Drive arrangement for direct drive rotor

What is claimed is: 1. A drive system ( 106 ) for rotationally driving a rotor ( 104 ) relative to a main body ( 102 ), the drive system ( 106 ) comprising: a support body ( 142 ) extending between first and second ends ( 152 , 154 ), the first end ( 152 ) configured to be mounted to the main body ( 102 ), and the second end ( 154 ) having an interior surface ( 161 ) and an exterior surface ( 163 ); a rotor drive shaft ( 146 ) including a rotor support portion ( 170 ) and a shaft portion ( 172 ), the rotor support portion ( 170 ) configured to be coupled to the rotor ( 104 ), and the shaft portion ( 172 ) configured to be driven by a drive shaft ( 150 ) of a motor ( 140 ); and a bearing assembly ( 148 ) mounted onto the exterior surface ( 163 ) of the second end ( 154 ) of the support body ( 142 ) and rotatably supporting the shaft portion ( 172 ) of the rotor drive shaft ( 146 ), wherein the motor ( 140 ) is positioned at least partially within an interior of the support body ( 142 ). 2. The drive system ( 106 ) of claim 1 , wherein the support body ( 142 ) comprises: a cylindrical main wall ( 157 ) extending between the first and second ends ( 152 , 154 ); a first flange ( 158 ) at the first end ( 152 ), the first flange ( 158 ) configured to be mounted to the main body ( 102 ); a second flange ( 160 ) at the second end ( 154 ), the second flange ( 160 ) having the interior surface ( 161 ) and the exterior surface ( 163 ), wherein the exterior surface ( 163 ) is configured to engage the bearing assembly ( 148 ); and a hollow ( 156 ) open to the first and second ends ( 152 , 154 ) and defining the interior of the support body ( 142 ), the hollow ( 156 ) configured to receive the motor ( 140 ) from the first end ( 152 ), wherein the interior surface ( 161 ) of the second flange ( 160 ) faces the hollow ( 156 ), and wherein the second flange ( 160 ) defines an opening ( 165 ) through which at least a portion of the motor extends. 3. The drive system ( 106 ) of claim 1 , wherein the first flange extends ( 158 ) radially outwards from a circumference of the first end ( 152 ) of the support body ( 142 ), and wherein the second flange ( 160 ) extends radially inwards from a circumference of the second end ( 154 ) of the support body ( 142 ). 4. The drive system ( 106 ) of claim 1 , wherein the bearing assembly ( 148 ) comprises a drive bearing ( 190 ) and a bearing housing ( 192 ), the bearing housing ( 192 ) containing the drive bearing ( 190 ) and mounted onto the exterior surface ( 163 ) of the second end ( 154 ) of the support body ( 142 ), and the drive bearing ( 190 ) engaging the shaft portion ( 172 ) of the rotor drive shaft ( 146 ). 5. The drive system ( 106 ) of claim 4 , wherein the drive bearing ( 190 ) has an inner race ( 194 ) and an outer race ( 196 ), the inner race ( 194 ) engaging the shaft portion ( 172 ) of the rotor drive shaft ( 146 ), and the outer race ( 196 ) fitted into the bearing housing ( 192 ), wherein the drive bearing ( 190 ) allows the shaft portion ( 172 ) to rotate relative to the bearing housing ( 192 ) which is fixed to the support body ( 142 ). 6. The drive system ( 106 ) of claim 5 , wherein the shaft portion ( 172 ) of the rotor drive shaft ( 146 ) has an outer shaft surface ( 174 ) and an inner shaft bore ( 176 ), the outer shaft surface ( 174 ) supported by the inner race ( 194 ) of the drive bearing ( 190 ), and the inner shaft bore ( 176 ) being coupled to the drive shaft ( 150 ) of the motor ( 140 ). 7. The drive system of claim 4 , wherein the bearing housing ( 192 ) comprises: a bearing receiving body ( 202 ) configured to engage the drive bearing ( 190 ); and first and second end plates ( 204 , 206 ) sealingly containing the drive bearing ( 190 ) within the bearing receiving body ( 202 ), wherein the second end plate ( 206 ) coupled onto the second end ( 154 ) of the support body ( 142 ). 