Oil-separating device, in particular for a crankcase ventilation system of an internal combustion engine

The invention claimed is: 1. An oil-separating device for crankcase ventilation of an internal combustion engine having a gas flow charged with oil, the oil-separating device comprising: a hollow housing for receiving the gas flow in a downstream direction, the hollow housing extending axially in a longitudinal axis and including an oil separation ring; a flow guide that is substantially rotationally-symmetrical and is arranged in the hollow housing, the flow guide having a flow projection oriented in the longitudinal axis and a flow contour that expands radially outward in the downstream direction such that the gas flow accelerates due to flow constriction as the gas flow passes around the flow guide and approaches the oil separation ring; a tubular oil separation sleeve positioned in the hollow housing downstream of the oil separation ring; a redirection member positioned downstream of the flow guide for redirecting the gas flow against an inner side of the oil separation sleeve, the redirection member having a redirection tip and extending from the redirection tip in a substantially rotationally-symmetrical manner about the longitudinal axis; and an intermediate frame disposed between the oil separation ring and the redirection member, the intermediate frame having radial gaps through which the gas flow strikes the inner side of the oil separation sleeve in an accelerated manner. 2. The oil-separating device of claim 1 , wherein the flow contour of the flow guide is convex. 3. The oil-separating device of claim 1 , wherein the oil separation ring is formed at least partially from a nonwoven material. 4. The oil-separating device of claim 3 , wherein a level of gas-permeability of the nonwoven material permits the gas flow to partially flow through the nonwoven material. 5. An oil-separating device for crankcase ventilation of an internal combustion engine having a gas flow charged with oil, the oil-separating device comprising: a hollow housing for receiving the gas flow in a downstream direction, the hollow housing extending axially in a longitudinal axis; an oil separation ring positioned inside the hollow housing, at least a portion of the oil separation ring abutting an inner face of the hollow housing, the oil separation ring having a carrier ring and a gas-permeable nonwoven material at least partially received in the carrier ring; a flow guide that is substantially rotationally-symmetrical and is arranged in the hollow housing, the flow guide having a trailing edge that is entirely upstream of the oil separation ring, the flow guide having a flow projection oriented in the longitudinal axis and a flow contour that expands radially outward in the downstream direction such that the gas flow accelerates due to flow constriction as the gas flow passes around the flow guide and approaches the oil separation ring; a tubular oil separation sleeve positioned in the hollow housing downstream of the oil separation ring; a redirection member positioned downstream of the flow guide for redirecting the gas flow against an inner side of the oil separation sleeve, the redirection member having a redirection tip and extending from the redirection tip in a substantially rotationally-symmetrical manner about the longitudinal axis; and an intermediate frame disposed between the oil separation ring and the redirection member, the intermediate frame having radial gaps through which the gas flow strikes the inner side of the oil separation sleeve in an accelerated manner; wherein the flow guide is separated by a minimum constriction distance from the housing inner face; wherein an upstream edge of the nonwoven material extends away from the housing inner face a striking distance; and wherein the striking distance is greater than the minimum constriction distance. 6. The oil-separating device of claim 5 , wherein: the flow contour of the flow guide is convex along a first portion of the flow guide; and the flow contour of the flow guide is concave along a second portion of the flow guide, the second portion of the flow guide being located after the flow guide trailing edge. 7. The oil-separating device of claim 5 , further comprising a plurality of retention ribs coupling the flow guide to the hollow housing. 8. The oil-separating device of claim 5 , wherein the oil separation ring includes an opening for passing the oil from the nonwoven material to travel in the downstream direction along the hollow housing inner face. 9. The oil-separating device of claim 5 , wherein a level of gas-permeability of the nonwoven material permits the gas flow to partially flow through the nonwoven material.