Removing earth working method with a removing tool offset obliquely with respect to the propulsion direction, and earth working machine embodied to execute the method

The invention claimed is: 1. A method for removing earth material, the method comprising: (a) driving with a propulsion drive apparatus a rollable propelling unit supporting a machine frame of an earth working machine from a substrate, the machine frame having a roll axis extending parallel to a longitudinal machine frame direction and a yaw axis extending parallel to a vertical machine direction, the roll axis and the yaw axis defining a reference plane, and thereby propelling the earth working machine in a propulsion direction relative to the substrate; and (b) during step (a), rotating a tool about a working axis relative to the machine frame with the rotating tool engaging the substrate to remove earth material, wherein the working axis is arranged orthogonally to the reference plane, and wherein an orientation of the working axis is such that the propulsion direction encloses with the working axis an angle different from 90°. 2. The method of claim 1 , wherein: in step (b) the rotating tool extends with reference to the working axis between two axial longitudinal ends such that the rotating tool has a leading axial longitudinal end and a trailing axial longitudinal end due to the orientation of the working axis; and the method further includes: selecting an axial removal width of the substrate being removed by the rotating tool such that the trailing longitudinal end is in removing engagement with the earth material to be removed, but the leading longitudinal end is not in engagement with the earth material to be removed. 3. The method of claim 1 , wherein: in step (a) the rollable propelling unit includes a plurality of steerable drive units rollable on the substrate; and the method further includes: during step (b), steering the steerable drive units such that when the earth working machine is traveling straight ahead the propulsion direction encloses an angle greater than zero with the roll axis. 4. The method of claim 1 , wherein: step (b) includes maintaining the orientation of the working axis by automatically controlling with a controller steering angles of a plurality of steerable drive units of the rollable propelling unit. 5. The method of claim 4 , wherein: in step (b) the controller controls the steering angles at least in part in response to an input of a predetermined setting angle between the propulsion direction and the roll axis. 6. The method of claim 5 , further comprising: storing in a memory of the controller a plurality of different setting angles respectively associated with at least one operating parameter or working parameter; and selecting one of the plurality of different setting angles dependent upon the at least one operating parameter or working parameter. 7. The method of claim 4 , wherein: in step (a) the earth working machine includes a steering apparatus including a tie rod connecting together at least two of the steerable drive units, the at least two of the steerable drive units defining a shared propelling-unit axis, the tie rod being adjustable in length; and the method further comprises: storing in a memory of the controller data for modifying the length of the adjustable tie rod so that the at least two of the steerable drive units are oriented parallel to one another; and automatically controlling with the controller the length of the adjustable tie rod so that the at least two of the steerable drive units are oriented parallel to one another in response to a steering input. 8. A mobile earth-removing earth working machine, comprising: a machine frame having a roll axis extending parallel to a longitudinal machine frame direction and a yaw axis extending parallel to a vertical machine direction, the roll axis and the yaw axis defining a reference plane; a propelling unit configured to support the machine frame from a substrate, the propelling unit including a plurality of steerable drive units rollable on the substrate; a working apparatus carried by the machine frame and including an earth-removing tool rotatable around a working axis, the working axis being arranged with a constant angular orientation relative to the reference plane; a working drive apparatus configured to drive the earth-removing tool to rotate around the working axis; a propulsion drive apparatus configured to drive the earth working machine to perform a propelled motion in a propulsion direction relative to the substrate; a steering apparatus configured to modify steering angles of the plurality of steerable drive units relative to the reference plane; and a controller configured to receive an input determinative of a setting angle between the propulsion direction and the reference plane, the setting angle being different from zero, and the controller being configured to output control instructions to the steering apparatus to maintain the setting angle during an earth-removing operation; wherein the working axis is arranged orthogonally to the reference plane; wherein the controller is configured to store in a memory of the controller a plurality of different setting angles respectively associated with at least one operating parameter or working parameter; and wherein the controller is configured to select one of the plurality of different setting angles dependent upon the at least one operating parameter or working parameter. 9. A method for removing earth material, the method comprising: (a) driving with a propulsion drive apparatus a rollable propelling unit supporting a machine frame of an earth working machine from a substrate, and thereby propelling the earth working machine in a propulsion direction relative to the substrate; (b) during step (a), rotating a tool about a working axis relative to the machine frame with the rotating tool engaging the substrate to remove earth material, wherein an orientation of the working axis is such that the propulsion direction encloses with the working axis an angle different from 90°, and wherein the rotating tool extends with reference to the working axis between two axial longitudinal ends such that the rotating tool has a leading axial longitudinal end and a trailing axial longitudinal end due to the orientation of the working axis; and (c) selecting an axial removal width of the substrate being removed by the rotating tool such that the trailing longitudinal end is in removing engagement with the earth material to be removed, but the leading longitudinal end is not in engagement with the earth material to be removed.