Hydraulic suspension damper with hydro-mechanical stroke stop

What is claimed is: 1. A hydraulic suspension damper ( 1 ) assembly comprising; a tube ( 2 ) disposed on a center axis extending between an opened end and a closed end defining a compartment for containing a working liquid, a main piston ( 3 ) slidably disposed in said compartment dividing said compartment into a compression chamber ( 9 ) between said main piston ( 3 ) and said closed end and a rebound chamber ( 7 ) between said main piston ( 3 ) and said opened end, a piston rod ( 4 ) attached to said main piston ( 3 ) and axially movable along said center axis between a compression stroke with said main piston ( 3 ) moving toward said closed end and a rebound stroke with said main piston ( 3 ) moving toward said opened end, a rod guide ( 5 ) disposed at said opened end for receiving said piston rod ( 4 ), a stroke stop arrangement ( 11 ) including an insert ( 12 ) disposed in said rebound chamber ( 7 ) having a narrowed section ( 124 ) including an inner surface defining an inlet ( 125 ) for allowing the working liquid to flow into said insert ( 12 ) and providing additional damping force in response to an axial movement of the said piston rod ( 4 ) and said main piston ( 3 ), said stroke stop arrangement ( 11 ) including an additional piston ( 13 ) disposed in said rebound chamber ( 7 ) and attached to said piston rod ( 4 ) between said rod guide ( 5 ) and said main piston ( 3 ) and slidable in said insert ( 12 ) to provide the additional damping force, said additional piston ( 13 ) includes a shaped sleeve ( 134 ) having an inner axial rim ( 1343 ) extending between an upper surface disposed adjacent to said main piston ( 3 ) and a base ( 1355 ), said inner axial rim ( 1343 ) defining at least one axial channel ( 1341 ) extending axially from said upper surface toward said base ( 1355 ) for allowing the working liquid to flow through said shaped sleeve ( 134 ), a sealing ring ( 133 ) disposed annularly about said inner axial rim ( 1343 ) of said shaped sleeve ( 134 ) between said upper surface and said base ( 1355 ) and movable along said center axis between an unblocked position with said sealing ring ( 133 ) being disposed adjacent said base ( 1355 ) to establish fluid communication between said rebound chamber ( 7 ) and said compression chamber ( 9 ) and said axial channels ( 1341 ) and said rebound chamber ( 7 ) and a block position with said sealing ring ( 133 ) being disposed adjacent to said upper surface to close fluid communication between said rebound chamber ( 7 ) and said axial channel ( 1341 ) and said compression chamber ( 9 ) to provide the additional damping force, and a supporting sleeve ( 132 ) disposed adjacent to said upper surface of said inner axial rim ( 1343 ) for receiving said sealing ring ( 133 ) in said block position. 2. The assembly as set forth in claim 1 wherein said inner surface of said narrowed section ( 124 ) defining at least one recess ( 123 ) extending axially along said insert ( 12 ) and disposed in fluid communication with said compression chamber ( 9 ) for allowing the working liquid to flow from said rebound chamber ( 7 ) to said compression chamber ( 9 ) in response to said main piston ( 3 ) and said additional piston ( 13 ) moving from said compression stroke to said rebound stroke. 3. The assembly as set forth in claim 2 wherein said at least one recess ( 123 ) includes a plurality of three recesses ( 123 ). 4. The assembly as set forth in claim 3 wherein each of said plurality of three recesses ( 123 ) are disposed equidistantly and spaced from one another. 5. The assembly as set forth in claim 1 wherein said insert ( 12 ) defines at least one axial groove ( 122 ) disposed in fluid communication said inlet ( 125 ) and extending from said narrowed section ( 124 ) parallel to said center axis and terminating at a proximate end before said rod guide ( 5 ). 6. The assembly as set forth in claim 5 wherein said at least one recess ( 123 ) is disposed in fluid communication with said at least one axial groove ( 122 ). 7. The assembly as set forth in claim 6 wherein said at least one axial groove ( 122 ) further includes a plurality of six axial grooves ( 122 ) each of a conical shape and disposed equidistantly from one another and defining a depth and extending from said narrowed section ( 124 ) toward said rod guide ( 5 ) parallel to said center axis and terminating at said proximate end with said depth gradually decrease from said inlet ( 125 ) to said proximate end. 8. The assembly as set forth in claim 1 wherein said additional piston ( 13 ) includes a bumper ( 135 ) disposed in said rebound chamber ( 7 ) and attached to said piston rod ( 4 ) between said rod guide ( 5 ) and said main piston ( 3 ) and extending outwardly from said piston rod ( 4 ). 9. The assembly as set forth in claim 8 further including a spring ( 14 ) disposed in said rebound chamber ( 7 ) and extending helically about said piston rod ( 4 ) between said bumper ( 135 ) and said rod guide ( 5 ) for providing elastic damping force during said rebound stroke. 10. The assembly as set forth in claim 8 wherein said shaped sleeve ( 134 ) has a cylindrical shape with said upper surface being disposed adjacent to said main piston ( 3 ) and said base ( 1355 ) being disposed adjacent to said bumper ( 135 ). 11. The assembly as set forth in claim 1 wherein said shaped sleeve ( 134 ) is made of plastic material. 12. The assembly as set forth in claim 1 wherein said at least one axial channel ( 1341 ) defines a plurality of eight axial channels ( 1341 ) with each of said axial channels ( 1341 ) disposed equidistantly spaced from one another. 13. The assembly as set forth in claim 1 wherein said seal ring has a circular shape and is made from a metallic material. 14. The assembly as set forth in claim 1 wherein said supporting sleeve extends annularly outwardly from said center axis to receive said seal ring in said block position. 15. The assembly as set forth in claim 14 wherein said additional piston ( 13 ) includes a retaining ring ( 131 ) attached to said piston rod ( 4 ) and extending annularly about said piston rod ( 4 ) and abutting said supporting sleeve ( 132 ) to secure said supporting sleeve ( 132 ) and said inner axial rim ( 1343 ) between said bumper ( 135 ) and said retaining ring ( 131 ). 16. The assembly as set forth in claim 1 wherein said base ( 1355 ) of said inner axial rim ( 1343 ) includes a catch extending radially outwardly from said base ( 1355 ) of said inner axial rim ( 1343 ) and an outer axial rim ( 1344 ) extending outwardly from said catch spaced from said inner axial rim ( 1343 ) parallel to said center axis toward said upper surface of said center axis for receiving said sealing ring ( 133 ) in said unblocked position. 17. The assembly as set forth in claim 16 wherein said outer axial rim ( 1344 ) defines at least one radial channel ( 1342 ) disposed in fluid communication with said axial channel ( 1341 ) for allowing the working liquid to flow through said shaped sleeve ( 134 ). 18. The assembly as set forth in claim 17 wherein said at least one radial channel ( 1342 ) includes a plurality of eight radial channels ( 1342 ) with each of said radial channels ( 1342 ) disposed equidistantly from one another.