8. The drive system of claim 7 , wherein the bearing receiving body ( 202 ) and the second end plate ( 206 ) are integrally formed as a single piece. 9. The drive system of claim 1 , wherein the motor ( 140 ) mounts to an end face ( 167 ) of the bearing assembly ( 148 ), the end face ( 167 ) at least partially abutting the exterior surface ( 163 ) of the supporting body ( 142 ). 10. The drive system of claim 7 , wherein the bearing housing ( 192 ) further comprises first and second sealing rings ( 222 , 224 ), the first sealing ring ( 222 ) engaged between the drive bearing ( 190 ) and the first end plate ( 204 ), and the second sealing ring ( 224 ) engaged between the drive bearing ( 190 ) and the second end plate ( 206 ). 11. A cutter head system ( 100 ) comprising: a body ( 102 ); a rotor assembly ( 104 ) at least partially received in the body; and a drive system ( 106 ) configured to rotationally support and drive the rotor assembly, the drive system comprising: a motor ( 140 ) having a drive shaft ( 150 ); a support body ( 142 ) extending between first and second ends ( 152 , 154 ), the first end ( 152 ) mounted to the body ( 102 ), and the second end ( 154 ) having an interior surface ( 161 ) and an exterior surface ( 163 ); a rotor drive shaft ( 146 ) including a rotor support portion and a shaft portion ( 172 ), the rotor support portion coupled to the rotor assembly, and the shaft portion ( 172 ) configured to be driven by the drive shaft ( 150 ) of the motor ( 140 ); and a bearing assembly ( 148 ) including a bearing receiving body ( 202 ), a first end plate ( 204 ), and a second end plate ( 206 ), the second end plate ( 206 ) integrally formed with the bearing receiving body ( 202 ) and defining an outboard end face ( 167 ), the first end plate ( 204 ) being mounted to the bearing receiving body ( 202 ) opposite to the second end plate ( 206 ) via a plurality of first threaded fasteners ( 214 ), the threaded fasteners ( 214 ) being seated against the outboard end face ( 167 ) of the second end plate ( 204 ), the bearing assembly ( 148 ) further being mounted onto the exterior surface ( 163 ) of the second end ( 154 ) of the support body ( 142 ) via a plurality of second threaded fasteners ( 145 ) such that the outboard end face ( 167 ) of the second end plate ( 206 ) at least partially abuts the exterior surface ( 163 ) of the second end ( 154 ) of the support body ( 142 ), the second threaded fasteners ( 145 ) extending through the exterior surface ( 163 ) of the second end ( 154 ) of the support body ( 142 ) and into the outboard end face ( 167 ) of the second end plate ( 204 ), the bearing assembly ( 148 ) rotatably supporting the shaft portion ( 172 ) of the rotor drive shaft ( 146 ). 12. The cutter head system ( 100 ) of claim 11 , wherein the support body ( 142 ) comprises: a cylindrical main wall ( 157 ) extending between the first and second ends ( 152 , 154 ); a first flange ( 158 ) at the first end ( 152 ), the first flange ( 158 ) extending radially outwards from a circumference of the first end ( 152 ) of the support body ( 142 ) and configured to be mounted to the body ( 102 ); a second flange ( 160 ) at the second end ( 154 ), the second flange ( 160 ) extending radially inwards from a circumference of the second end ( 154 ) of the support body ( 142 ) and having the interior surface ( 161 ) and the exterior surface ( 163 ), wherein the exterior surface ( 163 ) is configured to engage the bearing assembly ( 148 ); and a hollow ( 156 ) open to the first and second ends ( 152 , 154 ) and defining the interior of the support body ( 142 ), the hollow ( 156 ) configured to receive the motor ( 140 ) from the first end ( 152 ), wherein the interior surface ( 161 ) of the second flange ( 160 ) faces