Vehicle lock-up clutch control device

The invention claimed is: 1. A lock-up clutch control device of a vehicle, the vehicle comprising an engine, a transmission and a torque converter provided with a lock-up clutch between the engine and the transmission, the lock-up clutch control device comprising a coasting capacity learning control section configured to: execute control processing of generating a command value for decreasing a lock-up engaging force of the lock-up clutch during accelerator release operation; and, when a slip of the lock-up clutch is detected during the decrease of the command value, update the command value at the time of detection of the slip as a lock-up learning value balanced with a coasting torque and update an engine torque value at the time of detection of the slip as an engine torque learning value balanced with coasting torque, wherein the coasting capacity learning control section is configured to: during the accelerator release operation, decrease the command value to a value obtained by adding a lock-up pressure reference offset value to the lock-up learning value in a coasting open-control state, and then, perform coasting capacity learning control to gradually decrease the command value; when an intervention of engine auxiliary equipment load takes place under the coasting capacity learning control, correct the command value by adding thereto a lock-up pressure correction value that corresponds to an increase of input torque to the lock-up clutch; and when the coasting capacity learning control is completed without detection of a slip of the lock-up clutch during the coasting capacity learning control where learning completion has not been experienced, permit the update of the lock-up learning value and the engine torque learning value on the conditions that: the lock-up learning value is lower than or equal to a current lock-up learning value; and the engine torque learning value is higher than or equal to a current engine torque learning value. 2. The lock-up clutch control device of the vehicle according to claim 1 , wherein the lock-up pressure correction value is determined based on a difference between a current engine toque value and the engine torque learning value. 3. The lock-up clutch control device of the vehicle according to claim 1 , wherein, in the coasting open-control state and during the coasting capacity learning control, the command value is determined by adding the lock-up pressure reference offset value and the lock-up pressure correction value to the lock-up learning value. 4. The lock-up clutch control device of the vehicle according to claim 3 , wherein the coasting capacity learning control section is configured to stop the update of the lock-up learning value when the intervention of engine auxiliary equipment load exceeding an upper limit load takes place during the coasting capacity learning control. 5. The lock-up clutch control device of the vehicle according to claim 3 , wherein the coasting capacity learning control section is configured to update the lock-up learning value to a higher value when the lock-up clutch is slipped and released from engagement by the intervention of engine auxiliary equipment load during the coasting open-control state.