Waterproof fiber optic adapter assembly for sealing a fiber optic connector against moisture ingress

What is claimed is: 1. An optical fiber connector assembly comprising: a connector comprising a plug frame and a ferrule received in the plug frame, the connector extending along an axis from a distal end portion to a proximal end portion defining an edged tip; the ferrule is received within a bore of an alignment sleeve; a sleeve seal extending along the axis from a distal end portion to a proximal end portion, the sleeve seal having an inner surface and outer surface that each extend along the axis from the distal end portion to the proximal end portion, at least a portion of the outer surface of the sleeve seal defining a tapered region that tapers radially inwardly as it extends along the axis toward the distal end portion of the sleeve seal; the connector has a substantially circumferential opening between the ferrule and plug frame allowing a portion of the sleeve seal to be received within the substantially circumferential opening; the alignment sleeve has a cut-out for securing the sleeve seal on the alignment sleeve, and wherein the connector is configured such that the edged tip presses axially against the tapered region of the sleeve seal and thereby compresses the sleeve seal and provides a seal against moisture and debris. 2. The optical fiber connector assembly according to claim 1 , wherein the sleeve seal is received within the cut-out and against a flange of an adapter. 3. The optical fiber connector assembly according to claim 2 , wherein a rubber seal is positioned between the adapter flange and a panel for preventing moisture and debris passing from a first side of the panel to a second side of the panel. 4. The optical fiber connector assembly according to claim 2 , wherein the sleeve seal substantially reduces moisture and debris passing from a first receptacle into a second receptacle. 5. The fiber optic connector assembly of claim 2 , wherein the adapter is selected from a group comprising a SC adapter, a LC adapter, a MPO adapter, a CS adapter and a SN adapter. 6. The optical fiber connector assembly according to claim 1 , wherein the connector further comprises a back-body and crimp ring, the back-body and crimp ring are sealed with a heat shrinkage material against moisture and debris ingress at a distal end of the connector. 7. The optical fiber connector assembly according to claim 6 , wherein the connector further comprises a boot, the boot is configured to be secured over the heat shrinkage material thereby further sealing the distal end of the connector from moisture and debris ingress. 8. The fiber optic connector assembly according of claim 7 , wherein a portion of heat shrinkable material is position over the boot and heat shrinkable material thereby sealing the distal end of the connector from moisture and debris ingress. 9. The fiber optic connector assembly of claim 6 , wherein a rubber washer seal is positioned between the back body and plug frame thereby sealing the distal end of the connector from moisture and debris ingress. 10. The fiber optic connector assembly of claim 9 , wherein a portion of heat shrinkable material is positioned over the back body and crimp ring thereby sealing the distal end of the connector from moisture and debris ingress. 11. The fiber optic connector assembly of claim 1 , wherein the connector is selected from a group comprising a SC connector, a LC connector, a MPO connector, a CS connector or a SN connector. 12. A method of assembling a fiber optic assembly comprising: providing a fiber optic connector comprising a distal end portion and a proximal end portion spaced apart along a connector axis, the proximal end portion comprising an opening; providing an adapter with an alignment sleeve configured to receive a sleeve seal, the alignment sleeve comprising an annular wall that extends distally along an axis to a distal end portion of the alignment sleeve, the annular wall having an outer surface and an inner surface extending along the axis, the outer surface comprising an annular recess spaced apart proximally from the distal end portion of the alignment sleeve, the alignment sleeve including a proximal-facing shoulder that defines a proximal end of the annular recess, the sleeve seal being received on the alignment sleeve such that a portion of the sleeve seal is located in the annular recess and a distal end portion of the sleeve seal opposes the proximal-facing shoulder; inserting the fiber optic connector into a receptacle of the adapter such that the sleeve seal is compressed between the fiber optic connector and the adapter thereby forming a barrier against moisture and debris ingress. 13. The method of claim 12 , further comprising securing a heat shrinkable material over a distal end portion of the fiber optic connector to further provide a barrier against moisture and debris ingress.