Module for optical fiber installation and storage at customer premises

We claim: 1. A module for optical fiber installation and storage at customer premises, comprising: a module body including a base, and a wall surrounding the periphery of the base; a fiber supply spool including a hub, a lower flange at a first axial end of the hub, and an upper flange at a second axial end of the hub opposite the first axial end, wherein the hub, the lower flange, and the upper flange define a first winding section of the spool for containing a length of fiber sufficient to route between the module and a provider service module associated with a customer premises at which the module is deployed; a connector adapter mounted in the module body, wherein a proximal end of the adapter is configured to connect with a mating connector at one end of a fiber contained on the spool, and a distal end of the adapter is configured to connect with an outside connector associated with an optical device at the premises; a payout area of the module body has a fiber payout opening formed in the wall of the body, and a set back edge of the base of the body is set back a certain distance from the outside surface of the wall at the payout area; a ramp area is formed on the base for providing a downward incline for fiber traveling from the supply spool toward the payout area when drawn from the payout opening, and a lower edge of the ramp area substantially coincides with the set back edge of the base and is substantially flush with a supporting surface beneath the base so that fiber drawn from the spool can be adhered to the supporting surface beneath the base at the payout opening, thus avoiding or minimizing any adverse visual impact of the fiber near the module at the premises. 2. A module for optical fiber according to claim 1 , wherein the ramp area on the base is trapezoidal in shape. 3. A module for optical fiber according to claim 1 , wherein the upper edge and the lower edge of the ramp area on the base are spaced apart by a horizontal distance of about 0.400 inch (10.16 mm). 4. A module for optical fiber according to claim 1 , wherein the upper edge of the ramp area on the base is about 0.159 inch (4.04 mm) wide, and the lower edge of the ramp area is about 0.239 inch (6.07 mm) wide. 5. A module according to claim 1 , wherein the ramp area on the base is inclined at an angle of about 8.25 degrees. 6. A module according to claim 1 , wherein the set back edge of the base of the module body is approximately 0.400 inch (10.16 mm) wide. 7. A module according to claim 1 , wherein the set back edge of the base of the module body is set back from the outside surface of the wall of the module body by about 0.2 inch (5.08 mm). 8. A module according to claim 1 , wherein the fiber payout opening is bound by a top edge, a left side edge, and a right side edge of the wall of the module body, and said edges have a radius of curvature of not less than a minimum bend radius specified for fiber wound on the supply spool. 9. A module according to claim 1 , wherein the upper flange of the fiber supply spool has a set of equi-circumferentially spaced retaining guides that extend radially outward from the hub, and the retaining guides and the upper flange form a second winding section of the spool for containing a length of fiber sufficient to connect from the spool to the proximal end of the connector adapter when the spool is mounted in the module. 10. A module according to claim 1 , comprising: a set of arcuate retention members projecting upward in circumferentially spaced relation from the base of the module body, and the retention members have lips that protrude radially outward from free ends of the members; and the hub of the supply spool has a lower reduced diameter portion, and an annular step is formed between the reduced diameter portion and an upper portion of the hub so that when the spool is urged onto the retention members, the lips at the ends of the members enter the reduced diameter portion of the hub and deflect toward one another, and when the lips are at the top of the reduced diameter portion, the lips diverge radially onto the annular step and retain the spool in a mounted position at which the spool can rotate about the retention members. 11. A module according to claim 1 , including a circular cylindrical wall extending from the base of the module body for surrounding the fiber supply spool so that the spool remains substantially concentric with the retention members when fiber is drawn from the spool and the spool rotates about the retention members. 12. A module according to claim 11 , wherein one or more cutouts are formed along a top edge of the cylindrical wall to facilitate manual insertion and removal of the supply spool. 13. A module according to claim 1 , including a removable cover for enclosing the body of the module including the supply spool and the connector adapter. 14. A module according to claim 1 , wherein the supply spool contains a length of fiber sufficient to route between the module and a provider service module associated with a customer premises at which the module is deployed. 15. A module according to claim 9 , including an end length of fiber wound in the second winding section of the fiber supply spool, and a connector that terminates the end length of fiber, wherein the connector is configured to connect to the proximal end of the connector adapter. 16. A module according to claim 15 , including a holder constructed and arranged for temporarily retaining the connector on the upper flange of the fiber supply spool. 17. A module according to claim 8 , wherein the side edges of the payout opening are spaced apart by approximately 0.239 inch (6.07 mm). 18. A module according to claim 8 , wherein the radius of curvature of each of the edges of the payout opening is about 0.100 inch (2.54 mm). 19. A module according to claim 8 , wherein the top edge of the payout opening has a slot through which an end length of fiber on the supply spool can be threaded to enter the payout opening.