Method for manufacturing optical lenses and assembly for manufacturing such lenses

The invention claimed is: 1. A process for manufacturing an optical lens having a first face ( 2 ) and a second face ( 3 ) opposite said first face ( 2 ), comprising a step of positioning said second face ( 3 ) relative to said first face ( 2 ) for the machining of said second face ( 3 ), which positioning step comprises steps of: providing ( 131 ) a lens blank ( 1 ) for forming said optical lens, which lens blank ( 1 ) has an upper face ( 32 ) for forming said first face ( 2 ), a lower face ( 33 ), opposite said upper face ( 32 ), for forming said second face ( 3 ), and at least one positioning guide; providing ( 133 ) a positioning ring ( 10 ) having at least one control guide; mounting ( 134 ) said lens blank ( 1 ) on said positioning ring ( 10 ); positionally blocking ( 135 ) said lens blank ( 1 ) on a blocking and holding pin ( 30 ), said positioning ring ( 10 ) then being interposed between said lens blank ( 1 ) and said blocking and holding pin ( 30 ); wherein said lens blank ( 1 ) comprises a generally circular edge face ( 4 ) forming a first mechanical positioning guide and at least one sloped portion ( 5 ) forming a second mechanical positioning guide, said at least one sloped portion ( 5 ) being located between said generally circular edge face ( 4 ) and said upper face ( 32 ); said positioning ring ( 10 ) has a generally cylindrical shape and comprises a cavity ( 13 ) defining a generally circular internal outline ( 20 ) forming a first complementary control guide, which internal outline ( 20 ) is concentric with said edge face ( 4 ) of said lens blank ( 1 ), and a shoulder ( 21 ) forming a second complementary control guide; and said step ( 134 ) of mounting said lens blank ( 1 ) on said ring ( 10 ) comprises the step of at least partially lodging said lens blank ( 1 ) in said cavity ( 13 ) of said ring ( 10 ), said edge face ( 4 ) of said lens blank ( 1 ) at least partially making contact with said internal outline ( 20 ) of said ring ( 10 ) and said at least one sloped portion ( 5 ) of said lens blank ( 1 ) also making contact with said shoulder ( 21 ) of said ring ( 10 ), wherein said step of providing ( 131 ) said lens blank ( 1 ) comprises steps of: edging ( 121 ) at least partially the outline of said lens blank ( 1 ) in order to form said generally circular edge face ( 4 ) and thus form said first mechanical positioning guide of said lens blank ( 1 ); and chamfering ( 122 ) at least partially one portion of said lens blank ( 1 ), which portion is located between said generally circular edge face ( 4 ) and said convex face ( 32 ), in order to form said at least one sloped portion ( 5 ) and thus form said second mechanical positioning guide of said lens blank ( 1 ). 2. The process as claimed in claim 1 , wherein said lens blank ( 1 ) further comprises a third mechanical positioning guide ( 6 ) in said generally circular edge face ( 4 ), and said positioning ring ( 10 ) comprises a third complementary control guide ( 18 , 19 ) in said internal outline ( 20 ), said third mechanical positioning guide ( 6 ) and said third mechanical control guide ( 18 , 19 ) being configured to immobilize rotationally said lens blank ( 1 ) about an axis (Tz) passing through said upper ( 32 ) and lower ( 33 ) faces of said lens blank ( 1 ), relative to said ring ( 10 ), when said lens blank ( 1 ) is mounted on said ring ( 10 ). 3. The process as claimed in claim 1 , wherein said lens blank ( 1 ) further comprises a third mechanical or visual positioning guide ( 6 ) in said generally circular edge face ( 4 ) or at the periphery of said upper face ( 32 ); and said process further comprises a step ( 136 ) of visually or mechanically controlling the angular position of said lens blank ( 1 ) relative to said ring ( 10 ), which angular position is measured relative to an axis (Tz) passing through said upper ( 32 ) and lower ( 33 ) faces of said lens blank ( 1 ), when said lens blank ( 1 ) is mounted on said ring ( 10 ); and a step of determining a possible angular position error. 