Filter device

The invention claimed is: 1. A filter device, comprising: a first port connectable to a hydraulic operating circuit; a tank or return port; a first filter element in fluid communication with said first port; a second port connectable to a leak-oil flow from hydraulic components; a first check valve being in a first line connecting said first and second ports in fluid communication and being openable toward said first port to allow leakage oil from said second port to be conveyed to said first filter element if pressure at said first port fails to exceed a first predetermined working pressure; and a second check valve being connected in a second line connecting in fluid communication said second port and said tank or return port and being openable when a desired range of leakage pressure at said second check valve is exceeded connecting said second port to said tank or return port, said second line being parallel to a line in which said first filter element is located. 2. A filter device according to claim 1 wherein said first check valve connects said first and second ports in fluid communication when leak-oil pressure at said second port exceeds the working pressure at said first port. 3. A filter device according to claim 1 wherein a second filter element is in said second line and has a filter grade coarser than a filter grade of said first filter element, said first filter element being in fluid communication between said first port and said tank or return port. 4. A filter device according to claim 3 wherein a third check valve is in a third line connecting said first port to said second port in fluid communication and is openable as soon as a pre-determined maximum value of the working pressure at said first port is exceeded, thereby by bypassing said first filter element via said second filter element. 5. A filter device according to claim 3 wherein a fourth check valve is in a fourth line connecting said second port to said tank or return port in fluid communication and bypassing said second filter element when said fourth check valve opens upon pressure being applied to said second port. 6. A filter device according to claim 5 wherein a strainer is located in said fourth line. 7. A filter device according to claim 3 wherein a supply port is connected to a clean side of at least one of said first filter element or said second filter element to feed filtered hydraulic fluid to hydrostatic components connectable to said supply port. 8. A filter device according to claim 7 wherein said supply port is connected to said tank or return port via replenishment lines having a fifth check valve therein as a suction valve and having a sixth check valve therein preloading hydraulic fluid at said supply port. 9. A filter device according to claim 8 wherein said replenishment lines have a suction filter therein filtering replenishment fluid volumes conveyed therethrough, said suction filter being connected in series with said fifth check valve. 10. A filter device according to claim 3 wherein a filter housing receives said first and second filter elements therein and defines a longitudinal axis, said first filter element being a microfilter, said first and second filter elements being arranged sequentially and interconnected in said filter housing. 11. A filter device according to claim 10 wherein said filter housing comprises a removable head piece and a bottom part, said first filter element being adjacent said head piece, said second filter element being adjacent said bottom port. 12. A filter device according to claim 11 wherein upper and lower fluid chambers are formed between an inner side of said filter housing and outer sides of filter media between said first and second filter elements inside said filter housing and are separated by a seal at a transition area of said first and second filter elements, said upper fluid chamber being adjacent said first fluid element, said lower fluid chamber being adjacent to said second filter element. 13. A filter device according to claim 12 wherein said first and second check valves are disposed is said transition area. 14. A filter device according to claim 2 wherein each of said first and second filter elements comprises an external filter medium surrounding a support body forming a clean-side chamber between a fluid-permeable outer wall and a closed inner wall of the respective support body, each clean-side chamber forming a clean side of the respective filter element for receiving filtered hydraulic fluid. 15. A filter device according to claim 14 wherein said closed inner walls of said support bodies form an inner tube providing a continuous fluid path from said head piece to said bottom part. 16. A filter device according to claim 15 wherein said first and second ports and fluid guides connecting said first port to said upper fluid chamber and said second port to said continuous fluid path in said inner tube formed by said closed inner walls of said support bodies are provided of said head piece. 17. A filter device according to claim 11 wherein a third check valve is in a third line connecting said first port to said second port in fluid communication and is openable as soon as a pre-determined maximum value of the working pressure at said first port is exceeded, thereby by bypassing said first filter element via said second filter element; and said third check valve is located between said first and second ports in said head piece. 18. A filter device according to claim 14 wherein said clean-side chambers inside said support bodies are connected in fluid communication to said tank or return port via fluid paths in said bottom part of said filter housing. 19. A filter device according to claim 15 wherein a fourth check valve is in a fourth line connecting said second port to said tank or return port in fluid communication and bypassing said second filter element when said fourth check valve opens upon pressure being applied to said second port; and said fourth check valve is in said bottom part of said filter housing and normally closes said inner tube in said support bodies or closes an outlet of said inner tube leading to said tank or return port upon said fourth check valve being actuated by fluid pressure. 20. A filter device according to claim 19 wherein a strainer is located in said fourth line; and said strainer is disposed upstream of said fourth check valve at an end of said inner tube. 21. A filter device according to claim 11 wherein a supply port is connected to a clean side of at least one of said first filter element or said second filter element to feed filtered hydraulic fluid to hydrostatic components connectable to said supply port; said supply port is connected to said tank or return port via replenishment lines having a fifth check valve therein as a suction valve and having a sixth check valve therein preloading hydraulic fluid at said supply port; and said fifth check valve is provided at outlets of said bottom port of said filter housing. 22. A valve device according to claim 21 wherein an additional outlet leading to said tank or return port is provided in said bottom part of said valve housing; and said sixth check valve is a counterbalance valve and connects clean sides of said first and second filter elements to said additional outlet in said bottom part upon reaching a desired amount of preloading. 23.