flow channel that extends across the entire connector system. 6. The method of claim 5 , wherein coupling the first housing with the second housing is performed by further applying the first pressure against the first connector assembly and the second connector assembly to insert the second connector assembly into the first connector assembly. 7. The method of claim 5 , wherein coupling the first housing with the second housing moves the first sleeve and the second sleeve from a closed position to an open position. 8. The method of claim 7 , wherein, in the closed position, the first sleeve contacts a first central member of the first connector assembly, and the second sleeve contacts a second central member of the second connector assembly. 9. The method of claim 7 , wherein, in the open position, the first sleeve is separated from a first central member, and the second sleeve is separated from a second central member. 10. The method of claim 9 , wherein the flow channel surrounds the first central member and the second central member.