Rope winch

The invention claimed is: 1. A hoisting gear winch, comprising: a hoisting drum having a winding region bounded by first and second lateral flanged wheels, with at least a third flanged wheel provided between the first and second lateral flanged wheels, thereby dividing the winding region into at least two part winding regions, a cable run-in control apparatus, and a detection device which detects a cable run-in deflection angle, wherein a cable is configured to be guided beyond the third flanged wheel into the at least two part winding regions, wherein the hoisting drum is axially adjustable in the longitudinal direction of the drum, and the cable run-in control apparatus is configured to set at least two axial positions of the hoisting drum for the winding/unwinding of the at least two different part winding regions, respectively, wherein the cable run-in control apparatus axially adjusts the hoisting drum continuously or stepwise depending on the cable run-in deflection angle, wherein the third flanged wheel includes a cable guide channel having a run-in which is an end of the cable guide channel opening to a first winding region of the at least two part winding regions and a run-out which is an end of the cable guide channel opening to a second winding region of the at least two part winding regions, wherein the run-in of the cable guide channel is provided at a height corresponding to a topmost winding layer of a first winding region of the at least two part winding regions and the run-out of the cable guide channel is provided at a height corresponding to a lowermost winding layer of a second winding region of the at least two part winding regions, and wherein the height of the run-in is higher than a circumferential wall portion of the first winding region by more than twice the diameter of the cable. 2. The hoisting gear winch in accordance with claim 1 , wherein the hoisting drum is supported at oppositely disposed end sections by respective bearing slides, wherein the bearing slides are displaceably supported substantially parallel to the longitudinal direction of the hoisting drum, and wherein an actuating drive is associated with one of the bearing slides for adjusting the hoisting drum in the longitudinal direction thereof. 3. The hoisting gear winch in accordance with claim 2 , wherein the bearing slides are displaceable independently of one another and are only held relative to one another in the axial direction by the hoisting drum. 4. The hoisting gear winch in accordance with claim 1 , wherein the hoisting drum is configured to be tiltable, pivotable, or both tiltable and pivotable, about at least one transverse axis which is transverse to the longitudinal direction of the drum, and wherein the cable run-in control apparatus is configured to set at least two tilt/pivot positions of the hoisting drum for the winding/unwinding of the at least two different part winding regions, respectively, and wherein the cable run-in control apparatus adjusts the tilt/pivot positions of the hoisting drum depending on the cable run-in deflection angle. 5. The hoisting gear winch in accordance with claim 4 , wherein the hoisting drum is tiltable and pivotable about two different transverse axes which are each transverse to the longitudinal direction of the hoisting drum and which are transverse with respect to each other. 6. The hoisting gear winch in accordance with claim 5 , wherein the cable run-in control apparatus controls at least one of the tilt angle and pivot angle of the hoisting drum based on the run-in direction/run-off direction of the cable running into/off the hoisting drum. 7. The hoisting gear winch in accordance with claim 1 , wherein the hoisting drum is supported by respective bearing plates at oppositely disposed end sections, and wherein the bearing plates are tiltably adjustable by a tilt drive, are pivotably adjustable by a pivot drive, or are both tiltably adjustable by the tilt drive and pivotably adjustable by the pivot drive. 8. The hoisting gear winch in accordance with claim 1 , wherein a first end section of the hoisting drum is rotatably and tiltably supported at a bearing plane, wherein a second end section, disposed on an opposite side of the hoisting drum relative to the first end section, is coupled to at least one of a tilt drive, pivot drive or eccentric tappet, and wherein the second end section is adjustable relative to the first end section of the hoisting drum transversely to the longitudinal direction of the drum by actuating the at least one of the tilt drive, pivot drive or eccentric tappet. 9. The hoisting gear winch in accordance with claim 1 , wherein a cable run-in guide is provided for guiding run-in/run-off of the cable, wherein the cable run-in guide is adjustable axially in the longitudinal direction of the hoisting drum relative to the hoisting drum, and wherein the cable run-in control apparatus is configured to set at least two axial positions of the cable run-in guide for the winding/unwinding of the at least two different part winding regions, respectively. 10. The hoisting gear winch in accordance with claim 9 , wherein the cable run-in guide comprises an axially adjustable cable deflection roller and an actuating drive associated with the axially adjustable cable deflection roller. 11. The hoisting gear winch in accordance with claim 9 , wherein the cable run-in guide comprises axially adjustable cable guide means arranged between the hoisting drum and the cable deflection roller, wherein the cable deflection roller is supported in at least one of an oscillating manner and a pivotable manner, and wherein the cable deflection roller aligns itself with respect to the transverse cable guide means in accordance with the axial position of the transverse cable guide means. 12. The hoisting gear winch in accordance with claim 9 , wherein the cable run-in control apparatus is configured to hold at least one of the hoisting drum and the cable run-in guide at a first part winding region in a first axial adjustment region or at a second part winding region in a second axial adjustment region, and wherein the first and second axial adjustment regions do not overlap. 13. The hoisting gear winch in accordance with claim 9 , wherein the cable run-in control apparatus is configured to hold at least one of the hoisting drum and the cable run-in guide at an axial position of the third flanged wheel, such that the cable runs substantially deflection-free onto the third flanged wheel. 14. The hoisting gear winch in accordance with claim 9 , wherein the cable run-in control apparatus axially adjusts at least one of the hoisting drum and the cable run-in guide continuously or stepwise depending on at least one of revolution of the hoisting drum, a rotational position of the hoisting drum, a rotational speed of the hoisting drum, and a winch pitch. 15. The hoisting gear winch in accordance with claim 9 , wherein the cable run-in control apparatus axially adjusts the cable run-in guide continuously or stepwise depending on the cable run-in deflection angle. 16. The hoisting gear winch in accordance with claim 9 , wherein the cable run-in control apparatus provides only one axial position of at least one of the hoisting drum and the cable run-in guide for each part winding region. 17. The hoisting gear winch in accordance with claim 1 , wherein the rotational speed of the hoisting drum is reduced by a control apparatus when the cable moves beyond the third flanged wheel. 18. The hoi