System and methods for conveying parts

What is claimed is: 1. A parts conveying system comprising: a parts feeder configured to receive parts from a receiving bin; a linear conveyor for conveying parts along a path extending from said parts feeder to an installation robot; one or more vibrating elements positioned along at least one of said linear conveyor, said parts feeder, and said receiving bin to impart vibratory motions to the at least one of said linear conveyor, said parts feeder, and said receiving bin for stimulating the parts into motion, wherein said vibrating elements maintain a higher frequency vibratory motion to maintain the parts moving and switch to a lower frequency and higher power vibratory motion to start a flow of the parts or to dislodge stuck parts; and an air assist portion configured to provide pressurized fluid to the parts to facilitate moving parts through said parts conveying system. 2. The automatic parts conveying system of claim 1 , wherein said vibrating elements are configured to provide the vibratory motion in at least one of a single direction, a torsional direction, and a random vibratory motion in multiple directions. 3. The automatic parts conveying system of claim 2 , wherein said vibrating elements are configured to provide at least one of a constant vibratory motion, an intermittent vibratory motion, and a vibratory motion timed into a distinct pattern. 4. The automatic parts conveying system of claim 2 , wherein the vibratory motion is altered in frequency to achieve a predetermined movement of the parts. 5. The automatic parts conveying system of claim 1 , wherein said air assist portion includes a plurality of nozzles directed to at least one of an area along the path that has been determined to have flow problems and is detected as having a parts conveying problem. 6. The automatic parts conveying system of claim 5 , wherein a part that is detected as being misoriented is rejected to a recycle bin using an air nozzle. 7. The automatic parts conveying system of claim 5 , wherein at least one air nozzle is used with at least one of the vibrating elements to dislodge a stuck part. 8. A method of automatically conveying parts in an assembly process, the method comprising: receiving a plurality of parts in a random orientation; motivating the parts into a stream of parts using a vibrating element; detecting parts in the stream of parts that are misoriented based on an orientation feature discernible on the part, including at least one of a color, a bar code, and other indicia recognizable by an imaging system; and rejecting the misoriented parts using a flow of air. 9. The method of claim 8 , further comprising directing the stream of parts through a conveyor using said vibrating element and a flow of air through a nozzle simultaneously, the flow of air impinging on the parts in the stream of parts. 10. The method of claim 8 , further comprising: detecting a stoppage of the stream of parts due to a stuck part; and directing a flow of air to a location where the stoppage is detected to dislodge the stuck part. 11. The method of claim 8 , wherein detecting parts in the stream of parts that are misoriented further comprises detecting parts in the stream of parts that are misoriented based on a dimension, a shape, a protuberance, a recess, and combinations thereof. 12. An assembly line comprising: a linear conveyor for conveying parts along a path to an installation robot; one or more vibrating elements positioned along said linear conveyor for imparting vibratory motions to said linear conveyor for stimulating the parts into a stream having linear motion along said linear conveyor, wherein the vibratory motions are altered in frequency to achieve a predetermined movement of the parts, wherein said vibrating elements maintain higher frequency vibratory motions to maintain the parts moving and switch to a relatively lower frequency and relatively higher power vibratory motions to start a flow of the parts or to dislodge stuck parts; and an air assist portion configured to provide pressurized fluid to the parts to facilitate moving parts along said linear conveyor. 13. The assembly line of claim 12 , wherein said installation robot comprises: a robot arm controlled by a controller; and a parts handling device coupled to a distal end of said robot arm. 14. The assembly line of claim 12 , wherein said air assist portion includes a plurality of nozzles directed to at least one of an area along the path that has been determined to have flow problems and is detected as having a parts conveying problem. 15. The assembly line of claim 12 , wherein a part that is detected as being misoriented is rejected to a recycle bin using an air nozzle. 16. The assembly line of claim 12 , wherein at least one air nozzle is used with at least one of the vibrating elements to dislodge a stuck part.