Molding machine and driving method thereof

The invention claimed is: 1. A molding machine comprising: a fixed platen constructed and arranged to have a fixed mold attached thereto; a moving platen constructed and arranged to have a moving mold attached thereto; a mold clamping mechanism constructed and arranged to clamp the moving mold and the fixed mold with each other by moving the moving mold; a driving unit operating the mold clamping mechanism; and a control unit controlling the driving unit, wherein the control unit compensates an operation loss of the driving unit occurring from an operation start of the driving unit to an operation start of the moving mold to set the moving mold at a desired position, when the moving mold and the fixed mold are to be spaced apart by an interval Ds, the control unit operates the driving unit by as much as (Es+ΔE) or (Es+ΔE+Eα) from a state where the moving mold and the fixed mold are in contact with each other, and then returns the driving unit by as much as the operation loss ΔE or (ΔE+Eα), and an operation distance or an operation angle of the driving unit corresponding to the interval Ds is assumed as Es, an operation loss of the driving unit occurring from an operation start of the driving unit to an operation start of the moving mold is assumed as ΔE, and a certain operation distance or a certain operation angle of the driving unit is assumed as Eα. 2. The machine of claim 1 , further comprising: an input unit inputting an interval between the moving mold and the fixed mold, wherein when an actual interval between the moving mold and the fixed mold at a time when the driving unit has operated by a certain distance or angle Ep is Dp, the control unit calculates a distance or angle Ep 0 of the driving unit corresponding to the actual interval Dp input by the input unit and calculates a difference (|Ep−Ep 0 |) between the distance or angle Ep 0 and the distance or angle Ep as the operation loss ΔE. 3. The machine of claim 1 , further comprising a memory storing the operation loss ΔE. 4. The machine of claim 1 , wherein the mold clamping mechanism comprises a toggle mechanism having a plurality of links coupled to one another. 5. The machine of claim 1 , wherein the mold clamping mechanism comprises a ball screw moving the moving platen. 6. The machine of claim 1 , further comprising an encoder detecting a position or angle of the driving unit. 7. A driving method of a molding machine comprising a fixed platen constructed and arranged to have a fixed mold attached thereto, a moving platen constructed and arranged to have a moving mold attached thereto, a mold clamping mechanism clamping the moving mold and the fixed mold with each other by moving the moving mold, a driving unit operating the mold clamping mechanism, and a control unit controlling the driving unit, the method comprising: compensating an operation loss of the driving unit occurring from an operation start of the driving unit to an operation start of the moving mold to set the moving mold at a desired position; when the moving mold and the fixed mold are to be spaced apart by an interval Ds, operating the driving unit by as much as (Es+ΔE) or (Es+ΔE+Eα) from a state where the moving mold and the fixed mold are in contact with each other; and returning the driving unit by as much as the operation loss ΔE or (ΔE+Eα), wherein an operation distance or an operation angle of the driving unit corresponding to the interval Ds is assumed as Es, an operation loss of the driving unit occurring from an operation start of the driving unit to an operation start of the moving mold is assumed as ΔE, and a certain operation distance or a certain operation angle of the driving unit is assumed as Eα. 8. The method of claim 7 , wherein when an actual interval between the moving mold and the fixed mold at a time when the driving unit has operated by a certain distance or angle Ep is Dp, the control unit calculates a distance or angle Ep 0 of the driving unit corresponding to the actual interval Dp and calculates a difference (|Ep−Ep 0 |) between the distance or angle Ep 0 and the distance or angle Ep as the operation loss ΔE. 9. A molding machine comprising: a fixed platen constructed and arranged to have a fixed mold attached thereto; a moving platen constructed and arranged to have a moving mold attached thereto; a mold clamping mechanism constructed and arranged to clamp the moving mold and the fixed mold with each other by moving the moving mold; a driving unit operating the mold clamping mechanism; and a control unit controlling the driving unit, wherein the control unit calculates an operation loss ΔE of the driving unit occurring from an operation start of the driving unit to an operation start of the moving mold based on a torque T or a consumed power of the driving unit. 10. The machine of claim 9 , wherein the control unit sets an operation amount of the driving unit to a time when a torque T or a consumed power of the driving unit becomes a peak after the driving unit starts operating as the operation loss ΔE. 11. The machine of claim 9 , wherein when the moving mold and the fixed mold are to be spaced apart by an interval Ds, the control unit operates the driving unit by as much as (Es+ΔE) or (Es+ΔE+Eα) from a state where the moving mold and the fixed mold are in contact with each other, and then returns the driving unit by as much as the operation loss ΔE or (ΔE+Eα), wherein an operation distance or an operation angle of the driving unit corresponding to the interval Ds is assumed as Es, an operation loss of the driving unit occurring from an operation start of the driving unit to an operation start of the moving mold is assumed as ΔE, and a certain operation distance or a certain operation angle of the driving unit is assumed as Eα. 12. The machine of claim 9 , further comprising a memory storing the operation loss ΔE. 13. The machine of claim 9 , wherein the mold clamping mechanism comprises a toggle mechanism having a plurality of links coupled to one another. 14. The machine of claim 9 , wherein the mold clamping mechanism comprises a ball screw moving the moving platen. 15. The machine of claim 9 , further comprising an encoder detecting a position or angle of the driving unit. 16. A driving method of a molding machine comprising a fixed platen constructed and arranged to have a fixed mold attached thereto, a moving platen constructed and arranged to have a moving mold attached thereto, a mold clamping mechanism constructed and arranged to clamp the moving mold and the fixed mold with each other by moving the moving mold, a driving unit operating the mold clamping mechanism, and a control unit controlling the driving unit, the method comprising: calculating an operation loss ΔE of the driving unit occurring from an operation start of the driving unit to an operation start of the moving mold based on a torque T or a consumed power of the driving unit; when the moving mold and the fixed mold are to be spaced apart by an interval Ds, operating the driving unit by as much as (Es+ΔE) or (Es+ΔE+Eα) from a state where the moving mold and the fixed mold are in contact with each other; and returning the driving unit by as much as the operation loss ΔE or (ΔE+Eα), wherein an operation distance or an operation angle of the driving unit corresponding to the interval Ds is assumed as Es, an operation loss of the driving unit occurring from an operation start of the driving unit to an operation start of the moving mold is assumed as ΔE, and a certain operation distance or a certain operation angle of the driving unit is assu