Unibody bypass plunger with centralized helix and crimple feature

What is claimed is: 1. A bypass plunger, comprising: a unitary hollow plunger body and valve cage formed in one integrated piece having first and second ends, the valve cage formed at the second end, and the valve cage having internal threads at the distal end thereof for receiving a retaining nut having external threads at one end thereof; a poppet valve having a valve head connected to a downward-extending valve stem, the poppet valve reciprocatingly disposed within the valve cage such that the valve head is oriented toward a valve seat formed within the hollow plunger body; a partition nut having external threads formed in the outer surface thereof and corresponding to the internal threads of the valve cage, wherein the partition nut is disposed on the valve stem within the valve cage for locating a clutch in position within the valve cage; wherein the clutch is disposed within the valve cage and formed of a split bobbin having cylindrical bobbin halves secured around the valve stem by at least one garter spring surrounding the split bobbin; and the retaining nut having external threads formed in the outer surface thereof and corresponding to the internal threads formed in the distal end of the valve cage to retain the poppet valve and the clutch within the valve cage. 2. The bypass plunger of claim 1 , wherein the valve cage comprises: a tubular portion of the lower end of the bypass plunger defining a cylindrical wall and having a plurality of outward-angled ports in the cylindrical wall to enable fluid flow there-through during descent of the bypass plunger; wherein the ports are each disposed at an acute angle with the longitudinal axis of the valve cage and are separated by substantially equal angles around the wall of the valve cage. 3. The bypass plunger of claim 1 , wherein: the poppet valve is disposed to move between a closed position in contact with the valve seat formed in the hollow body proximate the valve cage portion of the hollow body and an open position disposed away from the valve seat; and the stem of the poppet valve comprises a smooth surface ground to a predetermined surface roughness. 4. The bypass plunger of claim 1 , wherein: the retaining nut is locked from turning by first and second crimple detents extending inward from the surface of the valve cage at the second end of hollow body and along first and second opposite radii of the valve cage into corresponding relieved spaces in the proximate external threads formed in the outer surface of the retaining nut. 5. The bypass plunger of claim 4 , wherein each crimple detent comprises: a formed dent in the wall of the hollow body extending inward from the surface of the valve cage end of the hollow body into the external threads of the retaining nut to lock the retaining nut to the hollow body. 6. The bypass plunger of claim 1 , wherein: the retaining nut is locked from turning by first, second, and third crimple detents extending inward from the surface of the valve cage at the second end of hollow body and along equally-spaced radii of the valve cage into corresponding relieved spaces in the proximate external threads formed in the outer surface of the retaining nut. 7. The bypass plunger of claim 1 , wherein: the retaining nut is locked from turning by at least one crimple detent extending inward from the surface of the valve cage at the second end of hollow body and along a radii of the valve cage into a corresponding relieved space in the proximate external threads formed in the outer surface of the retaining nut. 8. The bypass plunger of claim 1 , wherein the retaining nut further comprises: a canted coil spring disposed within a circumferential groove formed within the retaining nut thereby forming a clutch for retarding the motion of the poppet valve. 9. The bypass plunger of claim 8 , wherein the retaining nut further comprises: a slipper seal disposed within a circumferential groove formed within the retaining nut on either side of the canted coil spring thereby forming a seal against sand particles becoming trapped within the canted coil spring. 10. The bypass plunger of claim 1 , comprising: at least one helical groove formed for at least one-half revolution around the outer surface of the hollow plunger body for a portion of the length of the hollow body approximately midway between the first and second ends. 11. The bypass plunger of claim 10 , wherein the at least one helical groove comprises: a continuous groove having a predetermined pitch, depth, and profile according to required spin and rate of descent of the bypass plunger through a well tubing. 12. The bypass plunger of claim 10 , wherein the at least one helical groove comprises: a groove extending at least one full revolution around the outer surface of the hollow plunger body approximately midway between the first and second ends. 13. The bypass plunger of claim 10 , wherein the at least one helical groove comprises: a groove extending at least one and up to six full revolutions around the outer surface of the hollow plunger body approximately midway between the first and second ends. 14. The bypass plunger of claim 10 , wherein the at least one helical groove comprises: first and second helical grooves separated by a fixed spacing and disposed around the outer surface of the hollow plunger body approximately midway between the first and second ends thereof. 15. The bypass plunger of claim 1 , comprising: a plurality of concentric grooves forming rings or ridges around the outer surface of the hollow plunger body proximate the first and second ends. 16. The bypass plunger of claim 15 , wherein the concentric grooves comprise: a series of uniform grooves having a cross section profile that is approximately U-shaped.