Camshaft phaser

We claim: 1 . A camshaft phaser for use with an internal combustion engine for controllably varying the phase relationship between a crankshaft and a camshaft in said internal combustion engine, said camshaft phaser comprising: a stator having a plurality of lobes and connectable to said crankshaft of said internal combustion engine to provide a fixed ratio of rotation between said stator and said crankshaft about an axis; a rotor coaxially disposed within said stator, said rotor having a plurality of vanes interspersed with said lobes defining a plurality of alternating advance chambers and retard chambers; a camshaft phaser attachment bolt for attaching said camshaft phaser to said camshaft, said camshaft phaser attachment bolt defining a valve bore that is coaxial with said stator; a supply passage extending radially outward from said valve bore, said supply passage having a supply passage downstream end that is proximal to said valve bore and a supply passage upstream end that is distal from said valve bore, said supply passage downstream end and said supply passage upstream end being separated by a check valve seat; a check valve member in said supply passage which prevents flow of oil past said check valve seat from said supply passage downstream end to said supply passage upstream end while allowing flow of oil past said check valve seat from said supply passage upstream end to said supply passage downstream end, wherein said check valve member is biased toward said check valve seat by centrifugal force; and a valve spool moveable within said valve bore such that said valve spool directs oil that has passed through said supply passage to said valve bore. 2 . A camshaft phaser as in claim 1 wherein said supply passage is a bolt advance supply passage, said supply passage downstream end is a bolt advance supply passage downstream end, said supply passage upstream end is a bolt advance supply passage upstream end, said check valve member is an advance check valve member, and said check valve seat is an advance check valve seat, said camshaft phaser further comprising: a bolt retard supply passage extending radially outward from said valve bore, said bolt retard supply passage having a bolt retard supply passage downstream end that is proximal to said valve bore and a bolt retard supply passage upstream end that is distal from said valve bore, said bolt retard supply passage downstream end and said bolt retard supply passage upstream end being separated by a retard check valve seat; and a retard check valve member in said bolt retard supply passage which prevents flow of oil past said retard check valve seat from said bolt retard supply passage downstream end to said bolt retard supply passage upstream end while allowing flow of oil past said retard check valve seat from said bolt retard supply passage upstream end to said bolt retard supply passage downstream end, wherein said retard check valve member is biased toward said retard check valve seat by centrifugal force; wherein said valve spool directs oil to and from said bolt advance supply passage and said bolt retard supply passage. 3 . A camshaft phaser as in claim 2 wherein: said valve spool is moveable between an advance position and a retard position; said advance position allows oil to flow through said retard check valve seat from said plurality of advance chambers to said plurality of retard chambers while preventing oil from flowing from said plurality of retard chambers to said plurality of advance chambers in order to advance the timing of said camshaft relative to said crankshaft; and wherein said retard position allows oil to flow through said advance check valve seat from said plurality of retard chambers to said plurality of advance chambers while preventing oil from flowing from said plurality of advance chambers to said plurality of retard chambers in order to retard the timing of said camshaft relative to said crankshaft. 4 . A camshaft phaser as in claim 3 , said camshaft phaser further comprising: a bolt supply passage in said camshaft phaser attachment bolt; and a bolt recirculation passage extending from said valve bore to said bolt supply passage; wherein said advance position allows oil to flow through said bolt recirculation passage from said plurality of advance chambers to said plurality of retard chambers; and wherein said retard position allows oil to flow through said bolt recirculation passage from said plurality of retard chambers to said plurality of advance chambers. 5 . A camshaft phaser as in claim 4 where said bolt recirculation passage is axially between said bolt advance supply passage and said bolt retard supply passage. 6 . A camshaft phaser as in claim 4 further comprising a bolt advance passage extending radially outward from said valve bore such that said bolt advance passage is in fluid communication with said plurality of advance chambers and such that said bolt advance passage diametrically opposes said bolt advance supply passage. 7 . A camshaft phaser as in claim 6 further comprising a bolt retard passage extending radially outward from said valve bore such that said bolt retard passage is in fluid communication with said plurality of retard chambers and such that said bolt retard passage diametrically opposes said bolt retard supply passage. 8 . A camshaft phaser as in claim 4 wherein said bolt supply passage receives pressurized oil from an oil source. 9 . A camshaft phaser as in claim 8 further comprising a lock pin which selectively engages a lock pin seat, wherein pressurized oil supplied to said lock pin from said bolt supply passage causes said lock pin to retract from said lock pin seat to permit relative movement between said rotor and said stator and wherein venting oil from said lock pin allows said lock pin to engage said lock pin seat in order to prevent relative motion between said rotor and said stator at a predetermined aligned position. 10 . A camshaft phaser as in claim 9 further comprising a bolt lock pin supply passage which extends from said valve bore to said bolt supply passage such that said valve spool selectively provides fluid communication from said bolt lock pin supply passage to said lock pin and such that said valve spool selectively prevents fluid communication from said bolt lock pin supply passage to said lock pin. 11 . A camshaft phaser as in claim 10 further comprising a bolt lock pin passage which extends passage extending radially outward from said valve bore such that said bolt lock pin passage is in fluid communication with said lock pin and such that said bolt lock pin passage diametrically opposes said bolt lock pin supply passage. 12 . A camshaft phaser as in claim 10 further comprising: a supply check valve seat which divides said bolt supply passage into a bolt supply passage lock pin portion and a bolt supply passage phasing portion; and a supply check valve member which 1) seats with said supply check valve seat to prevent oil from flowing from said bolt supply passage phasing portion to said bolt supply passage lock pin portion and 2) unseats from said supply check valve seat to permit oil to flow from said bolt supply passage lock pin portion to said bolt supply passage phasing portion; wherein said bolt lock pin supply passage is in constant fluid communication with said bolt supply passage lock pin portion; and wherein said bolt advance supply passage, said bolt retard supply passage, and said bolt recirculation passage are in constant fluid communication with said bolt supply passage phasing portion. 13 . A camshaft phaser as in claim 12 wherein: said