Coolant system

What is claimed is: 1. A coolant system comprising: a reservoir that stores coolant discharged from a machine tool; a filtering device that filters the coolant in the reservoir; a secondary reservoir fluidically connected with the reservoir, to be supplied with the coolant filtered by the filtering device; a first pump having a suction port in the secondary reservoir, and that feeds the coolant after filtration to the machine tool; and a second pump that feeds the coolant in the reservoir to the filtering device; wherein the reservoir comprises: a reservoir frame; and a partition member that partitions the interior of the reservoir frame into an outer peripheral coolant tub and a central coolant tub and that is formed with a slit extending in the depth direction to make the outer peripheral coolant tub communicate with the central coolant tub, wherein a coolant return extends from the secondary reservoir to the outer peripheral coolant tub for supplying coolant from the secondary reservoir to the outer peripheral coolant tub; wherein a suction port of the second pump is arranged in the central coolant tub; the system further comprising: a first supply port that supplies the central coolant tub with the coolant fed from the machine tool without passing through the outer peripheral coolant tub; and a second supply port that supplies the outer peripheral coolant tub with at least a part of the coolant filtered by the filtering device and fed from the filtering device without passing through the central coolant tub. 2. The coolant system in claim 1 , wherein: the first supply port is oriented to generate a rotational flow of the coolant in the central coolant tub; and the suction port of the second pump is arranged at the center of the central coolant tub. 3. The coolant system in claim 2 , further comprising: a guide member that is provided on an internal surface of the partition member on an upper stream side than the slit in the rotational flow of the coolant in the central coolant tub for guiding the flow of the coolant in the central coolant tub radially inward of the central coolant tub. 4. The coolant system in claim 2 , wherein: the second supply port is oriented to generate a rotational flow of the coolant in the outer peripheral coolant tub; and the rotational flow in the central coolant tub and the rotational flow in the outer peripheral coolant tub are the same in rotational direction. 5. The coolant system in claim 1 , wherein: the flow quantity per unit time of the coolant that is supplied from the machine tool to the central coolant tub without passing through the outer peripheral coolant tub is set to be less than the flow quantity per unit time of the coolant that is drawn from the suction port of the second pump. 6. The coolant system in claim 1 , further comprising: a first coolant return mechanism arranged to extend from the machine tool to the central coolant tub for supplying the coolant discharged from the machine tool to the central coolant tub; the first coolant return mechanism including: the first supply port; and a primary filtering device that removes machining chips of metal contained in the coolant discharged from the machine tool and that supplies to the central coolant tub the coolant from which the machining chips of metal have been removed. 7. The coolant system in claim 6 , wherein a second coolant return mechanism is arranged to supply at least the part of the coolant that is to overflow from the secondary reservoir to the outer peripheral coolant tub. 8. The coolant system in claim 1 , wherein: the reservoir frame is constituted as a unit frame that unites into a single body the secondary reservoir and the reservoir whose interior is partitioned into the outer peripheral coolant tub and the central coolant tub.