Hydraulic drive system

The invention claimed is: 1. A hydraulic drive system comprising: a control valve device including a control valve that controls supply and discharge of a hydraulic oil to and from an actuator; an operating device including an operating lever, the operating device moving the control valve device; a variable displacement pump connected to the control valve by a supply line; and a flow regulator that controls a discharge flow rate of the pump, wherein the control valve device is configured such that when an inclination angle of the operating lever becomes a predetermined value approximating a maximum value, an opening area of the control valve becomes a reference opening area, and when the inclination angle of the operating lever increases from the predetermined value to the maximum value, the opening area increases from the reference opening area to a maximum opening area, and the flow regulator: until the inclination angle of the operating lever becomes the predetermined value, increases the discharge flow rate of the pump in accordance with the inclination angle of the operating lever, such that a differential pressure between a discharge pressure of the pump and a load pressure of the actuator is constant; when the inclination angle of the operating lever becomes the predetermined value, controls the discharge flow rate of the pump, such that a passing flow rate of the control valve is an actuator maximum flow rate in a case where the differential pressure is constant; and when the inclination angle of the operating lever is between the predetermined value and the maximum value, defines a maximum discharge flow rate of the pump, such that the discharge flow rate of the pump is kept to the actuator maximum flow rate. 2. The hydraulic drive system according to claim 1 , wherein the flow regulator includes: a differential pressure regulating valve that reduces the discharge pressure of the pump based on the differential pressure between the discharge pressure of the pump and the load pressure of the actuator and outputs a control pressure; a servo piston having a smaller-diameter end portion and a larger-diameter end portion, the smaller-diameter end portion being exposed in a first pressure receiving chamber, into which the discharge pressure of the pump is introduced, the larger-diameter end portion being exposed in a second pressure receiving chamber, into which the control pressure outputted from the differential pressure regulating valve is introduced; and a stopper that defines the maximum discharge flow rate and that comes into contact with the larger-diameter end portion of the servo piston. 3. The hydraulic drive system according to claim 1 , further comprising: a solenoid proportional valve that outputs a secondary pressure to the flow regulator; and a controller that controls the solenoid proportional valve, wherein the flow regulator is configured to change the maximum discharge flow rate in accordance with the secondary pressure outputted from the solenoid proportional valve, and while the operating device is being operated, the controller feeds a command current to the solenoid proportional valve, such that the maximum discharge flow rate is equal to the actuator maximum flow rate. 4. A hydraulic drive system comprising: a first control valve device including a first control valve that controls supply and discharge of a hydraulic oil to and from a first actuator; a second control valve device including a second control valve that controls supply and discharge of the hydraulic oil to and from a second actuator; a first operating device including an operating lever, the first operating device moving the first control valve device; a second operating device including an operating lever, the second operating device moving the second control valve device; a variable displacement pump connected to the first control valve and the second control valve by a supply line; a flow regulator that controls a discharge flow rate of the pump; a solenoid proportional valve that outputs a secondary pressure to the flow regulator; and a controller that controls the solenoid proportional valve, wherein each of the first control valve device and the second control valve device includes solenoid units each being configured to change a pilot pressure intended for moving the control valve in accordance with an electrical signal fed from the controller, and each control valve device is configured such that, in a case where the corresponding operating device is operated singly, when an inclination angle of the operating lever of the operating device becomes a predetermined value approximating a maximum value, an opening area of the control valve of the control valve device becomes a reference opening area, and when the inclination angle of the operating lever increases from the predetermined value to the maximum value, the opening area increases from the reference opening area to a maximum opening area, each of the first operating device and the second operating device is an electrical joystick that outputs an electrical signal whose magnitude corresponds to the inclination angle of the operating lever to the controller, the flow regulator: until the inclination angle of the operating lever of one of the first operating device and the second operating device, the one operating device corresponding to an actuator with a load higher than that of the other actuator, becomes the predetermined value, increases the discharge flow rate of the pump in accordance with the inclination angle of the operating lever, such that a differential pressure between a discharge pressure of the pump and a load pressure of the actuator corresponding to the one operating device is constant; and when the inclination angle of the operating lever of the one operating device becomes the predetermined value, controls the discharge flow rate of the pump, such that a passing flow rate of the corresponding control valve is an actuator maximum flow rate in a case where the differential pressure is constant, and the controller: when the inclination angle of the operating lever of the first operating device is between the predetermined value and the maximum value and the inclination angle of the operating lever of the second operating device is between zero and the predetermined value, feeds an electrical signal to one of the solenoid units of the first control valve device, the electrical signal causing the opening area of the first control valve to be the reference opening area, and feeds an electrical signal corresponding to the inclination angle of the operating lever of the second operating device to one of the solenoid units of the second control valve device; and when the inclination angle of the operating lever of the second operating device is between the predetermined value and the maximum value and the inclination angle of the operating lever of the first operating device is between zero and the predetermined value, feeds an electrical signal to one of the solenoid units of the second control valve device, the electrical signal causing the opening area of the second control valve to be the reference opening area, and feeds an electrical signal corresponding to the inclination angle of the operating lever of the first operating device to one of the solenoid units of the first control valve device. 5. A hydraulic drive system comprising: a first control valve device including a first control valve that controls supply and discharge of a hydraulic oil to and from a first actuator; a second control valve device including a second control valve that controls supply and discharge of the hydraulic oil to and from a second actuator; a first operating device including an operating lever, the first operating device moving t