Refrigerant control valve apparatus

The invention claimed is: 1. A refrigerant control valve apparatus comprising: a housing including an inlet port which receives a refrigerant from an internal combustion engine and at least two discharge ports which are constituted by a first discharge port including a large diameter and a second discharge port including a small diameter, the first discharge port and the second discharge port distributing and sending out the refrigerant; a rotor forming a rotational body and controlling a flow of the refrigerant by rotating about a rotational axis at an inner portion of the housing; a first seal provided at the first discharge port and making contact with an outer surface of the rotor, the first seal including an annular form; and a second seal provided at the second discharge port and making contact with an outer surface of the rotor, the second seal including an annular form, the rotor including: a receiving portion receiving the refrigerant from the inlet port; an inner void accommodating the refrigerant which is received; and a bore portion including a first bore portion and a second bore portion for sending out the refrigerant to the first discharge port or the second discharge port, the first bore portion being formed in a wide width, the second bore portion being formed in a narrow width, at least a part of the second seal is configured to make contact with an edge portion of the first bore portion in a case where at least a part of the first bore portion is in communication with the second discharge port by a rotation of the rotor, the first discharge port includes a center line passing through a center of a sphere forming the rotor, and the first discharge port includes a discharge-side end portion inclined in a direction away from the inlet port. 2. The refrigerant control valve apparatus according to claim 1 , further comprising a control case mounted at an external portion of the housing, the control case specifying a rotation position of the rotor by a driving force of an actuator. 3. The refrigerant control valve apparatus according to claim 1 , wherein in a case where the rotor is rotated about the rotational axis, a positional relation is specified so that a reference locus at an outer circumference of the second bore portion at one side in a direction along the rotational axis overlaps an outer circumference of the first bore portion, and an intermediate locus at the outer circumference of the second bore portion at the other side in the direction along the rotational axis reaches a center portion of the first bore portion, the first bore portion is provided with a rib portion which divides the first bore portion at the intermediate locus. 4. The refrigerant control valve apparatus according to claim 3 , wherein the rib portion is provided being displaced in a direction of the rotational axis relative to an imaginary outer wall surface which is obtained by an extension of an outer wall portion of the rotor for restraining a contact pressure with the first seal. 5. The refrigerant control valve apparatus according to claim 4 , wherein the rib portion includes a center region which is displaced in the direction of the rotational axis relative to the imaginary outer wall surface at a center of the rotor in a circumferential direction thereof and an inclined region where an outer end portion of the rib portion is gently inclined to be connected to the center region and the outer wall portion of the rotor. 6. The refrigerant control valve apparatus according to claim 1 , wherein the rotor includes an outer wall portion in a spherical form with reference to a wall center on the rotational axis. 7. The refrigerant control valve apparatus according to claim 1 , wherein the bore portion includes a groove which extends to a side where the bore portion starts overlapping the discharge port with the rotation of the rotor. 8. The refrigerant control valve apparatus according to claim 1 , further comprising a stopper provided projecting at a region in an outer circumference of the rotor, the region at which the stopper is inhibited from making contact with the first seal and the second seal, the stopper determining a rotation limit of the rotor. 9. The refrigerant control valve apparatus according to claim 1 , wherein the second bore portion includes a longitudinal rib portion extending in an extending direction of a rotational shaft, the longitudinal rib portion being retracted towards a center of the rotational shaft relative to an imaginary outer wall surface obtained by an extension of an outer wall portion of the rotor for restraining a contact pressure with the first seal. 10. A refrigerant control valve apparatus comprising: a housing including at least two inlet ports which are constituted by a first inlet port including a large diameter and a second inlet port including a small diameter, the first inlet port and the second inlet port distributing and receiving a refrigerant from an internal combustion engine, the housing including a discharge port which sends out the refrigerant; a rotor forming a rotational body and controlling a flow of the refrigerant by rotating about a rotational axis at an inner portion of the housing; a first seal provided at the first inlet port and making contact with an outer surface of the rotor, the first seal including an annular form; and a second seal provided at the second inlet port and making contact with an outer surface of the rotor, the second seal including an annular form, the rotor including: a receiving portion including a first receiving portion and a second receiving portion for receiving the refrigerant from the first inlet port, the first receiving portion being formed in a wide width, the second receiving portion being formed in a narrow width; an inner void accommodating the refrigerant which is received; and a bore portion provided to send out the refrigerant to the discharge port, at least a part of the second seal is configured to make contact with an edge portion of the first receiving portion in a case where at least a part of the first receiving portion is in communication with the second inlet port by a rotation of the rotor, the first inlet port includes a center line passing through a center of a sphere forming the rotor, and the first inlet port includes an inlet-side end portion inclined in a direction away from the discharge port. 11. The refrigerant control valve apparatus according to claim 10 , wherein in a case where the rotor is rotated about the rotational axis, a positional relation is specified so that a reference locus at an outer circumference of the second receiving portion at one side in a direction along the rotational axis overlaps an outer circumference of the first receiving portion, and an intermediate locus at the outer circumference of the second receiving portion at the other side in the direction along the rotational axis reaches a center portion of the first receiving portion, the first receiving portion is provided with a rib portion which divides the first receiving portion at the intermediate locus. 12. The refrigerant control valve apparatus according to claim 10 , wherein the receiving portion includes a groove which extends to a side where the receiving portion starts overlapping the inlet port with the rotation of the rotor. 13. The refrigerant control valve apparatus according to claim 10 , wherein the second receiving portion includes a longitudinal rib portion extending in an extending direction of a rotational shaft, the longitudinal rib portion being retracted towards a center of the rotational shaft relative to an imaginary outer wa