Clutch System

1 . A clutch system for coupling a drive shaft of a motor vehicle engine to a transmission input shaft of a motor vehicle transmission, comprising a friction clutch for transmitting a torque between a torque-introducing element and a torque-discharging element, a ramp system for an axial displacement of a pressure plate of the friction clutch, wherein the ramp system has an input ramp and an output ramp, which can be turned in relation to the input ramp to change an axial extent of the ramp system, a pilot clutch for actuating the ramp system based on a differential speed between the torque-introducing element and the torque-discharging element, an electromagnet for a magnetic actuation of the pilot clutch, wherein the pilot clutch is arranged between the friction clutch and the electromagnet in an axial direction and the ramp system is arranged radially on an inside thereof in relation to the pilot clutch and/or in relation to the friction clutch. 2 . The clutch system as claimed in claim 1 , wherein on an output side or on an input side, the friction clutch is mounted radially on the inside by a radially extending supporting disk, the supporting disk has an axial outer side facing away from the friction clutch, a tie rod is coupled to the pilot clutch by way of a fastening finger extending through the supporting disk and the tie rod is arranged between the electromagnet and the axial outer side of the supporting disk. 3 . The clutch system as claimed in claim 2 , further comprising: a fixed module carrier arranged for holding the electromagnet, wherein the supporting disk is mounted on the module carrier, and the module carrier has a disk part extending in a radial direction for a fastening of the electromagnet and an axially extending tube part for mounting of the supporting disk. 4 . The clutch system as claimed in claim 2 , wherein the supporting disk has a partly annular through-opening for passing the fastening finger through, and an extent of the through-opening in a circumferential direction corresponds at least to a sum of an extent of the fastening finger in the circumferential direction and a maximum relative rotation of the supporting disk in relation to the pilot clutch during the magnetic actuation of the pilot clutch. 5 . The clutch system as claimed in claim 2 , wherein between the electromagnet and the tie rod in the axial direction is a contact plate, which is mounted and fixed in the axial direction, for axially striking against the tie rod when there is a magnetic force acting from the electromagnet on the tie rod. 6 . The clutch system as claimed in claim 1 , further comprising a closing spring designed as a leaf spring and configured for automatically closing the pilot clutch when the electromagnet is switched off, wherein the closing spring is fastened to an inner side of the supporting disk that is facing away from an outer side of the supporting disk. 7 . The clutch system as claimed in claim 1 , wherein the output ramp is coupled to the torque-introducing element and the input ramp can be coupled to the torque-discharging element by the pilot clutch, or the output ramp is coupled to the torque-discharging element and the input ramp can be coupled to the torque-introducing element by way of the pilot clutch. 8 . The clutch system as claimed in claim 1 , further comprising a restoring spring designed as a leaf spring and arranged for automatically opening the friction clutch, wherein the restoring spring acts on the ramp system. 9 . The clutch system as claimed in claim 1 , wherein a rotor of an electrical machine is connected to an output part of the friction clutch and/or to the torque-discharging element. 10 . A clutch system for coupling a drive shaft of a motor vehicle engine to a transmission input shaft of a motor vehicle transmission, comprising: a friction clutch configured to transmit a torque between a torque-introducing element and a torque-discharging element; a ramp system configured to axially displace a pressure plate of the friction clutch for opening and closing the friction clutch, wherein the ramp system includes an input ramp and an output ramp, the output ramp being movable in relation to the input ramp to change an axial extent of the ramp system; a pilot clutch configured to actuate the ramp system based on a differential speed between the torque-introducing element and the torque-discharging element; a tie rod coupled to the pilot clutch and configured to actuate the pilot clutch by axial displacement, and an electromagnet configured to axially displace the tie rod, wherein the pilot clutch is arranged between the friction clutch and the electromagnet in an axial direction. 11 . The clutch system of claim 10 , w herein, in a radial direction, the pilot clutch is not covered by the electromagnet or the friction clutch. 12 . The clutch system of claim 10 , wherein the friction clutch is mounted radially within the clutch system by a radially extending supporting disk, wherein the supporting disk has an axial outer side facing away from the friction clutch, and wherein the tie rod is coupled to the pilot clutch by a fastening finger extending through the supporting disk and the tie rod is arranged between the electromagnet and the outer side of the supporting disk. 13 . The clutch system of claim 10 , wherein the ramp system includes an input ramp and an output ramp, the output ramp being movable in relation to the input ramp to change an axial extent of the ramp system. 14 . The clutch system of claim 13 , wherein the input ramp rotates along with and at a speed of the output ramp when the pilot clutch is open, and when the pilot clutch is closed, a speed difference corresponding to the speed difference of the torque-introducing element in relation to the torque-discharging element occurs between the input ramp and the output ramp allowing the input ramp to turn in relation to the output ramp. 15 . The clutch system of claim 13 , wherein, in response to an increase in the axial extent of the ramp system, the pressure plate of the friction clutch is axially displaced together with the output ramp to close the friction clutch.