User adjustable prosthetic ankle that compensates for different heel heights

What is claimed is: 1 ) A prosthetic ankle for connecting an artificial leg with an artificial foot, said prosthetic ankle and adjusting its pitch angle comprising: a) an upper base unit for rigidly connecting to said artificial leg, having a top surface, a bottom surface and a side; b) a lower base unit for rigidly connecting to said artificial foot, having a top surface, a bottom surface and a side; c) a pair of lower wing units having a bottom surface for rigidly connecting to said top surface of said lower base unit, wherein said lower wing units are disposed evenly apart; d) a pair of upper wing units having a top surface for rigidly connecting to said bottom surface of said upper base unit, wherein said upper wing units are engaged and restrained to said lower wing units on one side to allow rotational movement of said upper and lower base units on the other side; and e) a turnbuckle assembly loosely connected between the bottom surface of the upper base unit and the top surface of the upper base unit. 2 ) The prosthetic ankle of claim 1 , wherein said upper and lower base units have a top and bottom surface area at least 2 inch by 2 inch. 3 ) The prosthetic ankle of claim 2 , wherein said upper and lower base units have a plurality of screw holes disposed near the peripherals of said upper and lower base units 4 ) The prosthetic ankle of claim 3 , wherein said upper and lower wings units are rigidly connected to respective upper and lower base units by extending screws through said screw holes and into the wing units. 5 ) The prosthetic ankle of claim 3 , wherein said prosthetic ankle is connected to the artificial leg and artificial foot by extending screws through said screws holes. 6 ) The prosthetic ankle of claim 1 , wherein said upper base unit and upper base wing units, and said lower base unit and lower base wing units contains at least one blind hole for insertion of bearing pins. 7 ) The prosthetic ankle of claim 1 , wherein said upper and lower base units having one or more cutouts. 8 ) The prosthetic ankle of claim 7 , wherein an adjustment pin is locked inside the cutout of each base unit for serving as bearing for said turnbuckle assembly. 9 ) The prosthetic ankle of claim 8 , where a turnbuckle is connected to said adjustment pin to allow rotational movement of the turnbuckle around the adjustment pin. 10 ) The prosthetic ankle of claim 1 , wherein said turnbuckle comprising of a) a pair of identical cylindrical female unit with opposing interior threads; b) a cylindrical male unit having opposing exterior threads on each end, whereas the male unit is inserted into and locked inside each of said female units by matching the exterior threads to the interior threads of the female units. 11 ) The prosthetic ankle of claims 8 and 9 , wherein a semicircular or circular hole is drilled on one end of said female unit perpendicular to the cylindrical body, and is sized and adapted to receive an adjustment pin. 12 ) The prosthetic ankle of claim 10 , wherein the male unit having a turning wheel in the center. 13 ) The prosthetic ankle of claim 4 , wherein said upper wing unit has a pair of raised bearing ring spaced to receive a single raised bearing ring of said lower wing unit. 14 ) The prosthetic ankle of claim 12 , wherein each pair of said upper wing unit and lower wing unit are connected by an axle inserted through said raised bearing rings. 15 ) The prosthetic ankle of claim 1 , wherein said pitch angle may be set between −5 degrees and 30 degrees. 16 ) A method for adjusting for the pitch angle of a prosthetic leg, comprising a) attaching a prosthetic ankle of claim 1 to a prosthetic leg; b) placing an artificial foot of said prosthetic leg into a shoe; and c) adjusting the length of said turnbuckle assembly to adjust the pitch angle of a prosthetic leg. 17 ) The method of claim 16 , where pitch angle may be adjusted between −5 degrees and 30 degrees.