Threaded fastener

The invention is claimed as follows: 1. A fastener comprising: a shank having a first end and a second end opposite the first end, the second end including a tip, the shank having a first longitudinal axis extending from the first end to the second end; at least one helical thread formation integrally connected to and extending outwardly from the shank, wherein the at least one helical thread formation is configured such that (a) when the fastener is rotated in a substrate in a first direction, the at least one helical thread formation causes the tightening of the fastener in the substrate, and (b) when the fastener is rotated in the substrate in an opposite second direction, the at least one helical thread formation causes the loosening of the fastener in the substrate; and a head integrally connected to the first end of the shank, the head including a top portion and a bottom portion, the top portion defining an engaging structure engageable by a tool, the head having a second longitudinal axis, the bottom portion including a plurality of ribs extending radially around the second longitudinal axis of the head and extending toward the second end of the shank, wherein each rib includes: (i) a leading face, and (ii) a trailing face that meets the leading face at a transversely extending leading edge of the rib, the leading edge of the rib including an apex at the outermost end point of the leading edge, and wherein each rib is inwardly tapered from an outer surface of the head toward the second longitudinal axis, wherein for each rib, the leading face of the rib, the leading edge of the rib, and the trailing face of the rib are configured such that when the fastener is rotated in the substrate in the first direction, the leading edge of the rib will engage the substrate before the trailing face of the rib. 2. The fastener of claim 1 , wherein a bottom surface of the head is formed by the ribs. 3. The fastener of claim 1 , wherein the ribs are identically sized and shaped. 4. The fastener of claim 1 , wherein the ribs include: (a) a first rib having a first leading face and a first trailing face that meet at a transversely extending first leading edge; (b) a second rib having a second leading face and a second trailing face that meet at a transversely extending second leading edge; (c) a third rib having a third leading face and a third trailing face that meet at a transversely extending third leading edge; and (d) a fourth rib having a fourth leading face and a fourth trailing face that meet at a transversely extending fourth leading edge. 5. The fastener of claim 4 , wherein: (a) the first leading edge of the first rib includes a first apex at an outermost end point of the first leading edge; (b) wherein the second leading edge of the second rib includes a second apex at an outermost end point of the second leading edge; (c) wherein the third leading edge of the third rib includes a third apex at an outermost end point of the third leading edge; and (d) wherein the fourth leading edge of the fourth rib includes a fourth apex at an outermost end point of the fourth leading edge. 6. The fastener of claim 1 , wherein the trailing face of each rib extends toward and all the way to a leading face of an adjacent one of the ribs. 7. The fastener of claim 1 , wherein each rib extends all of the way to the shank. 8. The fastener of claim 1 , which only includes four, five, or six ribs. 9. A fastener comprising: a shank having a first end and a second end opposite the first end, the second end including a tip, the shank having a first longitudinal axis extending from the first end to the second end; at least one helical thread formation integrally connected to and extending outwardly from the shank, wherein the at least one helical thread formation is configured such that (a) when the fastener is rotated in a substrate in a first direction, the at least one helical thread formation causes the tightening of the fastener in the substrate, and (b) when the fastener is rotated in the substrate in an opposite second direction, the at least one helical thread formation causes the loosening of the fastener in the substrate; and a head integrally connected to the first end of the shank, the head including a top portion and a bottom portion, the top portion defining an engaging structure engageable by a tool, the head having a second longitudinal axis, the bottom portion including only four, only five, or only six ribs extending radially around the second longitudinal axis of the head and extending toward the second end of the shank, wherein each rib includes: (i) a leading face; and (ii) a trailing face that meets the leading face at a transversely extending leading edge of the rib, the leading edge of the rib including an apex at the outermost end point of the leading edge, and wherein for each rib, the leading face of the rib, the leading edge of the rib, and the trailing face of the rib are configured such that when the fastener is rotated in the substrate in the first direction, the leading edge of the rib will engage the substrate before the trailing face of the rib. 10. The fastener of claim 9 , wherein a bottom surface of the head is formed by the ribs. 11. The fastener of claim 9 , wherein the ribs are identically sized and shaped. 12. The fastener of claim 9 , wherein the trailing face of each rib extends toward and all the way to a leading face of an adjacent one of the ribs. 13. The fastener of claim 9 , wherein each rib extends all of the way to the shank. 14. A fastener comprising: a shank having a first end and a second end opposite the first end, the second end including a tip, the shank having a first longitudinal axis extending from the first end to the second end; at least one helical thread formation integrally connected to and extending outwardly from the shank, wherein the at least one helical thread formation is configured such that (a) when the fastener is rotated in a substrate in a first direction, the at least one helical thread formation causes the tightening of the fastener in the substrate, and (b) when the fastener is rotated in the substrate in an opposite second direction, the at least one helical thread formation causes the loosening of the fastener in the substrate; and a head integrally connected to the first end of the shank, the head including a top portion and a bottom portion, the top portion defining an engaging structure engageable by a tool, the head having a second longitudinal axis, the bottom portion including: (a) a first rib having a first leading face and a first trailing face that meet at a transversely extending first leading edge; (b) a second rib having a second leading face and a second trailing face that meet at a transversely extending second leading edge; (c) a third rib having a third leading face and a third trailing face that meet at a transversely extending third leading edge; and (d) a fourth rib having a fourth leading face and a fourth trailing face that meet at a transversely extending fourth leading edge, wherein the leading edge of each rib including an apex at the outermost end point of the leading edge of that rib, and wherein for each rib, the leading face of the rib, the leading edge of the rib, and the trailing face of the rib are configured such that when the fastener is rotated in the substrate in the first direction, the leading edge of the rib will engage the substrate before the trailing face of the rib. 15. The fastener of claim 14 , wherein the ribs are identically sized and shaped. 16. The fastener of claim 14 , wherein the trailing face of each r