Earth working machine having a dust extraction system and rotatable filter cartridges

The invention claimed is: 1. A mobile earth working machine, comprising: a working apparatus configured to remove material from a region of a substrate; and an extraction device configured to extract dust-laden air generated by the working apparatus from at least one machine region at at least one extraction location, and to exhaust extracted air at a discharge location different from the extraction location, the extraction device including a filter apparatus arranged along an operational flow path from the at least one extraction location to the discharge location, the filter apparatus including: a filter housing; a filter element rotatably mounted in the filter housing such that the filter element is rotatable about a rotation axis, the filter element being configured to remove dust particles from the air flowing along the operational flow path through the filter apparatus; a cleaning apparatus configured to remove from the filter element dust particles accumulated on the filter element during filtering operation; and a rotary drive system configured to rotate the filter element about the rotation axis; wherein the filter apparatus includes a filter element receptacle received in the filter housing to be rotatable around the rotation axis; and wherein the filter element is detachably coupled at one longitudinal end of the filter element in a cantilever fashion to the filter element receptacle. 2. The mobile earth working machine of claim 1 , wherein: the cleaning apparatus includes a wiper bar arranged parallel to the rotation axis at a distance from the rotation axis, the wiper bar being in direct contact with the filter element at least intermittently during rotary motion of the filter element. 3. The mobile earth working machine of claim 2 , wherein: the wiper bar includes an edge region in direct contact with the filter element, the edge region including projections aligned parallel to the rotation axis, the projections protruding from a carrier region of the wiper bar, the carrier region being located farther from the filter element than is the edge region. 4. The mobile earth working machine of claim 3 , wherein: at least some of the projections include a wiping region and a strut region connecting the wiping region to the carrier region, the wiping region being longer in a direction parallel to the rotation axis than is the strut region. 5. The mobile earth working machine of claim 2 , wherein: the filter element comprises a porous filter material surrounding the rotation axis and shaped alternatingly convexly and concavely in a circumferential direction such that the filter element includes points of radially greatest proximity to the rotation axis and points of radially greatest distance from the rotation axis; and the wiper bar projects radially into a region of the filter element located between the points of radially greatest proximity to the rotation axis and the points of radially greatest distance from the rotation axis. 6. The mobile earth working machine of claim 1 , wherein: the filter element includes a filter material having a dirt side and a clean side, the dirt side and the clean side being located upstream and downstream, respectively, in terms of an operational flow direction of the dust-laden air from the at least one extraction location to the discharge location; and the cleaning apparatus includes a pneumatic pressure source configured to increase an air pressure on the clean side above an air pressure existing on the dirt side. 7. The mobile earth working machine of claim 6 , wherein: the cleaning apparatus includes a controller configured to operate the rotary drive system and the pneumatic pressure source simultaneously. 8. The mobile earth working machine of claim 7 , wherein: the controller is configured to drive the pneumatic pressure source for percussive delivery of pneumatic pulses to the filter element. 9. The mobile earth working machine of claim 8 , wherein: the controller is configured to drive the pneumatic pressure source such that a duration of a pneumatic pulse is less than a time required for one rotation of the filter element. 10. The mobile earth working machine of claim 1 , wherein: the controller is configured to drive the pneumatic pressure source such that an interval between two immediately successive pneumatic pulses is less than a time required for one rotation of the filter element. 11. The mobile earth working machine of claim 1 , wherein: the filter apparatus includes a bypass valve shiftable between a filtering operating position and a bypass operating position; in the filtering operating position the bypass valve connects the at least one extraction location to the discharge location through the filter element; and in the bypass operating position the bypass valve connects the at least one extraction location to the discharge location while bypassing the filter element. 12. The mobile earth working machine of claim 11 , wherein: the filter housing includes an interior space, the filter element being received in the interior space; in the filtering operating position of the bypass valve the interior space of the filter housing is a part of the operational flow path connecting the at least one extraction location to the discharge location; and in the bypass operating position of the bypass valve the at least one extraction location is connected to the discharge location while bypassing the interior space. 13. The mobile earth working machine of claim 1 , wherein: the filter housing includes at least one deformable wall; and the filter apparatus further includes a deformation actuator arrangement configured to interact with and transfer force to the at least one deformable wall of the filter housing such that by actuation of the deformation actuator arrangement the at least one deformable wall of the filter housing is deformable orthogonally to a wall surface of the at least one deformable wall by a flexing deformation. 14. The mobile earth working machine of claim 13 , wherein: the filter element includes a filter material having a dirt side and a clean side, the dirt side and the clean side being located upstream and downstream, respectively, in terms of an operational flow direction of the dust-laden air from the at least one extraction location to the discharge location; the cleaning apparatus includes a pneumatic pressure source configured to increase an air pressure on the clean side above an air pressure existing on the dirt side; and the deformation actuator arrangement includes the pneumatic pressure source, the pneumatic pressure source being configured to function as a deformation actuator. 15. The mobile earth working machine of claim 14 , wherein: the extraction device further includes a conveying fan, the filter element being located on an intake side of the conveying fan; and the deformation actuator arrangement includes the conveying fan, the conveying fan being configured to function as another deformation actuator. 16. The mobile earth working machine of claim 13 , wherein: the extraction device further includes a conveying fan, the filter element being located on an intake side of the conveying fan; and the deformation actuator arrangement includes the conveying fan, the conveying fan being configured to function as a deformation actuator. 17. The mobile earth working machine of claim 1 , wherein: the filter housing includes an outlet configuration displaceable between an open position and a closed position, wherein in the open position the outl