Water separating device, filter element of a fuel filter and a fuel filter

What is claimed is: 1. A water separating device of a filter element for separating water from a liquid hydrocarbon, the water separating device comprising: a cylindrical coalescing medium configured as a hollow body and adapted to coalesce water droplets contained in a liquid hydrocarbon passing through the coalescing medium in a flow direction of the liquid hydrocarbon; a star-folded hydrophobic separating medium having a plurality of fold ridges and fold pockets, the star-folded separating medium configured as a hollow body and permeable for the liquid hydrocarbon, the star-folded separating medium arranged in a flow direction of the liquid hydrocarbon downstream of the cylindrical coalescing medium and configured to separate water droplets contained in the liquid hydrocarbon from the liquid hydrocarbon; wherein the star-folded hydrophobic separating medium has a radial inner side and a radial outer side; a support lattice having a plurality of fold ridges and fold pockets received into the fold ridges and fold pockets of the separating medium, the support lattice arranged at and directly on the radial inner side of the separating medium; an upper end disk arranged at a first axial end of the separating medium; a lower separating end disk arranged at an opposite second axial end of the separating medium; at least one precipitation gap formed between the cylindrical coalescing medium and the star-folded hydrophobic separating medium; a shape-stabilizing support body is star-shaped having a plurality of fold ridges and fold pockets received into the fold ridges and fold pockets of both the star-folded separating medium and the support lattice, the shape-stabilizing support body arranged directly on and supporting the star-folded hydrophobic separating medium, the shape-stabilizing support body having through openings having a diameter in a range of between 100 μm to less than 6 mm; wherein the star-folded hydrophobic separating medium having the support lattice is pushed onto the shape-stabilizing support body such that the support lattice is sandwiched between the star-folded hydrophobic separating medium and the shape-stabilizing support body; wherein the star-folded hydrophobic separating medium comprises through openings for the liquid hydrocarbon and the through openings have a diameter or a width in a range from 0.1 μm to less than 3 μm; wherein the shape-stabilizing support body has through openings for the liquid hydrocarbon; wherein the star-folded hydrophobic separating medium is arranged directly on a radially outer side of the shape-stabilizing support body; wherein a radially outer side of the shape-stabilizing support body has circumferential support sections conforming to and supporting the star-folded hydrophobic separating medium; wherein the support lattice and the separating medium are connected to the upper end disk and/or connected to the lower separating end disk; wherein the support lattice is a star-shaped support body having a plurality of zigzag folds. 2. The water separating device according to claim 1 , wherein the star-folded hydrophobic separating medium comprises polytetrafluoroethylene. 3. The water separating device according to claim 2 , wherein the star-folded hydrophobic separating medium comprises a porous medium layer comprised of said polytetrafluoroethylene. 4. The water separating device according to claim 3 , wherein the porous medium layer is a film or a membrane. 5. The water separating device according to claim 2 , wherein said polytetrafluoroethylene is a multi-directional polytetrafluoroethylene (ePTFE) in which the molecule fibers are oriented in different directions for added strength and creep resistance. 6. The water separating device according to claim 1 , wherein the star-folded hydrophobic separating medium has a circumferential side with an alternating course. 7. The water separating device according to claim 1 , further comprising a filter medium is a star-shape folded, circumferentially closed filter medium having radial inner fold edges and radially outer fold edges, the filter medium configured as a hollow body and adapted to filter the liquid fuel, wherein the filter medium is arranged in the flow direction of the liquid fuel upstream of the separating medium; wherein the filter medium is arranged in the flow direction of the liquid hydrocarbon upstream of the star-folded hydrophobic separating medium. 8. The water separating device according to claim 7 , wherein the filter medium surrounds the star-folded hydrophobic separating medium. 9. The water separating device according to claim 7 , wherein the filter medium is arranged in an interior of the star-folded hydrophobic separating medium. 10. The water separating device according to claim 9 , wherein the star-folded filter medium is arranged in an interior of the star-folded hydrophobic separating medium; wherein the water separating device is adapted to be arranged exchangeably in a housing having the filter medium, the water separating device exchangable separately from the filter medium and housing. 11. A filter element of a fuel filter of an internal combustion for filtration of a liquid fuel and for separation of water from the liquid fuel, the filter element comprising: a water separating device comprising: a cylindrical coalescing medium configured as a hollow body and adapted to coalesce water droplets contained in a liquid hydrocarbon passing through the coalescing medium in a flow direction of the liquid hydrocarbon; a star-folded hydrophobic separating medium having a plurality of fold ridges and fold pockets, the star-folded separating medium configured as a hollow body and permeable for the liquid hydrocarbon, the star-folded separating medium arranged in a flow direction of the liquid hydrocarbon downstream of the cylindrical coalescing medium and configured to separate water droplets contained in the liquid hydrocarbon from the liquid hydrocarbon; wherein the star-folded hydrophobic separating medium has a radial inner side and a radial outer side; a support lattice having a plurality of fold ridges and fold pockets received into the fold ridges and fold pockets of the separating medium, the support lattice arranged at and directly on the radial inner side of the separating medium; an upper end disk arranged at a first axial end of the separating medium; a lower separating end disk arranged at an opposite second axial end of the separating medium; at least one precipitation gap formed between the cylindrical coalescing medium and the star-folded hydrophobic separating medium; and a shape-stabilizing support body is star-shaped having a plurality of fold ridges and fold pockets received into the fold ridges and fold pockets of both the star-folded separating medium and the support lattice, the shape-stabilizing support body arranged directly on and supporting the star-folded hydrophobic separating medium, the shape-stabilizing support body having through openings having a diameter in a range of between 100 μm to less than 6 mm; wherein the star-folded hydrophobic separating medium having the support lattice is pushed onto the shape-stabilizing support body such that the support lattice is sandwiched between the star-folded hydrophobic separating medium and the shape-stabilizing support body; wherein the star-folded hydrophobic separating medium comprises through openings for the liquid hydrocarbon and the through openings have a diameter or a width in a range from 0.1 μm to less than 3 μm; wherein the shape-stabilizing support body has through openings for the liquid hydrocarbon; wherein the star-folded hydrophobic sepa