Chiller system and control method thereof

What is claimed is: 1. A chiller system comprising: a plurality of chiller modules in which a refrigeration cycle using an odd number of chiller modules is performed to supply cold water, the plurality of chiller modules each comprising a condenser in which coolant is circulated and an evaporator in which cold water is circulated; a module control device to generate an operation signal to simultaneously or successively operate the plurality of chiller modules, the module control device controlling operations of the chiller modules; a water tube disposed within the condenser or the evaporator to guide a flow of the coolant or the cold water; a first cap assembly disposed on one side of the plurality of chiller modules, the first cap assembly comprising an inlet for the cold water or the coolant and an outlet for the cold water and the coolant; and a passage partition part disposed on the first cap assembly to restrict introduction of the cold water through the inlet into the water tube of the condenser or the evaporator. 2. The chiller system according to claim 1 , wherein the first cap assembly comprises a first cap body to define a flow space of the coolant or the cold water, and wherein the flow space is partitioned into an inflow space part in which the coolant or the cold water is introduced into the plurality of chiller modules and a discharge space part in which the coolant or the cold water is discharged from the chiller modules by the passage partition part. 3. The chiller system according to claim 2 , wherein each of the plurality of chiller modules comprises a shell coupling plate disposed on at least one side of the condenser or the evaporator and comprising a tube coupling part coupled to the water tube, and wherein the passage partition part extends from an inner circumferential surface of the first cap body to the shell coupling plate. 4. The chiller system according to claim 2 , further comprising a second cap assembly disposed on the another side of the plurality of chiller modules to switch a flow direction of the cold water passing through the water tube. 5. The chiller system according to claim 4 , wherein the condenser or evaporator comprises: a first water tube to guide a flow of the cold water from the first cap assembly to the second cap assembly; and a second water tube to guide a flow of the cold water from the second cap assembly to the first cap assembly. 6. The chiller system according to claim 1 , wherein the first cap assembly comprises: a tube sheet coupled to the water tube; and a gasket disposed on at least one side of the tube sheet to prevent water from leaking through the first cap assembly. 7. The chiller system according to claim 6 , wherein the tube sheet or the gasket comprises: a communication part communicating with the water tube of the condenser or evaporator; and a partition part extending from one side of the communication part to the other side, the partition part being coupled to the passage partition part. 8. The chiller system according to claim 1 , wherein the condenser and the evaporator are vertically disposed, and the first cap assembly is disposed on a side of each of the condenser and the evaporator, and wherein the inlet of the first cap assembly disposed on the side of the condenser is disposed above or below the outlet of the first cap assembly disposed on the side of the evaporator.