Three-way valve for flow rate control and temperature control device using same

The invention claimed is: 1. A three-way valve for flow rate control, comprising: a valve main body including a valve seat, the valve seat having a columnar space and having a first valve port, which allows inflow of a first fluid and has a rectangular cross section, and a second valve port, which allows inflow of a second fluid and has a rectangular cross section; a valve body being provided in a freely rotatable manner in the valve seat of the valve main body so as to simultaneously switch the first valve port from an closed state to an opened state and switch the second valve port from an opened state to a closed state, the valve body being formed into a half-cylindrical shape having a predetermined central angle and being formed into a curved-surface shape at each of both end surfaces of the valve body in a circumferential direction; and drive means configured to drive the valve body to rotate. 2. A three-way valve for flow rate control according to claim 1 , wherein the valve body has the first valve port and the second valve port which are formed in an axial symmetrical manner with respect to a rotation axis of the valve body as a center axis. 3. A three-way valve for flow rate control according to claim 1 or 2 , wherein the valve body is formed of a cylindrical body having a half-cylindrical portion, which is formed into a half-cylindrical shape having a predetermined central angle by opening an outer peripheral surface of a cylindrical body, and having one end surface thereof in an axial direction being closed and another end surface being opened. 4. A three-way valve for flow rate control according to claim 1 , wherein a cross section of each of both end portions of the valve body in the circumferential direction, which is taken along a direction intersecting the rotation axis, is formed into an arc shape. 5. A three-way valve for flow rate control according to claim 1 , wherein a cross section of each of both end portions of the valve body in the circumferential direction, which is taken along a direction intersecting the rotation axis, is formed into a curved shape obtained by smoothly connecting a first curved portion, which is positioned on an outer peripheral surface side of the valve body, and a second curved portion, which is positioned on an inner peripheral side of the valve body and has a curvature radius smaller than that of the first curved portion. 6. A temperature control device, comprising: temperature control means having a flow passage for temperature control which allows flow of a fluid for temperature control therethrough, the fluid for temperature control including a lower temperature fluid and a higher temperature fluid adjusted in mixture ratio; first supply means for supplying the lower temperature fluid adjusted to a first predetermined lower temperature; second supply means for supplying the higher temperature fluid adjusted to a second predetermined higher temperature; and a three-way valve connected to the first supply means and the second supply means, and configured to adjust the mixture ratio between the lower temperature fluid supplied from the first supply means and the higher temperature fluid supplied from the second supply means and allow the fluid for temperature control to flow through the flow passage for temperature control, wherein the three-way valve for flow rate control of claim 1 is used as the three-way valve. 7. A three-way valve for flow rate control, comprising: a valve main body including a valve seat, the valve seat having a columnar space and having a first valve port, which allows inflow of a first fluid and has a rectangular cross section, and a second valve port, which allows inflow of a second fluid and has a rectangular cross section; a valve body being provided in a freely rotatable manner in the valve seat of the valve main body so as to simultaneously switch the first valve port from an closed state to an opened state and switch the second valve port from an opened state to a closed state, the valve body being formed into a half-cylindrical shape having a predetermined central angle and being formed into a curved-surface shape or a planar shape at each of both end surfaces of the valve body in a circumferential direction; and drive means configured to drive the valve body to rotate.