Cutting apparatus

The invention claimed is: 1. A cutting apparatus suitable for creating tunnels or subterranean roadways and the like comprising: at least one arm pivotally mounted to the apparatus and arranged to pivot in an upward and downward direction; at least one arm actuator arranged to actuate pivoting movement of the at least one arm, wherein the actuator includes a drive motor unit; and a drive train coupled to the drive motor unit, the drive motor unit and drive train being configured for selective operation in one of: a first operating mode in which a first pivoting velocity and a first torque are transmitted to the at least one arm, or a second operating mode in which a second velocity and a second torque are transmitted to the at least one arm, the first velocity being lower than the second velocity and the first torque being higher than the second torque, wherein the drive motor unit includes a first drive motor and a second drive motor, the first drive motor applying torque to the drive train in the first operating mode, and the second drive motor applying torque to the drive train in the second operating mode. 2. The cutting apparatus of claim 1 , wherein the drive train includes an auger drive and a planetary drive coupled to the auger drive in series. 3. The cutting apparatus of claim 2 , wherein the planetary drive includes a first stage planetary drive, the drive train including at least a second stage planetary drive coupled in series to the first stage planetary drive. 4. The cutting apparatus of claim 3 , wherein the second stage planetary drive is a Wolfrom type drive. 5. The cutting apparatus of claim 3 , further comprising a third stage planetary drive coupled in series to the second stage planetary drive. 6. The cutting apparatus of claim 2 , wherein the auger drive includes an auger, the first drive motor being coupled to the auger. 7. The cutting apparatus of claim 2 , wherein the planetary drive includes a first hollow wheel, the second drive motor being coupled to the first hollow wheel. 8. The cutting apparatus of claim 1 , further comprising a first brake configured to prevent any torque transmission from the first drive motor to the at least one arm. 9. The cutting apparatus of claim 8 , further comprising a second brake configured to prevent any torque transmission from the second drive motor to the at least one arm. 10. The cutting apparatus of claim 7 , wherein the drive train includes a second hollow wheel and a third hollow wheel, both associated with the second stage planetary drive, wherein the second and third hollow wheels have an identical gear module, and the number of teeth of the second hollow wheel differs from the number of teeth of the third hollow wheel. 11. The cutting apparatus of claim 10 , wherein the difference in teeth is in the two-digit range or less. 12. The cutting apparatus of claim 1 , wherein in the first operating mode, a gear transmission ratio of the drive train is in the range of 5,000 to 10,000 and/or in the second operating mode, the gear transmission ratio of the drive train is in the range of 500 to 2,000. 13. The cutting apparatus of claim 1 , wherein the first and second drive motors are hydraulic motors and/or identical motors. 14. The cutting apparatus of claim 1 , further comprising a rotatable cutting head mounted at the at least one arm, the cutting head being rotatable about a head axis orientated to extend substantially transverse to an arm pivot axis. 15. The cutting apparatus of claim 1 , wherein the at least one arm is a first arm, and further comprising a second arm pivotally mounted to the apparatus, the first and second arms being arranged to pivot independently of one another in an upward and downward direction. 16. The cutting apparatus of claim 1 , wherein the at least one arm is a first arm, and further comprising: a second arm pivotally mounted to the apparatus; a main frame having generally upward, downward and side facing regions; a first and second support pivotally mounted relative to the main frame via respective first and second support axes aligned generally upright relative to the upward and downward facing regions such that each first and second support is configured to pivot laterally in a sideways direction relative to the side facing regions; and at least one first and second support actuator arranged to respectively actuate independently movement of each of the first and second supports relative to the main frame, wherein the first and second arms are each pivotally mounted to the respective first and second supports via a respective arm pivot axis aligned in a direction extending transverse including perpendicular to each support pivot axis to enable the first and second arms to pivot independently of one another and to pivot relative to each of the respective first and second supports in an upward and downward direction relative to the upward and downward facing regions, the at least one first and second arm actuators being arranged to actuate independently the pivoting movement of the first and second arms relative to each of the respective first and second support. 17. The cutting apparatus of claim 10 , wherein the difference in teeth is between 1 and 5. 18. The cutting apparatus of claim 15 , further comprising at least first and second arm actuator arranged to actuate independently the pivoting movement of each of the first and second arms. 19. The cutting apparatus of claim 15 , wherein a rotatable cutting head is mounted at each of the first and second arms, each head being rotatable about a head axis orientated to extend substantially transverse to each respective arm pivot axis.