Rotary control valve

The invention claimed is: 1. A rotary control valve comprising: a rotor including a tubular part structured to rotate and an opening communicating with an inner peripheral side and an outer peripheral side of the tubular part; a seal member including a contact face, an internal passage, a noncontact part, and a ridge, wherein: the contact face is structured to be in sliding contact with the outer peripheral side of the tubular part, and has an arc-curved surface shaped to fit with the outer peripheral side of the tubular part; the internal passage is structured to communicate with the opening of the tubular part; and the noncontact part is formed at one of a preceding-side end and a following-side end of the arc-curved surface in a rotational direction of the tubular part, and is structured to be out of contact with the outer peripheral side of the tubular part, so as to define the ridge in the arc-curved surface of the contact face; a biasing member disposed at a face of the seal member opposite to the contact face of the seal member, and structured to press the seal member so as to cause the contact face of the seal member to be pressed on the outer peripheral side of the tubular part; and a drive mechanism structured to rotate the rotor, wherein the seal member further includes a groove in an end face of the seal member opposite to the contact face of the seal member; the groove is formed at a position corresponding to the ridge of the seal member in a circumferential direction of the seal member, and extends in a radial direction of the seal member; and the groove is longer in the radial direction than in the circumferential direction. 2. The rotary control valve according to claim 1 , wherein the ridge in the contact face of the seal member has a shape of a straight line, and extends in a direction of an axis of the tubular part of the rotor in a state that the seal member is installed in a regular attitude. 3. The rotary control valve according to claim 1 , further comprising: a communication passage structured to allow fluid that has flowed into the communication passage through the opening of the tubular part to flow outside, wherein the seal member is slidably disposed in the communication passage. 4. The rotary control valve according to claim 3 , further comprising: a seal ring disposed between an outer periphery of the seal member and an inner periphery of the communication passage. 5. The rotary control valve according to claim 4 , further comprising: a seal groove formed in the outer periphery of the seal member, wherein the seal groove contains the seal ring. 6. The rotary control valve according to claim 5 , wherein the seal ring has an X-shaped cross section. 7. The rotary control valve according to claim 1 , wherein the rotor and the internal passage of the seal member are structured to allow fluid to flow in the rotor and the internal passage, wherein the fluid is cooling water of an internal combustion engine. 8. The rotary control valve according to claim 7 , wherein the cooling-water that has been supplied to an inside of the tubular part of the rotor is supplied to the internal passage of the seal member via the opening of the tubular part, due to the rotation of the rotor driven by the drive mechanism. 9. The rotary control valve according to claim 1 , wherein the ridge of the seal member is formed at each of the preceding-side end and the following-side end of the arc-curved surface of the contact face in the rotational direction of the tubular part of the rotor. 10. The rotary control valve according to claim 1 , wherein the tubular part of the rotor and the seal member are made of synthetic resin. 11. The rotary control valve according to claim 10 , wherein the seal member is made of a material whose main raw material is polytetrafluoroethylene resin. 12. The rotary control valve according to claim 11 , wherein the seal member is made of a composite material in which polytetrafluoroethylene resin is mixed with carbon. 13. The rotary control valve according to claim 10 , wherein the rotor is made of a material whose main raw material is polyphenylenesulfide resin. 14. The rotary control valve according to claim 13 , wherein the rotor is made of a composite material in which polyphenylenesulfide resin is mixed with glass fiber. 15. The rotary control valve according to claim 1 , wherein: the seal member further includes a positioning marker at the end face opposite to the contact face of the seal member, wherein the positioning marker is formed at a position corresponding to the noncontact part of the seal member in a circumferential direction of the seal member; and the positioning marker is configured as the groove formed in the end face of the seal member opposite to the contact face. 16. The rotary control valve according to claim 15 , wherein: the ridge of the seal member is formed at each of the preceding-side end and the following-side end of the arc-curved surface of the contact face in the rotational direction of the tubular part; and the seal member includes a pair of the grooves formed at the positions corresponding to the ridges, at the end face of the seal member opposite to the contact face, wherein the grooves extend in the radial direction of the seal member. 17. A rotary control valve comprising: a rotor including a tubular part structured to rotate and an opening communicating with an inner peripheral side and an outer peripheral side of the tubular part; a seal member including a contact face, a rear end face, an internal passage, a cut-off part, and a ridge, wherein: the contact face is structured to be in sliding contact with the outer peripheral side of the tubular part, and has an arc-curved surface shaped to fit with the outer peripheral side of the tubular part; the internal passage is structured to communicate with the opening of the tubular part; and the cut-off part is formed at one of a preceding-side end and a following-side end of the arc-curved surface in a rotational direction of the tubular part, and is structured to be out of contact with the outer peripheral side of the tubular part, so as to define the ridge in the arc-curved surface of the contact face; a biasing member disposed at the rear end face of the seal member opposite to the contact face of the seal member, and structured to press the seal member so as to cause the contact face of the seal member to be pressed on the outer peripheral side of the tubular part; and a drive mechanism structured to rotate the rotor, wherein: the seal member further includes a groove in the rear end face of the seal member opposite to the contact face of the seal member; the groove is formed at a position corresponding to the ridge of the seal member in a circumferential direction of the seal member, and extends in a radial direction of the seal member; and the groove is longer in the radial direction than in the circumferential direction. 18. The rotary control valve according to claim 17 , wherein the cut-off part of the seal member is formed in a shape of a step by cutting off a part of the seal member at a predetermined length in a direction of an axis of the seal member, from the preceding-side end or the following-side end of the contact face toward the rear end face. 19. A rotary control valve comprising: a rotor including a tubular part structured to rotate and an opening communicating with an inner peripheral side and an outer peripheral side of the tubular part; a seal member including a co