Device for recovering energy

What is claimed is: 1. A device for recovering energy in working machines with at least one power drive actuatable to move a load mass back and forth and with an energy storage system absorbing energy released in movement of the load mass in a first direction and making that energy available for subsequent movement in a second direction, the device comprising: an accumulator cylinder mechanically coupled to the load mass, storing pneumatic pressure in the first direction and acting as an auxiliary working cylinder supporting the power drive in the second direction by converting stored pressure energy into a driving force, said accumulator cylinder including a cup having an open end and an inner surface, a piston movable within said cup and having an outside surface and an open end with said cup and said piston forming a main chamber in said accumulator cylinder, a first surface guide on said open end of said cup engaging said outside surface of said piston, guiding movement of said piston and spacing said outside surface of said piston from said inner surface of said cup at a distance, a second guide on said open end of said piston engaging said inner surface of said cup, guiding movement of said piston and spacing said outside surface of said piston from said inner surface of said cup at the distance, and an oil gap defined by and formed and maintained between said first and second guides and between said outside surface of said piston and said inner surface of said cup, and an axially movable seal in said oil gap separating an oil side with an oil charge from a gas side with a gas charge forming a hydraulic accumulator in said oil gap, said gas side being sealed and blocked from fluid communication with said main chamber. 2. A device according to claim 1 wherein said accumulator cylinder is an auxiliary working cylinder coupled to a load mass movable between raised and lowered positions and stores potential energy released in a lowering process as pneumatic energy. 3. A device according to claim 1 wherein said piston comprises a hollow piston rod having an inner chamber, said chamber containing essentially an entire volume of working gas in said accumulator cylinder in a fully retracted position of said piston in said cup. 4. A device according to claim 1 wherein said cup comprises a closed bottom having a filler port for a working gas. 5. A device according to claim 4 wherein said working gas is nitrogen gas. 6. A device according to claim 4 wherein said first guide extends radially inwardly and has a seal on a free end thereof; and said second guide extends radially outwardly and has a seal on a free end thereof. 7. A device according to claim 1 wherein said accumulator cylinder comprises an auxiliary working cylinder mechanically shunted to a hydraulic working cylinder actuatable by a hydraulic system and used as the power drive. 8. A device according to claim 1 wherein said gas side is filled with nitrogen. 9. A device according to claim 1 wherein said piston comprises an inner chamber filed with a foam material. 10. A device according to claim 1 wherein said gas side and said oil side comprise separately sealed chambers within said oil gap without fluid connections to outside said oil gap. 11. A device according to claim 1 wherein said gas side comprises a chamber sealed from an exterior of said piston. 12. A device according to claim 1 wherein said cup has a hollow interior extending from said open end thereof; said piston has a hollow interior extending coaxially from said open end thereof and opening on said hollow interior of said cup. 13. A device according to claim 1 wherein each of said cup and said piston has a closed end opposite said first end thereof; and said first and second guides extend radially inwardly and outwardly, respectively, relative to longitudinal axes of said cup and said piston and have axially facing surfaces defining axial end of said oil gap. 14. A device according to claim 13 wherein said first and second guides have first and second seals, respectively, mounted on radial free ends thereof. 15. A device for recovering energy in working machines with at least one power drive actuatable to move a load mass back and forth and with an energy storage system absorbing energy released in movement of the load mass in a first direction and making that energy available for subsequent movement in a second direction, the device comprising: an accumulator cylinder mechanically coupled to the load mass, storing pneumatic pressure in the first direction and acting as an auxiliary working cylinder supporting the power drive in the second direction by converting stored pressure energy into a driving force, said accumulator cylinder including a cup having an open end and an inner surface with a first diameter surrounding a hollow interior extending from said open end of said cup, a piston movable within said cup and having a piston rod including an outer surface with a second diameter less than said first diameter to define an oil gap between said outer surface of said piston rod and said inner surface of said cup, said cup and said piston forming a main chamber in said accumulator cylinder, said piston rod having a hollow inner chamber extending from an open end of said piston and being open to said hollow interior of said cup, and an axially movable seal in said oil gap separating an oil side with an oil charge from a gas side with a gas charge forming a hydraulic accumulator in said oil gap, said gas side being sealed and blocked from fluid communication with said main chamber. 16. A device according to claim 15 wherein said inner chamber is filled with a foam material. 17. A device according to claim 15 wherein a first guide is on an open end of said cup and engages said outer surface of said piston rod; and a second guide is on an axial end of said piston rod and engages said inner surface of said cup, said oil gap being defined between said first and second guides. 18. A device according to claim 15 wherein said first guide extends radially inwardly and has a seal on a free end thereof; and said second guide extends radially outwardly and has a seal on a free end thereof. 19. A device according to claim 15 wherein said gas side and said oil side comprise separately sealed chambers within said oil gap without fluid connections to outside said oil gap. 20. A device according to claim 15 wherein said gas side comprises a chamber sealed from an exterior of said piston. 21. An accumulator cylinder, comprising: a cup having an open end and an inner surface defining a main chamber; a piston movable within said cup and having an outside surface and an open end and an opposite closed end, said cup and said piston forming a main chamber; a first guide on said open end of said cup engaging said outside surface of said piston, guiding movement of said piston and spacing said outside surface of said piston from said inner surface of said cup at a distance; a second guide on said open end of said piston engaging said inner surface of said cup, guiding movement of said piston and spacing said outside surface of said piston from said inner surface of said cup at the distance; an oil gap defined by and formed and maintained between said first and second guides and between said outside surface of said piston and said inner surface of said cup; and an axially movable seal in said oil gap separating an