Hydraulic drive apparatus for work machine

The invention claimed is: 1. A hydraulic drive device for work machine for hydraulically moving a load in a lowering direction, which is the same direction as a falling direction of the load by the own weight of the load, comprising: a hydraulic pump; a drive source for driving the hydraulic pump to make the hydraulic pump discharge hydraulic fluid; a first hydraulic actuator which includes an inlet port and an outlet port and is operated to move the load in the lowering direction by receiving a supply of the hydraulic fluid discharged from the hydraulic pump through the inlet port and discharging the hydraulic fluid through the outlet port; a first hydraulic circuit including a meter-in flow passage for introducing the hydraulic fluid discharged from the hydraulic pump to the inlet port of the first hydraulic actuator in moving the load in the lowering direction and a meter-out flow passage for leading the hydraulic fluid discharged from the outlet port of the first hydraulic actuator to a downstream side in moving the load in the lowering direction; a control valve which is operated to change a supply state of the hydraulic fluid from the hydraulic pump to the first hydraulic actuator; an operating device for operating the control valve; a meter-in-flow-rate control circuit for controlling a meter-in flow rate which is a flow rate of the hydraulic fluid in the meter-in flow passage; a meter-out-flow-rate control circuit for controlling a meter-out flow rate, which is a flow rate of the hydraulic fluid in the meter-out flow passage, so as to make the meter-out flow rate not lower than the meter-in flow rate controlled by the meter-in-flow-rate control circuit; a second hydraulic actuator other than the first hydraulic actuator; a second hydraulic circuit interposed between the first hydraulic circuit and a tank to introduce the hydraulic fluid, which has been discharged from the first hydraulic actuator and has flowed in the first hydraulic circuit to the second hydraulic actuator to drive the second hydraulic actuator and lead the hydraulic fluid discharged from the second hydraulic actuator to the tank; a connection line interconnecting the first hydraulic circuit and the second hydraulic circuit to introduce the hydraulic fluid having flowed in the first hydraulic circuit into the second hydraulic circuit; a tank line separated from the connection line, the tank line connecting the second hydraulic circuit to the tank to return the hydraulic fluid from the second hydraulic circuit to the tank; a back pressure valve provided in the tank line and located between the second hydraulic circuit and the tank, the back pressure valve being a valve which is given a set pressure and generates a back pressure equivalent to the set pressure downstream of the second hydraulic circuit and upstream of the back pressure valve; a regeneration line branched off from a flow passage of the tank line, the flow passage being located between the second hydraulic circuit and the back pressure valve, the regeneration line being arranged to lead a part of the hydraulic fluid, which has flowed from the second hydraulic circuit to the back pressure valve, to the meter-in flow passage; and a check valve provided in the regeneration line to limit a direction of the flow of the hydraulic fluid in the regeneration line to a direction from a position downstream of the second hydraulic circuit to the meter-in flow passage. 2. A hydraulic drive device for work machine for hydraulically moving a first load and a second load in a lowering direction, which is the same direction as a falling direction of the loads by the own weight of the loads, comprising: a hydraulic pump; a drive source for driving the hydraulic pump to make the hydraulic pump discharge hydraulic fluid; a first hydraulic actuator which includes a first inlet port and a first outlet port and is operated to move the first load in the lowering direction by receiving a supply of the hydraulic fluid discharged from the hydraulic pump through the first inlet port and discharging the hydraulic fluid through the first outlet port; a first hydraulic circuit including a first meter-in flow passage for introducing the hydraulic fluid discharged from the hydraulic pump to the first inlet port of the first hydraulic actuator in moving the first load in the lowering direction and a first meter-out flow passage for leading the hydraulic fluid discharged from the first outlet port of the first hydraulic actuator to a downstream side in moving the first load in the lowering direction; a first control valve which is operated to change a supply state of the hydraulic fluid from the hydraulic pump to the first hydraulic actuator; a first operating device for operating the first control valve; a first meter-in-flow-rate control circuit for controlling a first meter-in flow rate which is a flow rate of the hydraulic fluid in the first meter-in flow passage; a first meter-out-flow-rate control circuit for controlling a first meter-out flow rate, which is a flow rate of the hydraulic fluid in the first meter-out flow passage, so as to make the first meter-out flow rate not lower than the first meter-in flow rate controlled by the meter-in-flow-rate control circuit; a second hydraulic actuator other than the first hydraulic actuator, the second hydraulic actuator including a second inlet port and a second outlet port and being operated to move the second load in the lowering direction by receiving a supply of the hydraulic fluid discharged from the hydraulic pump through the second inlet port and discharging the hydraulic fluid through the second outlet port; a second hydraulic circuit including a second meter-in flow passage for introducing the hydraulic fluid, which has been discharged from the first hydraulic actuator and has flowed in the first hydraulic circuit to the second inlet port of the second hydraulic actuator in moving the second load in the lowering direction and a second meter-out flow passage for leading the hydraulic fluid discharged from the second outlet port of the second hydraulic actuator to a tank in moving the second load in the lowering direction; a second control valve which is operated to change a supply state of the hydraulic fluid from the hydraulic pump to the second hydraulic actuator; a second operating device for operating the second control valve; a second meter-in-flow-rate control circuit for controlling a second meter-in flow rate which is a flow rate of the hydraulic fluid in the second meter-in flow passage; a second meter-out-flow-rate control circuit for controlling a second meter-out flow rate, which is a flow rate of the hydraulic fluid in the second meter-out flow passage, so as to make the second meter-out flow rate not lower than the second meter-in flow rate controlled by the meter-in-flow-rate control circuit; a connection line interconnecting the first hydraulic circuit and the second hydraulic circuit to introduce the hydraulic fluid having flowed in the first hydraulic circuit into the second hydraulic circuit; a tank line separated from the connection line, the tank line connecting the second hydraulic circuit to the tank to return the hydraulic fluid from the second hydraulic circuit to the tank; a back pressure valve provided in the tank line and located between the second hydraulic circuit and the tank, the back pressure valve being a valve which is given a set pressure and generates a back pressure equivalent to the set pressure downstream of the second hydraulic circuit and upstream of the back pressure valve; a regeneration line branched off from a flow passage of the tank line, the flow passage being located between the second hydraulic circuit and the back pressure valve, the regeneration line being arranged to lead a part of the hydraulic fluid, which has flowed from the second