Hydraulic drive system for construction machine

The invention claimed is: 1. A hydraulic drive system for a construction machine, comprising: a first pump device of a split flow type having a first delivery port and a second delivery port; a second pump device of a single flow type having a third delivery port; a plurality of actuators which are driven by hydraulic fluid delivered from the first through third delivery ports of the first and second pump devices; a plurality of flow control valves which control a flow of the hydraulic fluid supplied from the first through third delivery ports to the actuators; a plurality of pressure compensating valves each of which controls a differential pressure across each of the flow control valves; a first pump control unit including a first load sensing control unit which controls a displacement of the first pump device such that a delivery pressure of a high pressure side of the first and second delivery ports becomes higher by a target differential pressure than a maximum load pressure of the actuators driven by the hydraulic fluid delivered from the first and second delivery ports; and a second pump control unit including a second load sensing control unit which controls a displacement of the second pump device such that a delivery pressure of the third delivery port becomes higher by a target differential pressure than a maximum load pressure of the actuators driven by the hydraulic fluid delivered from the third delivery port, wherein: the plurality of actuators include first and second actuators whose maximum demanded flow rates are higher compared to the other actuators, and the first delivery port of the first pump device and the third delivery port of the second pump device are connected to the first actuator in such a manner that the first actuator is driven only by the hydraulic fluid delivered from the third delivery port of the single flow type second pump device when the demanded flow rate of the first actuator is lower than a first prescribed flow rate and the first actuator is driven by the hydraulic fluid delivered from the third delivery port of the single flow type second pump device and the hydraulic fluid delivered from one of the first and second delivery ports of the split flow type first pump device merged together when the demanded flow rate of the first actuator is higher than the first prescribed flow rate, and the first and second delivery ports of the first pump device are connected to the second actuator in such a manner that the second actuator is driven only by the hydraulic fluid delivered from the other one of the first and second delivery ports of the split flow type first pump device when the demanded flow rate of the second actuator is lower than a second prescribed flow rate and the second actuator is driven by the hydraulic fluids delivered from the first and second delivery ports of the split flow type first pump device merged together when the demanded flow rate of the second actuator is higher than the second prescribed flow rate. 2. The hydraulic drive system for a construction machine according to claim 1 , wherein: the split flow type first pump device is configured to deliver the hydraulic fluid from the first and second delivery ports at flow rates equal to each other, and the plurality of actuators include third and fourth actuators driven at the same time and achieving a prescribed function by having supply flow rates equivalent to each other when driven at the same time, and the first and second delivery ports of the first pump device are connected to the third and fourth actuators in such a manner that the third actuator is driven by the hydraulic fluid delivered from one of the first and second delivery ports of the split flow type first pump device and the fourth actuator is driven by the hydraulic fluid delivered from the other one of the first and second delivery ports of the split flow type first pump device. 3. The hydraulic drive system for a construction machine according to claim 2 , wherein: the first pump control unit includes a first torque control actuator to which the delivery pressure of the first delivery port of the split flow type first pump device is led and a second torque control actuator to which the delivery pressure of the second delivery port of the split flow type first pump device is led whereby the first pump control unit decreases the displacement of the first pump device with an increase in an average pressure of the delivery pressures of the first and second delivery ports. 4. The hydraulic drive system for a construction machine according to claim 2 or 3 , further comprising: a selector valve which is connected between a first hydraulic fluid supply line connected to the first delivery port of the split flow type first pump device and a second hydraulic fluid supply line connected to the second delivery port of the split flow type first pump device and is switched to a communication position when the third and fourth actuators and another actuator driven by the split flow type first pump device are driven at the same time and to an interruption position at the other time. 5. The hydraulic drive system for a construction machine according to claim 1 , wherein: the plurality of flow control valves include a first flow control valve which is arranged in a hydraulic line connecting a third hydraulic fluid supply line connected to the third delivery port of the second pump device to the first actuator, a second flow control valve which is arranged in a hydraulic line connecting a first hydraulic fluid supply line connected to the first delivery port of the first pump device to the first actuator, a third flow control valve which is arranged in a hydraulic line connecting a second hydraulic fluid supply line connected to the second delivery port of the first pump device to the second actuator, and a fourth flow control valve which is arranged in a hydraulic line connecting the first hydraulic fluid supply line connected to the first delivery port of the first pump device to the second actuator, the first and third flow control valves each have an opening area characteristic set such that an opening area increases with an increase in a spool stroke, the opening area reaches a maximum opening area at an intermediate stroke and thereafter the maximum opening area is maintained until the spool stroke reaches a maximum spool stroke, and the second and fourth flow control valves each have an opening area characteristic set such that an opening area remains at 0 until a spool stroke reaches an intermediate stroke, increases with an increase in the spool stroke beyond the intermediate stroke and reaches a maximum opening area just before the spool stroke reaches a maximum spool stroke.