Drive arrangement for belt, mobile haulage arrangement and method

The invention claimed is: 1. A drive arrangement for driving a belt of an enclosed belt conveyor, comprising: a conveyor drive assembly arranged to drive a belt of the enclosed belt conveyor, the belt having a conveyor run in a conveying direction and a return run, the conveyor drive assembly including at least one conveyor run drive roller in friction connection with at least one of two opposite longitudinal edges of the belt of the conveyor run driven by a conveyor drive unit; a return drive assembly arranged to drive the belt of the return run in an opposite direction, the return drive assembly including at least one return run drive roller in friction connection with at least one of the two opposite longitudinal edges of the belt of the return run driven by a return drive unit, wherein the conveyor drive unit and/or the return drive unit is arranged to drive the belt with a predetermined torque; and at least one control unit arranged to control the predetermined torque applied by the conveyor drive unit and/or the return drive unit such that the same predetermined torque is applied to the belt in both the conveying direction and the return direction. 2. The drive arrangement according to claim 1 , wherein the conveyor drive assembly includes two conveyor run drive rollers in friction connection with the two opposite longitudinal edges of the belt of the conveyor run driven by a common conveyor drive unit or by two separate conveyor drive units, and the return drive assembly including two return run drive rollers in friction connection with the two opposite longitudinal edges of the belt of the return run driven by a common return drive unit or by two separate return drive units. 3. The drive arrangement according to claim 1 , further comprising at least one guide assembly arranged upstream or downstream of the conveyor drive assembly or return drive assembly to guide at least one of the two opposite longitudinal edges of the belt of the conveyor run or the return run. 4. The drive arrangement according to claim 3 , wherein the at least one guide assembly includes a top guide roller and/or a lower guide roller. 5. The drive arrangement according to claim 3 , wherein the at least one guide assembly includes first and second, opposite side guide rollers. 6. The drive arrangement according to claim 1 , further comprising four guide assemblies, wherein a first guide assembly is arranged upstream of the conveyor drive assembly in the conveying direction to guide at least one of the two opposite longitudinal edges of the belt of the conveyor run, a second guide assembly is arranged downstream of the conveyor drive assembly in the conveying direction to guide at least one of the two opposite longitudinal edges of the belt of the conveyor run, a third guide assembly is arranged upstream of the return drive assembly in the opposite direction to guide at least one of the two opposite longitudinal edges of the belt of the return run, and a fourth guide assembly is arranged downstream of the return drive assembly in the opposite direction to guide at least one of the two opposite longitudinal edges of the belt of the return run. 7. The drive arrangement according to claim 1 , wherein a driving engagement of the conveyor drive assembly with the belt of the conveyor run and/or the return drive assembly with the belt of the return run is releasable in a relocation mode, the enclosed belt conveyor or a mobile haulage arrangement being movable without a conveying movement or action of the enclosed belt conveyor. 8. The drive arrangement according to claim 1 , wherein the conveyor drive unit and/or the return drive unit is a hydraulic motor. 9. A mobile haulage arrangement for continuously conveying fragmented material in a conveying direction, the mobile haulage arrangement comprising: a loading unit for receiving fragmented material; a discharge unit for discharging the fragmented material; at least one transport unit arranged between the loading unit and the discharge unit; a belt of an enclosed belt conveyor; and at least one main drive arrangement for driving the belt and at least one auxiliary drive arrangement for driving the belt, the belt having a conveyor run in a conveying direction and a return run in an opposite direction, wherein the at least one auxiliary drive arrangement includes a conveyor drive assembly arranged to drive the belt in the conveying direction, the conveyor drive assembly including at least one conveyor run drive roller in friction connection with at least one of two opposite longitudinal edges of the belt of the conveyor run driven by a conveyor drive unit and a return drive assembly arranged to drive the belt of the return run in the opposite direction, the return drive assembly including at least one return run drive roller in friction connection with at least one of the two opposite longitudinal edges of the belt of the return run driven by a return drive unit, wherein the conveyor drive unit and/or the return drive unit is arranged to drive the belt with a predetermined torque, and at least one control unit arranged to control the predetermined torque applied by the conveyor drive unit and/or the return drive unit such that the same predetermined torque is applied to the belt in both the conveying direction and the return direction. 10. The mobile haulage arrangement according to claim 9 , wherein a number of wheel units and a number of crawler units are arranged between the loading unit and the discharge unit, a first main drive arrangement being arranged on the loading unit , a second main drive arrangement being arranged on the discharge unit, and the at least one auxiliary drive arrangement being arranged on one of the crawler units. 11. A method for driving a mobile haulage arrangement for continuously conveying fragmented material in a conveying direction, comprising: providing a mobile haulage arrangement including a loading unit for receiving fragmented material, a discharge unit for discharging fragmented material, at least one transport unit arranged between the loading unit and the discharge unit, a belt of an enclosed belt conveyor, and at least one main drive arrangement and at least one auxiliary drive arrangement for driving the belt, the belt having a conveyor run in a conveying direction and a return run in an opposite direction, wherein the at least one main drive arrangement and the auxiliary drive arrangement include a conveyor drive assembly arranged to drive the belt in the conveying direction, and a return drive assembly arranged to drive the belt of the return run in the opposite direction, the conveyor drive assembly including at least one conveyor run drive roller in friction connection with at least one of two opposite longitudinal edges of the belt of the conveyor run driven by a conveyor drive unit and the return drive assembly including at least one return run drive roller in friction connection with at least one of the two opposite longitudinal edges of the belt of the return run driven by a return drive unit; and during a conveying operation of the mobile haulage arrangement driving the belt of the conveyor run in the conveying direction and/or the belt of the return run in the opposite direction, wherein the conveyor drive units and/or the return drive units of the at least one main drive arrangement are operated with a torque depending on a desired velocity of the conveyor belt and the conveyor drive units and/or the return drive units of the at least one auxiliary drive arrangement are operated with a preset torque, the at least one main drive arrangement including at least one control unit arranged to control the predetermined torque applied by the conv