Methods of manufacturing and apparatus useful in manufacturing toric contact lenses

What is claimed is: 1. A method of manufacturing a toric contact lens comprising: providing a toric contact lens insert without an orientation mark to be used in forming a toric contact lens mold section, the toric contact lens insert including a bottom and a groove across the bottom; placing the toric contact lens insert without an orientation mark in an orientation mark fixture comprising a single piece fixture housing structured to hold a toric contact lens insert at an angle specified for an orientation mark, and a pin, the fixture housing having intersecting surfaces which form a generally V-shaped region on which the toric contact lens insert is located, the generally V-shaped region contacting the toric contact lens insert at two different contact points, lines or areas; orienting the toric contact lens insert without an orientation mark in the orientation mark fixture, the orienting the toric contact lens insert comprises placing the pin into both the fixture and the groove of the toric contact lens insert, thereby orienting the toric contact lens insert in the fixture with respect to the location of the groove on the bottom of the toric contact lens insert; fixing the toric contact lens insert without an orientation mark to the orientation mark fixture; forming an orientation mark on the toric contact lens insert fixed to the orientation mark fixture; removing the toric contact lens insert with the orientation mark from the orientation mark fixture; using the toric contact lens insert with the orientation mark to form a toric contact lens mold section; and using the toric contact lens mold section to form a toric contact lens. 2. The method of claim 1 , wherein the fixing the toric contact lens insert comprises fixing the toric contact lens insert using at least one fixing mechanism. 3. The method of claim 2 , wherein the at least one fixing mechanism comprises a locating screw located generally opposite an intersection of the intersecting surfaces. 4. The method of claim 1 , wherein placing the pin into both the fixture and the groove of the toric contact lens insert results in fixing the toric contact lens insert without an orientation mark to the orientation mark fixture and orienting the toric contact lens insert without an orientation mark in the orientation mark fixture. 5. The method of claim 2 , wherein placing the pin into both the fixture and the groove of the toric contact lens insert results in fixing the toric contact lens insert without an orientation mark to the orientation mark fixture and orienting the toric contact lens insert without an orientation mark in the orientation mark fixture. 6. The method of claim 3 , wherein placing the pin into both the fixture and the groove of the toric contact lens insert results in fixing the toric contact lens insert without an orientation mark to the orientation mark fixture and orienting the toric contact lens insert without an orientation mark in the orientation mark fixture. 7. The method of claim 1 , which comprises using a wire in forming the orientation mark on the toric contact lens insert. 8. The method of claim 2 , which comprises using a wire in forming the orientation mark on the toric contact lens insert. 9. The method of claim 3 , which comprises using a wire in forming the orientation mark on the toric contact lens insert. 10. The method of claim 4 , which comprises using a wire in forming the orientation mark on the toric contact lens insert. 11. A fixture for positioning a toric contact lens insert to form an orientation mark on the toric contact lens insert, the fixture comprising: a fixture housing comprising a single part structured to hold the toric contact lens insert at an angle specified for the placement of an orientation mark on the toric contact lens insert, the fixture housing having intersecting surfaces forming a generally V-shaped region on which the toric contact lens insert is placed, the generally V-shaped region contacts the toric contact lens insert at two different contact points, lines or areas; and at least one orientation mechanism effective to orient the toric contact lens insert, wherein the orientation mechanism comprises a pin positioned within the fixture housing, the pin passes through a groove of the toric contact lens insert, the toric contact lens insert has a bottom opposite an optical molding surface, the groove is located across the bottom of the toric contact lens insert, the groove has a width to accommodate the pin, and the orientation mechanism orients the toric contact lens insert in the fixture with respect to the location of the groove on the bottom of the toric contact lens insert; and at least one fixing mechanism operable to fix the position of the toric contact lens insert relative to the fixture housing. 12. The fixture of claim 11 , wherein the fixing mechanism comprises a locating screw located generally opposite an intersection of the intersecting surfaces. 13. The fixture of claim 11 , wherein the pin is one of the at least one fixing mechanism operable to fix the position of the toric contact lens insert relative to the fixture housing. 14. The fixture of claim 11 , wherein the orientation mechanism comprises a passage within the fixture housing adapted to accommodate a distal end of the toric contact lens insert. 15. The fixture of claim 12 , wherein the orientation mechanism comprises a passage within the fixture housing adapted to accommodate a distal end of the toric contact lens insert. 16. The fixture of claim 13 , wherein the orientation mechanism comprises a passage within the fixture housing adapted to accommodate a distal end of the toric contact lens insert.