Mixer drum driving device with an auxiliary hydraulic pump to rotate a mixer drum

The invention claimed is: 1. A mixer drum driving device, comprising: a mixer drum rotatably mounted on a chassis of a mixer truck; a hydraulic motor configured to drive and rotate the mixer drum; a hydraulic pump configured to supply pressure oil to the hydraulic motor by being driven by an engine of the mixer truck; an auxiliary hydraulic pump configured to supply the pressure oil to the hydraulic motor independently of the hydraulic pump; a direct-current brush motor configured to drive and rotate the auxiliary hydraulic pump; a detector configured to detect an operation state of the engine; a controller configured to drive the direct-current brush motor to drive and rotate the auxiliary hydraulic pump, when the detector detects stop of the engine; and a selector configured to select a rotation mode of the mixer drum from a plurality of predetermined rotation modes, wherein the plurality of the predetermined rotation modes includes; a pouring mode in which the mixer drum is set in positive rotation at a prescribed speed; a mixing mode in which the mixer drum is set in the positive rotation at a speed lower than the prescribed speed; and a discharging mode in which the mixer drum is set in negative rotation, and the controller is further configured to drive the direct-current brush motor to drive and rotate the auxiliary hydraulic pump, only when the selector selects the mixing mode. 2. The mixer drum driving device according to claim 1 , further comprising: a looped pipe line connecting the hydraulic pump and the hydraulic motor; an auxiliary supply pipe line connecting the auxiliary hydraulic pump to a side of the looped pipe line upstream of the hydraulic motor when the hydraulic motor is in positive rotation; a tank; an auxiliary discharge pipe line connecting the tank to a side of the looped pipe line downstream of the hydraulic motor when the hydraulic motor is in positive rotation; and a switching valve having a first position where the auxiliary hydraulic pump is connected to the looped pipe line via the auxiliary supply pipe line and the looped pipe line is connected to the tank via the auxiliary discharge pipe line, and a second position where the auxiliary hydraulic pump is connected to the tank to return pressure oil discharged from the auxiliary hydraulic pump to the tank without via the hydraulic motor. 3. The mixer drum driving device according to claim 1 , further comprising: a looped pipe line connecting the hydraulic pump and the hydraulic motor; an auxiliary supply pipe line connecting the auxiliary hydraulic pump to a side of the looped pipe line upstream of the hydraulic motor when the hydraulic motor is in positive rotation; a tank; an auxiliary discharge pipe line connecting the tank to a side of the looped pipe line downstream of the hydraulic motor when the hydraulic motor is in positive rotation; a check valve provided at an intermediate position of the auxiliary supply pipe line, the check valve being configured to permit the pressure oil to flow only from the auxiliary hydraulic pump to the looped pipe line; and an on-off valve provided at an intermediate position of the auxiliary discharge pipe line, the on-off valve being configured to open and close the auxiliary discharge pipe line. 4. The mixer drum driving device according to claim 3 , further comprising: a relief valve configured to allow the pressure oil of the auxiliary hydraulic pump to escape to the tank. 5. The mixer drum driving device according to claim 1 , further comprising: a switch configured to, when the switch is in an ON state, supply power from a power supply to the direct-current brush motor; a first switching valve having a disconnecting position at which the hydraulic pump and the hydraulic motor are disconnected; and a second switching valve having a connecting position at which the auxiliary hydraulic pump and the hydraulic motor are connected, wherein the controller configured to, when the selector selects the mixing mode and the detector detects stop of the engine, switch the switch into the ON state, switch the first switching valve into the disconnecting position, and switch the second switching valve into the connecting position.