Method of dip-coating a segmented multifocal lens

The invention claimed is: 1. A method of dip-coating a segmented multifocal lens ( 1 ) having a segment ( 4 ) with a curved portion ( 5 ) and a straight line portion ( 6 ), the method comprising the steps of: placing the lens ( 1 ) on a basket support ( 21 ); immersing the lens ( 1 ) vertically in a coating solution bath ( 16 ) having a horizontal coating solution surface (H); and withdrawing the lens ( 1 ) vertically from said bath ( 16 ) through said solution surface (H); wherein the step of placing the lens ( 1 ) is performed such that the straight line portion ( 6 ) of the lens ( 1 ) is in a vertical plane (P); and wherein, before or during said step of immersing the lens ( 1 ), said lens ( 1 ) is inclined to an inclined position between a vertical position and a horizontal position of the lens ( 1 ), in which inclined position said segment ( 4 ) is downwardly inclined and said straight line portion ( 6 ) of said segment ( 4 ) remains in said vertical plane (P). 2. The method according to claim 1 , wherein the step of placing the lens ( 1 ) on the basket support ( 21 ) is performed such that the lens ( 1 ) is in a vertical position in which the straight line portion ( 6 ) of the lens ( 1 ) is vertical; and between the steps of placing and immersing the lens ( 1 ) or during the step of immersing the lens ( 1 ), the method further comprises the step of moving the basket support ( 21 ) with a movement of circular translation of the basket support ( 21 ), by virtue of which the lens ( 1 ) is inclined to said inclined position. 3. The method according to claim 1 , wherein the lens ( 1 ) is withdrawn with a constant withdrawal speed in a range from about 1 mm/s to about 2 mm/s. 4. The method according to claim 1 , wherein the coating solution ( 30 ) has a viscosity comprised in a range from about 3.8 mPa·s to about 4.3 mPa·s. 5. The method according to claim 1 , wherein the coating solution ( 30 ) has a solids content comprised in a range from about 34% to about 36%. 6. The method according to claim 1 , wherein the lens has a first surface ( 2 ) and a second surface ( 3 ) to be dip-coated and a circle arc reference line (L) intermediate said first surface ( 2 ) and said second surface ( 3 ), and the lens ( 1 ) is inclined such that the angle which the horizontal coating solution surface (H) makes with the circle arc reference line (L) in the inclined position of the lens ( 1 ) is constant during the steps of immersing and withdrawing the lens ( 1 ), and the angle is comprised in a range from about 25° to about 40°. 7. The method according to claim 1 , wherein the basket support ( 21 ) is fixed to a carriage structure ( 20 ), and the carriage structure ( 20 ) comprises at least one arm ( 29 , 32 ) configured to maintain the lens ( 1 ) in its inclined position during the steps of immersing and withdrawing the lens ( 1 ). 8. The method according to claim 7 , wherein the lens ( 1 ) comprises a rim ( 7 ) having at least one notch ( 8 ), and said at least one arm ( 29 , 32 ) of the carriage structure ( 20 ) comprises an end ( 34 , 23 ) configured to be inserted into the slot ( 8 ) to bear the lens ( 1 ) when the lens ( 1 ) is placed on the basket support ( 21 ) and during the steps of immersing and withdrawing the lens ( 1 ). 9. The method according to claim 8 , wherein the lens ( 1 ) is inclined with a movement which is made with an axis of rotation (R) passing through said at least one notch ( 8 ). 10. The method according to claim 1 , wherein the basket support ( 21 ) has at least one groove ( 28 ), and the lens ( 1 ) comprises a rim ( 7 ) having a portion ( 26 ) placed in said at least one groove ( 28 ) when the lens ( 1 ) is placed on the basket support ( 21 ), said groove ( 28 ) having a curved shape which is configured such that said portion ( 26 ) of the rim ( 7 ) remains in said groove ( 28 ) when the lens ( 1 ) is inclined. 11. A carriage device for use in the method according to claim 1 , comprising a carriage structure ( 20 ) and a basket support ( 21 ) hung from the carriage structure ( 20 ), the basket support ( 21 ) being configured to receive at least one lens ( 1 ) to be dip-coated and the carriage structure ( 20 ) comprising at least one arm ( 29 , 32 ) configured to bear the at least one lens ( 1 ), wherein the basket support ( 21 ) is movable with a movement of circular translation relative to the carriage structure ( 20 ) to incline the at least one lens ( 1 ) placed on the basket support ( 21 ) to an inclined position between a vertical position and a horizontal position of the at least one lens ( 1 ). 12. The carriage device according to claim 11 , wherein the basket support ( 21 ) comprises two links ( 25 ) attached to the carriage structure ( 20 ) and a bottom plate ( 27 ) joining the two links ( 25 ), the bottom plate ( 27 ) being horizontal and being articulated relative to each link ( 25 ), and each link ( 25 ) being articulated relative to the carriage structure ( 20 ) via respective pivot points ( 31 ), said pivot points ( 31 ) being in the same horizontal plane (A), by virtue of which the basket support ( 21 ) is movable with a movement of circular translation and the bottom plate ( 27 ) remains horizontal. 13. The carriage device according to claim 12 , wherein the basket support ( 21 ) further comprises a lever ( 24 ) fixed to one of said links ( 25 ), said lever ( 24 ) being movable and configured to impart the circular translation movement to the basket support ( 21 ). 14. The carriage device according to claim 13 , wherein it further comprises a guide rail ( 35 ) on which the lever ( 24 ) is disposed, said guide rail ( 35 ) preferably being arcuate. 15. The carriage device according to claim 14 , wherein the guide rail ( 35 ) comprises a stop member ( 36 ) which is movable and the lever ( 24 ) is configured to come into abutment against said stop member ( 36 ). 16. The carriage device according to claim 12 , wherein the bottom plate ( 27 ) comprises at least one groove ( 28 ) configured to receive at least one lens ( 1 ). 17. The carriage device according to claim 12 , wherein the at least one arm ( 29 , 32 ) of the carriage structure ( 20 ) is configured to bear the lens at a fixed point ( 8 ) which passes through an axis (R) around which the lens ( 1 ) is inclined, said axis (R) belonging to the same horizontal plane (A) as that of the pivot points. 18. The carriage device according to claim 11 , wherein the at least one arm ( 29 , 32 ) of the carriage structure ( 20 ) is articulated. 19. A segmented multifocal lens treatment system comprising a carriage device according to claim 11 and a trigger tool ( 15 ) configured to impart the circular translation movement to the basket support ( 21 ). 20. The treatment system according to claim 19 , wherein the trigger tool ( 15 ) comprises a rod ( 39 ) which is movable and the carriage device ( 20 ) comprises a lever ( 24 ) which is movable to impart the circular translation movement to the basket support ( 21 ) and which is configured to enter into contact with said rod ( 39 ), and the trigger tool ( 15 ) further comprises damper means ( 41 ) configured to absorb a shock when the lever ( 24 ) enters into contact with said rod ( 39 ) and a travel limiting member ( 41 ) configured to block said rod ( 39 ), by virtue of which the rod ( 39 ) imparts a movement to the lever ( 24 ).