Transmission structure

1 . A transmission structure comprising: a low gear transmission mechanism that is capable of operatively transmitting a rotational power of a drive shaft, which is operatively coupled with a drive source, to a travel output shaft, which is operatively coupled with a drive wheel, at a predetermined low gear ratio; a high gear transmission mechanism that operatively transmits the rotational power of the drive shaft to the travel output shaft at a high gear ratio for attaining a higher speed than at the low gear ratio; a low gear clutch mechanism and a high gear clutch mechanism that engage and disengage power transmission of the low gear transmission mechanism and the high gear transmission mechanism, respectively; a clutch actuator that switches operation states of the low gear clutch mechanism and the high gear clutch mechanism; a Hydro Static Transmission (HST) that is capable of performing a continuously-variable gear shift of the rotational power in each of a low gear transmission state and a high gear transmission state which are created by the low gear transmission mechanism and the high gear transmission mechanism; an HST actuator that operates an output adjusting member of the HST; a gear shift operation member; a vehicle speed sensor that directly or indirectly detects a vehicle speed; an HST sensor that directly or indirectly detects an output rotation speed of the HST; and a control device that has HST control data, which is for obtaining an HST gear ratio corresponding to an operating position of the gear shift operation member and includes low gear HST control data used in the low gear transmission state and high gear HST control data used in the high gear transmission state, wherein the control device operates the HST actuator using, as a control target value, a reference HST gear ratio that is obtained by applying the operating position of the gear shift operation member to the low gear HST control data, while operating the clutch actuator so that the low gear transmission state is created when the vehicle speed is within a predetermined low gear range, operates the HST actuator using, as the control target value, a reference HST gear ratio that is obtained by applying an operating position of the gear shift operation member to the high gear HST control data, while operating the clutch actuator so that the high gear transmission state is created when the vehicle speed is within a predetermined high gear range which is higher than the low gear range, operates the clutch actuator so that an idling state in which both of the low gear and high gear clutch mechanisms are in a disengaged state is created in a period from a start to a completion of a switching operation between the low gear transmission state and the high gear transmission state, and calculates an excess vehicle speed gear ratio by adding an excess correction value, which causes the vehicle speed at a point in time where the switching operation is completed to be changed in excess of an actual vehicle speed by a predetermined speed, to an actual vehicle speed gear ratio, which represents an HST gear ratio that causes the vehicle speed at the point in time where the switching operation is completed to match the actual vehicle speed that is attained immediately before the switching operation is completed, so as to operate the HST actuator using the excess vehicle speed gear ratio as the control target value in the idling state. 2 . The transmission structure according to claim 1 , wherein the control device adds a load correction value corresponding to a traveling load to the reference HST gear ratio at the time of calculating the control target value of the HST actuator and stores the load correction value at the point in time where the gear switching operation is started as a carry-over load correction value, so as to use the carry-over load correction value as the excess correction value. 3 . The transmission structure according to claim 2 , wherein the control device uses the carry-over load correction value as the excess correction value only in a case where the load correction value at the point in time where the gear switching operation is started exceeds a predetermined value. 4 . The transmission structure according to claim 2 , wherein, after the gear switching operation is completed, at the time of calculating the control target value of the HST actuator in the transmission state after the gear switching, the control device adds the carry-over load correction value to the reference HST gear ratio while reducing the carry-over load correction value according to the passage of time. 5 . The transmission structure according to claim 1 , wherein, as the excess correction value, the control device stores in advance a shift-up excess correction value, which is used for a shift-up from the low gear transmission state to the high gear transmission state, and a shift-down excess correction value, which is used for a shift-down from the high gear transmission state to the low gear transmission state. 6 . The transmission structure according to claim 1 , wherein, at the time of the gear switching between the low gear transmission state and the high gear transmission state, the control device calculates, based on an HST acceleration rate immediately before the switching operation is started and a time period of the idling state, a virtual vehicle speed to be attained at the point in time where the gear switching operation is completed on an assumption that the transmission state before the gear switching had continued during the idling state, and uses, as the excess correction value, an absolute value of a difference between a virtual vehicle speed gear ratio for creating the virtual speed and the actual vehicle speed gear ratio for creating the actual vehicle speed that is attained immediately before the gear switching operation is completed. 7 . Transmission structure according to claim 1 , wherein, of the low gear and the high gear clutch mechanisms, at least the clutch mechanism to be in an engaged state after the gear switching is a friction-plate-type which includes a driving-side friction plate and a following-side friction plate, and the control device operates the clutch actuator so that, when the clutch mechanism to be in an engaged state after the gear switching is shifted from a disengaged state to the engaged state, the driving-side friction plate and the following-side friction plate frictionally engage with each other in a sliding manner. 8 . A transmission structure comprising: a low gear transmission mechanism that is capable of operatively transmitting a rotational power of a drive shaft, which is operatively coupled with a drive source, to a travel output shaft, which is operatively coupled with a drive wheel, at a predetermined low gear ratio; a high gear transmission mechanism that operatively transmits the rotational power of the drive shaft to the travel output shaft at a high gear ratio for attaining a higher speed than at the low gear ratio; a low gear clutch mechanism and a high gear clutch mechanism that engage and disengage power transmission of the low gear transmission mechanism and the high gear transmission mechanism, respectively; a clutch actuator that switches operation states of the low gear clutch mechanism and the high gear clutch mechanism; a Hydro Static Transmission (HST) that is capable of performing a continuously-variable gear shift of the rotational power in each of a low gear transmission state and a high gear transmission state which are created by the low gear transmission mechanism and the high gear transmission mechanism; an HST actuator that operates an output adjusting member of the HST; a gear shift oper