Ratcheting pin adjustable fastening system

What is claimed is: 1. An adjustable fastening system comprising: a first member defining a central longitudinal axis, and including a plurality of fingers radially positioned about the central longitudinal axis; wherein the first member defines a plurality of notches, with each one of the plurality of notches disposed between an adjacent pair of the plurality of fingers; a second member attached to the first member and axially moveable along the central longitudinal axis relative to the first member in response to rotational movement about the central longitudinal axis; and wherein: the second member includes a protuberance extending radially outward from the central longitudinal axis, with the protuberance positioned within one of the plurality of notches and in interlocking engagement with two of the plurality of fingers to resist rotation of the second member relative to the first member about the central longitudinal axis; the second member includes a plate extending radially outward from the central longitudinal axis, with the protuberance disposed on a circumferential edge of the plate; and the second member includes a shaft having a lower threaded portion engaged with the first member, and an upper connecting portion, with the plate disposed axially along the central longitudinal axis between the lower threaded portion and the upper connecting portion. 2. The adjustable fastening system set forth in claim 1 , wherein the second member includes a shaft having a lower threaded portion in threaded engagement with the first member. 3. The adjustable fastening system set forth in claim 2 , wherein the shaft includes an upper connecting portion configured for attachment to an upper structure. 4. The adjustable fastening system set forth in claim 3 , wherein the upper connecting portion includes at least one rib extending annularly around a circumference of the shaft. 5. The adjustable fastening system set forth in claim 1 , wherein the second member extends along the central longitudinal axis between a lower end and an upper end, and includes a tool engagement feature disposed at the upper end of the second member. 6. The adjustable fastening system set forth in claim 1 , wherein each of the plurality of fingers is positioned a defined radial distance from the central longitudinal axis, and wherein each of the plurality of fingers is spaced an equal distance from each adjacent one of the plurality of fingers. 7. The adjustable fastening system set forth in claim 1 , wherein each of the plurality of fingers includes a cross sectional shape perpendicular to the central longitudinal axis defining one of a generally isosceles trapezoid cross sectional shape or a generally triangular cross sectional shape. 8. The adjustable fastening system set forth in claim 1 , wherein the protuberance extends radially outward from the central longitudinal axis a maximum protuberance radius. 9. The adjustable fastening system set forth in claim 8 , wherein each of the plurality of fingers has a radially innermost surface spaced from the central longitudinal axis a minimum finger radius, with the maximum protuberance radius being greater than the minimum finger radius. 10. The adjustable fastening system set forth in claim 1 , wherein each respective one of the plurality of fingers is operable to flex radially outward, away from the central longitudinal axis, in response to an applied radial force, and wherein each respective one of the plurality of fingers flexes radially outward in response to the applied radial force a distance sufficient to allow the protuberance to rotate past that respective one of the plurality of fingers. 11. The adjustable fastening system set forth in claim 1 , wherein rotation of the second member relative to the first member generates a radial force, directed outward away from the central longitudinal axis, between the protuberance and a respective one of the plurality of fingers, which flexes the respective one of the plurality of fingers radially away from the central longitudinal axis, thereby allowing the protuberance to move past the respective one of the plurality of fingers and into an adjacent one of the plurality of notches, whereby the second member is moved axially along the central longitudinal axis relative to the first member. 12. A vehicle comprising: an upper structure; a lower structure; an adjustable fastening system interconnecting the upper structure and the lower structure, the adjustable fastening system including: a first member attached to the lower structure, defining a central longitudinal axis, and including a plurality of fingers radially positioned about the central longitudinal axis; wherein the first member defines a plurality of notches, with each one of the plurality of notches disposed between an adjacent pair of the plurality of fingers; a second member including a shaft having a lower threaded portion in threaded engagement with the first member, and an upper connecting portion attached to the upper structure; wherein the second member is axially moveable along the central longitudinal axis relative to the first member in response to rotational movement about the central longitudinal axis; and wherein the second member includes a plate having a protuberance disposed on an outer circumferential surface of the plate, and extending radially outward from the central longitudinal axis, with the protuberance positioned within one of the plurality of notches and in interlocking engagement with two of the plurality of fingers to resist rotation of the second member relative to the first member about the central longitudinal axis. 13. The vehicle set forth in claim 12 , wherein rotation of the second member relative to the first member generates a radial force, directed outward away from the central longitudinal axis, between the protuberance and a respective one of the plurality of fingers, which flexes the respective one of the plurality of fingers radially away from the central longitudinal axis, thereby allowing the protuberance to move past the respective one of the plurality of fingers and into an adjacent one of the plurality of notches, whereby the second member is moved axially along the central longitudinal axis relative to the first member to adjust a distance between the upper structure and the lower structure. 14. The vehicle set forth in claim 12 , wherein the second member extends along the central longitudinal axis between a lower end and an upper end, and includes a tool engagement feature disposed at the upper end of the second member, adjacent the upper connection portion. 15. The vehicle set forth in claim 12 , wherein each of the plurality of fingers is positioned a defined radial distance from the central longitudinal axis, and wherein each of the plurality of fingers is spaced an equal distance from each adjacent one of the plurality of fingers. 16. The vehicle set forth in claim 12 , wherein each of the plurality of fingers includes a cross sectional shape perpendicular to the central longitudinal axis defining one of a generally isosceles trapezoid cross sectional shape or a generally triangular cross sectional shape. 17. The vehicle set forth in claim 12 , wherein: the protuberance extends radially outward from the central longitudinal axis to a radially outermost surface spaced a maximum protuberance radius from the central longitudinal axis; each of the plurality of fingers has a radially innermost surface spaced from the central longitudinal axis a minimum finger radius; and wherein the maximum protuber