Traction cleat and receptacle

1. A traction system for an athletic shoe having an outsole, said system comprising:

• a traction cleat having a cleat axis and comprising;
  
  a hub having an annular perimetric edge, a top surface and a bottom surface;
  
  a hub connection member extending from said top surface and disposed about said cleat axis;
  
  a plurality of spaced dynamic traction elements, each including a proximal section extending outward and slightly downward from a respective location substantially at said perimetric edge, and a distal section extending substantially downwardly from said proximal section, said distal section terminating in a turf-engaging end surface, said dynamic traction elements being sufficiently flexible relative to said hub as to be pivotally flexible in an upward direction about said perimetric edge when subjected to the weight of a person wearing the athletic shoe;
  
  a set of locking posts disposed in angularly spaced relationship in an annular array located concentrically about the cleat axis, each locking post having an outer surface and a radially inward facing surface disposed between first and second end walls, said inward facing surface having a length and said end walls being oriented approximately perpendicular to said radially inward facing surface, wherein said inward facing surface is slightly concave with a continuous radius of curvature about said cleat axis throughout the length of the inward facing surface;
  
  a receptacle having a receptacle axis configured to be secured in the shoe outsole and comprising;
  
  a generally cylindrical hollow boss defining a socket for rotatably receiving and engaging said hub connection member when said cleat axis and receptacle axis are coincident; and
  
  a plurality of locking stubs disposed in equally angularly spaced relationship with angular gaps therebetween in an annular array extending along an outside surface of said boss concentrically about the receptacle axis, wherein each locking stub includes a radially outward facing surface disposed between outwardly projecting leading and trailing end walls, wherein said outward facing surface is slightly convex with a continuous radius of curvature about said receptacle axis;
  
  wherein said cleat has a predetermined final engagement position in relation to said receptacle in which said connection member is fully inserted in said socket;
  
  wherein the number of locking posts in said set is the same as the number of locking stubs in said plurality;
  
  wherein the entire outward facing surface of each locking stub is at a radial distance from the receptacle axis that is slightly greater than the radial distance of the entire inward facing surface of each locking post from said cleat axis to provide an interfering engagement between each inward facing surface and a corresponding outward facing surface when those surfaces are angularly aligned; and
  
  wherein said locking stubs and locking posts are configured to facilitate rotational passage of said locking posts past said locking stubs as the cleat is rotationally installed in the receptacle such that in said final engagement position of said cleat;
  
  each locking stub is angularly aligned with and extends at least partially into a space between two respective locking posts;
  
  the leading and trailing end walls of said each locking stub substantially abut the second end wall of one of said two locking posts and the first end wall of the other of said two locking posts, respectively; and
  
  wherein said proximal section of each traction element has a transverse cross-sectional area that varies throughout its length and is between at least twenty square millimeters and thirty square millimeters at a thickest part of said proximal section.