Valve body, electronic control throttle body, motor-driven throttle body, and valve device

The invention claimed is: 1. An electronic control throttle body comprising: a passage forming body that forms an intake air passage through which intake air flows; a pair of bearing fixing portions that fixes a pair of bearings configured to rotatably support a throttle shaft disposed across the intake air passage; a flow path forming body that surrounds the intake air passage and forms a flow path through which a heat-exchange medium flows; and an accommodating portion that is provided so as to surround the bearing fixing portion of one of the pair of bearings and forms an accommodation space that is connected to a space where an electric element relating to driving of the throttle shaft is accommodated, wherein the flow path is constituted by a first flow path closer to the one bearing fixing portion positioned on a side of the accommodation space between the pair of bearing fixing portions, and a second flow path closer to the other bearing fixing portion positioned on an opposite side of the accommodation space between the pair of bearing fixing portions, and the second flow path is formed at a position closer to the bearing fixing portion than the first flow path, wherein a flow path cross-sectional area of the first flow path is smaller than a flow path cross-sectional area of the second flow path. 2. A valve device comprising: a passage member in which a fluid passage is formed; a shaft which is rotatably supported by a bearing fixed to the passage member; and a valve which is fixed to the shaft and controls a passage cross-sectional area of the fluid passage by rotation of the shaft, wherein the passage member is integrally formed with a refrigerant passage, the valve is a throttle valve, the fluid passage is an intake passage, and the cooling medium is an engine coolant, the shaft extends across the intake passage, the bearing rotatably supporting the shaft is formed of a pair of bearings facing each other with the intake passage sandwiched therebetween, the refrigerant passage surrounds an outer side of a wall surface forming the intake passage and is formed as an annular passage that is formed between the intake passage and an outer wall integrally formed with the passage member, and inlet and outlet portions of an engine coolant are formed in the refrigerant passage connecting the pair of bearings. 3. The valve device according to claim 2 , wherein the valve is an EGR valve, the fluid passage is an exhaust gas passage, and a cooling medium is an engine coolant. 4. The valve device according to claim 2 , wherein a partition wall dividing the annular passage is provided between the inlet and outlet portions of the engine coolant. 5. The valve device according to claim 2 , wherein the annular passage is formed at an attachment end face of the passage member as an arcuate groove which is released in a flowing direction of air. 6. A motor-driven throttle body formed with an intake passage whose passage cross-sectional area is controlled by rotation of a throttle valve driven by a motor, the throttle body comprising: a pair of bearing fixing portions to which a pair of bearings axially supporting a throttle shaft to which the throttle valve is fixed; an accommodating portion in which functional parts, configured to drive the throttle valve including at least the motor and a spring that biases the throttle valve in a rotational direction, are accommodated so as to surround one bearing fixing portion between the pair of bearing fixing portions; and a cover attached to the throttle body so as to cover the functional parts, wherein an engine coolant passage, which guides an engine coolant, is formed integrally with the throttle body to be adjacent to walls of the bearing fixing portions, the bearing and the engine coolant are configured to be capable of transferring heat through the walls of the bearing fixing portions, and a cross-sectional area of the engine coolant passage close to the bearing fixing portion on a side opposite to the accommodating portion is configured to be larger than a cross-sectional area of the engine coolant passage close to the bearing fixing portion on a side of the accommodating portion. 7. The motor-driven throttle body according to claim 6 , wherein the spring among the functional parts is disposed between an outer circumference of the one bearing fixing portion and a wall of the engine coolant passage close to the one bearing fixing portion. 8. The motor-driven throttle body according to claim 6 , wherein an outer circumference of the other bearing fixing portion and a wall of the engine coolant passage close to the other bearing fixing portion are formed by a common wall. 9. The motor-driven throttle body according to claim 6 , wherein the engine coolant passage close to the bearing fixing portion on a side opposite to the accommodating portion is formed to be closer to the bearing fixing portion than the engine coolant passage close to the bearing fixing portion on a side of the accommodating portion. 10. The motor-driven throttle body according to claim 6 , wherein the refrigerant passage connecting the pair of bearings is formed as an annular passage that surrounds a periphery of the intake passage, and inlet and outlet portions of the engine coolant are formed in the annular passage. 11. The motor-driven throttle body according to claim 10 , wherein a partition wall dividing the annular passage is provided between the inlet and outlet portions of the engine coolant. 12. The motor-driven throttle body according to claim 6 , wherein the annular passage is formed at an attachment end face of the passage member as an arcuate groove which is released in a flowing direction of air. 13. A motor-driven throttle body, which is installed upstream of an intercooler and formed with an intake passage whose passage cross-sectional area is controlled by rotation of a throttle valve driven by a motor, the throttle body comprising: a pair of bearing fixing portions to which a pair of bearings axially supporting a throttle shaft to which the throttle valve is fixed; an accommodating portion in which functional parts, configured to drive the throttle valve including at least the motor and a spring that biases the throttle valve in a rotational direction, are accommodated so as to surround one bearing fixing portion between the pair of bearing fixing portions; and a cover attached to the throttle body so as to cover the functional parts, wherein an engine coolant passage, which guides an engine coolant, is formed integrally with the throttle body to be adjacent to walls of the bearing fixing portions, the bearing and the engine coolant are configured to be capable of transferring heat through the walls of the bearing fixing portions, the engine coolant passage is formed as an annular passage which surrounds an outer side of a wall surface forming the intake passage and is formed between an outer wall integrally formed with a passage member and the wall surface, an inlet pipe for guiding the engine coolant and an outlet pipe for discharging the engine coolant heated from a space are connected to the engine coolant passage, and the inlet pipe is provided on a side closer to the bearing fixing portion on a side of the accommodating portion and the outlet pipe is provided on a side closer to the bearing fixing portion on a side opposite to the accommodating portion. 14. The motor-driven throttle body according to claim 13 , wherein the annular passage is formed in an attachment end face of the passage member on a side connected to the intercooler as an arcuat