4. The process as claimed in claim 1 , further comprising a step of machining ( 137 ) said lower face ( 33 ) of said lens blank ( 1 ) in order to form said second face ( 3 ) of said optical lens. 5. The process as claimed in claim 4 , further comprising steps of: trimming ( 139 ) said lens blank ( 1 ) to a preset diameter; polishing ( 140 ) said previously machined second face ( 3 ); and engraving ( 141 ) said previously machined second face ( 3 ). 6. The process as claimed in claim 1 , further comprising a step of coating ( 132 ) said upper face ( 32 ) of said lens blank ( 1 ) before said step of mounting said lens blank ( 1 ) on said positioning ring ( 10 ). 7. The process as claimed in claim 1 , wherein said positioning ring ( 10 ) further comprises an injection channel ( 25 ) opening onto said cavity ( 13 ) and said step ( 135 ) of positionally blocking said lens blank ( 1 ) on said blocking and holding pin ( 30 ) comprises the step of injecting a binding material ( 31 ), into said injection channel ( 25 ). 8. The process as claimed in claim 1 , wherein said step of providing ( 131 ) said lens blank ( 1 ) further comprises step of: machining ( 123 ) said third mechanical positioning guide of said lens blank ( 1 ) into said outline of said lens blank ( 1 ). 9. The process as claimed in claim 1 , wherein said step of providing ( 131 ) said lens blank ( 1 ) further comprises a step of machining ( 110 ) said upper face ( 32 ) of said lens blank ( 1 ) in order to form said upper face ( 2 ) of said optical lens. 10. An assembly comprising a lens blank ( 1 ) for forming an optical lens having a first face ( 2 ) and a second face ( 3 ) opposite said first face ( 2 ), and a positioning ring ( 10 ) on which said lens blank ( 1 ) is mounted, which lens blank ( 1 ) has an upper face ( 32 ) for forming said first face ( 2 ) and a lower face ( 33 ), opposite said upper face ( 32 ), for forming said second face ( 3 ); wherein said lens blank ( 1 ) further comprises a generally circular edge face ( 4 ) forming a first mechanical positioning guide and at least one sloped portion ( 5 ) forming a second mechanical positioning guide, said at least one sloped portion ( 5 ) being located between said generally circular edge face ( 4 ) and said upper face ( 32 ); said positioning ring ( 10 ) has a generally cylindrical shape and comprises a cavity ( 13 ) defining a generally circular internal outline ( 20 ) forming a first complementary control guide, which internal outline ( 20 ) is concentric with said edge face ( 4 ) of said lens blank ( 1 ), and a shoulder ( 21 ) forming a second complementary control guide; said lens blank ( 1 ) being configured to be at least partially lodged in said cavity ( 13 ) of said ring ( 10 ), said edge face ( 4 ) of said lens blank ( 1 ) being configured to at least partially make contact with said internal outline ( 20 ) of said ring ( 10 ) and said at least one sloped portion ( 5 ) of said lens blank ( 1 ) being configured to also make contact with said shoulder ( 21 ) of said ring ( 10 ), wherein said lens blank ( 1 ) comprises a circular chamfer ( 5 ) forming said sloped portion, and said ring ( 10 ) comprises a ridge ( 22 ) defined by said shoulder ( 21 ), said circular chamfer ( 5 ) bearing against said ridge ( 22 ) when said lens blank ( 1 ) is partially lodged in said ring ( 10 ). 11. The assembly as claimed in claim 10 , wherein said circular chamfer ( 5 ) has a slope comprised between about 20° and about 45°. 12. The assembly as claimed in claim 10 , wherein said lens blank ( 1 ) further comprises a third mechanical positioning guide ( 6 ) in said generally circular edge face ( 4 ), and sai