Separating device for fluid media

The invention claimed is: 1. A separating device for fluid media and receivable in a working housing to separate two media chambers in the working housing from one another, said separating device comprising: a separating piston having an outer circumference; a guide extending at least partially along said outer circumference adapted to rest slidingly against an inner wall of the working housing during a transversing movement of said separating piston in the working housing, said guide being an integral component of said separating piston; and a piston head on said separating piston forming a partition wall between the two media chambers of the working housing, said piston head having a curvature extending into an inside of said separating piston, said curvature forming a part of a spherical surface. 2. A separating device according to claim 1 wherein said guide comprises a guide ring formed directly on said separating piston. 3. A separating device according to claim 2 wherein said guide ring is formed on a first end region of said separating piston. 4. A separating device according to claim 3 wherein a circumferential annular groove is formed on a second end region of said separating piston and receives a piston seal ring, said first end region being opposite said second end region. 5. A separating device according to claim 2 wherein said guide ring forms a part of a guide surface forming part of a cylinder jacket interacting with a circular cylindrical inner wall of the working housing. 6. A separating device according to claim 1 wherein said piston head of said separating piston forms a hemispherical-shaped dome opening towards a side of said separating piston; and ribs extend on an inside surface of said dome along circles of longitude to a center of a hemisphere of said dome from an equatorial plane defined by said opening of said dome. 7. A separating device according to claim 1 wherein said dome of said piston head comprises an outer surface extending at a region at a center of said dome to a height adjacent an end region of said separating piston. 8. A separating device according to claim 4 wherein plate-shaped reinforcement ribs extend in radial directions, are uniformly spaced from one another and connect said guide and said piston head of said separating piston. 9. A separating device according to claim 8 wherein said reinforcement ribs have outer end edges offset radially inward from said outer circumference of said separating piston in an axial region of said separating piston located between said guide ring and said circumferential annular groove. 10. A separating device according to claim 8 wherein said reinforcement ribs have outer end edges extending between said guide ring and said circumferential annular groove and extending inward with radial curves starting at said guide ring. 11. A separating device according to claim 8 wherein said piston head of said separating piston forms a hemispherical-shaped dome opening towards a side of said separating piston; and said reinforcement ribs have upper edges lying in a same plane as an upper outer surface of said dome and an end edge of said guide ring defining an end of said separating piston. 12. A separating device according to claim 11 wherein said reinforcement ribs have outer end edges facing said circumferential annular groove and being adjacent to said upper outer surface of said dome at places axially offset relative to a facing wall of said circumferential annular groove. 13. A separating device for fluid media and receivable in a working housing to separate two media chambers in the working housing from one another, said separating device comprising: a separating piston having an outer circumference and a piston head forming a partition wall between the two media chambers of the working housing; a guide ring extending at least partially along said outer circumference adapted to rest slidingly against an inner wall of the working housing during a transversing movement of said separating piston in the working housing, said guide ring being an integral component of said separating piston at a first end region of said separating piston; a circumferential annular groove formed in a second end region of said separating piston, said second end region being opposite said first end region; plate-shaped reinforcement ribs extending in radial directions and connecting said guide ring and said piston head of said separating piston, said reinforcement ribs having outer end edges extending between said guide ring and circumferential annular groove and extending inward with radial curves starting at said guide ring. 14. A separating device for fluid media and receivable in a working housing to separate two media chambers in the working housing from one another, said separating device comprising: a separating piston having an outer circumference and a piston head forming a partition wall between the two media chambers of the working housing, said piston head forming a hemispherical-shaped dome opening towards a side of said separating piston; a guide ring extending at least partially along said outer circumference adapted to rest slidingly against an inner wall of the working housing during a transversing movement of said separating piston in the working housing, said guide ring being an integral component on said separating piston; and plate-shaped reinforcement ribs extending in radial directions and connecting said guide ring and said piston head of said separating piston, said reinforcement ribs having upper edges lying in a same plane as an upper outer surface of said dome and an end edge of said guide ring defining an end of said separating piston. 15. A separating device for fluid media and receivable in a working housing to separate two media chambers in the working housing from one another, said separating device comprising: a separating piston having an outer circumference and a piston head forming a partition wall between the two media chambers of the working hosing, said piston head forming a hemispherical-shaped dome opening towards a side of said separating piston; a guide ring extending at least partially along said outer circumference adapted to rest slidingly against an inner wall of the working housing during a transversing movement of said separating piston in the working housing, said guide ring being an integral component of said separating piston at a first end region of said separating piston; a circumferential annular groove formed in a second end region of said separating piston, said first end region being opposite said second end region; and plate-shaped reinforcement ribs extending in radial directions and connecting said guide ring and said piston head of said separating piston, said reinforcement ribs having outer end edges facing said circumferential annular groove and being adjacent an upper outer surface of said dome at places axially offset relative to a facing wall of said circumferential annular groove.