Patent ID: 6467379
Filing Date: 2002-10-22
Classification: B25B

Abstract:
An adjustable socket for attachment to the driving projection of a tool and for receiving and turning variously sized fastener projections, comprising:a main body formed about a central axis, wherein the main body has an integral lower body coaxially aligned about the central axis, the lower body having a lower terminal end and a bore coaxially aligned with the central axis and directed into the lower body for slidably receiving a driving projection, the main body also having an integral upper body, the upper body having an upper terminal end, and an interior surface forming a main body cavity within the main body, projecting into the main body, and coaxially aligning about the central axis projecting into the main body from the upper terminal end; a plate positioned in the main body cavity, the plate being generally perpendicular to the main body central axis; a spring positioned within the main body cavity to bear upon the main body and the plate, such that the plate is biased toward the upper terminal end; a peripheral sleeve concentrically mounted within the main body cavity, the peripheral sleeve having an inner surface defining a bore, an upper end and a lower end, the lower end having a downwardly facing shoulder about the bore, the bore being shaped for receiving and engaging one of the fastener projections; a retainer member attached to the upper terminal end, the retainer member having a portion protruding across the main body cavity to an extent that the peripheral sleeve is prevented from exiting the main body cavity; a first sliding sleeve, having a lower end, the first sliding sleeve being concentrically mounted within the peripheral sleeve in a first position, wherein the first sliding sleeve and peripheral sleeve lower ends are adjacent the plate, and wherein the first sliding sleeve is slidably displaceable in a downward direction relative to the peripheral sleeve, in a coaxially aligned relationship, to a second position, wherein the first sliding sleeve lower end displaces the plate from the peripheral sleeve lower end; a plurality of sliding sleeves, in addition to the first sliding sleeve, each having a lower end, each sliding sleeve in the plurality being of descending width, such that the sleeves are concentrically mounted within the first sliding sleeve in a first position, wherein the lower ends of the peripheral sleeve and all the sliding sleeves are adjacent the plate, and wherein each of the plurality is slidably displaceable in a downward direction relative to the next largest sliding sleeve, the displacement being in a coaxially aligned relationship with such next largest sliding sleeve, to a second position, wherein the displaced sliding sleeve lower end displaces the plate from the peripheral sleeve lower end and the lower ends of all the sliding sleeves larger than the one so displaced; each of the sliding sleeves having an inner surface defining a bore, the bore being shaped to engage one of the fastener projections, each of the sliding sleeves' lower ends also being offset to form an exterior upwardly facing shoulder and an interior downwardly facing shoulder, each exterior shoulder corresponding with the interior shoulder of the next largest of the sliding sleeves, the exterior shoulder of the first sliding sleeve corresponding with the downwardly facing shoulder of the peripheral sleeve, the shoulder correspondences preventing upward displacement of the sliding sleeves from the first position; and a plurality of magnetic strip pairs, each pair being magnetically coupled, the first of such pairs having a first strip integrated with the upper body interior surface and a second strip integrated with the peripheral sleeve, the second of such pairs having a first strip integrated with the peripheral sleeve and a second strip integrated with the first sliding sleeve, the remainder of the pairs in the plurality having a first strip integrated with one of the sliding sleeves, and a second strip integrated with the next smallest sliding sleeve, all of the pairs in the plurality being attached such that the first strip and second strip of each pair are adjacent to one another when the sliding sleeves are in the first position; such that the insertion of the fastener projection into the main body cavity slidably displaces the sliding sleeves having a size corresponding to or smaller than the fastener projection, the displacement being in a downward direction to the second position, the spring being simultaneously compressed and the plate displaced, the magnetic strip pairs of the larger sliding sleeves retaining the larger sliding sleeves in the first position, and further such that, when the fastener projection is removed from the main body cavity, the spring urges the plate against the lower ends of the downwardly displaced sliding sleeves, forcing such sliding sleeves back to the first position.