Pump, method for manufacturing pump, and refrigeration cycle device

The invention claimed is: 1. A motor rotor comprising: a rotor unit including a resin portion and an annular magnet; and the annular magnet including a plurality of through holes, each through hole extending in an axial direction of the annular magnet and being separated from other of the through holes in radial and circumferential directions of the annular magnet, wherein the rotor unit is integrally molded from a thermoplastic resin and the annular magnet is held in the resin portion of the integrally molded rotor unit, and the through holes are completely filled with the thermoplastic resin. 2. The motor rotor according to claim 1 , wherein the annular magnet has a first end face and a second end face opposite the first end face in the axial direction of the magnet, the first end face being adapted to oppose a magnetic-pole position detection element provided in a stator, and an inner diameter of the through holes increases toward the first end face of the magnet from a gradient changing position that is a reference position at a certain depth from the first end face of the magnet, and increases from the gradient changing position toward the second end face of the magnet. 3. The motor rotor according to claim 2 , wherein a gradient angle and a length of each of the through holes is defined so that a magnet volume on a first side of the magnet extending from a central position in the axial direction of the magnet to the first end face of the magnet is larger than a magnet volume on a second side of the magnet extending from the central position to the second end face of the magnet. 4. A motor comprising the motor rotor and the stator according to claim 2 . 5. A pump comprising the motor according to claim 4 . 6. A refrigeration cycle device comprising: a refrigerant circuit; a water circuit; and a refrigerant-water heat exchanger that exchanges heat between a refrigerant and water by connecting the refrigerant circuit and the water circuit, wherein the water circuit includes the pump according to claim 5 . 7. The motor rotor according to claim 1 , wherein the plurality of through holes are arranged such that each of the through holes is on a same circumference, and each of the through holes is provided between magnetic poles formed in the motor rotor. 8. The motor rotor according to claim 1 , wherein the annular magnet has an end face facing in the axial direction of the magnet and adapted to oppose a magnetic-pole position detection element provided in a stator, the magnet is a resin magnet, and gates, through each of which a material of the resin magnet is supplied to each center of magnetic poles formed in the motor rotor, are provided on the end face of the magnet. 9. The motor rotor according to claim 1 , wherein the annular magnet has an end face facing in the axial direction of the magnet and adapted to oppose a magnetic-pole position detection element provided in a stator, and the magnet is provided with protrusions on the end face thereof, each of the protrusions being arranged on a same circumference and at a center of each of the magnetic poles formed in the motor rotor. 10. The motor rotor according to claim 1 , wherein the annular magnet has a first end face and a second end face opposite the first end face in the axial direction of the magnet, the first end face being adapted to oppose a magnetic-pole position detection element provided in a stator, and the annular magnet has a plurality of protrusions provided on an inner periphery surface at a certain depth from the second end face, each of the protrusions having a horn shape in cross section and extending in the axial direction toward the second end face of the magnet. 11. The motor rotor according to claim 1 , wherein the annular magnet has an end face facing in the axial direction of the magnet and adapted to oppose a magnetic-pole position detection element provided in a stator, and the annular magnet is provided with a plurality of notches formed on an inner peripheral surface of the magnet and opening at the first end face, each of the notches having a substantially horn shape in cross section and disposed substantially at a regular interval in the circumferential direction of the magnet. 12. A motor rotor comprising: an annular magnet; and a resin portion formed from a thermoplastic resin from which is made an integral molding for a rotor unit including the magnet, wherein the magnet includes a plurality of through holes that each extend in an axial direction, each of the through holes is embedded in the thermoplastic resin, one end face is in the axial direction of the magnet and opposes a magnetic-pole position detection element provided in a stator, the magnet is a resin magnet, and gates, through each of which a material of the resin magnet is supplied to each center of magnetic poles formed in the motor rotor, are provided on an end face on a side of the magnetic-pole position detection element of the magnet. 13. A motor rotor comprising: an annular magnet; and a resin portion formed from a thermoplastic resin from which is made an integral molding for a rotor unit including the magnet, wherein the magnet includes a plurality of through holes that each extend in an axial direction, each of the through holes is embedded in the thermoplastic resin, one end face is in the axial direction of the magnet and opposes a magnetic-pole position detection element provided in a stator, and the magnet is provided with protrusions, each of which is arranged on a same circumference and at a center of each of the magnetic poles formed in the motor rotor, on an end face on a side of the magnetic-pole position detection element.