Control method and drive control apparatus of hydraulic injection molding machine

The invention claimed is: 1. A control method of a hydraulic injection molding machine, comprising the steps of: using a hydraulic pump to drive a hydraulic driving actuator to move a movable unit; when a deceleration start point is reached during a movement of the movable unit, performing a deceleration control processing to stop the movable unit at a set stop position; when a set target position is reached, performing a deceleration completion processing; when the deceleration start point is reached, then subjecting a meter-in side of the hydraulic driving actuator to a flow rate control to thereby start the deceleration control processing; detecting a movement position of the movable unit; calculating a speed of the movable unit; calculating a value for a speed instruction corresponding to the movement position to subject the hydraulic driving actuator to a meter-in control; and based on a difference between the calculated speed of the movable unit and the speed instruction, subjecting the movable unit to a feedback control based on a meter-out control to the hydraulic driving actuator. 2. The control method of the hydraulic injection molding machine according to claim 1 , wherein: the hydraulic driving actuator uses a mold opening/closing cylinder of a mold clamping apparatus and the movable unit uses a movable platen for supporting a movable mold in the mold clamping apparatus. 3. The control method of the hydraulic injection molding machine according to claim 1 , wherein: the movable unit is in a load state in which a load having a magnitude based on a moving resistance related to the movement is equal to or lower than a predetermined magnitude. 4. The control method of the hydraulic injection molding machine according to claim 1 , wherein: the stop position includes an actual stop position or a virtual stop position. 5. The control method of the hydraulic injection molding machine according to claim 4 , wherein: the deceleration start point sets a predetermined speed control pattern in advance, the predetermined speed control pattern including a constant speed travel zone in which the movable unit is moved at a set moving speed, a deceleration travel zone in which the speed is gradually reduced from the completion point of this constant speed travel zone, a target position at which this deceleration travel zone is completed, in the constant speed travel zone, the movable unit is allowed to move at the set moving speed and, based on the detected speed and the movement position, a completion point of the constant speed travel zone at which a moving speed becomes zero at a virtual stop position is set as the deceleration start point. 6. The control method of the hydraulic injection molding machine according to claim 5 , wherein: the speed instruction is calculated from the movement position of the detected movable unit based on the speed control pattern. 7. The control method of the hydraulic injection molding machine according to claim 2 , wherein: the hydraulic pressure of a front oil chamber in a mold closing direction of the mold opening/closing cylinder and the hydraulic pressure of a rear oil chamber in a mold opening direction of the mold opening/closing cylinder are monitored and, when the hydraulic pressure of the rear oil chamber is higher than the hydraulic pressure of the front oil chamber during a mold opening operation, a control is performed to add, to the feedback control speed instruction based on the meter-out control, a speed instruction having a magnitude corresponding to a differential pressure between the hydraulic pressure of the rear oil chamber and the hydraulic pressure of the front oil chamber. 8. The control method of the hydraulic injection molding machine according to claim 2 , wherein: the hydraulic pressure of a front oil chamber in a mold closing direction of the mold opening/closing cylinder, the hydraulic pressure of a rear oil chamber in a mold opening direction of the mold opening/closing cylinder, and a discharge pressure of the hydraulic pump are monitored and, when the hydraulic pressure of the front oil chamber is higher than the hydraulic pressure of the rear oil chamber and the hydraulic pressure of the front oil chamber is higher than the discharge pressure of the hydraulic pump during mold closing operation, a control is performed to switch a pressure instruction in a pressure control loop of the meter-in control to have a magnitude of the hydraulic pressure of the front oil chamber. 9. The control method of the hydraulic injection molding machine according to claim 2 , wherein: the hydraulic pressure of a front oil chamber in a mold closing direction of the mold opening/closing cylinder is monitored and, when the hydraulic pressure is a negative pressure, a control is performed to increase a flow rate in the meter-in control and a control is performed to reduce an opening in the meter-in control. 10. The control method of the hydraulic injection molding machine according to claim 2 , wherein: the movable unit is in a load state in which a load having a magnitude based on a moving resistance related to the movement is equal to or lower than a predetermined magnitude. 11. The control method of the hydraulic injection molding machine according to claim 1 , wherein: the speed instruction is calculated from the detected position of the movable unit, target stop position and calculated speed of the movable unit. 12. A drive control apparatus of a hydraulic injection molding machine, wherein: a hydraulic pump is used to drive a hydraulic driving actuator to move a movable unit, when a deceleration start point is reached during the movement of the movable unit, a deceleration control processing is performed to stop the movable unit at a set stop position and, when a set target position is reached, a deceleration completion processing is performed, the drive control apparatus comprising: a meter-in circuit connected to the hydraulic driving actuator; a meter-out circuit connected to the hydraulic driving actuator; and a control unit configured to: perform, when the deceleration start point is reached, a flow rate control on the meter-in circuit to the hydraulic driving actuator to thereby start a deceleration control processing and detect the detect a movement position of the movable unit; calculate a speed of the movable unit; calculate a value for a speed instruction corresponding to the movement position to perform a meter-in control to the meter-in circuit and, based on a difference between the calculated speed of the movable unit and the speed instruction, subject the movable unit to a feedback control based on a meter-out control to the meter-out circuit. 13. The drive control apparatus of the hydraulic injection molding machine according to claim 12 , wherein: the hydraulic driving actuator uses a mold opening/closing cylinder of a mold clamping apparatus and the movable unit uses a movable platen for supporting a movable mold in a mold clamping apparatus. 14. The drive control apparatus of the hydraulic injection molding machine according to claim 13 , wherein: the mold clamping apparatus has a movable unit support mechanism that supports the movable unit in a load state with a load having a magnitude based on a moving resistance related to the movement to have a magnitude equal to or lower than a predetermined magnitude. 15. The drive control apparatus of the hydraulic injection molding machine according to claim 14 , wherein: the movable unit support mechanism has a support face to support the movable unit. 16. The drive control apparatus of th