Valve device

The invention claimed is: 1. A valve device comprising: a stationary disk that is shaped in a plate form and has at least one passage hole which is configured to conduct a fluid through the at least one passage hole; a drive device that is configured to output a rotational force; a shaft that is configured to be rotated about a central axis, which is predetermined, by the rotational force; a rotor that is configured to increase or decrease an opening degree of the at least one passage hole in response to rotation of the shaft; a housing that has a boss portion, through which the shaft is inserted; and a seal member that is shaped in a ring form and is configured to seal a gap between the shaft and the boss portion, wherein: the shaft includes a holder that has a contact portion which is in contact with the seal member; the holder is made of a polymer material which includes reinforcing fibers contained in resin, wherein at least the contact portion at the holder extends in an axial direction of the shaft, and a distal end portion of the holder located on one side in the axial direction is coupled to a gear arrangement of the drive device while the distal end portion has a trace of an injection gate for injecting the polymer material; the shaft includes a shaft core, which is made of metal, wherein the shaft core includes the central axis and extends in the axial direction; and the holder includes an intermediate portion that has an inner diameter which is larger than an outer diameter of the shaft core. 2. The valve device according to claim 1 , wherein: the shaft is an insert molded product, in which the shaft core and the holder are integrally molded, and thereby one end portion of the shaft core, which is located on the one side in the axial direction, is placed at an inside of the distal end portion, and the shaft core extends through the contact portion. 3. The valve device according to claim 1 , wherein a torsion spring is placed between the housing and the shaft and is configured to urge the shaft relative to the housing in a circumferential direction around the central axis. 4. The valve device according to claim 1 , wherein: the rotor includes: a drive disk that is shaped in a plate form and is configured to slide relative to the stationary disk in a state where the drive disk is opposed to the stationary disk; and a lever that is fixed to the drive disk and couples between the drive disk and the shaft to enable integral rotation of the drive disk and the shaft in a state where the drive disk is displaceable in the axial direction; and a compression spring is placed between the holder and the rotor and is configured to urge the rotor against the stationary disk. 5. The valve device according to claim 1 , wherein the reinforcing fibers are glass fibers. 6. A valve device comprising: a stationary disk that is shaped in a plate form and has at least one passage hole which is configured to conduct a fluid through the at least one passage hole; a drive device that is configured to output a rotational force; a shaft that is configured to be rotated about a central axis, which is predetermined, by the rotational force; a rotor that is configured to increase or decrease an opening degree of the at least one passage hole in response to rotation of the shaft; a housing that has a boss portion, through which the shaft is inserted; and a seal member that is shaped in a ring form and is configured to seal a gap between the shaft and the boss portion, wherein: the shaft includes a holder that has a contact portion which is in contact with the seal member; the holder is made of a polymer material which includes reinforcing fibers contained in resin, wherein at least the contact portion at the holder extends in an axial direction of the shaft, and the reinforcing fibers of at least the contact portion are oriented such that an orientation of the reinforcing fibers coincides with the axial direction; the shaft includes a shaft core, which is made of metal, wherein the shaft core includes the central axis and extends in the axial direction; and the holder includes an intermediate portion that has an inner diameter which is larger than an outer diameter of the shaft core. 7. The valve device according to claim 6 , wherein a torsion spring is placed between the housing and the shaft and is configured to urge the shaft relative to the housing in a circumferential direction around the central axis. 8. The valve device according to claim 6 , wherein: the rotor includes: a drive disk that is shaped in a plate form and is configured to slide relative to the stationary disk in a state where the drive disk is opposed to the stationary disk; and a lever that is fixed to the drive disk and couples between the drive disk and the shaft to enable integral rotation of the drive disk and the shaft in a state where the drive disk is displaceable in the axial direction; and a compression spring is placed between the holder and the rotor and is configured to urge the rotor against the stationary disk. 9. The valve device according to claim 6 , wherein the reinforcing fibers are glass fibers. 10. A valve device comprising: a stationary disk that is shaped in a plate form and has at least one passage hole which is configured to conduct a fluid through the at least one passage hole; a drive device that is configured to output a rotational force; a shaft that is configured to be rotated about a central axis, which is predetermined, by the rotational force; a rotor that is configured to increase or decrease an opening degree of the at least one passage hole in response to rotation of the shaft; a housing that has a boss portion, through which the shaft is inserted; and a seal member that is shaped in a ring form and is configured to seal a gap between the shaft and the boss portion, wherein: the shaft includes a holder that has a contact portion which is in contact with the seal member; the holder is made of a polymer material which includes reinforcing fibers contained in resin, wherein at least the contact portion at the holder extends in an axial direction of the shaft, and a distal end portion of the holder located on one side in the axial direction is coupled to a gear arrangement of the drive device while the distal end portion has a trace of an injection gate for injecting the polymer material; and the reinforcing fibers are glass fibers.